From 5433956d51859fa8a9d4d76e2877ee20c8fc6002 Mon Sep 17 00:00:00 2001 From: Timothy McDaniel Date: Sun, 1 Nov 2020 17:37:46 -0600 Subject: [PATCH] event/dlb2: add eventdev probe Add the eventdev portion of probe, and parse command line options, but do not initialize hardware. Signed-off-by: Timothy McDaniel Reviewed-by: Gage Eads --- drivers/event/dlb2/dlb2.c | 345 ++- drivers/event/dlb2/meson.build | 5 +- drivers/event/dlb2/pf/base/dlb2_hw_types.h | 367 +++ drivers/event/dlb2/pf/base/dlb2_mbox.h | 596 ++++ drivers/event/dlb2/pf/base/dlb2_osdep.h | 230 ++ .../event/dlb2/pf/base/dlb2_osdep_bitmap.h | 440 +++ drivers/event/dlb2/pf/base/dlb2_osdep_list.h | 131 + drivers/event/dlb2/pf/base/dlb2_osdep_types.h | 31 + drivers/event/dlb2/pf/base/dlb2_regs.h | 2527 +++++++++++++++++ drivers/event/dlb2/pf/base/dlb2_resource.h | 1913 +++++++++++++ drivers/event/dlb2/pf/dlb2_main.c | 621 ++++ drivers/event/dlb2/pf/dlb2_main.h | 98 + drivers/event/dlb2/pf/dlb2_pf.c | 196 ++ 13 files changed, 7498 insertions(+), 2 deletions(-) create mode 100644 drivers/event/dlb2/pf/base/dlb2_hw_types.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_mbox.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_osdep.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_osdep_bitmap.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_osdep_list.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_osdep_types.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_regs.h create mode 100644 drivers/event/dlb2/pf/base/dlb2_resource.h create mode 100644 drivers/event/dlb2/pf/dlb2_main.c create mode 100644 drivers/event/dlb2/pf/dlb2_main.h create mode 100644 drivers/event/dlb2/pf/dlb2_pf.c diff --git a/drivers/event/dlb2/dlb2.c b/drivers/event/dlb2/dlb2.c index 2082dd67d4..1b119797f1 100644 --- a/drivers/event/dlb2/dlb2.c +++ b/drivers/event/dlb2/dlb2.c @@ -2,6 +2,349 @@ * Copyright(c) 2016-2020 Intel Corporation */ -#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "dlb2_priv.h" +#include "dlb2_inline_fns.h" + +/* + * Resources exposed to eventdev. Some values overridden at runtime using + * values returned by the DLB kernel driver. + */ +#if (RTE_EVENT_MAX_QUEUES_PER_DEV > UINT8_MAX) +#error "RTE_EVENT_MAX_QUEUES_PER_DEV cannot fit in member max_event_queues" +#endif + +struct process_local_port_data +dlb2_port[DLB2_MAX_NUM_PORTS][DLB2_NUM_PORT_TYPES]; + +#define DLB2_BASE_10 10 + +static int +dlb2_string_to_int(int *result, const char *str) +{ + long ret; + char *endptr; + + if (str == NULL || result == NULL) + return -EINVAL; + + errno = 0; + ret = strtol(str, &endptr, DLB2_BASE_10); + if (errno) + return -errno; + + /* long int and int may be different width for some architectures */ + if (ret < INT_MIN || ret > INT_MAX || endptr == str) + return -EINVAL; + + *result = ret; + return 0; +} + +static int +set_numa_node(const char *key __rte_unused, const char *value, void *opaque) +{ + int *socket_id = opaque; + int ret; + + ret = dlb2_string_to_int(socket_id, value); + if (ret < 0) + return ret; + + if (*socket_id > RTE_MAX_NUMA_NODES) + return -EINVAL; + return 0; +} + +static int +set_max_num_events(const char *key __rte_unused, + const char *value, + void *opaque) +{ + int *max_num_events = opaque; + int ret; + + if (value == NULL || opaque == NULL) { + DLB2_LOG_ERR("NULL pointer\n"); + return -EINVAL; + } + + ret = dlb2_string_to_int(max_num_events, value); + if (ret < 0) + return ret; + + if (*max_num_events < 0 || *max_num_events > + DLB2_MAX_NUM_LDB_CREDITS) { + DLB2_LOG_ERR("dlb2: max_num_events must be between 0 and %d\n", + DLB2_MAX_NUM_LDB_CREDITS); + return -EINVAL; + } + + return 0; +} + +static int +set_num_dir_credits(const char *key __rte_unused, + const char *value, + void *opaque) +{ + int *num_dir_credits = opaque; + int ret; + + if (value == NULL || opaque == NULL) { + DLB2_LOG_ERR("NULL pointer\n"); + return -EINVAL; + } + + ret = dlb2_string_to_int(num_dir_credits, value); + if (ret < 0) + return ret; + + if (*num_dir_credits < 0 || + *num_dir_credits > DLB2_MAX_NUM_DIR_CREDITS) { + DLB2_LOG_ERR("dlb2: num_dir_credits must be between 0 and %d\n", + DLB2_MAX_NUM_DIR_CREDITS); + return -EINVAL; + } + + return 0; +} + +static int +set_dev_id(const char *key __rte_unused, + const char *value, + void *opaque) +{ + int *dev_id = opaque; + int ret; + + if (value == NULL || opaque == NULL) { + DLB2_LOG_ERR("NULL pointer\n"); + return -EINVAL; + } + + ret = dlb2_string_to_int(dev_id, value); + if (ret < 0) + return ret; + + return 0; +} + +static int +set_cos(const char *key __rte_unused, + const char *value, + void *opaque) +{ + enum dlb2_cos *cos_id = opaque; + int x = 0; + int ret; + + if (value == NULL || opaque == NULL) { + DLB2_LOG_ERR("NULL pointer\n"); + return -EINVAL; + } + + ret = dlb2_string_to_int(&x, value); + if (ret < 0) + return ret; + + if (x != DLB2_COS_DEFAULT && (x < DLB2_COS_0 || x > DLB2_COS_3)) { + DLB2_LOG_ERR( + "COS %d out of range, must be DLB2_COS_DEFAULT or 0-3\n", + x); + return -EINVAL; + } + + *cos_id = x; + + return 0; +} + + +static int +set_qid_depth_thresh(const char *key __rte_unused, + const char *value, + void *opaque) +{ + struct dlb2_qid_depth_thresholds *qid_thresh = opaque; + int first, last, thresh, i; + + if (value == NULL || opaque == NULL) { + DLB2_LOG_ERR("NULL pointer\n"); + return -EINVAL; + } + + /* command line override may take one of the following 3 forms: + * qid_depth_thresh=all: ... all queues + * qid_depth_thresh=qidA-qidB: ... a range of queues + * qid_depth_thresh=qid: ... just one queue + */ + if (sscanf(value, "all:%d", &thresh) == 1) { + first = 0; + last = DLB2_MAX_NUM_QUEUES - 1; + } else if (sscanf(value, "%d-%d:%d", &first, &last, &thresh) == 3) { + /* we have everything we need */ + } else if (sscanf(value, "%d:%d", &first, &thresh) == 2) { + last = first; + } else { + DLB2_LOG_ERR("Error parsing qid depth devarg. Should be all:val, qid-qid:val, or qid:val\n"); + return -EINVAL; + } + + if (first > last || first < 0 || last >= DLB2_MAX_NUM_QUEUES) { + DLB2_LOG_ERR("Error parsing qid depth devarg, invalid qid value\n"); + return -EINVAL; + } + + if (thresh < 0 || thresh > DLB2_MAX_QUEUE_DEPTH_THRESHOLD) { + DLB2_LOG_ERR("Error parsing qid depth devarg, threshold > %d\n", + DLB2_MAX_QUEUE_DEPTH_THRESHOLD); + return -EINVAL; + } + + for (i = first; i <= last; i++) + qid_thresh->val[i] = thresh; /* indexed by qid */ + + return 0; +} + +int +dlb2_primary_eventdev_probe(struct rte_eventdev *dev, + const char *name, + struct dlb2_devargs *dlb2_args) +{ + RTE_SET_USED(dev); + RTE_SET_USED(name); + RTE_SET_USED(dlb2_args); + + return 0; +} + +int +dlb2_secondary_eventdev_probe(struct rte_eventdev *dev, + const char *name) +{ + RTE_SET_USED(dev); + RTE_SET_USED(name); + + return 0; +} + +int +dlb2_parse_params(const char *params, + const char *name, + struct dlb2_devargs *dlb2_args) +{ + int ret = 0; + static const char * const args[] = { NUMA_NODE_ARG, + DLB2_MAX_NUM_EVENTS, + DLB2_NUM_DIR_CREDITS, + DEV_ID_ARG, + DLB2_QID_DEPTH_THRESH_ARG, + DLB2_COS_ARG, + NULL }; + + if (params != NULL && params[0] != '\0') { + struct rte_kvargs *kvlist = rte_kvargs_parse(params, args); + + if (kvlist == NULL) { + RTE_LOG(INFO, PMD, + "Ignoring unsupported parameters when creating device '%s'\n", + name); + } else { + int ret = rte_kvargs_process(kvlist, NUMA_NODE_ARG, + set_numa_node, + &dlb2_args->socket_id); + if (ret != 0) { + DLB2_LOG_ERR("%s: Error parsing numa node parameter", + name); + rte_kvargs_free(kvlist); + return ret; + } + + ret = rte_kvargs_process(kvlist, DLB2_MAX_NUM_EVENTS, + set_max_num_events, + &dlb2_args->max_num_events); + if (ret != 0) { + DLB2_LOG_ERR("%s: Error parsing max_num_events parameter", + name); + rte_kvargs_free(kvlist); + return ret; + } + + ret = rte_kvargs_process(kvlist, + DLB2_NUM_DIR_CREDITS, + set_num_dir_credits, + &dlb2_args->num_dir_credits_override); + if (ret != 0) { + DLB2_LOG_ERR("%s: Error parsing num_dir_credits parameter", + name); + rte_kvargs_free(kvlist); + return ret; + } + + ret = rte_kvargs_process(kvlist, DEV_ID_ARG, + set_dev_id, + &dlb2_args->dev_id); + if (ret != 0) { + DLB2_LOG_ERR("%s: Error parsing dev_id parameter", + name); + rte_kvargs_free(kvlist); + return ret; + } + + ret = rte_kvargs_process( + kvlist, + DLB2_QID_DEPTH_THRESH_ARG, + set_qid_depth_thresh, + &dlb2_args->qid_depth_thresholds); + if (ret != 0) { + DLB2_LOG_ERR("%s: Error parsing qid_depth_thresh parameter", + name); + rte_kvargs_free(kvlist); + return ret; + } + + ret = rte_kvargs_process(kvlist, DLB2_COS_ARG, + set_cos, + &dlb2_args->cos_id); + if (ret != 0) { + DLB2_LOG_ERR("%s: Error parsing cos parameter", + name); + rte_kvargs_free(kvlist); + return ret; + } + + rte_kvargs_free(kvlist); + } + } + return ret; +} RTE_LOG_REGISTER(eventdev_dlb2_log_level, pmd.event.dlb2, NOTICE); diff --git a/drivers/event/dlb2/meson.build b/drivers/event/dlb2/meson.build index 6a569c95c9..2855dd5c77 100644 --- a/drivers/event/dlb2/meson.build +++ b/drivers/event/dlb2/meson.build @@ -7,7 +7,10 @@ if not is_linux or not dpdk_conf.has('RTE_ARCH_X86_64') subdir_done() endif -sources = files('dlb2.c') +sources = files('dlb2.c', + 'pf/dlb2_main.c', + 'pf/dlb2_pf.c' +) headers = files() diff --git a/drivers/event/dlb2/pf/base/dlb2_hw_types.h b/drivers/event/dlb2/pf/base/dlb2_hw_types.h new file mode 100644 index 0000000000..1d99f1e01c --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_hw_types.h @@ -0,0 +1,367 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_HW_TYPES_H +#define __DLB2_HW_TYPES_H + +#include "dlb2_user.h" + +#include "dlb2_osdep_list.h" +#include "dlb2_osdep_types.h" + +#define DLB2_MAX_NUM_VDEVS 16 +#define DLB2_MAX_NUM_DOMAINS 32 +#define DLB2_MAX_NUM_LDB_QUEUES 32 /* LDB == load-balanced */ +#define DLB2_MAX_NUM_DIR_QUEUES 64 /* DIR == directed */ +#define DLB2_MAX_NUM_LDB_PORTS 64 +#define DLB2_MAX_NUM_DIR_PORTS 64 +#define DLB2_MAX_NUM_LDB_CREDITS (8 * 1024) +#define DLB2_MAX_NUM_DIR_CREDITS (2 * 1024) +#define DLB2_MAX_NUM_HIST_LIST_ENTRIES 2048 +#define DLB2_MAX_NUM_AQED_ENTRIES 2048 +#define DLB2_MAX_NUM_QIDS_PER_LDB_CQ 8 +#define DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS 2 +#define DLB2_MAX_NUM_SEQUENCE_NUMBER_MODES 5 +#define DLB2_QID_PRIORITIES 8 +#define DLB2_NUM_ARB_WEIGHTS 8 +#define DLB2_MAX_WEIGHT 255 +#define DLB2_NUM_COS_DOMAINS 4 +#define DLB2_MAX_CQ_COMP_CHECK_LOOPS 409600 +#define DLB2_MAX_QID_EMPTY_CHECK_LOOPS (32 * 64 * 1024 * (800 / 30)) +#ifdef FPGA +#define DLB2_HZ 2000000 +#else +#define DLB2_HZ 800000000 +#endif + +#define PCI_DEVICE_ID_INTEL_DLB2_PF 0x2710 +#define PCI_DEVICE_ID_INTEL_DLB2_VF 0x2711 + +/* Interrupt related macros */ +#define DLB2_PF_NUM_NON_CQ_INTERRUPT_VECTORS 1 +#define DLB2_PF_NUM_CQ_INTERRUPT_VECTORS 64 +#define DLB2_PF_TOTAL_NUM_INTERRUPT_VECTORS \ + (DLB2_PF_NUM_NON_CQ_INTERRUPT_VECTORS + \ + DLB2_PF_NUM_CQ_INTERRUPT_VECTORS) +#define DLB2_PF_NUM_COMPRESSED_MODE_VECTORS \ + (DLB2_PF_NUM_NON_CQ_INTERRUPT_VECTORS + 1) +#define DLB2_PF_NUM_PACKED_MODE_VECTORS \ + DLB2_PF_TOTAL_NUM_INTERRUPT_VECTORS +#define DLB2_PF_COMPRESSED_MODE_CQ_VECTOR_ID \ + DLB2_PF_NUM_NON_CQ_INTERRUPT_VECTORS + +/* DLB non-CQ interrupts (alarm, mailbox, WDT) */ +#define DLB2_INT_NON_CQ 0 + +#define DLB2_ALARM_HW_SOURCE_SYS 0 +#define DLB2_ALARM_HW_SOURCE_DLB 1 + +#define DLB2_ALARM_HW_UNIT_CHP 4 + +#define DLB2_ALARM_SYS_AID_ILLEGAL_QID 3 +#define DLB2_ALARM_SYS_AID_DISABLED_QID 4 +#define DLB2_ALARM_SYS_AID_ILLEGAL_HCW 5 +#define DLB2_ALARM_HW_CHP_AID_ILLEGAL_ENQ 1 +#define DLB2_ALARM_HW_CHP_AID_EXCESS_TOKEN_POPS 2 + +#define DLB2_VF_NUM_NON_CQ_INTERRUPT_VECTORS 1 +#define DLB2_VF_NUM_CQ_INTERRUPT_VECTORS 31 +#define DLB2_VF_BASE_CQ_VECTOR_ID 0 +#define DLB2_VF_LAST_CQ_VECTOR_ID 30 +#define DLB2_VF_MBOX_VECTOR_ID 31 +#define DLB2_VF_TOTAL_NUM_INTERRUPT_VECTORS \ + (DLB2_VF_NUM_NON_CQ_INTERRUPT_VECTORS + \ + DLB2_VF_NUM_CQ_INTERRUPT_VECTORS) + +#define DLB2_VDEV_MAX_NUM_INTERRUPT_VECTORS (DLB2_MAX_NUM_LDB_PORTS + \ + DLB2_MAX_NUM_DIR_PORTS + 1) + +/* + * Hardware-defined base addresses. Those prefixed 'DLB2_DRV' are only used by + * the PF driver. + */ +#define DLB2_DRV_LDB_PP_BASE 0x2300000 +#define DLB2_DRV_LDB_PP_STRIDE 0x1000 +#define DLB2_DRV_LDB_PP_BOUND (DLB2_DRV_LDB_PP_BASE + \ + DLB2_DRV_LDB_PP_STRIDE * DLB2_MAX_NUM_LDB_PORTS) +#define DLB2_DRV_DIR_PP_BASE 0x2200000 +#define DLB2_DRV_DIR_PP_STRIDE 0x1000 +#define DLB2_DRV_DIR_PP_BOUND (DLB2_DRV_DIR_PP_BASE + \ + DLB2_DRV_DIR_PP_STRIDE * DLB2_MAX_NUM_DIR_PORTS) +#define DLB2_LDB_PP_BASE 0x2100000 +#define DLB2_LDB_PP_STRIDE 0x1000 +#define DLB2_LDB_PP_BOUND (DLB2_LDB_PP_BASE + \ + DLB2_LDB_PP_STRIDE * DLB2_MAX_NUM_LDB_PORTS) +#define DLB2_LDB_PP_OFFS(id) (DLB2_LDB_PP_BASE + (id) * DLB2_PP_SIZE) +#define DLB2_DIR_PP_BASE 0x2000000 +#define DLB2_DIR_PP_STRIDE 0x1000 +#define DLB2_DIR_PP_BOUND (DLB2_DIR_PP_BASE + \ + DLB2_DIR_PP_STRIDE * DLB2_MAX_NUM_DIR_PORTS) +#define DLB2_DIR_PP_OFFS(id) (DLB2_DIR_PP_BASE + (id) * DLB2_PP_SIZE) + +struct dlb2_resource_id { + u32 phys_id; + u32 virt_id; + u8 vdev_owned; + u8 vdev_id; +}; + +struct dlb2_freelist { + u32 base; + u32 bound; + u32 offset; +}; + +static inline u32 dlb2_freelist_count(struct dlb2_freelist *list) +{ + return list->bound - list->base - list->offset; +} + +struct dlb2_hcw { + u64 data; + /* Word 3 */ + u16 opaque; + u8 qid; + u8 sched_type:2; + u8 priority:3; + u8 msg_type:3; + /* Word 4 */ + u16 lock_id; + u8 ts_flag:1; + u8 rsvd1:2; + u8 no_dec:1; + u8 cmp_id:4; + u8 cq_token:1; + u8 qe_comp:1; + u8 qe_frag:1; + u8 qe_valid:1; + u8 int_arm:1; + u8 error:1; + u8 rsvd:2; +}; + +struct dlb2_ldb_queue { + struct dlb2_list_entry domain_list; + struct dlb2_list_entry func_list; + struct dlb2_resource_id id; + struct dlb2_resource_id domain_id; + u32 num_qid_inflights; + u32 aqed_limit; + u32 sn_group; /* sn == sequence number */ + u32 sn_slot; + u32 num_mappings; + u8 sn_cfg_valid; + u8 num_pending_additions; + u8 owned; + u8 configured; +}; + +/* + * Directed ports and queues are paired by nature, so the driver tracks them + * with a single data structure. + */ +struct dlb2_dir_pq_pair { + struct dlb2_list_entry domain_list; + struct dlb2_list_entry func_list; + struct dlb2_resource_id id; + struct dlb2_resource_id domain_id; + u32 ref_cnt; + u8 init_tkn_cnt; + u8 queue_configured; + u8 port_configured; + u8 owned; + u8 enabled; +}; + +enum dlb2_qid_map_state { + /* The slot doesn't contain a valid queue mapping */ + DLB2_QUEUE_UNMAPPED, + /* The slot contains a valid queue mapping */ + DLB2_QUEUE_MAPPED, + /* The driver is mapping a queue into this slot */ + DLB2_QUEUE_MAP_IN_PROG, + /* The driver is unmapping a queue from this slot */ + DLB2_QUEUE_UNMAP_IN_PROG, + /* + * The driver is unmapping a queue from this slot, and once complete + * will replace it with another mapping. + */ + DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP, +}; + +struct dlb2_ldb_port_qid_map { + enum dlb2_qid_map_state state; + u16 qid; + u16 pending_qid; + u8 priority; + u8 pending_priority; +}; + +struct dlb2_ldb_port { + struct dlb2_list_entry domain_list; + struct dlb2_list_entry func_list; + struct dlb2_resource_id id; + struct dlb2_resource_id domain_id; + /* The qid_map represents the hardware QID mapping state. */ + struct dlb2_ldb_port_qid_map qid_map[DLB2_MAX_NUM_QIDS_PER_LDB_CQ]; + u32 hist_list_entry_base; + u32 hist_list_entry_limit; + u32 ref_cnt; + u8 init_tkn_cnt; + u8 num_pending_removals; + u8 num_mappings; + u8 owned; + u8 enabled; + u8 configured; +}; + +struct dlb2_sn_group { + u32 mode; + u32 sequence_numbers_per_queue; + u32 slot_use_bitmap; + u32 id; +}; + +static inline bool dlb2_sn_group_full(struct dlb2_sn_group *group) +{ + u32 mask[] = { + 0x0000ffff, /* 64 SNs per queue */ + 0x000000ff, /* 128 SNs per queue */ + 0x0000000f, /* 256 SNs per queue */ + 0x00000003, /* 512 SNs per queue */ + 0x00000001}; /* 1024 SNs per queue */ + + return group->slot_use_bitmap == mask[group->mode]; +} + +static inline int dlb2_sn_group_alloc_slot(struct dlb2_sn_group *group) +{ + u32 bound[6] = {16, 8, 4, 2, 1}; + u32 i; + + for (i = 0; i < bound[group->mode]; i++) { + if (!(group->slot_use_bitmap & (1 << i))) { + group->slot_use_bitmap |= 1 << i; + return i; + } + } + + return -1; +} + +static inline void +dlb2_sn_group_free_slot(struct dlb2_sn_group *group, int slot) +{ + group->slot_use_bitmap &= ~(1 << slot); +} + +static inline int dlb2_sn_group_used_slots(struct dlb2_sn_group *group) +{ + int i, cnt = 0; + + for (i = 0; i < 32; i++) + cnt += !!(group->slot_use_bitmap & (1 << i)); + + return cnt; +} + +struct dlb2_hw_domain { + struct dlb2_function_resources *parent_func; + struct dlb2_list_entry func_list; + struct dlb2_list_head used_ldb_queues; + struct dlb2_list_head used_ldb_ports[DLB2_NUM_COS_DOMAINS]; + struct dlb2_list_head used_dir_pq_pairs; + struct dlb2_list_head avail_ldb_queues; + struct dlb2_list_head avail_ldb_ports[DLB2_NUM_COS_DOMAINS]; + struct dlb2_list_head avail_dir_pq_pairs; + u32 total_hist_list_entries; + u32 avail_hist_list_entries; + u32 hist_list_entry_base; + u32 hist_list_entry_offset; + u32 num_ldb_credits; + u32 num_dir_credits; + u32 num_avail_aqed_entries; + u32 num_used_aqed_entries; + struct dlb2_resource_id id; + int num_pending_removals; + int num_pending_additions; + u8 configured; + u8 started; +}; + +struct dlb2_bitmap; + +struct dlb2_function_resources { + struct dlb2_list_head avail_domains; + struct dlb2_list_head used_domains; + struct dlb2_list_head avail_ldb_queues; + struct dlb2_list_head avail_ldb_ports[DLB2_NUM_COS_DOMAINS]; + struct dlb2_list_head avail_dir_pq_pairs; + struct dlb2_bitmap *avail_hist_list_entries; + u32 num_avail_domains; + u32 num_avail_ldb_queues; + u32 num_avail_ldb_ports[DLB2_NUM_COS_DOMAINS]; + u32 num_avail_dir_pq_pairs; + u32 num_avail_qed_entries; + u32 num_avail_dqed_entries; + u32 num_avail_aqed_entries; + u8 locked; /* (VDEV only) */ +}; + +/* + * After initialization, each resource in dlb2_hw_resources is located in one + * of the following lists: + * -- The PF's available resources list. These are unconfigured resources owned + * by the PF and not allocated to a dlb2 scheduling domain. + * -- A VDEV's available resources list. These are VDEV-owned unconfigured + * resources not allocated to a dlb2 scheduling domain. + * -- A domain's available resources list. These are domain-owned unconfigured + * resources. + * -- A domain's used resources list. These are domain-owned configured + * resources. + * + * A resource moves to a new list when a VDEV or domain is created or destroyed, + * or when the resource is configured. + */ +struct dlb2_hw_resources { + struct dlb2_ldb_queue ldb_queues[DLB2_MAX_NUM_LDB_QUEUES]; + struct dlb2_ldb_port ldb_ports[DLB2_MAX_NUM_LDB_PORTS]; + struct dlb2_dir_pq_pair dir_pq_pairs[DLB2_MAX_NUM_DIR_PORTS]; + struct dlb2_sn_group sn_groups[DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS]; +}; + +struct dlb2_mbox { + u32 *mbox; + u32 *isr_in_progress; +}; + +struct dlb2_sw_mbox { + struct dlb2_mbox vdev_to_pf; + struct dlb2_mbox pf_to_vdev; + void (*pf_to_vdev_inject)(void *arg); + void *pf_to_vdev_inject_arg; +}; + +struct dlb2_hw { + /* BAR 0 address */ + void *csr_kva; + unsigned long csr_phys_addr; + /* BAR 2 address */ + void *func_kva; + unsigned long func_phys_addr; + + /* Resource tracking */ + struct dlb2_hw_resources rsrcs; + struct dlb2_function_resources pf; + struct dlb2_function_resources vdev[DLB2_MAX_NUM_VDEVS]; + struct dlb2_hw_domain domains[DLB2_MAX_NUM_DOMAINS]; + u8 cos_reservation[DLB2_NUM_COS_DOMAINS]; + + /* Virtualization */ + int virt_mode; + struct dlb2_sw_mbox mbox[DLB2_MAX_NUM_VDEVS]; + unsigned int pasid[DLB2_MAX_NUM_VDEVS]; +}; + +#endif /* __DLB2_HW_TYPES_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_mbox.h b/drivers/event/dlb2/pf/base/dlb2_mbox.h new file mode 100644 index 0000000000..ce462c0897 --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_mbox.h @@ -0,0 +1,596 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_BASE_DLB2_MBOX_H +#define __DLB2_BASE_DLB2_MBOX_H + +#include "dlb2_osdep_types.h" +#include "dlb2_regs.h" + +#define DLB2_MBOX_INTERFACE_VERSION 1 + +/* + * The PF uses its PF->VF mailbox to send responses to VF requests, as well as + * to send requests of its own (e.g. notifying a VF of an impending FLR). + * To avoid communication race conditions, e.g. the PF sends a response and then + * sends a request before the VF reads the response, the PF->VF mailbox is + * divided into two sections: + * - Bytes 0-47: PF responses + * - Bytes 48-63: PF requests + * + * Partitioning the PF->VF mailbox allows responses and requests to occupy the + * mailbox simultaneously. + */ +#define DLB2_PF2VF_RESP_BYTES 48 +#define DLB2_PF2VF_RESP_BASE 0 +#define DLB2_PF2VF_RESP_BASE_WORD (DLB2_PF2VF_RESP_BASE / 4) + +#define DLB2_PF2VF_REQ_BYTES 16 +#define DLB2_PF2VF_REQ_BASE (DLB2_PF2VF_RESP_BASE + DLB2_PF2VF_RESP_BYTES) +#define DLB2_PF2VF_REQ_BASE_WORD (DLB2_PF2VF_REQ_BASE / 4) + +/* + * Similarly, the VF->PF mailbox is divided into two sections: + * - Bytes 0-239: VF requests + * -- (Bytes 0-3 are unused due to a hardware errata) + * - Bytes 240-255: VF responses + */ +#define DLB2_VF2PF_REQ_BYTES 236 +#define DLB2_VF2PF_REQ_BASE 4 +#define DLB2_VF2PF_REQ_BASE_WORD (DLB2_VF2PF_REQ_BASE / 4) + +#define DLB2_VF2PF_RESP_BYTES 16 +#define DLB2_VF2PF_RESP_BASE (DLB2_VF2PF_REQ_BASE + DLB2_VF2PF_REQ_BYTES) +#define DLB2_VF2PF_RESP_BASE_WORD (DLB2_VF2PF_RESP_BASE / 4) + +/* VF-initiated commands */ +enum dlb2_mbox_cmd_type { + DLB2_MBOX_CMD_REGISTER, + DLB2_MBOX_CMD_UNREGISTER, + DLB2_MBOX_CMD_GET_NUM_RESOURCES, + DLB2_MBOX_CMD_CREATE_SCHED_DOMAIN, + DLB2_MBOX_CMD_RESET_SCHED_DOMAIN, + DLB2_MBOX_CMD_CREATE_LDB_QUEUE, + DLB2_MBOX_CMD_CREATE_DIR_QUEUE, + DLB2_MBOX_CMD_CREATE_LDB_PORT, + DLB2_MBOX_CMD_CREATE_DIR_PORT, + DLB2_MBOX_CMD_ENABLE_LDB_PORT, + DLB2_MBOX_CMD_DISABLE_LDB_PORT, + DLB2_MBOX_CMD_ENABLE_DIR_PORT, + DLB2_MBOX_CMD_DISABLE_DIR_PORT, + DLB2_MBOX_CMD_LDB_PORT_OWNED_BY_DOMAIN, + DLB2_MBOX_CMD_DIR_PORT_OWNED_BY_DOMAIN, + DLB2_MBOX_CMD_MAP_QID, + DLB2_MBOX_CMD_UNMAP_QID, + DLB2_MBOX_CMD_START_DOMAIN, + DLB2_MBOX_CMD_ENABLE_LDB_PORT_INTR, + DLB2_MBOX_CMD_ENABLE_DIR_PORT_INTR, + DLB2_MBOX_CMD_ARM_CQ_INTR, + DLB2_MBOX_CMD_GET_NUM_USED_RESOURCES, + DLB2_MBOX_CMD_GET_SN_ALLOCATION, + DLB2_MBOX_CMD_GET_LDB_QUEUE_DEPTH, + DLB2_MBOX_CMD_GET_DIR_QUEUE_DEPTH, + DLB2_MBOX_CMD_PENDING_PORT_UNMAPS, + DLB2_MBOX_CMD_GET_COS_BW, + DLB2_MBOX_CMD_GET_SN_OCCUPANCY, + DLB2_MBOX_CMD_QUERY_CQ_POLL_MODE, + + /* NUM_QE_CMD_TYPES must be last */ + NUM_DLB2_MBOX_CMD_TYPES, +}; + +static const char