From 1857f1922ce2545e8df31e5fb72983bcf1f1db58 Mon Sep 17 00:00:00 2001 From: Timothy McDaniel Date: Sat, 1 May 2021 14:03:56 -0500 Subject: [PATCH] event/dlb2: use new implementation of resource file The file dlb_resource_new.c now contains all of the low level functions required to support both DLB v2.0 and DLB v2.5, and the original file (dlb_resource.c) was removed in the previous commit, so rename dlb_resource_new.c to dlb_resource.c, and update the meson build file so that the new file is built. Signed-off-by: Timothy McDaniel --- drivers/event/dlb2/meson.build | 1 - drivers/event/dlb2/pf/base/dlb2_resource.c | 6205 +++++++++++++++- .../event/dlb2/pf/base/dlb2_resource_new.c | 6235 ----------------- 3 files changed, 6203 insertions(+), 6238 deletions(-) delete mode 100644 drivers/event/dlb2/pf/base/dlb2_resource_new.c diff --git a/drivers/event/dlb2/meson.build b/drivers/event/dlb2/meson.build index 0c848161e2..f963589fd3 100644 --- a/drivers/event/dlb2/meson.build +++ b/drivers/event/dlb2/meson.build @@ -15,7 +15,6 @@ sources = files( 'pf/dlb2_main.c', 'pf/dlb2_pf.c', 'pf/base/dlb2_resource.c', - 'pf/base/dlb2_resource_new.c', 'rte_pmd_dlb2.c', 'dlb2_selftest.c', ) diff --git a/drivers/event/dlb2/pf/base/dlb2_resource.c b/drivers/event/dlb2/pf/base/dlb2_resource.c index e8a9d52f67..2f66b2c71d 100644 --- a/drivers/event/dlb2/pf/base/dlb2_resource.c +++ b/drivers/event/dlb2/pf/base/dlb2_resource.c @@ -2,13 +2,15 @@ * Copyright(c) 2016-2020 Intel Corporation */ +#define DLB2_USE_NEW_HEADERS /* TEMPORARY FOR MERGE */ + #include "dlb2_user.h" -#include "dlb2_hw_types.h" +#include "dlb2_hw_types_new.h" #include "dlb2_osdep.h" #include "dlb2_osdep_bitmap.h" #include "dlb2_osdep_types.h" -#include "dlb2_regs.h" +#include "dlb2_regs_new.h" #include "dlb2_resource.h" #include "../../dlb2_priv.h" @@ -32,3 +34,6202 @@ #define DLB2_FUNC_LIST_FOR_SAFE(head, ptr, ptr_tmp, it, it_tmp) \ DLB2_LIST_FOR_EACH_SAFE((head), ptr, ptr_tmp, func_list, it, it_tmp) +/* + * The PF driver cannot assume that a register write will affect subsequent HCW + * writes. To ensure a write completes, the driver must read back a CSR. This + * function only need be called for configuration that can occur after the + * domain has started; prior to starting, applications can't send HCWs. + */ +static inline void dlb2_flush_csr(struct dlb2_hw *hw) +{ + DLB2_CSR_RD(hw, DLB2_SYS_TOTAL_VAS(hw->ver)); +} + +static void dlb2_init_domain_rsrc_lists(struct dlb2_hw_domain *domain) +{ + int i; + + dlb2_list_init_head(&domain->used_ldb_queues); + dlb2_list_init_head(&domain->used_dir_pq_pairs); + dlb2_list_init_head(&domain->avail_ldb_queues); + dlb2_list_init_head(&domain->avail_dir_pq_pairs); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) + dlb2_list_init_head(&domain->used_ldb_ports[i]); + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) + dlb2_list_init_head(&domain->avail_ldb_ports[i]); +} + +static void dlb2_init_fn_rsrc_lists(struct dlb2_function_resources *rsrc) +{ + int i; + dlb2_list_init_head(&rsrc->avail_domains); + dlb2_list_init_head(&rsrc->used_domains); + dlb2_list_init_head(&rsrc->avail_ldb_queues); + dlb2_list_init_head(&rsrc->avail_dir_pq_pairs); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) + dlb2_list_init_head(&rsrc->avail_ldb_ports[i]); +} + +/** + * 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) +{ + int i; + + if (hw->pf.avail_hist_list_entries) + dlb2_bitmap_free(hw->pf.avail_hist_list_entries); + + for (i = 0; i < DLB2_MAX_NUM_VDEVS; i++) { + if (hw->vdev[i].avail_hist_list_entries) + dlb2_bitmap_free(hw->vdev[i].avail_hist_list_entries); + } +} + +/** + * dlb2_resource_init() - initialize the device + * @hw: pointer to struct dlb2_hw. + * @ver: device version. + * + * 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, and the dlb2_hw structure should + * be zero-initialized before calling the function. + * + * 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, enum dlb2_hw_ver ver) +{ + struct dlb2_list_entry *list; + unsigned int i; + int ret; + + /* + * For optimal load-balancing, ports that map to one or more QIDs in + * common should not be in numerical sequence. The port->QID mapping is + * application dependent, but the driver interleaves port IDs as much + * as possible to reduce the likelihood of sequential ports mapping to + * the same QID(s). This initial allocation of port IDs maximizes the + * average distance between an ID and its immediate neighbors (i.e. + * the distance from 1 to 0 and to 2, the distance from 2 to 1 and to + * 3, etc.). + */ + const u8 init_ldb_port_allocation[DLB2_MAX_NUM_LDB_PORTS] = { + 0, 7, 14, 5, 12, 3, 10, 1, 8, 15, 6, 13, 4, 11, 2, 9, + 16, 23, 30, 21, 28, 19, 26, 17, 24, 31, 22, 29, 20, 27, 18, 25, + 32, 39, 46, 37, 44, 35, 42, 33, 40, 47, 38, 45, 36, 43, 34, 41, + 48, 55, 62, 53, 60, 51, 58, 49, 56, 63, 54, 61, 52, 59, 50, 57, + }; + + hw->ver = ver; + + dlb2_init_fn_rsrc_lists(&hw->pf); + + for (i = 0; i < DLB2_MAX_NUM_VDEVS; i++) + dlb2_init_fn_rsrc_lists(&hw->vdev[i]); + + for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { + dlb2_init_domain_rsrc_lists(&hw->domains[i]); + hw->domains[i].parent_func = &hw->pf; + } + + /* Give all resources to the PF driver */ + hw->pf.num_avail_domains = DLB2_MAX_NUM_DOMAINS; + for (i = 0; i < hw->pf.num_avail_domains; i++) { + list = &hw->domains[i].func_list; + + dlb2_list_add(&hw->pf.avail_domains, list); + } + + hw->pf.num_avail_ldb_queues = DLB2_MAX_NUM_LDB_QUEUES; + for (i = 0; i < hw->pf.num_avail_ldb_queues; i++) { + list = &hw->rsrcs.ldb_queues[i].func_list; + + dlb2_list_add(&hw->pf.avail_ldb_queues, list); + } + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) + hw->pf.num_avail_ldb_ports[i] = + DLB2_MAX_NUM_LDB_PORTS / DLB2_NUM_COS_DOMAINS; + + for (i = 0; i < DLB2_MAX_NUM_LDB_PORTS; i++) { + int cos_id = i >> DLB2_NUM_COS_DOMAINS; + struct dlb2_ldb_port *port; + + port = &hw->rsrcs.ldb_ports[init_ldb_port_allocation[i]]; + + dlb2_list_add(&hw->pf.avail_ldb_ports[cos_id], + &port->func_list); + } + + hw->pf.num_avail_dir_pq_pairs = DLB2_MAX_NUM_DIR_PORTS(hw->ver); + for (i = 0; i < hw->pf.num_avail_dir_pq_pairs; i++) { + list = &hw->rsrcs.dir_pq_pairs[i].func_list; + + dlb2_list_add(&hw->pf.avail_dir_pq_pairs, list); + } + + if (hw->ver == DLB2_HW_V2) { + hw->pf.num_avail_qed_entries = DLB2_MAX_NUM_LDB_CREDITS; + hw->pf.num_avail_dqed_entries = + DLB2_MAX_NUM_DIR_CREDITS(hw->ver); + } else { + hw->pf.num_avail_entries = DLB2_MAX_NUM_CREDITS(hw->ver); + } + + hw->pf.num_avail_aqed_entries = DLB2_MAX_NUM_AQED_ENTRIES; + + ret = dlb2_bitmap_alloc(&hw->pf.avail_hist_list_entries, + DLB2_MAX_NUM_HIST_LIST_ENTRIES); + if (ret) + goto unwind; + + ret = dlb2_bitmap_fill(hw->pf.avail_hist_list_entries); + if (ret) + goto unwind; + + for (i = 0; i < DLB2_MAX_NUM_VDEVS; i++) { + ret = dlb2_bitmap_alloc(&hw->vdev[i].avail_hist_list_entries, + DLB2_MAX_NUM_HIST_LIST_ENTRIES); + if (ret) + goto unwind; + + ret = dlb2_bitmap_zero(hw->vdev[i].avail_hist_list_entries); + if (ret) + goto unwind; + } + + /* Initialize the hardware resource IDs */ + for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { + hw->domains[i].id.phys_id = i; + hw->domains[i].id.vdev_owned = false; + } + + for (i = 0; i < DLB2_MAX_NUM_LDB_QUEUES; i++) { + hw->rsrcs.ldb_queues[i].id.phys_id = i; + hw->rsrcs.ldb_queues[i].id.vdev_owned = false; + } + + for (i = 0; i < DLB2_MAX_NUM_LDB_PORTS; i++) { + hw->rsrcs.ldb_ports[i].id.phys_id = i; + hw->rsrcs.ldb_ports[i].id.vdev_owned = false; + } + + for (i = 0; i < DLB2_MAX_NUM_DIR_PORTS(hw->ver); i++) { + hw->rsrcs.dir_pq_pairs[i].id.phys_id = i; + hw->rsrcs.dir_pq_pairs[i].id.vdev_owned = false; + } + + for (i = 0; i < DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS; i++) { + hw->rsrcs.sn_groups[i].id = i; + /* Default mode (0) is 64 sequence numbers per queue */ + hw->rsrcs.sn_groups[i].mode = 0; + hw->rsrcs.sn_groups[i].sequence_numbers_per_queue = 64; + hw->rsrcs.sn_groups[i].slot_use_bitmap = 0; + } + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) + hw->cos_reservation[i] = 100 / DLB2_NUM_COS_DOMAINS; + + return 0; + +unwind: + dlb2_resource_free(hw); + + return ret; +} + +/** + * dlb2_clr_pmcsr_disable() - power on bulk of DLB 2.0 logic + * @hw: dlb2_hw handle for a particular device. + * @ver: device version. + * + * Clearing the PMCSR must be done at initialization to make the device fully + * operational. + */ +void dlb2_clr_pmcsr_disable(struct dlb2_hw *hw, enum dlb2_hw_ver ver) +{ + u32 pmcsr_dis; + + pmcsr_dis = DLB2_CSR_RD(hw, DLB2_CM_CFG_PM_PMCSR_DISABLE(ver)); + + DLB2_BITS_CLR(pmcsr_dis, DLB2_CM_CFG_PM_PMCSR_DISABLE_DISABLE); + + DLB2_CSR_WR(hw, DLB2_CM_CFG_PM_PMCSR_DISABLE(ver), pmcsr_dis); +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_function_resources *rsrcs; + struct dlb2_bitmap *map; + int i; + + if (vdev_req && vdev_id >= DLB2_MAX_NUM_VDEVS) + return -EINVAL; + + if (vdev_req) + rsrcs = &hw->vdev[vdev_id]; + else + rsrcs = &hw->pf; + + arg->num_sched_domains = rsrcs->num_avail_domains; + + arg->num_ldb_queues = rsrcs->num_avail_ldb_queues; + + arg->num_ldb_ports = 0; + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) + arg->num_ldb_ports += rsrcs->num_avail_ldb_ports[i]; + + arg->num_cos_ldb_ports[0] = rsrcs->num_avail_ldb_ports[0]; + arg->num_cos_ldb_ports[1] = rsrcs->num_avail_ldb_ports[1]; + arg->num_cos_ldb_ports[2] = rsrcs->num_avail_ldb_ports[2]; + arg->num_cos_ldb_ports[3] = rsrcs->num_avail_ldb_ports[3]; + + arg->num_dir_ports = rsrcs->num_avail_dir_pq_pairs; + + arg->num_atomic_inflights = rsrcs->num_avail_aqed_entries; + + map = rsrcs->avail_hist_list_entries; + + arg->num_hist_list_entries = dlb2_bitmap_count(map); + + arg->max_contiguous_hist_list_entries = + dlb2_bitmap_longest_set_range(map); + + if (hw->ver == DLB2_HW_V2) { + arg->num_ldb_credits = rsrcs->num_avail_qed_entries; + arg->num_dir_credits = rsrcs->num_avail_dqed_entries; + } else { + arg->num_credits = rsrcs->num_avail_entries; + } + return 0; +} + +static void dlb2_configure_domain_credits_v2_5(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + u32 reg = 0; + + DLB2_BITS_SET(reg, domain->num_credits, DLB2_CHP_CFG_LDB_VAS_CRD_COUNT); + DLB2_CSR_WR(hw, DLB2_CHP_CFG_VAS_CRD(domain->id.phys_id), reg); +} + +static void dlb2_configure_domain_credits_v2(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + u32 reg = 0; + + DLB2_BITS_SET(reg, domain->num_ldb_credits, + DLB2_CHP_CFG_LDB_VAS_CRD_COUNT); + DLB2_CSR_WR(hw, DLB2_CHP_CFG_LDB_VAS_CRD(domain->id.phys_id), reg); + + reg = 0; + DLB2_BITS_SET(reg, domain->num_dir_credits, + DLB2_CHP_CFG_DIR_VAS_CRD_COUNT); + DLB2_CSR_WR(hw, DLB2_CHP_CFG_DIR_VAS_CRD(domain->id.phys_id), reg); +} + +static void dlb2_configure_domain_credits(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + if (hw->ver == DLB2_HW_V2) + dlb2_configure_domain_credits_v2(hw, domain); + else + dlb2_configure_domain_credits_v2_5(hw, domain); +} + +static int dlb2_attach_credits(struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_credits, + struct dlb2_cmd_response *resp) +{ + if (rsrcs->num_avail_entries < num_credits) { + resp->status = DLB2_ST_CREDITS_UNAVAILABLE; + return -EINVAL; + } + + rsrcs->num_avail_entries -= num_credits; + domain->num_credits += num_credits; + return 0; +} + +static struct dlb2_ldb_port * +dlb2_get_next_ldb_port(struct dlb2_hw *hw, + struct dlb2_function_resources *rsrcs, + u32 domain_id, + u32 cos_id) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + RTE_SET_USED(iter); + + /* + * To reduce the odds of consecutive load-balanced ports mapping to the + * same queue(s), the driver attempts to allocate ports whose neighbors + * are owned by a different domain. + */ + DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_ports[cos_id], port, iter) { + u32 next, prev; + u32 phys_id; + + phys_id = port->id.phys_id; + next = phys_id + 1; + prev = phys_id - 1; + + if (phys_id == DLB2_MAX_NUM_LDB_PORTS - 1) + next = 0; + if (phys_id == 0) + prev = DLB2_MAX_NUM_LDB_PORTS - 1; + + if (!hw->rsrcs.ldb_ports[next].owned || + hw->rsrcs.ldb_ports[next].domain_id.phys_id == domain_id) + continue; + + if (!hw->rsrcs.ldb_ports[prev].owned || + hw->rsrcs.ldb_ports[prev].domain_id.phys_id == domain_id) + continue; + + return port; + } + + /* + * Failing that, the driver looks for a port with one neighbor owned by + * a different domain and the other unallocated. + */ + DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_ports[cos_id], port, iter) { + u32 next, prev; + u32 phys_id; + + phys_id = port->id.phys_id; + next = phys_id + 1; + prev = phys_id - 1; + + if (phys_id == DLB2_MAX_NUM_LDB_PORTS - 1) + next = 0; + if (phys_id == 0) + prev = DLB2_MAX_NUM_LDB_PORTS - 1; + + if (!hw->rsrcs.ldb_ports[prev].owned && + hw->rsrcs.ldb_ports[next].owned && + hw->rsrcs.ldb_ports[next].domain_id.phys_id != domain_id) + return port; + + if (!hw->rsrcs.ldb_ports[next].owned && + hw->rsrcs.ldb_ports[prev].owned && + hw->rsrcs.ldb_ports[prev].domain_id.phys_id != domain_id) + return port; + } + + /* + * Failing that, the driver looks for a port with both neighbors + * unallocated. + */ + DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_ports[cos_id], port, iter) { + u32 next, prev; + u32 phys_id; + + phys_id = port->id.phys_id; + next = phys_id + 1; + prev = phys_id - 1; + + if (phys_id == DLB2_MAX_NUM_LDB_PORTS - 1) + next = 0; + if (phys_id == 0) + prev = DLB2_MAX_NUM_LDB_PORTS - 1; + + if (!hw->rsrcs.ldb_ports[prev].owned && + !hw->rsrcs.ldb_ports[next].owned) + return port; + } + + /* If all else fails, the driver returns the next available port. */ + return DLB2_FUNC_LIST_HEAD(rsrcs->avail_ldb_ports[cos_id], + typeof(*port)); +} + +static int __dlb2_attach_ldb_ports(struct dlb2_hw *hw, + struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_ports, + u32 cos_id, + struct dlb2_cmd_response *resp) +{ + unsigned int i; + + if (rsrcs->num_avail_ldb_ports[cos_id] < num_ports) { + resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; + return -EINVAL; + } + + for (i = 0; i < num_ports; i++) { + struct dlb2_ldb_port *port; + + port = dlb2_get_next_ldb_port(hw, rsrcs, + domain->id.phys_id, cos_id); + if (port == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: domain validation failed\n", + __func__); + return -EFAULT; + } + + dlb2_list_del(&rsrcs->avail_ldb_ports[cos_id], + &port->func_list); + + port->domain_id = domain->id; + port->owned = true; + + dlb2_list_add(&domain->avail_ldb_ports[cos_id], + &port->domain_list); + } + + rsrcs->num_avail_ldb_ports[cos_id] -= num_ports; + + return 0; +} + + +static int dlb2_attach_ldb_ports(struct dlb2_hw *hw, + struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + struct dlb2_create_sched_domain_args *args, + struct dlb2_cmd_response *resp) +{ + unsigned int i, j; + int ret; + + if (args->cos_strict) { + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + u32 num = args->num_cos_ldb_ports[i]; + + /* Allocate ports from specific classes-of-service */ + ret = __dlb2_attach_ldb_ports(hw, + rsrcs, + domain, + num, + i, + resp); + if (ret) + return ret; + } + } else { + unsigned int k; + u32 cos_id; + + /* + * Attempt to allocate from specific class-of-service, but + * fallback to the other classes if that fails. + */ + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + for (j = 0; j < args->num_cos_ldb_ports[i]; j++) { + for (k = 0; k < DLB2_NUM_COS_DOMAINS; k++) { + cos_id = (i + k) % DLB2_NUM_COS_DOMAINS; + + ret = __dlb2_attach_ldb_ports(hw, + rsrcs, + domain, + 1, + cos_id, + resp); + if (ret == 0) + break; + } + + if (ret) + return ret; + } + } + } + + /* Allocate num_ldb_ports from any class-of-service */ + for (i = 0; i < args->num_ldb_ports; i++) { + for (j = 0; j < DLB2_NUM_COS_DOMAINS; j++) { + ret = __dlb2_attach_ldb_ports(hw, + rsrcs, + domain, + 1, + j, + resp); + if (ret == 0) + break; + } + + if (ret) + return ret; + } + + return 0; +} + +static int dlb2_attach_dir_ports(struct dlb2_hw *hw, + struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_ports, + struct dlb2_cmd_response *resp) +{ + unsigned int i; + + if (rsrcs->num_avail_dir_pq_pairs < num_ports) { + resp->status = DLB2_ST_DIR_PORTS_UNAVAILABLE; + return -EINVAL; + } + + for (i = 0; i < num_ports; i++) { + struct dlb2_dir_pq_pair *port; + + port = DLB2_FUNC_LIST_HEAD(rsrcs->avail_dir_pq_pairs, + typeof(*port)); + if (port == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: domain validation failed\n", + __func__); + return -EFAULT; + } + + dlb2_list_del(&rsrcs->avail_dir_pq_pairs, &port->func_list); + + port->domain_id = domain->id; + port->owned = true; + + dlb2_list_add(&domain->avail_dir_pq_pairs, &port->domain_list); + } + + rsrcs->num_avail_dir_pq_pairs -= num_ports; + + return 0; +} + +static int dlb2_attach_ldb_credits(struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_credits, + struct dlb2_cmd_response *resp) +{ + if (rsrcs->num_avail_qed_entries < num_credits) { + resp->status = DLB2_ST_LDB_CREDITS_UNAVAILABLE; + return -EINVAL; + } + + rsrcs->num_avail_qed_entries -= num_credits; + domain->num_ldb_credits += num_credits; + return 0; +} + +static int dlb2_attach_dir_credits(struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_credits, + struct dlb2_cmd_response *resp) +{ + if (rsrcs->num_avail_dqed_entries < num_credits) { + resp->status = DLB2_ST_DIR_CREDITS_UNAVAILABLE; + return -EINVAL; + } + + rsrcs->num_avail_dqed_entries -= num_credits; + domain->num_dir_credits += num_credits; + return 0; +} + + +static int dlb2_attach_atomic_inflights(struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_atomic_inflights, + struct dlb2_cmd_response *resp) +{ + if (rsrcs->num_avail_aqed_entries < num_atomic_inflights) { + resp->status = DLB2_ST_ATOMIC_INFLIGHTS_UNAVAILABLE; + return -EINVAL; + } + + rsrcs->num_avail_aqed_entries -= num_atomic_inflights; + domain->num_avail_aqed_entries += num_atomic_inflights; + return 0; +} + +static int +dlb2_attach_domain_hist_list_entries(struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_hist_list_entries, + struct dlb2_cmd_response *resp) +{ + struct dlb2_bitmap *bitmap; + int base; + + if (num_hist_list_entries) { + bitmap = rsrcs->avail_hist_list_entries; + + base = dlb2_bitmap_find_set_bit_range(bitmap, + num_hist_list_entries); + if (base < 0) + goto error; + + domain->total_hist_list_entries = num_hist_list_entries; + domain->avail_hist_list_entries = num_hist_list_entries; + domain->hist_list_entry_base = base; + domain->hist_list_entry_offset = 0; + + dlb2_bitmap_clear_range(bitmap, base, num_hist_list_entries); + } + return 0; + +error: + resp->status = DLB2_ST_HIST_LIST_ENTRIES_UNAVAILABLE; + return -EINVAL; +} + +static int dlb2_attach_ldb_queues(struct dlb2_hw *hw, + struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + u32 num_queues, + struct dlb2_cmd_response *resp) +{ + unsigned int i; + + if (rsrcs->num_avail_ldb_queues < num_queues) { + resp->status = DLB2_ST_LDB_QUEUES_UNAVAILABLE; + return -EINVAL; + } + + for (i = 0; i < num_queues; i++) { + struct dlb2_ldb_queue *queue; + + queue = DLB2_FUNC_LIST_HEAD(rsrcs->avail_ldb_queues, + typeof(*queue)); + if (queue == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: domain validation failed\n", + __func__); + return -EFAULT; + } + + dlb2_list_del(&rsrcs->avail_ldb_queues, &queue->func_list); + + queue->domain_id = domain->id; + queue->owned = true; + + dlb2_list_add(&domain->avail_ldb_queues, &queue->domain_list); + } + + rsrcs->num_avail_ldb_queues -= num_queues; + + return 0; +} + +static int +dlb2_domain_attach_resources(struct dlb2_hw *hw, + struct dlb2_function_resources *rsrcs, + struct dlb2_hw_domain *domain, + struct dlb2_create_sched_domain_args *args, + struct dlb2_cmd_response *resp) +{ + int ret; + + ret = dlb2_attach_ldb_queues(hw, + rsrcs, + domain, + args->num_ldb_queues, + resp); + if (ret) + return ret; + + ret = dlb2_attach_ldb_ports(hw, + rsrcs, + domain, + args, + resp); + if (ret) + return ret; + + ret = dlb2_attach_dir_ports(hw, + rsrcs, + domain, + args->num_dir_ports, + resp); + if (ret) + return ret; + + if (hw->ver == DLB2_HW_V2) { + ret = dlb2_attach_ldb_credits(rsrcs, + domain, + args->num_ldb_credits, + resp); + if (ret) + return ret; + + ret = dlb2_attach_dir_credits(rsrcs, + domain, + args->num_dir_credits, + resp); + if (ret) + return ret; + } else { /* DLB 2.5 */ + ret = dlb2_attach_credits(rsrcs, + domain, + args->num_credits, + resp); + if (ret) + return ret; + } + + ret = dlb2_attach_domain_hist_list_entries(rsrcs, + domain, + args->num_hist_list_entries, + resp); + if (ret) + return ret; + + ret = dlb2_attach_atomic_inflights(rsrcs, + domain, + args->num_atomic_inflights, + resp); + if (ret) + return ret; + + dlb2_configure_domain_credits(hw, domain); + + domain->configured = true; + + domain->started = false; + + rsrcs->num_avail_domains--; + + return 0; +} + +static int +dlb2_verify_create_sched_dom_args(struct dlb2_function_resources *rsrcs, + struct dlb2_create_sched_domain_args *args, + struct dlb2_cmd_response *resp, + struct dlb2_hw *hw, + struct dlb2_hw_domain **out_domain) +{ + u32 num_avail_ldb_ports, req_ldb_ports; + struct dlb2_bitmap *avail_hl_entries; + unsigned int max_contig_hl_range; + struct dlb2_hw_domain *domain; + int i; + + avail_hl_entries = rsrcs->avail_hist_list_entries; + + max_contig_hl_range = dlb2_bitmap_longest_set_range(avail_hl_entries); + + num_avail_ldb_ports = 0; + req_ldb_ports = 0; + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + num_avail_ldb_ports += rsrcs->num_avail_ldb_ports[i]; + + req_ldb_ports += args->num_cos_ldb_ports[i]; + } + + req_ldb_ports += args->num_ldb_ports; + + if (rsrcs->num_avail_domains < 1) { + resp->status = DLB2_ST_DOMAIN_UNAVAILABLE; + return -EINVAL; + } + + domain = DLB2_FUNC_LIST_HEAD(rsrcs->avail_domains, typeof(*domain)); + if (domain == NULL) { + resp->status = DLB2_ST_DOMAIN_UNAVAILABLE; + return -EFAULT; + } + + if (rsrcs->num_avail_ldb_queues < args->num_ldb_queues) { + resp->status = DLB2_ST_LDB_QUEUES_UNAVAILABLE; + return -EINVAL; + } + + if (req_ldb_ports > num_avail_ldb_ports) { + resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; + return -EINVAL; + } + + for (i = 0; args->cos_strict && i < DLB2_NUM_COS_DOMAINS; i++) { + if (args->num_cos_ldb_ports[i] > + rsrcs->num_avail_ldb_ports[i]) { + resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; + return -EINVAL; + } + } + + if (args->num_ldb_queues > 0 && req_ldb_ports == 0) { + resp->status = DLB2_ST_LDB_PORT_REQUIRED_FOR_LDB_QUEUES; + return -EINVAL; + } + + if (rsrcs->num_avail_dir_pq_pairs < args->num_dir_ports) { + resp->status = DLB2_ST_DIR_PORTS_UNAVAILABLE; + return -EINVAL; + } + if (hw->ver == DLB2_HW_V2_5) { + if (rsrcs->num_avail_entries < args->num_credits) { + resp->status = DLB2_ST_CREDITS_UNAVAILABLE; + return -EINVAL; + } + } else { + if (rsrcs->num_avail_qed_entries < args->num_ldb_credits) { + resp->status = DLB2_ST_LDB_CREDITS_UNAVAILABLE; + return -EINVAL; + } + if (rsrcs->num_avail_dqed_entries < args->num_dir_credits) { + resp->status = DLB2_ST_DIR_CREDITS_UNAVAILABLE; + return -EINVAL; + } + } + + if (rsrcs->num_avail_aqed_entries < args->num_atomic_inflights) { + resp->status = DLB2_ST_ATOMIC_INFLIGHTS_UNAVAILABLE; + return -EINVAL; + } + + if (max_contig_hl_range < args->num_hist_list_entries) { + resp->status = DLB2_ST_HIST_LIST_ENTRIES_UNAVAILABLE; + return -EINVAL; + } + + *out_domain = domain; + + return 0; +} + +static void +dlb2_log_create_sched_domain_args(struct dlb2_hw *hw, + struct dlb2_create_sched_domain_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 create sched domain arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tNumber of LDB queues: %d\n", + args->num_ldb_queues); + DLB2_HW_DBG(hw, "\tNumber of LDB ports (any CoS): %d\n", + args->num_ldb_ports); + DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 0): %d\n", + args->num_cos_ldb_ports[0]); + DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 1): %d\n", + args->num_cos_ldb_ports[1]); + DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 2): %d\n", + args->num_cos_ldb_ports[2]); + DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 3): %d\n", + args->num_cos_ldb_ports[3]); + DLB2_HW_DBG(hw, "\tStrict CoS allocation: %d\n", + args->cos_strict); + DLB2_HW_DBG(hw, "\tNumber of DIR ports: %d\n", + args->num_dir_ports); + DLB2_HW_DBG(hw, "\tNumber of ATM inflights: %d\n", + args->num_atomic_inflights); + DLB2_HW_DBG(hw, "\tNumber of hist list entries: %d\n", + args->num_hist_list_entries); + if (hw->ver == DLB2_HW_V2) { + DLB2_HW_DBG(hw, "\tNumber of LDB credits: %d\n", + args->num_ldb_credits); + DLB2_HW_DBG(hw, "\tNumber of DIR credits: %d\n", + args->num_dir_credits); + } else { + DLB2_HW_DBG(hw, "\tNumber of credits: %d\n", + args->num_credits); + } +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_function_resources *rsrcs; + struct dlb2_hw_domain *domain; + int ret; + + rsrcs = (vdev_req) ? &hw->vdev[vdev_id] : &hw->pf; + + dlb2_log_create_sched_domain_args(hw, args, vdev_req, vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_create_sched_dom_args(rsrcs, args, resp, hw, &domain); + if (ret) + return ret; + + dlb2_init_domain_rsrc_lists(domain); + + ret = dlb2_domain_attach_resources(hw, rsrcs, domain, args, resp); + if (ret) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to verify args.\n", + __func__); + + return ret; + } + + dlb2_list_del(&rsrcs->avail_domains, &domain->func_list); + + dlb2_list_add(&rsrcs->used_domains, &domain->func_list); + + resp->id = (vdev_req) ? domain->id.virt_id : domain->id.phys_id; + resp->status = 0; + + return 0; +} + +static void dlb2_dir_port_cq_disable(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *port) +{ + u32 reg = 0; + + DLB2_BIT_SET(reg, DLB2_LSP_CQ_DIR_DSBL_DISABLED); + DLB2_CSR_WR(hw, DLB2_LSP_CQ_DIR_DSBL(hw->ver, port->id.phys_id), reg); + + dlb2_flush_csr(hw); +} + +static u32 dlb2_dir_cq_token_count(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *port) +{ + u32 cnt; + + cnt = DLB2_CSR_RD(hw, + DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id)); + + /* + * Account for the initial token count, which is used in order to + * provide a CQ with depth less than 8. + */ + + return DLB2_BITS_GET(cnt, DLB2_LSP_CQ_DIR_TKN_CNT_COUNT) - + port->init_tkn_cnt; +} + +static void dlb2_drain_dir_cq(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *port) +{ + unsigned int port_id = port->id.phys_id; + u32 cnt; + + /* Return any outstanding tokens */ + cnt = dlb2_dir_cq_token_count(hw, port); + + if (cnt != 0) { + struct dlb2_hcw hcw_mem[8], *hcw; + void __iomem *pp_addr; + + pp_addr = os_map_producer_port(hw, port_id, false); + + /* Point hcw to a 64B-aligned location */ + hcw = (struct dlb2_hcw *)((uintptr_t)&hcw_mem[4] & ~0x3F); + + /* + * Program the first HCW for a batch token return and + * the rest as NOOPS + */ + memset(hcw, 0, 4 * sizeof(*hcw)); + hcw->cq_token = 1; + hcw->lock_id = cnt - 1; + + dlb2_movdir64b(pp_addr, hcw); + + os_fence_hcw(hw, pp_addr); + + os_unmap_producer_port(hw, pp_addr); + } +} + +static void dlb2_dir_port_cq_enable(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *port) +{ + u32 reg = 0; + + DLB2_CSR_WR(hw, DLB2_LSP_CQ_DIR_DSBL(hw->ver, port->id.phys_id), reg); + + dlb2_flush_csr(hw); +} + +static int dlb2_domain_drain_dir_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + bool toggle_port) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { + /* + * Can't drain a port if it's not configured, and there's + * nothing to drain if its queue is unconfigured. + */ + if (!port->port_configured || !port->queue_configured) + continue; + + if (toggle_port) + dlb2_dir_port_cq_disable(hw, port); + + dlb2_drain_dir_cq(hw, port); + + if (toggle_port) + dlb2_dir_port_cq_enable(hw, port); + } + + return 0; +} + +static u32 dlb2_dir_queue_depth(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *queue) +{ + u32 cnt; + + cnt = DLB2_CSR_RD(hw, DLB2_LSP_QID_DIR_ENQUEUE_CNT(hw->ver, + queue->id.phys_id)); + + return DLB2_BITS_GET(cnt, DLB2_LSP_QID_DIR_ENQUEUE_CNT_COUNT); +} + +static bool dlb2_dir_queue_is_empty(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *queue) +{ + return dlb2_dir_queue_depth(hw, queue) == 0; +} + +static bool dlb2_domain_dir_queues_empty(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *queue; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, queue, iter) { + if (!dlb2_dir_queue_is_empty(hw, queue)) + return false; + } + + return true; +} +static int dlb2_domain_drain_dir_queues(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + int i; + + /* If the domain hasn't been started, there's no traffic to drain */ + if (!domain->started) + return 0; + + for (i = 0; i < DLB2_MAX_QID_EMPTY_CHECK_LOOPS; i++) { + dlb2_domain_drain_dir_cqs(hw, domain, true); + + if (dlb2_domain_dir_queues_empty(hw, domain)) + break; + } + + if (i == DLB2_MAX_QID_EMPTY_CHECK_LOOPS) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to empty queues\n", + __func__); + return -EFAULT; + } + + /* + * Drain the CQs one more time. For the queues to go empty, they would + * have scheduled one or more QEs. + */ + dlb2_domain_drain_dir_cqs(hw, domain, true); + + return 0; +} + +static void dlb2_ldb_port_cq_enable(struct dlb2_hw *hw, + struct dlb2_ldb_port *port) +{ + u32 reg = 0; + + /* + * Don't re-enable the port if a removal is pending. The caller should + * mark this port as enabled (if it isn't already), and when the + * removal completes the port will be enabled. + */ + if (port->num_pending_removals) + return; + + DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_DSBL(hw->ver, port->id.phys_id), reg); + + dlb2_flush_csr(hw); +} + +static void dlb2_ldb_port_cq_disable(struct dlb2_hw *hw, + struct dlb2_ldb_port *port) +{ + u32 reg = 0; + + DLB2_BIT_SET(reg, DLB2_LSP_CQ_LDB_DSBL_DISABLED); + DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_DSBL(hw->ver, port->id.phys_id), reg); + + dlb2_flush_csr(hw); +} + +static u32 dlb2_ldb_cq_inflight_count(struct dlb2_hw *hw, + struct dlb2_ldb_port *port) +{ + u32 cnt; + + cnt = DLB2_CSR_RD(hw, + DLB2_LSP_CQ_LDB_INFL_CNT(hw->ver, port->id.phys_id)); + + return DLB2_BITS_GET(cnt, DLB2_LSP_CQ_LDB_INFL_CNT_COUNT); +} + +static u32 dlb2_ldb_cq_token_count(struct dlb2_hw *hw, + struct dlb2_ldb_port *port) +{ + u32 cnt; + + cnt = DLB2_CSR_RD(hw, + DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id)); + + /* + * Account for the initial token count, which is used in order to + * provide a CQ with depth less than 8. + */ + + return DLB2_BITS_GET(cnt, DLB2_LSP_CQ_LDB_TKN_CNT_TOKEN_COUNT) - + port->init_tkn_cnt; +} + +static void dlb2_drain_ldb_cq(struct dlb2_hw *hw, struct dlb2_ldb_port *port) +{ + u32 infl_cnt, tkn_cnt; + unsigned int i; + + infl_cnt = dlb2_ldb_cq_inflight_count(hw, port); + tkn_cnt = dlb2_ldb_cq_token_count(hw, port); + + if (infl_cnt || tkn_cnt) { + struct dlb2_hcw hcw_mem[8], *hcw; + void __iomem *pp_addr; + + pp_addr = os_map_producer_port(hw, port->id.phys_id, true); + + /* Point hcw to a 64B-aligned location */ + hcw = (struct dlb2_hcw *)((uintptr_t)&hcw_mem[4] & ~0x3F); + + /* + * Program the first HCW for a completion and token return and + * the other HCWs as NOOPS + */ + + memset(hcw, 0, 4 * sizeof(*hcw)); + hcw->qe_comp = (infl_cnt > 0); + hcw->cq_token = (tkn_cnt > 0); + hcw->lock_id = tkn_cnt - 1; + + /* Return tokens in the first HCW */ + dlb2_movdir64b(pp_addr, hcw); + + hcw->cq_token = 0; + + /* Issue remaining completions (if any) */ + for (i = 1; i < infl_cnt; i++) + dlb2_movdir64b(pp_addr, hcw); + + os_fence_hcw(hw, pp_addr); + + os_unmap_producer_port(hw, pp_addr); + } +} + +static void dlb2_domain_drain_ldb_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + bool toggle_port) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + /* If the domain hasn't been started, there's no traffic to drain */ + if (!domain->started) + return; + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + if (toggle_port) + dlb2_ldb_port_cq_disable(hw, port); + + dlb2_drain_ldb_cq(hw, port); + + if (toggle_port) + dlb2_ldb_port_cq_enable(hw, port); + } + } +} + +static u32 dlb2_ldb_queue_depth(struct dlb2_hw *hw, + struct dlb2_ldb_queue *queue) +{ + u32 aqed, ldb, atm; + + aqed = DLB2_CSR_RD(hw, DLB2_LSP_QID_AQED_ACTIVE_CNT(hw->ver, + queue->id.phys_id)); + ldb = DLB2_CSR_RD(hw, DLB2_LSP_QID_LDB_ENQUEUE_CNT(hw->ver, + queue->id.phys_id)); + atm = DLB2_CSR_RD(hw, + DLB2_LSP_QID_ATM_ACTIVE(hw->ver, queue->id.phys_id)); + + return DLB2_BITS_GET(aqed, DLB2_LSP_QID_AQED_ACTIVE_CNT_COUNT) + + DLB2_BITS_GET(ldb, DLB2_LSP_QID_LDB_ENQUEUE_CNT_COUNT) + + DLB2_BITS_GET(atm, DLB2_LSP_QID_ATM_ACTIVE_COUNT); +} + +static bool dlb2_ldb_queue_is_empty(struct dlb2_hw *hw, + struct dlb2_ldb_queue *queue) +{ + return dlb2_ldb_queue_depth(hw, queue) == 0; +} + +static bool dlb2_domain_mapped_queues_empty(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_queue *queue; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { + if (queue->num_mappings == 0) + continue; + + if (!dlb2_ldb_queue_is_empty(hw, queue)) + return false; + } + + return true; +} + +static int dlb2_domain_drain_mapped_queues(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + int i; + + /* If the domain hasn't been started, there's no traffic to drain */ + if (!domain->started) + return 0; + + if (domain->num_pending_removals > 0) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to unmap domain queues\n", + __func__); + return -EFAULT; + } + + for (i = 0; i < DLB2_MAX_QID_EMPTY_CHECK_LOOPS; i++) { + dlb2_domain_drain_ldb_cqs(hw, domain, true); + + if (dlb2_domain_mapped_queues_empty(hw, domain)) + break; + } + + if (i == DLB2_MAX_QID_EMPTY_CHECK_LOOPS) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to empty queues\n", + __func__); + return -EFAULT; + } + + /* + * Drain the CQs one more time. For the queues to go empty, they would + * have scheduled one or more QEs. + */ + dlb2_domain_drain_ldb_cqs(hw, domain, true); + + return 0; +} + +static void dlb2_domain_enable_ldb_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + port->enabled = true; + + dlb2_ldb_port_cq_enable(hw, port); + } + } +} + +static struct dlb2_ldb_queue * +dlb2_get_ldb_queue_from_id(struct dlb2_hw *hw, + u32 id, + bool vdev_req, + unsigned int vdev_id) +{ + struct dlb2_list_entry *iter1; + struct dlb2_list_entry *iter2; + struct dlb2_function_resources *rsrcs; + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + RTE_SET_USED(iter1); + RTE_SET_USED(iter2); + + if (id >= DLB2_MAX_NUM_LDB_QUEUES) + return NULL; + + rsrcs = (vdev_req) ? &hw->vdev[vdev_id] : &hw->pf; + + if (!vdev_req) + return &hw->rsrcs.ldb_queues[id]; + + DLB2_FUNC_LIST_FOR(rsrcs->used_domains, domain, iter1) { + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter2) { + if (queue->id.virt_id == id) + return queue; + } + } + + DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_queues, queue, iter1) { + if (queue->id.virt_id == id) + return queue; + } + + return NULL; +} + +static struct dlb2_hw_domain *dlb2_get_domain_from_id(struct