dlb2_mbox_cmd_type_strings[][128] = { + "DLB2_MBOX_CMD_REGISTER", + "DLB2_MBOX_CMD_UNREGISTER", + "DLB2_MBOX_CMD_GET_NUM_RESOURCES", + "DLB2_MBOX_CMD_CREATE_SCHED_DOMAIN", + "DLB2_MBOX_CMD_RESET_SCHED_DOMAIN", + "DLB2_MBOX_CMD_CREATE_LDB_QUEUE", + "DLB2_MBOX_CMD_CREATE_DIR_QUEUE", + "DLB2_MBOX_CMD_CREATE_LDB_PORT", + "DLB2_MBOX_CMD_CREATE_DIR_PORT", + "DLB2_MBOX_CMD_ENABLE_LDB_PORT", + "DLB2_MBOX_CMD_DISABLE_LDB_PORT", + "DLB2_MBOX_CMD_ENABLE_DIR_PORT", + "DLB2_MBOX_CMD_DISABLE_DIR_PORT", + "DLB2_MBOX_CMD_LDB_PORT_OWNED_BY_DOMAIN", + "DLB2_MBOX_CMD_DIR_PORT_OWNED_BY_DOMAIN", + "DLB2_MBOX_CMD_MAP_QID", + "DLB2_MBOX_CMD_UNMAP_QID", + "DLB2_MBOX_CMD_START_DOMAIN", + "DLB2_MBOX_CMD_ENABLE_LDB_PORT_INTR", + "DLB2_MBOX_CMD_ENABLE_DIR_PORT_INTR", + "DLB2_MBOX_CMD_ARM_CQ_INTR", + "DLB2_MBOX_CMD_GET_NUM_USED_RESOURCES", + "DLB2_MBOX_CMD_GET_SN_ALLOCATION", + "DLB2_MBOX_CMD_GET_LDB_QUEUE_DEPTH", + "DLB2_MBOX_CMD_GET_DIR_QUEUE_DEPTH", + "DLB2_MBOX_CMD_PENDING_PORT_UNMAPS", + "DLB2_MBOX_CMD_GET_COS_BW", + "DLB2_MBOX_CMD_GET_SN_OCCUPANCY", + "DLB2_MBOX_CMD_QUERY_CQ_POLL_MODE", +}; + +/* PF-initiated commands */ +enum dlb2_mbox_vf_cmd_type { + DLB2_MBOX_VF_CMD_DOMAIN_ALERT, + DLB2_MBOX_VF_CMD_NOTIFICATION, + DLB2_MBOX_VF_CMD_IN_USE, + + /* NUM_DLB2_MBOX_VF_CMD_TYPES must be last */ + NUM_DLB2_MBOX_VF_CMD_TYPES, +}; + +static const char dlb2_mbox_vf_cmd_type_strings[][128] = { + "DLB2_MBOX_VF_CMD_DOMAIN_ALERT", + "DLB2_MBOX_VF_CMD_NOTIFICATION", + "DLB2_MBOX_VF_CMD_IN_USE", +}; + +#define DLB2_MBOX_CMD_TYPE(hdr) \ + (((struct dlb2_mbox_req_hdr *)hdr)->type) +#define DLB2_MBOX_CMD_STRING(hdr) \ + dlb2_mbox_cmd_type_strings[DLB2_MBOX_CMD_TYPE(hdr)] + +enum dlb2_mbox_status_type { + DLB2_MBOX_ST_SUCCESS, + DLB2_MBOX_ST_INVALID_CMD_TYPE, + DLB2_MBOX_ST_VERSION_MISMATCH, + DLB2_MBOX_ST_INVALID_OWNER_VF, +}; + +static const char dlb2_mbox_status_type_strings[][128] = { + "DLB2_MBOX_ST_SUCCESS", + "DLB2_MBOX_ST_INVALID_CMD_TYPE", + "DLB2_MBOX_ST_VERSION_MISMATCH", + "DLB2_MBOX_ST_INVALID_OWNER_VF", +}; + +#define DLB2_MBOX_ST_TYPE(hdr) \ + (((struct dlb2_mbox_resp_hdr *)hdr)->status) +#define DLB2_MBOX_ST_STRING(hdr) \ + dlb2_mbox_status_type_strings[DLB2_MBOX_ST_TYPE(hdr)] + +/* This structure is always the first field in a request structure */ +struct dlb2_mbox_req_hdr { + u32 type; +}; + +/* This structure is always the first field in a response structure */ +struct dlb2_mbox_resp_hdr { + u32 status; +}; + +struct dlb2_mbox_register_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u16 min_interface_version; + u16 max_interface_version; +}; + +struct dlb2_mbox_register_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 interface_version; + u8 pf_id; + u8 vf_id; + u8 is_auxiliary_vf; + u8 primary_vf_id; + u32 padding; +}; + +struct dlb2_mbox_unregister_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 padding; +}; + +struct dlb2_mbox_unregister_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 padding; +}; + +struct dlb2_mbox_get_num_resources_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 padding; +}; + +struct dlb2_mbox_get_num_resources_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u16 num_sched_domains; + u16 num_ldb_queues; + u16 num_ldb_ports; + u16 num_cos_ldb_ports[4]; + u16 num_dir_ports; + u32 num_atomic_inflights; + u32 num_hist_list_entries; + u32 max_contiguous_hist_list_entries; + u16 num_ldb_credits; + u16 num_dir_credits; +}; + +struct dlb2_mbox_create_sched_domain_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 num_ldb_queues; + u32 num_ldb_ports; + u32 num_cos_ldb_ports[4]; + u32 num_dir_ports; + u32 num_atomic_inflights; + u32 num_hist_list_entries; + u32 num_ldb_credits; + u32 num_dir_credits; + u8 cos_strict; + u8 padding0[3]; + u32 padding1; +}; + +struct dlb2_mbox_create_sched_domain_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 id; +}; + +struct dlb2_mbox_reset_sched_domain_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 id; +}; + +struct dlb2_mbox_reset_sched_domain_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; +}; + +struct dlb2_mbox_create_ldb_queue_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 num_sequence_numbers; + u32 num_qid_inflights; + u32 num_atomic_inflights; + u32 lock_id_comp_level; + u32 depth_threshold; + u32 padding; +}; + +struct dlb2_mbox_create_ldb_queue_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 id; +}; + +struct dlb2_mbox_create_dir_queue_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 depth_threshold; +}; + +struct dlb2_mbox_create_dir_queue_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 id; +}; + +struct dlb2_mbox_create_ldb_port_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u16 cq_depth; + u16 cq_history_list_size; + u8 cos_id; + u8 cos_strict; + u16 padding1; + u64 cq_base_address; +}; + +struct dlb2_mbox_create_ldb_port_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 id; +}; + +struct dlb2_mbox_create_dir_port_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u64 cq_base_address; + u16 cq_depth; + u16 padding0; + s32 queue_id; +}; + +struct dlb2_mbox_create_dir_port_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 id; +}; + +struct dlb2_mbox_enable_ldb_port_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_enable_ldb_port_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_disable_ldb_port_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_disable_ldb_port_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_enable_dir_port_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_enable_dir_port_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_disable_dir_port_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_disable_dir_port_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_ldb_port_owned_by_domain_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_ldb_port_owned_by_domain_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + s32 owned; +}; + +struct dlb2_mbox_dir_port_owned_by_domain_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_dir_port_owned_by_domain_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + s32 owned; +}; + +struct dlb2_mbox_map_qid_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 qid; + u32 priority; + u32 padding0; +}; + +struct dlb2_mbox_map_qid_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 id; +}; + +struct dlb2_mbox_unmap_qid_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 qid; +}; + +struct dlb2_mbox_unmap_qid_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_start_domain_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; +}; + +struct dlb2_mbox_start_domain_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_enable_ldb_port_intr_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u16 port_id; + u16 thresh; + u16 vector; + u16 owner_vf; + u16 reserved[2]; +}; + +struct dlb2_mbox_enable_ldb_port_intr_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_enable_dir_port_intr_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u16 port_id; + u16 thresh; + u16 vector; + u16 owner_vf; + u16 reserved[2]; +}; + +struct dlb2_mbox_enable_dir_port_intr_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding; +}; + +struct dlb2_mbox_arm_cq_intr_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 is_ldb; +}; + +struct dlb2_mbox_arm_cq_intr_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 padding0; +}; + +/* + * The alert_id and aux_alert_data follows the format of the alerts defined in + * dlb2_types.h. The alert id contains an enum dlb2_domain_alert_id value, and + * the aux_alert_data value varies depending on the alert. + */ +struct dlb2_mbox_vf_alert_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 alert_id; + u32 aux_alert_data; +}; + +enum dlb2_mbox_vf_notification_type { + DLB2_MBOX_VF_NOTIFICATION_PRE_RESET, + DLB2_MBOX_VF_NOTIFICATION_POST_RESET, + + /* NUM_DLB2_MBOX_VF_NOTIFICATION_TYPES must be last */ + NUM_DLB2_MBOX_VF_NOTIFICATION_TYPES, +}; + +struct dlb2_mbox_vf_notification_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 notification; +}; + +struct dlb2_mbox_vf_in_use_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 padding; +}; + +struct dlb2_mbox_vf_in_use_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 in_use; +}; + +struct dlb2_mbox_get_sn_allocation_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 group_id; +}; + +struct dlb2_mbox_get_sn_allocation_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 num; +}; + +struct dlb2_mbox_get_ldb_queue_depth_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 queue_id; + u32 padding; +}; + +struct dlb2_mbox_get_ldb_queue_depth_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 depth; +}; + +struct dlb2_mbox_get_dir_queue_depth_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 queue_id; + u32 padding; +}; + +struct dlb2_mbox_get_dir_queue_depth_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 depth; +}; + +struct dlb2_mbox_pending_port_unmaps_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 domain_id; + u32 port_id; + u32 padding; +}; + +struct dlb2_mbox_pending_port_unmaps_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 num; +}; + +struct dlb2_mbox_get_cos_bw_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 cos_id; +}; + +struct dlb2_mbox_get_cos_bw_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 num; +}; + +struct dlb2_mbox_get_sn_occupancy_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 group_id; +}; + +struct dlb2_mbox_get_sn_occupancy_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 num; +}; + +struct dlb2_mbox_query_cq_poll_mode_cmd_req { + struct dlb2_mbox_req_hdr hdr; + u32 padding; +}; + +struct dlb2_mbox_query_cq_poll_mode_cmd_resp { + struct dlb2_mbox_resp_hdr hdr; + u32 error_code; + u32 status; + u32 mode; +}; + +#endif /* __DLB2_BASE_DLB2_MBOX_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_osdep.h b/drivers/event/dlb2/pf/base/dlb2_osdep.h new file mode 100644 index 0000000000..c4c34eba5f --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_osdep.h @@ -0,0 +1,230 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_OSDEP_H +#define __DLB2_OSDEP_H + +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include "../dlb2_main.h" +#include "dlb2_resource.h" +#include "../../dlb2_log.h" +#include "../../dlb2_user.h" + + +#define DLB2_PCI_REG_READ(addr) rte_read32((void *)addr) +#define DLB2_PCI_REG_WRITE(reg, value) rte_write32(value, (void *)reg) + +/* Read/write register 'reg' in the CSR BAR space */ +#define DLB2_CSR_REG_ADDR(a, reg) ((void *)((uintptr_t)(a)->csr_kva + (reg))) +#define DLB2_CSR_RD(hw, reg) \ + DLB2_PCI_REG_READ(DLB2_CSR_REG_ADDR((hw), (reg))) +#define DLB2_CSR_WR(hw, reg, value) \ + DLB2_PCI_REG_WRITE(DLB2_CSR_REG_ADDR((hw), (reg)), (value)) + +/* Read/write register 'reg' in the func BAR space */ +#define DLB2_FUNC_REG_ADDR(a, reg) ((void *)((uintptr_t)(a)->func_kva + (reg))) +#define DLB2_FUNC_RD(hw, reg) \ + DLB2_PCI_REG_READ(DLB2_FUNC_REG_ADDR((hw), (reg))) +#define DLB2_FUNC_WR(hw, reg, value) \ + DLB2_PCI_REG_WRITE(DLB2_FUNC_REG_ADDR((hw), (reg)), (value)) + +/* Map to PMDs logging interface */ +#define DLB2_ERR(dev, fmt, args...) \ + DLB2_LOG_ERR(fmt, ## args) + +#define DLB2_INFO(dev, fmt, args...) \ + DLB2_LOG_INFO(fmt, ## args) + +#define DLB2_DEBUG(dev, fmt, args...) \ + DLB2_LOG_DBG(fmt, ## args) + +/** + * os_udelay() - busy-wait for a number of microseconds + * @usecs: delay duration. + */ +static inline void os_udelay(int usecs) +{ + rte_delay_us(usecs); +} + +/** + * os_msleep() - sleep for a number of milliseconds + * @usecs: delay duration. + */ +static inline void os_msleep(int msecs) +{ + rte_delay_ms(msecs); +} + +#define DLB2_PP_BASE(__is_ldb) \ + ((__is_ldb) ? DLB2_LDB_PP_BASE : DLB2_DIR_PP_BASE) + +/** + * os_map_producer_port() - map a producer port into the caller's address space + * @hw: dlb2_hw handle for a particular device. + * @port_id: port ID + * @is_ldb: true for load-balanced port, false for a directed port + * + * This function maps the requested producer port memory into the caller's + * address space. + * + * Return: + * Returns the base address at which the PP memory was mapped, else NULL. + */ +static inline void *os_map_producer_port(struct dlb2_hw *hw, + u8 port_id, + bool is_ldb) +{ + uint64_t addr; + uint64_t pp_dma_base; + + pp_dma_base = (uintptr_t)hw->func_kva + DLB2_PP_BASE(is_ldb); + addr = (pp_dma_base + (PAGE_SIZE * port_id)); + + return (void *)(uintptr_t)addr; +} + +/** + * os_unmap_producer_port() - unmap a producer port + * @addr: mapped producer port address + * + * This function undoes os_map_producer_port() by unmapping the producer port + * memory from the caller's address space. + * + * Return: + * Returns the base address at which the PP memory was mapped, else NULL. + */ +static inline void os_unmap_producer_port(struct dlb2_hw *hw, void *addr) +{ + RTE_SET_USED(hw); + RTE_SET_USED(addr); +} + +/** + * os_fence_hcw() - fence an HCW to ensure it arrives at the device + * @hw: dlb2_hw handle for a particular device. + * @pp_addr: producer port address + */ +static inline void os_fence_hcw(struct dlb2_hw *hw, u64 *pp_addr) +{ + RTE_SET_USED(hw); + + /* To ensure outstanding HCWs reach the device, read the PP address. IA + * memory ordering prevents reads from passing older writes, and the + * mfence also ensures this. + */ + rte_mb(); + + *(volatile u64 *)pp_addr; +} + +/** + * DLB2_HW_ERR() - log an error message + * @dlb2: dlb2_hw handle for a particular device. + * @...: variable string args. + */ +#define DLB2_HW_ERR(dlb2, ...) do { \ + RTE_SET_USED(dlb2); \ + DLB2_ERR(dlb2, __VA_ARGS__); \ +} while (0) + +/** + * DLB2_HW_DBG() - log an info message + * @dlb2: dlb2_hw handle for a particular device. + * @...: variable string args. + */ +#define DLB2_HW_DBG(dlb2, ...) do { \ + RTE_SET_USED(dlb2); \ + DLB2_DEBUG(dlb2, __VA_ARGS__); \ +} while (0) + +/* The callback runs until it completes all outstanding QID->CQ + * map and unmap requests. To prevent deadlock, this function gives other + * threads a chance to grab the resource mutex and configure hardware. + */ +static void *dlb2_complete_queue_map_unmap(void *__args) +{ + struct dlb2_dev *dlb2_dev = (struct dlb2_dev *)__args; + int ret; + + while (1) { + rte_spinlock_lock(&dlb2_dev->resource_mutex); + + ret = dlb2_finish_unmap_qid_procedures(&dlb2_dev->hw); + ret += dlb2_finish_map_qid_procedures(&dlb2_dev->hw); + + if (ret != 0) { + rte_spinlock_unlock(&dlb2_dev->resource_mutex); + /* Relinquish the CPU so the application can process + * its CQs, so this function doesn't deadlock. + */ + sched_yield(); + } else { + break; + } + } + + dlb2_dev->worker_launched = false; + + rte_spinlock_unlock(&dlb2_dev->resource_mutex); + + return NULL; +} + + +/** + * os_schedule_work() - launch a thread to process pending map and unmap work + * @hw: dlb2_hw handle for a particular device. + * + * This function launches a kernel thread that will run until all pending + * map and unmap procedures are complete. + */ +static inline void os_schedule_work(struct dlb2_hw *hw) +{ + struct dlb2_dev *dlb2_dev; + pthread_t complete_queue_map_unmap_thread; + int ret; + + dlb2_dev = container_of(hw, struct dlb2_dev, hw); + + ret = rte_ctrl_thread_create(&complete_queue_map_unmap_thread, + "dlb_queue_unmap_waiter", + NULL, + dlb2_complete_queue_map_unmap, + dlb2_dev); + if (ret) + DLB2_ERR(dlb2_dev, + "Could not create queue complete map/unmap thread, err=%d\n", + ret); + else + dlb2_dev->worker_launched = true; +} + +/** + * os_worker_active() - query whether the map/unmap worker thread is active + * @hw: dlb2_hw handle for a particular device. + * + * This function returns a boolean indicating whether a thread (launched by + * os_schedule_work()) is active. This function is used to determine + * whether or not to launch a worker thread. + */ +static inline bool os_worker_active(struct dlb2_hw *hw) +{ + struct dlb2_dev *dlb2_dev; + + dlb2_dev = container_of(hw, struct dlb2_dev, hw); + + return dlb2_dev->worker_launched; +} + +#endif /* __DLB2_OSDEP_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_osdep_bitmap.h b/drivers/event/dlb2/pf/base/dlb2_osdep_bitmap.h new file mode 100644 index 0000000000..d47d1ede85 --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_osdep_bitmap.h @@ -0,0 +1,440 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_OSDEP_BITMAP_H +#define __DLB2_OSDEP_BITMAP_H + +#include +#include +#include +#include +#include +#include +#include +#include +#include "../dlb2_main.h" + +/*************************/ +/*** Bitmap operations ***/ +/*************************/ +struct dlb2_bitmap { + struct rte_bitmap *map; + unsigned int len; +}; + +/** + * dlb2_bitmap_alloc() - alloc a bitmap data structure + * @bitmap: pointer to dlb2_bitmap structure pointer. + * @len: number of entries in the bitmap. + * + * This function allocates a bitmap and initializes it with length @len. All + * entries are initially zero. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or len is 0. + * ENOMEM - could not allocate memory for the bitmap data structure. + */ +static inline int dlb2_bitmap_alloc(struct dlb2_bitmap **bitmap, + unsigned int len) +{ + struct dlb2_bitmap *bm; + void *mem; + uint32_t alloc_size; + uint32_t nbits = (uint32_t)len; + + if (bitmap == NULL || nbits == 0) + return -EINVAL; + + /* Allocate DLB2 bitmap control struct */ + bm = rte_malloc("DLB2_PF", + sizeof(struct dlb2_bitmap), + RTE_CACHE_LINE_SIZE); + + if (bm == NULL) + return -ENOMEM; + + /* Allocate bitmap memory */ + alloc_size = rte_bitmap_get_memory_footprint(nbits); + mem = rte_malloc("DLB2_PF_BITMAP", alloc_size, RTE_CACHE_LINE_SIZE); + if (mem == NULL) { + rte_free(bm); + return -ENOMEM; + } + + bm->map = rte_bitmap_init(len, mem, alloc_size); + if (bm->map == NULL) { + rte_free(mem); + rte_free(bm); + return -ENOMEM; + } + + bm->len = len; + + *bitmap = bm; + + return 0; +} + +/** + * dlb2_bitmap_free() - free a previously allocated bitmap data structure + * @bitmap: pointer to dlb2_bitmap structure. + * + * This function frees a bitmap that was allocated with dlb2_bitmap_alloc(). + */ +static inline void dlb2_bitmap_free(struct dlb2_bitmap *bitmap) +{ + if (bitmap == NULL) + return; + + rte_free(bitmap->map); + rte_free(bitmap); +} + +/** + * dlb2_bitmap_fill() - fill a bitmap with all 1s + * @bitmap: pointer to dlb2_bitmap structure. + * + * This function sets all bitmap values to 1. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized. + */ +static inline int dlb2_bitmap_fill(struct dlb2_bitmap *bitmap) +{ + unsigned int i; + + if (bitmap == NULL || bitmap->map == NULL) + return -EINVAL; + + for (i = 0; i != bitmap->len; i++) + rte_bitmap_set(bitmap->map, i); + + return 0; +} + +/** + * dlb2_bitmap_fill() - fill a bitmap with all 0s + * @bitmap: pointer to dlb2_bitmap structure. + * + * This function sets all bitmap values to 0. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized. + */ +static inline int dlb2_bitmap_zero(struct dlb2_bitmap *bitmap) +{ + if (bitmap == NULL || bitmap->map == NULL) + return -EINVAL; + + rte_bitmap_reset(bitmap->map); + + return 0; +} + +/** + * dlb2_bitmap_set() - set a bitmap entry + * @bitmap: pointer to dlb2_bitmap structure. + * @bit: bit index. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized, or bit is larger than the + * bitmap length. + */ +static inline int dlb2_bitmap_set(struct dlb2_bitmap *bitmap, + unsigned int bit) +{ + if (bitmap == NULL || bitmap->map == NULL) + return -EINVAL; + + if (bitmap->len <= bit) + return -EINVAL; + + rte_bitmap_set(bitmap->map, bit); + + return 0; +} + +/** + * dlb2_bitmap_set_range() - set a range of bitmap entries + * @bitmap: pointer to dlb2_bitmap structure. + * @bit: starting bit index. + * @len: length of the range. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized, or the range exceeds the bitmap + * length. + */ +static inline int dlb2_bitmap_set_range(struct dlb2_bitmap *bitmap, + unsigned int bit, + unsigned int len) +{ + unsigned int i; + + if (bitmap == NULL || bitmap->map == NULL) + return -EINVAL; + + if (bitmap->len <= bit) + return -EINVAL; + + for (i = 0; i != len; i++) + rte_bitmap_set(bitmap->map, bit + i); + + return 0; +} + +/** + * dlb2_bitmap_clear() - clear a bitmap entry + * @bitmap: pointer to dlb2_bitmap structure. + * @bit: bit index. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized, or bit is larger than the + * bitmap length. + */ +static inline int dlb2_bitmap_clear(struct dlb2_bitmap *bitmap, + unsigned int bit) +{ + if (bitmap == NULL || bitmap->map == NULL) + return -EINVAL; + + if (bitmap->len <= bit) + return -EINVAL; + + rte_bitmap_clear(bitmap->map, bit); + + return 0; +} + +/** + * dlb2_bitmap_clear_range() - clear a range of bitmap entries + * @bitmap: pointer to dlb2_bitmap structure. + * @bit: starting bit index. + * @len: length of the range. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized, or the range exceeds the bitmap + * length. + */ +static inline int dlb2_bitmap_clear_range(struct dlb2_bitmap *bitmap, + unsigned int bit, + unsigned int len) +{ + unsigned int i; + + if (bitmap == NULL || bitmap->map == NULL) + return -EINVAL; + + if (bitmap->len <= bit) + return -EINVAL; + + for (i = 0; i != len; i++) + rte_bitmap_clear(bitmap->map, bit + i); + + return 0; +} + +/** + * dlb2_bitmap_find_set_bit_range() - find an range of set bits + * @bitmap: pointer to dlb2_bitmap structure. + * @len: length of the range. + * + * This function looks for a range of set bits of length @len. + * + * Return: + * Returns the base bit index upon success, < 0 otherwise. + * + * Errors: + * ENOENT - unable to find a length *len* range of set bits. + * EINVAL - bitmap is NULL or is uninitialized, or len is invalid. + */ +static inline int dlb2_bitmap_find_set_bit_range(struct dlb2_bitmap *bitmap, + unsigned int len) +{ + unsigned int i, j = 0; + + if (bitmap == NULL || bitmap->map == NULL || len == 0) + return -EINVAL; + + if (bitmap->len < len) + return -ENOENT; + + for (i = 0; i != bitmap->len; i++) { + if (rte_bitmap_get(bitmap->map, i)) { + if (++j == len) + return i - j + 1; + } else { + j = 0; + } + } + + /* No set bit range of length len? */ + return -ENOENT; +} + +/** + * dlb2_bitmap_find_set_bit() - find an range of set bits + * @bitmap: pointer to dlb2_bitmap structure. + * + * This function looks for a single set bit. + * + * Return: + * Returns the base bit index upon success, -1 if not found, <-1 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized, or len is invalid. + */ +static inline int dlb2_bitmap_find_set_bit(struct dlb2_bitmap *bitmap) +{ + unsigned int i; + + if (bitmap == NULL) + return -EINVAL; + + if (bitmap->map == NULL) + return -EINVAL; + + for (i = 0; i != bitmap->len; i++) { + if (rte_bitmap_get(bitmap->map, i)) + return i; + } + + return -ENOENT; +} + +/** + * dlb2_bitmap_count() - returns the number of set bits + * @bitmap: pointer to dlb2_bitmap structure. + * + * This function looks for a single set bit. + * + * Return: + * Returns the number of set bits upon success, <0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized. + */ +static inline int dlb2_bitmap_count(struct dlb2_bitmap *bitmap) +{ + int weight = 0; + unsigned int i; + + if (bitmap == NULL) + return -EINVAL; + + if (bitmap->map == NULL) + return -EINVAL; + + for (i = 0; i != bitmap->len; i++) { + if (rte_bitmap_get(bitmap->map, i)) + weight++; + } + return weight; +} + +/** + * dlb2_bitmap_longest_set_range() - returns longest contiguous range of set + * bits + * @bitmap: pointer to dlb2_bitmap structure. + * + * Return: + * Returns the bitmap's longest contiguous range of set bits upon success, + * <0 otherwise. + * + * Errors: + * EINVAL - bitmap is NULL or is uninitialized. + */ +static inline int dlb2_bitmap_longest_set_range(struct dlb2_bitmap *bitmap) +{ + int max_len = 0, len = 0; + unsigned int i; + + if (bitmap == NULL) + return -EINVAL; + + if (bitmap->map == NULL) + return -EINVAL; + + for (i = 0; i != bitmap->len; i++) { + if (rte_bitmap_get(bitmap->map, i)) { + len++; + } else { + if (len > max_len) + max_len = len; + len = 0; + } + } + + if (len > max_len) + max_len = len; + + return max_len; +} + +/** + * dlb2_bitmap_or() - store the logical 'or' of two bitmaps into a third + * @dest: pointer to dlb2_bitmap structure, which will contain the results of + * the 'or' of src1 and src2. + * @src1: pointer to dlb2_bitmap structure, will be 'or'ed with src2. + * @src2: pointer to dlb2_bitmap structure, will be 'or'ed with src1. + * + * This function 'or's two bitmaps together and stores the result in a third + * bitmap. The source and destination bitmaps can be the same. + * + * Return: + * Returns the number of set bits upon success, <0 otherwise. + * + * Errors: + * EINVAL - One of the bitmaps is NULL or is uninitialized. + */ +static inline int dlb2_bitmap_or(struct dlb2_bitmap *dest, + struct dlb2_bitmap *src1, + struct dlb2_bitmap *src2) +{ + unsigned int i, min; + int numset = 0; + + if (dest == NULL || dest->map == NULL || + src1 == NULL || src1->map == NULL || + src2 == NULL || src2->map == NULL) + return -EINVAL; + + min = dest->len; + min = (min > src1->len) ? src1->len : min; + min = (min > src2->len) ? src2->len : min; + + for (i = 0; i != min; i++) { + if (rte_bitmap_get(src1->map, i) || + rte_bitmap_get(src2->map, i)) { + rte_bitmap_set(dest->map, i); + numset++; + } else { + rte_bitmap_clear(dest->map, i); + } + } + + return numset; +} + +#endif /* __DLB2_OSDEP_BITMAP_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_osdep_list.h b/drivers/event/dlb2/pf/base/dlb2_osdep_list.h new file mode 100644 index 0000000000..5531739d8d --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_osdep_list.h @@ -0,0 +1,131 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_OSDEP_LIST_H +#define __DLB2_OSDEP_LIST_H + +#include + +struct dlb2_list_entry { + TAILQ_ENTRY(dlb2_list_entry) node; +}; + +/* Dummy - just a struct definition */ +TAILQ_HEAD(dlb2_list_head, dlb2_list_entry); + +/* ================= + * TAILQ Supplements + * ================= + */ + +#ifndef TAILQ_FOREACH_ENTRY +#define TAILQ_FOREACH_ENTRY(ptr, head, name, iter) \ + for ((iter) = TAILQ_FIRST(&head); \ + (iter) \ + && (ptr = container_of(iter, typeof(*(ptr)), name)); \ + (iter) = TAILQ_NEXT((iter), node)) +#endif + +#ifndef TAILQ_FOREACH_ENTRY_SAFE +#define TAILQ_FOREACH_ENTRY_SAFE(ptr, head, name, iter, tvar) \ + for ((iter) = TAILQ_FIRST(&head); \ + (iter) && \ + (ptr = container_of(iter, typeof(*(ptr)), name)) &&\ + ((tvar) = TAILQ_NEXT((iter), node), 1); \ + (iter) = (tvar)) +#endif + +/***********************/ +/*** List operations ***/ +/***********************/ + +/** + * dlb2_list_init_head() - initialize the head of a list + * @head: list head + */ +static inline void dlb2_list_init_head(struct dlb2_list_head *head) +{ + TAILQ_INIT(head); +} + +/** + * dlb2_list_add() - add an entry to a list + * @head: list head + * @entry: new list entry + */ +static inline void +dlb2_list_add(struct dlb2_list_head *head, struct dlb2_list_entry *entry) +{ + TAILQ_INSERT_TAIL(head, entry, node); +} + +/** + * dlb2_list_del() - delete an entry from a list + * @entry: list entry + * @head: list head + */ +static inline void dlb2_list_del(struct dlb2_list_head *head, + struct dlb2_list_entry *entry) +{ + TAILQ_REMOVE(head, entry, node); +} + +/** + * dlb2_list_empty() - check if a list is empty + * @head: list head + * + * Return: + * Returns 1 if empty, 0 if not. + */ +static inline int dlb2_list_empty(struct dlb2_list_head *head) +{ + return TAILQ_EMPTY(head); +} + +/** + * dlb2_list_splice() - splice a list + * @src_head: list to be added + * @ head: where src_head will be inserted + */ +static inline void dlb2_list_splice(struct dlb2_list_head *src_head, + struct dlb2_list_head *head) +{ + TAILQ_CONCAT(head, src_head, node); +} + +/** + * DLB2_LIST_HEAD() - retrieve the head of the list + * @head: list head + * @type: type of the list variable + * @name: name of the list field within the containing struct + */ +#define DLB2_LIST_HEAD(head, type, name) \ + (TAILQ_FIRST(&head) ? \ + container_of(TAILQ_FIRST(&head), type, name) : \ + NULL) + +/** + * DLB2_LIST_FOR_EACH() - iterate over a list + * @head: list head + * @ptr: pointer to struct containing a struct list + * @name: name of the list field within the containing struct + * @iter: iterator variable + */ +#define DLB2_LIST_FOR_EACH(head, ptr, name, tmp_iter) \ + TAILQ_FOREACH_ENTRY(ptr, head, name, tmp_iter) + +/** + * DLB2_LIST_FOR_EACH_SAFE() - iterate over a list. This loop works even if + * an element is removed from the list while processing it. + * @ptr: pointer to struct containing a struct list + * @ptr_tmp: pointer to struct containing a struct list (temporary) + * @head: list head + * @name: name of the list field within the containing struct + * @iter: iterator variable + * @iter_tmp: iterator variable (temporary) + */ +#define DLB2_LIST_FOR_EACH_SAFE(head, ptr, ptr_tmp, name, tmp_iter, saf_itr) \ + TAILQ_FOREACH_ENTRY_SAFE(ptr, head, name, tmp_iter, saf_itr) + +#endif /* __DLB2_OSDEP_LIST_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_osdep_types.h b/drivers/event/dlb2/pf/base/dlb2_osdep_types.h new file mode 100644 index 0000000000..0a48f7e1a0 --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_osdep_types.h @@ -0,0 +1,31 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_OSDEP_TYPES_H +#define __DLB2_OSDEP_TYPES_H + +#include + +#include +#include +#include +#include +#include +#include +#include + +/* Types for user mode PF PMD */ +typedef uint8_t u8; +typedef int8_t s8; +typedef uint16_t u16; +typedef int16_t s16; +typedef uint32_t u32; +typedef int32_t s32; +typedef uint64_t u64; + +#define __iomem + +/* END types for user mode PF PMD */ + +#endif /* __DLB2_OSDEP_TYPES_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_regs.h b/drivers/event/dlb2/pf/base/dlb2_regs.h new file mode 100644 index 0000000000..43ecad4f8f --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_regs.h @@ -0,0 +1,2527 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_REGS_H +#define __DLB2_REGS_H + +#include "dlb2_osdep_types.h" + +#define DLB2_FUNC_PF_VF2PF_MAILBOX_BYTES 256 +#define DLB2_FUNC_PF_VF2PF_MAILBOX(vf_id, x) \ + (0x1000 + 0x4 * (x) + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_VF2PF_MAILBOX_RST 0x0 +union dlb2_func_pf_vf2pf_mailbox { + struct { + u32 msg : 32; + } field; + u32 val; +}; + +#define DLB2_FUNC_PF_VF2PF_MAILBOX_ISR(vf_id) \ + (0x1f00 + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_VF2PF_MAILBOX_ISR_RST 0x0 +union dlb2_func_pf_vf2pf_mailbox_isr { + struct { + u32 vf0_isr : 1; + u32 vf1_isr : 1; + u32 vf2_isr : 1; + u32 vf3_isr : 1; + u32 vf4_isr : 1; + u32 vf5_isr : 1; + u32 vf6_isr : 1; + u32 vf7_isr : 1; + u32 vf8_isr : 1; + u32 vf9_isr : 1; + u32 vf10_isr : 1; + u32 vf11_isr : 1; + u32 vf12_isr : 1; + u32 vf13_isr : 1; + u32 vf14_isr : 1; + u32 vf15_isr : 1; + u32 rsvd0 : 16; + } field; + u32 val; +}; + +#define DLB2_FUNC_PF_VF2PF_FLR_ISR(vf_id) \ + (0x1f04 + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_VF2PF_FLR_ISR_RST 0x0 +union dlb2_func_pf_vf2pf_flr_isr { + struct { + u32 vf0_isr : 1; + u32 vf1_isr : 1; + u32 vf2_isr : 1; + u32 vf3_isr : 1; + u32 vf4_isr : 1; + u32 vf5_isr : 1; + u32 vf6_isr : 1; + u32 vf7_isr : 1; + u32 vf8_isr : 1; + u32 vf9_isr : 1; + u32 vf10_isr : 1; + u32 vf11_isr : 1; + u32 vf12_isr : 1; + u32 vf13_isr : 1; + u32 vf14_isr : 1; + u32 vf15_isr : 1; + u32 rsvd0 : 16; + } field; + u32 val; +}; + +#define DLB2_FUNC_PF_VF2PF_ISR_PEND(vf_id) \ + (0x1f10 + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_VF2PF_ISR_PEND_RST 0x0 +union dlb2_func_pf_vf2pf_isr_pend { + struct { + u32 isr_pend : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_FUNC_PF_PF2VF_MAILBOX_BYTES 64 +#define DLB2_FUNC_PF_PF2VF_MAILBOX(vf_id, x) \ + (0x2000 + 0x4 * (x) + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_PF2VF_MAILBOX_RST 0x0 +union dlb2_func_pf_pf2vf_mailbox { + struct { + u32 msg : 32; + } field; + u32 val; +}; + +#define DLB2_FUNC_PF_PF2VF_MAILBOX_ISR(vf_id) \ + (0x2f00 + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_PF2VF_MAILBOX_ISR_RST 0x0 +union dlb2_func_pf_pf2vf_mailbox_isr { + struct { + u32 vf0_isr : 1; + u32 vf1_isr : 1; + u32 vf2_isr : 1; + u32 vf3_isr : 1; + u32 vf4_isr : 1; + u32 vf5_isr : 1; + u32 vf6_isr : 1; + u32 vf7_isr : 1; + u32 vf8_isr : 1; + u32 vf9_isr : 1; + u32 vf10_isr : 1; + u32 vf11_isr : 1; + u32 vf12_isr : 1; + u32 vf13_isr : 1; + u32 vf14_isr : 1; + u32 vf15_isr : 1; + u32 rsvd0 : 16; + } field; + u32 val; +}; + +#define DLB2_FUNC_PF_VF_RESET_IN_PROGRESS(vf_id) \ + (0x3000 + (vf_id) * 0x10000) +#define DLB2_FUNC_PF_VF_RESET_IN_PROGRESS_RST 0xffff +union dlb2_func_pf_vf_reset_in_progress { + struct { + u32 vf0_reset_in_progress : 1; + u32 vf1_reset_in_progress : 1; + u32 vf2_reset_in_progress : 1; + u32 vf3_reset_in_progress : 1; + u32 vf4_reset_in_progress : 1; + u32 vf5_reset_in_progress : 1; + u32 vf6_reset_in_progress : 1; + u32 vf7_reset_in_progress : 1; + u32 vf8_reset_in_progress : 1; + u32 vf9_reset_in_progress : 1; + u32 vf10_reset_in_progress : 1; + u32 vf11_reset_in_progress : 1; + u32 vf12_reset_in_progress : 1; + u32 vf13_reset_in_progress : 1; + u32 vf14_reset_in_progress : 1; + u32 vf15_reset_in_progress : 1; + u32 rsvd0 : 16; + } field; + u32 val; +}; + +#define DLB2_MSIX_MEM_VECTOR_CTRL(x) \ + (0x100000c + (x) * 0x10) +#define DLB2_MSIX_MEM_VECTOR_CTRL_RST 0x1 +union dlb2_msix_mem_vector_ctrl { + struct { + u32 vec_mask : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_IOSF_FUNC_VF_BAR_DSBL(x) \ + (0x20 + (x) * 0x4) +#define DLB2_IOSF_FUNC_VF_BAR_DSBL_RST 0x0 +union dlb2_iosf_func_vf_bar_dsbl { + struct { + u32 func_vf_bar_dis : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_VAS 0x1000011c +#define DLB2_SYS_TOTAL_VAS_RST 0x20 +union dlb2_sys_total_vas { + struct { + u32 total_vas : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_DIR_PORTS 0x10000118 +#define DLB2_SYS_TOTAL_DIR_PORTS_RST 0x40 +union dlb2_sys_total_dir_ports { + struct { + u32 total_dir_ports : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_LDB_PORTS 0x10000114 +#define DLB2_SYS_TOTAL_LDB_PORTS_RST 0x40 +union dlb2_sys_total_ldb_ports { + struct { + u32 total_ldb_ports : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_DIR_QID 0x10000110 +#define DLB2_SYS_TOTAL_DIR_QID_RST 0x40 +union dlb2_sys_total_dir_qid { + struct { + u32 total_dir_qid : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_LDB_QID 0x1000010c +#define DLB2_SYS_TOTAL_LDB_QID_RST 0x20 +union dlb2_sys_total_ldb_qid { + struct { + u32 total_ldb_qid : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_DIR_CRDS 0x10000108 +#define DLB2_SYS_TOTAL_DIR_CRDS_RST 0x1000 +union dlb2_sys_total_dir_crds { + struct { + u32 total_dir_credits : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_TOTAL_LDB_CRDS 0x10000104 +#define DLB2_SYS_TOTAL_LDB_CRDS_RST 0x2000 +union dlb2_sys_total_ldb_crds { + struct { + u32 total_ldb_credits : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_PF_SYND2 0x10000508 +#define DLB2_SYS_ALARM_PF_SYND2_RST 0x0 +union dlb2_sys_alarm_pf_synd2 { + struct { + u32 lock_id : 16; + u32 meas : 1; + u32 debug : 7; + u32 cq_pop : 1; + u32 qe_uhl : 1; + u32 qe_orsp : 1; + u32 qe_valid : 1; + u32 cq_int_rearm : 1; + u32 dsi_error : 1; + u32 rsvd0 : 2; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_PF_SYND1 0x10000504 +#define DLB2_SYS_ALARM_PF_SYND1_RST 0x0 +union dlb2_sys_alarm_pf_synd1 { + struct { + u32 dsi : 16; + u32 qid : 8; + u32 qtype : 2; + u32 qpri : 3; + u32 msg_type : 3; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_PF_SYND0 0x10000500 +#define DLB2_SYS_ALARM_PF_SYND0_RST 0x0 +union dlb2_sys_alarm_pf_synd0 { + struct { + u32 syndrome : 8; + u32 rtype : 2; + u32 rsvd0 : 3; + u32 is_ldb : 1; + u32 cls : 2; + u32 aid : 6; + u32 unit : 4; + u32 source : 4; + u32 more : 1; + u32 valid : 1; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_LDB_VPP_V(x) \ + (0x10000f00 + (x) * 0x1000) +#define DLB2_SYS_VF_LDB_VPP_V_RST 0x0 +union dlb2_sys_vf_ldb_vpp_v { + struct { + u32 vpp_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_LDB_VPP2PP(x) \ + (0x10000f04 + (x) * 0x1000) +#define DLB2_SYS_VF_LDB_VPP2PP_RST 0x0 +union dlb2_sys_vf_ldb_vpp2pp { + struct { + u32 pp : 6; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_DIR_VPP_V(x) \ + (0x10000f08 + (x) * 0x1000) +#define DLB2_SYS_VF_DIR_VPP_V_RST 0x0 +union dlb2_sys_vf_dir_vpp_v { + struct { + u32 vpp_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_DIR_VPP2PP(x) \ + (0x10000f0c + (x) * 0x1000) +#define DLB2_SYS_VF_DIR_VPP2PP_RST 0x0 +union dlb2_sys_vf_dir_vpp2pp { + struct { + u32 pp : 6; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_LDB_VQID_V(x) \ + (0x10000f10 + (x) * 0x1000) +#define DLB2_SYS_VF_LDB_VQID_V_RST 0x0 +union dlb2_sys_vf_ldb_vqid_v { + struct { + u32 vqid_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_LDB_VQID2QID(x) \ + (0x10000f14 + (x) * 0x1000) +#define DLB2_SYS_VF_LDB_VQID2QID_RST 0x0 +union dlb2_sys_vf_ldb_vqid2qid { + struct { + u32 qid : 5; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_QID2VQID(x) \ + (0x10000f18 + (x) * 0x1000) +#define DLB2_SYS_LDB_QID2VQID_RST 0x0 +union dlb2_sys_ldb_qid2vqid { + struct { + u32 vqid : 5; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_DIR_VQID_V(x) \ + (0x10000f1c + (x) * 0x1000) +#define DLB2_SYS_VF_DIR_VQID_V_RST 0x0 +union dlb2_sys_vf_dir_vqid_v { + struct { + u32 vqid_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_VF_DIR_VQID2QID(x) \ + (0x10000f20 + (x) * 0x1000) +#define DLB2_SYS_VF_DIR_VQID2QID_RST 0x0 +union dlb2_sys_vf_dir_vqid2qid { + struct { + u32 qid : 6; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_VASQID_V(x) \ + (0x10000f24 + (x) * 0x1000) +#define DLB2_SYS_LDB_VASQID_V_RST 0x0 +union dlb2_sys_ldb_vasqid_v { + struct { + u32 vasqid_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_VASQID_V(x) \ + (0x10000f28 + (x) * 0x1000) +#define DLB2_SYS_DIR_VASQID_V_RST 0x0 +union dlb2_sys_dir_vasqid_v { + struct { + u32 vasqid_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_VF_SYND2(x) \ + (0x10000f48 + (x) * 0x1000) +#define DLB2_SYS_ALARM_VF_SYND2_RST 0x0 +union dlb2_sys_alarm_vf_synd2 { + struct { + u32 lock_id : 16; + u32 debug : 8; + u32 cq_pop : 1; + u32 qe_uhl : 1; + u32 qe_orsp : 1; + u32 qe_valid : 1; + u32 isz : 1; + u32 dsi_error : 1; + u32 dlbrsvd : 2; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_VF_SYND1(x) \ + (0x10000f44 + (x) * 0x1000) +#define DLB2_SYS_ALARM_VF_SYND1_RST 0x0 +union dlb2_sys_alarm_vf_synd1 { + struct { + u32 dsi : 16; + u32 qid : 8; + u32 qtype : 2; + u32 qpri : 3; + u32 msg_type : 3; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_VF_SYND0(x) \ + (0x10000f40 + (x) * 0x1000) +#define DLB2_SYS_ALARM_VF_SYND0_RST 0x0 +union dlb2_sys_alarm_vf_synd0 { + struct { + u32 syndrome : 8; + u32 rtype : 2; + u32 vf_synd0_parity : 1; + u32 vf_synd1_parity : 1; + u32 vf_synd2_parity : 1; + u32 is_ldb : 1; + u32 cls : 2; + u32 aid : 6; + u32 unit : 4; + u32 source : 4; + u32 more : 1; + u32 valid : 1; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_QID_CFG_V(x) \ + (0x10000f58 + (x) * 0x1000) +#define DLB2_SYS_LDB_QID_CFG_V_RST 0x0 +union dlb2_sys_ldb_qid_cfg_v { + struct { + u32 sn_cfg_v : 1; + u32 fid_cfg_v : 1; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_QID_ITS(x) \ + (0x10000f54 + (x) * 0x1000) +#define DLB2_SYS_LDB_QID_ITS_RST 0x0 +union dlb2_sys_ldb_qid_its { + struct { + u32 qid_its : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_QID_V(x) \ + (0x10000f50 + (x) * 0x1000) +#define DLB2_SYS_LDB_QID_V_RST 0x0 +union dlb2_sys_ldb_qid_v { + struct { + u32 qid_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_QID_ITS(x) \ + (0x10000f64 + (x) * 0x1000) +#define DLB2_SYS_DIR_QID_ITS_RST 0x0 +union dlb2_sys_dir_qid_its { + struct { + u32 qid_its : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_QID_V(x) \ + (0x10000f60 + (x) * 0x1000) +#define DLB2_SYS_DIR_QID_V_RST 0x0 +union dlb2_sys_dir_qid_v { + struct { + u32 qid_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_AI_DATA(x) \ + (0x10000fa8 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_AI_DATA_RST 0x0 +union dlb2_sys_ldb_cq_ai_data { + struct { + u32 cq_ai_data : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_AI_ADDR(x) \ + (0x10000fa4 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_AI_ADDR_RST 0x0 +union dlb2_sys_ldb_cq_ai_addr { + struct { + u32 rsvd1 : 2; + u32 cq_ai_addr : 18; + u32 rsvd0 : 12; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_PASID(x) \ + (0x10000fa0 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_PASID_RST 0x0 +union dlb2_sys_ldb_cq_pasid { + struct { + u32 pasid : 20; + u32 exe_req : 1; + u32 priv_req : 1; + u32 fmt2 : 1; + u32 rsvd0 : 9; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_AT(x) \ + (0x10000f9c + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_AT_RST 0x0 +union dlb2_sys_ldb_cq_at { + struct { + u32 cq_at : 2; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_ISR(x) \ + (0x10000f98 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_ISR_RST 0x0 +/* CQ Interrupt Modes */ +#define DLB2_CQ_ISR_MODE_DIS 0 +#define DLB2_CQ_ISR_MODE_MSI 1 +#define DLB2_CQ_ISR_MODE_MSIX 2 +#define DLB2_CQ_ISR_MODE_ADI 3 +union dlb2_sys_ldb_cq_isr { + struct { + u32 vector : 6; + u32 vf : 4; + u32 en_code : 2; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ2VF_PF_RO(x) \ + (0x10000f94 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ2VF_PF_RO_RST 0x0 +union dlb2_sys_ldb_cq2vf_pf_ro { + struct { + u32 vf : 4; + u32 is_pf : 1; + u32 ro : 1; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_PP_V(x) \ + (0x10000f90 + (x) * 0x1000) +#define DLB2_SYS_LDB_PP_V_RST 0x0 +union dlb2_sys_ldb_pp_v { + struct { + u32 pp_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_PP2VDEV(x) \ + (0x10000f8c + (x) * 0x1000) +#define DLB2_SYS_LDB_PP2VDEV_RST 0x0 +union dlb2_sys_ldb_pp2vdev { + struct { + u32 vdev : 4; + u32 rsvd0 : 28; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_PP2VAS(x) \ + (0x10000f88 + (x) * 0x1000) +#define DLB2_SYS_LDB_PP2VAS_RST 0x0 +union dlb2_sys_ldb_pp2vas { + struct { + u32 vas : 5; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_ADDR_U(x) \ + (0x10000f84 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_ADDR_U_RST 0x0 +union dlb2_sys_ldb_cq_addr_u { + struct { + u32 addr_u : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_ADDR_L(x) \ + (0x10000f80 + (x) * 0x1000) +#define DLB2_SYS_LDB_CQ_ADDR_L_RST 0x0 +union dlb2_sys_ldb_cq_addr_l { + struct { + u32 rsvd0 : 6; + u32 addr_l : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_FMT(x) \ + (0x10000fec + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_FMT_RST 0x0 +union dlb2_sys_dir_cq_fmt { + struct { + u32 keep_pf_ppid : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_AI_DATA(x) \ + (0x10000fe8 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_AI_DATA_RST 0x0 +union dlb2_sys_dir_cq_ai_data { + struct { + u32 cq_ai_data : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_AI_ADDR(x) \ + (0x10000fe4 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_AI_ADDR_RST 0x0 +union dlb2_sys_dir_cq_ai_addr { + struct { + u32 rsvd1 : 2; + u32 cq_ai_addr : 18; + u32 rsvd0 : 12; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_PASID(x) \ + (0x10000fe0 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_PASID_RST 0x0 +union dlb2_sys_dir_cq_pasid { + struct { + u32 pasid : 20; + u32 exe_req : 1; + u32 priv_req : 1; + u32 fmt2 : 1; + u32 rsvd0 : 9; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_AT(x) \ + (0x10000fdc + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_AT_RST 0x0 +union dlb2_sys_dir_cq_at { + struct { + u32 cq_at : 2; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_ISR(x) \ + (0x10000fd8 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_ISR_RST 0x0 +union dlb2_sys_dir_cq_isr { + struct { + u32 vector : 6; + u32 vf : 4; + u32 en_code : 2; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ2VF_PF_RO(x) \ + (0x10000fd4 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ2VF_PF_RO_RST 0x0 +union dlb2_sys_dir_cq2vf_pf_ro { + struct { + u32 vf : 4; + u32 is_pf : 1; + u32 ro : 1; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_PP_V(x) \ + (0x10000fd0 + (x) * 0x1000) +#define DLB2_SYS_DIR_PP_V_RST 0x0 +union dlb2_sys_dir_pp_v { + struct { + u32 pp_v : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_PP2VDEV(x) \ + (0x10000fcc + (x) * 0x1000) +#define DLB2_SYS_DIR_PP2VDEV_RST 0x0 +union dlb2_sys_dir_pp2vdev { + struct { + u32 vdev : 4; + u32 rsvd0 : 28; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_PP2VAS(x) \ + (0x10000fc8 + (x) * 0x1000) +#define DLB2_SYS_DIR_PP2VAS_RST 0x0 +union dlb2_sys_dir_pp2vas { + struct { + u32 vas : 5; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_ADDR_U(x) \ + (0x10000fc4 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_ADDR_U_RST 0x0 +union dlb2_sys_dir_cq_addr_u { + struct { + u32 addr_u : 32; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_ADDR_L(x) \ + (0x10000fc0 + (x) * 0x1000) +#define DLB2_SYS_DIR_CQ_ADDR_L_RST 0x0 +union dlb2_sys_dir_cq_addr_l { + struct { + u32 rsvd0 : 6; + u32 addr_l : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_INGRESS_ALARM_ENBL 