dlb2_hw *hw, + u32 id, + bool vdev_req, + unsigned int vdev_id) +{ + struct dlb2_list_entry *iteration; + struct dlb2_function_resources *rsrcs; + struct dlb2_hw_domain *domain; + RTE_SET_USED(iteration); + + if (id >= DLB2_MAX_NUM_DOMAINS) + return NULL; + + if (!vdev_req) + return &hw->domains[id]; + + rsrcs = &hw->vdev[vdev_id]; + + DLB2_FUNC_LIST_FOR(rsrcs->used_domains, domain, iteration) { + if (domain->id.virt_id == id) + return domain; + } + + return NULL; +} + +static int dlb2_port_slot_state_transition(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue, + int slot, + enum dlb2_qid_map_state new_state) +{ + enum dlb2_qid_map_state curr_state = port->qid_map[slot].state; + struct dlb2_hw_domain *domain; + int domain_id; + + domain_id = port->domain_id.phys_id; + + domain = dlb2_get_domain_from_id(hw, domain_id, false, 0); + if (domain == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: unable to find domain %d\n", + __func__, domain_id); + return -EINVAL; + } + + switch (curr_state) { + case DLB2_QUEUE_UNMAPPED: + switch (new_state) { + case DLB2_QUEUE_MAPPED: + queue->num_mappings++; + port->num_mappings++; + break; + case DLB2_QUEUE_MAP_IN_PROG: + queue->num_pending_additions++; + domain->num_pending_additions++; + break; + default: + goto error; + } + break; + case DLB2_QUEUE_MAPPED: + switch (new_state) { + case DLB2_QUEUE_UNMAPPED: + queue->num_mappings--; + port->num_mappings--; + break; + case DLB2_QUEUE_UNMAP_IN_PROG: + port->num_pending_removals++; + domain->num_pending_removals++; + break; + case DLB2_QUEUE_MAPPED: + /* Priority change, nothing to update */ + break; + default: + goto error; + } + break; + case DLB2_QUEUE_MAP_IN_PROG: + switch (new_state) { + case DLB2_QUEUE_UNMAPPED: + queue->num_pending_additions--; + domain->num_pending_additions--; + break; + case DLB2_QUEUE_MAPPED: + queue->num_mappings++; + port->num_mappings++; + queue->num_pending_additions--; + domain->num_pending_additions--; + break; + default: + goto error; + } + break; + case DLB2_QUEUE_UNMAP_IN_PROG: + switch (new_state) { + case DLB2_QUEUE_UNMAPPED: + port->num_pending_removals--; + domain->num_pending_removals--; + queue->num_mappings--; + port->num_mappings--; + break; + case DLB2_QUEUE_MAPPED: + port->num_pending_removals--; + domain->num_pending_removals--; + break; + case DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP: + /* Nothing to update */ + break; + default: + goto error; + } + break; + case DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP: + switch (new_state) { + case DLB2_QUEUE_UNMAP_IN_PROG: + /* Nothing to update */ + break; + case DLB2_QUEUE_UNMAPPED: + /* + * An UNMAP_IN_PROG_PENDING_MAP slot briefly + * becomes UNMAPPED before it transitions to + * MAP_IN_PROG. + */ + queue->num_mappings--; + port->num_mappings--; + port->num_pending_removals--; + domain->num_pending_removals--; + break; + default: + goto error; + } + break; + default: + goto error; + } + + port->qid_map[slot].state = new_state; + + DLB2_HW_DBG(hw, + "[%s()] queue %d -> port %d state transition (%d -> %d)\n", + __func__, queue->id.phys_id, port->id.phys_id, + curr_state, new_state); + return 0; + +error: + DLB2_HW_ERR(hw, + "[%s()] Internal error: invalid queue %d -> port %d state transition (%d -> %d)\n", + __func__, queue->id.phys_id, port->id.phys_id, + curr_state, new_state); + return -EFAULT; +} + +static bool dlb2_port_find_slot(struct dlb2_ldb_port *port, + enum dlb2_qid_map_state state, + int *slot) +{ + int i; + + for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { + if (port->qid_map[i].state == state) + break; + } + + *slot = i; + + return (i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ); +} + +static bool dlb2_port_find_slot_queue(struct dlb2_ldb_port *port, + enum dlb2_qid_map_state state, + struct dlb2_ldb_queue *queue, + int *slot) +{ + int i; + + for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { + if (port->qid_map[i].state == state && + port->qid_map[i].qid == queue->id.phys_id) + break; + } + + *slot = i; + + return (i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ); +} + +/* + * dlb2_ldb_queue_{enable, disable}_mapped_cqs() don't operate exactly as + * their function names imply, and should only be called by the dynamic CQ + * mapping code. + */ +static void dlb2_ldb_queue_disable_mapped_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_queue *queue) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int slot, i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + enum dlb2_qid_map_state state = DLB2_QUEUE_MAPPED; + + if (!dlb2_port_find_slot_queue(port, state, + queue, &slot)) + continue; + + if (port->enabled) + dlb2_ldb_port_cq_disable(hw, port); + } + } +} + +static void dlb2_ldb_queue_enable_mapped_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_queue *queue) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int slot, i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + enum dlb2_qid_map_state state = DLB2_QUEUE_MAPPED; + + if (!dlb2_port_find_slot_queue(port, state, + queue, &slot)) + continue; + + if (port->enabled) + dlb2_ldb_port_cq_enable(hw, port); + } + } +} + +static void dlb2_ldb_port_clear_queue_if_status(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + int slot) +{ + u32 ctrl = 0; + + DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); + DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_INFLIGHT_OK_V); + + DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); + + dlb2_flush_csr(hw); +} + +static void dlb2_ldb_port_set_queue_if_status(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + int slot) +{ + u32 ctrl = 0; + + DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); + DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_VALUE); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_INFLIGHT_OK_V); + + DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); + + dlb2_flush_csr(hw); +} + +static int dlb2_ldb_port_map_qid_static(struct dlb2_hw *hw, + struct dlb2_ldb_port *p, + struct dlb2_ldb_queue *q, + u8 priority) +{ + enum dlb2_qid_map_state state; + u32 lsp_qid2cq2; + u32 lsp_qid2cq; + u32 atm_qid2cq; + u32 cq2priov; + u32 cq2qid; + int i; + + /* Look for a pending or already mapped slot, else an unused slot */ + if (!dlb2_port_find_slot_queue(p, DLB2_QUEUE_MAP_IN_PROG, q, &i) && + !dlb2_port_find_slot_queue(p, DLB2_QUEUE_MAPPED, q, &i) && + !dlb2_port_find_slot(p, DLB2_QUEUE_UNMAPPED, &i)) { + DLB2_HW_ERR(hw, + "[%s():%d] Internal error: CQ has no available QID mapping slots\n", + __func__, __LINE__); + return -EFAULT; + } + + /* Read-modify-write the priority and valid bit register */ + cq2priov = DLB2_CSR_RD(hw, DLB2_LSP_CQ2PRIOV(hw->ver, p->id.phys_id)); + + cq2priov |= (1 << (i + DLB2_LSP_CQ2PRIOV_V_LOC)) & DLB2_LSP_CQ2PRIOV_V; + cq2priov |= ((priority & 0x7) << (i + DLB2_LSP_CQ2PRIOV_PRIO_LOC) * 3) + & DLB2_LSP_CQ2PRIOV_PRIO; + + DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, p->id.phys_id), cq2priov); + + /* Read-modify-write the QID map register */ + if (i < 4) + cq2qid = DLB2_CSR_RD(hw, DLB2_LSP_CQ2QID0(hw->ver, + p->id.phys_id)); + else + cq2qid = DLB2_CSR_RD(hw, DLB2_LSP_CQ2QID1(hw->ver, + p->id.phys_id)); + + if (i == 0 || i == 4) + DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P0); + if (i == 1 || i == 5) + DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P1); + if (i == 2 || i == 6) + DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P2); + if (i == 3 || i == 7) + DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P3); + + if (i < 4) + DLB2_CSR_WR(hw, + DLB2_LSP_CQ2QID0(hw->ver, p->id.phys_id), cq2qid); + else + DLB2_CSR_WR(hw, + DLB2_LSP_CQ2QID1(hw->ver, p->id.phys_id), cq2qid); + + atm_qid2cq = DLB2_CSR_RD(hw, + DLB2_ATM_QID2CQIDIX(q->id.phys_id, + p->id.phys_id / 4)); + + lsp_qid2cq = DLB2_CSR_RD(hw, + DLB2_LSP_QID2CQIDIX(hw->ver, q->id.phys_id, + p->id.phys_id / 4)); + + lsp_qid2cq2 = DLB2_CSR_RD(hw, + DLB2_LSP_QID2CQIDIX2(hw->ver, q->id.phys_id, + p->id.phys_id / 4)); + + switch (p->id.phys_id % 4) { + case 0: + DLB2_BIT_SET(atm_qid2cq, + 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P0_LOC)); + DLB2_BIT_SET(lsp_qid2cq, + 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P0_LOC)); + DLB2_BIT_SET(lsp_qid2cq2, + 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P0_LOC)); + break; + + case 1: + DLB2_BIT_SET(atm_qid2cq, + 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P1_LOC)); + DLB2_BIT_SET(lsp_qid2cq, + 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P1_LOC)); + DLB2_BIT_SET(lsp_qid2cq2, + 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P1_LOC)); + break; + + case 2: + DLB2_BIT_SET(atm_qid2cq, + 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P2_LOC)); + DLB2_BIT_SET(lsp_qid2cq, + 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P2_LOC)); + DLB2_BIT_SET(lsp_qid2cq2, + 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P2_LOC)); + break; + + case 3: + DLB2_BIT_SET(atm_qid2cq, + 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P3_LOC)); + DLB2_BIT_SET(lsp_qid2cq, + 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P3_LOC)); + DLB2_BIT_SET(lsp_qid2cq2, + 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P3_LOC)); + break; + } + + DLB2_CSR_WR(hw, + DLB2_ATM_QID2CQIDIX(q->id.phys_id, p->id.phys_id / 4), + atm_qid2cq); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID2CQIDIX(hw->ver, + q->id.phys_id, p->id.phys_id / 4), + lsp_qid2cq); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID2CQIDIX2(hw->ver, + q->id.phys_id, p->id.phys_id / 4), + lsp_qid2cq2); + + dlb2_flush_csr(hw); + + p->qid_map[i].qid = q->id.phys_id; + p->qid_map[i].priority = priority; + + state = DLB2_QUEUE_MAPPED; + + return dlb2_port_slot_state_transition(hw, p, q, i, state); +} + +static int dlb2_ldb_port_set_has_work_bits(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue, + int slot) +{ + u32 ctrl = 0; + u32 active; + u32 enq; + + /* Set the atomic scheduling haswork bit */ + active = DLB2_CSR_RD(hw, DLB2_LSP_QID_AQED_ACTIVE_CNT(hw->ver, + queue->id.phys_id)); + + DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); + DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_VALUE); + DLB2_BITS_SET(ctrl, + DLB2_BITS_GET(active, + DLB2_LSP_QID_AQED_ACTIVE_CNT_COUNT) > 0, + DLB2_LSP_LDB_SCHED_CTRL_RLIST_HASWORK_V); + + /* Set the non-atomic scheduling haswork bit */ + DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); + + enq = DLB2_CSR_RD(hw, + DLB2_LSP_QID_LDB_ENQUEUE_CNT(hw->ver, + queue->id.phys_id)); + + memset(&ctrl, 0, sizeof(ctrl)); + + DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); + DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_VALUE); + DLB2_BITS_SET(ctrl, + DLB2_BITS_GET(enq, + DLB2_LSP_QID_LDB_ENQUEUE_CNT_COUNT) > 0, + DLB2_LSP_LDB_SCHED_CTRL_NALB_HASWORK_V); + + DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); + + dlb2_flush_csr(hw); + + return 0; +} + +static void dlb2_ldb_port_clear_has_work_bits(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + u8 slot) +{ + u32 ctrl = 0; + + DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); + DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_RLIST_HASWORK_V); + + DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); + + memset(&ctrl, 0, sizeof(ctrl)); + + DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); + DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); + DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_NALB_HASWORK_V); + + DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); + + dlb2_flush_csr(hw); +} + + +static void dlb2_ldb_queue_set_inflight_limit(struct dlb2_hw *hw, + struct dlb2_ldb_queue *queue) +{ + u32 infl_lim = 0; + + DLB2_BITS_SET(infl_lim, queue->num_qid_inflights, + DLB2_LSP_QID_LDB_INFL_LIM_LIMIT); + + DLB2_CSR_WR(hw, DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, queue->id.phys_id), + infl_lim); +} + +static void dlb2_ldb_queue_clear_inflight_limit(struct dlb2_hw *hw, + struct dlb2_ldb_queue *queue) +{ + DLB2_CSR_WR(hw, + DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, queue->id.phys_id), + DLB2_LSP_QID_LDB_INFL_LIM_RST); +} + +static int dlb2_ldb_port_finish_map_qid_dynamic(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue) +{ + struct dlb2_list_entry *iter; + enum dlb2_qid_map_state state; + int slot, ret, i; + u32 infl_cnt; + u8 prio; + RTE_SET_USED(iter); + + infl_cnt = DLB2_CSR_RD(hw, + DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, + queue->id.phys_id)); + + if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: non-zero QID inflight count\n", + __func__); + return -EINVAL; + } + + /* + * Static map the port and set its corresponding has_work bits. + */ + state = DLB2_QUEUE_MAP_IN_PROG; + if (!dlb2_port_find_slot_queue(port, state, queue, &slot)) + return -EINVAL; + + prio = port->qid_map[slot].priority; + + /* + * Update the CQ2QID, CQ2PRIOV, and QID2CQIDX registers, and + * the port's qid_map state. + */ + ret = dlb2_ldb_port_map_qid_static(hw, port, queue, prio); + if (ret) + return ret; + + ret = dlb2_ldb_port_set_has_work_bits(hw, port, queue, slot); + if (ret) + return ret; + + /* + * Ensure IF_status(cq,qid) is 0 before enabling the port to + * prevent spurious schedules to cause the queue's inflight + * count to increase. + */ + dlb2_ldb_port_clear_queue_if_status(hw, port, slot); + + /* Reset the queue's inflight status */ + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + state = DLB2_QUEUE_MAPPED; + if (!dlb2_port_find_slot_queue(port, state, + queue, &slot)) + continue; + + dlb2_ldb_port_set_queue_if_status(hw, port, slot); + } + } + + dlb2_ldb_queue_set_inflight_limit(hw, queue); + + /* Re-enable CQs mapped to this queue */ + dlb2_ldb_queue_enable_mapped_cqs(hw, domain, queue); + + /* If this queue has other mappings pending, clear its inflight limit */ + if (queue->num_pending_additions > 0) + dlb2_ldb_queue_clear_inflight_limit(hw, queue); + + return 0; +} + +/** + * dlb2_ldb_port_map_qid_dynamic() - perform a "dynamic" QID->CQ mapping + * @hw: dlb2_hw handle for a particular device. + * @port: load-balanced port + * @queue: load-balanced queue + * @priority: queue servicing priority + * + * Returns 0 if the queue was mapped, 1 if the mapping is scheduled to occur + * at a later point, and <0 if an error occurred. + */ +static int dlb2_ldb_port_map_qid_dynamic(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue, + u8 priority) +{ + enum dlb2_qid_map_state state; + struct dlb2_hw_domain *domain; + int domain_id, slot, ret; + u32 infl_cnt; + + domain_id = port->domain_id.phys_id; + + domain = dlb2_get_domain_from_id(hw, domain_id, false, 0); + if (domain == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: unable to find domain %d\n", + __func__, port->domain_id.phys_id); + return -EINVAL; + } + + /* + * Set the QID inflight limit to 0 to prevent further scheduling of the + * queue. + */ + DLB2_CSR_WR(hw, DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, + queue->id.phys_id), 0); + + if (!dlb2_port_find_slot(port, DLB2_QUEUE_UNMAPPED, &slot)) { + DLB2_HW_ERR(hw, + "Internal error: No available unmapped slots\n"); + return -EFAULT; + } + + port->qid_map[slot].qid = queue->id.phys_id; + port->qid_map[slot].priority = priority; + + state = DLB2_QUEUE_MAP_IN_PROG; + ret = dlb2_port_slot_state_transition(hw, port, queue, slot, state); + if (ret) + return ret; + + infl_cnt = DLB2_CSR_RD(hw, + DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, + queue->id.phys_id)); + + if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { + /* + * The queue is owed completions so it's not safe to map it + * yet. Schedule a kernel thread to complete the mapping later, + * once software has completed all the queue's inflight events. + */ + if (!os_worker_active(hw)) + os_schedule_work(hw); + + return 1; + } + + /* + * Disable the affected CQ, and the CQs already mapped to the QID, + * before reading the QID's inflight count a second time. There is an + * unlikely race in which the QID may schedule one more QE after we + * read an inflight count of 0, and disabling the CQs guarantees that + * the race will not occur after a re-read of the inflight count + * register. + */ + if (port->enabled) + dlb2_ldb_port_cq_disable(hw, port); + + dlb2_ldb_queue_disable_mapped_cqs(hw, domain, queue); + + infl_cnt = DLB2_CSR_RD(hw, + DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, + queue->id.phys_id)); + + if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { + if (port->enabled) + dlb2_ldb_port_cq_enable(hw, port); + + dlb2_ldb_queue_enable_mapped_cqs(hw, domain, queue); + + /* + * The queue is owed completions so it's not safe to map it + * yet. Schedule a kernel thread to complete the mapping later, + * once software has completed all the queue's inflight events. + */ + if (!os_worker_active(hw)) + os_schedule_work(hw); + + return 1; + } + + return dlb2_ldb_port_finish_map_qid_dynamic(hw, domain, port, queue); +} + +static void dlb2_domain_finish_map_port(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port) +{ + int i; + + for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { + u32 infl_cnt; + struct dlb2_ldb_queue *queue; + int qid; + + if (port->qid_map[i].state != DLB2_QUEUE_MAP_IN_PROG) + continue; + + qid = port->qid_map[i].qid; + + queue = dlb2_get_ldb_queue_from_id(hw, qid, false, 0); + + if (queue == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: unable to find queue %d\n", + __func__, qid); + continue; + } + + infl_cnt = DLB2_CSR_RD(hw, + DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, qid)); + + if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) + continue; + + /* + * Disable the affected CQ, and the CQs already mapped to the + * QID, before reading the QID's inflight count a second time. + * There is an unlikely race in which the QID may schedule one + * more QE after we read an inflight count of 0, and disabling + * the CQs guarantees that the race will not occur after a + * re-read of the inflight count register. + */ + if (port->enabled) + dlb2_ldb_port_cq_disable(hw, port); + + dlb2_ldb_queue_disable_mapped_cqs(hw, domain, queue); + + infl_cnt = DLB2_CSR_RD(hw, + DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, qid)); + + if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { + if (port->enabled) + dlb2_ldb_port_cq_enable(hw, port); + + dlb2_ldb_queue_enable_mapped_cqs(hw, domain, queue); + + continue; + } + + dlb2_ldb_port_finish_map_qid_dynamic(hw, domain, port, queue); + } +} + +static unsigned int +dlb2_domain_finish_map_qid_procedures(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + if (!domain->configured || domain->num_pending_additions == 0) + return 0; + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) + dlb2_domain_finish_map_port(hw, domain, port); + } + + return domain->num_pending_additions; +} + +static int dlb2_ldb_port_unmap_qid(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue) +{ + enum dlb2_qid_map_state mapped, in_progress, pending_map, unmapped; + u32 lsp_qid2cq2; + u32 lsp_qid2cq; + u32 atm_qid2cq; + u32 cq2priov; + u32 queue_id; + u32 port_id; + int i; + + /* Find the queue's slot */ + mapped = DLB2_QUEUE_MAPPED; + in_progress = DLB2_QUEUE_UNMAP_IN_PROG; + pending_map = DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP; + + if (!dlb2_port_find_slot_queue(port, mapped, queue, &i) && + !dlb2_port_find_slot_queue(port, in_progress, queue, &i) && + !dlb2_port_find_slot_queue(port, pending_map, queue, &i)) { + DLB2_HW_ERR(hw, + "[%s():%d] Internal error: QID %d isn't mapped\n", + __func__, __LINE__, queue->id.phys_id); + return -EFAULT; + } + + port_id = port->id.phys_id; + queue_id = queue->id.phys_id; + + /* Read-modify-write the priority and valid bit register */ + cq2priov = DLB2_CSR_RD(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port_id)); + + cq2priov &= ~(1 << (i + DLB2_LSP_CQ2PRIOV_V_LOC)); + + DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port_id), cq2priov); + + atm_qid2cq = DLB2_CSR_RD(hw, DLB2_ATM_QID2CQIDIX(queue_id, + port_id / 4)); + + lsp_qid2cq = DLB2_CSR_RD(hw, + DLB2_LSP_QID2CQIDIX(hw->ver, + queue_id, port_id / 4)); + + lsp_qid2cq2 = DLB2_CSR_RD(hw, + DLB2_LSP_QID2CQIDIX2(hw->ver, + queue_id, port_id / 4)); + + switch (port_id % 4) { + case 0: + atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P0_LOC)); + lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P0_LOC)); + lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P0_LOC)); + break; + + case 1: + atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P1_LOC)); + lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P1_LOC)); + lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P1_LOC)); + break; + + case 2: + atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P2_LOC)); + lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P2_LOC)); + lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P2_LOC)); + break; + + case 3: + atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P3_LOC)); + lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P3_LOC)); + lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P3_LOC)); + break; + } + + DLB2_CSR_WR(hw, DLB2_ATM_QID2CQIDIX(queue_id, port_id / 4), atm_qid2cq); + + DLB2_CSR_WR(hw, DLB2_LSP_QID2CQIDIX(hw->ver, queue_id, port_id / 4), + lsp_qid2cq); + + DLB2_CSR_WR(hw, DLB2_LSP_QID2CQIDIX2(hw->ver, queue_id, port_id / 4), + lsp_qid2cq2); + + dlb2_flush_csr(hw); + + unmapped = DLB2_QUEUE_UNMAPPED; + + return dlb2_port_slot_state_transition(hw, port, queue, i, unmapped); +} + +static int dlb2_ldb_port_map_qid(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue, + u8 prio) +{ + if (domain->started) + return dlb2_ldb_port_map_qid_dynamic(hw, port, queue, prio); + else + return dlb2_ldb_port_map_qid_static(hw, port, queue, prio); +} + +static void +dlb2_domain_finish_unmap_port_slot(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port, + int slot) +{ + enum dlb2_qid_map_state state; + struct dlb2_ldb_queue *queue; + + queue = &hw->rsrcs.ldb_queues[port->qid_map[slot].qid]; + + state = port->qid_map[slot].state; + + /* Update the QID2CQIDX and CQ2QID vectors */ + dlb2_ldb_port_unmap_qid(hw, port, queue); + + /* + * Ensure the QID will not be serviced by this {CQ, slot} by clearing + * the has_work bits + */ + dlb2_ldb_port_clear_has_work_bits(hw, port, slot); + + /* Reset the {CQ, slot} to its default state */ + dlb2_ldb_port_set_queue_if_status(hw, port, slot); + + /* Re-enable the CQ if it was not manually disabled by the user */ + if (port->enabled) + dlb2_ldb_port_cq_enable(hw, port); + + /* + * If there is a mapping that is pending this slot's removal, perform + * the mapping now. + */ + if (state == DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP) { + struct dlb2_ldb_port_qid_map *map; + struct dlb2_ldb_queue *map_queue; + u8 prio; + + map = &port->qid_map[slot]; + + map->qid = map->pending_qid; + map->priority = map->pending_priority; + + map_queue = &hw->rsrcs.ldb_queues[map->qid]; + prio = map->priority; + + dlb2_ldb_port_map_qid(hw, domain, port, map_queue, prio); + } +} + + +static bool dlb2_domain_finish_unmap_port(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port) +{ + u32 infl_cnt; + int i; + + if (port->num_pending_removals == 0) + return false; + + /* + * The unmap requires all the CQ's outstanding inflights to be + * completed. + */ + infl_cnt = DLB2_CSR_RD(hw, DLB2_LSP_CQ_LDB_INFL_CNT(hw->ver, + port->id.phys_id)); + if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_CQ_LDB_INFL_CNT_COUNT) > 0) + return false; + + for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { + struct dlb2_ldb_port_qid_map *map; + + map = &port->qid_map[i]; + + if (map->state != DLB2_QUEUE_UNMAP_IN_PROG && + map->state != DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP) + continue; + + dlb2_domain_finish_unmap_port_slot(hw, domain, port, i); + } + + return true; +} + +static unsigned int +dlb2_domain_finish_unmap_qid_procedures(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + if (!domain->configured || domain->num_pending_removals == 0) + return 0; + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) + dlb2_domain_finish_unmap_port(hw, domain, port); + } + + return domain->num_pending_removals; +} + +static void dlb2_domain_disable_ldb_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + port->enabled = false; + + dlb2_ldb_port_cq_disable(hw, port); + } + } +} + + +static void dlb2_log_reset_domain(struct dlb2_hw *hw, + u32 domain_id, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 reset domain:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); +} + +static void dlb2_domain_disable_dir_vpps(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + unsigned int vdev_id) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + u32 vpp_v = 0; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { + unsigned int offs; + u32 virt_id; + + if (hw->virt_mode == DLB2_VIRT_SRIOV) + virt_id = port->id.virt_id; + else + virt_id = port->id.phys_id; + + offs = vdev_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + virt_id; + + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VPP_V(offs), vpp_v); + } +} + +static void dlb2_domain_disable_ldb_vpps(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + unsigned int vdev_id) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + u32 vpp_v = 0; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + unsigned int offs; + u32 virt_id; + + if (hw->virt_mode == DLB2_VIRT_SRIOV) + virt_id = port->id.virt_id; + else + virt_id = port->id.phys_id; + + offs = vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; + + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP_V(offs), vpp_v); + } + } +} + +static void +dlb2_domain_disable_ldb_port_interrupts(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + u32 int_en = 0; + u32 wd_en = 0; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_INT_ENB(hw->ver, + port->id.phys_id), + int_en); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_WD_ENB(hw->ver, + port->id.phys_id), + wd_en); + } + } +} + +static void +dlb2_domain_disable_dir_port_interrupts(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + u32 int_en = 0; + u32 wd_en = 0; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_INT_ENB(hw->ver, port->id.phys_id), + int_en); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_WD_ENB(hw->ver, port->id.phys_id), + wd_en); + } +} + +static void +dlb2_domain_disable_ldb_queue_write_perms(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + int domain_offset = domain->id.phys_id * DLB2_MAX_NUM_LDB_QUEUES; + struct dlb2_list_entry *iter; + struct dlb2_ldb_queue *queue; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { + int idx = domain_offset + queue->id.phys_id; + + DLB2_CSR_WR(hw, DLB2_SYS_LDB_VASQID_V(idx), 0); + + if (queue->id.vdev_owned) { + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_QID2VQID(queue->id.phys_id), + 0); + + idx = queue->id.vdev_id * DLB2_MAX_NUM_LDB_QUEUES + + queue->id.virt_id; + + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID_V(idx), 0); + + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID2QID(idx), 0); + } + } +} + +static void +dlb2_domain_disable_dir_queue_write_perms(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *queue; + unsigned long max_ports; + int domain_offset; + RTE_SET_USED(iter); + + max_ports = DLB2_MAX_NUM_DIR_PORTS(hw->ver); + + domain_offset = domain->id.phys_id * max_ports; + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, queue, iter) { + int idx = domain_offset + queue->id.phys_id; + + DLB2_CSR_WR(hw, DLB2_SYS_DIR_VASQID_V(idx), 0); + + if (queue->id.vdev_owned) { + idx = queue->id.vdev_id * max_ports + queue->id.virt_id; + + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID_V(idx), 0); + + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID2QID(idx), 0); + } + } +} + +static void dlb2_domain_disable_ldb_seq_checks(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + u32 chk_en = 0; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + DLB2_CSR_WR(hw, + DLB2_CHP_SN_CHK_ENBL(hw->ver, + port->id.phys_id), + chk_en); + } + } +} + +static int dlb2_domain_wait_for_ldb_cqs_to_empty(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + int j; + + for (j = 0; j < DLB2_MAX_CQ_COMP_CHECK_LOOPS; j++) { + if (dlb2_ldb_cq_inflight_count(hw, port) == 0) + break; + } + + if (j == DLB2_MAX_CQ_COMP_CHECK_LOOPS) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to flush load-balanced port %d's completions.\n", + __func__, port->id.phys_id); + return -EFAULT; + } + } + } + + return 0; +} + +static void dlb2_domain_disable_dir_cqs(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { + port->enabled = false; + + dlb2_dir_port_cq_disable(hw, port); + } +} + +static void +dlb2_domain_disable_dir_producer_ports(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + u32 pp_v = 0; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_PP_V(port->id.phys_id), + pp_v); + } +} + +static void +dlb2_domain_disable_ldb_producer_ports(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + u32 pp_v = 0; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_PP_V(port->id.phys_id), + pp_v); + } + } +} + +static int dlb2_domain_verify_reset_success(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *dir_port; + struct dlb2_ldb_port *ldb_port; + struct dlb2_ldb_queue *queue; + int i; + RTE_SET_USED(iter); + + /* + * Confirm that all the domain's queue's inflight counts and AQED + * active counts are 0. + */ + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { + if (!dlb2_ldb_queue_is_empty(hw, queue)) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to empty ldb queue %d\n", + __func__, queue->id.phys_id); + return -EFAULT; + } + } + + /* Confirm that all the domain's CQs inflight and token counts are 0. */ + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], ldb_port, iter) { + if (dlb2_ldb_cq_inflight_count(hw, ldb_port) || + dlb2_ldb_cq_token_count(hw, ldb_port)) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to empty ldb port %d\n", + __func__, ldb_port->id.phys_id); + return -EFAULT; + } + } + } + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, dir_port, iter) { + if (!dlb2_dir_queue_is_empty(hw, dir_port)) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to empty dir queue %d\n", + __func__, dir_port->id.phys_id); + return -EFAULT; + } + + if (dlb2_dir_cq_token_count(hw, dir_port)) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: failed to empty dir port %d\n", + __func__, dir_port->id.phys_id); + return -EFAULT; + } + } + + return 0; +} + +static void __dlb2_domain_reset_ldb_port_registers(struct dlb2_hw *hw, + struct dlb2_ldb_port *port) +{ + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_PP2VAS(port->id.phys_id), + DLB2_SYS_LDB_PP2VAS_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ2VAS(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ2VAS_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_PP2VDEV(port->id.phys_id), + DLB2_SYS_LDB_PP2VDEV_RST); + + if (port->id.vdev_owned) { + unsigned int offs; + u32 virt_id; + + /* + * DLB uses producer port address bits 17:12 to determine the + * producer port ID. In Scalable IOV mode, PP accesses come + * through the PF MMIO window for the physical producer port, + * so for translation purposes the virtual and physical port + * IDs are equal. + */ + if (hw->virt_mode == DLB2_VIRT_SRIOV) + virt_id = port->id.virt_id; + else + virt_id = port->id.phys_id; + + offs = port->id.vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; + + DLB2_CSR_WR(hw, + DLB2_SYS_VF_LDB_VPP2PP(offs), + DLB2_SYS_VF_LDB_VPP2PP_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_VF_LDB_VPP_V(offs), + DLB2_SYS_VF_LDB_VPP_V_RST); + } + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_PP_V(port->id.phys_id), + DLB2_SYS_LDB_PP_V_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_DSBL(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_DSBL_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_DEPTH(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_DEPTH_RST); + + if (hw->ver != DLB2_HW_V2) + DLB2_CSR_WR(hw, + DLB2_LSP_CFG_CQ_LDB_WU_LIMIT(port->id.phys_id), + DLB2_LSP_CFG_CQ_LDB_WU_LIMIT_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_INFL_LIM(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_INFL_LIM_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_HIST_LIST_LIM(hw->ver, port->id.phys_id), + DLB2_CHP_HIST_LIST_LIM_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_HIST_LIST_BASE(hw->ver, port->id.phys_id), + DLB2_CHP_HIST_LIST_BASE_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_HIST_LIST_POP_PTR(hw->ver, port->id.phys_id), + DLB2_CHP_HIST_LIST_POP_PTR_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_HIST_LIST_PUSH_PTR(hw->ver, port->id.phys_id), + DLB2_CHP_HIST_LIST_PUSH_PTR_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_INT_DEPTH_THRSH(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_INT_DEPTH_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_TMR_THRSH(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_TMR_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_INT_ENB(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_INT_ENB_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_CQ_ISR(port->id.phys_id), + DLB2_SYS_LDB_CQ_ISR_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_WPTR(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_WPTR_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_TKN_CNT_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_CQ_ADDR_L(port->id.phys_id), + DLB2_SYS_LDB_CQ_ADDR_L_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_CQ_ADDR_U(port->id.phys_id), + DLB2_SYS_LDB_CQ_ADDR_U_RST); + + if (hw->ver == DLB2_HW_V2) + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_CQ_AT(port->id.phys_id), + DLB2_SYS_LDB_CQ_AT_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_CQ_PASID(hw->ver, port->id.phys_id), + DLB2_SYS_LDB_CQ_PASID_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_CQ2VF_PF_RO(port->id.phys_id), + DLB2_SYS_LDB_CQ2VF_PF_RO_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TOT_SCH_CNTL(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_TOT_SCH_CNTL_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TOT_SCH_CNTH(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_TOT_SCH_CNTH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ2QID0(hw->ver, port->id.phys_id), + DLB2_LSP_CQ2QID0_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ2QID1(hw->ver, port->id.phys_id), + DLB2_LSP_CQ2QID1_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id), + DLB2_LSP_CQ2PRIOV_RST); +} + +static void dlb2_domain_reset_ldb_port_registers(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) + __dlb2_domain_reset_ldb_port_registers(hw, port); + } +} + +static void +__dlb2_domain_reset_dir_port_registers(struct dlb2_hw *hw, + struct dlb2_dir_pq_pair *port) +{ + u32 reg = 0; + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ2VAS(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ2VAS_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_DSBL(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_DIR_DSBL_RST); + + DLB2_BIT_SET(reg, DLB2_SYS_WB_DIR_CQ_STATE_CQ_OPT_CLR); + + if (hw->ver == DLB2_HW_V2) + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_OPT_CLR, port->id.phys_id); + else + DLB2_CSR_WR(hw, + DLB2_SYS_WB_DIR_CQ_STATE(port->id.phys_id), reg); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_DEPTH(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_DEPTH_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_INT_DEPTH_THRSH(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_INT_DEPTH_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_TMR_THRSH(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_TMR_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_INT_ENB(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_INT_ENB_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_ISR(port->id.phys_id), + DLB2_SYS_DIR_CQ_ISR_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI(hw->ver, + port->id.phys_id), + DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_WPTR(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_WPTR_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_DIR_TKN_CNT_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_ADDR_L(port->id.phys_id), + DLB2_SYS_DIR_CQ_ADDR_L_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_ADDR_U(port->id.phys_id), + DLB2_SYS_DIR_CQ_ADDR_U_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_AT(port->id.phys_id), + DLB2_SYS_DIR_CQ_AT_RST); + + if (hw->ver == DLB2_HW_V2) + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_AT(port->id.phys_id), + DLB2_SYS_DIR_CQ_AT_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_PASID(hw->ver, port->id.phys_id), + DLB2_SYS_DIR_CQ_PASID_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ_FMT(port->id.phys_id), + DLB2_SYS_DIR_CQ_FMT_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_CQ2VF_PF_RO(port->id.phys_id), + DLB2_SYS_DIR_CQ2VF_PF_RO_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TOT_SCH_CNTL(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_DIR_TOT_SCH_CNTL_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TOT_SCH_CNTH(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_DIR_TOT_SCH_CNTH_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_PP2VAS(port->id.phys_id), + DLB2_SYS_DIR_PP2VAS_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ2VAS(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ2VAS_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_PP2VDEV(port->id.phys_id), + DLB2_SYS_DIR_PP2VDEV_RST); + + if (port->id.vdev_owned) { + unsigned int offs; + u32 virt_id; + + /* + * DLB uses producer port address bits 17:12 to determine the + * producer port ID. In Scalable IOV mode, PP accesses come + * through the PF MMIO window for the physical producer port, + * so for translation purposes the virtual and physical port + * IDs are equal. + */ + if (hw->virt_mode == DLB2_VIRT_SRIOV) + virt_id = port->id.virt_id; + else + virt_id = port->id.phys_id; + + offs = port->id.vdev_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + + virt_id; + + DLB2_CSR_WR(hw, + DLB2_SYS_VF_DIR_VPP2PP(offs), + DLB2_SYS_VF_DIR_VPP2PP_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_VF_DIR_VPP_V(offs), + DLB2_SYS_VF_DIR_VPP_V_RST); + } + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_PP_V(port->id.phys_id), + DLB2_SYS_DIR_PP_V_RST); +} + +static void dlb2_domain_reset_dir_port_registers(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) + __dlb2_domain_reset_dir_port_registers(hw, port); +} + +static void dlb2_domain_reset_ldb_queue_registers(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_queue *queue; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { + unsigned int queue_id = queue->id.phys_id; + int i; + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_NALDB_TOT_ENQ_CNTL(hw->ver, queue_id), + DLB2_LSP_QID_NALDB_TOT_ENQ_CNTL_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_NALDB_TOT_ENQ_CNTH(hw->ver, queue_id), + DLB2_LSP_QID_NALDB_TOT_ENQ_CNTH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_ATM_TOT_ENQ_CNTL(hw->ver, queue_id), + DLB2_LSP_QID_ATM_TOT_ENQ_CNTL_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_ATM_TOT_ENQ_CNTH(hw->ver, queue_id), + DLB2_LSP_QID_ATM_TOT_ENQ_CNTH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_NALDB_MAX_DEPTH(hw->ver, queue_id), + DLB2_LSP_QID_NALDB_MAX_DEPTH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, queue_id), + DLB2_LSP_QID_LDB_INFL_LIM_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_AQED_ACTIVE_LIM(hw->ver, queue_id), + DLB2_LSP_QID_AQED_ACTIVE_LIM_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_ATM_DEPTH_THRSH(hw->ver, queue_id), + DLB2_LSP_QID_ATM_DEPTH_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_NALDB_DEPTH_THRSH(hw->ver, queue_id), + DLB2_LSP_QID_NALDB_DEPTH_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_QID_ITS(queue_id), + DLB2_SYS_LDB_QID_ITS_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_ORD_QID_SN(hw->ver, queue_id), + DLB2_CHP_ORD_QID_SN_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_ORD_QID_SN_MAP(hw->ver, queue_id), + DLB2_CHP_ORD_QID_SN_MAP_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_QID_V(queue_id), + DLB2_SYS_LDB_QID_V_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_LDB_QID_CFG_V(queue_id), + DLB2_SYS_LDB_QID_CFG_V_RST); + + if (queue->sn_cfg_valid) { + u32 offs[2]; + + offs[0] = DLB2_RO_GRP_0_SLT_SHFT(hw->ver, + queue->sn_slot); + offs[1] = DLB2_RO_GRP_1_SLT_SHFT(hw->ver, + queue->sn_slot); + + DLB2_CSR_WR(hw, + offs[queue->sn_group], + DLB2_RO_GRP_0_SLT_SHFT_RST); + } + + for (i = 0; i < DLB2_LSP_QID2CQIDIX_NUM; i++) { + DLB2_CSR_WR(hw, + DLB2_LSP_QID2CQIDIX(hw->ver, queue_id, i), + DLB2_LSP_QID2CQIDIX_00_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID2CQIDIX2(hw->ver, queue_id, i), + DLB2_LSP_QID2CQIDIX2_00_RST); + + DLB2_CSR_WR(hw, + DLB2_ATM_QID2CQIDIX(queue_id, i), + DLB2_ATM_QID2CQIDIX_00_RST); + } + } +} + +static void dlb2_domain_reset_dir_queue_registers(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *queue; + RTE_SET_USED(iter); + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, queue, iter) { + DLB2_CSR_WR(hw, + DLB2_LSP_QID_DIR_MAX_DEPTH(hw->ver, + queue->id.phys_id), + DLB2_LSP_QID_DIR_MAX_DEPTH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_DIR_TOT_ENQ_CNTL(hw->ver, + queue->id.phys_id), + DLB2_LSP_QID_DIR_TOT_ENQ_CNTL_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_DIR_TOT_ENQ_CNTH(hw->ver, + queue->id.phys_id), + DLB2_LSP_QID_DIR_TOT_ENQ_CNTH_RST); + + DLB2_CSR_WR(hw, + DLB2_LSP_QID_DIR_DEPTH_THRSH(hw->ver, + queue->id.phys_id), + DLB2_LSP_QID_DIR_DEPTH_THRSH_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_QID_ITS(queue->id.phys_id), + DLB2_SYS_DIR_QID_ITS_RST); + + DLB2_CSR_WR(hw, + DLB2_SYS_DIR_QID_V(queue->id.phys_id), + DLB2_SYS_DIR_QID_V_RST); + } +} + + + + + +static void dlb2_domain_reset_registers(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + dlb2_domain_reset_ldb_port_registers(hw, domain); + + dlb2_domain_reset_dir_port_registers(hw, domain); + + dlb2_domain_reset_ldb_queue_registers(hw, domain); + + dlb2_domain_reset_dir_queue_registers(hw, domain); + + if (hw->ver == DLB2_HW_V2) { + DLB2_CSR_WR(hw, + DLB2_CHP_CFG_LDB_VAS_CRD(domain->id.phys_id), + DLB2_CHP_CFG_LDB_VAS_CRD_RST); + + DLB2_CSR_WR(hw, + DLB2_CHP_CFG_DIR_VAS_CRD(domain->id.phys_id), + DLB2_CHP_CFG_DIR_VAS_CRD_RST); + } else + DLB2_CSR_WR(hw, + DLB2_CHP_CFG_VAS_CRD(domain->id.phys_id), + DLB2_CHP_CFG_VAS_CRD_RST); +} + +static int dlb2_domain_reset_software_state(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_dir_pq_pair *tmp_dir_port; + struct dlb2_ldb_queue *tmp_ldb_queue; + struct dlb2_ldb_port *tmp_ldb_port; + struct dlb2_list_entry *iter1; + struct dlb2_list_entry *iter2; + struct dlb2_function_resources *rsrcs; + struct dlb2_dir_pq_pair *dir_port; + struct dlb2_ldb_queue *ldb_queue; + struct dlb2_ldb_port *ldb_port; + struct dlb2_list_head *list; + int ret, i; + RTE_SET_USED(tmp_dir_port); + RTE_SET_USED(tmp_ldb_queue); + RTE_SET_USED(tmp_ldb_port); + RTE_SET_USED(iter1); + RTE_SET_USED(iter2); + + rsrcs = domain->parent_func; + + /* Move the domain's ldb queues to the function's avail list */ + list = &domain->used_ldb_queues; + DLB2_DOM_LIST_FOR_SAFE(*list, ldb_queue, tmp_ldb_queue, iter1, iter2) { + if (ldb_queue->sn_cfg_valid) { + struct dlb2_sn_group *grp; + + grp = &hw->rsrcs.sn_groups[ldb_queue->sn_group]; + + dlb2_sn_group_free_slot(grp, ldb_queue->sn_slot); + ldb_queue->sn_cfg_valid = false; + } + + ldb_queue->owned = false; + ldb_queue->num_mappings = 0; + ldb_queue->num_pending_additions = 0; + + dlb2_list_del(&domain->used_ldb_queues, + &ldb_queue->domain_list); + dlb2_list_add(&rsrcs->avail_ldb_queues, + &ldb_queue->func_list); + rsrcs->num_avail_ldb_queues++; + } + + list = &domain->avail_ldb_queues; + DLB2_DOM_LIST_FOR_SAFE(*list, ldb_queue, tmp_ldb_queue, iter1, iter2) { + ldb_queue->owned = false; + + dlb2_list_del(&domain->avail_ldb_queues, + &ldb_queue->domain_list); + dlb2_list_add(&rsrcs->avail_ldb_queues, + &ldb_queue->func_list); + rsrcs->num_avail_ldb_queues++; + } + + /* Move the domain's ldb ports to the function's avail list */ + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + list = &domain->used_ldb_ports[i]; + DLB2_DOM_LIST_FOR_SAFE(*list, ldb_port, tmp_ldb_port, + iter1, iter2) { + int j; + + ldb_port->owned = false; + ldb_port->configured = false; + ldb_port->num_pending_removals = 0; + ldb_port->num_mappings = 0; + ldb_port->init_tkn_cnt = 0; + ldb_port->cq_depth = 0; + for (j = 0; j < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; j++) + ldb_port->qid_map[j].state = + DLB2_QUEUE_UNMAPPED; + + dlb2_list_del(&domain->used_ldb_ports[i], + &ldb_port->domain_list); + dlb2_list_add(&rsrcs->avail_ldb_ports[i], + &ldb_port->func_list); + rsrcs->num_avail_ldb_ports[i]++; + } + + list = &domain->avail_ldb_ports[i]; + DLB2_DOM_LIST_FOR_SAFE(*list, ldb_port, tmp_ldb_port, + iter1, iter2) { + ldb_port->owned = false; + + dlb2_list_del(&domain->avail_ldb_ports[i], + &ldb_port->domain_list); + dlb2_list_add(&rsrcs->avail_ldb_ports[i], + &ldb_port->func_list); + rsrcs->num_avail_ldb_ports[i]++; + } + } + + /* Move the domain's dir ports to the function's avail list */ + list = &domain->used_dir_pq_pairs; + DLB2_DOM_LIST_FOR_SAFE(*list, dir_port, tmp_dir_port, iter1, iter2) { + dir_port->owned = false; + dir_port->port_configured = false; + dir_port->init_tkn_cnt = 0; + + dlb2_list_del(&domain->used_dir_pq_pairs, + &dir_port->domain_list); + + dlb2_list_add(&rsrcs->avail_dir_pq_pairs, + &dir_port->func_list); + rsrcs->num_avail_dir_pq_pairs++; + } + + list = &domain->avail_dir_pq_pairs; + DLB2_DOM_LIST_FOR_SAFE(*list, dir_port, tmp_dir_port, iter1, iter2) { + dir_port->owned = false; + + dlb2_list_del(&domain->avail_dir_pq_pairs, + &dir_port->domain_list); + + dlb2_list_add(&rsrcs->avail_dir_pq_pairs, + &dir_port->func_list); + rsrcs->num_avail_dir_pq_pairs++; + } + + /* Return hist list entries to the function */ + ret = dlb2_bitmap_set_range(rsrcs->avail_hist_list_entries, + domain->hist_list_entry_base, + domain->total_hist_list_entries); + if (ret) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: domain hist list base does not match the function's bitmap.\n", + __func__); + return ret; + } + + domain->total_hist_list_entries = 0; + domain->avail_hist_list_entries = 0; + domain->hist_list_entry_base = 0; + domain->hist_list_entry_offset = 0; + + if (hw->ver == DLB2_HW_V2_5) { + rsrcs->num_avail_entries += domain->num_credits; + domain->num_credits = 0; + } else { + rsrcs->num_avail_qed_entries += domain->num_ldb_credits; + domain->num_ldb_credits = 0; + + rsrcs->num_avail_dqed_entries += domain->num_dir_credits; + domain->num_dir_credits = 0; + } + rsrcs->num_avail_aqed_entries += domain->num_avail_aqed_entries; + rsrcs->num_avail_aqed_entries += domain->num_used_aqed_entries; + domain->num_avail_aqed_entries = 0; + domain->num_used_aqed_entries = 0; + + domain->num_pending_removals = 0; + domain->num_pending_additions = 0; + domain->configured = false; + domain->started = false; + + /* + * Move the domain out of the used_domains list and back to the + * function's avail_domains list. + */ + dlb2_list_del(&rsrcs->used_domains, &domain->func_list); + dlb2_list_add(&rsrcs->avail_domains, &domain->func_list); + rsrcs->num_avail_domains++; + + return 0; +} + +static int dlb2_domain_drain_unmapped_queue(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_queue *queue) +{ + struct dlb2_ldb_port *port = NULL; + int ret, i; + + /* If a domain has LDB queues, it must have LDB ports */ + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + port = DLB2_DOM_LIST_HEAD(domain->used_ldb_ports[i], + typeof(*port)); + if (port) + break; + } + + if (port == NULL) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: No configured LDB ports\n", + __func__); + return -EFAULT; + } + + /* If necessary, free up a QID slot in this CQ */ + if (port->num_mappings == DLB2_MAX_NUM_QIDS_PER_LDB_CQ) { + struct dlb2_ldb_queue *mapped_queue; + + mapped_queue = &hw->rsrcs.ldb_queues[port->qid_map[0].qid]; + + ret = dlb2_ldb_port_unmap_qid(hw, port, mapped_queue); + if (ret) + return ret; + } + + ret = dlb2_ldb_port_map_qid_dynamic(hw, port, queue, 0); + if (ret) + return ret; + + return dlb2_domain_drain_mapped_queues(hw, domain); +} + +static int dlb2_domain_drain_unmapped_queues(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_queue *queue; + int ret; + RTE_SET_USED(iter); + + /* If the domain hasn't been started, there's no traffic to drain */ + if (!domain->started) + return 0; + + /* + * Pre-condition: the unattached queue must not have any outstanding + * completions. This is ensured by calling dlb2_domain_drain_ldb_cqs() + * prior to this in dlb2_domain_drain_mapped_queues(). + */ + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { + if (queue->num_mappings != 0 || + dlb2_ldb_queue_is_empty(hw, queue)) + continue; + + ret = dlb2_domain_drain_unmapped_queue(hw, domain, queue); + if (ret) + return ret; + } + + return 0; +} + +/** + * dlb2_reset_domain() - reset a scheduling domain + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @vdev_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + int ret; + + dlb2_log_reset_domain(hw, domain_id, vdev_req, vdev_id); + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (domain == NULL || !domain->configured) + return -EINVAL; + + /* Disable VPPs */ + if (vdev_req) { + dlb2_domain_disable_dir_vpps(hw, domain, vdev_id); + + dlb2_domain_disable_ldb_vpps(hw, domain, vdev_id); + } + + /* Disable CQ interrupts */ + dlb2_domain_disable_dir_port_interrupts(hw, domain); + + dlb2_domain_disable_ldb_port_interrupts(hw, domain); + + /* + * For each queue owned by this domain, disable its write permissions to + * cause any traffic sent to it to be dropped. Well-behaved software + * should not be sending QEs at this point. + */ + dlb2_domain_disable_dir_queue_write_perms(hw, domain); + + dlb2_domain_disable_ldb_queue_write_perms(hw, domain); + + /* Turn off completion tracking on all the domain's PPs. */ + dlb2_domain_disable_ldb_seq_checks(hw, domain); + + /* + * Disable the LDB CQs and drain them in order to complete the map and + * unmap procedures, which require zero CQ inflights and zero QID + * inflights respectively. + */ + dlb2_domain_disable_ldb_cqs(hw, domain); + + dlb2_domain_drain_ldb_cqs(hw, domain, false); + + ret = dlb2_domain_wait_for_ldb_cqs_to_empty(hw, domain); + if (ret) + return ret; + + ret = dlb2_domain_finish_unmap_qid_procedures(hw, domain); + if (ret) + return ret; + + ret = dlb2_domain_finish_map_qid_procedures(hw, domain); + if (ret) + return ret; + + /* Re-enable the CQs in order to drain the mapped queues. */ + dlb2_domain_enable_ldb_cqs(hw, domain); + + ret = dlb2_domain_drain_mapped_queues(hw, domain); + if (ret) + return ret; + + ret = dlb2_domain_drain_unmapped_queues(hw, domain); + if (ret) + return ret; + + /* Done draining LDB QEs, so disable the CQs. */ + dlb2_domain_disable_ldb_cqs(hw, domain); + + dlb2_domain_drain_dir_queues(hw, domain); + + /* Done draining DIR QEs, so disable the CQs. */ + dlb2_domain_disable_dir_cqs(hw, domain); + + /* Disable PPs */ + dlb2_domain_disable_dir_producer_ports(hw, domain); + + dlb2_domain_disable_ldb_producer_ports(hw, domain); + + ret = dlb2_domain_verify_reset_success(hw, domain); + if (ret) + return ret; + + /* Reset the QID and port state. */ + dlb2_domain_reset_registers(hw, domain); + + /* Hardware reset complete. Reset the domain's software state */ + return dlb2_domain_reset_software_state(hw, domain); +} + +static void +dlb2_log_create_ldb_queue_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_ldb_queue_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 create load-balanced queue arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", + domain_id); + DLB2_HW_DBG(hw, "\tNumber of sequence numbers: %d\n", + args->num_sequence_numbers); + DLB2_HW_DBG(hw, "\tNumber of QID inflights: %d\n", + args->num_qid_inflights); + DLB2_HW_DBG(hw, "\tNumber of ATM inflights: %d\n", + args->num_atomic_inflights); +} + +static int +dlb2_ldb_queue_attach_to_sn_group(struct dlb2_hw *hw, + struct dlb2_ldb_queue *queue, + struct dlb2_create_ldb_queue_args *args) +{ + int slot = -1; + int i; + + queue->sn_cfg_valid = false; + + if (args->num_sequence_numbers == 0) + return 0; + + for (i = 0; i < DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS; i++) { + struct dlb2_sn_group *group = &hw->rsrcs.sn_groups[i]; + + if (group->sequence_numbers_per_queue == + args->num_sequence_numbers && + !dlb2_sn_group_full(group)) { + slot = dlb2_sn_group_alloc_slot(group); + if (slot >= 0) + break; + } + } + + if (slot == -1) { + DLB2_HW_ERR(hw, + "[%s():%d] Internal error: no sequence number slots available\n", + __func__, __LINE__); + return -EFAULT; + } + + queue->sn_cfg_valid = true; + queue->sn_group = i; + queue->sn_slot = slot; + return 0; +} + +static int +dlb2_verify_create_ldb_queue_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_ldb_queue_args *args, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain, + struct dlb2_ldb_queue **out_queue) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + int i; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + if (domain->started) { + resp->status = DLB2_ST_DOMAIN_STARTED; + return -EINVAL; + } + + queue = DLB2_DOM_LIST_HEAD(domain->avail_ldb_queues, typeof(*queue)); + if (!queue) { + resp->status = DLB2_ST_LDB_QUEUES_UNAVAILABLE; + return -EINVAL; + } + + if (args->num_sequence_numbers) { + for (i = 0; i < DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS; i++) { + struct dlb2_sn_group *group = &hw->rsrcs.sn_groups[i]; + + if (group->sequence_numbers_per_queue == + args->num_sequence_numbers && + !dlb2_sn_group_full(group)) + break; + } + + if (i == DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) { + resp->status = DLB2_ST_SEQUENCE_NUMBERS_UNAVAILABLE; + return -EINVAL; + } + } + + if (args->num_qid_inflights > 4096) { + resp->status = DLB2_ST_INVALID_QID_INFLIGHT_ALLOCATION; + return -EINVAL; + } + + /* Inflights must be <= number of sequence numbers if ordered */ + if (args->num_sequence_numbers != 0 && + args->num_qid_inflights > args->num_sequence_numbers) { + resp->status = DLB2_ST_INVALID_QID_INFLIGHT_ALLOCATION; + return -EINVAL; + } + + if (domain->num_avail_aqed_entries < args->num_atomic_inflights) { + resp->status = DLB2_ST_ATOMIC_INFLIGHTS_UNAVAILABLE; + return -EINVAL; + } + + if (args->num_atomic_inflights && + args->lock_id_comp_level != 0 && + args->lock_id_comp_level != 64 && + args->lock_id_comp_level != 128 && + args->lock_id_comp_level != 256 && + args->lock_id_comp_level != 512 && + args->lock_id_comp_level != 1024 && + args->lock_id_comp_level != 2048 && + args->lock_id_comp_level != 4096 && + args->lock_id_comp_level != 65536) { + resp->status = DLB2_ST_INVALID_LOCK_ID_COMP_LEVEL; + return -EINVAL; + } + + *out_domain = domain; + *out_queue = queue; + + return 0; +} + +static int +dlb2_ldb_queue_attach_resources(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_queue *queue, + struct dlb2_create_ldb_queue_args *args) +{ + int ret; + ret = dlb2_ldb_queue_attach_to_sn_group(hw, queue, args); + if (ret) + return ret; + + /* Attach QID inflights */ + queue->num_qid_inflights = args->num_qid_inflights; + + /* Attach atomic inflights */ + queue->aqed_limit = args->num_atomic_inflights; + + domain->num_avail_aqed_entries -= args->num_atomic_inflights; + domain->num_used_aqed_entries += args->num_atomic_inflights; + + return 0; +} + +static void dlb2_configure_ldb_queue(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_queue *queue, + struct dlb2_create_ldb_queue_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + struct dlb2_sn_group *sn_group; + unsigned int offs; + u32 reg = 0; + u32 alimit; + + /* QID write permissions are turned on when the domain is started */ + offs = domain->id.phys_id * DLB2_MAX_NUM_LDB_QUEUES + queue->id.phys_id; + + DLB2_CSR_WR(hw, DLB2_SYS_LDB_VASQID_V(offs), reg); + + /* + * Unordered QIDs get 4K inflights, ordered get as many as the number + * of sequence numbers. + */ + DLB2_BITS_SET(reg, args->num_qid_inflights, + DLB2_LSP_QID_LDB_INFL_LIM_LIMIT); + DLB2_CSR_WR(hw, DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, + queue->id.phys_id), reg); + + alimit = queue->aqed_limit; + + if (alimit > DLB2_MAX_NUM_AQED_ENTRIES) + alimit = DLB2_MAX_NUM_AQED_ENTRIES; + + reg = 0; + DLB2_BITS_SET(reg, alimit, DLB2_LSP_QID_AQED_ACTIVE_LIM_LIMIT); + DLB2_CSR_WR(hw, + DLB2_LSP_QID_AQED_ACTIVE_LIM(hw->ver, + queue->id.phys_id), reg); + + reg = 0; + switch (args->lock_id_comp_level) { + case 64: + DLB2_BITS_SET(reg, 1, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + case 128: + DLB2_BITS_SET(reg, 2, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + case 256: + DLB2_BITS_SET(reg, 3, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + case 512: + DLB2_BITS_SET(reg, 4, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + case 1024: + DLB2_BITS_SET(reg, 5, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + case 2048: + DLB2_BITS_SET(reg, 6, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + case 4096: + DLB2_BITS_SET(reg, 7, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); + break; + default: + /* No compression by default */ + break; + } + + DLB2_CSR_WR(hw, DLB2_AQED_QID_HID_WIDTH(queue->id.phys_id), reg); + + reg = 0; + /* Don't timestamp QEs that pass through this queue */ + DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID_ITS(queue->id.phys_id), reg); + + DLB2_BITS_SET(reg, args->depth_threshold, + DLB2_LSP_QID_ATM_DEPTH_THRSH_THRESH); + DLB2_CSR_WR(hw, + DLB2_LSP_QID_ATM_DEPTH_THRSH(hw->ver, + queue->id.phys_id), reg); + + reg = 0; + DLB2_BITS_SET(reg, args->depth_threshold, + DLB2_LSP_QID_NALDB_DEPTH_THRSH_THRESH); + DLB2_CSR_WR(hw, + DLB2_LSP_QID_NALDB_DEPTH_THRSH(hw->ver, queue->id.phys_id), + reg); + + /* + * This register limits the number of inflight flows a queue can have + * at one time. It has an upper bound of 2048, but can be + * over-subscribed. 512 is chosen so that a single queue does not use + * the entire atomic storage, but can use a substantial portion if + * needed. + */ + reg = 0; + DLB2_BITS_SET(reg, 512, DLB2_AQED_QID_FID_LIM_QID_FID_LIMIT); + DLB2_CSR_WR(hw, DLB2_AQED_QID_FID_LIM(queue->id.phys_id), reg); + + /* Configure SNs */ + reg = 0; + sn_group = &hw->rsrcs.sn_groups[queue->sn_group]; + DLB2_BITS_SET(reg, sn_group->mode, DLB2_CHP_ORD_QID_SN_MAP_MODE); + DLB2_BITS_SET(reg, queue->sn_slot, DLB2_CHP_ORD_QID_SN_MAP_SLOT); + DLB2_BITS_SET(reg, sn_group->id, DLB2_CHP_ORD_QID_SN_MAP_GRP); + + DLB2_CSR_WR(hw, + DLB2_CHP_ORD_QID_SN_MAP(hw->ver, queue->id.phys_id), reg); + + reg = 0; + DLB2_BITS_SET(reg, (args->num_sequence_numbers != 0), + DLB2_SYS_LDB_QID_CFG_V_SN_CFG_V); + DLB2_BITS_SET(reg, (args->num_atomic_inflights != 0), + DLB2_SYS_LDB_QID_CFG_V_FID_CFG_V); + + DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID_CFG_V(queue->id.phys_id), reg); + + if (vdev_req) { + offs = vdev_id * DLB2_MAX_NUM_LDB_QUEUES + queue->id.virt_id; + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_VF_LDB_VQID_V_VQID_V); + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID_V(offs), reg); + + reg = 0; + DLB2_BITS_SET(reg, queue->id.phys_id, + DLB2_SYS_VF_LDB_VQID2QID_QID); + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID2QID(offs), reg); + + reg = 0; + DLB2_BITS_SET(reg, queue->id.virt_id, + DLB2_SYS_LDB_QID2VQID_VQID); + DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID2VQID(queue->id.phys_id), reg); + } + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_LDB_QID_V_QID_V); + DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID_V(queue->id.phys_id), reg); +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + int ret; + + dlb2_log_create_ldb_queue_args(hw, domain_id, args, vdev_req, vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_create_ldb_queue_args(hw, + domain_id, + args, + resp, + vdev_req, + vdev_id, + &domain, + &queue); + if (ret) + return ret; + + ret = dlb2_ldb_queue_attach_resources(hw, domain, queue, args); + + if (ret) { + DLB2_HW_ERR(hw, + "[%s():%d] Internal error: failed to attach the ldb queue resources\n", + __func__, __LINE__); + return ret; + } + + dlb2_configure_ldb_queue(hw, domain, queue, args, vdev_req, vdev_id); + + queue->num_mappings = 0; + + queue->configured = true; + + /* + * Configuration succeeded, so move the resource from the 'avail' to + * the 'used' list. + */ + dlb2_list_del(&domain->avail_ldb_queues, &queue->domain_list); + + dlb2_list_add(&domain->used_ldb_queues, &queue->domain_list); + + resp->status = 0; + resp->id = (vdev_req) ? queue->id.virt_id : queue->id.phys_id; + + return 0; +} + +static void dlb2_ldb_port_configure_pp(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port, + bool vdev_req, + unsigned int vdev_id) +{ + u32 reg = 0; + + DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_SYS_LDB_PP2VAS_VAS); + DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP2VAS(port->id.phys_id), reg); + + if (vdev_req) { + unsigned int offs; + u32 virt_id; + + /* + * DLB uses producer port address bits 17:12 to determine the + * producer port ID. In Scalable IOV mode, PP accesses come + * through the PF MMIO window for the physical producer port, + * so for translation purposes the virtual and physical port + * IDs are equal. + */ + if (hw->virt_mode == DLB2_VIRT_SRIOV) + virt_id = port->id.virt_id; + else + virt_id = port->id.phys_id; + + reg = 0; + DLB2_BITS_SET(reg, port->id.phys_id, DLB2_SYS_VF_LDB_VPP2PP_PP); + offs = vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP2PP(offs), reg); + + reg = 0; + DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_LDB_PP2VDEV_VDEV); + DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP2VDEV(port->id.phys_id), reg); + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_VF_LDB_VPP_V_VPP_V); + DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP_V(offs), reg); + } + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_LDB_PP_V_PP_V); + DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP_V(port->id.phys_id), reg); +} + +static int dlb2_ldb_port_configure_cq(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port, + uintptr_t cq_dma_base, + struct dlb2_create_ldb_port_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + u32 hl_base = 0; + u32 reg = 0; + u32 ds = 0; + + /* The CQ address is 64B-aligned, and the DLB only wants bits [63:6] */ + DLB2_BITS_SET(reg, cq_dma_base >> 6, DLB2_SYS_LDB_CQ_ADDR_L_ADDR_L); + DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_ADDR_L(port->id.phys_id), reg); + + reg = cq_dma_base >> 32; + DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_ADDR_U(port->id.phys_id), reg); + + /* + * 'ro' == relaxed ordering. This setting allows DLB2 to write + * cache lines out-of-order (but QEs within a cache line are always + * updated in-order). + */ + reg = 0; + DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_LDB_CQ2VF_PF_RO_VF); + DLB2_BITS_SET(reg, + !vdev_req && (hw->virt_mode != DLB2_VIRT_SIOV), + DLB2_SYS_LDB_CQ2VF_PF_RO_IS_PF); + DLB2_BIT_SET(reg, DLB2_SYS_LDB_CQ2VF_PF_RO_RO); + + DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ2VF_PF_RO(port->id.phys_id), reg); + + port->cq_depth = args->cq_depth; + + if (args->cq_depth <= 8) { + ds = 1; + } else if (args->cq_depth == 16) { + ds = 2; + } else if (args->cq_depth == 32) { + ds = 3; + } else if (args->cq_depth == 64) { + ds = 4; + } else if (args->cq_depth == 128) { + ds = 5; + } else if (args->cq_depth == 256) { + ds = 6; + } else if (args->cq_depth == 512) { + ds = 7; + } else if (args->cq_depth == 1024) { + ds = 8; + } else { + DLB2_HW_ERR(hw, + "[%s():%d] Internal error: invalid CQ depth\n", + __func__, __LINE__); + return -EFAULT; + } + + reg = 0; + DLB2_BITS_SET(reg, ds, + DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL_TOKEN_DEPTH_SELECT); + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), + reg); + + /* + * To support CQs with depth less than 8, program the token count + * register with a non-zero initial value. Operations such as domain + * reset must take this initial value into account when quiescing the + * CQ. + */ + port->init_tkn_cnt = 0; + + if (args->cq_depth < 8) { + reg = 0; + port->init_tkn_cnt = 8 - args->cq_depth; + + DLB2_BITS_SET(reg, + port->init_tkn_cnt, + DLB2_LSP_CQ_LDB_TKN_CNT_TOKEN_COUNT); + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id), + reg); + } else { + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_LDB_TKN_CNT_RST); + } + + reg = 0; + DLB2_BITS_SET(reg, ds, + DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL_TOKEN_DEPTH_SELECT_V2); + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), + reg); + + /* Reset the CQ write pointer */ + DLB2_CSR_WR(hw, + DLB2_CHP_LDB_CQ_WPTR(hw->ver, port->id.phys_id), + DLB2_CHP_LDB_CQ_WPTR_RST); + + reg = 0; + DLB2_BITS_SET(reg, + port->hist_list_entry_limit - 1, + DLB2_CHP_HIST_LIST_LIM_LIMIT); + DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_LIM(hw->ver, port->id.phys_id), reg); + + DLB2_BITS_SET(hl_base, port->hist_list_entry_base, + DLB2_CHP_HIST_LIST_BASE_BASE); + DLB2_CSR_WR(hw, + DLB2_CHP_HIST_LIST_BASE(hw->ver, port->id.phys_id), + hl_base); + + /* + * The inflight limit sets a cap on the number of QEs for which this CQ + * can owe completions at one time. + */ + reg = 0; + DLB2_BITS_SET(reg, args->cq_history_list_size, + DLB2_LSP_CQ_LDB_INFL_LIM_LIMIT); + DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_INFL_LIM(hw->ver, port->id.phys_id), + reg); + + reg = 0; + DLB2_BITS_SET(reg, DLB2_BITS_GET(hl_base, DLB2_CHP_HIST_LIST_BASE_BASE), + DLB2_CHP_HIST_LIST_PUSH_PTR_PUSH_PTR); + DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_PUSH_PTR(hw->ver, port->id.phys_id), + reg); + + reg = 0; + DLB2_BITS_SET(reg, DLB2_BITS_GET(hl_base, DLB2_CHP_HIST_LIST_BASE_BASE), + DLB2_CHP_HIST_LIST_POP_PTR_POP_PTR); + DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_POP_PTR(hw->ver, port->id.phys_id), + reg); + + /* + * Address translation (AT) settings: 0: untranslated, 2: translated + * (see ATS spec regarding Address Type field for more details) + */ + + if (hw->ver == DLB2_HW_V2) { + reg = 0; + DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_AT(port->id.phys_id), reg); + } + + if (vdev_req && hw->virt_mode == DLB2_VIRT_SIOV) { + reg = 0; + DLB2_BITS_SET(reg, hw->pasid[vdev_id], + DLB2_SYS_LDB_CQ_PASID_PASID); + DLB2_BIT_SET(reg, DLB2_SYS_LDB_CQ_PASID_FMT2); + } + + DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_PASID(hw->ver, port->id.phys_id), reg); + + reg = 0; + DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_CHP_LDB_CQ2VAS_CQ2VAS); + DLB2_CSR_WR(hw, DLB2_CHP_LDB_CQ2VAS(hw->ver, port->id.phys_id), reg); + + /* Disable the port's QID mappings */ + reg = 0; + DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id), reg); + + return 0; +} + +static bool +dlb2_cq_depth_is_valid(u32 depth) +{ + if (depth != 1 && depth != 2 && + depth != 4 && depth != 8 && + depth != 16 && depth != 32 && + depth != 64 && depth != 128 && + depth != 256 && depth != 512 && + depth != 1024) + return false; + + return true; +} + +static int dlb2_configure_ldb_port(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_ldb_port *port, + uintptr_t cq_dma_base, + struct dlb2_create_ldb_port_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + int ret, i; + + port->hist_list_entry_base = domain->hist_list_entry_base + + domain->hist_list_entry_offset; + port->hist_list_entry_limit = port->hist_list_entry_base + + args->cq_history_list_size; + + domain->hist_list_entry_offset += args->cq_history_list_size; + domain->avail_hist_list_entries -= args->cq_history_list_size; + + ret = dlb2_ldb_port_configure_cq(hw, + domain, + port, + cq_dma_base, + args, + vdev_req, + vdev_id); + if (ret) + return ret; + + dlb2_ldb_port_configure_pp(hw, + domain, + port, + vdev_req, + vdev_id); + + dlb2_ldb_port_cq_enable(hw, port); + + for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) + port->qid_map[i].state = DLB2_QUEUE_UNMAPPED; + port->num_mappings = 0; + + port->enabled = true; + + port->configured = true; + + return 0; +} + +static void +dlb2_log_create_ldb_port_args(struct dlb2_hw *hw, + u32 domain_id, + uintptr_t cq_dma_base, + struct dlb2_create_ldb_port_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 create load-balanced port arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", + domain_id); + DLB2_HW_DBG(hw, "\tCQ depth: %d\n", + args->cq_depth); + DLB2_HW_DBG(hw, "\tCQ hist list size: %d\n", + args->cq_history_list_size); + DLB2_HW_DBG(hw, "\tCQ base address: 0x%lx\n", + cq_dma_base); + DLB2_HW_DBG(hw, "\tCoS ID: %u\n", args->cos_id); + DLB2_HW_DBG(hw, "\tStrict CoS allocation: %u\n", + args->cos_strict); +} + +static int +dlb2_verify_create_ldb_port_args(struct dlb2_hw *hw, + u32 domain_id, + uintptr_t cq_dma_base, + struct dlb2_create_ldb_port_args *args, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain, + struct dlb2_ldb_port **out_port, + int *out_cos_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_port *port; + int i, id; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + if (domain->started) { + resp->status = DLB2_ST_DOMAIN_STARTED; + return -EINVAL; + } + + if (args->cos_id >= DLB2_NUM_COS_DOMAINS) { + resp->status = DLB2_ST_INVALID_COS_ID; + return -EINVAL; + } + + if (args->cos_strict) { + id = args->cos_id; + port = DLB2_DOM_LIST_HEAD(domain->avail_ldb_ports[id], + typeof(*port)); + } else { + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + id = (args->cos_id + i) % DLB2_NUM_COS_DOMAINS; + + port = DLB2_DOM_LIST_HEAD(domain->avail_ldb_ports[id], + typeof(*port)); + if (port) + break; + } + } + + if (!port) { + resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; + return -EINVAL; + } + + /* Check