0x10000300 +#define DLB2_SYS_INGRESS_ALARM_ENBL_RST 0x0 +union dlb2_sys_ingress_alarm_enbl { + struct { + u32 illegal_hcw : 1; + u32 illegal_pp : 1; + u32 illegal_pasid : 1; + u32 illegal_qid : 1; + u32 disabled_qid : 1; + u32 illegal_ldb_qid_cfg : 1; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_MSIX_ACK 0x10000400 +#define DLB2_SYS_MSIX_ACK_RST 0x0 +union dlb2_sys_msix_ack { + struct { + u32 msix_0_ack : 1; + u32 msix_1_ack : 1; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_SYS_MSIX_PASSTHRU 0x10000404 +#define DLB2_SYS_MSIX_PASSTHRU_RST 0x0 +union dlb2_sys_msix_passthru { + struct { + u32 msix_0_passthru : 1; + u32 msix_1_passthru : 1; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_SYS_MSIX_MODE 0x10000408 +#define DLB2_SYS_MSIX_MODE_RST 0x0 +/* MSI-X Modes */ +#define DLB2_MSIX_MODE_PACKED 0 +#define DLB2_MSIX_MODE_COMPRESSED 1 +union dlb2_sys_msix_mode { + struct { + u32 mode : 1; + u32 poll_mode : 1; + u32 poll_mask : 1; + u32 poll_lock : 1; + u32 rsvd0 : 28; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_31_0_OCC_INT_STS 0x10000440 +#define DLB2_SYS_DIR_CQ_31_0_OCC_INT_STS_RST 0x0 +union dlb2_sys_dir_cq_31_0_occ_int_sts { + struct { + u32 cq_0_occ_int : 1; + u32 cq_1_occ_int : 1; + u32 cq_2_occ_int : 1; + u32 cq_3_occ_int : 1; + u32 cq_4_occ_int : 1; + u32 cq_5_occ_int : 1; + u32 cq_6_occ_int : 1; + u32 cq_7_occ_int : 1; + u32 cq_8_occ_int : 1; + u32 cq_9_occ_int : 1; + u32 cq_10_occ_int : 1; + u32 cq_11_occ_int : 1; + u32 cq_12_occ_int : 1; + u32 cq_13_occ_int : 1; + u32 cq_14_occ_int : 1; + u32 cq_15_occ_int : 1; + u32 cq_16_occ_int : 1; + u32 cq_17_occ_int : 1; + u32 cq_18_occ_int : 1; + u32 cq_19_occ_int : 1; + u32 cq_20_occ_int : 1; + u32 cq_21_occ_int : 1; + u32 cq_22_occ_int : 1; + u32 cq_23_occ_int : 1; + u32 cq_24_occ_int : 1; + u32 cq_25_occ_int : 1; + u32 cq_26_occ_int : 1; + u32 cq_27_occ_int : 1; + u32 cq_28_occ_int : 1; + u32 cq_29_occ_int : 1; + u32 cq_30_occ_int : 1; + u32 cq_31_occ_int : 1; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_63_32_OCC_INT_STS 0x10000444 +#define DLB2_SYS_DIR_CQ_63_32_OCC_INT_STS_RST 0x0 +union dlb2_sys_dir_cq_63_32_occ_int_sts { + struct { + u32 cq_32_occ_int : 1; + u32 cq_33_occ_int : 1; + u32 cq_34_occ_int : 1; + u32 cq_35_occ_int : 1; + u32 cq_36_occ_int : 1; + u32 cq_37_occ_int : 1; + u32 cq_38_occ_int : 1; + u32 cq_39_occ_int : 1; + u32 cq_40_occ_int : 1; + u32 cq_41_occ_int : 1; + u32 cq_42_occ_int : 1; + u32 cq_43_occ_int : 1; + u32 cq_44_occ_int : 1; + u32 cq_45_occ_int : 1; + u32 cq_46_occ_int : 1; + u32 cq_47_occ_int : 1; + u32 cq_48_occ_int : 1; + u32 cq_49_occ_int : 1; + u32 cq_50_occ_int : 1; + u32 cq_51_occ_int : 1; + u32 cq_52_occ_int : 1; + u32 cq_53_occ_int : 1; + u32 cq_54_occ_int : 1; + u32 cq_55_occ_int : 1; + u32 cq_56_occ_int : 1; + u32 cq_57_occ_int : 1; + u32 cq_58_occ_int : 1; + u32 cq_59_occ_int : 1; + u32 cq_60_occ_int : 1; + u32 cq_61_occ_int : 1; + u32 cq_62_occ_int : 1; + u32 cq_63_occ_int : 1; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_31_0_OCC_INT_STS 0x10000460 +#define DLB2_SYS_LDB_CQ_31_0_OCC_INT_STS_RST 0x0 +union dlb2_sys_ldb_cq_31_0_occ_int_sts { + struct { + u32 cq_0_occ_int : 1; + u32 cq_1_occ_int : 1; + u32 cq_2_occ_int : 1; + u32 cq_3_occ_int : 1; + u32 cq_4_occ_int : 1; + u32 cq_5_occ_int : 1; + u32 cq_6_occ_int : 1; + u32 cq_7_occ_int : 1; + u32 cq_8_occ_int : 1; + u32 cq_9_occ_int : 1; + u32 cq_10_occ_int : 1; + u32 cq_11_occ_int : 1; + u32 cq_12_occ_int : 1; + u32 cq_13_occ_int : 1; + u32 cq_14_occ_int : 1; + u32 cq_15_occ_int : 1; + u32 cq_16_occ_int : 1; + u32 cq_17_occ_int : 1; + u32 cq_18_occ_int : 1; + u32 cq_19_occ_int : 1; + u32 cq_20_occ_int : 1; + u32 cq_21_occ_int : 1; + u32 cq_22_occ_int : 1; + u32 cq_23_occ_int : 1; + u32 cq_24_occ_int : 1; + u32 cq_25_occ_int : 1; + u32 cq_26_occ_int : 1; + u32 cq_27_occ_int : 1; + u32 cq_28_occ_int : 1; + u32 cq_29_occ_int : 1; + u32 cq_30_occ_int : 1; + u32 cq_31_occ_int : 1; + } field; + u32 val; +}; + +#define DLB2_SYS_LDB_CQ_63_32_OCC_INT_STS 0x10000464 +#define DLB2_SYS_LDB_CQ_63_32_OCC_INT_STS_RST 0x0 +union dlb2_sys_ldb_cq_63_32_occ_int_sts { + struct { + u32 cq_32_occ_int : 1; + u32 cq_33_occ_int : 1; + u32 cq_34_occ_int : 1; + u32 cq_35_occ_int : 1; + u32 cq_36_occ_int : 1; + u32 cq_37_occ_int : 1; + u32 cq_38_occ_int : 1; + u32 cq_39_occ_int : 1; + u32 cq_40_occ_int : 1; + u32 cq_41_occ_int : 1; + u32 cq_42_occ_int : 1; + u32 cq_43_occ_int : 1; + u32 cq_44_occ_int : 1; + u32 cq_45_occ_int : 1; + u32 cq_46_occ_int : 1; + u32 cq_47_occ_int : 1; + u32 cq_48_occ_int : 1; + u32 cq_49_occ_int : 1; + u32 cq_50_occ_int : 1; + u32 cq_51_occ_int : 1; + u32 cq_52_occ_int : 1; + u32 cq_53_occ_int : 1; + u32 cq_54_occ_int : 1; + u32 cq_55_occ_int : 1; + u32 cq_56_occ_int : 1; + u32 cq_57_occ_int : 1; + u32 cq_58_occ_int : 1; + u32 cq_59_occ_int : 1; + u32 cq_60_occ_int : 1; + u32 cq_61_occ_int : 1; + u32 cq_62_occ_int : 1; + u32 cq_63_occ_int : 1; + } field; + u32 val; +}; + +#define DLB2_SYS_DIR_CQ_OPT_CLR 0x100004c0 +#define DLB2_SYS_DIR_CQ_OPT_CLR_RST 0x0 +union dlb2_sys_dir_cq_opt_clr { + struct { + u32 cq : 6; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_SYS_ALARM_HW_SYND 0x1000050c +#define DLB2_SYS_ALARM_HW_SYND_RST 0x0 +union dlb2_sys_alarm_hw_synd { + struct { + u32 syndrome : 8; + u32 rtype : 2; + u32 alarm : 1; + u32 cwd : 1; + u32 vf_pf_mb : 1; + u32 rsvd0 : 1; + u32 cls : 2; + u32 aid : 6; + u32 unit : 4; + u32 source : 4; + u32 more : 1; + u32 valid : 1; + } field; + u32 val; +}; + +#define DLB2_AQED_PIPE_QID_FID_LIM(x) \ + (0x20000000 + (x) * 0x1000) +#define DLB2_AQED_PIPE_QID_FID_LIM_RST 0x7ff +union dlb2_aqed_pipe_qid_fid_lim { + struct { + u32 qid_fid_limit : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_AQED_PIPE_QID_HID_WIDTH(x) \ + (0x20080000 + (x) * 0x1000) +#define DLB2_AQED_PIPE_QID_HID_WIDTH_RST 0x0 +union dlb2_aqed_pipe_qid_hid_width { + struct { + u32 compress_code : 3; + u32 rsvd0 : 29; + } field; + u32 val; +}; + +#define DLB2_AQED_PIPE_CFG_ARB_WEIGHTS_TQPRI_ATM_0 0x24000004 +#define DLB2_AQED_PIPE_CFG_ARB_WEIGHTS_TQPRI_ATM_0_RST 0xfefcfaf8 +union dlb2_aqed_pipe_cfg_arb_weights_tqpri_atm_0 { + struct { + u32 pri0 : 8; + u32 pri1 : 8; + u32 pri2 : 8; + u32 pri3 : 8; + } field; + u32 val; +}; + +#define DLB2_ATM_QID2CQIDIX_00(x) \ + (0x30080000 + (x) * 0x1000) +#define DLB2_ATM_QID2CQIDIX_00_RST 0x0 +#define DLB2_ATM_QID2CQIDIX(x, y) \ + (DLB2_ATM_QID2CQIDIX_00(x) + 0x80000 * (y)) +#define DLB2_ATM_QID2CQIDIX_NUM 16 +union dlb2_atm_qid2cqidix_00 { + struct { + u32 cq_p0 : 8; + u32 cq_p1 : 8; + u32 cq_p2 : 8; + u32 cq_p3 : 8; + } field; + u32 val; +}; + +#define DLB2_ATM_CFG_ARB_WEIGHTS_RDY_BIN 0x34000004 +#define DLB2_ATM_CFG_ARB_WEIGHTS_RDY_BIN_RST 0xfffefdfc +union dlb2_atm_cfg_arb_weights_rdy_bin { + struct { + u32 bin0 : 8; + u32 bin1 : 8; + u32 bin2 : 8; + u32 bin3 : 8; + } field; + u32 val; +}; + +#define DLB2_ATM_CFG_ARB_WEIGHTS_SCHED_BIN 0x34000008 +#define DLB2_ATM_CFG_ARB_WEIGHTS_SCHED_BIN_RST 0xfffefdfc +union dlb2_atm_cfg_arb_weights_sched_bin { + struct { + u32 bin0 : 8; + u32 bin1 : 8; + u32 bin2 : 8; + u32 bin3 : 8; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_VAS_CRD(x) \ + (0x40000000 + (x) * 0x1000) +#define DLB2_CHP_CFG_DIR_VAS_CRD_RST 0x0 +union dlb2_chp_cfg_dir_vas_crd { + struct { + u32 count : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_VAS_CRD(x) \ + (0x40080000 + (x) * 0x1000) +#define DLB2_CHP_CFG_LDB_VAS_CRD_RST 0x0 +union dlb2_chp_cfg_ldb_vas_crd { + struct { + u32 count : 15; + u32 rsvd0 : 17; + } field; + u32 val; +}; + +#define DLB2_CHP_ORD_QID_SN(x) \ + (0x40100000 + (x) * 0x1000) +#define DLB2_CHP_ORD_QID_SN_RST 0x0 +union dlb2_chp_ord_qid_sn { + struct { + u32 sn : 10; + u32 rsvd0 : 22; + } field; + u32 val; +}; + +#define DLB2_CHP_ORD_QID_SN_MAP(x) \ + (0x40180000 + (x) * 0x1000) +#define DLB2_CHP_ORD_QID_SN_MAP_RST 0x0 +union dlb2_chp_ord_qid_sn_map { + struct { + u32 mode : 3; + u32 slot : 4; + u32 rsvz0 : 1; + u32 grp : 1; + u32 rsvz1 : 1; + u32 rsvd0 : 22; + } field; + u32 val; +}; + +#define DLB2_CHP_SN_CHK_ENBL(x) \ + (0x40200000 + (x) * 0x1000) +#define DLB2_CHP_SN_CHK_ENBL_RST 0x0 +union dlb2_chp_sn_chk_enbl { + struct { + u32 en : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_DEPTH(x) \ + (0x40280000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_DEPTH_RST 0x0 +union dlb2_chp_dir_cq_depth { + struct { + u32 depth : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_INT_DEPTH_THRSH(x) \ + (0x40300000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_INT_DEPTH_THRSH_RST 0x0 +union dlb2_chp_dir_cq_int_depth_thrsh { + struct { + u32 depth_threshold : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_INT_ENB(x) \ + (0x40380000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_INT_ENB_RST 0x0 +union dlb2_chp_dir_cq_int_enb { + struct { + u32 en_tim : 1; + u32 en_depth : 1; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_TMR_THRSH(x) \ + (0x40480000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_TMR_THRSH_RST 0x1 +union dlb2_chp_dir_cq_tmr_thrsh { + struct { + u32 thrsh_0 : 1; + u32 thrsh_13_1 : 13; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL(x) \ + (0x40500000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL_RST 0x0 +union dlb2_chp_dir_cq_tkn_depth_sel { + struct { + u32 token_depth_select : 4; + u32 rsvd0 : 28; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_WD_ENB(x) \ + (0x40580000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_WD_ENB_RST 0x0 +union dlb2_chp_dir_cq_wd_enb { + struct { + u32 wd_enable : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_WPTR(x) \ + (0x40600000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ_WPTR_RST 0x0 +union dlb2_chp_dir_cq_wptr { + struct { + u32 write_pointer : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ2VAS(x) \ + (0x40680000 + (x) * 0x1000) +#define DLB2_CHP_DIR_CQ2VAS_RST 0x0 +union dlb2_chp_dir_cq2vas { + struct { + u32 cq2vas : 5; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_CHP_HIST_LIST_BASE(x) \ + (0x40700000 + (x) * 0x1000) +#define DLB2_CHP_HIST_LIST_BASE_RST 0x0 +union dlb2_chp_hist_list_base { + struct { + u32 base : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_CHP_HIST_LIST_LIM(x) \ + (0x40780000 + (x) * 0x1000) +#define DLB2_CHP_HIST_LIST_LIM_RST 0x0 +union dlb2_chp_hist_list_lim { + struct { + u32 limit : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_CHP_HIST_LIST_POP_PTR(x) \ + (0x40800000 + (x) * 0x1000) +#define DLB2_CHP_HIST_LIST_POP_PTR_RST 0x0 +union dlb2_chp_hist_list_pop_ptr { + struct { + u32 pop_ptr : 13; + u32 generation : 1; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_CHP_HIST_LIST_PUSH_PTR(x) \ + (0x40880000 + (x) * 0x1000) +#define DLB2_CHP_HIST_LIST_PUSH_PTR_RST 0x0 +union dlb2_chp_hist_list_push_ptr { + struct { + u32 push_ptr : 13; + u32 generation : 1; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_DEPTH(x) \ + (0x40900000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_DEPTH_RST 0x0 +union dlb2_chp_ldb_cq_depth { + struct { + u32 depth : 11; + u32 rsvd0 : 21; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_INT_DEPTH_THRSH(x) \ + (0x40980000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_INT_DEPTH_THRSH_RST 0x0 +union dlb2_chp_ldb_cq_int_depth_thrsh { + struct { + u32 depth_threshold : 11; + u32 rsvd0 : 21; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_INT_ENB(x) \ + (0x40a00000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_INT_ENB_RST 0x0 +union dlb2_chp_ldb_cq_int_enb { + struct { + u32 en_tim : 1; + u32 en_depth : 1; + u32 rsvd0 : 30; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_TMR_THRSH(x) \ + (0x40b00000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_TMR_THRSH_RST 0x1 +union dlb2_chp_ldb_cq_tmr_thrsh { + struct { + u32 thrsh_0 : 1; + u32 thrsh_13_1 : 13; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL(x) \ + (0x40b80000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL_RST 0x0 +union dlb2_chp_ldb_cq_tkn_depth_sel { + struct { + u32 token_depth_select : 4; + u32 rsvd0 : 28; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_WD_ENB(x) \ + (0x40c00000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_WD_ENB_RST 0x0 +union dlb2_chp_ldb_cq_wd_enb { + struct { + u32 wd_enable : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_WPTR(x) \ + (0x40c80000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ_WPTR_RST 0x0 +union dlb2_chp_ldb_cq_wptr { + struct { + u32 write_pointer : 11; + u32 rsvd0 : 21; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ2VAS(x) \ + (0x40d00000 + (x) * 0x1000) +#define DLB2_CHP_LDB_CQ2VAS_RST 0x0 +union dlb2_chp_ldb_cq2vas { + struct { + u32 cq2vas : 5; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_CHP_CSR_CTRL 0x44000008 +#define DLB2_CHP_CFG_CHP_CSR_CTRL_RST 0x180002 +union dlb2_chp_cfg_chp_csr_ctrl { + struct { + u32 int_cor_alarm_dis : 1; + u32 int_cor_synd_dis : 1; + u32 int_uncr_alarm_dis : 1; + u32 int_unc_synd_dis : 1; + u32 int_inf0_alarm_dis : 1; + u32 int_inf0_synd_dis : 1; + u32 int_inf1_alarm_dis : 1; + u32 int_inf1_synd_dis : 1; + u32 int_inf2_alarm_dis : 1; + u32 int_inf2_synd_dis : 1; + u32 int_inf3_alarm_dis : 1; + u32 int_inf3_synd_dis : 1; + u32 int_inf4_alarm_dis : 1; + u32 int_inf4_synd_dis : 1; + u32 int_inf5_alarm_dis : 1; + u32 int_inf5_synd_dis : 1; + u32 dlb_cor_alarm_enable : 1; + u32 cfg_64bytes_qe_ldb_cq_mode : 1; + u32 cfg_64bytes_qe_dir_cq_mode : 1; + u32 pad_write_ldb : 1; + u32 pad_write_dir : 1; + u32 pad_first_write_ldb : 1; + u32 pad_first_write_dir : 1; + u32 rsvz0 : 9; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_INTR_ARMED0 0x4400005c +#define DLB2_CHP_DIR_CQ_INTR_ARMED0_RST 0x0 +union dlb2_chp_dir_cq_intr_armed0 { + struct { + u32 armed : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_DIR_CQ_INTR_ARMED1 0x44000060 +#define DLB2_CHP_DIR_CQ_INTR_ARMED1_RST 0x0 +union dlb2_chp_dir_cq_intr_armed1 { + struct { + u32 armed : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_CQ_TIMER_CTL 0x44000084 +#define DLB2_CHP_CFG_DIR_CQ_TIMER_CTL_RST 0x0 +union dlb2_chp_cfg_dir_cq_timer_ctl { + struct { + u32 sample_interval : 8; + u32 enb : 1; + u32 rsvz0 : 23; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_WDTO_0 0x44000088 +#define DLB2_CHP_CFG_DIR_WDTO_0_RST 0x0 +union dlb2_chp_cfg_dir_wdto_0 { + struct { + u32 wdto : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_WDTO_1 0x4400008c +#define DLB2_CHP_CFG_DIR_WDTO_1_RST 0x0 +union dlb2_chp_cfg_dir_wdto_1 { + struct { + u32 wdto : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_WD_DISABLE0 0x44000098 +#define DLB2_CHP_CFG_DIR_WD_DISABLE0_RST 0xffffffff +union dlb2_chp_cfg_dir_wd_disable0 { + struct { + u32 wd_disable : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_WD_DISABLE1 0x4400009c +#define DLB2_CHP_CFG_DIR_WD_DISABLE1_RST 0xffffffff +union dlb2_chp_cfg_dir_wd_disable1 { + struct { + u32 wd_disable : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_WD_ENB_INTERVAL 0x440000a0 +#define DLB2_CHP_CFG_DIR_WD_ENB_INTERVAL_RST 0x0 +union dlb2_chp_cfg_dir_wd_enb_interval { + struct { + u32 sample_interval : 28; + u32 enb : 1; + u32 rsvz0 : 3; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_DIR_WD_THRESHOLD 0x440000ac +#define DLB2_CHP_CFG_DIR_WD_THRESHOLD_RST 0x0 +union dlb2_chp_cfg_dir_wd_threshold { + struct { + u32 wd_threshold : 8; + u32 rsvz0 : 24; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_INTR_ARMED0 0x440000b0 +#define DLB2_CHP_LDB_CQ_INTR_ARMED0_RST 0x0 +union dlb2_chp_ldb_cq_intr_armed0 { + struct { + u32 armed : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_LDB_CQ_INTR_ARMED1 0x440000b4 +#define DLB2_CHP_LDB_CQ_INTR_ARMED1_RST 0x0 +union dlb2_chp_ldb_cq_intr_armed1 { + struct { + u32 armed : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_CQ_TIMER_CTL 0x440000d8 +#define DLB2_CHP_CFG_LDB_CQ_TIMER_CTL_RST 0x0 +union dlb2_chp_cfg_ldb_cq_timer_ctl { + struct { + u32 sample_interval : 8; + u32 enb : 1; + u32 rsvz0 : 23; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_WDTO_0 0x440000dc +#define DLB2_CHP_CFG_LDB_WDTO_0_RST 0x0 +union dlb2_chp_cfg_ldb_wdto_0 { + struct { + u32 wdto : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_WDTO_1 0x440000e0 +#define DLB2_CHP_CFG_LDB_WDTO_1_RST 0x0 +union dlb2_chp_cfg_ldb_wdto_1 { + struct { + u32 wdto : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_WD_DISABLE0 0x440000ec +#define DLB2_CHP_CFG_LDB_WD_DISABLE0_RST 0xffffffff +union dlb2_chp_cfg_ldb_wd_disable0 { + struct { + u32 wd_disable : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_WD_DISABLE1 0x440000f0 +#define DLB2_CHP_CFG_LDB_WD_DISABLE1_RST 0xffffffff +union dlb2_chp_cfg_ldb_wd_disable1 { + struct { + u32 wd_disable : 32; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_WD_ENB_INTERVAL 0x440000f4 +#define DLB2_CHP_CFG_LDB_WD_ENB_INTERVAL_RST 0x0 +union dlb2_chp_cfg_ldb_wd_enb_interval { + struct { + u32 sample_interval : 28; + u32 enb : 1; + u32 rsvz0 : 3; + } field; + u32 val; +}; + +#define DLB2_CHP_CFG_LDB_WD_THRESHOLD 0x44000100 +#define DLB2_CHP_CFG_LDB_WD_THRESHOLD_RST 0x0 +union dlb2_chp_cfg_ldb_wd_threshold { + struct { + u32 wd_threshold : 8; + u32 rsvz0 : 24; + } field; + u32 val; +}; + +#define DLB2_CHP_CTRL_DIAG_02 0x4c000028 +#define DLB2_CHP_CTRL_DIAG_02_RST 0x1555 +union dlb2_chp_ctrl_diag_02 { + struct { + u32 egress_credit_status_empty : 1; + u32 egress_credit_status_afull : 1; + u32 chp_outbound_hcw_pipe_credit_status_empty : 1; + u32 chp_outbound_hcw_pipe_credit_status_afull : 1; + u32 chp_lsp_ap_cmp_pipe_credit_status_empty : 1; + u32 chp_lsp_ap_cmp_pipe_credit_status_afull : 1; + u32 chp_lsp_tok_pipe_credit_status_empty : 1; + u32 chp_lsp_tok_pipe_credit_status_afull : 1; + u32 chp_rop_pipe_credit_status_empty : 1; + u32 chp_rop_pipe_credit_status_afull : 1; + u32 qed_to_cq_pipe_credit_status_empty : 1; + u32 qed_to_cq_pipe_credit_status_afull : 1; + u32 egress_lsp_token_credit_status_empty : 1; + u32 egress_lsp_token_credit_status_afull : 1; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_DIR_0 0x54000000 +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_DIR_0_RST 0xfefcfaf8 +union dlb2_dp_cfg_arb_weights_tqpri_dir_0 { + struct { + u32 pri0 : 8; + u32 pri1 : 8; + u32 pri2 : 8; + u32 pri3 : 8; + } field; + u32 val; +}; + +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_DIR_1 0x54000004 +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_DIR_1_RST 0x0 +union dlb2_dp_cfg_arb_weights_tqpri_dir_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_REPLAY_0 0x54000008 +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_REPLAY_0_RST 0xfefcfaf8 +union dlb2_dp_cfg_arb_weights_tqpri_replay_0 { + struct { + u32 pri0 : 8; + u32 pri1 : 8; + u32 pri2 : 8; + u32 pri3 : 8; + } field; + u32 val; +}; + +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_REPLAY_1 0x5400000c +#define DLB2_DP_CFG_ARB_WEIGHTS_TQPRI_REPLAY_1_RST 0x0 +union dlb2_dp_cfg_arb_weights_tqpri_replay_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_DP_DIR_CSR_CTRL 0x54000010 +#define DLB2_DP_DIR_CSR_CTRL_RST 0x0 +union dlb2_dp_dir_csr_ctrl { + struct { + u32 int_cor_alarm_dis : 1; + u32 int_cor_synd_dis : 1; + u32 int_uncr_alarm_dis : 1; + u32 int_unc_synd_dis : 1; + u32 int_inf0_alarm_dis : 1; + u32 int_inf0_synd_dis : 1; + u32 int_inf1_alarm_dis : 1; + u32 int_inf1_synd_dis : 1; + u32 int_inf2_alarm_dis : 1; + u32 int_inf2_synd_dis : 1; + u32 int_inf3_alarm_dis : 1; + u32 int_inf3_synd_dis : 1; + u32 int_inf4_alarm_dis : 1; + u32 int_inf4_synd_dis : 1; + u32 int_inf5_alarm_dis : 1; + u32 int_inf5_synd_dis : 1; + u32 rsvz0 : 16; + } field; + u32 val; +}; + +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_ATQ_0 0x84000000 +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_ATQ_0_RST 0xfefcfaf8 +union dlb2_nalb_pipe_cfg_arb_weights_tqpri_atq_0 { + struct { + u32 pri0 : 8; + u32 pri1 : 8; + u32 pri2 : 8; + u32 pri3 : 8; + } field; + u32 val; +}; + +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_ATQ_1 0x84000004 +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_ATQ_1_RST 0x0 +union dlb2_nalb_pipe_cfg_arb_weights_tqpri_atq_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_NALB_0 0x84000008 +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_NALB_0_RST 0xfefcfaf8 +union dlb2_nalb_pipe_cfg_arb_weights_tqpri_nalb_0 { + struct { + u32 pri0 : 8; + u32 pri1 : 8; + u32 pri2 : 8; + u32 pri3 : 8; + } field; + u32 val; +}; + +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_NALB_1 0x8400000c +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_NALB_1_RST 0x0 +union dlb2_nalb_pipe_cfg_arb_weights_tqpri_nalb_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_REPLAY_0 0x84000010 +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_REPLAY_0_RST 0xfefcfaf8 +union dlb2_nalb_pipe_cfg_arb_weights_tqpri_replay_0 { + struct { + u32 pri0 : 8; + u32 pri1 : 8; + u32 pri2 : 8; + u32 pri3 : 8; + } field; + u32 val; +}; + +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_REPLAY_1 0x84000014 +#define DLB2_NALB_PIPE_CFG_ARB_WEIGHTS_TQPRI_REPLAY_1_RST 0x0 +union dlb2_nalb_pipe_cfg_arb_weights_tqpri_replay_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_RO_PIPE_GRP_0_SLT_SHFT(x) \ + (0x96000000 + (x) * 0x4) +#define DLB2_RO_PIPE_GRP_0_SLT_SHFT_RST 0x0 +union dlb2_ro_pipe_grp_0_slt_shft { + struct { + u32 change : 10; + u32 rsvd0 : 22; + } field; + u32 val; +}; + +#define DLB2_RO_PIPE_GRP_1_SLT_SHFT(x) \ + (0x96010000 + (x) * 0x4) +#define DLB2_RO_PIPE_GRP_1_SLT_SHFT_RST 0x0 +union dlb2_ro_pipe_grp_1_slt_shft { + struct { + u32 change : 10; + u32 rsvd0 : 22; + } field; + u32 val; +}; + +#define DLB2_RO_PIPE_GRP_SN_MODE 0x94000000 +#define DLB2_RO_PIPE_GRP_SN_MODE_RST 0x0 +union dlb2_ro_pipe_grp_sn_mode { + struct { + u32 sn_mode_0 : 3; + u32 rszv0 : 5; + u32 sn_mode_1 : 3; + u32 rszv1 : 21; + } field; + u32 val; +}; + +#define DLB2_RO_PIPE_CFG_CTRL_GENERAL_0 0x9c000000 +#define DLB2_RO_PIPE_CFG_CTRL_GENERAL_0_RST 0x0 +union dlb2_ro_pipe_cfg_ctrl_general_0 { + struct { + u32 unit_single_step_mode : 1; + u32 rr_en : 1; + u32 rszv0 : 30; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ2PRIOV(x) \ + (0xa0000000 + (x) * 0x1000) +#define DLB2_LSP_CQ2PRIOV_RST 0x0 +union dlb2_lsp_cq2priov { + struct { + u32 prio : 24; + u32 v : 8; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ2QID0(x) \ + (0xa0080000 + (x) * 0x1000) +#define DLB2_LSP_CQ2QID0_RST 0x0 +union dlb2_lsp_cq2qid0 { + struct { + u32 qid_p0 : 7; + u32 rsvd3 : 1; + u32 qid_p1 : 7; + u32 rsvd2 : 1; + u32 qid_p2 : 7; + u32 rsvd1 : 1; + u32 qid_p3 : 7; + u32 rsvd0 : 1; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ2QID1(x) \ + (0xa0100000 + (x) * 0x1000) +#define DLB2_LSP_CQ2QID1_RST 0x0 +union dlb2_lsp_cq2qid1 { + struct { + u32 qid_p4 : 7; + u32 rsvd3 : 1; + u32 qid_p5 : 7; + u32 rsvd2 : 1; + u32 qid_p6 : 7; + u32 rsvd1 : 1; + u32 qid_p7 : 7; + u32 rsvd0 : 1; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_DIR_DSBL(x) \ + (0xa0180000 + (x) * 0x1000) +#define DLB2_LSP_CQ_DIR_DSBL_RST 0x1 +union dlb2_lsp_cq_dir_dsbl { + struct { + u32 disabled : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_DIR_TKN_CNT(x) \ + (0xa0200000 + (x) * 0x1000) +#define DLB2_LSP_CQ_DIR_TKN_CNT_RST 0x0 +union dlb2_lsp_cq_dir_tkn_cnt { + struct { + u32 count : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI(x) \ + (0xa0280000 + (x) * 0x1000) +#define DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI_RST 0x0 +union dlb2_lsp_cq_dir_tkn_depth_sel_dsi { + struct { + u32 token_depth_select : 4; + u32 disable_wb_opt : 1; + u32 ignore_depth : 1; + u32 rsvd0 : 26; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_DIR_TOT_SCH_CNTL(x) \ + (0xa0300000 + (x) * 0x1000) +#define DLB2_LSP_CQ_DIR_TOT_SCH_CNTL_RST 0x0 +union dlb2_lsp_cq_dir_tot_sch_cntl { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_DIR_TOT_SCH_CNTH(x) \ + (0xa0380000 + (x) * 0x1000) +#define DLB2_LSP_CQ_DIR_TOT_SCH_CNTH_RST 0x0 +union dlb2_lsp_cq_dir_tot_sch_cnth { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_DSBL(x) \ + (0xa0400000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_DSBL_RST 0x1 +union dlb2_lsp_cq_ldb_dsbl { + struct { + u32 disabled : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_INFL_CNT(x) \ + (0xa0480000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_INFL_CNT_RST 0x0 +union dlb2_lsp_cq_ldb_infl_cnt { + struct { + u32 count : 12; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_INFL_LIM(x) \ + (0xa0500000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_INFL_LIM_RST 0x0 +union dlb2_lsp_cq_ldb_infl_lim { + struct { + u32 limit : 12; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_TKN_CNT(x) \ + (0xa0580000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_TKN_CNT_RST 0x0 +union dlb2_lsp_cq_ldb_tkn_cnt { + struct { + u32 token_count : 11; + u32 rsvd0 : 21; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL(x) \ + (0xa0600000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL_RST 0x0 +union dlb2_lsp_cq_ldb_tkn_depth_sel { + struct { + u32 token_depth_select : 4; + u32 ignore_depth : 1; + u32 rsvd0 : 27; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_TOT_SCH_CNTL(x) \ + (0xa0680000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_TOT_SCH_CNTL_RST 0x0 +union dlb2_lsp_cq_ldb_tot_sch_cntl { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_CQ_LDB_TOT_SCH_CNTH(x) \ + (0xa0700000 + (x) * 0x1000) +#define DLB2_LSP_CQ_LDB_TOT_SCH_CNTH_RST 0x0 +union dlb2_lsp_cq_ldb_tot_sch_cnth { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_DIR_MAX_DEPTH(x) \ + (0xa0780000 + (x) * 0x1000) +#define DLB2_LSP_QID_DIR_MAX_DEPTH_RST 0x0 +union dlb2_lsp_qid_dir_max_depth { + struct { + u32 depth : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_DIR_TOT_ENQ_CNTL(x) \ + (0xa0800000 + (x) * 0x1000) +#define DLB2_LSP_QID_DIR_TOT_ENQ_CNTL_RST 0x0 +union dlb2_lsp_qid_dir_tot_enq_cntl { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_DIR_TOT_ENQ_CNTH(x) \ + (0xa0880000 + (x) * 0x1000) +#define DLB2_LSP_QID_DIR_TOT_ENQ_CNTH_RST 0x0 +union dlb2_lsp_qid_dir_tot_enq_cnth { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_DIR_ENQUEUE_CNT(x) \ + (0xa0900000 + (x) * 0x1000) +#define DLB2_LSP_QID_DIR_ENQUEUE_CNT_RST 0x0 +union dlb2_lsp_qid_dir_enqueue_cnt { + struct { + u32 count : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_DIR_DEPTH_THRSH(x) \ + (0xa0980000 + (x) * 0x1000) +#define DLB2_LSP_QID_DIR_DEPTH_THRSH_RST 0x0 +union dlb2_lsp_qid_dir_depth_thrsh { + struct { + u32 thresh : 13; + u32 rsvd0 : 19; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_AQED_ACTIVE_CNT(x) \ + (0xa0a00000 + (x) * 0x1000) +#define DLB2_LSP_QID_AQED_ACTIVE_CNT_RST 0x0 +union dlb2_lsp_qid_aqed_active_cnt { + struct { + u32 count : 12; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_AQED_ACTIVE_LIM(x) \ + (0xa0a80000 + (x) * 0x1000) +#define DLB2_LSP_QID_AQED_ACTIVE_LIM_RST 0x0 +union dlb2_lsp_qid_aqed_active_lim { + struct { + u32 limit : 12; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_ATM_TOT_ENQ_CNTL(x) \ + (0xa0b00000 + (x) * 0x1000) +#define DLB2_LSP_QID_ATM_TOT_ENQ_CNTL_RST 0x0 +union dlb2_lsp_qid_atm_tot_enq_cntl { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_ATM_TOT_ENQ_CNTH(x) \ + (0xa0b80000 + (x) * 0x1000) +#define DLB2_LSP_QID_ATM_TOT_ENQ_CNTH_RST 0x0 +union dlb2_lsp_qid_atm_tot_enq_cnth { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_ATQ_ENQUEUE_CNT(x) \ + (0xa0c00000 + (x) * 0x1000) +#define DLB2_LSP_QID_ATQ_ENQUEUE_CNT_RST 0x0 +union dlb2_lsp_qid_atq_enqueue_cnt { + struct { + u32 count : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_LDB_ENQUEUE_CNT(x) \ + (0xa0c80000 + (x) * 0x1000) +#define DLB2_LSP_QID_LDB_ENQUEUE_CNT_RST 0x0 +union dlb2_lsp_qid_ldb_enqueue_cnt { + struct { + u32 count : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_LDB_INFL_CNT(x) \ + (0xa0d00000 + (x) * 0x1000) +#define DLB2_LSP_QID_LDB_INFL_CNT_RST 0x0 +union dlb2_lsp_qid_ldb_infl_cnt { + struct { + u32 count : 12; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_LDB_INFL_LIM(x) \ + (0xa0d80000 + (x) * 0x1000) +#define DLB2_LSP_QID_LDB_INFL_LIM_RST 0x0 +union dlb2_lsp_qid_ldb_infl_lim { + struct { + u32 limit : 12; + u32 rsvd0 : 20; + } field; + u32 val; +}; + +#define DLB2_LSP_QID2CQIDIX_00(x) \ + (0xa0e00000 + (x) * 0x1000) +#define DLB2_LSP_QID2CQIDIX_00_RST 0x0 +#define DLB2_LSP_QID2CQIDIX(x, y) \ + (DLB2_LSP_QID2CQIDIX_00(x) + 0x80000 * (y)) +#define DLB2_LSP_QID2CQIDIX_NUM 16 +union dlb2_lsp_qid2cqidix_00 { + struct { + u32 cq_p0 : 8; + u32 cq_p1 : 8; + u32 cq_p2 : 8; + u32 cq_p3 : 8; + } field; + u32 val; +}; + +#define DLB2_LSP_QID2CQIDIX2_00(x) \ + (0xa1600000 + (x) * 0x1000) +#define DLB2_LSP_QID2CQIDIX2_00_RST 0x0 +#define DLB2_LSP_QID2CQIDIX2(x, y) \ + (DLB2_LSP_QID2CQIDIX2_00(x) + 0x80000 * (y)) +#define DLB2_LSP_QID2CQIDIX2_NUM 16 +union dlb2_lsp_qid2cqidix2_00 { + struct { + u32 cq_p0 : 8; + u32 cq_p1 : 8; + u32 cq_p2 : 8; + u32 cq_p3 : 8; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_LDB_REPLAY_CNT(x) \ + (0xa1e00000 + (x) * 0x1000) +#define DLB2_LSP_QID_LDB_REPLAY_CNT_RST 0x0 +union dlb2_lsp_qid_ldb_replay_cnt { + struct { + u32 count : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_NALDB_MAX_DEPTH(x) \ + (0xa1f00000 + (x) * 0x1000) +#define DLB2_LSP_QID_NALDB_MAX_DEPTH_RST 0x0 +union dlb2_lsp_qid_naldb_max_depth { + struct { + u32 depth : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_NALDB_TOT_ENQ_CNTL(x) \ + (0xa1f80000 + (x) * 0x1000) +#define DLB2_LSP_QID_NALDB_TOT_ENQ_CNTL_RST 0x0 +union dlb2_lsp_qid_naldb_tot_enq_cntl { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_NALDB_TOT_ENQ_CNTH(x) \ + (0xa2000000 + (x) * 0x1000) +#define DLB2_LSP_QID_NALDB_TOT_ENQ_CNTH_RST 0x0 +union dlb2_lsp_qid_naldb_tot_enq_cnth { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_ATM_DEPTH_THRSH(x) \ + (0xa2080000 + (x) * 0x1000) +#define DLB2_LSP_QID_ATM_DEPTH_THRSH_RST 0x0 +union dlb2_lsp_qid_atm_depth_thrsh { + struct { + u32 thresh : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_NALDB_DEPTH_THRSH(x) \ + (0xa2100000 + (x) * 0x1000) +#define DLB2_LSP_QID_NALDB_DEPTH_THRSH_RST 0x0 +union dlb2_lsp_qid_naldb_depth_thrsh { + struct { + u32 thresh : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_QID_ATM_ACTIVE(x) \ + (0xa2180000 + (x) * 0x1000) +#define DLB2_LSP_QID_ATM_ACTIVE_RST 0x0 +union dlb2_lsp_qid_atm_active { + struct { + u32 count : 14; + u32 rsvd0 : 18; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_ARB_WEIGHT_ATM_NALB_QID_0 0xa4000008 +#define DLB2_LSP_CFG_ARB_WEIGHT_ATM_NALB_QID_0_RST 0x0 +union dlb2_lsp_cfg_arb_weight_atm_nalb_qid_0 { + struct { + u32 pri0_weight : 8; + u32 pri1_weight : 8; + u32 pri2_weight : 8; + u32 pri3_weight : 8; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_ARB_WEIGHT_ATM_NALB_QID_1 0xa400000c +#define DLB2_LSP_CFG_ARB_WEIGHT_ATM_NALB_QID_1_RST 0x0 +union dlb2_lsp_cfg_arb_weight_atm_nalb_qid_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_ARB_WEIGHT_LDB_QID_0 0xa4000014 +#define DLB2_LSP_CFG_ARB_WEIGHT_LDB_QID_0_RST 0x0 +union dlb2_lsp_cfg_arb_weight_ldb_qid_0 { + struct { + u32 pri0_weight : 8; + u32 pri1_weight : 8; + u32 pri2_weight : 8; + u32 pri3_weight : 8; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_ARB_WEIGHT_LDB_QID_1 0xa4000018 +#define DLB2_LSP_CFG_ARB_WEIGHT_LDB_QID_1_RST 0x0 +union dlb2_lsp_cfg_arb_weight_ldb_qid_1 { + struct { + u32 rsvz0 : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_LDB_SCHED_CTRL 0xa400002c +#define DLB2_LSP_LDB_SCHED_CTRL_RST 0x0 +union dlb2_lsp_ldb_sched_ctrl { + struct { + u32 cq : 8; + u32 qidix : 3; + u32 value : 1; + u32 nalb_haswork_v : 1; + u32 rlist_haswork_v : 1; + u32 slist_haswork_v : 1; + u32 inflight_ok_v : 1; + u32 aqed_nfull_v : 1; + u32 rsvz0 : 15; + } field; + u32 val; +}; + +#define DLB2_LSP_DIR_SCH_CNT_L 0xa4000034 +#define DLB2_LSP_DIR_SCH_CNT_L_RST 0x0 +union dlb2_lsp_dir_sch_cnt_l { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_DIR_SCH_CNT_H 0xa4000038 +#define DLB2_LSP_DIR_SCH_CNT_H_RST 0x0 +union dlb2_lsp_dir_sch_cnt_h { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_LDB_SCH_CNT_L 0xa400003c +#define DLB2_LSP_LDB_SCH_CNT_L_RST 0x0 +union dlb2_lsp_ldb_sch_cnt_l { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_LDB_SCH_CNT_H 0xa4000040 +#define DLB2_LSP_LDB_SCH_CNT_H_RST 0x0 +union dlb2_lsp_ldb_sch_cnt_h { + struct { + u32 count : 32; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_SHDW_CTRL 0xa4000070 +#define DLB2_LSP_CFG_SHDW_CTRL_RST 0x0 +union dlb2_lsp_cfg_shdw_ctrl { + struct { + u32 transfer : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_SHDW_RANGE_COS(x) \ + (0xa4000074 + (x) * 4) +#define DLB2_LSP_CFG_SHDW_RANGE_COS_RST 0x40 +union dlb2_lsp_cfg_shdw_range_cos { + struct { + u32 bw_range : 9; + u32 rsvz0 : 22; + u32 no_extra_credit : 1; + } field; + u32 val; +}; + +#define DLB2_LSP_CFG_CTRL_GENERAL_0 0xac000000 +#define DLB2_LSP_CFG_CTRL_GENERAL_0_RST 0x0 +union dlb2_lsp_cfg_ctrl_general_0 { + struct { + u32 disab_atq_empty_arb : 1; + u32 inc_tok_unit_idle : 1; + u32 disab_rlist_pri : 1; + u32 inc_cmp_unit_idle : 1; + u32 rsvz0 : 2; + u32 dir_single_op : 1; + u32 dir_half_bw : 1; + u32 dir_single_out : 1; + u32 dir_disab_multi : 1; + u32 atq_single_op : 1; + u32 atq_half_bw : 1; + u32 atq_single_out : 1; + u32 atq_disab_multi : 1; + u32 dirrpl_single_op : 1; + u32 dirrpl_half_bw : 1; + u32 dirrpl_single_out : 1; + u32 lbrpl_single_op : 1; + u32 lbrpl_half_bw : 1; + u32 lbrpl_single_out : 1; + u32 ldb_single_op : 1; + u32 ldb_half_bw : 1; + u32 ldb_disab_multi : 1; + u32 atm_single_sch : 1; + u32 atm_single_cmp : 1; + u32 ldb_ce_tog_arb : 1; + u32 rsvz1 : 1; + u32 smon0_valid_sel : 2; + u32 smon0_value_sel : 1; + u32 smon0_compare_sel : 2; + } field; + u32 val; +}; + +#define DLB2_CFG_MSTR_DIAG_RESET_STS 0xb4000000 +#define DLB2_CFG_MSTR_DIAG_RESET_STS_RST 0x80000bff +union dlb2_cfg_mstr_diag_reset_sts { + struct { + u32 chp_pf_reset_done : 1; + u32 rop_pf_reset_done : 1; + u32 lsp_pf_reset_done : 1; + u32 nalb_pf_reset_done : 1; + u32 ap_pf_reset_done : 1; + u32 dp_pf_reset_done : 1; + u32 qed_pf_reset_done : 1; + u32 dqed_pf_reset_done : 1; + u32 aqed_pf_reset_done : 1; + u32 sys_pf_reset_done : 1; + u32 pf_reset_active : 1; + u32 flrsm_state : 7; + u32 rsvd0 : 13; + u32 dlb_proc_reset_done : 1; + } field; + u32 val; +}; + +#define DLB2_CFG_MSTR_CFG_DIAGNOSTIC_IDLE_STATUS 0xb4000004 +#define DLB2_CFG_MSTR_CFG_DIAGNOSTIC_IDLE_STATUS_RST 0x9d0fffff +union dlb2_cfg_mstr_cfg_diagnostic_idle_status { + struct { + u32 chp_pipeidle : 1; + u32 rop_pipeidle : 1; + u32 lsp_pipeidle : 1; + u32 nalb_pipeidle : 1; + u32 ap_pipeidle : 1; + u32 dp_pipeidle : 1; + u32 qed_pipeidle : 1; + u32 dqed_pipeidle : 1; + u32 aqed_pipeidle : 1; + u32 sys_pipeidle : 1; + u32 chp_unit_idle : 1; + u32 rop_unit_idle : 1; + u32 lsp_unit_idle : 1; + u32 nalb_unit_idle : 1; + u32 ap_unit_idle : 1; + u32 dp_unit_idle : 1; + u32 qed_unit_idle : 1; + u32 dqed_unit_idle : 1; + u32 aqed_unit_idle : 1; + u32 sys_unit_idle : 1; + u32 rsvd1 : 4; + u32 mstr_cfg_ring_idle : 1; + u32 mstr_cfg_mstr_idle : 1; + u32 mstr_flr_clkreq_b : 1; + u32 mstr_proc_idle : 1; + u32 mstr_proc_idle_masked : 1; + u32 rsvd0 : 2; + u32 dlb_func_idle : 1; + } field; + u32 val; +}; + +#define DLB2_CFG_MSTR_CFG_PM_STATUS 0xb4000014 +#define DLB2_CFG_MSTR_CFG_PM_STATUS_RST 0x100403e +union dlb2_cfg_mstr_cfg_pm_status { + struct { + u32 prochot : 1; + u32 pgcb_dlb_idle : 1; + u32 pgcb_dlb_pg_rdy_ack_b : 1; + u32 pmsm_pgcb_req_b : 1; + u32 pgbc_pmc_pg_req_b : 1; + u32 pmc_pgcb_pg_ack_b : 1; + u32 pmc_pgcb_fet_en_b : 1; + u32 pgcb_fet_en_b : 1; + u32 rsvz0 : 1; + u32 rsvz1 : 1; + u32 fuse_force_on : 1; + u32 fuse_proc_disable : 1; + u32 rsvz2 : 1; + u32 rsvz3 : 1; + u32 pm_fsm_d0tod3_ok : 1; + u32 pm_fsm_d3tod0_ok : 1; + u32 dlb_in_d3 : 1; + u32 rsvz4 : 7; + u32 pmsm : 8; + } field; + u32 val; +}; + +#define DLB2_CFG_MSTR_CFG_PM_PMCSR_DISABLE 0xb4000018 +#define DLB2_CFG_MSTR_CFG_PM_PMCSR_DISABLE_RST 0x1 +union dlb2_cfg_mstr_cfg_pm_pmcsr_disable { + struct { + u32 disable : 1; + u32 rsvz0 : 31; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_VF2PF_MAILBOX_BYTES 256 +#define DLB2_FUNC_VF_VF2PF_MAILBOX(x) \ + (0x1000 + (x) * 0x4) +#define DLB2_FUNC_VF_VF2PF_MAILBOX_RST 0x0 +union dlb2_func_vf_vf2pf_mailbox { + struct { + u32 msg : 32; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_VF2PF_MAILBOX_ISR 0x1f00 +#define DLB2_FUNC_VF_VF2PF_MAILBOX_ISR_RST 0x0 +#define DLB2_FUNC_VF_SIOV_VF2PF_MAILBOX_ISR_TRIGGER 0x8000 +union dlb2_func_vf_vf2pf_mailbox_isr { + struct { + u32 isr : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_PF2VF_MAILBOX_BYTES 64 +#define DLB2_FUNC_VF_PF2VF_MAILBOX(x) \ + (0x2000 + (x) * 0x4) +#define DLB2_FUNC_VF_PF2VF_MAILBOX_RST 0x0 +union dlb2_func_vf_pf2vf_mailbox { + struct { + u32 msg : 32; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_PF2VF_MAILBOX_ISR 0x2f00 +#define DLB2_FUNC_VF_PF2VF_MAILBOX_ISR_RST 0x0 +union dlb2_func_vf_pf2vf_mailbox_isr { + struct { + u32 pf_isr : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_VF_MSI_ISR_PEND 0x2f10 +#define DLB2_FUNC_VF_VF_MSI_ISR_PEND_RST 0x0 +union dlb2_func_vf_vf_msi_isr_pend { + struct { + u32 isr_pend : 32; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_VF_RESET_IN_PROGRESS 0x3000 +#define DLB2_FUNC_VF_VF_RESET_IN_PROGRESS_RST 0x1 +union dlb2_func_vf_vf_reset_in_progress { + struct { + u32 reset_in_progress : 1; + u32 rsvd0 : 31; + } field; + u32 val; +}; + +#define DLB2_FUNC_VF_VF_MSI_ISR 0x4000 +#define DLB2_FUNC_VF_VF_MSI_ISR_RST 0x0 +union dlb2_func_vf_vf_msi_isr { + struct { + u32 vf_msi_isr : 32; + } field; + u32 val; +}; + +#endif /* __DLB2_REGS_H */ diff --git a/drivers/event/dlb2/pf/base/dlb2_resource.h b/drivers/event/dlb2/pf/base/dlb2_resource.h new file mode 100644 index 0000000000..503fdf3171 --- /dev/null +++ b/drivers/event/dlb2/pf/base/dlb2_resource.h @@ -0,0 +1,1913 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_RESOURCE_H +#define __DLB2_RESOURCE_H + +#include "dlb2_user.h" + +#include "dlb2_hw_types.h" +#include "dlb2_osdep_types.h" + +/** + * dlb2_resource_init() - initialize the device + * @hw: pointer to struct dlb2_hw. + * + * This function initializes the device's software state (pointed to by the hw + * argument) and programs global scheduling QoS registers. This function should + * be called during driver initialization. + * + * The dlb2_hw struct must be unique per DLB 2.0 device and persist until the + * device is reset. + * + * Return: + * Returns 0 upon success, <0 otherwise. + */ +int dlb2_resource_init(struct dlb2_hw *hw); + +/** + * dlb2_resource_free() - free device state memory + * @hw: dlb2_hw handle for a particular device. + * + * This function frees software state pointed to by dlb2_hw. This function + * should be called when resetting the device or unloading the driver. + */ +void dlb2_resource_free(struct dlb2_hw *hw); + +/** + * dlb2_resource_reset() - reset in-use resources to their initial state + * @hw: dlb2_hw handle for a particular device. + * + * This function resets in-use resources, and makes them available for use. + * All resources go back to their owning function, whether a PF or a VF. + */ +void dlb2_resource_reset(struct dlb2_hw *hw); + +/** + * dlb2_hw_create_sched_domain() - create a scheduling domain + * @hw: dlb2_hw handle for a particular device. + * @args: scheduling domain creation arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function creates a scheduling domain containing the resources specified + * in args. The individual resources (queues, ports, credits) can be configured + * after creating a scheduling domain. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the domain ID. + * + * resp->id contains a virtual ID if vdev_request is true. + * + * Errors: + * EINVAL - A requested resource is unavailable, or the requested domain name + * is already in use. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_create_sched_domain(struct dlb2_hw *hw, + struct dlb2_create_sched_domain_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_create_ldb_queue() - create a load-balanced queue + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: queue creation arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function creates a load-balanced queue. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the queue ID. + * + * resp->id contains a virtual ID if vdev_request is true. + * + * Errors: + * EINVAL - A requested resource is unavailable, the domain is not configured, + * the domain has already been started, or the requested queue name is + * already in use. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_create_ldb_queue(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_ldb_queue_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_create_dir_queue() - create a directed queue + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: queue creation arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function creates a directed queue. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the queue ID. + * + * resp->id contains a virtual ID if vdev_request is true. + * + * Errors: + * EINVAL - A requested resource is unavailable, the domain is not configured, + * or the domain has already been started. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_create_dir_queue(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_dir_queue_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_create_dir_port() - create a directed port + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: port creation arguments. + * @cq_dma_base: base address of the CQ memory. This can be a PA or an IOVA. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function creates a directed port. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the port ID. + * + * resp->id contains a virtual ID if vdev_request is true. + * + * Errors: + * EINVAL - A requested resource is unavailable, a credit setting is invalid, a + * pointer address is not properly aligned, the domain is not + * configured, or the domain has already been started. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_create_dir_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_dir_port_args *args, + uintptr_t cq_dma_base, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_create_ldb_port() - create a load-balanced port + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: port creation arguments. + * @cq_dma_base: base address of the CQ memory. This can be a PA or an IOVA. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function creates a load-balanced port. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the port ID. + * + * resp->id contains a virtual ID if vdev_request is true. + * + * Errors: + * EINVAL - A requested resource is unavailable, a credit setting is invalid, a + * pointer address is not properly aligned, the domain is not + * configured, or the domain has already been started. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_create_ldb_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_ldb_port_args *args, + uintptr_t cq_dma_base, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_start_domain() - start a scheduling domain + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: start domain arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function starts a scheduling domain, which allows applications to send + * traffic through it. Once a domain is started, its resources can no longer be + * configured (besides QID remapping and port enable/disable). + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - the domain is not configured, or the domain is already started. + */ +int dlb2_hw_start_domain(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_start_domain_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_map_qid() - map a load-balanced queue to a load-balanced port + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: map QID arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function configures the DLB to schedule QEs from the specified queue + * to the specified port. Each load-balanced port can be mapped to up to 8 + * queues; each load-balanced queue can potentially map to all the + * load-balanced ports. + * + * A successful return does not necessarily mean the mapping was configured. If + * this function is unable to immediately map the queue to the port, it will + * add the requested operation to a per-port list of pending map/unmap + * operations, and (if it's not already running) launch a kernel thread that + * periodically attempts to process all pending operations. In a sense, this is + * an asynchronous function. + * + * This asynchronicity creates two views of the state of hardware: the actual + * hardware state and the requested state (as if every request completed + * immediately). If there are any pending map/unmap operations, the requested + * state will differ from the actual state. All validation is performed with + * respect to the pending state; for instance, if there are 8 pending map + * operations for port X, a request for a 9th will fail because a load-balanced + * port can only map up to 8 queues. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - A requested resource is unavailable, invalid port or queue ID, or + * the domain is not configured. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_map_qid(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_map_qid_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_unmap_qid() - Unmap a load-balanced queue from a load-balanced port + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: unmap QID arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function configures the DLB to stop scheduling QEs from the specified + * queue to the specified port. + * + * A successful return does not necessarily mean the mapping was removed. If + * this function is unable to immediately unmap the queue from the port, it + * will add the requested operation to a per-port list of pending map/unmap + * operations, and (if it's not already running) launch a kernel thread that + * periodically attempts to process all pending operations. See + * dlb2_hw_map_qid() for more details. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - A requested resource is unavailable, invalid port or queue ID, or + * the domain is not configured. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_unmap_qid(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_unmap_qid_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_finish_unmap_qid_procedures() - finish any pending unmap procedures + * @hw: dlb2_hw handle for a particular device. + * + * This function attempts to finish any outstanding unmap procedures. + * This function should be called by the kernel thread responsible for + * finishing map/unmap procedures. + * + * Return: + * Returns the number of procedures that weren't completed. + */ +unsigned int dlb2_finish_unmap_qid_procedures(struct dlb2_hw *hw); + +/** + * dlb2_finish_map_qid_procedures() - finish any pending map procedures + * @hw: dlb2_hw handle for a particular device. + * + * This function attempts to finish any outstanding map procedures. + * This function should be called by the kernel thread responsible for + * finishing map/unmap procedures. + * + * Return: + * Returns the number of procedures that weren't completed. + */ +unsigned int dlb2_finish_map_qid_procedures(struct dlb2_hw *hw); + +/** + * dlb2_hw_enable_ldb_port() - enable a load-balanced port for scheduling + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: port enable arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function configures the DLB to schedule QEs to a load-balanced port. + * Ports are enabled by default. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - The port ID is invalid or the domain is not configured. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_enable_ldb_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_enable_ldb_port_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_disable_ldb_port() - disable a load-balanced port for scheduling + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: port disable arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function configures the DLB to stop scheduling QEs to a load-balanced + * port. Ports are enabled by default. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - The port ID is invalid or the domain is not configured. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_disable_ldb_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_disable_ldb_port_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_enable_dir_port() - enable a directed port for scheduling + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: port enable arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function configures the DLB to schedule QEs to a directed port. + * Ports are enabled by default. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - The port ID is invalid or the domain is not configured. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_enable_dir_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_enable_dir_port_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_disable_dir_port() - disable a directed port for scheduling + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: port disable arguments. + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function configures the DLB to stop scheduling QEs to a directed port. + * Ports are enabled by default. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. + * + * Errors: + * EINVAL - The port ID is invalid or the domain is not configured. + * EFAULT - Internal error (resp->status not set). + */ +int dlb2_hw_disable_dir_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_disable_dir_port_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_configure_ldb_cq_interrupt() - configure load-balanced CQ for + * interrupts + * @hw: dlb2_hw handle for a particular device. + * @port_id: load-balanced port ID. + * @vector: interrupt vector ID. Should be 0 for MSI or compressed MSI-X mode, + * else a value up to 64. + * @mode: interrupt type (DLB2_CQ_ISR_MODE_MSI or DLB2_CQ_ISR_MODE_MSIX) + * @vf: If the port is VF-owned, the VF's ID. This is used for translating the + * virtual port ID to a physical port ID. Ignored if mode is not MSI. + * @owner_vf: the VF to route the interrupt to. Ignore if mode is not MSI. + * @threshold: the minimum CQ depth at which the interrupt can fire. Must be + * greater than 0. + * + * This function configures the DLB registers for load-balanced CQ's + * interrupts. This doesn't enable the CQ's interrupt; that can be done with + * dlb2_arm_cq_interrupt() or through an interrupt arm QE. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - The port ID is invalid. + */ +int dlb2_configure_ldb_cq_interrupt(struct dlb2_hw *hw, + int port_id, + int vector, + int mode, + unsigned int vf, + unsigned int owner_vf, + u16 threshold); + +/** + * dlb2_configure_dir_cq_interrupt() - configure directed CQ for interrupts + * @hw: dlb2_hw handle for a particular device. + * @port_id: load-balanced port ID. + * @vector: interrupt vector ID. Should be 0 for MSI or compressed MSI-X mode, + * else a value up to 64. + * @mode: interrupt type (DLB2_CQ_ISR_MODE_MSI or DLB2_CQ_ISR_MODE_MSIX) + * @vf: If the port is VF-owned, the VF's ID. This is used for translating the + * virtual port ID to a physical port ID. Ignored if mode is not MSI. + * @owner_vf: the VF to route the interrupt to. Ignore if mode is not MSI. + * @threshold: the minimum CQ depth at which the interrupt can fire. Must be + * greater than 0. + * + * This function configures the DLB registers for directed CQ's interrupts. + * This doesn't enable the CQ's interrupt; that can be done with + * dlb2_arm_cq_interrupt() or through an interrupt arm QE. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - The port ID is invalid. + */ +int dlb2_configure_dir_cq_interrupt(struct dlb2_hw *hw, + int port_id, + int vector, + int mode, + unsigned int vf, + unsigned int owner_vf, + u16 threshold); + +/** + * dlb2_enable_ingress_error_alarms() - enable ingress error alarm interrupts + * @hw: dlb2_hw handle for a particular device. + */ +void dlb2_enable_ingress_error_alarms(struct dlb2_hw *hw); + +/** + * dlb2_disable_ingress_error_alarms() - disable ingress error alarm interrupts + * @hw: dlb2_hw handle for a particular device. + */ +void dlb2_disable_ingress_error_alarms(struct dlb2_hw *hw); + +/** + * dlb2_set_msix_mode() - enable certain hardware alarm interrupts + * @hw: dlb2_hw handle for a particular device. + * @mode: MSI-X mode (DLB2_MSIX_MODE_PACKED or DLB2_MSIX_MODE_COMPRESSED) + * + * This function configures the hardware to use either packed or compressed + * mode. This function should not be called if using MSI interrupts. + */ +void dlb2_set_msix_mode(struct dlb2_hw *hw, int mode); + +/** + * dlb2_ack_msix_interrupt() - Ack an MSI-X interrupt + * @hw: dlb2_hw handle for a particular device. + * @vector: interrupt vector. + * + * Note: Only needed for PF service interrupts (vector 0). CQ interrupts are + * acked in dlb2_ack_compressed_cq_intr(). + */ +void dlb2_ack_msix_interrupt(struct dlb2_hw *hw, int vector); + +/** + * dlb2_arm_cq_interrupt() - arm a CQ's interrupt + * @hw: dlb2_hw handle for a particular device. + * @port_id: port ID + * @is_ldb: true for load-balanced port, false for a directed port + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function arms the CQ's interrupt. The CQ must be configured prior to + * calling this function. + * + * The function does no parameter validation; that is the caller's + * responsibility. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: returns 0 upon success, <0 otherwise. + * + * EINVAL - Invalid port ID. + */ +int dlb2_arm_cq_interrupt(struct dlb2_hw *hw, + int port_id, + bool is_ldb, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_read_compressed_cq_intr_status() - read compressed CQ interrupt status + * @hw: dlb2_hw handle for a particular device. + * @ldb_interrupts: 2-entry array of u32 bitmaps + * @dir_interrupts: 4-entry array of u32 bitmaps + * + * This function can be called from a compressed CQ interrupt handler to + * determine which CQ interrupts have fired. The caller should take appropriate + * (such as waking threads blocked on a CQ's interrupt) then ack the interrupts + * with dlb2_ack_compressed_cq_intr(). + */ +void dlb2_read_compressed_cq_intr_status(struct dlb2_hw *hw, + u32 *ldb_interrupts, + u32 *dir_interrupts); + +/** + * dlb2_ack_compressed_cq_intr_status() - ack compressed CQ interrupts + * @hw: dlb2_hw handle for a particular device. + * @ldb_interrupts: 2-entry array of u32 bitmaps + * @dir_interrupts: 4-entry array of u32 bitmaps + * + * This function ACKs compressed CQ interrupts. Its arguments should be the + * same ones passed to dlb2_read_compressed_cq_intr_status(). + */ +void dlb2_ack_compressed_cq_intr(struct dlb2_hw *hw, + u32 *ldb_interrupts, + u32 *dir_interrupts); + +/** + * dlb2_read_vf_intr_status() - read the VF interrupt status register + * @hw: dlb2_hw handle for a particular device. + * + * This function can be called from a VF's interrupt handler to determine + * which interrupts have fired. The first 31 bits correspond to CQ interrupt + * vectors, and the final bit is for the PF->VF mailbox interrupt vector. + * + * Return: + * Returns a bit vector indicating which interrupt vectors are active. + */ +u32 dlb2_read_vf_intr_status(struct dlb2_hw *hw); + +/** + * dlb2_ack_vf_intr_status() - ack VF interrupts + * @hw: dlb2_hw handle for a particular device. + * @interrupts: 32-bit bitmap + * + * This function ACKs a VF's interrupts. Its interrupts argument should be the + * value returned by dlb2_read_vf_intr_status(). + */ +void dlb2_ack_vf_intr_status(struct dlb2_hw *hw, u32 interrupts); + +/** + * dlb2_ack_vf_msi_intr() - ack VF MSI interrupt + * @hw: dlb2_hw handle for a particular device. + * @interrupts: 32-bit bitmap + * + * This function clears the VF's MSI interrupt pending register. Its interrupts + * argument should be contain the MSI vectors to ACK. For example, if MSI MME + * is in mode 0, then one bit 0 should ever be set. + */ +void dlb2_ack_vf_msi_intr(struct dlb2_hw *hw, u32 interrupts); + +/** + * dlb2_ack_pf_mbox_int() - ack PF->VF mailbox interrupt + * @hw: dlb2_hw handle for a particular device. + * + * When done processing the PF mailbox request, this function unsets + * the PF's mailbox ISR register. + */ +void dlb2_ack_pf_mbox_int(struct dlb2_hw *hw); + +/** + * dlb2_read_vdev_to_pf_int_bitvec() - return a bit vector of all requesting + * vdevs + * @hw: dlb2_hw handle for a particular device. + * + * When the vdev->PF ISR fires, this function can be called to determine which + * vdev(s) are requesting service. This bitvector must be passed to + * dlb2_ack_vdev_to_pf_int() when processing is complete for all requesting + * vdevs. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns a bit vector indicating which VFs (0-15) have requested service. + */ +u32 dlb2_read_vdev_to_pf_int_bitvec(struct dlb2_hw *hw); + +/** + * dlb2_ack_vdev_mbox_int() - ack processed vdev->PF mailbox interrupt + * @hw: dlb2_hw handle for a particular device. + * @bitvec: bit vector returned by dlb2_read_vdev_to_pf_int_bitvec() + * + * When done processing all VF mailbox requests, this function unsets the VF's + * mailbox ISR register. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +void dlb2_ack_vdev_mbox_int(struct dlb2_hw *hw, u32 bitvec); + +/** + * dlb2_read_vf_flr_int_bitvec() - return a bit vector of all VFs requesting + * FLR + * @hw: dlb2_hw handle for a particular device. + * + * When the VF FLR ISR fires, this function can be called to determine which + * VF(s) are requesting FLRs. This bitvector must passed to + * dlb2_ack_vf_flr_int() when processing is complete for all requesting VFs. + * + * Return: + * Returns a bit vector indicating which VFs (0-15) have requested FLRs. + */ +u32 dlb2_read_vf_flr_int_bitvec(struct dlb2_hw *hw); + +/** + * dlb2_ack_vf_flr_int() - ack processed VF<->PF interrupt(s) + * @hw: dlb2_hw handle for a particular device. + * @bitvec: bit vector returned by dlb2_read_vf_flr_int_bitvec() + * + * When done processing all VF FLR requests, this function unsets the VF's FLR + * ISR register. + */ +void dlb2_ack_vf_flr_int(struct dlb2_hw *hw, u32 bitvec); + +/** + * dlb2_ack_vdev_to_pf_int() - ack processed VF mbox and FLR interrupt(s) + * @hw: dlb2_hw handle for a particular device. + * @mbox_bitvec: bit vector returned by dlb2_read_vdev_to_pf_int_bitvec() + * @flr_bitvec: bit vector returned by dlb2_read_vf_flr_int_bitvec() + * + * When done processing all VF requests, this function communicates to the + * hardware that processing is complete. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +void dlb2_ack_vdev_to_pf_int(struct dlb2_hw *hw, + u32 mbox_bitvec, + u32 flr_bitvec); + +/** + * dlb2_process_wdt_interrupt() - process watchdog timer interrupts + * @hw: dlb2_hw handle for a particular device. + * + * This function reads the watchdog timer interrupt cause registers to + * determine which port(s) had a watchdog timeout, and notifies the + * application(s) that own the port(s). + */ +void dlb2_process_wdt_interrupt(struct dlb2_hw *hw); + +/** + * dlb2_process_alarm_interrupt() - process an alarm interrupt + * @hw: dlb2_hw handle for a particular device. + * + * This function reads and logs the alarm syndrome, then acks the interrupt. + * This function should be called from the alarm interrupt handler when + * interrupt vector DLB2_INT_ALARM fires. + */ +void dlb2_process_alarm_interrupt(struct dlb2_hw *hw); + +/** + * dlb2_process_ingress_error_interrupt() - process ingress error interrupts + * @hw: dlb2_hw handle for a particular device. + * + * This function reads the alarm syndrome, logs it, notifies user-space, and + * acks the interrupt. This function should be called from the alarm interrupt + * handler when interrupt vector DLB2_INT_INGRESS_ERROR fires. + * + * Return: + * Returns true if an ingress error interrupt occurred, false otherwise + */ +bool dlb2_process_ingress_error_interrupt(struct dlb2_hw *hw); + +/** + * dlb2_get_group_sequence_numbers() - return a group's number of SNs per queue + * @hw: dlb2_hw handle for a particular device. + * @group_id: sequence number group ID. + * + * This function returns the configured number of sequence numbers per queue + * for the specified group. + * + * Return: + * Returns -EINVAL if group_id is invalid, else the group's SNs per queue. + */ +int dlb2_get_group_sequence_numbers(struct dlb2_hw *hw, + unsigned int group_id); + +/** + * dlb2_get_group_sequence_number_occupancy() - return a group's in-use slots + * @hw: dlb2_hw handle for a particular device. + * @group_id: sequence number group ID. + * + * This function returns the group's number of in-use slots (i.e. load-balanced + * queues using the specified group). + * + * Return: + * Returns -EINVAL if group_id is invalid, else the group's SNs per queue. + */ +int dlb2_get_group_sequence_number_occupancy(struct dlb2_hw *hw, + unsigned int group_id); + +/** + * dlb2_set_group_sequence_numbers() - assign a group's number of SNs per queue + * @hw: dlb2_hw handle for a particular device. + * @group_id: sequence number group ID. + * @val: requested amount of sequence numbers per queue. + * + * This function configures the group's number of sequence numbers per queue. + * val can be a power-of-two between 32 and 1024, inclusive. This setting can + * be configured until the first ordered load-balanced queue is configured, at + * which point the configuration is locked. + * + * Return: + * Returns 0 upon success; -EINVAL if group_id or val is invalid, -EPERM if an + * ordered queue is configured. + */ +int dlb2_set_group_sequence_numbers(struct dlb2_hw *hw, + unsigned int group_id, + unsigned long val); + +/** + * dlb2_reset_domain() - reset a scheduling domain + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function resets and frees a DLB 2.0 scheduling domain and its associated + * resources. + * + * Pre-condition: the driver must ensure software has stopped sending QEs + * through this domain's producer ports before invoking this function, or + * undefined behavior will result. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, -1 otherwise. + * + * EINVAL - Invalid domain ID, or the domain is not configured. + * EFAULT - Internal error. (Possibly caused if software is the pre-condition + * is not met.) + * ETIMEDOUT - Hardware component didn't reset in the expected time. + */ +int dlb2_reset_domain(struct dlb2_hw *hw, + u32 domain_id, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_ldb_port_owned_by_domain() - query whether a port is owned by a domain + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @port_id: indicates whether this request came from a VF. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function returns whether a load-balanced port is owned by a specified + * domain. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 if false, 1 if true, <0 otherwise. + * + * EINVAL - Invalid domain or port ID, or the domain is not configured. + */ +int dlb2_ldb_port_owned_by_domain(struct dlb2_hw *hw, + u32 domain_id, + u32 port_id, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_dir_port_owned_by_domain() - query whether a port is owned by a domain + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @port_id: indicates whether this request came from a VF. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function returns whether a directed port is owned by a specified + * domain. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 if false, 1 if true, <0 otherwise. + * + * EINVAL - Invalid domain or port ID, or the domain is not configured. + */ +int dlb2_dir_port_owned_by_domain(struct dlb2_hw *hw, + u32 domain_id, + u32 port_id, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_get_num_resources() - query the PCI function's available resources + * @hw: dlb2_hw handle for a particular device. + * @arg: pointer to resource counts. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function returns the number of available resources for the PF or for a + * VF. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, -EINVAL if vdev_request is true and vdev_id is + * invalid. + */ +int dlb2_hw_get_num_resources(struct dlb2_hw *hw, + struct dlb2_get_num_resources_args *arg, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_get_num_used_resources() - query the PCI function's used resources + * @hw: dlb2_hw handle for a particular device. + * @arg: pointer to resource counts. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function returns the number of resources in use by the PF or a VF. It + * fills in the fields that args points to, except the following: + * - max_contiguous_atomic_inflights + * - max_contiguous_hist_list_entries + * - max_contiguous_ldb_credits + * - max_contiguous_dir_credits + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, -EINVAL if vdev_request is true and vdev_id is + * invalid. + */ +int dlb2_hw_get_num_used_resources(struct dlb2_hw *hw, + struct dlb2_get_num_resources_args *arg, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_send_async_vdev_to_pf_msg() - (vdev only) send a mailbox message to + * the PF + * @hw: dlb2_hw handle for a particular device. + * + * This function sends a VF->PF mailbox message. It is asynchronous, so it + * returns once the message is sent but potentially before the PF has processed + * the message. The caller must call dlb2_vdev_to_pf_complete() to determine + * when the PF has finished processing the request. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +void dlb2_send_async_vdev_to_pf_msg(struct dlb2_hw *hw); + +/** + * dlb2_vdev_to_pf_complete() - check the status of an asynchronous mailbox + * request + * @hw: dlb2_hw handle for a particular device. + * + * This function returns a boolean indicating whether the PF has finished + * processing a VF->PF mailbox request. It should only be called after sending + * an asynchronous request with dlb2_send_async_vdev_to_pf_msg(). + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +bool dlb2_vdev_to_pf_complete(struct dlb2_hw *hw); + +/** + * dlb2_vf_flr_complete() - check the status of a VF FLR + * @hw: dlb2_hw handle for a particular device. + * + * This function returns a boolean indicating whether the PF has finished + * executing the VF FLR. It should only be called after setting the VF's FLR + * bit. + */ +bool dlb2_vf_flr_complete(struct dlb2_hw *hw); + +/** + * dlb2_send_async_pf_to_vdev_msg() - (PF only) send a mailbox message to a + * vdev + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * + * This function sends a PF->vdev mailbox message. It is asynchronous, so it + * returns once the message is sent but potentially before the vdev has + * processed the message. The caller must call dlb2_pf_to_vdev_complete() to + * determine when the vdev has finished processing the request. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +void dlb2_send_async_pf_to_vdev_msg(struct dlb2_hw *hw, unsigned int vdev_id); + +/** + * dlb2_pf_to_vdev_complete() - check the status of an asynchronous mailbox + * request + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * + * This function returns a boolean indicating whether the vdev has finished + * processing a PF->vdev mailbox request. It should only be called after + * sending an asynchronous request with dlb2_send_async_pf_to_vdev_msg(). + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +bool dlb2_pf_to_vdev_complete(struct dlb2_hw *hw, unsigned int vdev_id); + +/** + * dlb2_pf_read_vf_mbox_req() - (PF only) read a VF->PF mailbox request + * @hw: dlb2_hw handle for a particular device. + * @vf_id: VF ID. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies one of the PF's VF->PF mailboxes into the array pointed + * to by data. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_VF2PF_REQ_BYTES. + */ +int dlb2_pf_read_vf_mbox_req(struct dlb2_hw *hw, + unsigned int vf_id, + void *data, + int len); + +/** + * dlb2_pf_read_vf_mbox_resp() - (PF only) read a VF->PF mailbox response + * @hw: dlb2_hw handle for a particular device. + * @vf_id: VF ID. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies one of the PF's VF->PF mailboxes into the array pointed + * to by data. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_VF2PF_RESP_BYTES. + */ +int dlb2_pf_read_vf_mbox_resp(struct dlb2_hw *hw, + unsigned int vf_id, + void *data, + int len); + +/** + * dlb2_pf_write_vf_mbox_resp() - (PF only) write a PF->VF mailbox response + * @hw: dlb2_hw handle for a particular device. + * @vf_id: VF ID. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies the user-provided message data into of the PF's VF->PF + * mailboxes. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_PF2VF_RESP_BYTES. + */ +int dlb2_pf_write_vf_mbox_resp(struct dlb2_hw *hw, + unsigned int vf_id, + void *data, + int len); + +/** + * dlb2_pf_write_vf_mbox_req() - (PF only) write a PF->VF mailbox request + * @hw: dlb2_hw handle for a particular device. + * @vf_id: VF ID. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies the user-provided message data into of the PF's VF->PF + * mailboxes. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_PF2VF_REQ_BYTES. + */ +int dlb2_pf_write_vf_mbox_req(struct dlb2_hw *hw, + unsigned int vf_id, + void *data, + int len); + +/** + * dlb2_vf_read_pf_mbox_resp() - (VF only) read a PF->VF mailbox response + * @hw: dlb2_hw handle for a particular device. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies the VF's PF->VF mailbox into the array pointed to by + * data. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_PF2VF_RESP_BYTES. + */ +int dlb2_vf_read_pf_mbox_resp(struct dlb2_hw *hw, void *data, int len); + +/** + * dlb2_vf_read_pf_mbox_req() - (VF only) read a PF->VF mailbox request + * @hw: dlb2_hw handle for a particular device. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies the VF's PF->VF mailbox into the array pointed to by + * data. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_PF2VF_REQ_BYTES. + */ +int dlb2_vf_read_pf_mbox_req(struct dlb2_hw *hw, void *data, int len); + +/** + * dlb2_vf_write_pf_mbox_req() - (VF only) write a VF->PF mailbox request + * @hw: dlb2_hw handle for a particular device. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies the user-provided message data into of the VF's PF->VF + * mailboxes. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_VF2PF_REQ_BYTES. + */ +int dlb2_vf_write_pf_mbox_req(struct dlb2_hw *hw, void *data, int len); + +/** + * dlb2_vf_write_pf_mbox_resp() - (VF only) write a VF->PF mailbox response + * @hw: dlb2_hw handle for a particular device. + * @data: pointer to message data. + * @len: size, in bytes, of the data array. + * + * This function copies the user-provided message data into of the VF's PF->VF + * mailboxes. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * EINVAL - len >= DLB2_VF2PF_RESP_BYTES. + */ +int dlb2_vf_write_pf_mbox_resp(struct dlb2_hw *hw, void *data, int len); + +/** + * dlb2_reset_vdev() - reset the hardware owned by a virtual device + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * + * This function resets the hardware owned by a vdev, by resetting the vdev's + * domains one by one. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +int dlb2_reset_vdev(struct dlb2_hw *hw, unsigned int id); + +/** + * dlb2_vdev_is_locked() - check whether the vdev's resources are locked + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * + * This function returns whether or not the vdev's resource assignments are + * locked. If locked, no resources can be added to or subtracted from the + * group. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +bool dlb2_vdev_is_locked(struct dlb2_hw *hw, unsigned int id); + +/** + * dlb2_lock_vdev() - lock the vdev's resources + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * + * This function sets a flag indicating that the vdev is using its resources. + * When the vdev is locked, its resource assignment cannot be changed. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +void dlb2_lock_vdev(struct dlb2_hw *hw, unsigned int id); + +/** + * dlb2_unlock_vdev() - unlock the vdev's resources + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * + * This function unlocks the vdev's resource assignment, allowing it to be + * modified. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + */ +void dlb2_unlock_vdev(struct dlb2_hw *hw, unsigned int id); + +/** + * dlb2_update_vdev_sched_domains() - update the domains assigned to a vdev + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of scheduling domains to assign to this vdev + * + * This function assigns num scheduling domains to the specified vdev. If the + * vdev already has domains assigned, this existing assignment is adjusted + * accordingly. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_sched_domains(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_ldb_queues() - update the LDB queues assigned to a vdev + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of LDB queues to assign to this vdev + * + * This function assigns num LDB queues to the specified vdev. If the vdev + * already has LDB queues assigned, this existing assignment is adjusted + * accordingly. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_ldb_queues(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_ldb_ports() - update the LDB ports assigned to a vdev + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of LDB ports to assign to this vdev + * + * This function assigns num LDB ports to the specified vdev. If the vdev + * already has LDB ports assigned, this existing assignment is adjusted + * accordingly. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_ldb_ports(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_ldb_cos_ports() - update the LDB ports assigned to a vdev + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @cos: class-of-service ID + * @num: number of LDB ports to assign to this vdev + * + * This function assigns num LDB ports from class-of-service cos to the + * specified vdev. If the vdev already has LDB ports from this class-of-service + * assigned, this existing assignment is adjusted accordingly. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_ldb_cos_ports(struct dlb2_hw *hw, + u32 id, + u32 cos, + u32 num); + +/** + * dlb2_update_vdev_dir_ports() - update the DIR ports assigned to a vdev + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of DIR ports to assign to this vdev + * + * This function assigns num DIR ports to the specified vdev. If the vdev + * already has DIR ports assigned, this existing assignment is adjusted + * accordingly. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_dir_ports(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_ldb_credits() - update the vdev's assigned LDB credits + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of LDB credit credits to assign to this vdev + * + * This function assigns num LDB credit to the specified vdev. If the vdev + * already has LDB credits assigned, this existing assignment is adjusted + * accordingly. vdevs are assigned a contiguous chunk of credits, so this + * function may fail if a sufficiently large contiguous chunk is not available. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_ldb_credits(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_dir_credits() - update the vdev's assigned DIR credits + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of DIR credits to assign to this vdev + * + * This function assigns num DIR credit to the specified vdev. If the vdev + * already has DIR credits assigned, this existing assignment is adjusted + * accordingly. vdevs are assigned a contiguous chunk of credits, so this + * function may fail if a sufficiently large contiguous chunk is not available. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_dir_credits(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_hist_list_entries() - update the vdev's assigned HL entries + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of history list entries to assign to this vdev + * + * This function assigns num history list entries to the specified vdev. If the + * vdev already has history list entries assigned, this existing assignment is + * adjusted accordingly. vdevs are assigned a contiguous chunk of entries, so + * this function may fail if a sufficiently large contiguous chunk is not + * available. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_hist_list_entries(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_update_vdev_atomic_inflights() - update the vdev's atomic inflights + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * @num: number of atomic inflights to assign to this vdev + * + * This function assigns num atomic inflights to the specified vdev. If the vdev + * already has atomic inflights assigned, this existing assignment is adjusted + * accordingly. vdevs are assigned a contiguous chunk of entries, so this + * function may fail if a sufficiently large contiguous chunk is not available. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid, or the requested number of resources are + * unavailable. + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_update_vdev_atomic_inflights(struct dlb2_hw *hw, u32 id, u32 num); + +/** + * dlb2_reset_vdev_resources() - reassign the vdev's resources to the PF + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * + * This function takes any resources currently assigned to the vdev and + * reassigns them to the PF. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, <0 otherwise. + * + * Errors: + * EINVAL - id is invalid + * EPERM - The vdev's resource assignment is locked and cannot be changed. + */ +int dlb2_reset_vdev_resources(struct dlb2_hw *hw, unsigned int id); + +/** + * dlb2_notify_vf() - send an alarm to a VF + * @hw: dlb2_hw handle for a particular device. + * @vf_id: VF ID + * @notification: notification + * + * This function sends a notification (as defined in dlb2_mbox.h) to a VF. + * + * Return: + * Returns 0 upon success, <0 if the VF doesn't ACK the PF->VF interrupt. + */ +int dlb2_notify_vf(struct dlb2_hw *hw, + unsigned int vf_id, + u32 notification); + +/** + * dlb2_vdev_in_use() - query whether a virtual device is in use + * @hw: dlb2_hw handle for a particular device. + * @id: virtual device ID + * + * This function sends a mailbox request to the vdev to query whether the vdev + * is in use. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 for false, 1 for true, and <0 if the mailbox request times out or + * an internal error occurs. + */ +int dlb2_vdev_in_use(struct dlb2_hw *hw, unsigned int id); + +/** + * dlb2_clr_pmcsr_disable() - power on bulk of DLB 2.0 logic + * @hw: dlb2_hw handle for a particular device. + * + * Clearing the PMCSR must be done at initialization to make the device fully + * operational. + */ +void dlb2_clr_pmcsr_disable(struct dlb2_hw *hw); + +/** + * dlb2_hw_get_ldb_queue_depth() - returns the depth of a load-balanced queue + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: queue depth args + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function returns the depth of a load-balanced queue. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the depth. + * + * Errors: + * EINVAL - Invalid domain ID or queue ID. + */ +int dlb2_hw_get_ldb_queue_depth(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_get_ldb_queue_depth_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +/** + * dlb2_hw_get_dir_queue_depth() - returns the depth of a directed queue + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: queue depth args + * @resp: response structure. + * @vdev_request: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * This function returns the depth of a directed queue. + * + * A vdev can be either an SR-IOV virtual function or a Scalable IOV virtual + * device. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the depth. + * + * Errors: + * EINVAL - Invalid domain ID or queue ID. + */ +int dlb2_hw_get_dir_queue_depth(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_get_dir_queue_depth_args *args, + struct dlb2_cmd_response *resp, + bool vdev_request, + unsigned int vdev_id); + +enum dlb2_virt_mode { + DLB2_VIRT_NONE, + DLB2_VIRT_SRIOV, + DLB2_VIRT_SIOV, + + /* NUM_DLB2_VIRT_MODES must be last */ + NUM_DLB2_VIRT_MODES, +}; + +/** + * dlb2_hw_set_virt_mode() - set the device's virtualization mode + * @hw: dlb2_hw handle for a particular device. + * @mode: either none, SR-IOV, or Scalable IOV. + * + * This function sets the virtualization mode of the device. This controls + * whether the device uses a software or hardware mailbox. + * + * This should be called by the PF driver when either SR-IOV or Scalable IOV is + * selected as the virtualization mechanism, and by the VF/VDEV driver during + * initialization after recognizing itself as an SR-IOV or Scalable IOV device. + * + * Errors: + * EINVAL - Invalid mode. + */ +int dlb2_hw_set_virt_mode(struct dlb2_hw *hw, enum dlb2_virt_mode mode); + +/** + * dlb2_hw_get_virt_mode() - get the device's virtualization mode + * @hw: dlb2_hw handle for a particular device. + * + * This function gets the virtualization mode of the device. + */ +enum dlb2_virt_mode dlb2_hw_get_virt_mode(struct dlb2_hw *hw); + +/** + * dlb2_hw_get_ldb_port_phys_id() - get a physical port ID from its virt ID + * @hw: dlb2_hw handle for a particular device. + * @id: virtual port ID. + * @vdev_id: vdev ID. + * + * Return: + * Returns >= 0 upon success, -1 otherwise. + */ +s32 dlb2_hw_get_ldb_port_phys_id(struct dlb2_hw *hw, + u32 id, + unsigned int vdev_id); + +/** + * dlb2_hw_get_dir_port_phys_id() - get a physical port ID from its virt ID + * @hw: dlb2_hw handle for a particular device. + * @id: virtual port ID. + * @vdev_id: vdev ID. + * + * Return: + * Returns >= 0 upon success, -1 otherwise. + */ +s32 dlb2_hw_get_dir_port_phys_id(struct dlb2_hw *hw, + u32 id, + unsigned int vdev_id); + +/** + * dlb2_hw_register_sw_mbox() - register a software mailbox + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * @vdev2pf_mbox: pointer to a 4KB memory page used for vdev->PF communication. + * @pf2vdev_mbox: pointer to a 4KB memory page used for PF->vdev communication. + * @pf2vdev_inject: callback function for injecting a PF->vdev interrupt. + * @inject_arg: user argument for pf2vdev_inject callback. + * + * When Scalable IOV is enabled, the VDCM must register a software mailbox for + * every virtual device during vdev creation. + * + * This function notifies the driver to use a software mailbox using the + * provided pointers, instead of the device's hardware mailbox. When the driver + * calls mailbox functions like dlb2_pf_write_vf_mbox_req(), the request will + * go to the software mailbox instead of the hardware one. This is used in + * Scalable IOV virtualization. + */ +void dlb2_hw_register_sw_mbox(struct dlb2_hw *hw, + unsigned int vdev_id, + u32 *vdev2pf_mbox, + u32 *pf2vdev_mbox, + void (*pf2vdev_inject)(void *), + void *inject_arg); + +/** + * dlb2_hw_unregister_sw_mbox() - unregister a software mailbox + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * + * This function notifies the driver to stop using a previously registered + * software mailbox. + */ +void dlb2_hw_unregister_sw_mbox(struct dlb2_hw *hw, unsigned int vdev_id); + +/** + * dlb2_hw_setup_cq_ims_entry() - setup a CQ's IMS entry + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * @virt_cq_id: virtual CQ ID. + * @is_ldb: CQ is load-balanced. + * @addr_lo: least-significant 32 bits of address. + * @data: 32 data bits. + * + * This sets up the CQ's IMS entry with the provided address and data values. + * This function should only be called if the device is configured for Scalable + * IOV virtualization. The upper 32 address bits are fixed in hardware and thus + * not needed. + */ +void dlb2_hw_setup_cq_ims_entry(struct dlb2_hw *hw, + unsigned int vdev_id, + u32 virt_cq_id, + bool is_ldb, + u32 addr_lo, + u32 data); + +/** + * dlb2_hw_clear_cq_ims_entry() - clear a CQ's IMS entry + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * @virt_cq_id: virtual CQ ID. + * @is_ldb: CQ is load-balanced. + * + * This clears the CQ's IMS entry, reverting it to its reset state. + */ +void dlb2_hw_clear_cq_ims_entry(struct dlb2_hw *hw, + unsigned int vdev_id, + u32 virt_cq_id, + bool is_ldb); + +/** + * dlb2_hw_register_pasid() - register a vdev's PASID + * @hw: dlb2_hw handle for a particular device. + * @vdev_id: vdev ID. + * @pasid: the vdev's PASID. + * + * This function stores the user-supplied PASID, and uses it when configuring + * the vdev's CQs. + * + * Return: + * Returns >= 0 upon success, -1 otherwise. + */ +int dlb2_hw_register_pasid(struct dlb2_hw *hw, + unsigned int vdev_id, + unsigned int pasid); + +/** + * dlb2_hw_pending_port_unmaps() - returns the number of unmap operations in + * progress. + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @args: number of unmaps in progress args + * @resp: response structure. + * @vf_request: indicates whether this request came from a VF. + * @vf_id: If vf_request is true, this contains the VF's ID. + * + * Return: + * Returns 0 upon success, < 0 otherwise. If an error occurs, resp->status is + * assigned a detailed error code from enum dlb2_error. If successful, resp->id + * contains the number of unmaps in progress. + * + * Errors: + * EINVAL - Invalid port ID. + */ +int dlb2_hw_pending_port_unmaps(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_pending_port_unmaps_args *args, + struct dlb2_cmd_response *resp, + bool vf_request, + unsigned int vf_id); + +/** + * dlb2_hw_get_cos_bandwidth() - returns the percent of bandwidth allocated + * to a port class-of-service. + * @hw: dlb2_hw handle for a particular device. + * @cos_id: class-of-service ID. + * + * Return: + * Returns -EINVAL if cos_id is invalid, else the class' bandwidth allocation. + */ +int dlb2_hw_get_cos_bandwidth(struct dlb2_hw *hw, u32 cos_id); + +/** + * dlb2_hw_set_cos_bandwidth() - set a bandwidth allocation percentage for a + * port class-of-service. + * @hw: dlb2_hw handle for a particular device. + * @cos_id: class-of-service ID. + * @bandwidth: class-of-service bandwidth. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - Invalid cos ID, bandwidth is greater than 100, or bandwidth would + * cause the total bandwidth across all classes of service to exceed + * 100%. + */ +int dlb2_hw_set_cos_bandwidth(struct dlb2_hw *hw, u32 cos_id, u8 bandwidth); + +enum dlb2_wd_tmo { + /* 40s watchdog timeout */ + DLB2_WD_TMO_40S, + /* 10s watchdog timeout */ + DLB2_WD_TMO_10S, + /* 1s watchdog timeout */ + DLB2_WD_TMO_1S, + + /* Must be last */ + NUM_DLB2_WD_TMOS, +}; + +/** + * dlb2_hw_enable_wd_timer() - enable the CQ watchdog timers with a + * caller-specified timeout. + * @hw: dlb2_hw handle for a particular device. + * @tmo: watchdog timeout. + * + * This function should be called during device initialization and after reset. + * The watchdog timer interrupt must also be enabled per-CQ, using either + * dlb2_hw_enable_dir_cq_wd_int() or dlb2_hw_enable_ldb_cq_wd_int(). + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - Invalid timeout. + */ +int dlb2_hw_enable_wd_timer(struct dlb2_hw *hw, enum dlb2_wd_tmo tmo); + +/** + * dlb2_hw_enable_dir_cq_wd_int() - enable the CQ watchdog interrupt on an + * individual CQ. + * @hw: dlb2_hw handle for a particular device. + * @id: port ID. + * @vdev_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - Invalid directed port ID. + */ +int dlb2_hw_enable_dir_cq_wd_int(struct dlb2_hw *hw, + u32 id, + bool vdev_req, + unsigned int vdev_id); + +/** + * dlb2_hw_enable_ldb_cq_wd_int() - enable the CQ watchdog interrupt on an + * individual CQ. + * @hw: dlb2_hw handle for a particular device. + * @id: port ID. + * @vdev_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_request is true, this contains the vdev's ID. + * + * Return: + * Returns 0 upon success, < 0 otherwise. + * + * Errors: + * EINVAL - Invalid load-balanced port ID. + */ +int dlb2_hw_enable_ldb_cq_wd_int(struct dlb2_hw *hw, + u32 id, + bool vdev_req, + unsigned int vdev_id); + +/** + * dlb2_hw_enable_sparse_ldb_cq_mode() - enable sparse mode for load-balanced + * ports. + * @hw: dlb2_hw handle for a particular device. + * + * This function must be called prior to configuring scheduling domains. + */ +void dlb2_hw_enable_sparse_ldb_cq_mode(struct dlb2_hw *hw); + +/** + * dlb2_hw_enable_sparse_dir_cq_mode() - enable sparse mode for directed ports. + * @hw: dlb2_hw handle for a particular device. + * + * This function must be called prior to configuring scheduling domains. + */ +void dlb2_hw_enable_sparse_dir_cq_mode(struct dlb2_hw *hw); + +/** + * dlb2_hw_set_qe_arbiter_weights() - program QE arbiter weights + * @hw: dlb2_hw handle for a particular device. + * @weight: 8-entry array of arbiter weights. + * + * weight[N] programs priority N's weight. In cases where the 8 priorities are + * reduced to 4 bins, the mapping is: + * - weight[1] programs bin 0 + * - weight[3] programs bin 1 + * - weight[5] programs bin 2 + * - weight[7] programs bin 3 + */ +void dlb2_hw_set_qe_arbiter_weights(struct dlb2_hw *hw, u8 weight[8]); + +/** + * dlb2_hw_set_qid_arbiter_weights() - program QID arbiter weights + * @hw: dlb2_hw handle for a particular device. + * @weight: 8-entry array of arbiter weights. + * + * weight[N] programs priority N's weight. In cases where the 8 priorities are + * reduced to 4 bins, the mapping is: + * - weight[1] programs bin 0 + * - weight[3] programs bin 1 + * - weight[5] programs bin 2 + * - weight[7] programs bin 3 + */ +void dlb2_hw_set_qid_arbiter_weights(struct dlb2_hw *hw, u8 weight[8]); + +/** + * dlb2_hw_ldb_cq_interrupt_enabled() - Check if the interrupt is enabled + * @hw: dlb2_hw handle for a particular device. + * @port_id: physical load-balanced port ID. + * + * This function returns whether the load-balanced CQ interrupt is enabled. + */ +int dlb2_hw_ldb_cq_interrupt_enabled(struct dlb2_hw *hw, int port_id); + +/** + * dlb2_hw_ldb_cq_interrupt_set_mode() - Program the CQ interrupt mode + * @hw: dlb2_hw handle for a particular device. + * @port_id: physical load-balanced port ID. + * @mode: interrupt type (DLB2_CQ_ISR_MODE_{DIS, MSI, MSIX, ADI}) + * + * This function can be used to disable (MODE_DIS) and re-enable the + * load-balanced CQ's interrupt. It should only be called after the interrupt + * has been configured with dlb2_configure_ldb_cq_interrupt(). + */ +void dlb2_hw_ldb_cq_interrupt_set_mode(struct dlb2_hw *hw, + int port_id, + int mode); + +/** + * dlb2_hw_dir_cq_interrupt_enabled() - Check if the interrupt is enabled + * @hw: dlb2_hw handle for a particular device. + * @port_id: physical load-balanced port ID. + * + * This function returns whether the load-balanced CQ interrupt is enabled. + */ +int dlb2_hw_dir_cq_interrupt_enabled(struct dlb2_hw *hw, int port_id); + +/** + * dlb2_hw_dir_cq_interrupt_set_mode() - Program the CQ interrupt mode + * @hw: dlb2_hw handle for a particular device. + * @port_id: physical directed port ID. + * @mode: interrupt type (DLB2_CQ_ISR_MODE_{DIS, MSI, MSIX, ADI}) + * + * This function can be used to disable (MODE_DIS) and re-enable the + * directed CQ's interrupt. It should only be called after the interrupt + * has been configured with dlb2_configure_dir_cq_interrupt(). + */ +void dlb2_hw_dir_cq_interrupt_set_mode(struct dlb2_hw *hw, + int port_id, + int mode); + +#endif /* __DLB2_RESOURCE_H */ diff --git a/drivers/event/dlb2/pf/dlb2_main.c b/drivers/event/dlb2/pf/dlb2_main.c new file mode 100644 index 0000000000..6cd0ddf0e8 --- /dev/null +++ b/drivers/event/dlb2/pf/dlb2_main.c @@ -0,0 +1,621 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#include +#include +#include +#include +#include +#include +#include + +#include +#include + +#include "base/dlb2_resource.h" +#include "base/dlb2_osdep.h" +#include "base/dlb2_regs.h" +#include "dlb2_main.h" +#include "../dlb2_user.h" +#include "../dlb2_priv.h" +#include "../dlb2_inline_fns.h" + +#define PF_ID_ZERO 0 /* PF ONLY! */ +#define NO_OWNER_VF 0 /* PF ONLY! */ +#define NOT_VF_REQ false /* PF ONLY! */ + +#define DLB2_PCI_CFG_SPACE_SIZE 256 +#define DLB2_PCI_CAP_POINTER 0x34 +#define DLB2_PCI_CAP_NEXT(hdr) (((hdr) >> 8) & 0xFC) +#define DLB2_PCI_CAP_ID(hdr) ((hdr) & 0xFF) +#define DLB2_PCI_EXT_CAP_NEXT(hdr) (((hdr) >> 20) & 0xFFC) +#define DLB2_PCI_EXT_CAP_ID(hdr) ((hdr) & 0xFFFF) +#define DLB2_PCI_EXT_CAP_ID_ERR 1 +#define DLB2_PCI_ERR_UNCOR_MASK 8 +#define DLB2_PCI_ERR_UNC_UNSUP 0x00100000 + +#define DLB2_PCI_EXP_DEVCTL 8 +#define DLB2_PCI_LNKCTL 16 +#define DLB2_PCI_SLTCTL 24 +#define DLB2_PCI_RTCTL 28 +#define DLB2_PCI_EXP_DEVCTL2 40 +#define DLB2_PCI_LNKCTL2 48 +#define DLB2_PCI_SLTCTL2 56 +#define DLB2_PCI_CMD 4 +#define DLB2_PCI_X_CMD 2 +#define DLB2_PCI_EXP_DEVSTA 10 +#define DLB2_PCI_EXP_DEVSTA_TRPND 0x20 +#define DLB2_PCI_EXP_DEVCTL_BCR_FLR 0x8000 + +#define DLB2_PCI_CAP_ID_EXP 0x10 +#define DLB2_PCI_CAP_ID_MSIX 0x11 +#define DLB2_PCI_EXT_CAP_ID_PAS 0x1B +#define DLB2_PCI_EXT_CAP_ID_PRI 0x13 +#define DLB2_PCI_EXT_CAP_ID_ACS 0xD + +#define DLB2_PCI_PRI_CTRL_ENABLE 0x1 +#define DLB2_PCI_PRI_ALLOC_REQ 0xC +#define DLB2_PCI_PRI_CTRL 0x4 +#define DLB2_PCI_MSIX_FLAGS 0x2 +#define DLB2_PCI_MSIX_FLAGS_ENABLE 0x8000 +#define DLB2_PCI_MSIX_FLAGS_MASKALL 0x4000 +#define DLB2_PCI_ERR_ROOT_STATUS 0x30 +#define DLB2_PCI_ERR_COR_STATUS 0x10 +#define DLB2_PCI_ERR_UNCOR_STATUS 0x4 +#define DLB2_PCI_COMMAND_INTX_DISABLE 0x400 +#define DLB2_PCI_ACS_CAP 0x4 +#define DLB2_PCI_ACS_CTRL 0x6 +#define DLB2_PCI_ACS_SV 0x1 +#define DLB2_PCI_ACS_RR 0x4 +#define DLB2_PCI_ACS_CR 0x8 +#define DLB2_PCI_ACS_UF 0x10 +#define DLB2_PCI_ACS_EC 0x20 + +/* Stubs: Allow building partial probe patch */ +void dlb2_resource_free(struct dlb2_hw *hw) +{ + RTE_SET_USED(hw); +} + +int dlb2_resource_init(struct dlb2_hw *hw) +{ + int ret = 0; + RTE_SET_USED(hw); + + return ret; +} + +void dlb2_clr_pmcsr_disable(struct dlb2_hw *hw) +{ + RTE_SET_USED(hw); +} + +/* End stubs */ + +static int +dlb2_pci_find_ext_capability(struct rte_pci_device *pdev, uint32_t id) +{ + uint32_t hdr; + size_t sz; + int pos; + + pos = DLB2_PCI_CFG_SPACE_SIZE; + sz = sizeof(hdr); + + while (pos > 0xFF) { + if (rte_pci_read_config(pdev, &hdr, sz, pos) != (int)sz) + return -1; + + if (DLB2_PCI_EXT_CAP_ID(hdr) == id) + return pos; + + pos = DLB2_PCI_EXT_CAP_NEXT(hdr); + } + + return -1; +} + +static int dlb2_pci_find_capability(struct rte_pci_device *pdev, uint32_t id) +{ + uint8_t pos; + int ret; + uint16_t hdr; + + ret = rte_pci_read_config(pdev, &pos, 1, DLB2_PCI_CAP_POINTER); + pos &= 0xFC; + + if (ret != 1) + return -1; + + while (pos > 0x3F) { + ret = rte_pci_read_config(pdev, &hdr, 2, pos); + if (ret != 2) + return -1; + + if (DLB2_PCI_CAP_ID(hdr) == id) + return pos; + + if (DLB2_PCI_CAP_ID(hdr) == 0xFF) + return -1; + + pos = DLB2_PCI_CAP_NEXT(hdr); + } + + return -1; +} + +static int +dlb2_pf_init_driver_state(struct dlb2_dev *dlb2_dev) +{ + rte_spinlock_init(&dlb2_dev->resource_mutex); + rte_spinlock_init(&dlb2_dev->measurement_lock); + + return 0; +} + +static void dlb2_pf_enable_pm(struct dlb2_dev *dlb2_dev) +{ + dlb2_clr_pmcsr_disable(&dlb2_dev->hw); +} + +#define DLB2_READY_RETRY_LIMIT 1000 +static int dlb2_pf_wait_for_device_ready(struct dlb2_dev *dlb2_dev) +{ + u32 retries = 0; + + /* Allow at least 1s for the device to become active after power-on */ + for (retries = 0; retries < DLB2_READY_RETRY_LIMIT; retries++) { + union dlb2_cfg_mstr_cfg_diagnostic_idle_status idle; + union dlb2_cfg_mstr_cfg_pm_status pm_st; + u32 addr; + + addr = DLB2_CFG_MSTR_CFG_PM_STATUS; + pm_st.val = DLB2_CSR_RD(&dlb2_dev->hw, addr); + addr = DLB2_CFG_MSTR_CFG_DIAGNOSTIC_IDLE_STATUS; + idle.val = DLB2_CSR_RD(&dlb2_dev->hw, addr); + if (pm_st.field.pmsm == 1 && idle.field.dlb_func_idle == 1) + break; + + rte_delay_ms(1); + }; + + if (retries == DLB2_READY_RETRY_LIMIT) { + DLB2_LOG_ERR("[%s()] wait for device ready timed out\n", + __func__); + return -1; + } + + return 0; +} + +struct dlb2_dev * +dlb2_probe(struct rte_pci_device *pdev) +{ + struct dlb2_dev *dlb2_dev; + int ret = 0; + + DLB2_INFO(dlb2_dev, "probe\n"); + + dlb2_dev = rte_malloc("DLB2_PF", sizeof(struct dlb2_dev), + RTE_CACHE_LINE_SIZE); + + if (dlb2_dev == NULL) { + ret = -ENOMEM; + goto dlb2_dev_malloc_fail; + } + + /* PCI Bus driver has already mapped bar space into process. + * Save off our IO register and FUNC addresses. + */ + + /* BAR 0 */ + if (pdev->mem_resource[0].addr == NULL) { + DLB2_ERR(dlb2_dev, "probe: BAR 0 addr (csr_kva) is NULL\n"); + ret = -EINVAL; + goto pci_mmap_bad_addr; + } + dlb2_dev->hw.func_kva = (void *)(uintptr_t)pdev->mem_resource[0].addr; + dlb2_dev->hw.func_phys_addr = pdev->mem_resource[0].phys_addr; + + DLB2_INFO(dlb2_dev, "DLB2 FUNC VA=%p, PA=%p, len=%p\n", + (void *)dlb2_dev->hw.func_kva, + (void *)dlb2_dev->hw.func_phys_addr, + (void *)(pdev->mem_resource[0].len)); + + /* BAR 2 */ + if (pdev->mem_resource[2].addr == NULL) { + DLB2_ERR(dlb2_dev, "probe: BAR 2 addr (func_kva) is NULL\n"); + ret = -EINVAL; + goto pci_mmap_bad_addr; + } + dlb2_dev->hw.csr_kva = (void *)(uintptr_t)pdev->mem_resource[2].addr; + dlb2_dev->hw.csr_phys_addr = pdev->mem_resource[2].phys_addr; + + DLB2_INFO(dlb2_dev, "DLB2 CSR VA=%p, PA=%p, len=%p\n", + (void *)dlb2_dev->hw.csr_kva, + (void *)dlb2_dev->hw.csr_phys_addr, + (void *)(pdev->mem_resource[2].len)); + + dlb2_dev->pdev = pdev; + + /* PM enable must be done before any other MMIO accesses, and this + * setting is persistent across device reset. + */ + dlb2_pf_enable_pm(dlb2_dev); + + ret = dlb2_pf_wait_for_device_ready(dlb2_dev); + if (ret) + goto wait_for_device_ready_fail; + + ret = dlb2_pf_reset(dlb2_dev); + if (ret) + goto dlb2_reset_fail; + + ret = dlb2_pf_init_driver_state(dlb2_dev); + if (ret) + goto init_driver_state_fail; + + ret = dlb2_resource_init(&dlb2_dev->hw); + if (ret) + goto resource_init_fail; + + return dlb2_dev; + +resource_init_fail: + dlb2_resource_free(&dlb2_dev->hw); +init_driver_state_fail: +dlb2_reset_fail: +pci_mmap_bad_addr: +wait_for_device_ready_fail: + rte_free(dlb2_dev); +dlb2_dev_malloc_fail: + rte_errno = ret; + return NULL; +} + +int +dlb2_pf_reset(struct dlb2_dev *dlb2_dev) +{ + int ret = 0; + int i = 0; + uint32_t dword[16]; + uint16_t cmd; + off_t off; + + uint16_t dev_ctl_word; + uint16_t dev_ctl2_word; + uint16_t lnk_word; + uint16_t lnk_word2; + uint16_t slt_word; + uint16_t slt_word2; + uint16_t rt_ctl_word; + uint32_t pri_reqs_dword; + uint16_t pri_ctrl_word; + + int pcie_cap_offset; + int pri_cap_offset; + int msix_cap_offset; + int err_cap_offset; + int acs_cap_offset; + int wait_count; + + uint16_t devsta_busy_word; + uint16_t devctl_word; + + struct rte_pci_device *pdev = dlb2_dev->pdev; + + /* Save PCI config state */ + + for (i = 0; i < 16; i++) { + if (rte_pci_read_config(pdev, &dword[i], 4, i * 4) != 4) + return ret; + } + + pcie_cap_offset = dlb2_pci_find_capability(pdev, DLB2_PCI_CAP_ID_EXP); + + if (pcie_cap_offset < 0) { + DLB2_LOG_ERR("[%s()] failed to find the pcie capability\n", + __func__); + return pcie_cap_offset; + } + + off = pcie_cap_offset + DLB2_PCI_EXP_DEVCTL; + if (rte_pci_read_config(pdev, &dev_ctl_word, 2, off) != 2) + dev_ctl_word = 0; + + off = pcie_cap_offset + DLB2_PCI_LNKCTL; + if (rte_pci_read_config(pdev, &lnk_word, 2, off) != 2) + lnk_word = 0; + + off = pcie_cap_offset + DLB2_PCI_SLTCTL; + if (rte_pci_read_config(pdev, &slt_word, 2, off) != 2) + slt_word = 0; + + off = pcie_cap_offset + DLB2_PCI_RTCTL; + if (rte_pci_read_config(pdev, &rt_ctl_word, 2, off) != 2) + rt_ctl_word = 0; + + off = pcie_cap_offset + DLB2_PCI_EXP_DEVCTL2; + if (rte_pci_read_config(pdev, &dev_ctl2_word, 2, off) != 2) + dev_ctl2_word = 0; + + off = pcie_cap_offset + DLB2_PCI_LNKCTL2; + if (rte_pci_read_config(pdev, &lnk_word2, 2, off) != 2) + lnk_word2 = 0; + + off = pcie_cap_offset + DLB2_PCI_SLTCTL2; + if (rte_pci_read_config(pdev, &slt_word2, 2, off) != 2) + slt_word2 = 0; + + off = DLB2_PCI_EXT_CAP_ID_PRI; + pri_cap_offset = dlb2_pci_find_ext_capability(pdev, off); + + if (pri_cap_offset >= 0) { + off = pri_cap_offset + DLB2_PCI_PRI_ALLOC_REQ; + if (rte_pci_read_config(pdev, &pri_reqs_dword, 4, off) != 4) + pri_reqs_dword = 0; + } + + /* clear the PCI command register before issuing the FLR */ + + off = DLB2_PCI_CMD; + cmd = 0; + if (rte_pci_write_config(pdev, &cmd, 2, off) != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pci command\n", + __func__); + return ret; + } + + /* issue the FLR */ + for (wait_count = 0; wait_count < 4; wait_count++) { + int sleep_time; + + off = pcie_cap_offset + DLB2_PCI_EXP_DEVSTA; + ret = rte_pci_read_config(pdev, &devsta_busy_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to read the pci device status\n", + __func__); + return ret; + } + + if (!(devsta_busy_word & DLB2_PCI_EXP_DEVSTA_TRPND)) + break; + + sleep_time = (1 << (wait_count)) * 100; + rte_delay_ms(sleep_time); + } + + if (wait_count == 4) { + DLB2_LOG_ERR("[%s()] wait for pci pending transactions timed out\n", + __func__); + return -1; + } + + off = pcie_cap_offset + DLB2_PCI_EXP_DEVCTL; + ret = rte_pci_read_config(pdev, &devctl_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to read the pcie device control\n", + __func__); + return ret; + } + + devctl_word |= DLB2_PCI_EXP_DEVCTL_BCR_FLR; + + ret = rte_pci_write_config(pdev, &devctl_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie device control\n", + __func__); + return ret; + } + + rte_delay_ms(100); + + /* Restore PCI config state */ + + if (pcie_cap_offset >= 0) { + off = pcie_cap_offset + DLB2_PCI_EXP_DEVCTL; + ret = rte_pci_write_config(pdev, &dev_ctl_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie device control at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pcie_cap_offset + DLB2_PCI_LNKCTL; + ret = rte_pci_write_config(pdev, &lnk_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pcie_cap_offset + DLB2_PCI_SLTCTL; + ret = rte_pci_write_config(pdev, &slt_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pcie_cap_offset + DLB2_PCI_RTCTL; + ret = rte_pci_write_config(pdev, &rt_ctl_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pcie_cap_offset + DLB2_PCI_EXP_DEVCTL2; + ret = rte_pci_write_config(pdev, &dev_ctl2_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pcie_cap_offset + DLB2_PCI_LNKCTL2; + ret = rte_pci_write_config(pdev, &lnk_word2, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pcie_cap_offset + DLB2_PCI_SLTCTL2; + ret = rte_pci_write_config(pdev, &slt_word2, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + } + + if (pri_cap_offset >= 0) { + pri_ctrl_word = DLB2_PCI_PRI_CTRL_ENABLE; + + off = pri_cap_offset + DLB2_PCI_PRI_ALLOC_REQ; + ret = rte_pci_write_config(pdev, &pri_reqs_dword, 4, off); + if (ret != 4) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = pri_cap_offset + DLB2_PCI_PRI_CTRL; + ret = rte_pci_write_config(pdev, &pri_ctrl_word, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + } + + off = DLB2_PCI_EXT_CAP_ID_ERR; + err_cap_offset = dlb2_pci_find_ext_capability(pdev, off); + + if (err_cap_offset >= 0) { + uint32_t tmp; + + off = err_cap_offset + DLB2_PCI_ERR_ROOT_STATUS; + if (rte_pci_read_config(pdev, &tmp, 4, off) != 4) + tmp = 0; + + ret = rte_pci_write_config(pdev, &tmp, 4, off); + if (ret != 4) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = err_cap_offset + DLB2_PCI_ERR_COR_STATUS; + if (rte_pci_read_config(pdev, &tmp, 4, off) != 4) + tmp = 0; + + ret = rte_pci_write_config(pdev, &tmp, 4, off); + if (ret != 4) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = err_cap_offset + DLB2_PCI_ERR_UNCOR_STATUS; + if (rte_pci_read_config(pdev, &tmp, 4, off) != 4) + tmp = 0; + + ret = rte_pci_write_config(pdev, &tmp, 4, off); + if (ret != 4) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + } + + for (i = 16; i > 0; i--) { + off = (i - 1) * 4; + ret = rte_pci_write_config(pdev, &dword[i - 1], 4, off); + if (ret != 4) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + } + + off = DLB2_PCI_CMD; + if (rte_pci_read_config(pdev, &cmd, 2, off) == 2) { + cmd &= ~DLB2_PCI_COMMAND_INTX_DISABLE; + if (rte_pci_write_config(pdev, &cmd, 2, off) != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pci command\n", + __func__); + return ret; + } + } + + msix_cap_offset = dlb2_pci_find_capability(pdev, + DLB2_PCI_CAP_ID_MSIX); + if (msix_cap_offset >= 0) { + off = msix_cap_offset + DLB2_PCI_MSIX_FLAGS; + if (rte_pci_read_config(pdev, &cmd, 2, off) == 2) { + cmd |= DLB2_PCI_MSIX_FLAGS_ENABLE; + cmd |= DLB2_PCI_MSIX_FLAGS_MASKALL; + if (rte_pci_write_config(pdev, &cmd, 2, off) != 2) { + DLB2_LOG_ERR("[%s()] failed to write msix flags\n", + __func__); + return ret; + } + } + + off = msix_cap_offset + DLB2_PCI_MSIX_FLAGS; + if (rte_pci_read_config(pdev, &cmd, 2, off) == 2) { + cmd &= ~DLB2_PCI_MSIX_FLAGS_MASKALL; + if (rte_pci_write_config(pdev, &cmd, 2, off) != 2) { + DLB2_LOG_ERR("[%s()] failed to write msix flags\n", + __func__); + return ret; + } + } + } + + off = DLB2_PCI_EXT_CAP_ID_ACS; + acs_cap_offset = dlb2_pci_find_ext_capability(pdev, off); + + if (acs_cap_offset >= 0) { + uint16_t acs_cap, acs_ctrl, acs_mask; + off = acs_cap_offset + DLB2_PCI_ACS_CAP; + if (rte_pci_read_config(pdev, &acs_cap, 2, off) != 2) + acs_cap = 0; + + off = acs_cap_offset + DLB2_PCI_ACS_CTRL; + if (rte_pci_read_config(pdev, &acs_ctrl, 2, off) != 2) + acs_ctrl = 0; + + acs_mask = DLB2_PCI_ACS_SV | DLB2_PCI_ACS_RR; + acs_mask |= (DLB2_PCI_ACS_CR | DLB2_PCI_ACS_UF); + acs_ctrl |= (acs_cap & acs_mask); + + ret = rte_pci_write_config(pdev, &acs_ctrl, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + + off = acs_cap_offset + DLB2_PCI_ACS_CTRL; + if (rte_pci_read_config(pdev, &acs_ctrl, 2, off) != 2) + acs_ctrl = 0; + + acs_mask = DLB2_PCI_ACS_RR | DLB2_PCI_ACS_CR; + acs_mask |= DLB2_PCI_ACS_EC; + acs_ctrl &= ~acs_mask; + + off = acs_cap_offset + DLB2_PCI_ACS_CTRL; + ret = rte_pci_write_config(pdev, &acs_ctrl, 2, off); + if (ret != 2) { + DLB2_LOG_ERR("[%s()] failed to write the pcie config space at offset %d\n", + __func__, (int)off); + return ret; + } + } + + return 0; +} diff --git a/drivers/event/dlb2/pf/dlb2_main.h b/drivers/event/dlb2/pf/dlb2_main.h new file mode 100644 index 0000000000..f082a948e0 --- /dev/null +++ b/drivers/event/dlb2/pf/dlb2_main.h @@ -0,0 +1,98 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#ifndef __DLB2_MAIN_H +#define __DLB2_MAIN_H + +#include +#include +#include +#include +#include + +#ifndef PAGE_SIZE +#define PAGE_SIZE (sysconf(_SC_PAGESIZE)) +#endif + +#include "base/dlb2_hw_types.h" +#include "../dlb2_user.h" + +#define DLB2_DEFAULT_UNREGISTER_TIMEOUT_S 5 + +struct dlb2_dev; + +struct dlb2_port_memory { + struct dlb2_list_head list; + void *cq_base; + bool valid; +}; + +struct dlb2_dev { + struct rte_pci_device *pdev; + struct dlb2_hw hw; + /* struct list_head list; */ + struct device *dlb2_device; + bool domain_reset_failed; + /* The resource mutex serializes access to driver data structures and + * hardware registers. + */ + rte_spinlock_t resource_mutex; + rte_spinlock_t measurement_lock; + bool worker_launched; + u8 revision; +}; + +struct dlb2_dev *dlb2_probe(struct rte_pci_device *pdev); + +int dlb2_pf_reset(struct dlb2_dev *dlb2_dev); +int dlb2_pf_create_sched_domain(struct dlb2_hw *hw, + struct dlb2_create_sched_domain_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_create_ldb_queue(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_ldb_queue_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_create_dir_queue(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_dir_queue_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_create_ldb_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_ldb_port_args *args, + uintptr_t cq_dma_base, + struct dlb2_cmd_response *resp); +int dlb2_pf_create_dir_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_dir_port_args *args, + uintptr_t cq_dma_base, + struct dlb2_cmd_response *resp); +int dlb2_pf_start_domain(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_start_domain_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_enable_ldb_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_enable_ldb_port_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_disable_ldb_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_disable_ldb_port_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_enable_dir_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_enable_dir_port_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_disable_dir_port(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_disable_dir_port_args *args, + struct dlb2_cmd_response *resp); +int dlb2_pf_reset_domain(struct dlb2_hw *hw, u32 domain_id); +int dlb2_pf_ldb_port_owned_by_domain(struct dlb2_hw *hw, + u32 domain_id, + u32 port_id); +int dlb2_pf_dir_port_owned_by_domain(struct dlb2_hw *hw, + u32 domain_id, + u32 port_id); + +#endif /* __DLB2_MAIN_H */ diff --git a/drivers/event/dlb2/pf/dlb2_pf.c b/drivers/event/dlb2/pf/dlb2_pf.c new file mode 100644 index 0000000000..ae4d785050 --- /dev/null +++ b/drivers/event/dlb2/pf/dlb2_pf.c @@ -0,0 +1,196 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2016-2020 Intel Corporation + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "../dlb2_priv.h" +#include "../dlb2_inline_fns.h" +#include "dlb2_main.h" +#include "base/dlb2_hw_types.h" +#include "base/dlb2_osdep.h" +#include "base/dlb2_resource.h" + +static const char *event_dlb2_pf_name = RTE_STR(EVDEV_DLB2_NAME_PMD); + +/* Stubs: Allow building partial probe patch */ +int dlb2_hw_get_num_resources(struct dlb2_hw *hw, + struct dlb2_get_num_resources_args *arg, + bool vdev_req, + unsigned int vdev_id) +{ + RTE_SET_USED(hw); + RTE_SET_USED(arg); + RTE_SET_USED(vdev_req); + RTE_SET_USED(vdev_id); + + return 0; +} + +void dlb2_hw_enable_sparse_ldb_cq_mode(struct dlb2_hw *hw) +{ + RTE_SET_USED(hw); +} + +void dlb2_hw_enable_sparse_dir_cq_mode(struct dlb2_hw *hw) +{ + RTE_SET_USED(hw); +} +/* End stubs */ + +static void +dlb2_pf_iface_fn_ptrs_init(void) +{ +/* flexible iface fn ptr assignments will go here */ +} + +/* PCI DEV HOOKS */ +static int +dlb2_eventdev_pci_init(struct rte_eventdev *eventdev) +{ + int ret = 0; + struct rte_pci_device *pci_dev; + struct dlb2_devargs dlb2_args = { + .socket_id = rte_socket_id(), + .max_num_events = DLB2_MAX_NUM_LDB_CREDITS, + .num_dir_credits_override = -1, + .qid_depth_thresholds = { {0} }, + .cos_id = DLB2_COS_DEFAULT + }; + struct dlb2_eventdev *dlb2; + + DLB2_LOG_DBG("Enter with dev_id=%d socket_id=%d", + eventdev->data->dev_id, eventdev->data->socket_id); + + dlb2_pf_iface_fn_ptrs_init(); + + pci_dev = RTE_DEV_TO_PCI(eventdev->dev); + + if (rte_eal_process_type() == RTE_PROC_PRIMARY) { + dlb2 = dlb2_pmd_priv(eventdev); /* rte_zmalloc_socket mem */ + + /* Probe the DLB2 PF layer */ + dlb2->qm_instance.pf_dev = dlb2_probe(pci_dev); + + if (dlb2->qm_instance.pf_dev == NULL) { + DLB2_LOG_ERR("DLB2 PF Probe failed with error %d\n", + rte_errno); + ret = -rte_errno; + goto dlb2_probe_failed; + } + + /* Were we invoked with runtime parameters? */ + if (pci_dev->device.devargs) { + ret = dlb2_parse_params(pci_dev->device.devargs->args, + pci_dev->device.devargs->name, + &dlb2_args); + if (ret) { + DLB2_LOG_ERR("PFPMD failed to parse args ret=%d, errno=%d\n", + ret, rte_errno); + goto dlb2_probe_failed; + } + } + + ret = dlb2_primary_eventdev_probe(eventdev, + event_dlb2_pf_name, + &dlb2_args); + } else { + ret = dlb2_secondary_eventdev_probe(eventdev, + event_dlb2_pf_name); + } + if (ret) + goto dlb2_probe_failed; + + DLB2_LOG_INFO("DLB2 PF Probe success\n"); + + return 0; + +dlb2_probe_failed: + + DLB2_LOG_INFO("DLB2 PF Probe failed, ret=%d\n", ret); + + return ret; +} + +#define EVENTDEV_INTEL_VENDOR_ID 0x8086 + +static const struct rte_pci_id pci_id_dlb2_map[] = { + { + RTE_PCI_DEVICE(EVENTDEV_INTEL_VENDOR_ID, + PCI_DEVICE_ID_INTEL_DLB2_PF) + }, + { + .vendor_id = 0, + }, +}; + +static int +event_dlb2_pci_probe(struct rte_pci_driver *pci_drv, + struct rte_pci_device *pci_dev) +{ + int ret; + + ret = rte_event_pmd_pci_probe_named(pci_drv, pci_dev, + sizeof(struct dlb2_eventdev), + dlb2_eventdev_pci_init, + event_dlb2_pf_name); + if (ret) { + DLB2_LOG_INFO("rte_event_pmd_pci_probe_named() failed, " + "ret=%d\n", ret); + } + + return ret; +} + +static int +event_dlb2_pci_remove(struct rte_pci_device *pci_dev) +{ + int ret; + + ret = rte_event_pmd_pci_remove(pci_dev, NULL); + + if (ret) { + DLB2_LOG_INFO("rte_event_pmd_pci_remove() failed, " + "ret=%d\n", ret); + } + + return ret; + +} + +static struct rte_pci_driver pci_eventdev_dlb2_pmd = { + .id_table = pci_id_dlb2_map, + .drv_flags = RTE_PCI_DRV_NEED_MAPPING, + .probe = event_dlb2_pci_probe, + .remove = event_dlb2_pci_remove, +}; + +RTE_PMD_REGISTER_PCI(event_dlb2_pf, pci_eventdev_dlb2_pmd); +RTE_PMD_REGISTER_PCI_TABLE(event_dlb2_pf, pci_id_dlb2_map);