cache-line alignment */ + if ((cq_dma_base & 0x3F) != 0) { + resp->status = DLB2_ST_INVALID_CQ_VIRT_ADDR; + return -EINVAL; + } + + if (!dlb2_cq_depth_is_valid(args->cq_depth)) { + resp->status = DLB2_ST_INVALID_CQ_DEPTH; + return -EINVAL; + } + + /* The history list size must be >= 1 */ + if (!args->cq_history_list_size) { + resp->status = DLB2_ST_INVALID_HIST_LIST_DEPTH; + return -EINVAL; + } + + if (args->cq_history_list_size > domain->avail_hist_list_entries) { + resp->status = DLB2_ST_HIST_LIST_ENTRIES_UNAVAILABLE; + return -EINVAL; + } + + *out_domain = domain; + *out_port = port; + *out_cos_id = id; + + return 0; +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_port *port; + int ret, cos_id; + + dlb2_log_create_ldb_port_args(hw, + domain_id, + cq_dma_base, + args, + vdev_req, + vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_create_ldb_port_args(hw, + domain_id, + cq_dma_base, + args, + resp, + vdev_req, + vdev_id, + &domain, + &port, + &cos_id); + if (ret) + return ret; + + ret = dlb2_configure_ldb_port(hw, + domain, + port, + cq_dma_base, + args, + vdev_req, + vdev_id); + if (ret) + return ret; + + /* + * Configuration succeeded, so move the resource from the 'avail' to + * the 'used' list. + */ + dlb2_list_del(&domain->avail_ldb_ports[cos_id], &port->domain_list); + + dlb2_list_add(&domain->used_ldb_ports[cos_id], &port->domain_list); + + resp->status = 0; + resp->id = (vdev_req) ? port->id.virt_id : port->id.phys_id; + + return 0; +} + +static void +dlb2_log_create_dir_port_args(struct dlb2_hw *hw, + u32 domain_id, + uintptr_t cq_dma_base, + struct dlb2_create_dir_port_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 create directed port arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", + domain_id); + DLB2_HW_DBG(hw, "\tCQ depth: %d\n", + args->cq_depth); + DLB2_HW_DBG(hw, "\tCQ base address: 0x%lx\n", + cq_dma_base); +} + +static struct dlb2_dir_pq_pair * +dlb2_get_domain_used_dir_pq(struct dlb2_hw *hw, + u32 id, + bool vdev_req, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *port; + RTE_SET_USED(iter); + + if (id >= DLB2_MAX_NUM_DIR_PORTS(hw->ver)) + return NULL; + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { + if ((!vdev_req && port->id.phys_id == id) || + (vdev_req && port->id.virt_id == id)) + return port; + } + + return NULL; +} + +static int +dlb2_verify_create_dir_port_args(struct dlb2_hw *hw, + u32 domain_id, + uintptr_t cq_dma_base, + struct dlb2_create_dir_port_args *args, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain, + struct dlb2_dir_pq_pair **out_port) +{ + struct dlb2_hw_domain *domain; + struct dlb2_dir_pq_pair *pq; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + if (domain->started) { + resp->status = DLB2_ST_DOMAIN_STARTED; + return -EINVAL; + } + + if (args->queue_id != -1) { + /* + * If the user claims the queue is already configured, validate + * the queue ID, its domain, and whether the queue is + * configured. + */ + pq = dlb2_get_domain_used_dir_pq(hw, + args->queue_id, + vdev_req, + domain); + + if (!pq || pq->domain_id.phys_id != domain->id.phys_id || + !pq->queue_configured) { + resp->status = DLB2_ST_INVALID_DIR_QUEUE_ID; + return -EINVAL; + } + } else { + /* + * If the port's queue is not configured, validate that a free + * port-queue pair is available. + */ + pq = DLB2_DOM_LIST_HEAD(domain->avail_dir_pq_pairs, + typeof(*pq)); + if (!pq) { + resp->status = DLB2_ST_DIR_PORTS_UNAVAILABLE; + return -EINVAL; + } + } + + /* Check cache-line alignment */ + if ((cq_dma_base & 0x3F) != 0) { + resp->status = DLB2_ST_INVALID_CQ_VIRT_ADDR; + return -EINVAL; + } + + if (!dlb2_cq_depth_is_valid(args->cq_depth)) { + resp->status = DLB2_ST_INVALID_CQ_DEPTH; + return -EINVAL; + } + + *out_domain = domain; + *out_port = pq; + + return 0; +} + +static void dlb2_dir_port_configure_pp(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_dir_pq_pair *port, + bool vdev_req, + unsigned int vdev_id) +{ + u32 reg = 0; + + DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_SYS_DIR_PP2VAS_VAS); + DLB2_CSR_WR(hw, DLB2_SYS_DIR_PP2VAS(port->id.phys_id), reg); + + if (vdev_req) { + unsigned int offs; + u32 virt_id; + + /* + * DLB uses producer port address bits 17:12 to determine the + * producer port ID. In Scalable IOV mode, PP accesses come + * through the PF MMIO window for the physical producer port, + * so for translation purposes the virtual and physical port + * IDs are equal. + */ + if (hw->virt_mode == DLB2_VIRT_SRIOV) + virt_id = port->id.virt_id; + else + virt_id = port->id.phys_id; + + reg = 0; + DLB2_BITS_SET(reg, port->id.phys_id, DLB2_SYS_VF_DIR_VPP2PP_PP); + offs = vdev_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + virt_id; + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VPP2PP(offs), reg); + + reg = 0; + DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_DIR_PP2VDEV_VDEV); + DLB2_CSR_WR(hw, DLB2_SYS_DIR_PP2VDEV(port->id.phys_id), reg); + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_VF_DIR_VPP_V_VPP_V); + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VPP_V(offs), reg); + } + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_DIR_PP_V_PP_V); + DLB2_CSR_WR(hw, DLB2_SYS_DIR_PP_V(port->id.phys_id), reg); +} + +static int dlb2_dir_port_configure_cq(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_dir_pq_pair *port, + uintptr_t cq_dma_base, + struct dlb2_create_dir_port_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + u32 reg = 0; + u32 ds = 0; + + /* The CQ address is 64B-aligned, and the DLB only wants bits [63:6] */ + DLB2_BITS_SET(reg, cq_dma_base >> 6, DLB2_SYS_DIR_CQ_ADDR_L_ADDR_L); + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_ADDR_L(port->id.phys_id), reg); + + reg = cq_dma_base >> 32; + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_ADDR_U(port->id.phys_id), reg); + + /* + * 'ro' == relaxed ordering. This setting allows DLB2 to write + * cache lines out-of-order (but QEs within a cache line are always + * updated in-order). + */ + reg = 0; + DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_DIR_CQ2VF_PF_RO_VF); + DLB2_BITS_SET(reg, !vdev_req && (hw->virt_mode != DLB2_VIRT_SIOV), + DLB2_SYS_DIR_CQ2VF_PF_RO_IS_PF); + DLB2_BIT_SET(reg, DLB2_SYS_DIR_CQ2VF_PF_RO_RO); + + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ2VF_PF_RO(port->id.phys_id), reg); + + if (args->cq_depth <= 8) { + ds = 1; + } else if (args->cq_depth == 16) { + ds = 2; + } else if (args->cq_depth == 32) { + ds = 3; + } else if (args->cq_depth == 64) { + ds = 4; + } else if (args->cq_depth == 128) { + ds = 5; + } else if (args->cq_depth == 256) { + ds = 6; + } else if (args->cq_depth == 512) { + ds = 7; + } else if (args->cq_depth == 1024) { + ds = 8; + } else { + DLB2_HW_ERR(hw, + "[%s():%d] Internal error: invalid CQ depth\n", + __func__, __LINE__); + return -EFAULT; + } + + reg = 0; + DLB2_BITS_SET(reg, ds, + DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL_TOKEN_DEPTH_SELECT); + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), + reg); + + /* + * To support CQs with depth less than 8, program the token count + * register with a non-zero initial value. Operations such as domain + * reset must take this initial value into account when quiescing the + * CQ. + */ + port->init_tkn_cnt = 0; + + if (args->cq_depth < 8) { + reg = 0; + port->init_tkn_cnt = 8 - args->cq_depth; + + DLB2_BITS_SET(reg, port->init_tkn_cnt, + DLB2_LSP_CQ_DIR_TKN_CNT_COUNT); + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id), + reg); + } else { + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id), + DLB2_LSP_CQ_DIR_TKN_CNT_RST); + } + + reg = 0; + DLB2_BITS_SET(reg, ds, + DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI_TOKEN_DEPTH_SELECT_V2); + DLB2_CSR_WR(hw, + DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI(hw->ver, + port->id.phys_id), + reg); + + /* Reset the CQ write pointer */ + DLB2_CSR_WR(hw, + DLB2_CHP_DIR_CQ_WPTR(hw->ver, port->id.phys_id), + DLB2_CHP_DIR_CQ_WPTR_RST); + + /* Virtualize the PPID */ + reg = 0; + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_FMT(port->id.phys_id), reg); + + /* + * Address translation (AT) settings: 0: untranslated, 2: translated + * (see ATS spec regarding Address Type field for more details) + */ + if (hw->ver == DLB2_HW_V2) { + reg = 0; + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_AT(port->id.phys_id), reg); + } + + if (vdev_req && hw->virt_mode == DLB2_VIRT_SIOV) { + DLB2_BITS_SET(reg, hw->pasid[vdev_id], + DLB2_SYS_DIR_CQ_PASID_PASID); + DLB2_BIT_SET(reg, DLB2_SYS_DIR_CQ_PASID_FMT2); + } + + DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_PASID(hw->ver, port->id.phys_id), reg); + + reg = 0; + DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_CHP_DIR_CQ2VAS_CQ2VAS); + DLB2_CSR_WR(hw, DLB2_CHP_DIR_CQ2VAS(hw->ver, port->id.phys_id), reg); + + return 0; +} + +static int dlb2_configure_dir_port(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_dir_pq_pair *port, + uintptr_t cq_dma_base, + struct dlb2_create_dir_port_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + int ret; + + ret = dlb2_dir_port_configure_cq(hw, + domain, + port, + cq_dma_base, + args, + vdev_req, + vdev_id); + + if (ret) + return ret; + + dlb2_dir_port_configure_pp(hw, + domain, + port, + vdev_req, + vdev_id); + + dlb2_dir_port_cq_enable(hw, port); + + port->enabled = true; + + port->port_configured = true; + + return 0; +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_dir_pq_pair *port; + struct dlb2_hw_domain *domain; + int ret; + + dlb2_log_create_dir_port_args(hw, + domain_id, + cq_dma_base, + args, + vdev_req, + vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_create_dir_port_args(hw, + domain_id, + cq_dma_base, + args, + resp, + vdev_req, + vdev_id, + &domain, + &port); + if (ret) + return ret; + + ret = dlb2_configure_dir_port(hw, + domain, + port, + cq_dma_base, + args, + vdev_req, + vdev_id); + if (ret) + return ret; + + /* + * Configuration succeeded, so move the resource from the 'avail' to + * the 'used' list (if it's not already there). + */ + if (args->queue_id == -1) { + dlb2_list_del(&domain->avail_dir_pq_pairs, &port->domain_list); + + dlb2_list_add(&domain->used_dir_pq_pairs, &port->domain_list); + } + + resp->status = 0; + resp->id = (vdev_req) ? port->id.virt_id : port->id.phys_id; + + return 0; +} + +static void dlb2_configure_dir_queue(struct dlb2_hw *hw, + struct dlb2_hw_domain *domain, + struct dlb2_dir_pq_pair *queue, + struct dlb2_create_dir_queue_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + unsigned int offs; + u32 reg = 0; + + /* QID write permissions are turned on when the domain is started */ + offs = domain->id.phys_id * DLB2_MAX_NUM_DIR_QUEUES(hw->ver) + + queue->id.phys_id; + + DLB2_CSR_WR(hw, DLB2_SYS_DIR_VASQID_V(offs), reg); + + /* Don't timestamp QEs that pass through this queue */ + DLB2_CSR_WR(hw, DLB2_SYS_DIR_QID_ITS(queue->id.phys_id), reg); + + reg = 0; + DLB2_BITS_SET(reg, args->depth_threshold, + DLB2_LSP_QID_DIR_DEPTH_THRSH_THRESH); + DLB2_CSR_WR(hw, + DLB2_LSP_QID_DIR_DEPTH_THRSH(hw->ver, queue->id.phys_id), + reg); + + if (vdev_req) { + offs = vdev_id * DLB2_MAX_NUM_DIR_QUEUES(hw->ver) + + queue->id.virt_id; + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_VF_DIR_VQID_V_VQID_V); + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID_V(offs), reg); + + reg = 0; + DLB2_BITS_SET(reg, queue->id.phys_id, + DLB2_SYS_VF_DIR_VQID2QID_QID); + DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID2QID(offs), reg); + } + + reg = 0; + DLB2_BIT_SET(reg, DLB2_SYS_DIR_QID_V_QID_V); + DLB2_CSR_WR(hw, DLB2_SYS_DIR_QID_V(queue->id.phys_id), reg); + + queue->queue_configured = true; +} + +static void +dlb2_log_create_dir_queue_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_dir_queue_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 create directed queue arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); + DLB2_HW_DBG(hw, "\tPort ID: %d\n", args->port_id); +} + +static int +dlb2_verify_create_dir_queue_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_create_dir_queue_args *args, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain, + struct dlb2_dir_pq_pair **out_queue) +{ + struct dlb2_hw_domain *domain; + struct dlb2_dir_pq_pair *pq; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + if (domain->started) { + resp->status = DLB2_ST_DOMAIN_STARTED; + return -EINVAL; + } + + /* + * If the user claims the port is already configured, validate the port + * ID, its domain, and whether the port is configured. + */ + if (args->port_id != -1) { + pq = dlb2_get_domain_used_dir_pq(hw, + args->port_id, + vdev_req, + domain); + + if (!pq || pq->domain_id.phys_id != domain->id.phys_id || + !pq->port_configured) { + resp->status = DLB2_ST_INVALID_PORT_ID; + return -EINVAL; + } + } else { + /* + * If the queue's port is not configured, validate that a free + * port-queue pair is available. + */ + pq = DLB2_DOM_LIST_HEAD(domain->avail_dir_pq_pairs, + typeof(*pq)); + if (!pq) { + resp->status = DLB2_ST_DIR_QUEUES_UNAVAILABLE; + return -EINVAL; + } + } + + *out_domain = domain; + *out_queue = pq; + + return 0; +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_dir_pq_pair *queue; + struct dlb2_hw_domain *domain; + int ret; + + dlb2_log_create_dir_queue_args(hw, domain_id, args, vdev_req, vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_create_dir_queue_args(hw, + domain_id, + args, + resp, + vdev_req, + vdev_id, + &domain, + &queue); + if (ret) + return ret; + + dlb2_configure_dir_queue(hw, domain, queue, args, vdev_req, vdev_id); + + /* + * Configuration succeeded, so move the resource from the 'avail' to + * the 'used' list (if it's not already there). + */ + if (args->port_id == -1) { + dlb2_list_del(&domain->avail_dir_pq_pairs, + &queue->domain_list); + + dlb2_list_add(&domain->used_dir_pq_pairs, + &queue->domain_list); + } + + resp->status = 0; + + resp->id = (vdev_req) ? queue->id.virt_id : queue->id.phys_id; + + return 0; +} + +static bool +dlb2_port_find_slot_with_pending_map_queue(struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue, + int *slot) +{ + int i; + + for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { + struct dlb2_ldb_port_qid_map *map = &port->qid_map[i]; + + if (map->state == DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP && + map->pending_qid == queue->id.phys_id) + break; + } + + *slot = i; + + return (i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ); +} + +static int dlb2_verify_map_qid_slot_available(struct dlb2_ldb_port *port, + struct dlb2_ldb_queue *queue, + struct dlb2_cmd_response *resp) +{ + enum dlb2_qid_map_state state; + int i; + + /* Unused slot available? */ + if (port->num_mappings < DLB2_MAX_NUM_QIDS_PER_LDB_CQ) + return 0; + + /* + * If the queue is already mapped (from the application's perspective), + * this is simply a priority update. + */ + state = DLB2_QUEUE_MAPPED; + if (dlb2_port_find_slot_queue(port, state, queue, &i)) + return 0; + + state = DLB2_QUEUE_MAP_IN_PROG; + if (dlb2_port_find_slot_queue(port, state, queue, &i)) + return 0; + + if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &i)) + return 0; + + /* + * If the slot contains an unmap in progress, it's considered + * available. + */ + state = DLB2_QUEUE_UNMAP_IN_PROG; + if (dlb2_port_find_slot(port, state, &i)) + return 0; + + state = DLB2_QUEUE_UNMAPPED; + if (dlb2_port_find_slot(port, state, &i)) + return 0; + + resp->status = DLB2_ST_NO_QID_SLOTS_AVAILABLE; + return -EINVAL; +} + +static struct dlb2_ldb_queue * +dlb2_get_domain_ldb_queue(u32 id, + bool vdev_req, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_queue *queue; + RTE_SET_USED(iter); + + if (id >= DLB2_MAX_NUM_LDB_QUEUES) + return NULL; + + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { + if ((!vdev_req && queue->id.phys_id == id) || + (vdev_req && queue->id.virt_id == id)) + return queue; + } + + return NULL; +} + +static struct dlb2_ldb_port * +dlb2_get_domain_used_ldb_port(u32 id, + bool vdev_req, + struct dlb2_hw_domain *domain) +{ + struct dlb2_list_entry *iter; + struct dlb2_ldb_port *port; + int i; + RTE_SET_USED(iter); + + if (id >= DLB2_MAX_NUM_LDB_PORTS) + return NULL; + + for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { + DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { + if ((!vdev_req && port->id.phys_id == id) || + (vdev_req && port->id.virt_id == id)) + return port; + } + + DLB2_DOM_LIST_FOR(domain->avail_ldb_ports[i], port, iter) { + if ((!vdev_req && port->id.phys_id == id) || + (vdev_req && port->id.virt_id == id)) + return port; + } + } + + return NULL; +} + +static void dlb2_ldb_port_change_qid_priority(struct dlb2_hw *hw, + struct dlb2_ldb_port *port, + int slot, + struct dlb2_map_qid_args *args) +{ + u32 cq2priov; + + /* Read-modify-write the priority and valid bit register */ + cq2priov = DLB2_CSR_RD(hw, + DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id)); + + cq2priov |= (1 << (slot + DLB2_LSP_CQ2PRIOV_V_LOC)) & + DLB2_LSP_CQ2PRIOV_V; + cq2priov |= ((args->priority & 0x7) << slot * 3) & + DLB2_LSP_CQ2PRIOV_PRIO; + + DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id), cq2priov); + + dlb2_flush_csr(hw); + + port->qid_map[slot].priority = args->priority; +} + +static int dlb2_verify_map_qid_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_map_qid_args *args, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain, + struct dlb2_ldb_port **out_port, + struct dlb2_ldb_queue **out_queue) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + struct dlb2_ldb_port *port; + int id; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + id = args->port_id; + + port = dlb2_get_domain_used_ldb_port(id, vdev_req, domain); + + if (!port || !port->configured) { + resp->status = DLB2_ST_INVALID_PORT_ID; + return -EINVAL; + } + + if (args->priority >= DLB2_QID_PRIORITIES) { + resp->status = DLB2_ST_INVALID_PRIORITY; + return -EINVAL; + } + + queue = dlb2_get_domain_ldb_queue(args->qid, vdev_req, domain); + + if (!queue || !queue->configured) { + resp->status = DLB2_ST_INVALID_QID; + return -EINVAL; + } + + if (queue->domain_id.phys_id != domain->id.phys_id) { + resp->status = DLB2_ST_INVALID_QID; + return -EINVAL; + } + + if (port->domain_id.phys_id != domain->id.phys_id) { + resp->status = DLB2_ST_INVALID_PORT_ID; + return -EINVAL; + } + + *out_domain = domain; + *out_queue = queue; + *out_port = port; + + return 0; +} + +static void dlb2_log_map_qid(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_map_qid_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 map QID arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", + domain_id); + DLB2_HW_DBG(hw, "\tPort ID: %d\n", + args->port_id); + DLB2_HW_DBG(hw, "\tQueue ID: %d\n", + args->qid); + DLB2_HW_DBG(hw, "\tPriority: %d\n", + args->priority); +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + enum dlb2_qid_map_state st; + struct dlb2_ldb_port *port; + int ret, i; + u8 prio; + + dlb2_log_map_qid(hw, domain_id, args, vdev_req, vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_map_qid_args(hw, + domain_id, + args, + resp, + vdev_req, + vdev_id, + &domain, + &port, + &queue); + if (ret) + return ret; + + prio = args->priority; + + /* + * If there are any outstanding detach operations for this port, + * attempt to complete them. This may be necessary to free up a QID + * slot for this requested mapping. + */ + if (port->num_pending_removals) + dlb2_domain_finish_unmap_port(hw, domain, port); + + ret = dlb2_verify_map_qid_slot_available(port, queue, resp); + if (ret) + return ret; + + /* Hardware requires disabling the CQ before mapping QIDs. */ + if (port->enabled) + dlb2_ldb_port_cq_disable(hw, port); + + /* + * If this is only a priority change, don't perform the full QID->CQ + * mapping procedure + */ + st = DLB2_QUEUE_MAPPED; + if (dlb2_port_find_slot_queue(port, st, queue, &i)) { + if (prio != port->qid_map[i].priority) { + dlb2_ldb_port_change_qid_priority(hw, port, i, args); + DLB2_HW_DBG(hw, "DLB2 map: priority change\n"); + } + + st = DLB2_QUEUE_MAPPED; + ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); + if (ret) + return ret; + + goto map_qid_done; + } + + st = DLB2_QUEUE_UNMAP_IN_PROG; + if (dlb2_port_find_slot_queue(port, st, queue, &i)) { + if (prio != port->qid_map[i].priority) { + dlb2_ldb_port_change_qid_priority(hw, port, i, args); + DLB2_HW_DBG(hw, "DLB2 map: priority change\n"); + } + + st = DLB2_QUEUE_MAPPED; + ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); + if (ret) + return ret; + + goto map_qid_done; + } + + /* + * If this is a priority change on an in-progress mapping, don't + * perform the full QID->CQ mapping procedure. + */ + st = DLB2_QUEUE_MAP_IN_PROG; + if (dlb2_port_find_slot_queue(port, st, queue, &i)) { + port->qid_map[i].priority = prio; + + DLB2_HW_DBG(hw, "DLB2 map: priority change only\n"); + + goto map_qid_done; + } + + /* + * If this is a priority change on a pending mapping, update the + * pending priority + */ + if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &i)) { + port->qid_map[i].pending_priority = prio; + + DLB2_HW_DBG(hw, "DLB2 map: priority change only\n"); + + goto map_qid_done; + } + + /* + * If all the CQ's slots are in use, then there's an unmap in progress + * (guaranteed by dlb2_verify_map_qid_slot_available()), so add this + * mapping to pending_map and return. When the removal is completed for + * the slot's current occupant, this mapping will be performed. + */ + if (!dlb2_port_find_slot(port, DLB2_QUEUE_UNMAPPED, &i)) { + if (dlb2_port_find_slot(port, DLB2_QUEUE_UNMAP_IN_PROG, &i)) { + enum dlb2_qid_map_state new_st; + + port->qid_map[i].pending_qid = queue->id.phys_id; + port->qid_map[i].pending_priority = prio; + + new_st = DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP; + + ret = dlb2_port_slot_state_transition(hw, port, queue, + i, new_st); + if (ret) + return ret; + + DLB2_HW_DBG(hw, "DLB2 map: map pending removal\n"); + + goto map_qid_done; + } + } + + /* + * If the domain has started, a special "dynamic" CQ->queue mapping + * procedure is required in order to safely update the CQ<->QID tables. + * The "static" procedure cannot be used when traffic is flowing, + * because the CQ<->QID tables cannot be updated atomically and the + * scheduler won't see the new mapping unless the queue's if_status + * changes, which isn't guaranteed. + */ + ret = dlb2_ldb_port_map_qid(hw, domain, port, queue, prio); + + /* If ret is less than zero, it's due to an internal error */ + if (ret < 0) + return ret; + +map_qid_done: + if (port->enabled) + dlb2_ldb_port_cq_enable(hw, port); + + resp->status = 0; + + return 0; +} + +static void dlb2_log_unmap_qid(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_unmap_qid_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 unmap QID arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", + domain_id); + DLB2_HW_DBG(hw, "\tPort ID: %d\n", + args->port_id); + DLB2_HW_DBG(hw, "\tQueue ID: %d\n", + args->qid); + if (args->qid < DLB2_MAX_NUM_LDB_QUEUES) + DLB2_HW_DBG(hw, "\tQueue's num mappings: %d\n", + hw->rsrcs.ldb_queues[args->qid].num_mappings); +} + +static int dlb2_verify_unmap_qid_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_unmap_qid_args *args, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain, + struct dlb2_ldb_port **out_port, + struct dlb2_ldb_queue **out_queue) +{ + enum dlb2_qid_map_state state; + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + struct dlb2_ldb_port *port; + int slot; + int id; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + id = args->port_id; + + port = dlb2_get_domain_used_ldb_port(id, vdev_req, domain); + + if (!port || !port->configured) { + resp->status = DLB2_ST_INVALID_PORT_ID; + return -EINVAL; + } + + if (port->domain_id.phys_id != domain->id.phys_id) { + resp->status = DLB2_ST_INVALID_PORT_ID; + return -EINVAL; + } + + queue = dlb2_get_domain_ldb_queue(args->qid, vdev_req, domain); + + if (!queue || !queue->configured) { + DLB2_HW_ERR(hw, "[%s()] Can't unmap unconfigured queue %d\n", + __func__, args->qid); + resp->status = DLB2_ST_INVALID_QID; + return -EINVAL; + } + + /* + * Verify that the port has the queue mapped. From the application's + * perspective a queue is mapped if it is actually mapped, the map is + * in progress, or the map is blocked pending an unmap. + */ + state = DLB2_QUEUE_MAPPED; + if (dlb2_port_find_slot_queue(port, state, queue, &slot)) + goto done; + + state = DLB2_QUEUE_MAP_IN_PROG; + if (dlb2_port_find_slot_queue(port, state, queue, &slot)) + goto done; + + if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &slot)) + goto done; + + resp->status = DLB2_ST_INVALID_QID; + return -EINVAL; + +done: + *out_domain = domain; + *out_port = port; + *out_queue = queue; + + return 0; +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + enum dlb2_qid_map_state st; + struct dlb2_ldb_port *port; + bool unmap_complete; + int i, ret; + + dlb2_log_unmap_qid(hw, domain_id, args, vdev_req, vdev_id); + + /* + * Verify that hardware resources are available before attempting to + * satisfy the request. This simplifies the error unwinding code. + */ + ret = dlb2_verify_unmap_qid_args(hw, + domain_id, + args, + resp, + vdev_req, + vdev_id, + &domain, + &port, + &queue); + if (ret) + return ret; + + /* + * If the queue hasn't been mapped yet, we need to update the slot's + * state and re-enable the queue's inflights. + */ + st = DLB2_QUEUE_MAP_IN_PROG; + if (dlb2_port_find_slot_queue(port, st, queue, &i)) { + /* + * Since the in-progress map was aborted, re-enable the QID's + * inflights. + */ + if (queue->num_pending_additions == 0) + dlb2_ldb_queue_set_inflight_limit(hw, queue); + + st = DLB2_QUEUE_UNMAPPED; + ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); + if (ret) + return ret; + + goto unmap_qid_done; + } + + /* + * If the queue mapping is on hold pending an unmap, we simply need to + * update the slot's state. + */ + if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &i)) { + st = DLB2_QUEUE_UNMAP_IN_PROG; + ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); + if (ret) + return ret; + + goto unmap_qid_done; + } + + st = DLB2_QUEUE_MAPPED; + if (!dlb2_port_find_slot_queue(port, st, queue, &i)) { + DLB2_HW_ERR(hw, + "[%s()] Internal error: no available CQ slots\n", + __func__); + return -EFAULT; + } + + /* + * QID->CQ mapping removal is an asynchronous procedure. It requires + * stopping the DLB2 from scheduling this CQ, draining all inflights + * from the CQ, then unmapping the queue from the CQ. This function + * simply marks the port as needing the queue unmapped, and (if + * necessary) starts the unmapping worker thread. + */ + dlb2_ldb_port_cq_disable(hw, port); + + st = DLB2_QUEUE_UNMAP_IN_PROG; + ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); + if (ret) + return ret; + + /* + * Attempt to finish the unmapping now, in case the port has no + * outstanding inflights. If that's not the case, this will fail and + * the unmapping will be completed at a later time. + */ + unmap_complete = dlb2_domain_finish_unmap_port(hw, domain, port); + + /* + * If the unmapping couldn't complete immediately, launch the worker + * thread (if it isn't already launched) to finish it later. + */ + if (!unmap_complete && !os_worker_active(hw)) + os_schedule_work(hw); + +unmap_qid_done: + resp->status = 0; + + return 0; +} + +static void +dlb2_log_pending_port_unmaps_args(struct dlb2_hw *hw, + struct dlb2_pending_port_unmaps_args *args, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB unmaps in progress arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from VF %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tPort ID: %d\n", args->port_id); +} + +/** + * 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. + * @vdev_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req is true, this contains the vdev'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 vdev_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_port *port; + + dlb2_log_pending_port_unmaps_args(hw, args, vdev_req, vdev_id); + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + port = dlb2_get_domain_used_ldb_port(args->port_id, vdev_req, domain); + if (!port || !port->configured) { + resp->status = DLB2_ST_INVALID_PORT_ID; + return -EINVAL; + } + + resp->id = port->num_pending_removals; + + return 0; +} + +static int dlb2_verify_start_domain_args(struct dlb2_hw *hw, + u32 domain_id, + struct dlb2_cmd_response *resp, + bool vdev_req, + unsigned int vdev_id, + struct dlb2_hw_domain **out_domain) +{ + struct dlb2_hw_domain *domain; + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + if (!domain->configured) { + resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; + return -EINVAL; + } + + if (domain->started) { + resp->status = DLB2_ST_DOMAIN_STARTED; + return -EINVAL; + } + + *out_domain = domain; + + return 0; +} + +static void dlb2_log_start_domain(struct dlb2_hw *hw, + u32 domain_id, + bool vdev_req, + unsigned int vdev_id) +{ + DLB2_HW_DBG(hw, "DLB2 start domain arguments:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); +} + +/** + * dlb2_hw_start_domain() - start a scheduling domain + * @hw: dlb2_hw handle for a particular device. + * @domain_id: domain ID. + * @arg: start domain arguments. + * @resp: response structure. + * @vdev_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_list_entry *iter; + struct dlb2_dir_pq_pair *dir_queue; + struct dlb2_ldb_queue *ldb_queue; + struct dlb2_hw_domain *domain; + int ret; + RTE_SET_USED(args); + RTE_SET_USED(iter); + + dlb2_log_start_domain(hw, domain_id, vdev_req, vdev_id); + + ret = dlb2_verify_start_domain_args(hw, + domain_id, + resp, + vdev_req, + vdev_id, + &domain); + if (ret) + return ret; + + /* + * Enable load-balanced and directed queue write permissions for the + * queues this domain owns. Without this, the DLB2 will drop all + * incoming traffic to those queues. + */ + DLB2_DOM_LIST_FOR(domain->used_ldb_queues, ldb_queue, iter) { + u32 vasqid_v = 0; + unsigned int offs; + + DLB2_BIT_SET(vasqid_v, DLB2_SYS_LDB_VASQID_V_VASQID_V); + + offs = domain->id.phys_id * DLB2_MAX_NUM_LDB_QUEUES + + ldb_queue->id.phys_id; + + DLB2_CSR_WR(hw, DLB2_SYS_LDB_VASQID_V(offs), vasqid_v); + } + + DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, dir_queue, iter) { + u32 vasqid_v = 0; + unsigned int offs; + + DLB2_BIT_SET(vasqid_v, DLB2_SYS_DIR_VASQID_V_VASQID_V); + + offs = domain->id.phys_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + + dir_queue->id.phys_id; + + DLB2_CSR_WR(hw, DLB2_SYS_DIR_VASQID_V(offs), vasqid_v); + } + + dlb2_flush_csr(hw); + + domain->started = true; + + resp->status = 0; + + return 0; +} + +static void dlb2_log_get_dir_queue_depth(struct dlb2_hw *hw, + u32 domain_id, + u32 queue_id, + bool vdev_req, + unsigned int vf_id) +{ + DLB2_HW_DBG(hw, "DLB get directed queue depth:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from VF %d)\n", vf_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); + DLB2_HW_DBG(hw, "\tQueue ID: %d\n", queue_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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_dir_pq_pair *queue; + struct dlb2_hw_domain *domain; + int id; + + id = domain_id; + + dlb2_log_get_dir_queue_depth(hw, domain_id, args->queue_id, + vdev_req, vdev_id); + + domain = dlb2_get_domain_from_id(hw, id, vdev_req, vdev_id); + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + id = args->queue_id; + + queue = dlb2_get_domain_used_dir_pq(hw, id, vdev_req, domain); + if (!queue) { + resp->status = DLB2_ST_INVALID_QID; + return -EINVAL; + } + + resp->id = dlb2_dir_queue_depth(hw, queue); + + return 0; +} + +static void dlb2_log_get_ldb_queue_depth(struct dlb2_hw *hw, + u32 domain_id, + u32 queue_id, + bool vdev_req, + unsigned int vf_id) +{ + DLB2_HW_DBG(hw, "DLB get load-balanced queue depth:\n"); + if (vdev_req) + DLB2_HW_DBG(hw, "(Request from VF %d)\n", vf_id); + DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); + DLB2_HW_DBG(hw, "\tQueue ID: %d\n", queue_id); +} + +/** + * 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_req: indicates whether this request came from a vdev. + * @vdev_id: If vdev_req 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_req, + unsigned int vdev_id) +{ + struct dlb2_hw_domain *domain; + struct dlb2_ldb_queue *queue; + + dlb2_log_get_ldb_queue_depth(hw, domain_id, args->queue_id, + vdev_req, vdev_id); + + domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); + if (!domain) { + resp->status = DLB2_ST_INVALID_DOMAIN_ID; + return -EINVAL; + } + + queue = dlb2_get_domain_ldb_queue(args->queue_id, vdev_req, domain); + if (!queue) { + resp->status = DLB2_ST_INVALID_QID; + return -EINVAL; + } + + resp->id = dlb2_ldb_queue_depth(hw, queue); + + return 0; +} + +/** + * 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) +{ + int i, num = 0; + + /* Finish queue unmap jobs for any domain that needs it */ + for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { + struct dlb2_hw_domain *domain = &hw->domains[i]; + + num += dlb2_domain_finish_unmap_qid_procedures(hw, domain); + } + + return num; +} + +/** + * 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) +{ + int i, num = 0; + + /* Finish queue map jobs for any domain that needs it */ + for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { + struct dlb2_hw_domain *domain = &hw->domains[i]; + + num += dlb2_domain_finish_map_qid_procedures(hw, domain); + } + + return num; +} + +/** + * 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) +{ + u32 ctrl; + + ctrl = DLB2_CSR_RD(hw, DLB2_CHP_CFG_CHP_CSR_CTRL); + + DLB2_BIT_SET(ctrl, + DLB2_CHP_CFG_CHP_CSR_CTRL_CFG_64BYTES_QE_DIR_CQ_MODE); + + DLB2_CSR_WR(hw, DLB2_CHP_CFG_CHP_CSR_CTRL, ctrl); +} + +/** + * 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) +{ + u32 ctrl; + + ctrl = DLB2_CSR_RD(hw, DLB2_CHP_CFG_CHP_CSR_CTRL); + + DLB2_BIT_SET(ctrl, + DLB2_CHP_CFG_CHP_CSR_CTRL_CFG_64BYTES_QE_LDB_CQ_MODE); + + DLB2_CSR_WR(hw, DLB2_CHP_CFG_CHP_CSR_CTRL, ctrl); +} + +/** + * 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, u32 group_id) +{ + if (group_id >= DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) + return -EINVAL; + + return hw->rsrcs.sn_groups[group_id].sequence_numbers_per_queue; +} + +/** + * 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, u32 group_id) +{ + if (group_id >= DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) + return -EINVAL; + + return dlb2_sn_group_used_slots(&hw->rsrcs.sn_groups[group_id]); +} + +static void dlb2_log_set_group_sequence_numbers(struct dlb2_hw *hw, + u32 group_id, + u32 val) +{ + DLB2_HW_DBG(hw, "DLB2 set group sequence numbers:\n"); + DLB2_HW_DBG(hw, "\tGroup ID: %u\n", group_id); + DLB2_HW_DBG(hw, "\tValue: %u\n", val); +} + +/** + * 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, + u32 group_id, + u32 val) +{ + const u32 valid_allocations[] = {64, 128, 256, 512, 1024}; + struct dlb2_sn_group *group; + u32 sn_mode = 0; + int mode; + + if (group_id >= DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) + return -EINVAL; + + group = &hw->rsrcs.sn_groups[group_id]; + + /* + * Once the first load-balanced queue using an SN group is configured, + * the group cannot be changed. + */ + if (group->slot_use_bitmap != 0) + return -EPERM; + + for (mode = 0; mode < DLB2_MAX_NUM_SEQUENCE_NUMBER_MODES; mode++) + if (val == valid_allocations[mode]) + break; + + if (mode == DLB2_MAX_NUM_SEQUENCE_NUMBER_MODES) + return -EINVAL; + + group->mode = mode; + group->sequence_numbers_per_queue = val; + + DLB2_BITS_SET(sn_mode, hw->rsrcs.sn_groups[0].mode, + DLB2_RO_GRP_SN_MODE_SN_MODE_0); + DLB2_BITS_SET(sn_mode, hw->rsrcs.sn_groups[1].mode, + DLB2_RO_GRP_SN_MODE_SN_MODE_1); + + DLB2_CSR_WR(hw, DLB2_RO_GRP_SN_MODE(hw->ver), sn_mode); + + dlb2_log_set_group_sequence_numbers(hw, group_id, val); + + return 0; +} + diff --git a/drivers/event/dlb2/pf/base/dlb2_resource_new.c b/drivers/event/dlb2/pf/base/dlb2_resource_new.c deleted file mode 100644 index 2f66b2c71d..0000000000 --- a/drivers/event/dlb2/pf/base/dlb2_resource_new.c +++ /dev/null @@ -1,6235 +0,0 @@ -/* SPDX-License-Identifier: BSD-3-Clause - * Copyright(c) 2016-2020 Intel Corporation - */ - -#define DLB2_USE_NEW_HEADERS /* TEMPORARY FOR MERGE */ - -#include "dlb2_user.h" - -#include "dlb2_hw_types_new.h" -#include "dlb2_osdep.h" -#include "dlb2_osdep_bitmap.h" -#include "dlb2_osdep_types.h" -#include "dlb2_regs_new.h" -#include "dlb2_resource.h" - -#include "../../dlb2_priv.h" -#include "../../dlb2_inline_fns.h" - -#define DLB2_DOM_LIST_HEAD(head, type) \ - DLB2_LIST_HEAD((head), type, domain_list) - -#define DLB2_FUNC_LIST_HEAD(head, type) \ - DLB2_LIST_HEAD((head), type, func_list) - -#define DLB2_DOM_LIST_FOR(head, ptr, iter) \ - DLB2_LIST_FOR_EACH(head, ptr, domain_list, iter) - -#define DLB2_FUNC_LIST_FOR(head, ptr, iter) \ - DLB2_LIST_FOR_EACH(head, ptr, func_list, iter) - -#define DLB2_DOM_LIST_FOR_SAFE(head, ptr, ptr_tmp, it, it_tmp) \ - DLB2_LIST_FOR_EACH_SAFE((head), ptr, ptr_tmp, domain_list, it, it_tmp) - -#define DLB2_FUNC_LIST_FOR_SAFE(head, ptr, ptr_tmp, it, it_tmp) \ - DLB2_LIST_FOR_EACH_SAFE((head), ptr, ptr_tmp, func_list, it, it_tmp) - -/* - * The PF driver cannot assume that a register write will affect subsequent HCW - * writes. To ensure a write completes, the driver must read back a CSR. This - * function only need be called for configuration that can occur after the - * domain has started; prior to starting, applications can't send HCWs. - */ -static inline void dlb2_flush_csr(struct dlb2_hw *hw) -{ - DLB2_CSR_RD(hw, DLB2_SYS_TOTAL_VAS(hw->ver)); -} - -static void dlb2_init_domain_rsrc_lists(struct dlb2_hw_domain *domain) -{ - int i; - - dlb2_list_init_head(&domain->used_ldb_queues); - dlb2_list_init_head(&domain->used_dir_pq_pairs); - dlb2_list_init_head(&domain->avail_ldb_queues); - dlb2_list_init_head(&domain->avail_dir_pq_pairs); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) - dlb2_list_init_head(&domain->used_ldb_ports[i]); - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) - dlb2_list_init_head(&domain->avail_ldb_ports[i]); -} - -static void dlb2_init_fn_rsrc_lists(struct dlb2_function_resources *rsrc) -{ - int i; - dlb2_list_init_head(&rsrc->avail_domains); - dlb2_list_init_head(&rsrc->used_domains); - dlb2_list_init_head(&rsrc->avail_ldb_queues); - dlb2_list_init_head(&rsrc->avail_dir_pq_pairs); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) - dlb2_list_init_head(&rsrc->avail_ldb_ports[i]); -} - -/** - * 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) -{ - int i; - - if (hw->pf.avail_hist_list_entries) - dlb2_bitmap_free(hw->pf.avail_hist_list_entries); - - for (i = 0; i < DLB2_MAX_NUM_VDEVS; i++) { - if (hw->vdev[i].avail_hist_list_entries) - dlb2_bitmap_free(hw->vdev[i].avail_hist_list_entries); - } -} - -/** - * dlb2_resource_init() - initialize the device - * @hw: pointer to struct dlb2_hw. - * @ver: device version. - * - * 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, and the dlb2_hw structure should - * be zero-initialized before calling the function. - * - * 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, enum dlb2_hw_ver ver) -{ - struct dlb2_list_entry *list; - unsigned int i; - int ret; - - /* - * For optimal load-balancing, ports that map to one or more QIDs in - * common should not be in numerical sequence. The port->QID mapping is - * application dependent, but the driver interleaves port IDs as much - * as possible to reduce the likelihood of sequential ports mapping to - * the same QID(s). This initial allocation of port IDs maximizes the - * average distance between an ID and its immediate neighbors (i.e. - * the distance from 1 to 0 and to 2, the distance from 2 to 1 and to - * 3, etc.). - */ - const u8 init_ldb_port_allocation[DLB2_MAX_NUM_LDB_PORTS] = { - 0, 7, 14, 5, 12, 3, 10, 1, 8, 15, 6, 13, 4, 11, 2, 9, - 16, 23, 30, 21, 28, 19, 26, 17, 24, 31, 22, 29, 20, 27, 18, 25, - 32, 39, 46, 37, 44, 35, 42, 33, 40, 47, 38, 45, 36, 43, 34, 41, - 48, 55, 62, 53, 60, 51, 58, 49, 56, 63, 54, 61, 52, 59, 50, 57, - }; - - hw->ver = ver; - - dlb2_init_fn_rsrc_lists(&hw->pf); - - for (i = 0; i < DLB2_MAX_NUM_VDEVS; i++) - dlb2_init_fn_rsrc_lists(&hw->vdev[i]); - - for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { - dlb2_init_domain_rsrc_lists(&hw->domains[i]); - hw->domains[i].parent_func = &hw->pf; - } - - /* Give all resources to the PF driver */ - hw->pf.num_avail_domains = DLB2_MAX_NUM_DOMAINS; - for (i = 0; i < hw->pf.num_avail_domains; i++) { - list = &hw->domains[i].func_list; - - dlb2_list_add(&hw->pf.avail_domains, list); - } - - hw->pf.num_avail_ldb_queues = DLB2_MAX_NUM_LDB_QUEUES; - for (i = 0; i < hw->pf.num_avail_ldb_queues; i++) { - list = &hw->rsrcs.ldb_queues[i].func_list; - - dlb2_list_add(&hw->pf.avail_ldb_queues, list); - } - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) - hw->pf.num_avail_ldb_ports[i] = - DLB2_MAX_NUM_LDB_PORTS / DLB2_NUM_COS_DOMAINS; - - for (i = 0; i < DLB2_MAX_NUM_LDB_PORTS; i++) { - int cos_id = i >> DLB2_NUM_COS_DOMAINS; - struct dlb2_ldb_port *port; - - port = &hw->rsrcs.ldb_ports[init_ldb_port_allocation[i]]; - - dlb2_list_add(&hw->pf.avail_ldb_ports[cos_id], - &port->func_list); - } - - hw->pf.num_avail_dir_pq_pairs = DLB2_MAX_NUM_DIR_PORTS(hw->ver); - for (i = 0; i < hw->pf.num_avail_dir_pq_pairs; i++) { - list = &hw->rsrcs.dir_pq_pairs[i].func_list; - - dlb2_list_add(&hw->pf.avail_dir_pq_pairs, list); - } - - if (hw->ver == DLB2_HW_V2) { - hw->pf.num_avail_qed_entries = DLB2_MAX_NUM_LDB_CREDITS; - hw->pf.num_avail_dqed_entries = - DLB2_MAX_NUM_DIR_CREDITS(hw->ver); - } else { - hw->pf.num_avail_entries = DLB2_MAX_NUM_CREDITS(hw->ver); - } - - hw->pf.num_avail_aqed_entries = DLB2_MAX_NUM_AQED_ENTRIES; - - ret = dlb2_bitmap_alloc(&hw->pf.avail_hist_list_entries, - DLB2_MAX_NUM_HIST_LIST_ENTRIES); - if (ret) - goto unwind; - - ret = dlb2_bitmap_fill(hw->pf.avail_hist_list_entries); - if (ret) - goto unwind; - - for (i = 0; i < DLB2_MAX_NUM_VDEVS; i++) { - ret = dlb2_bitmap_alloc(&hw->vdev[i].avail_hist_list_entries, - DLB2_MAX_NUM_HIST_LIST_ENTRIES); - if (ret) - goto unwind; - - ret = dlb2_bitmap_zero(hw->vdev[i].avail_hist_list_entries); - if (ret) - goto unwind; - } - - /* Initialize the hardware resource IDs */ - for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { - hw->domains[i].id.phys_id = i; - hw->domains[i].id.vdev_owned = false; - } - - for (i = 0; i < DLB2_MAX_NUM_LDB_QUEUES; i++) { - hw->rsrcs.ldb_queues[i].id.phys_id = i; - hw->rsrcs.ldb_queues[i].id.vdev_owned = false; - } - - for (i = 0; i < DLB2_MAX_NUM_LDB_PORTS; i++) { - hw->rsrcs.ldb_ports[i].id.phys_id = i; - hw->rsrcs.ldb_ports[i].id.vdev_owned = false; - } - - for (i = 0; i < DLB2_MAX_NUM_DIR_PORTS(hw->ver); i++) { - hw->rsrcs.dir_pq_pairs[i].id.phys_id = i; - hw->rsrcs.dir_pq_pairs[i].id.vdev_owned = false; - } - - for (i = 0; i < DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS; i++) { - hw->rsrcs.sn_groups[i].id = i; - /* Default mode (0) is 64 sequence numbers per queue */ - hw->rsrcs.sn_groups[i].mode = 0; - hw->rsrcs.sn_groups[i].sequence_numbers_per_queue = 64; - hw->rsrcs.sn_groups[i].slot_use_bitmap = 0; - } - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) - hw->cos_reservation[i] = 100 / DLB2_NUM_COS_DOMAINS; - - return 0; - -unwind: - dlb2_resource_free(hw); - - return ret; -} - -/** - * dlb2_clr_pmcsr_disable() - power on bulk of DLB 2.0 logic - * @hw: dlb2_hw handle for a particular device. - * @ver: device version. - * - * Clearing the PMCSR must be done at initialization to make the device fully - * operational. - */ -void dlb2_clr_pmcsr_disable(struct dlb2_hw *hw, enum dlb2_hw_ver ver) -{ - u32 pmcsr_dis; - - pmcsr_dis = DLB2_CSR_RD(hw, DLB2_CM_CFG_PM_PMCSR_DISABLE(ver)); - - DLB2_BITS_CLR(pmcsr_dis, DLB2_CM_CFG_PM_PMCSR_DISABLE_DISABLE); - - DLB2_CSR_WR(hw, DLB2_CM_CFG_PM_PMCSR_DISABLE(ver), pmcsr_dis); -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_function_resources *rsrcs; - struct dlb2_bitmap *map; - int i; - - if (vdev_req && vdev_id >= DLB2_MAX_NUM_VDEVS) - return -EINVAL; - - if (vdev_req) - rsrcs = &hw->vdev[vdev_id]; - else - rsrcs = &hw->pf; - - arg->num_sched_domains = rsrcs->num_avail_domains; - - arg->num_ldb_queues = rsrcs->num_avail_ldb_queues; - - arg->num_ldb_ports = 0; - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) - arg->num_ldb_ports += rsrcs->num_avail_ldb_ports[i]; - - arg->num_cos_ldb_ports[0] = rsrcs->num_avail_ldb_ports[0]; - arg->num_cos_ldb_ports[1] = rsrcs->num_avail_ldb_ports[1]; - arg->num_cos_ldb_ports[2] = rsrcs->num_avail_ldb_ports[2]; - arg->num_cos_ldb_ports[3] = rsrcs->num_avail_ldb_ports[3]; - - arg->num_dir_ports = rsrcs->num_avail_dir_pq_pairs; - - arg->num_atomic_inflights = rsrcs->num_avail_aqed_entries; - - map = rsrcs->avail_hist_list_entries; - - arg->num_hist_list_entries = dlb2_bitmap_count(map); - - arg->max_contiguous_hist_list_entries = - dlb2_bitmap_longest_set_range(map); - - if (hw->ver == DLB2_HW_V2) { - arg->num_ldb_credits = rsrcs->num_avail_qed_entries; - arg->num_dir_credits = rsrcs->num_avail_dqed_entries; - } else { - arg->num_credits = rsrcs->num_avail_entries; - } - return 0; -} - -static void dlb2_configure_domain_credits_v2_5(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - u32 reg = 0; - - DLB2_BITS_SET(reg, domain->num_credits, DLB2_CHP_CFG_LDB_VAS_CRD_COUNT); - DLB2_CSR_WR(hw, DLB2_CHP_CFG_VAS_CRD(domain->id.phys_id), reg); -} - -static void dlb2_configure_domain_credits_v2(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - u32 reg = 0; - - DLB2_BITS_SET(reg, domain->num_ldb_credits, - DLB2_CHP_CFG_LDB_VAS_CRD_COUNT); - DLB2_CSR_WR(hw, DLB2_CHP_CFG_LDB_VAS_CRD(domain->id.phys_id), reg); - - reg = 0; - DLB2_BITS_SET(reg, domain->num_dir_credits, - DLB2_CHP_CFG_DIR_VAS_CRD_COUNT); - DLB2_CSR_WR(hw, DLB2_CHP_CFG_DIR_VAS_CRD(domain->id.phys_id), reg); -} - -static void dlb2_configure_domain_credits(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - if (hw->ver == DLB2_HW_V2) - dlb2_configure_domain_credits_v2(hw, domain); - else - dlb2_configure_domain_credits_v2_5(hw, domain); -} - -static int dlb2_attach_credits(struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_credits, - struct dlb2_cmd_response *resp) -{ - if (rsrcs->num_avail_entries < num_credits) { - resp->status = DLB2_ST_CREDITS_UNAVAILABLE; - return -EINVAL; - } - - rsrcs->num_avail_entries -= num_credits; - domain->num_credits += num_credits; - return 0; -} - -static struct dlb2_ldb_port * -dlb2_get_next_ldb_port(struct dlb2_hw *hw, - struct dlb2_function_resources *rsrcs, - u32 domain_id, - u32 cos_id) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - RTE_SET_USED(iter); - - /* - * To reduce the odds of consecutive load-balanced ports mapping to the - * same queue(s), the driver attempts to allocate ports whose neighbors - * are owned by a different domain. - */ - DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_ports[cos_id], port, iter) { - u32 next, prev; - u32 phys_id; - - phys_id = port->id.phys_id; - next = phys_id + 1; - prev = phys_id - 1; - - if (phys_id == DLB2_MAX_NUM_LDB_PORTS - 1) - next = 0; - if (phys_id == 0) - prev = DLB2_MAX_NUM_LDB_PORTS - 1; - - if (!hw->rsrcs.ldb_ports[next].owned || - hw->rsrcs.ldb_ports[next].domain_id.phys_id == domain_id) - continue; - - if (!hw->rsrcs.ldb_ports[prev].owned || - hw->rsrcs.ldb_ports[prev].domain_id.phys_id == domain_id) - continue; - - return port; - } - - /* - * Failing that, the driver looks for a port with one neighbor owned by - * a different domain and the other unallocated. - */ - DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_ports[cos_id], port, iter) { - u32 next, prev; - u32 phys_id; - - phys_id = port->id.phys_id; - next = phys_id + 1; - prev = phys_id - 1; - - if (phys_id == DLB2_MAX_NUM_LDB_PORTS - 1) - next = 0; - if (phys_id == 0) - prev = DLB2_MAX_NUM_LDB_PORTS - 1; - - if (!hw->rsrcs.ldb_ports[prev].owned && - hw->rsrcs.ldb_ports[next].owned && - hw->rsrcs.ldb_ports[next].domain_id.phys_id != domain_id) - return port; - - if (!hw->rsrcs.ldb_ports[next].owned && - hw->rsrcs.ldb_ports[prev].owned && - hw->rsrcs.ldb_ports[prev].domain_id.phys_id != domain_id) - return port; - } - - /* - * Failing that, the driver looks for a port with both neighbors - * unallocated. - */ - DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_ports[cos_id], port, iter) { - u32 next, prev; - u32 phys_id; - - phys_id = port->id.phys_id; - next = phys_id + 1; - prev = phys_id - 1; - - if (phys_id == DLB2_MAX_NUM_LDB_PORTS - 1) - next = 0; - if (phys_id == 0) - prev = DLB2_MAX_NUM_LDB_PORTS - 1; - - if (!hw->rsrcs.ldb_ports[prev].owned && - !hw->rsrcs.ldb_ports[next].owned) - return port; - } - - /* If all else fails, the driver returns the next available port. */ - return DLB2_FUNC_LIST_HEAD(rsrcs->avail_ldb_ports[cos_id], - typeof(*port)); -} - -static int __dlb2_attach_ldb_ports(struct dlb2_hw *hw, - struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_ports, - u32 cos_id, - struct dlb2_cmd_response *resp) -{ - unsigned int i; - - if (rsrcs->num_avail_ldb_ports[cos_id] < num_ports) { - resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; - return -EINVAL; - } - - for (i = 0; i < num_ports; i++) { - struct dlb2_ldb_port *port; - - port = dlb2_get_next_ldb_port(hw, rsrcs, - domain->id.phys_id, cos_id); - if (port == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: domain validation failed\n", - __func__); - return -EFAULT; - } - - dlb2_list_del(&rsrcs->avail_ldb_ports[cos_id], - &port->func_list); - - port->domain_id = domain->id; - port->owned = true; - - dlb2_list_add(&domain->avail_ldb_ports[cos_id], - &port->domain_list); - } - - rsrcs->num_avail_ldb_ports[cos_id] -= num_ports; - - return 0; -} - - -static int dlb2_attach_ldb_ports(struct dlb2_hw *hw, - struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - struct dlb2_create_sched_domain_args *args, - struct dlb2_cmd_response *resp) -{ - unsigned int i, j; - int ret; - - if (args->cos_strict) { - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - u32 num = args->num_cos_ldb_ports[i]; - - /* Allocate ports from specific classes-of-service */ - ret = __dlb2_attach_ldb_ports(hw, - rsrcs, - domain, - num, - i, - resp); - if (ret) - return ret; - } - } else { - unsigned int k; - u32 cos_id; - - /* - * Attempt to allocate from specific class-of-service, but - * fallback to the other classes if that fails. - */ - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - for (j = 0; j < args->num_cos_ldb_ports[i]; j++) { - for (k = 0; k < DLB2_NUM_COS_DOMAINS; k++) { - cos_id = (i + k) % DLB2_NUM_COS_DOMAINS; - - ret = __dlb2_attach_ldb_ports(hw, - rsrcs, - domain, - 1, - cos_id, - resp); - if (ret == 0) - break; - } - - if (ret) - return ret; - } - } - } - - /* Allocate num_ldb_ports from any class-of-service */ - for (i = 0; i < args->num_ldb_ports; i++) { - for (j = 0; j < DLB2_NUM_COS_DOMAINS; j++) { - ret = __dlb2_attach_ldb_ports(hw, - rsrcs, - domain, - 1, - j, - resp); - if (ret == 0) - break; - } - - if (ret) - return ret; - } - - return 0; -} - -static int dlb2_attach_dir_ports(struct dlb2_hw *hw, - struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_ports, - struct dlb2_cmd_response *resp) -{ - unsigned int i; - - if (rsrcs->num_avail_dir_pq_pairs < num_ports) { - resp->status = DLB2_ST_DIR_PORTS_UNAVAILABLE; - return -EINVAL; - } - - for (i = 0; i < num_ports; i++) { - struct dlb2_dir_pq_pair *port; - - port = DLB2_FUNC_LIST_HEAD(rsrcs->avail_dir_pq_pairs, - typeof(*port)); - if (port == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: domain validation failed\n", - __func__); - return -EFAULT; - } - - dlb2_list_del(&rsrcs->avail_dir_pq_pairs, &port->func_list); - - port->domain_id = domain->id; - port->owned = true; - - dlb2_list_add(&domain->avail_dir_pq_pairs, &port->domain_list); - } - - rsrcs->num_avail_dir_pq_pairs -= num_ports; - - return 0; -} - -static int dlb2_attach_ldb_credits(struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_credits, - struct dlb2_cmd_response *resp) -{ - if (rsrcs->num_avail_qed_entries < num_credits) { - resp->status = DLB2_ST_LDB_CREDITS_UNAVAILABLE; - return -EINVAL; - } - - rsrcs->num_avail_qed_entries -= num_credits; - domain->num_ldb_credits += num_credits; - return 0; -} - -static int dlb2_attach_dir_credits(struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_credits, - struct dlb2_cmd_response *resp) -{ - if (rsrcs->num_avail_dqed_entries < num_credits) { - resp->status = DLB2_ST_DIR_CREDITS_UNAVAILABLE; - return -EINVAL; - } - - rsrcs->num_avail_dqed_entries -= num_credits; - domain->num_dir_credits += num_credits; - return 0; -} - - -static int dlb2_attach_atomic_inflights(struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_atomic_inflights, - struct dlb2_cmd_response *resp) -{ - if (rsrcs->num_avail_aqed_entries < num_atomic_inflights) { - resp->status = DLB2_ST_ATOMIC_INFLIGHTS_UNAVAILABLE; - return -EINVAL; - } - - rsrcs->num_avail_aqed_entries -= num_atomic_inflights; - domain->num_avail_aqed_entries += num_atomic_inflights; - return 0; -} - -static int -dlb2_attach_domain_hist_list_entries(struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_hist_list_entries, - struct dlb2_cmd_response *resp) -{ - struct dlb2_bitmap *bitmap; - int base; - - if (num_hist_list_entries) { - bitmap = rsrcs->avail_hist_list_entries; - - base = dlb2_bitmap_find_set_bit_range(bitmap, - num_hist_list_entries); - if (base < 0) - goto error; - - domain->total_hist_list_entries = num_hist_list_entries; - domain->avail_hist_list_entries = num_hist_list_entries; - domain->hist_list_entry_base = base; - domain->hist_list_entry_offset = 0; - - dlb2_bitmap_clear_range(bitmap, base, num_hist_list_entries); - } - return 0; - -error: - resp->status = DLB2_ST_HIST_LIST_ENTRIES_UNAVAILABLE; - return -EINVAL; -} - -static int dlb2_attach_ldb_queues(struct dlb2_hw *hw, - struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - u32 num_queues, - struct dlb2_cmd_response *resp) -{ - unsigned int i; - - if (rsrcs->num_avail_ldb_queues < num_queues) { - resp->status = DLB2_ST_LDB_QUEUES_UNAVAILABLE; - return -EINVAL; - } - - for (i = 0; i < num_queues; i++) { - struct dlb2_ldb_queue *queue; - - queue = DLB2_FUNC_LIST_HEAD(rsrcs->avail_ldb_queues, - typeof(*queue)); - if (queue == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: domain validation failed\n", - __func__); - return -EFAULT; - } - - dlb2_list_del(&rsrcs->avail_ldb_queues, &queue->func_list); - - queue->domain_id = domain->id; - queue->owned = true; - - dlb2_list_add(&domain->avail_ldb_queues, &queue->domain_list); - } - - rsrcs->num_avail_ldb_queues -= num_queues; - - return 0; -} - -static int -dlb2_domain_attach_resources(struct dlb2_hw *hw, - struct dlb2_function_resources *rsrcs, - struct dlb2_hw_domain *domain, - struct dlb2_create_sched_domain_args *args, - struct dlb2_cmd_response *resp) -{ - int ret; - - ret = dlb2_attach_ldb_queues(hw, - rsrcs, - domain, - args->num_ldb_queues, - resp); - if (ret) - return ret; - - ret = dlb2_attach_ldb_ports(hw, - rsrcs, - domain, - args, - resp); - if (ret) - return ret; - - ret = dlb2_attach_dir_ports(hw, - rsrcs, - domain, - args->num_dir_ports, - resp); - if (ret) - return ret; - - if (hw->ver == DLB2_HW_V2) { - ret = dlb2_attach_ldb_credits(rsrcs, - domain, - args->num_ldb_credits, - resp); - if (ret) - return ret; - - ret = dlb2_attach_dir_credits(rsrcs, - domain, - args->num_dir_credits, - resp); - if (ret) - return ret; - } else { /* DLB 2.5 */ - ret = dlb2_attach_credits(rsrcs, - domain, - args->num_credits, - resp); - if (ret) - return ret; - } - - ret = dlb2_attach_domain_hist_list_entries(rsrcs, - domain, - args->num_hist_list_entries, - resp); - if (ret) - return ret; - - ret = dlb2_attach_atomic_inflights(rsrcs, - domain, - args->num_atomic_inflights, - resp); - if (ret) - return ret; - - dlb2_configure_domain_credits(hw, domain); - - domain->configured = true; - - domain->started = false; - - rsrcs->num_avail_domains--; - - return 0; -} - -static int -dlb2_verify_create_sched_dom_args(struct dlb2_function_resources *rsrcs, - struct dlb2_create_sched_domain_args *args, - struct dlb2_cmd_response *resp, - struct dlb2_hw *hw, - struct dlb2_hw_domain **out_domain) -{ - u32 num_avail_ldb_ports, req_ldb_ports; - struct dlb2_bitmap *avail_hl_entries; - unsigned int max_contig_hl_range; - struct dlb2_hw_domain *domain; - int i; - - avail_hl_entries = rsrcs->avail_hist_list_entries; - - max_contig_hl_range = dlb2_bitmap_longest_set_range(avail_hl_entries); - - num_avail_ldb_ports = 0; - req_ldb_ports = 0; - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - num_avail_ldb_ports += rsrcs->num_avail_ldb_ports[i]; - - req_ldb_ports += args->num_cos_ldb_ports[i]; - } - - req_ldb_ports += args->num_ldb_ports; - - if (rsrcs->num_avail_domains < 1) { - resp->status = DLB2_ST_DOMAIN_UNAVAILABLE; - return -EINVAL; - } - - domain = DLB2_FUNC_LIST_HEAD(rsrcs->avail_domains, typeof(*domain)); - if (domain == NULL) { - resp->status = DLB2_ST_DOMAIN_UNAVAILABLE; - return -EFAULT; - } - - if (rsrcs->num_avail_ldb_queues < args->num_ldb_queues) { - resp->status = DLB2_ST_LDB_QUEUES_UNAVAILABLE; - return -EINVAL; - } - - if (req_ldb_ports > num_avail_ldb_ports) { - resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; - return -EINVAL; - } - - for (i = 0; args->cos_strict && i < DLB2_NUM_COS_DOMAINS; i++) { - if (args->num_cos_ldb_ports[i] > - rsrcs->num_avail_ldb_ports[i]) { - resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; - return -EINVAL; - } - } - - if (args->num_ldb_queues > 0 && req_ldb_ports == 0) { - resp->status = DLB2_ST_LDB_PORT_REQUIRED_FOR_LDB_QUEUES; - return -EINVAL; - } - - if (rsrcs->num_avail_dir_pq_pairs < args->num_dir_ports) { - resp->status = DLB2_ST_DIR_PORTS_UNAVAILABLE; - return -EINVAL; - } - if (hw->ver == DLB2_HW_V2_5) { - if (rsrcs->num_avail_entries < args->num_credits) { - resp->status = DLB2_ST_CREDITS_UNAVAILABLE; - return -EINVAL; - } - } else { - if (rsrcs->num_avail_qed_entries < args->num_ldb_credits) { - resp->status = DLB2_ST_LDB_CREDITS_UNAVAILABLE; - return -EINVAL; - } - if (rsrcs->num_avail_dqed_entries < args->num_dir_credits) { - resp->status = DLB2_ST_DIR_CREDITS_UNAVAILABLE; - return -EINVAL; - } - } - - if (rsrcs->num_avail_aqed_entries < args->num_atomic_inflights) { - resp->status = DLB2_ST_ATOMIC_INFLIGHTS_UNAVAILABLE; - return -EINVAL; - } - - if (max_contig_hl_range < args->num_hist_list_entries) { - resp->status = DLB2_ST_HIST_LIST_ENTRIES_UNAVAILABLE; - return -EINVAL; - } - - *out_domain = domain; - - return 0; -} - -static void -dlb2_log_create_sched_domain_args(struct dlb2_hw *hw, - struct dlb2_create_sched_domain_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 create sched domain arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tNumber of LDB queues: %d\n", - args->num_ldb_queues); - DLB2_HW_DBG(hw, "\tNumber of LDB ports (any CoS): %d\n", - args->num_ldb_ports); - DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 0): %d\n", - args->num_cos_ldb_ports[0]); - DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 1): %d\n", - args->num_cos_ldb_ports[1]); - DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 2): %d\n", - args->num_cos_ldb_ports[2]); - DLB2_HW_DBG(hw, "\tNumber of LDB ports (CoS 3): %d\n", - args->num_cos_ldb_ports[3]); - DLB2_HW_DBG(hw, "\tStrict CoS allocation: %d\n", - args->cos_strict); - DLB2_HW_DBG(hw, "\tNumber of DIR ports: %d\n", - args->num_dir_ports); - DLB2_HW_DBG(hw, "\tNumber of ATM inflights: %d\n", - args->num_atomic_inflights); - DLB2_HW_DBG(hw, "\tNumber of hist list entries: %d\n", - args->num_hist_list_entries); - if (hw->ver == DLB2_HW_V2) { - DLB2_HW_DBG(hw, "\tNumber of LDB credits: %d\n", - args->num_ldb_credits); - DLB2_HW_DBG(hw, "\tNumber of DIR credits: %d\n", - args->num_dir_credits); - } else { - DLB2_HW_DBG(hw, "\tNumber of credits: %d\n", - args->num_credits); - } -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_function_resources *rsrcs; - struct dlb2_hw_domain *domain; - int ret; - - rsrcs = (vdev_req) ? &hw->vdev[vdev_id] : &hw->pf; - - dlb2_log_create_sched_domain_args(hw, args, vdev_req, vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_create_sched_dom_args(rsrcs, args, resp, hw, &domain); - if (ret) - return ret; - - dlb2_init_domain_rsrc_lists(domain); - - ret = dlb2_domain_attach_resources(hw, rsrcs, domain, args, resp); - if (ret) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to verify args.\n", - __func__); - - return ret; - } - - dlb2_list_del(&rsrcs->avail_domains, &domain->func_list); - - dlb2_list_add(&rsrcs->used_domains, &domain->func_list); - - resp->id = (vdev_req) ? domain->id.virt_id : domain->id.phys_id; - resp->status = 0; - - return 0; -} - -static void dlb2_dir_port_cq_disable(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *port) -{ - u32 reg = 0; - - DLB2_BIT_SET(reg, DLB2_LSP_CQ_DIR_DSBL_DISABLED); - DLB2_CSR_WR(hw, DLB2_LSP_CQ_DIR_DSBL(hw->ver, port->id.phys_id), reg); - - dlb2_flush_csr(hw); -} - -static u32 dlb2_dir_cq_token_count(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *port) -{ - u32 cnt; - - cnt = DLB2_CSR_RD(hw, - DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id)); - - /* - * Account for the initial token count, which is used in order to - * provide a CQ with depth less than 8. - */ - - return DLB2_BITS_GET(cnt, DLB2_LSP_CQ_DIR_TKN_CNT_COUNT) - - port->init_tkn_cnt; -} - -static void dlb2_drain_dir_cq(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *port) -{ - unsigned int port_id = port->id.phys_id; - u32 cnt; - - /* Return any outstanding tokens */ - cnt = dlb2_dir_cq_token_count(hw, port); - - if (cnt != 0) { - struct dlb2_hcw hcw_mem[8], *hcw; - void __iomem *pp_addr; - - pp_addr = os_map_producer_port(hw, port_id, false); - - /* Point hcw to a 64B-aligned location */ - hcw = (struct dlb2_hcw *)((uintptr_t)&hcw_mem[4] & ~0x3F); - - /* - * Program the first HCW for a batch token return and - * the rest as NOOPS - */ - memset(hcw, 0, 4 * sizeof(*hcw)); - hcw->cq_token = 1; - hcw->lock_id = cnt - 1; - - dlb2_movdir64b(pp_addr, hcw); - - os_fence_hcw(hw, pp_addr); - - os_unmap_producer_port(hw, pp_addr); - } -} - -static void dlb2_dir_port_cq_enable(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *port) -{ - u32 reg = 0; - - DLB2_CSR_WR(hw, DLB2_LSP_CQ_DIR_DSBL(hw->ver, port->id.phys_id), reg); - - dlb2_flush_csr(hw); -} - -static int dlb2_domain_drain_dir_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - bool toggle_port) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { - /* - * Can't drain a port if it's not configured, and there's - * nothing to drain if its queue is unconfigured. - */ - if (!port->port_configured || !port->queue_configured) - continue; - - if (toggle_port) - dlb2_dir_port_cq_disable(hw, port); - - dlb2_drain_dir_cq(hw, port); - - if (toggle_port) - dlb2_dir_port_cq_enable(hw, port); - } - - return 0; -} - -static u32 dlb2_dir_queue_depth(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *queue) -{ - u32 cnt; - - cnt = DLB2_CSR_RD(hw, DLB2_LSP_QID_DIR_ENQUEUE_CNT(hw->ver, - queue->id.phys_id)); - - return DLB2_BITS_GET(cnt, DLB2_LSP_QID_DIR_ENQUEUE_CNT_COUNT); -} - -static bool dlb2_dir_queue_is_empty(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *queue) -{ - return dlb2_dir_queue_depth(hw, queue) == 0; -} - -static bool dlb2_domain_dir_queues_empty(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *queue; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, queue, iter) { - if (!dlb2_dir_queue_is_empty(hw, queue)) - return false; - } - - return true; -} -static int dlb2_domain_drain_dir_queues(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - int i; - - /* If the domain hasn't been started, there's no traffic to drain */ - if (!domain->started) - return 0; - - for (i = 0; i < DLB2_MAX_QID_EMPTY_CHECK_LOOPS; i++) { - dlb2_domain_drain_dir_cqs(hw, domain, true); - - if (dlb2_domain_dir_queues_empty(hw, domain)) - break; - } - - if (i == DLB2_MAX_QID_EMPTY_CHECK_LOOPS) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to empty queues\n", - __func__); - return -EFAULT; - } - - /* - * Drain the CQs one more time. For the queues to go empty, they would - * have scheduled one or more QEs. - */ - dlb2_domain_drain_dir_cqs(hw, domain, true); - - return 0; -} - -static void dlb2_ldb_port_cq_enable(struct dlb2_hw *hw, - struct dlb2_ldb_port *port) -{ - u32 reg = 0; - - /* - * Don't re-enable the port if a removal is pending. The caller should - * mark this port as enabled (if it isn't already), and when the - * removal completes the port will be enabled. - */ - if (port->num_pending_removals) - return; - - DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_DSBL(hw->ver, port->id.phys_id), reg); - - dlb2_flush_csr(hw); -} - -static void dlb2_ldb_port_cq_disable(struct dlb2_hw *hw, - struct dlb2_ldb_port *port) -{ - u32 reg = 0; - - DLB2_BIT_SET(reg, DLB2_LSP_CQ_LDB_DSBL_DISABLED); - DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_DSBL(hw->ver, port->id.phys_id), reg); - - dlb2_flush_csr(hw); -} - -static u32 dlb2_ldb_cq_inflight_count(struct dlb2_hw *hw, - struct dlb2_ldb_port *port) -{ - u32 cnt; - - cnt = DLB2_CSR_RD(hw, - DLB2_LSP_CQ_LDB_INFL_CNT(hw->ver, port->id.phys_id)); - - return DLB2_BITS_GET(cnt, DLB2_LSP_CQ_LDB_INFL_CNT_COUNT); -} - -static u32 dlb2_ldb_cq_token_count(struct dlb2_hw *hw, - struct dlb2_ldb_port *port) -{ - u32 cnt; - - cnt = DLB2_CSR_RD(hw, - DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id)); - - /* - * Account for the initial token count, which is used in order to - * provide a CQ with depth less than 8. - */ - - return DLB2_BITS_GET(cnt, DLB2_LSP_CQ_LDB_TKN_CNT_TOKEN_COUNT) - - port->init_tkn_cnt; -} - -static void dlb2_drain_ldb_cq(struct dlb2_hw *hw, struct dlb2_ldb_port *port) -{ - u32 infl_cnt, tkn_cnt; - unsigned int i; - - infl_cnt = dlb2_ldb_cq_inflight_count(hw, port); - tkn_cnt = dlb2_ldb_cq_token_count(hw, port); - - if (infl_cnt || tkn_cnt) { - struct dlb2_hcw hcw_mem[8], *hcw; - void __iomem *pp_addr; - - pp_addr = os_map_producer_port(hw, port->id.phys_id, true); - - /* Point hcw to a 64B-aligned location */ - hcw = (struct dlb2_hcw *)((uintptr_t)&hcw_mem[4] & ~0x3F); - - /* - * Program the first HCW for a completion and token return and - * the other HCWs as NOOPS - */ - - memset(hcw, 0, 4 * sizeof(*hcw)); - hcw->qe_comp = (infl_cnt > 0); - hcw->cq_token = (tkn_cnt > 0); - hcw->lock_id = tkn_cnt - 1; - - /* Return tokens in the first HCW */ - dlb2_movdir64b(pp_addr, hcw); - - hcw->cq_token = 0; - - /* Issue remaining completions (if any) */ - for (i = 1; i < infl_cnt; i++) - dlb2_movdir64b(pp_addr, hcw); - - os_fence_hcw(hw, pp_addr); - - os_unmap_producer_port(hw, pp_addr); - } -} - -static void dlb2_domain_drain_ldb_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - bool toggle_port) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - /* If the domain hasn't been started, there's no traffic to drain */ - if (!domain->started) - return; - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - if (toggle_port) - dlb2_ldb_port_cq_disable(hw, port); - - dlb2_drain_ldb_cq(hw, port); - - if (toggle_port) - dlb2_ldb_port_cq_enable(hw, port); - } - } -} - -static u32 dlb2_ldb_queue_depth(struct dlb2_hw *hw, - struct dlb2_ldb_queue *queue) -{ - u32 aqed, ldb, atm; - - aqed = DLB2_CSR_RD(hw, DLB2_LSP_QID_AQED_ACTIVE_CNT(hw->ver, - queue->id.phys_id)); - ldb = DLB2_CSR_RD(hw, DLB2_LSP_QID_LDB_ENQUEUE_CNT(hw->ver, - queue->id.phys_id)); - atm = DLB2_CSR_RD(hw, - DLB2_LSP_QID_ATM_ACTIVE(hw->ver, queue->id.phys_id)); - - return DLB2_BITS_GET(aqed, DLB2_LSP_QID_AQED_ACTIVE_CNT_COUNT) - + DLB2_BITS_GET(ldb, DLB2_LSP_QID_LDB_ENQUEUE_CNT_COUNT) - + DLB2_BITS_GET(atm, DLB2_LSP_QID_ATM_ACTIVE_COUNT); -} - -static bool dlb2_ldb_queue_is_empty(struct dlb2_hw *hw, - struct dlb2_ldb_queue *queue) -{ - return dlb2_ldb_queue_depth(hw, queue) == 0; -} - -static bool dlb2_domain_mapped_queues_empty(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_queue *queue; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { - if (queue->num_mappings == 0) - continue; - - if (!dlb2_ldb_queue_is_empty(hw, queue)) - return false; - } - - return true; -} - -static int dlb2_domain_drain_mapped_queues(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - int i; - - /* If the domain hasn't been started, there's no traffic to drain */ - if (!domain->started) - return 0; - - if (domain->num_pending_removals > 0) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to unmap domain queues\n", - __func__); - return -EFAULT; - } - - for (i = 0; i < DLB2_MAX_QID_EMPTY_CHECK_LOOPS; i++) { - dlb2_domain_drain_ldb_cqs(hw, domain, true); - - if (dlb2_domain_mapped_queues_empty(hw, domain)) - break; - } - - if (i == DLB2_MAX_QID_EMPTY_CHECK_LOOPS) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to empty queues\n", - __func__); - return -EFAULT; - } - - /* - * Drain the CQs one more time. For the queues to go empty, they would - * have scheduled one or more QEs. - */ - dlb2_domain_drain_ldb_cqs(hw, domain, true); - - return 0; -} - -static void dlb2_domain_enable_ldb_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - port->enabled = true; - - dlb2_ldb_port_cq_enable(hw, port); - } - } -} - -static struct dlb2_ldb_queue * -dlb2_get_ldb_queue_from_id(struct dlb2_hw *hw, - u32 id, - bool vdev_req, - unsigned int vdev_id) -{ - struct dlb2_list_entry *iter1; - struct dlb2_list_entry *iter2; - struct dlb2_function_resources *rsrcs; - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - RTE_SET_USED(iter1); - RTE_SET_USED(iter2); - - if (id >= DLB2_MAX_NUM_LDB_QUEUES) - return NULL; - - rsrcs = (vdev_req) ? &hw->vdev[vdev_id] : &hw->pf; - - if (!vdev_req) - return &hw->rsrcs.ldb_queues[id]; - - DLB2_FUNC_LIST_FOR(rsrcs->used_domains, domain, iter1) { - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter2) { - if (queue->id.virt_id == id) - return queue; - } - } - - DLB2_FUNC_LIST_FOR(rsrcs->avail_ldb_queues, queue, iter1) { - if (queue->id.virt_id == id) - return queue; - } - - return NULL; -} - -static struct dlb2_hw_domain *dlb2_get_domain_from_id(struct dlb2_hw *hw, - u32 id, - bool vdev_req, - unsigned int vdev_id) -{ - struct dlb2_list_entry *iteration; - struct dlb2_function_resources *rsrcs; - struct dlb2_hw_domain *domain; - RTE_SET_USED(iteration); - - if (id >= DLB2_MAX_NUM_DOMAINS) - return NULL; - - if (!vdev_req) - return &hw->domains[id]; - - rsrcs = &hw->vdev[vdev_id]; - - DLB2_FUNC_LIST_FOR(rsrcs->used_domains, domain, iteration) { - if (domain->id.virt_id == id) - return domain; - } - - return NULL; -} - -static int dlb2_port_slot_state_transition(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue, - int slot, - enum dlb2_qid_map_state new_state) -{ - enum dlb2_qid_map_state curr_state = port->qid_map[slot].state; - struct dlb2_hw_domain *domain; - int domain_id; - - domain_id = port->domain_id.phys_id; - - domain = dlb2_get_domain_from_id(hw, domain_id, false, 0); - if (domain == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: unable to find domain %d\n", - __func__, domain_id); - return -EINVAL; - } - - switch (curr_state) { - case DLB2_QUEUE_UNMAPPED: - switch (new_state) { - case DLB2_QUEUE_MAPPED: - queue->num_mappings++; - port->num_mappings++; - break; - case DLB2_QUEUE_MAP_IN_PROG: - queue->num_pending_additions++; - domain->num_pending_additions++; - break; - default: - goto error; - } - break; - case DLB2_QUEUE_MAPPED: - switch (new_state) { - case DLB2_QUEUE_UNMAPPED: - queue->num_mappings--; - port->num_mappings--; - break; - case DLB2_QUEUE_UNMAP_IN_PROG: - port->num_pending_removals++; - domain->num_pending_removals++; - break; - case DLB2_QUEUE_MAPPED: - /* Priority change, nothing to update */ - break; - default: - goto error; - } - break; - case DLB2_QUEUE_MAP_IN_PROG: - switch (new_state) { - case DLB2_QUEUE_UNMAPPED: - queue->num_pending_additions--; - domain->num_pending_additions--; - break; - case DLB2_QUEUE_MAPPED: - queue->num_mappings++; - port->num_mappings++; - queue->num_pending_additions--; - domain->num_pending_additions--; - break; - default: - goto error; - } - break; - case DLB2_QUEUE_UNMAP_IN_PROG: - switch (new_state) { - case DLB2_QUEUE_UNMAPPED: - port->num_pending_removals--; - domain->num_pending_removals--; - queue->num_mappings--; - port->num_mappings--; - break; - case DLB2_QUEUE_MAPPED: - port->num_pending_removals--; - domain->num_pending_removals--; - break; - case DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP: - /* Nothing to update */ - break; - default: - goto error; - } - break; - case DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP: - switch (new_state) { - case DLB2_QUEUE_UNMAP_IN_PROG: - /* Nothing to update */ - break; - case DLB2_QUEUE_UNMAPPED: - /* - * An UNMAP_IN_PROG_PENDING_MAP slot briefly - * becomes UNMAPPED before it transitions to - * MAP_IN_PROG. - */ - queue->num_mappings--; - port->num_mappings--; - port->num_pending_removals--; - domain->num_pending_removals--; - break; - default: - goto error; - } - break; - default: - goto error; - } - - port->qid_map[slot].state = new_state; - - DLB2_HW_DBG(hw, - "[%s()] queue %d -> port %d state transition (%d -> %d)\n", - __func__, queue->id.phys_id, port->id.phys_id, - curr_state, new_state); - return 0; - -error: - DLB2_HW_ERR(hw, - "[%s()] Internal error: invalid queue %d -> port %d state transition (%d -> %d)\n", - __func__, queue->id.phys_id, port->id.phys_id, - curr_state, new_state); - return -EFAULT; -} - -static bool dlb2_port_find_slot(struct dlb2_ldb_port *port, - enum dlb2_qid_map_state state, - int *slot) -{ - int i; - - for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { - if (port->qid_map[i].state == state) - break; - } - - *slot = i; - - return (i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ); -} - -static bool dlb2_port_find_slot_queue(struct dlb2_ldb_port *port, - enum dlb2_qid_map_state state, - struct dlb2_ldb_queue *queue, - int *slot) -{ - int i; - - for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { - if (port->qid_map[i].state == state && - port->qid_map[i].qid == queue->id.phys_id) - break; - } - - *slot = i; - - return (i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ); -} - -/* - * dlb2_ldb_queue_{enable, disable}_mapped_cqs() don't operate exactly as - * their function names imply, and should only be called by the dynamic CQ - * mapping code. - */ -static void dlb2_ldb_queue_disable_mapped_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_queue *queue) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int slot, i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - enum dlb2_qid_map_state state = DLB2_QUEUE_MAPPED; - - if (!dlb2_port_find_slot_queue(port, state, - queue, &slot)) - continue; - - if (port->enabled) - dlb2_ldb_port_cq_disable(hw, port); - } - } -} - -static void dlb2_ldb_queue_enable_mapped_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_queue *queue) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int slot, i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - enum dlb2_qid_map_state state = DLB2_QUEUE_MAPPED; - - if (!dlb2_port_find_slot_queue(port, state, - queue, &slot)) - continue; - - if (port->enabled) - dlb2_ldb_port_cq_enable(hw, port); - } - } -} - -static void dlb2_ldb_port_clear_queue_if_status(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - int slot) -{ - u32 ctrl = 0; - - DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); - DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_INFLIGHT_OK_V); - - DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); - - dlb2_flush_csr(hw); -} - -static void dlb2_ldb_port_set_queue_if_status(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - int slot) -{ - u32 ctrl = 0; - - DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); - DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_VALUE); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_INFLIGHT_OK_V); - - DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); - - dlb2_flush_csr(hw); -} - -static int dlb2_ldb_port_map_qid_static(struct dlb2_hw *hw, - struct dlb2_ldb_port *p, - struct dlb2_ldb_queue *q, - u8 priority) -{ - enum dlb2_qid_map_state state; - u32 lsp_qid2cq2; - u32 lsp_qid2cq; - u32 atm_qid2cq; - u32 cq2priov; - u32 cq2qid; - int i; - - /* Look for a pending or already mapped slot, else an unused slot */ - if (!dlb2_port_find_slot_queue(p, DLB2_QUEUE_MAP_IN_PROG, q, &i) && - !dlb2_port_find_slot_queue(p, DLB2_QUEUE_MAPPED, q, &i) && - !dlb2_port_find_slot(p, DLB2_QUEUE_UNMAPPED, &i)) { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: CQ has no available QID mapping slots\n", - __func__, __LINE__); - return -EFAULT; - } - - /* Read-modify-write the priority and valid bit register */ - cq2priov = DLB2_CSR_RD(hw, DLB2_LSP_CQ2PRIOV(hw->ver, p->id.phys_id)); - - cq2priov |= (1 << (i + DLB2_LSP_CQ2PRIOV_V_LOC)) & DLB2_LSP_CQ2PRIOV_V; - cq2priov |= ((priority & 0x7) << (i + DLB2_LSP_CQ2PRIOV_PRIO_LOC) * 3) - & DLB2_LSP_CQ2PRIOV_PRIO; - - DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, p->id.phys_id), cq2priov); - - /* Read-modify-write the QID map register */ - if (i < 4) - cq2qid = DLB2_CSR_RD(hw, DLB2_LSP_CQ2QID0(hw->ver, - p->id.phys_id)); - else - cq2qid = DLB2_CSR_RD(hw, DLB2_LSP_CQ2QID1(hw->ver, - p->id.phys_id)); - - if (i == 0 || i == 4) - DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P0); - if (i == 1 || i == 5) - DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P1); - if (i == 2 || i == 6) - DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P2); - if (i == 3 || i == 7) - DLB2_BITS_SET(cq2qid, q->id.phys_id, DLB2_LSP_CQ2QID0_QID_P3); - - if (i < 4) - DLB2_CSR_WR(hw, - DLB2_LSP_CQ2QID0(hw->ver, p->id.phys_id), cq2qid); - else - DLB2_CSR_WR(hw, - DLB2_LSP_CQ2QID1(hw->ver, p->id.phys_id), cq2qid); - - atm_qid2cq = DLB2_CSR_RD(hw, - DLB2_ATM_QID2CQIDIX(q->id.phys_id, - p->id.phys_id / 4)); - - lsp_qid2cq = DLB2_CSR_RD(hw, - DLB2_LSP_QID2CQIDIX(hw->ver, q->id.phys_id, - p->id.phys_id / 4)); - - lsp_qid2cq2 = DLB2_CSR_RD(hw, - DLB2_LSP_QID2CQIDIX2(hw->ver, q->id.phys_id, - p->id.phys_id / 4)); - - switch (p->id.phys_id % 4) { - case 0: - DLB2_BIT_SET(atm_qid2cq, - 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P0_LOC)); - DLB2_BIT_SET(lsp_qid2cq, - 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P0_LOC)); - DLB2_BIT_SET(lsp_qid2cq2, - 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P0_LOC)); - break; - - case 1: - DLB2_BIT_SET(atm_qid2cq, - 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P1_LOC)); - DLB2_BIT_SET(lsp_qid2cq, - 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P1_LOC)); - DLB2_BIT_SET(lsp_qid2cq2, - 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P1_LOC)); - break; - - case 2: - DLB2_BIT_SET(atm_qid2cq, - 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P2_LOC)); - DLB2_BIT_SET(lsp_qid2cq, - 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P2_LOC)); - DLB2_BIT_SET(lsp_qid2cq2, - 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P2_LOC)); - break; - - case 3: - DLB2_BIT_SET(atm_qid2cq, - 1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P3_LOC)); - DLB2_BIT_SET(lsp_qid2cq, - 1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P3_LOC)); - DLB2_BIT_SET(lsp_qid2cq2, - 1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P3_LOC)); - break; - } - - DLB2_CSR_WR(hw, - DLB2_ATM_QID2CQIDIX(q->id.phys_id, p->id.phys_id / 4), - atm_qid2cq); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID2CQIDIX(hw->ver, - q->id.phys_id, p->id.phys_id / 4), - lsp_qid2cq); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID2CQIDIX2(hw->ver, - q->id.phys_id, p->id.phys_id / 4), - lsp_qid2cq2); - - dlb2_flush_csr(hw); - - p->qid_map[i].qid = q->id.phys_id; - p->qid_map[i].priority = priority; - - state = DLB2_QUEUE_MAPPED; - - return dlb2_port_slot_state_transition(hw, p, q, i, state); -} - -static int dlb2_ldb_port_set_has_work_bits(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue, - int slot) -{ - u32 ctrl = 0; - u32 active; - u32 enq; - - /* Set the atomic scheduling haswork bit */ - active = DLB2_CSR_RD(hw, DLB2_LSP_QID_AQED_ACTIVE_CNT(hw->ver, - queue->id.phys_id)); - - DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); - DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_VALUE); - DLB2_BITS_SET(ctrl, - DLB2_BITS_GET(active, - DLB2_LSP_QID_AQED_ACTIVE_CNT_COUNT) > 0, - DLB2_LSP_LDB_SCHED_CTRL_RLIST_HASWORK_V); - - /* Set the non-atomic scheduling haswork bit */ - DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); - - enq = DLB2_CSR_RD(hw, - DLB2_LSP_QID_LDB_ENQUEUE_CNT(hw->ver, - queue->id.phys_id)); - - memset(&ctrl, 0, sizeof(ctrl)); - - DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); - DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_VALUE); - DLB2_BITS_SET(ctrl, - DLB2_BITS_GET(enq, - DLB2_LSP_QID_LDB_ENQUEUE_CNT_COUNT) > 0, - DLB2_LSP_LDB_SCHED_CTRL_NALB_HASWORK_V); - - DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); - - dlb2_flush_csr(hw); - - return 0; -} - -static void dlb2_ldb_port_clear_has_work_bits(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - u8 slot) -{ - u32 ctrl = 0; - - DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); - DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_RLIST_HASWORK_V); - - DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); - - memset(&ctrl, 0, sizeof(ctrl)); - - DLB2_BITS_SET(ctrl, port->id.phys_id, DLB2_LSP_LDB_SCHED_CTRL_CQ); - DLB2_BITS_SET(ctrl, slot, DLB2_LSP_LDB_SCHED_CTRL_QIDIX); - DLB2_BIT_SET(ctrl, DLB2_LSP_LDB_SCHED_CTRL_NALB_HASWORK_V); - - DLB2_CSR_WR(hw, DLB2_LSP_LDB_SCHED_CTRL(hw->ver), ctrl); - - dlb2_flush_csr(hw); -} - - -static void dlb2_ldb_queue_set_inflight_limit(struct dlb2_hw *hw, - struct dlb2_ldb_queue *queue) -{ - u32 infl_lim = 0; - - DLB2_BITS_SET(infl_lim, queue->num_qid_inflights, - DLB2_LSP_QID_LDB_INFL_LIM_LIMIT); - - DLB2_CSR_WR(hw, DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, queue->id.phys_id), - infl_lim); -} - -static void dlb2_ldb_queue_clear_inflight_limit(struct dlb2_hw *hw, - struct dlb2_ldb_queue *queue) -{ - DLB2_CSR_WR(hw, - DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, queue->id.phys_id), - DLB2_LSP_QID_LDB_INFL_LIM_RST); -} - -static int dlb2_ldb_port_finish_map_qid_dynamic(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue) -{ - struct dlb2_list_entry *iter; - enum dlb2_qid_map_state state; - int slot, ret, i; - u32 infl_cnt; - u8 prio; - RTE_SET_USED(iter); - - infl_cnt = DLB2_CSR_RD(hw, - DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, - queue->id.phys_id)); - - if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: non-zero QID inflight count\n", - __func__); - return -EINVAL; - } - - /* - * Static map the port and set its corresponding has_work bits. - */ - state = DLB2_QUEUE_MAP_IN_PROG; - if (!dlb2_port_find_slot_queue(port, state, queue, &slot)) - return -EINVAL; - - prio = port->qid_map[slot].priority; - - /* - * Update the CQ2QID, CQ2PRIOV, and QID2CQIDX registers, and - * the port's qid_map state. - */ - ret = dlb2_ldb_port_map_qid_static(hw, port, queue, prio); - if (ret) - return ret; - - ret = dlb2_ldb_port_set_has_work_bits(hw, port, queue, slot); - if (ret) - return ret; - - /* - * Ensure IF_status(cq,qid) is 0 before enabling the port to - * prevent spurious schedules to cause the queue's inflight - * count to increase. - */ - dlb2_ldb_port_clear_queue_if_status(hw, port, slot); - - /* Reset the queue's inflight status */ - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - state = DLB2_QUEUE_MAPPED; - if (!dlb2_port_find_slot_queue(port, state, - queue, &slot)) - continue; - - dlb2_ldb_port_set_queue_if_status(hw, port, slot); - } - } - - dlb2_ldb_queue_set_inflight_limit(hw, queue); - - /* Re-enable CQs mapped to this queue */ - dlb2_ldb_queue_enable_mapped_cqs(hw, domain, queue); - - /* If this queue has other mappings pending, clear its inflight limit */ - if (queue->num_pending_additions > 0) - dlb2_ldb_queue_clear_inflight_limit(hw, queue); - - return 0; -} - -/** - * dlb2_ldb_port_map_qid_dynamic() - perform a "dynamic" QID->CQ mapping - * @hw: dlb2_hw handle for a particular device. - * @port: load-balanced port - * @queue: load-balanced queue - * @priority: queue servicing priority - * - * Returns 0 if the queue was mapped, 1 if the mapping is scheduled to occur - * at a later point, and <0 if an error occurred. - */ -static int dlb2_ldb_port_map_qid_dynamic(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue, - u8 priority) -{ - enum dlb2_qid_map_state state; - struct dlb2_hw_domain *domain; - int domain_id, slot, ret; - u32 infl_cnt; - - domain_id = port->domain_id.phys_id; - - domain = dlb2_get_domain_from_id(hw, domain_id, false, 0); - if (domain == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: unable to find domain %d\n", - __func__, port->domain_id.phys_id); - return -EINVAL; - } - - /* - * Set the QID inflight limit to 0 to prevent further scheduling of the - * queue. - */ - DLB2_CSR_WR(hw, DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, - queue->id.phys_id), 0); - - if (!dlb2_port_find_slot(port, DLB2_QUEUE_UNMAPPED, &slot)) { - DLB2_HW_ERR(hw, - "Internal error: No available unmapped slots\n"); - return -EFAULT; - } - - port->qid_map[slot].qid = queue->id.phys_id; - port->qid_map[slot].priority = priority; - - state = DLB2_QUEUE_MAP_IN_PROG; - ret = dlb2_port_slot_state_transition(hw, port, queue, slot, state); - if (ret) - return ret; - - infl_cnt = DLB2_CSR_RD(hw, - DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, - queue->id.phys_id)); - - if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { - /* - * The queue is owed completions so it's not safe to map it - * yet. Schedule a kernel thread to complete the mapping later, - * once software has completed all the queue's inflight events. - */ - if (!os_worker_active(hw)) - os_schedule_work(hw); - - return 1; - } - - /* - * Disable the affected CQ, and the CQs already mapped to the QID, - * before reading the QID's inflight count a second time. There is an - * unlikely race in which the QID may schedule one more QE after we - * read an inflight count of 0, and disabling the CQs guarantees that - * the race will not occur after a re-read of the inflight count - * register. - */ - if (port->enabled) - dlb2_ldb_port_cq_disable(hw, port); - - dlb2_ldb_queue_disable_mapped_cqs(hw, domain, queue); - - infl_cnt = DLB2_CSR_RD(hw, - DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, - queue->id.phys_id)); - - if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { - if (port->enabled) - dlb2_ldb_port_cq_enable(hw, port); - - dlb2_ldb_queue_enable_mapped_cqs(hw, domain, queue); - - /* - * The queue is owed completions so it's not safe to map it - * yet. Schedule a kernel thread to complete the mapping later, - * once software has completed all the queue's inflight events. - */ - if (!os_worker_active(hw)) - os_schedule_work(hw); - - return 1; - } - - return dlb2_ldb_port_finish_map_qid_dynamic(hw, domain, port, queue); -} - -static void dlb2_domain_finish_map_port(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port) -{ - int i; - - for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { - u32 infl_cnt; - struct dlb2_ldb_queue *queue; - int qid; - - if (port->qid_map[i].state != DLB2_QUEUE_MAP_IN_PROG) - continue; - - qid = port->qid_map[i].qid; - - queue = dlb2_get_ldb_queue_from_id(hw, qid, false, 0); - - if (queue == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: unable to find queue %d\n", - __func__, qid); - continue; - } - - infl_cnt = DLB2_CSR_RD(hw, - DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, qid)); - - if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) - continue; - - /* - * Disable the affected CQ, and the CQs already mapped to the - * QID, before reading the QID's inflight count a second time. - * There is an unlikely race in which the QID may schedule one - * more QE after we read an inflight count of 0, and disabling - * the CQs guarantees that the race will not occur after a - * re-read of the inflight count register. - */ - if (port->enabled) - dlb2_ldb_port_cq_disable(hw, port); - - dlb2_ldb_queue_disable_mapped_cqs(hw, domain, queue); - - infl_cnt = DLB2_CSR_RD(hw, - DLB2_LSP_QID_LDB_INFL_CNT(hw->ver, qid)); - - if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_QID_LDB_INFL_CNT_COUNT)) { - if (port->enabled) - dlb2_ldb_port_cq_enable(hw, port); - - dlb2_ldb_queue_enable_mapped_cqs(hw, domain, queue); - - continue; - } - - dlb2_ldb_port_finish_map_qid_dynamic(hw, domain, port, queue); - } -} - -static unsigned int -dlb2_domain_finish_map_qid_procedures(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - if (!domain->configured || domain->num_pending_additions == 0) - return 0; - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) - dlb2_domain_finish_map_port(hw, domain, port); - } - - return domain->num_pending_additions; -} - -static int dlb2_ldb_port_unmap_qid(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue) -{ - enum dlb2_qid_map_state mapped, in_progress, pending_map, unmapped; - u32 lsp_qid2cq2; - u32 lsp_qid2cq; - u32 atm_qid2cq; - u32 cq2priov; - u32 queue_id; - u32 port_id; - int i; - - /* Find the queue's slot */ - mapped = DLB2_QUEUE_MAPPED; - in_progress = DLB2_QUEUE_UNMAP_IN_PROG; - pending_map = DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP; - - if (!dlb2_port_find_slot_queue(port, mapped, queue, &i) && - !dlb2_port_find_slot_queue(port, in_progress, queue, &i) && - !dlb2_port_find_slot_queue(port, pending_map, queue, &i)) { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: QID %d isn't mapped\n", - __func__, __LINE__, queue->id.phys_id); - return -EFAULT; - } - - port_id = port->id.phys_id; - queue_id = queue->id.phys_id; - - /* Read-modify-write the priority and valid bit register */ - cq2priov = DLB2_CSR_RD(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port_id)); - - cq2priov &= ~(1 << (i + DLB2_LSP_CQ2PRIOV_V_LOC)); - - DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port_id), cq2priov); - - atm_qid2cq = DLB2_CSR_RD(hw, DLB2_ATM_QID2CQIDIX(queue_id, - port_id / 4)); - - lsp_qid2cq = DLB2_CSR_RD(hw, - DLB2_LSP_QID2CQIDIX(hw->ver, - queue_id, port_id / 4)); - - lsp_qid2cq2 = DLB2_CSR_RD(hw, - DLB2_LSP_QID2CQIDIX2(hw->ver, - queue_id, port_id / 4)); - - switch (port_id % 4) { - case 0: - atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P0_LOC)); - lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P0_LOC)); - lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P0_LOC)); - break; - - case 1: - atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P1_LOC)); - lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P1_LOC)); - lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P1_LOC)); - break; - - case 2: - atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P2_LOC)); - lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P2_LOC)); - lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P2_LOC)); - break; - - case 3: - atm_qid2cq &= ~(1 << (i + DLB2_ATM_QID2CQIDIX_00_CQ_P3_LOC)); - lsp_qid2cq &= ~(1 << (i + DLB2_LSP_QID2CQIDIX_00_CQ_P3_LOC)); - lsp_qid2cq2 &= ~(1 << (i + DLB2_LSP_QID2CQIDIX2_00_CQ_P3_LOC)); - break; - } - - DLB2_CSR_WR(hw, DLB2_ATM_QID2CQIDIX(queue_id, port_id / 4), atm_qid2cq); - - DLB2_CSR_WR(hw, DLB2_LSP_QID2CQIDIX(hw->ver, queue_id, port_id / 4), - lsp_qid2cq); - - DLB2_CSR_WR(hw, DLB2_LSP_QID2CQIDIX2(hw->ver, queue_id, port_id / 4), - lsp_qid2cq2); - - dlb2_flush_csr(hw); - - unmapped = DLB2_QUEUE_UNMAPPED; - - return dlb2_port_slot_state_transition(hw, port, queue, i, unmapped); -} - -static int dlb2_ldb_port_map_qid(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue, - u8 prio) -{ - if (domain->started) - return dlb2_ldb_port_map_qid_dynamic(hw, port, queue, prio); - else - return dlb2_ldb_port_map_qid_static(hw, port, queue, prio); -} - -static void -dlb2_domain_finish_unmap_port_slot(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port, - int slot) -{ - enum dlb2_qid_map_state state; - struct dlb2_ldb_queue *queue; - - queue = &hw->rsrcs.ldb_queues[port->qid_map[slot].qid]; - - state = port->qid_map[slot].state; - - /* Update the QID2CQIDX and CQ2QID vectors */ - dlb2_ldb_port_unmap_qid(hw, port, queue); - - /* - * Ensure the QID will not be serviced by this {CQ, slot} by clearing - * the has_work bits - */ - dlb2_ldb_port_clear_has_work_bits(hw, port, slot); - - /* Reset the {CQ, slot} to its default state */ - dlb2_ldb_port_set_queue_if_status(hw, port, slot); - - /* Re-enable the CQ if it was not manually disabled by the user */ - if (port->enabled) - dlb2_ldb_port_cq_enable(hw, port); - - /* - * If there is a mapping that is pending this slot's removal, perform - * the mapping now. - */ - if (state == DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP) { - struct dlb2_ldb_port_qid_map *map; - struct dlb2_ldb_queue *map_queue; - u8 prio; - - map = &port->qid_map[slot]; - - map->qid = map->pending_qid; - map->priority = map->pending_priority; - - map_queue = &hw->rsrcs.ldb_queues[map->qid]; - prio = map->priority; - - dlb2_ldb_port_map_qid(hw, domain, port, map_queue, prio); - } -} - - -static bool dlb2_domain_finish_unmap_port(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port) -{ - u32 infl_cnt; - int i; - - if (port->num_pending_removals == 0) - return false; - - /* - * The unmap requires all the CQ's outstanding inflights to be - * completed. - */ - infl_cnt = DLB2_CSR_RD(hw, DLB2_LSP_CQ_LDB_INFL_CNT(hw->ver, - port->id.phys_id)); - if (DLB2_BITS_GET(infl_cnt, DLB2_LSP_CQ_LDB_INFL_CNT_COUNT) > 0) - return false; - - for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { - struct dlb2_ldb_port_qid_map *map; - - map = &port->qid_map[i]; - - if (map->state != DLB2_QUEUE_UNMAP_IN_PROG && - map->state != DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP) - continue; - - dlb2_domain_finish_unmap_port_slot(hw, domain, port, i); - } - - return true; -} - -static unsigned int -dlb2_domain_finish_unmap_qid_procedures(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - if (!domain->configured || domain->num_pending_removals == 0) - return 0; - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) - dlb2_domain_finish_unmap_port(hw, domain, port); - } - - return domain->num_pending_removals; -} - -static void dlb2_domain_disable_ldb_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - port->enabled = false; - - dlb2_ldb_port_cq_disable(hw, port); - } - } -} - - -static void dlb2_log_reset_domain(struct dlb2_hw *hw, - u32 domain_id, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 reset domain:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); -} - -static void dlb2_domain_disable_dir_vpps(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - unsigned int vdev_id) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - u32 vpp_v = 0; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { - unsigned int offs; - u32 virt_id; - - if (hw->virt_mode == DLB2_VIRT_SRIOV) - virt_id = port->id.virt_id; - else - virt_id = port->id.phys_id; - - offs = vdev_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + virt_id; - - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VPP_V(offs), vpp_v); - } -} - -static void dlb2_domain_disable_ldb_vpps(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - unsigned int vdev_id) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - u32 vpp_v = 0; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - unsigned int offs; - u32 virt_id; - - if (hw->virt_mode == DLB2_VIRT_SRIOV) - virt_id = port->id.virt_id; - else - virt_id = port->id.phys_id; - - offs = vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; - - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP_V(offs), vpp_v); - } - } -} - -static void -dlb2_domain_disable_ldb_port_interrupts(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - u32 int_en = 0; - u32 wd_en = 0; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_INT_ENB(hw->ver, - port->id.phys_id), - int_en); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_WD_ENB(hw->ver, - port->id.phys_id), - wd_en); - } - } -} - -static void -dlb2_domain_disable_dir_port_interrupts(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - u32 int_en = 0; - u32 wd_en = 0; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_INT_ENB(hw->ver, port->id.phys_id), - int_en); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_WD_ENB(hw->ver, port->id.phys_id), - wd_en); - } -} - -static void -dlb2_domain_disable_ldb_queue_write_perms(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - int domain_offset = domain->id.phys_id * DLB2_MAX_NUM_LDB_QUEUES; - struct dlb2_list_entry *iter; - struct dlb2_ldb_queue *queue; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { - int idx = domain_offset + queue->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_VASQID_V(idx), 0); - - if (queue->id.vdev_owned) { - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_QID2VQID(queue->id.phys_id), - 0); - - idx = queue->id.vdev_id * DLB2_MAX_NUM_LDB_QUEUES + - queue->id.virt_id; - - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID_V(idx), 0); - - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID2QID(idx), 0); - } - } -} - -static void -dlb2_domain_disable_dir_queue_write_perms(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *queue; - unsigned long max_ports; - int domain_offset; - RTE_SET_USED(iter); - - max_ports = DLB2_MAX_NUM_DIR_PORTS(hw->ver); - - domain_offset = domain->id.phys_id * max_ports; - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, queue, iter) { - int idx = domain_offset + queue->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_DIR_VASQID_V(idx), 0); - - if (queue->id.vdev_owned) { - idx = queue->id.vdev_id * max_ports + queue->id.virt_id; - - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID_V(idx), 0); - - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID2QID(idx), 0); - } - } -} - -static void dlb2_domain_disable_ldb_seq_checks(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - u32 chk_en = 0; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - DLB2_CSR_WR(hw, - DLB2_CHP_SN_CHK_ENBL(hw->ver, - port->id.phys_id), - chk_en); - } - } -} - -static int dlb2_domain_wait_for_ldb_cqs_to_empty(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - int j; - - for (j = 0; j < DLB2_MAX_CQ_COMP_CHECK_LOOPS; j++) { - if (dlb2_ldb_cq_inflight_count(hw, port) == 0) - break; - } - - if (j == DLB2_MAX_CQ_COMP_CHECK_LOOPS) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to flush load-balanced port %d's completions.\n", - __func__, port->id.phys_id); - return -EFAULT; - } - } - } - - return 0; -} - -static void dlb2_domain_disable_dir_cqs(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { - port->enabled = false; - - dlb2_dir_port_cq_disable(hw, port); - } -} - -static void -dlb2_domain_disable_dir_producer_ports(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - u32 pp_v = 0; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_PP_V(port->id.phys_id), - pp_v); - } -} - -static void -dlb2_domain_disable_ldb_producer_ports(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - u32 pp_v = 0; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_PP_V(port->id.phys_id), - pp_v); - } - } -} - -static int dlb2_domain_verify_reset_success(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *dir_port; - struct dlb2_ldb_port *ldb_port; - struct dlb2_ldb_queue *queue; - int i; - RTE_SET_USED(iter); - - /* - * Confirm that all the domain's queue's inflight counts and AQED - * active counts are 0. - */ - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { - if (!dlb2_ldb_queue_is_empty(hw, queue)) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to empty ldb queue %d\n", - __func__, queue->id.phys_id); - return -EFAULT; - } - } - - /* Confirm that all the domain's CQs inflight and token counts are 0. */ - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], ldb_port, iter) { - if (dlb2_ldb_cq_inflight_count(hw, ldb_port) || - dlb2_ldb_cq_token_count(hw, ldb_port)) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to empty ldb port %d\n", - __func__, ldb_port->id.phys_id); - return -EFAULT; - } - } - } - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, dir_port, iter) { - if (!dlb2_dir_queue_is_empty(hw, dir_port)) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to empty dir queue %d\n", - __func__, dir_port->id.phys_id); - return -EFAULT; - } - - if (dlb2_dir_cq_token_count(hw, dir_port)) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: failed to empty dir port %d\n", - __func__, dir_port->id.phys_id); - return -EFAULT; - } - } - - return 0; -} - -static void __dlb2_domain_reset_ldb_port_registers(struct dlb2_hw *hw, - struct dlb2_ldb_port *port) -{ - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_PP2VAS(port->id.phys_id), - DLB2_SYS_LDB_PP2VAS_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ2VAS(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ2VAS_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_PP2VDEV(port->id.phys_id), - DLB2_SYS_LDB_PP2VDEV_RST); - - if (port->id.vdev_owned) { - unsigned int offs; - u32 virt_id; - - /* - * DLB uses producer port address bits 17:12 to determine the - * producer port ID. In Scalable IOV mode, PP accesses come - * through the PF MMIO window for the physical producer port, - * so for translation purposes the virtual and physical port - * IDs are equal. - */ - if (hw->virt_mode == DLB2_VIRT_SRIOV) - virt_id = port->id.virt_id; - else - virt_id = port->id.phys_id; - - offs = port->id.vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; - - DLB2_CSR_WR(hw, - DLB2_SYS_VF_LDB_VPP2PP(offs), - DLB2_SYS_VF_LDB_VPP2PP_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_VF_LDB_VPP_V(offs), - DLB2_SYS_VF_LDB_VPP_V_RST); - } - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_PP_V(port->id.phys_id), - DLB2_SYS_LDB_PP_V_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_DSBL(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_DSBL_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_DEPTH(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_DEPTH_RST); - - if (hw->ver != DLB2_HW_V2) - DLB2_CSR_WR(hw, - DLB2_LSP_CFG_CQ_LDB_WU_LIMIT(port->id.phys_id), - DLB2_LSP_CFG_CQ_LDB_WU_LIMIT_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_INFL_LIM(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_INFL_LIM_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_HIST_LIST_LIM(hw->ver, port->id.phys_id), - DLB2_CHP_HIST_LIST_LIM_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_HIST_LIST_BASE(hw->ver, port->id.phys_id), - DLB2_CHP_HIST_LIST_BASE_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_HIST_LIST_POP_PTR(hw->ver, port->id.phys_id), - DLB2_CHP_HIST_LIST_POP_PTR_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_HIST_LIST_PUSH_PTR(hw->ver, port->id.phys_id), - DLB2_CHP_HIST_LIST_PUSH_PTR_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_INT_DEPTH_THRSH(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_INT_DEPTH_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_TMR_THRSH(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_TMR_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_INT_ENB(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_INT_ENB_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ_ISR(port->id.phys_id), - DLB2_SYS_LDB_CQ_ISR_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_WPTR(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_WPTR_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_TKN_CNT_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ_ADDR_L(port->id.phys_id), - DLB2_SYS_LDB_CQ_ADDR_L_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ_ADDR_U(port->id.phys_id), - DLB2_SYS_LDB_CQ_ADDR_U_RST); - - if (hw->ver == DLB2_HW_V2) - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ_AT(port->id.phys_id), - DLB2_SYS_LDB_CQ_AT_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ_PASID(hw->ver, port->id.phys_id), - DLB2_SYS_LDB_CQ_PASID_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ2VF_PF_RO(port->id.phys_id), - DLB2_SYS_LDB_CQ2VF_PF_RO_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TOT_SCH_CNTL(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_TOT_SCH_CNTL_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TOT_SCH_CNTH(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_TOT_SCH_CNTH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ2QID0(hw->ver, port->id.phys_id), - DLB2_LSP_CQ2QID0_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ2QID1(hw->ver, port->id.phys_id), - DLB2_LSP_CQ2QID1_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id), - DLB2_LSP_CQ2PRIOV_RST); -} - -static void dlb2_domain_reset_ldb_port_registers(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) - __dlb2_domain_reset_ldb_port_registers(hw, port); - } -} - -static void -__dlb2_domain_reset_dir_port_registers(struct dlb2_hw *hw, - struct dlb2_dir_pq_pair *port) -{ - u32 reg = 0; - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ2VAS(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ2VAS_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_DSBL(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_DIR_DSBL_RST); - - DLB2_BIT_SET(reg, DLB2_SYS_WB_DIR_CQ_STATE_CQ_OPT_CLR); - - if (hw->ver == DLB2_HW_V2) - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_OPT_CLR, port->id.phys_id); - else - DLB2_CSR_WR(hw, - DLB2_SYS_WB_DIR_CQ_STATE(port->id.phys_id), reg); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_DEPTH(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_DEPTH_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_INT_DEPTH_THRSH(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_INT_DEPTH_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_TMR_THRSH(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_TMR_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_INT_ENB(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_INT_ENB_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_ISR(port->id.phys_id), - DLB2_SYS_DIR_CQ_ISR_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI(hw->ver, - port->id.phys_id), - DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_WPTR(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_WPTR_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_DIR_TKN_CNT_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_ADDR_L(port->id.phys_id), - DLB2_SYS_DIR_CQ_ADDR_L_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_ADDR_U(port->id.phys_id), - DLB2_SYS_DIR_CQ_ADDR_U_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_AT(port->id.phys_id), - DLB2_SYS_DIR_CQ_AT_RST); - - if (hw->ver == DLB2_HW_V2) - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_AT(port->id.phys_id), - DLB2_SYS_DIR_CQ_AT_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_PASID(hw->ver, port->id.phys_id), - DLB2_SYS_DIR_CQ_PASID_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ_FMT(port->id.phys_id), - DLB2_SYS_DIR_CQ_FMT_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_CQ2VF_PF_RO(port->id.phys_id), - DLB2_SYS_DIR_CQ2VF_PF_RO_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TOT_SCH_CNTL(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_DIR_TOT_SCH_CNTL_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TOT_SCH_CNTH(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_DIR_TOT_SCH_CNTH_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_PP2VAS(port->id.phys_id), - DLB2_SYS_DIR_PP2VAS_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ2VAS(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ2VAS_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_PP2VDEV(port->id.phys_id), - DLB2_SYS_DIR_PP2VDEV_RST); - - if (port->id.vdev_owned) { - unsigned int offs; - u32 virt_id; - - /* - * DLB uses producer port address bits 17:12 to determine the - * producer port ID. In Scalable IOV mode, PP accesses come - * through the PF MMIO window for the physical producer port, - * so for translation purposes the virtual and physical port - * IDs are equal. - */ - if (hw->virt_mode == DLB2_VIRT_SRIOV) - virt_id = port->id.virt_id; - else - virt_id = port->id.phys_id; - - offs = port->id.vdev_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + - virt_id; - - DLB2_CSR_WR(hw, - DLB2_SYS_VF_DIR_VPP2PP(offs), - DLB2_SYS_VF_DIR_VPP2PP_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_VF_DIR_VPP_V(offs), - DLB2_SYS_VF_DIR_VPP_V_RST); - } - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_PP_V(port->id.phys_id), - DLB2_SYS_DIR_PP_V_RST); -} - -static void dlb2_domain_reset_dir_port_registers(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) - __dlb2_domain_reset_dir_port_registers(hw, port); -} - -static void dlb2_domain_reset_ldb_queue_registers(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_queue *queue; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { - unsigned int queue_id = queue->id.phys_id; - int i; - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_NALDB_TOT_ENQ_CNTL(hw->ver, queue_id), - DLB2_LSP_QID_NALDB_TOT_ENQ_CNTL_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_NALDB_TOT_ENQ_CNTH(hw->ver, queue_id), - DLB2_LSP_QID_NALDB_TOT_ENQ_CNTH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_ATM_TOT_ENQ_CNTL(hw->ver, queue_id), - DLB2_LSP_QID_ATM_TOT_ENQ_CNTL_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_ATM_TOT_ENQ_CNTH(hw->ver, queue_id), - DLB2_LSP_QID_ATM_TOT_ENQ_CNTH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_NALDB_MAX_DEPTH(hw->ver, queue_id), - DLB2_LSP_QID_NALDB_MAX_DEPTH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, queue_id), - DLB2_LSP_QID_LDB_INFL_LIM_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_AQED_ACTIVE_LIM(hw->ver, queue_id), - DLB2_LSP_QID_AQED_ACTIVE_LIM_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_ATM_DEPTH_THRSH(hw->ver, queue_id), - DLB2_LSP_QID_ATM_DEPTH_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_NALDB_DEPTH_THRSH(hw->ver, queue_id), - DLB2_LSP_QID_NALDB_DEPTH_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_QID_ITS(queue_id), - DLB2_SYS_LDB_QID_ITS_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_ORD_QID_SN(hw->ver, queue_id), - DLB2_CHP_ORD_QID_SN_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_ORD_QID_SN_MAP(hw->ver, queue_id), - DLB2_CHP_ORD_QID_SN_MAP_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_QID_V(queue_id), - DLB2_SYS_LDB_QID_V_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_QID_CFG_V(queue_id), - DLB2_SYS_LDB_QID_CFG_V_RST); - - if (queue->sn_cfg_valid) { - u32 offs[2]; - - offs[0] = DLB2_RO_GRP_0_SLT_SHFT(hw->ver, - queue->sn_slot); - offs[1] = DLB2_RO_GRP_1_SLT_SHFT(hw->ver, - queue->sn_slot); - - DLB2_CSR_WR(hw, - offs[queue->sn_group], - DLB2_RO_GRP_0_SLT_SHFT_RST); - } - - for (i = 0; i < DLB2_LSP_QID2CQIDIX_NUM; i++) { - DLB2_CSR_WR(hw, - DLB2_LSP_QID2CQIDIX(hw->ver, queue_id, i), - DLB2_LSP_QID2CQIDIX_00_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID2CQIDIX2(hw->ver, queue_id, i), - DLB2_LSP_QID2CQIDIX2_00_RST); - - DLB2_CSR_WR(hw, - DLB2_ATM_QID2CQIDIX(queue_id, i), - DLB2_ATM_QID2CQIDIX_00_RST); - } - } -} - -static void dlb2_domain_reset_dir_queue_registers(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *queue; - RTE_SET_USED(iter); - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, queue, iter) { - DLB2_CSR_WR(hw, - DLB2_LSP_QID_DIR_MAX_DEPTH(hw->ver, - queue->id.phys_id), - DLB2_LSP_QID_DIR_MAX_DEPTH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_DIR_TOT_ENQ_CNTL(hw->ver, - queue->id.phys_id), - DLB2_LSP_QID_DIR_TOT_ENQ_CNTL_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_DIR_TOT_ENQ_CNTH(hw->ver, - queue->id.phys_id), - DLB2_LSP_QID_DIR_TOT_ENQ_CNTH_RST); - - DLB2_CSR_WR(hw, - DLB2_LSP_QID_DIR_DEPTH_THRSH(hw->ver, - queue->id.phys_id), - DLB2_LSP_QID_DIR_DEPTH_THRSH_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_QID_ITS(queue->id.phys_id), - DLB2_SYS_DIR_QID_ITS_RST); - - DLB2_CSR_WR(hw, - DLB2_SYS_DIR_QID_V(queue->id.phys_id), - DLB2_SYS_DIR_QID_V_RST); - } -} - - - - - -static void dlb2_domain_reset_registers(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - dlb2_domain_reset_ldb_port_registers(hw, domain); - - dlb2_domain_reset_dir_port_registers(hw, domain); - - dlb2_domain_reset_ldb_queue_registers(hw, domain); - - dlb2_domain_reset_dir_queue_registers(hw, domain); - - if (hw->ver == DLB2_HW_V2) { - DLB2_CSR_WR(hw, - DLB2_CHP_CFG_LDB_VAS_CRD(domain->id.phys_id), - DLB2_CHP_CFG_LDB_VAS_CRD_RST); - - DLB2_CSR_WR(hw, - DLB2_CHP_CFG_DIR_VAS_CRD(domain->id.phys_id), - DLB2_CHP_CFG_DIR_VAS_CRD_RST); - } else - DLB2_CSR_WR(hw, - DLB2_CHP_CFG_VAS_CRD(domain->id.phys_id), - DLB2_CHP_CFG_VAS_CRD_RST); -} - -static int dlb2_domain_reset_software_state(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_dir_pq_pair *tmp_dir_port; - struct dlb2_ldb_queue *tmp_ldb_queue; - struct dlb2_ldb_port *tmp_ldb_port; - struct dlb2_list_entry *iter1; - struct dlb2_list_entry *iter2; - struct dlb2_function_resources *rsrcs; - struct dlb2_dir_pq_pair *dir_port; - struct dlb2_ldb_queue *ldb_queue; - struct dlb2_ldb_port *ldb_port; - struct dlb2_list_head *list; - int ret, i; - RTE_SET_USED(tmp_dir_port); - RTE_SET_USED(tmp_ldb_queue); - RTE_SET_USED(tmp_ldb_port); - RTE_SET_USED(iter1); - RTE_SET_USED(iter2); - - rsrcs = domain->parent_func; - - /* Move the domain's ldb queues to the function's avail list */ - list = &domain->used_ldb_queues; - DLB2_DOM_LIST_FOR_SAFE(*list, ldb_queue, tmp_ldb_queue, iter1, iter2) { - if (ldb_queue->sn_cfg_valid) { - struct dlb2_sn_group *grp; - - grp = &hw->rsrcs.sn_groups[ldb_queue->sn_group]; - - dlb2_sn_group_free_slot(grp, ldb_queue->sn_slot); - ldb_queue->sn_cfg_valid = false; - } - - ldb_queue->owned = false; - ldb_queue->num_mappings = 0; - ldb_queue->num_pending_additions = 0; - - dlb2_list_del(&domain->used_ldb_queues, - &ldb_queue->domain_list); - dlb2_list_add(&rsrcs->avail_ldb_queues, - &ldb_queue->func_list); - rsrcs->num_avail_ldb_queues++; - } - - list = &domain->avail_ldb_queues; - DLB2_DOM_LIST_FOR_SAFE(*list, ldb_queue, tmp_ldb_queue, iter1, iter2) { - ldb_queue->owned = false; - - dlb2_list_del(&domain->avail_ldb_queues, - &ldb_queue->domain_list); - dlb2_list_add(&rsrcs->avail_ldb_queues, - &ldb_queue->func_list); - rsrcs->num_avail_ldb_queues++; - } - - /* Move the domain's ldb ports to the function's avail list */ - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - list = &domain->used_ldb_ports[i]; - DLB2_DOM_LIST_FOR_SAFE(*list, ldb_port, tmp_ldb_port, - iter1, iter2) { - int j; - - ldb_port->owned = false; - ldb_port->configured = false; - ldb_port->num_pending_removals = 0; - ldb_port->num_mappings = 0; - ldb_port->init_tkn_cnt = 0; - ldb_port->cq_depth = 0; - for (j = 0; j < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; j++) - ldb_port->qid_map[j].state = - DLB2_QUEUE_UNMAPPED; - - dlb2_list_del(&domain->used_ldb_ports[i], - &ldb_port->domain_list); - dlb2_list_add(&rsrcs->avail_ldb_ports[i], - &ldb_port->func_list); - rsrcs->num_avail_ldb_ports[i]++; - } - - list = &domain->avail_ldb_ports[i]; - DLB2_DOM_LIST_FOR_SAFE(*list, ldb_port, tmp_ldb_port, - iter1, iter2) { - ldb_port->owned = false; - - dlb2_list_del(&domain->avail_ldb_ports[i], - &ldb_port->domain_list); - dlb2_list_add(&rsrcs->avail_ldb_ports[i], - &ldb_port->func_list); - rsrcs->num_avail_ldb_ports[i]++; - } - } - - /* Move the domain's dir ports to the function's avail list */ - list = &domain->used_dir_pq_pairs; - DLB2_DOM_LIST_FOR_SAFE(*list, dir_port, tmp_dir_port, iter1, iter2) { - dir_port->owned = false; - dir_port->port_configured = false; - dir_port->init_tkn_cnt = 0; - - dlb2_list_del(&domain->used_dir_pq_pairs, - &dir_port->domain_list); - - dlb2_list_add(&rsrcs->avail_dir_pq_pairs, - &dir_port->func_list); - rsrcs->num_avail_dir_pq_pairs++; - } - - list = &domain->avail_dir_pq_pairs; - DLB2_DOM_LIST_FOR_SAFE(*list, dir_port, tmp_dir_port, iter1, iter2) { - dir_port->owned = false; - - dlb2_list_del(&domain->avail_dir_pq_pairs, - &dir_port->domain_list); - - dlb2_list_add(&rsrcs->avail_dir_pq_pairs, - &dir_port->func_list); - rsrcs->num_avail_dir_pq_pairs++; - } - - /* Return hist list entries to the function */ - ret = dlb2_bitmap_set_range(rsrcs->avail_hist_list_entries, - domain->hist_list_entry_base, - domain->total_hist_list_entries); - if (ret) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: domain hist list base does not match the function's bitmap.\n", - __func__); - return ret; - } - - domain->total_hist_list_entries = 0; - domain->avail_hist_list_entries = 0; - domain->hist_list_entry_base = 0; - domain->hist_list_entry_offset = 0; - - if (hw->ver == DLB2_HW_V2_5) { - rsrcs->num_avail_entries += domain->num_credits; - domain->num_credits = 0; - } else { - rsrcs->num_avail_qed_entries += domain->num_ldb_credits; - domain->num_ldb_credits = 0; - - rsrcs->num_avail_dqed_entries += domain->num_dir_credits; - domain->num_dir_credits = 0; - } - rsrcs->num_avail_aqed_entries += domain->num_avail_aqed_entries; - rsrcs->num_avail_aqed_entries += domain->num_used_aqed_entries; - domain->num_avail_aqed_entries = 0; - domain->num_used_aqed_entries = 0; - - domain->num_pending_removals = 0; - domain->num_pending_additions = 0; - domain->configured = false; - domain->started = false; - - /* - * Move the domain out of the used_domains list and back to the - * function's avail_domains list. - */ - dlb2_list_del(&rsrcs->used_domains, &domain->func_list); - dlb2_list_add(&rsrcs->avail_domains, &domain->func_list); - rsrcs->num_avail_domains++; - - return 0; -} - -static int dlb2_domain_drain_unmapped_queue(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_queue *queue) -{ - struct dlb2_ldb_port *port = NULL; - int ret, i; - - /* If a domain has LDB queues, it must have LDB ports */ - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - port = DLB2_DOM_LIST_HEAD(domain->used_ldb_ports[i], - typeof(*port)); - if (port) - break; - } - - if (port == NULL) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: No configured LDB ports\n", - __func__); - return -EFAULT; - } - - /* If necessary, free up a QID slot in this CQ */ - if (port->num_mappings == DLB2_MAX_NUM_QIDS_PER_LDB_CQ) { - struct dlb2_ldb_queue *mapped_queue; - - mapped_queue = &hw->rsrcs.ldb_queues[port->qid_map[0].qid]; - - ret = dlb2_ldb_port_unmap_qid(hw, port, mapped_queue); - if (ret) - return ret; - } - - ret = dlb2_ldb_port_map_qid_dynamic(hw, port, queue, 0); - if (ret) - return ret; - - return dlb2_domain_drain_mapped_queues(hw, domain); -} - -static int dlb2_domain_drain_unmapped_queues(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_queue *queue; - int ret; - RTE_SET_USED(iter); - - /* If the domain hasn't been started, there's no traffic to drain */ - if (!domain->started) - return 0; - - /* - * Pre-condition: the unattached queue must not have any outstanding - * completions. This is ensured by calling dlb2_domain_drain_ldb_cqs() - * prior to this in dlb2_domain_drain_mapped_queues(). - */ - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { - if (queue->num_mappings != 0 || - dlb2_ldb_queue_is_empty(hw, queue)) - continue; - - ret = dlb2_domain_drain_unmapped_queue(hw, domain, queue); - if (ret) - return ret; - } - - return 0; -} - -/** - * dlb2_reset_domain() - reset a scheduling domain - * @hw: dlb2_hw handle for a particular device. - * @domain_id: domain ID. - * @vdev_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - int ret; - - dlb2_log_reset_domain(hw, domain_id, vdev_req, vdev_id); - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (domain == NULL || !domain->configured) - return -EINVAL; - - /* Disable VPPs */ - if (vdev_req) { - dlb2_domain_disable_dir_vpps(hw, domain, vdev_id); - - dlb2_domain_disable_ldb_vpps(hw, domain, vdev_id); - } - - /* Disable CQ interrupts */ - dlb2_domain_disable_dir_port_interrupts(hw, domain); - - dlb2_domain_disable_ldb_port_interrupts(hw, domain); - - /* - * For each queue owned by this domain, disable its write permissions to - * cause any traffic sent to it to be dropped. Well-behaved software - * should not be sending QEs at this point. - */ - dlb2_domain_disable_dir_queue_write_perms(hw, domain); - - dlb2_domain_disable_ldb_queue_write_perms(hw, domain); - - /* Turn off completion tracking on all the domain's PPs. */ - dlb2_domain_disable_ldb_seq_checks(hw, domain); - - /* - * Disable the LDB CQs and drain them in order to complete the map and - * unmap procedures, which require zero CQ inflights and zero QID - * inflights respectively. - */ - dlb2_domain_disable_ldb_cqs(hw, domain); - - dlb2_domain_drain_ldb_cqs(hw, domain, false); - - ret = dlb2_domain_wait_for_ldb_cqs_to_empty(hw, domain); - if (ret) - return ret; - - ret = dlb2_domain_finish_unmap_qid_procedures(hw, domain); - if (ret) - return ret; - - ret = dlb2_domain_finish_map_qid_procedures(hw, domain); - if (ret) - return ret; - - /* Re-enable the CQs in order to drain the mapped queues. */ - dlb2_domain_enable_ldb_cqs(hw, domain); - - ret = dlb2_domain_drain_mapped_queues(hw, domain); - if (ret) - return ret; - - ret = dlb2_domain_drain_unmapped_queues(hw, domain); - if (ret) - return ret; - - /* Done draining LDB QEs, so disable the CQs. */ - dlb2_domain_disable_ldb_cqs(hw, domain); - - dlb2_domain_drain_dir_queues(hw, domain); - - /* Done draining DIR QEs, so disable the CQs. */ - dlb2_domain_disable_dir_cqs(hw, domain); - - /* Disable PPs */ - dlb2_domain_disable_dir_producer_ports(hw, domain); - - dlb2_domain_disable_ldb_producer_ports(hw, domain); - - ret = dlb2_domain_verify_reset_success(hw, domain); - if (ret) - return ret; - - /* Reset the QID and port state. */ - dlb2_domain_reset_registers(hw, domain); - - /* Hardware reset complete. Reset the domain's software state */ - return dlb2_domain_reset_software_state(hw, domain); -} - -static void -dlb2_log_create_ldb_queue_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_create_ldb_queue_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 create load-balanced queue arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", - domain_id); - DLB2_HW_DBG(hw, "\tNumber of sequence numbers: %d\n", - args->num_sequence_numbers); - DLB2_HW_DBG(hw, "\tNumber of QID inflights: %d\n", - args->num_qid_inflights); - DLB2_HW_DBG(hw, "\tNumber of ATM inflights: %d\n", - args->num_atomic_inflights); -} - -static int -dlb2_ldb_queue_attach_to_sn_group(struct dlb2_hw *hw, - struct dlb2_ldb_queue *queue, - struct dlb2_create_ldb_queue_args *args) -{ - int slot = -1; - int i; - - queue->sn_cfg_valid = false; - - if (args->num_sequence_numbers == 0) - return 0; - - for (i = 0; i < DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS; i++) { - struct dlb2_sn_group *group = &hw->rsrcs.sn_groups[i]; - - if (group->sequence_numbers_per_queue == - args->num_sequence_numbers && - !dlb2_sn_group_full(group)) { - slot = dlb2_sn_group_alloc_slot(group); - if (slot >= 0) - break; - } - } - - if (slot == -1) { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: no sequence number slots available\n", - __func__, __LINE__); - return -EFAULT; - } - - queue->sn_cfg_valid = true; - queue->sn_group = i; - queue->sn_slot = slot; - return 0; -} - -static int -dlb2_verify_create_ldb_queue_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_create_ldb_queue_args *args, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain, - struct dlb2_ldb_queue **out_queue) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - int i; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - if (domain->started) { - resp->status = DLB2_ST_DOMAIN_STARTED; - return -EINVAL; - } - - queue = DLB2_DOM_LIST_HEAD(domain->avail_ldb_queues, typeof(*queue)); - if (!queue) { - resp->status = DLB2_ST_LDB_QUEUES_UNAVAILABLE; - return -EINVAL; - } - - if (args->num_sequence_numbers) { - for (i = 0; i < DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS; i++) { - struct dlb2_sn_group *group = &hw->rsrcs.sn_groups[i]; - - if (group->sequence_numbers_per_queue == - args->num_sequence_numbers && - !dlb2_sn_group_full(group)) - break; - } - - if (i == DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) { - resp->status = DLB2_ST_SEQUENCE_NUMBERS_UNAVAILABLE; - return -EINVAL; - } - } - - if (args->num_qid_inflights > 4096) { - resp->status = DLB2_ST_INVALID_QID_INFLIGHT_ALLOCATION; - return -EINVAL; - } - - /* Inflights must be <= number of sequence numbers if ordered */ - if (args->num_sequence_numbers != 0 && - args->num_qid_inflights > args->num_sequence_numbers) { - resp->status = DLB2_ST_INVALID_QID_INFLIGHT_ALLOCATION; - return -EINVAL; - } - - if (domain->num_avail_aqed_entries < args->num_atomic_inflights) { - resp->status = DLB2_ST_ATOMIC_INFLIGHTS_UNAVAILABLE; - return -EINVAL; - } - - if (args->num_atomic_inflights && - args->lock_id_comp_level != 0 && - args->lock_id_comp_level != 64 && - args->lock_id_comp_level != 128 && - args->lock_id_comp_level != 256 && - args->lock_id_comp_level != 512 && - args->lock_id_comp_level != 1024 && - args->lock_id_comp_level != 2048 && - args->lock_id_comp_level != 4096 && - args->lock_id_comp_level != 65536) { - resp->status = DLB2_ST_INVALID_LOCK_ID_COMP_LEVEL; - return -EINVAL; - } - - *out_domain = domain; - *out_queue = queue; - - return 0; -} - -static int -dlb2_ldb_queue_attach_resources(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_queue *queue, - struct dlb2_create_ldb_queue_args *args) -{ - int ret; - ret = dlb2_ldb_queue_attach_to_sn_group(hw, queue, args); - if (ret) - return ret; - - /* Attach QID inflights */ - queue->num_qid_inflights = args->num_qid_inflights; - - /* Attach atomic inflights */ - queue->aqed_limit = args->num_atomic_inflights; - - domain->num_avail_aqed_entries -= args->num_atomic_inflights; - domain->num_used_aqed_entries += args->num_atomic_inflights; - - return 0; -} - -static void dlb2_configure_ldb_queue(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_queue *queue, - struct dlb2_create_ldb_queue_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - struct dlb2_sn_group *sn_group; - unsigned int offs; - u32 reg = 0; - u32 alimit; - - /* QID write permissions are turned on when the domain is started */ - offs = domain->id.phys_id * DLB2_MAX_NUM_LDB_QUEUES + queue->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_VASQID_V(offs), reg); - - /* - * Unordered QIDs get 4K inflights, ordered get as many as the number - * of sequence numbers. - */ - DLB2_BITS_SET(reg, args->num_qid_inflights, - DLB2_LSP_QID_LDB_INFL_LIM_LIMIT); - DLB2_CSR_WR(hw, DLB2_LSP_QID_LDB_INFL_LIM(hw->ver, - queue->id.phys_id), reg); - - alimit = queue->aqed_limit; - - if (alimit > DLB2_MAX_NUM_AQED_ENTRIES) - alimit = DLB2_MAX_NUM_AQED_ENTRIES; - - reg = 0; - DLB2_BITS_SET(reg, alimit, DLB2_LSP_QID_AQED_ACTIVE_LIM_LIMIT); - DLB2_CSR_WR(hw, - DLB2_LSP_QID_AQED_ACTIVE_LIM(hw->ver, - queue->id.phys_id), reg); - - reg = 0; - switch (args->lock_id_comp_level) { - case 64: - DLB2_BITS_SET(reg, 1, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - case 128: - DLB2_BITS_SET(reg, 2, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - case 256: - DLB2_BITS_SET(reg, 3, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - case 512: - DLB2_BITS_SET(reg, 4, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - case 1024: - DLB2_BITS_SET(reg, 5, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - case 2048: - DLB2_BITS_SET(reg, 6, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - case 4096: - DLB2_BITS_SET(reg, 7, DLB2_AQED_QID_HID_WIDTH_COMPRESS_CODE); - break; - default: - /* No compression by default */ - break; - } - - DLB2_CSR_WR(hw, DLB2_AQED_QID_HID_WIDTH(queue->id.phys_id), reg); - - reg = 0; - /* Don't timestamp QEs that pass through this queue */ - DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID_ITS(queue->id.phys_id), reg); - - DLB2_BITS_SET(reg, args->depth_threshold, - DLB2_LSP_QID_ATM_DEPTH_THRSH_THRESH); - DLB2_CSR_WR(hw, - DLB2_LSP_QID_ATM_DEPTH_THRSH(hw->ver, - queue->id.phys_id), reg); - - reg = 0; - DLB2_BITS_SET(reg, args->depth_threshold, - DLB2_LSP_QID_NALDB_DEPTH_THRSH_THRESH); - DLB2_CSR_WR(hw, - DLB2_LSP_QID_NALDB_DEPTH_THRSH(hw->ver, queue->id.phys_id), - reg); - - /* - * This register limits the number of inflight flows a queue can have - * at one time. It has an upper bound of 2048, but can be - * over-subscribed. 512 is chosen so that a single queue does not use - * the entire atomic storage, but can use a substantial portion if - * needed. - */ - reg = 0; - DLB2_BITS_SET(reg, 512, DLB2_AQED_QID_FID_LIM_QID_FID_LIMIT); - DLB2_CSR_WR(hw, DLB2_AQED_QID_FID_LIM(queue->id.phys_id), reg); - - /* Configure SNs */ - reg = 0; - sn_group = &hw->rsrcs.sn_groups[queue->sn_group]; - DLB2_BITS_SET(reg, sn_group->mode, DLB2_CHP_ORD_QID_SN_MAP_MODE); - DLB2_BITS_SET(reg, queue->sn_slot, DLB2_CHP_ORD_QID_SN_MAP_SLOT); - DLB2_BITS_SET(reg, sn_group->id, DLB2_CHP_ORD_QID_SN_MAP_GRP); - - DLB2_CSR_WR(hw, - DLB2_CHP_ORD_QID_SN_MAP(hw->ver, queue->id.phys_id), reg); - - reg = 0; - DLB2_BITS_SET(reg, (args->num_sequence_numbers != 0), - DLB2_SYS_LDB_QID_CFG_V_SN_CFG_V); - DLB2_BITS_SET(reg, (args->num_atomic_inflights != 0), - DLB2_SYS_LDB_QID_CFG_V_FID_CFG_V); - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID_CFG_V(queue->id.phys_id), reg); - - if (vdev_req) { - offs = vdev_id * DLB2_MAX_NUM_LDB_QUEUES + queue->id.virt_id; - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_VF_LDB_VQID_V_VQID_V); - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID_V(offs), reg); - - reg = 0; - DLB2_BITS_SET(reg, queue->id.phys_id, - DLB2_SYS_VF_LDB_VQID2QID_QID); - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VQID2QID(offs), reg); - - reg = 0; - DLB2_BITS_SET(reg, queue->id.virt_id, - DLB2_SYS_LDB_QID2VQID_VQID); - DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID2VQID(queue->id.phys_id), reg); - } - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_LDB_QID_V_QID_V); - DLB2_CSR_WR(hw, DLB2_SYS_LDB_QID_V(queue->id.phys_id), reg); -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - int ret; - - dlb2_log_create_ldb_queue_args(hw, domain_id, args, vdev_req, vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_create_ldb_queue_args(hw, - domain_id, - args, - resp, - vdev_req, - vdev_id, - &domain, - &queue); - if (ret) - return ret; - - ret = dlb2_ldb_queue_attach_resources(hw, domain, queue, args); - - if (ret) { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: failed to attach the ldb queue resources\n", - __func__, __LINE__); - return ret; - } - - dlb2_configure_ldb_queue(hw, domain, queue, args, vdev_req, vdev_id); - - queue->num_mappings = 0; - - queue->configured = true; - - /* - * Configuration succeeded, so move the resource from the 'avail' to - * the 'used' list. - */ - dlb2_list_del(&domain->avail_ldb_queues, &queue->domain_list); - - dlb2_list_add(&domain->used_ldb_queues, &queue->domain_list); - - resp->status = 0; - resp->id = (vdev_req) ? queue->id.virt_id : queue->id.phys_id; - - return 0; -} - -static void dlb2_ldb_port_configure_pp(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port, - bool vdev_req, - unsigned int vdev_id) -{ - u32 reg = 0; - - DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_SYS_LDB_PP2VAS_VAS); - DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP2VAS(port->id.phys_id), reg); - - if (vdev_req) { - unsigned int offs; - u32 virt_id; - - /* - * DLB uses producer port address bits 17:12 to determine the - * producer port ID. In Scalable IOV mode, PP accesses come - * through the PF MMIO window for the physical producer port, - * so for translation purposes the virtual and physical port - * IDs are equal. - */ - if (hw->virt_mode == DLB2_VIRT_SRIOV) - virt_id = port->id.virt_id; - else - virt_id = port->id.phys_id; - - reg = 0; - DLB2_BITS_SET(reg, port->id.phys_id, DLB2_SYS_VF_LDB_VPP2PP_PP); - offs = vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP2PP(offs), reg); - - reg = 0; - DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_LDB_PP2VDEV_VDEV); - DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP2VDEV(port->id.phys_id), reg); - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_VF_LDB_VPP_V_VPP_V); - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP_V(offs), reg); - } - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_LDB_PP_V_PP_V); - DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP_V(port->id.phys_id), reg); -} - -static int dlb2_ldb_port_configure_cq(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port, - uintptr_t cq_dma_base, - struct dlb2_create_ldb_port_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - u32 hl_base = 0; - u32 reg = 0; - u32 ds = 0; - - /* The CQ address is 64B-aligned, and the DLB only wants bits [63:6] */ - DLB2_BITS_SET(reg, cq_dma_base >> 6, DLB2_SYS_LDB_CQ_ADDR_L_ADDR_L); - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_ADDR_L(port->id.phys_id), reg); - - reg = cq_dma_base >> 32; - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_ADDR_U(port->id.phys_id), reg); - - /* - * 'ro' == relaxed ordering. This setting allows DLB2 to write - * cache lines out-of-order (but QEs within a cache line are always - * updated in-order). - */ - reg = 0; - DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_LDB_CQ2VF_PF_RO_VF); - DLB2_BITS_SET(reg, - !vdev_req && (hw->virt_mode != DLB2_VIRT_SIOV), - DLB2_SYS_LDB_CQ2VF_PF_RO_IS_PF); - DLB2_BIT_SET(reg, DLB2_SYS_LDB_CQ2VF_PF_RO_RO); - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ2VF_PF_RO(port->id.phys_id), reg); - - port->cq_depth = args->cq_depth; - - if (args->cq_depth <= 8) { - ds = 1; - } else if (args->cq_depth == 16) { - ds = 2; - } else if (args->cq_depth == 32) { - ds = 3; - } else if (args->cq_depth == 64) { - ds = 4; - } else if (args->cq_depth == 128) { - ds = 5; - } else if (args->cq_depth == 256) { - ds = 6; - } else if (args->cq_depth == 512) { - ds = 7; - } else if (args->cq_depth == 1024) { - ds = 8; - } else { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: invalid CQ depth\n", - __func__, __LINE__); - return -EFAULT; - } - - reg = 0; - DLB2_BITS_SET(reg, ds, - DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL_TOKEN_DEPTH_SELECT); - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), - reg); - - /* - * To support CQs with depth less than 8, program the token count - * register with a non-zero initial value. Operations such as domain - * reset must take this initial value into account when quiescing the - * CQ. - */ - port->init_tkn_cnt = 0; - - if (args->cq_depth < 8) { - reg = 0; - port->init_tkn_cnt = 8 - args->cq_depth; - - DLB2_BITS_SET(reg, - port->init_tkn_cnt, - DLB2_LSP_CQ_LDB_TKN_CNT_TOKEN_COUNT); - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id), - reg); - } else { - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_CNT(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_LDB_TKN_CNT_RST); - } - - reg = 0; - DLB2_BITS_SET(reg, ds, - DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL_TOKEN_DEPTH_SELECT_V2); - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), - reg); - - /* Reset the CQ write pointer */ - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_WPTR(hw->ver, port->id.phys_id), - DLB2_CHP_LDB_CQ_WPTR_RST); - - reg = 0; - DLB2_BITS_SET(reg, - port->hist_list_entry_limit - 1, - DLB2_CHP_HIST_LIST_LIM_LIMIT); - DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_LIM(hw->ver, port->id.phys_id), reg); - - DLB2_BITS_SET(hl_base, port->hist_list_entry_base, - DLB2_CHP_HIST_LIST_BASE_BASE); - DLB2_CSR_WR(hw, - DLB2_CHP_HIST_LIST_BASE(hw->ver, port->id.phys_id), - hl_base); - - /* - * The inflight limit sets a cap on the number of QEs for which this CQ - * can owe completions at one time. - */ - reg = 0; - DLB2_BITS_SET(reg, args->cq_history_list_size, - DLB2_LSP_CQ_LDB_INFL_LIM_LIMIT); - DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_INFL_LIM(hw->ver, port->id.phys_id), - reg); - - reg = 0; - DLB2_BITS_SET(reg, DLB2_BITS_GET(hl_base, DLB2_CHP_HIST_LIST_BASE_BASE), - DLB2_CHP_HIST_LIST_PUSH_PTR_PUSH_PTR); - DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_PUSH_PTR(hw->ver, port->id.phys_id), - reg); - - reg = 0; - DLB2_BITS_SET(reg, DLB2_BITS_GET(hl_base, DLB2_CHP_HIST_LIST_BASE_BASE), - DLB2_CHP_HIST_LIST_POP_PTR_POP_PTR); - DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_POP_PTR(hw->ver, port->id.phys_id), - reg); - - /* - * Address translation (AT) settings: 0: untranslated, 2: translated - * (see ATS spec regarding Address Type field for more details) - */ - - if (hw->ver == DLB2_HW_V2) { - reg = 0; - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_AT(port->id.phys_id), reg); - } - - if (vdev_req && hw->virt_mode == DLB2_VIRT_SIOV) { - reg = 0; - DLB2_BITS_SET(reg, hw->pasid[vdev_id], - DLB2_SYS_LDB_CQ_PASID_PASID); - DLB2_BIT_SET(reg, DLB2_SYS_LDB_CQ_PASID_FMT2); - } - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_PASID(hw->ver, port->id.phys_id), reg); - - reg = 0; - DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_CHP_LDB_CQ2VAS_CQ2VAS); - DLB2_CSR_WR(hw, DLB2_CHP_LDB_CQ2VAS(hw->ver, port->id.phys_id), reg); - - /* Disable the port's QID mappings */ - reg = 0; - DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id), reg); - - return 0; -} - -static bool -dlb2_cq_depth_is_valid(u32 depth) -{ - if (depth != 1 && depth != 2 && - depth != 4 && depth != 8 && - depth != 16 && depth != 32 && - depth != 64 && depth != 128 && - depth != 256 && depth != 512 && - depth != 1024) - return false; - - return true; -} - -static int dlb2_configure_ldb_port(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_ldb_port *port, - uintptr_t cq_dma_base, - struct dlb2_create_ldb_port_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - int ret, i; - - port->hist_list_entry_base = domain->hist_list_entry_base + - domain->hist_list_entry_offset; - port->hist_list_entry_limit = port->hist_list_entry_base + - args->cq_history_list_size; - - domain->hist_list_entry_offset += args->cq_history_list_size; - domain->avail_hist_list_entries -= args->cq_history_list_size; - - ret = dlb2_ldb_port_configure_cq(hw, - domain, - port, - cq_dma_base, - args, - vdev_req, - vdev_id); - if (ret) - return ret; - - dlb2_ldb_port_configure_pp(hw, - domain, - port, - vdev_req, - vdev_id); - - dlb2_ldb_port_cq_enable(hw, port); - - for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) - port->qid_map[i].state = DLB2_QUEUE_UNMAPPED; - port->num_mappings = 0; - - port->enabled = true; - - port->configured = true; - - return 0; -} - -static void -dlb2_log_create_ldb_port_args(struct dlb2_hw *hw, - u32 domain_id, - uintptr_t cq_dma_base, - struct dlb2_create_ldb_port_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 create load-balanced port arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", - domain_id); - DLB2_HW_DBG(hw, "\tCQ depth: %d\n", - args->cq_depth); - DLB2_HW_DBG(hw, "\tCQ hist list size: %d\n", - args->cq_history_list_size); - DLB2_HW_DBG(hw, "\tCQ base address: 0x%lx\n", - cq_dma_base); - DLB2_HW_DBG(hw, "\tCoS ID: %u\n", args->cos_id); - DLB2_HW_DBG(hw, "\tStrict CoS allocation: %u\n", - args->cos_strict); -} - -static int -dlb2_verify_create_ldb_port_args(struct dlb2_hw *hw, - u32 domain_id, - uintptr_t cq_dma_base, - struct dlb2_create_ldb_port_args *args, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain, - struct dlb2_ldb_port **out_port, - int *out_cos_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_port *port; - int i, id; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - if (domain->started) { - resp->status = DLB2_ST_DOMAIN_STARTED; - return -EINVAL; - } - - if (args->cos_id >= DLB2_NUM_COS_DOMAINS) { - resp->status = DLB2_ST_INVALID_COS_ID; - return -EINVAL; - } - - if (args->cos_strict) { - id = args->cos_id; - port = DLB2_DOM_LIST_HEAD(domain->avail_ldb_ports[id], - typeof(*port)); - } else { - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - id = (args->cos_id + i) % DLB2_NUM_COS_DOMAINS; - - port = DLB2_DOM_LIST_HEAD(domain->avail_ldb_ports[id], - typeof(*port)); - if (port) - break; - } - } - - if (!port) { - resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; - return -EINVAL; - } - - /* Check cache-line alignment */ - if ((cq_dma_base & 0x3F) != 0) { - resp->status = DLB2_ST_INVALID_CQ_VIRT_ADDR; - return -EINVAL; - } - - if (!dlb2_cq_depth_is_valid(args->cq_depth)) { - resp->status = DLB2_ST_INVALID_CQ_DEPTH; - return -EINVAL; - } - - /* The history list size must be >= 1 */ - if (!args->cq_history_list_size) { - resp->status = DLB2_ST_INVALID_HIST_LIST_DEPTH; - return -EINVAL; - } - - if (args->cq_history_list_size > domain->avail_hist_list_entries) { - resp->status = DLB2_ST_HIST_LIST_ENTRIES_UNAVAILABLE; - return -EINVAL; - } - - *out_domain = domain; - *out_port = port; - *out_cos_id = id; - - return 0; -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_port *port; - int ret, cos_id; - - dlb2_log_create_ldb_port_args(hw, - domain_id, - cq_dma_base, - args, - vdev_req, - vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_create_ldb_port_args(hw, - domain_id, - cq_dma_base, - args, - resp, - vdev_req, - vdev_id, - &domain, - &port, - &cos_id); - if (ret) - return ret; - - ret = dlb2_configure_ldb_port(hw, - domain, - port, - cq_dma_base, - args, - vdev_req, - vdev_id); - if (ret) - return ret; - - /* - * Configuration succeeded, so move the resource from the 'avail' to - * the 'used' list. - */ - dlb2_list_del(&domain->avail_ldb_ports[cos_id], &port->domain_list); - - dlb2_list_add(&domain->used_ldb_ports[cos_id], &port->domain_list); - - resp->status = 0; - resp->id = (vdev_req) ? port->id.virt_id : port->id.phys_id; - - return 0; -} - -static void -dlb2_log_create_dir_port_args(struct dlb2_hw *hw, - u32 domain_id, - uintptr_t cq_dma_base, - struct dlb2_create_dir_port_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 create directed port arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", - domain_id); - DLB2_HW_DBG(hw, "\tCQ depth: %d\n", - args->cq_depth); - DLB2_HW_DBG(hw, "\tCQ base address: 0x%lx\n", - cq_dma_base); -} - -static struct dlb2_dir_pq_pair * -dlb2_get_domain_used_dir_pq(struct dlb2_hw *hw, - u32 id, - bool vdev_req, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *port; - RTE_SET_USED(iter); - - if (id >= DLB2_MAX_NUM_DIR_PORTS(hw->ver)) - return NULL; - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, port, iter) { - if ((!vdev_req && port->id.phys_id == id) || - (vdev_req && port->id.virt_id == id)) - return port; - } - - return NULL; -} - -static int -dlb2_verify_create_dir_port_args(struct dlb2_hw *hw, - u32 domain_id, - uintptr_t cq_dma_base, - struct dlb2_create_dir_port_args *args, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain, - struct dlb2_dir_pq_pair **out_port) -{ - struct dlb2_hw_domain *domain; - struct dlb2_dir_pq_pair *pq; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - if (domain->started) { - resp->status = DLB2_ST_DOMAIN_STARTED; - return -EINVAL; - } - - if (args->queue_id != -1) { - /* - * If the user claims the queue is already configured, validate - * the queue ID, its domain, and whether the queue is - * configured. - */ - pq = dlb2_get_domain_used_dir_pq(hw, - args->queue_id, - vdev_req, - domain); - - if (!pq || pq->domain_id.phys_id != domain->id.phys_id || - !pq->queue_configured) { - resp->status = DLB2_ST_INVALID_DIR_QUEUE_ID; - return -EINVAL; - } - } else { - /* - * If the port's queue is not configured, validate that a free - * port-queue pair is available. - */ - pq = DLB2_DOM_LIST_HEAD(domain->avail_dir_pq_pairs, - typeof(*pq)); - if (!pq) { - resp->status = DLB2_ST_DIR_PORTS_UNAVAILABLE; - return -EINVAL; - } - } - - /* Check cache-line alignment */ - if ((cq_dma_base & 0x3F) != 0) { - resp->status = DLB2_ST_INVALID_CQ_VIRT_ADDR; - return -EINVAL; - } - - if (!dlb2_cq_depth_is_valid(args->cq_depth)) { - resp->status = DLB2_ST_INVALID_CQ_DEPTH; - return -EINVAL; - } - - *out_domain = domain; - *out_port = pq; - - return 0; -} - -static void dlb2_dir_port_configure_pp(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_dir_pq_pair *port, - bool vdev_req, - unsigned int vdev_id) -{ - u32 reg = 0; - - DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_SYS_DIR_PP2VAS_VAS); - DLB2_CSR_WR(hw, DLB2_SYS_DIR_PP2VAS(port->id.phys_id), reg); - - if (vdev_req) { - unsigned int offs; - u32 virt_id; - - /* - * DLB uses producer port address bits 17:12 to determine the - * producer port ID. In Scalable IOV mode, PP accesses come - * through the PF MMIO window for the physical producer port, - * so for translation purposes the virtual and physical port - * IDs are equal. - */ - if (hw->virt_mode == DLB2_VIRT_SRIOV) - virt_id = port->id.virt_id; - else - virt_id = port->id.phys_id; - - reg = 0; - DLB2_BITS_SET(reg, port->id.phys_id, DLB2_SYS_VF_DIR_VPP2PP_PP); - offs = vdev_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + virt_id; - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VPP2PP(offs), reg); - - reg = 0; - DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_DIR_PP2VDEV_VDEV); - DLB2_CSR_WR(hw, DLB2_SYS_DIR_PP2VDEV(port->id.phys_id), reg); - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_VF_DIR_VPP_V_VPP_V); - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VPP_V(offs), reg); - } - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_DIR_PP_V_PP_V); - DLB2_CSR_WR(hw, DLB2_SYS_DIR_PP_V(port->id.phys_id), reg); -} - -static int dlb2_dir_port_configure_cq(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_dir_pq_pair *port, - uintptr_t cq_dma_base, - struct dlb2_create_dir_port_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - u32 reg = 0; - u32 ds = 0; - - /* The CQ address is 64B-aligned, and the DLB only wants bits [63:6] */ - DLB2_BITS_SET(reg, cq_dma_base >> 6, DLB2_SYS_DIR_CQ_ADDR_L_ADDR_L); - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_ADDR_L(port->id.phys_id), reg); - - reg = cq_dma_base >> 32; - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_ADDR_U(port->id.phys_id), reg); - - /* - * 'ro' == relaxed ordering. This setting allows DLB2 to write - * cache lines out-of-order (but QEs within a cache line are always - * updated in-order). - */ - reg = 0; - DLB2_BITS_SET(reg, vdev_id, DLB2_SYS_DIR_CQ2VF_PF_RO_VF); - DLB2_BITS_SET(reg, !vdev_req && (hw->virt_mode != DLB2_VIRT_SIOV), - DLB2_SYS_DIR_CQ2VF_PF_RO_IS_PF); - DLB2_BIT_SET(reg, DLB2_SYS_DIR_CQ2VF_PF_RO_RO); - - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ2VF_PF_RO(port->id.phys_id), reg); - - if (args->cq_depth <= 8) { - ds = 1; - } else if (args->cq_depth == 16) { - ds = 2; - } else if (args->cq_depth == 32) { - ds = 3; - } else if (args->cq_depth == 64) { - ds = 4; - } else if (args->cq_depth == 128) { - ds = 5; - } else if (args->cq_depth == 256) { - ds = 6; - } else if (args->cq_depth == 512) { - ds = 7; - } else if (args->cq_depth == 1024) { - ds = 8; - } else { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: invalid CQ depth\n", - __func__, __LINE__); - return -EFAULT; - } - - reg = 0; - DLB2_BITS_SET(reg, ds, - DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL_TOKEN_DEPTH_SELECT); - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_TKN_DEPTH_SEL(hw->ver, port->id.phys_id), - reg); - - /* - * To support CQs with depth less than 8, program the token count - * register with a non-zero initial value. Operations such as domain - * reset must take this initial value into account when quiescing the - * CQ. - */ - port->init_tkn_cnt = 0; - - if (args->cq_depth < 8) { - reg = 0; - port->init_tkn_cnt = 8 - args->cq_depth; - - DLB2_BITS_SET(reg, port->init_tkn_cnt, - DLB2_LSP_CQ_DIR_TKN_CNT_COUNT); - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id), - reg); - } else { - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TKN_CNT(hw->ver, port->id.phys_id), - DLB2_LSP_CQ_DIR_TKN_CNT_RST); - } - - reg = 0; - DLB2_BITS_SET(reg, ds, - DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI_TOKEN_DEPTH_SELECT_V2); - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_DIR_TKN_DEPTH_SEL_DSI(hw->ver, - port->id.phys_id), - reg); - - /* Reset the CQ write pointer */ - DLB2_CSR_WR(hw, - DLB2_CHP_DIR_CQ_WPTR(hw->ver, port->id.phys_id), - DLB2_CHP_DIR_CQ_WPTR_RST); - - /* Virtualize the PPID */ - reg = 0; - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_FMT(port->id.phys_id), reg); - - /* - * Address translation (AT) settings: 0: untranslated, 2: translated - * (see ATS spec regarding Address Type field for more details) - */ - if (hw->ver == DLB2_HW_V2) { - reg = 0; - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_AT(port->id.phys_id), reg); - } - - if (vdev_req && hw->virt_mode == DLB2_VIRT_SIOV) { - DLB2_BITS_SET(reg, hw->pasid[vdev_id], - DLB2_SYS_DIR_CQ_PASID_PASID); - DLB2_BIT_SET(reg, DLB2_SYS_DIR_CQ_PASID_FMT2); - } - - DLB2_CSR_WR(hw, DLB2_SYS_DIR_CQ_PASID(hw->ver, port->id.phys_id), reg); - - reg = 0; - DLB2_BITS_SET(reg, domain->id.phys_id, DLB2_CHP_DIR_CQ2VAS_CQ2VAS); - DLB2_CSR_WR(hw, DLB2_CHP_DIR_CQ2VAS(hw->ver, port->id.phys_id), reg); - - return 0; -} - -static int dlb2_configure_dir_port(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_dir_pq_pair *port, - uintptr_t cq_dma_base, - struct dlb2_create_dir_port_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - int ret; - - ret = dlb2_dir_port_configure_cq(hw, - domain, - port, - cq_dma_base, - args, - vdev_req, - vdev_id); - - if (ret) - return ret; - - dlb2_dir_port_configure_pp(hw, - domain, - port, - vdev_req, - vdev_id); - - dlb2_dir_port_cq_enable(hw, port); - - port->enabled = true; - - port->port_configured = true; - - return 0; -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_dir_pq_pair *port; - struct dlb2_hw_domain *domain; - int ret; - - dlb2_log_create_dir_port_args(hw, - domain_id, - cq_dma_base, - args, - vdev_req, - vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_create_dir_port_args(hw, - domain_id, - cq_dma_base, - args, - resp, - vdev_req, - vdev_id, - &domain, - &port); - if (ret) - return ret; - - ret = dlb2_configure_dir_port(hw, - domain, - port, - cq_dma_base, - args, - vdev_req, - vdev_id); - if (ret) - return ret; - - /* - * Configuration succeeded, so move the resource from the 'avail' to - * the 'used' list (if it's not already there). - */ - if (args->queue_id == -1) { - dlb2_list_del(&domain->avail_dir_pq_pairs, &port->domain_list); - - dlb2_list_add(&domain->used_dir_pq_pairs, &port->domain_list); - } - - resp->status = 0; - resp->id = (vdev_req) ? port->id.virt_id : port->id.phys_id; - - return 0; -} - -static void dlb2_configure_dir_queue(struct dlb2_hw *hw, - struct dlb2_hw_domain *domain, - struct dlb2_dir_pq_pair *queue, - struct dlb2_create_dir_queue_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - unsigned int offs; - u32 reg = 0; - - /* QID write permissions are turned on when the domain is started */ - offs = domain->id.phys_id * DLB2_MAX_NUM_DIR_QUEUES(hw->ver) + - queue->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_DIR_VASQID_V(offs), reg); - - /* Don't timestamp QEs that pass through this queue */ - DLB2_CSR_WR(hw, DLB2_SYS_DIR_QID_ITS(queue->id.phys_id), reg); - - reg = 0; - DLB2_BITS_SET(reg, args->depth_threshold, - DLB2_LSP_QID_DIR_DEPTH_THRSH_THRESH); - DLB2_CSR_WR(hw, - DLB2_LSP_QID_DIR_DEPTH_THRSH(hw->ver, queue->id.phys_id), - reg); - - if (vdev_req) { - offs = vdev_id * DLB2_MAX_NUM_DIR_QUEUES(hw->ver) + - queue->id.virt_id; - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_VF_DIR_VQID_V_VQID_V); - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID_V(offs), reg); - - reg = 0; - DLB2_BITS_SET(reg, queue->id.phys_id, - DLB2_SYS_VF_DIR_VQID2QID_QID); - DLB2_CSR_WR(hw, DLB2_SYS_VF_DIR_VQID2QID(offs), reg); - } - - reg = 0; - DLB2_BIT_SET(reg, DLB2_SYS_DIR_QID_V_QID_V); - DLB2_CSR_WR(hw, DLB2_SYS_DIR_QID_V(queue->id.phys_id), reg); - - queue->queue_configured = true; -} - -static void -dlb2_log_create_dir_queue_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_create_dir_queue_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 create directed queue arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); - DLB2_HW_DBG(hw, "\tPort ID: %d\n", args->port_id); -} - -static int -dlb2_verify_create_dir_queue_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_create_dir_queue_args *args, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain, - struct dlb2_dir_pq_pair **out_queue) -{ - struct dlb2_hw_domain *domain; - struct dlb2_dir_pq_pair *pq; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - if (domain->started) { - resp->status = DLB2_ST_DOMAIN_STARTED; - return -EINVAL; - } - - /* - * If the user claims the port is already configured, validate the port - * ID, its domain, and whether the port is configured. - */ - if (args->port_id != -1) { - pq = dlb2_get_domain_used_dir_pq(hw, - args->port_id, - vdev_req, - domain); - - if (!pq || pq->domain_id.phys_id != domain->id.phys_id || - !pq->port_configured) { - resp->status = DLB2_ST_INVALID_PORT_ID; - return -EINVAL; - } - } else { - /* - * If the queue's port is not configured, validate that a free - * port-queue pair is available. - */ - pq = DLB2_DOM_LIST_HEAD(domain->avail_dir_pq_pairs, - typeof(*pq)); - if (!pq) { - resp->status = DLB2_ST_DIR_QUEUES_UNAVAILABLE; - return -EINVAL; - } - } - - *out_domain = domain; - *out_queue = pq; - - return 0; -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_dir_pq_pair *queue; - struct dlb2_hw_domain *domain; - int ret; - - dlb2_log_create_dir_queue_args(hw, domain_id, args, vdev_req, vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_create_dir_queue_args(hw, - domain_id, - args, - resp, - vdev_req, - vdev_id, - &domain, - &queue); - if (ret) - return ret; - - dlb2_configure_dir_queue(hw, domain, queue, args, vdev_req, vdev_id); - - /* - * Configuration succeeded, so move the resource from the 'avail' to - * the 'used' list (if it's not already there). - */ - if (args->port_id == -1) { - dlb2_list_del(&domain->avail_dir_pq_pairs, - &queue->domain_list); - - dlb2_list_add(&domain->used_dir_pq_pairs, - &queue->domain_list); - } - - resp->status = 0; - - resp->id = (vdev_req) ? queue->id.virt_id : queue->id.phys_id; - - return 0; -} - -static bool -dlb2_port_find_slot_with_pending_map_queue(struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue, - int *slot) -{ - int i; - - for (i = 0; i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ; i++) { - struct dlb2_ldb_port_qid_map *map = &port->qid_map[i]; - - if (map->state == DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP && - map->pending_qid == queue->id.phys_id) - break; - } - - *slot = i; - - return (i < DLB2_MAX_NUM_QIDS_PER_LDB_CQ); -} - -static int dlb2_verify_map_qid_slot_available(struct dlb2_ldb_port *port, - struct dlb2_ldb_queue *queue, - struct dlb2_cmd_response *resp) -{ - enum dlb2_qid_map_state state; - int i; - - /* Unused slot available? */ - if (port->num_mappings < DLB2_MAX_NUM_QIDS_PER_LDB_CQ) - return 0; - - /* - * If the queue is already mapped (from the application's perspective), - * this is simply a priority update. - */ - state = DLB2_QUEUE_MAPPED; - if (dlb2_port_find_slot_queue(port, state, queue, &i)) - return 0; - - state = DLB2_QUEUE_MAP_IN_PROG; - if (dlb2_port_find_slot_queue(port, state, queue, &i)) - return 0; - - if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &i)) - return 0; - - /* - * If the slot contains an unmap in progress, it's considered - * available. - */ - state = DLB2_QUEUE_UNMAP_IN_PROG; - if (dlb2_port_find_slot(port, state, &i)) - return 0; - - state = DLB2_QUEUE_UNMAPPED; - if (dlb2_port_find_slot(port, state, &i)) - return 0; - - resp->status = DLB2_ST_NO_QID_SLOTS_AVAILABLE; - return -EINVAL; -} - -static struct dlb2_ldb_queue * -dlb2_get_domain_ldb_queue(u32 id, - bool vdev_req, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_queue *queue; - RTE_SET_USED(iter); - - if (id >= DLB2_MAX_NUM_LDB_QUEUES) - return NULL; - - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, queue, iter) { - if ((!vdev_req && queue->id.phys_id == id) || - (vdev_req && queue->id.virt_id == id)) - return queue; - } - - return NULL; -} - -static struct dlb2_ldb_port * -dlb2_get_domain_used_ldb_port(u32 id, - bool vdev_req, - struct dlb2_hw_domain *domain) -{ - struct dlb2_list_entry *iter; - struct dlb2_ldb_port *port; - int i; - RTE_SET_USED(iter); - - if (id >= DLB2_MAX_NUM_LDB_PORTS) - return NULL; - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - DLB2_DOM_LIST_FOR(domain->used_ldb_ports[i], port, iter) { - if ((!vdev_req && port->id.phys_id == id) || - (vdev_req && port->id.virt_id == id)) - return port; - } - - DLB2_DOM_LIST_FOR(domain->avail_ldb_ports[i], port, iter) { - if ((!vdev_req && port->id.phys_id == id) || - (vdev_req && port->id.virt_id == id)) - return port; - } - } - - return NULL; -} - -static void dlb2_ldb_port_change_qid_priority(struct dlb2_hw *hw, - struct dlb2_ldb_port *port, - int slot, - struct dlb2_map_qid_args *args) -{ - u32 cq2priov; - - /* Read-modify-write the priority and valid bit register */ - cq2priov = DLB2_CSR_RD(hw, - DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id)); - - cq2priov |= (1 << (slot + DLB2_LSP_CQ2PRIOV_V_LOC)) & - DLB2_LSP_CQ2PRIOV_V; - cq2priov |= ((args->priority & 0x7) << slot * 3) & - DLB2_LSP_CQ2PRIOV_PRIO; - - DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(hw->ver, port->id.phys_id), cq2priov); - - dlb2_flush_csr(hw); - - port->qid_map[slot].priority = args->priority; -} - -static int dlb2_verify_map_qid_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_map_qid_args *args, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain, - struct dlb2_ldb_port **out_port, - struct dlb2_ldb_queue **out_queue) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - struct dlb2_ldb_port *port; - int id; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - id = args->port_id; - - port = dlb2_get_domain_used_ldb_port(id, vdev_req, domain); - - if (!port || !port->configured) { - resp->status = DLB2_ST_INVALID_PORT_ID; - return -EINVAL; - } - - if (args->priority >= DLB2_QID_PRIORITIES) { - resp->status = DLB2_ST_INVALID_PRIORITY; - return -EINVAL; - } - - queue = dlb2_get_domain_ldb_queue(args->qid, vdev_req, domain); - - if (!queue || !queue->configured) { - resp->status = DLB2_ST_INVALID_QID; - return -EINVAL; - } - - if (queue->domain_id.phys_id != domain->id.phys_id) { - resp->status = DLB2_ST_INVALID_QID; - return -EINVAL; - } - - if (port->domain_id.phys_id != domain->id.phys_id) { - resp->status = DLB2_ST_INVALID_PORT_ID; - return -EINVAL; - } - - *out_domain = domain; - *out_queue = queue; - *out_port = port; - - return 0; -} - -static void dlb2_log_map_qid(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_map_qid_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 map QID arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", - domain_id); - DLB2_HW_DBG(hw, "\tPort ID: %d\n", - args->port_id); - DLB2_HW_DBG(hw, "\tQueue ID: %d\n", - args->qid); - DLB2_HW_DBG(hw, "\tPriority: %d\n", - args->priority); -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - enum dlb2_qid_map_state st; - struct dlb2_ldb_port *port; - int ret, i; - u8 prio; - - dlb2_log_map_qid(hw, domain_id, args, vdev_req, vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_map_qid_args(hw, - domain_id, - args, - resp, - vdev_req, - vdev_id, - &domain, - &port, - &queue); - if (ret) - return ret; - - prio = args->priority; - - /* - * If there are any outstanding detach operations for this port, - * attempt to complete them. This may be necessary to free up a QID - * slot for this requested mapping. - */ - if (port->num_pending_removals) - dlb2_domain_finish_unmap_port(hw, domain, port); - - ret = dlb2_verify_map_qid_slot_available(port, queue, resp); - if (ret) - return ret; - - /* Hardware requires disabling the CQ before mapping QIDs. */ - if (port->enabled) - dlb2_ldb_port_cq_disable(hw, port); - - /* - * If this is only a priority change, don't perform the full QID->CQ - * mapping procedure - */ - st = DLB2_QUEUE_MAPPED; - if (dlb2_port_find_slot_queue(port, st, queue, &i)) { - if (prio != port->qid_map[i].priority) { - dlb2_ldb_port_change_qid_priority(hw, port, i, args); - DLB2_HW_DBG(hw, "DLB2 map: priority change\n"); - } - - st = DLB2_QUEUE_MAPPED; - ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); - if (ret) - return ret; - - goto map_qid_done; - } - - st = DLB2_QUEUE_UNMAP_IN_PROG; - if (dlb2_port_find_slot_queue(port, st, queue, &i)) { - if (prio != port->qid_map[i].priority) { - dlb2_ldb_port_change_qid_priority(hw, port, i, args); - DLB2_HW_DBG(hw, "DLB2 map: priority change\n"); - } - - st = DLB2_QUEUE_MAPPED; - ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); - if (ret) - return ret; - - goto map_qid_done; - } - - /* - * If this is a priority change on an in-progress mapping, don't - * perform the full QID->CQ mapping procedure. - */ - st = DLB2_QUEUE_MAP_IN_PROG; - if (dlb2_port_find_slot_queue(port, st, queue, &i)) { - port->qid_map[i].priority = prio; - - DLB2_HW_DBG(hw, "DLB2 map: priority change only\n"); - - goto map_qid_done; - } - - /* - * If this is a priority change on a pending mapping, update the - * pending priority - */ - if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &i)) { - port->qid_map[i].pending_priority = prio; - - DLB2_HW_DBG(hw, "DLB2 map: priority change only\n"); - - goto map_qid_done; - } - - /* - * If all the CQ's slots are in use, then there's an unmap in progress - * (guaranteed by dlb2_verify_map_qid_slot_available()), so add this - * mapping to pending_map and return. When the removal is completed for - * the slot's current occupant, this mapping will be performed. - */ - if (!dlb2_port_find_slot(port, DLB2_QUEUE_UNMAPPED, &i)) { - if (dlb2_port_find_slot(port, DLB2_QUEUE_UNMAP_IN_PROG, &i)) { - enum dlb2_qid_map_state new_st; - - port->qid_map[i].pending_qid = queue->id.phys_id; - port->qid_map[i].pending_priority = prio; - - new_st = DLB2_QUEUE_UNMAP_IN_PROG_PENDING_MAP; - - ret = dlb2_port_slot_state_transition(hw, port, queue, - i, new_st); - if (ret) - return ret; - - DLB2_HW_DBG(hw, "DLB2 map: map pending removal\n"); - - goto map_qid_done; - } - } - - /* - * If the domain has started, a special "dynamic" CQ->queue mapping - * procedure is required in order to safely update the CQ<->QID tables. - * The "static" procedure cannot be used when traffic is flowing, - * because the CQ<->QID tables cannot be updated atomically and the - * scheduler won't see the new mapping unless the queue's if_status - * changes, which isn't guaranteed. - */ - ret = dlb2_ldb_port_map_qid(hw, domain, port, queue, prio); - - /* If ret is less than zero, it's due to an internal error */ - if (ret < 0) - return ret; - -map_qid_done: - if (port->enabled) - dlb2_ldb_port_cq_enable(hw, port); - - resp->status = 0; - - return 0; -} - -static void dlb2_log_unmap_qid(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_unmap_qid_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 unmap QID arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", - domain_id); - DLB2_HW_DBG(hw, "\tPort ID: %d\n", - args->port_id); - DLB2_HW_DBG(hw, "\tQueue ID: %d\n", - args->qid); - if (args->qid < DLB2_MAX_NUM_LDB_QUEUES) - DLB2_HW_DBG(hw, "\tQueue's num mappings: %d\n", - hw->rsrcs.ldb_queues[args->qid].num_mappings); -} - -static int dlb2_verify_unmap_qid_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_unmap_qid_args *args, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain, - struct dlb2_ldb_port **out_port, - struct dlb2_ldb_queue **out_queue) -{ - enum dlb2_qid_map_state state; - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - struct dlb2_ldb_port *port; - int slot; - int id; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - id = args->port_id; - - port = dlb2_get_domain_used_ldb_port(id, vdev_req, domain); - - if (!port || !port->configured) { - resp->status = DLB2_ST_INVALID_PORT_ID; - return -EINVAL; - } - - if (port->domain_id.phys_id != domain->id.phys_id) { - resp->status = DLB2_ST_INVALID_PORT_ID; - return -EINVAL; - } - - queue = dlb2_get_domain_ldb_queue(args->qid, vdev_req, domain); - - if (!queue || !queue->configured) { - DLB2_HW_ERR(hw, "[%s()] Can't unmap unconfigured queue %d\n", - __func__, args->qid); - resp->status = DLB2_ST_INVALID_QID; - return -EINVAL; - } - - /* - * Verify that the port has the queue mapped. From the application's - * perspective a queue is mapped if it is actually mapped, the map is - * in progress, or the map is blocked pending an unmap. - */ - state = DLB2_QUEUE_MAPPED; - if (dlb2_port_find_slot_queue(port, state, queue, &slot)) - goto done; - - state = DLB2_QUEUE_MAP_IN_PROG; - if (dlb2_port_find_slot_queue(port, state, queue, &slot)) - goto done; - - if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &slot)) - goto done; - - resp->status = DLB2_ST_INVALID_QID; - return -EINVAL; - -done: - *out_domain = domain; - *out_port = port; - *out_queue = queue; - - return 0; -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - enum dlb2_qid_map_state st; - struct dlb2_ldb_port *port; - bool unmap_complete; - int i, ret; - - dlb2_log_unmap_qid(hw, domain_id, args, vdev_req, vdev_id); - - /* - * Verify that hardware resources are available before attempting to - * satisfy the request. This simplifies the error unwinding code. - */ - ret = dlb2_verify_unmap_qid_args(hw, - domain_id, - args, - resp, - vdev_req, - vdev_id, - &domain, - &port, - &queue); - if (ret) - return ret; - - /* - * If the queue hasn't been mapped yet, we need to update the slot's - * state and re-enable the queue's inflights. - */ - st = DLB2_QUEUE_MAP_IN_PROG; - if (dlb2_port_find_slot_queue(port, st, queue, &i)) { - /* - * Since the in-progress map was aborted, re-enable the QID's - * inflights. - */ - if (queue->num_pending_additions == 0) - dlb2_ldb_queue_set_inflight_limit(hw, queue); - - st = DLB2_QUEUE_UNMAPPED; - ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); - if (ret) - return ret; - - goto unmap_qid_done; - } - - /* - * If the queue mapping is on hold pending an unmap, we simply need to - * update the slot's state. - */ - if (dlb2_port_find_slot_with_pending_map_queue(port, queue, &i)) { - st = DLB2_QUEUE_UNMAP_IN_PROG; - ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); - if (ret) - return ret; - - goto unmap_qid_done; - } - - st = DLB2_QUEUE_MAPPED; - if (!dlb2_port_find_slot_queue(port, st, queue, &i)) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: no available CQ slots\n", - __func__); - return -EFAULT; - } - - /* - * QID->CQ mapping removal is an asynchronous procedure. It requires - * stopping the DLB2 from scheduling this CQ, draining all inflights - * from the CQ, then unmapping the queue from the CQ. This function - * simply marks the port as needing the queue unmapped, and (if - * necessary) starts the unmapping worker thread. - */ - dlb2_ldb_port_cq_disable(hw, port); - - st = DLB2_QUEUE_UNMAP_IN_PROG; - ret = dlb2_port_slot_state_transition(hw, port, queue, i, st); - if (ret) - return ret; - - /* - * Attempt to finish the unmapping now, in case the port has no - * outstanding inflights. If that's not the case, this will fail and - * the unmapping will be completed at a later time. - */ - unmap_complete = dlb2_domain_finish_unmap_port(hw, domain, port); - - /* - * If the unmapping couldn't complete immediately, launch the worker - * thread (if it isn't already launched) to finish it later. - */ - if (!unmap_complete && !os_worker_active(hw)) - os_schedule_work(hw); - -unmap_qid_done: - resp->status = 0; - - return 0; -} - -static void -dlb2_log_pending_port_unmaps_args(struct dlb2_hw *hw, - struct dlb2_pending_port_unmaps_args *args, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB unmaps in progress arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from VF %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tPort ID: %d\n", args->port_id); -} - -/** - * 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. - * @vdev_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req is true, this contains the vdev'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 vdev_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_port *port; - - dlb2_log_pending_port_unmaps_args(hw, args, vdev_req, vdev_id); - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - port = dlb2_get_domain_used_ldb_port(args->port_id, vdev_req, domain); - if (!port || !port->configured) { - resp->status = DLB2_ST_INVALID_PORT_ID; - return -EINVAL; - } - - resp->id = port->num_pending_removals; - - return 0; -} - -static int dlb2_verify_start_domain_args(struct dlb2_hw *hw, - u32 domain_id, - struct dlb2_cmd_response *resp, - bool vdev_req, - unsigned int vdev_id, - struct dlb2_hw_domain **out_domain) -{ - struct dlb2_hw_domain *domain; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - if (!domain->configured) { - resp->status = DLB2_ST_DOMAIN_NOT_CONFIGURED; - return -EINVAL; - } - - if (domain->started) { - resp->status = DLB2_ST_DOMAIN_STARTED; - return -EINVAL; - } - - *out_domain = domain; - - return 0; -} - -static void dlb2_log_start_domain(struct dlb2_hw *hw, - u32 domain_id, - bool vdev_req, - unsigned int vdev_id) -{ - DLB2_HW_DBG(hw, "DLB2 start domain arguments:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from vdev %d)\n", vdev_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); -} - -/** - * dlb2_hw_start_domain() - start a scheduling domain - * @hw: dlb2_hw handle for a particular device. - * @domain_id: domain ID. - * @arg: start domain arguments. - * @resp: response structure. - * @vdev_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_list_entry *iter; - struct dlb2_dir_pq_pair *dir_queue; - struct dlb2_ldb_queue *ldb_queue; - struct dlb2_hw_domain *domain; - int ret; - RTE_SET_USED(args); - RTE_SET_USED(iter); - - dlb2_log_start_domain(hw, domain_id, vdev_req, vdev_id); - - ret = dlb2_verify_start_domain_args(hw, - domain_id, - resp, - vdev_req, - vdev_id, - &domain); - if (ret) - return ret; - - /* - * Enable load-balanced and directed queue write permissions for the - * queues this domain owns. Without this, the DLB2 will drop all - * incoming traffic to those queues. - */ - DLB2_DOM_LIST_FOR(domain->used_ldb_queues, ldb_queue, iter) { - u32 vasqid_v = 0; - unsigned int offs; - - DLB2_BIT_SET(vasqid_v, DLB2_SYS_LDB_VASQID_V_VASQID_V); - - offs = domain->id.phys_id * DLB2_MAX_NUM_LDB_QUEUES + - ldb_queue->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_VASQID_V(offs), vasqid_v); - } - - DLB2_DOM_LIST_FOR(domain->used_dir_pq_pairs, dir_queue, iter) { - u32 vasqid_v = 0; - unsigned int offs; - - DLB2_BIT_SET(vasqid_v, DLB2_SYS_DIR_VASQID_V_VASQID_V); - - offs = domain->id.phys_id * DLB2_MAX_NUM_DIR_PORTS(hw->ver) + - dir_queue->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_DIR_VASQID_V(offs), vasqid_v); - } - - dlb2_flush_csr(hw); - - domain->started = true; - - resp->status = 0; - - return 0; -} - -static void dlb2_log_get_dir_queue_depth(struct dlb2_hw *hw, - u32 domain_id, - u32 queue_id, - bool vdev_req, - unsigned int vf_id) -{ - DLB2_HW_DBG(hw, "DLB get directed queue depth:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from VF %d)\n", vf_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); - DLB2_HW_DBG(hw, "\tQueue ID: %d\n", queue_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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_dir_pq_pair *queue; - struct dlb2_hw_domain *domain; - int id; - - id = domain_id; - - dlb2_log_get_dir_queue_depth(hw, domain_id, args->queue_id, - vdev_req, vdev_id); - - domain = dlb2_get_domain_from_id(hw, id, vdev_req, vdev_id); - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - id = args->queue_id; - - queue = dlb2_get_domain_used_dir_pq(hw, id, vdev_req, domain); - if (!queue) { - resp->status = DLB2_ST_INVALID_QID; - return -EINVAL; - } - - resp->id = dlb2_dir_queue_depth(hw, queue); - - return 0; -} - -static void dlb2_log_get_ldb_queue_depth(struct dlb2_hw *hw, - u32 domain_id, - u32 queue_id, - bool vdev_req, - unsigned int vf_id) -{ - DLB2_HW_DBG(hw, "DLB get load-balanced queue depth:\n"); - if (vdev_req) - DLB2_HW_DBG(hw, "(Request from VF %d)\n", vf_id); - DLB2_HW_DBG(hw, "\tDomain ID: %d\n", domain_id); - DLB2_HW_DBG(hw, "\tQueue ID: %d\n", queue_id); -} - -/** - * 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_req: indicates whether this request came from a vdev. - * @vdev_id: If vdev_req 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_req, - unsigned int vdev_id) -{ - struct dlb2_hw_domain *domain; - struct dlb2_ldb_queue *queue; - - dlb2_log_get_ldb_queue_depth(hw, domain_id, args->queue_id, - vdev_req, vdev_id); - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - if (!domain) { - resp->status = DLB2_ST_INVALID_DOMAIN_ID; - return -EINVAL; - } - - queue = dlb2_get_domain_ldb_queue(args->queue_id, vdev_req, domain); - if (!queue) { - resp->status = DLB2_ST_INVALID_QID; - return -EINVAL; - } - - resp->id = dlb2_ldb_queue_depth(hw, queue); - - return 0; -} - -/** - * 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) -{ - int i, num = 0; - - /* Finish queue unmap jobs for any domain that needs it */ - for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { - struct dlb2_hw_domain *domain = &hw->domains[i]; - - num += dlb2_domain_finish_unmap_qid_procedures(hw, domain); - } - - return num; -} - -/** - * 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) -{ - int i, num = 0; - - /* Finish queue map jobs for any domain that needs it */ - for (i = 0; i < DLB2_MAX_NUM_DOMAINS; i++) { - struct dlb2_hw_domain *domain = &hw->domains[i]; - - num += dlb2_domain_finish_map_qid_procedures(hw, domain); - } - - return num; -} - -/** - * 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) -{ - u32 ctrl; - - ctrl = DLB2_CSR_RD(hw, DLB2_CHP_CFG_CHP_CSR_CTRL); - - DLB2_BIT_SET(ctrl, - DLB2_CHP_CFG_CHP_CSR_CTRL_CFG_64BYTES_QE_DIR_CQ_MODE); - - DLB2_CSR_WR(hw, DLB2_CHP_CFG_CHP_CSR_CTRL, ctrl); -} - -/** - * 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) -{ - u32 ctrl; - - ctrl = DLB2_CSR_RD(hw, DLB2_CHP_CFG_CHP_CSR_CTRL); - - DLB2_BIT_SET(ctrl, - DLB2_CHP_CFG_CHP_CSR_CTRL_CFG_64BYTES_QE_LDB_CQ_MODE); - - DLB2_CSR_WR(hw, DLB2_CHP_CFG_CHP_CSR_CTRL, ctrl); -} - -/** - * 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, u32 group_id) -{ - if (group_id >= DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) - return -EINVAL; - - return hw->rsrcs.sn_groups[group_id].sequence_numbers_per_queue; -} - -/** - * 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, u32 group_id) -{ - if (group_id >= DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) - return -EINVAL; - - return dlb2_sn_group_used_slots(&hw->rsrcs.sn_groups[group_id]); -} - -static void dlb2_log_set_group_sequence_numbers(struct dlb2_hw *hw, - u32 group_id, - u32 val) -{ - DLB2_HW_DBG(hw, "DLB2 set group sequence numbers:\n"); - DLB2_HW_DBG(hw, "\tGroup ID: %u\n", group_id); - DLB2_HW_DBG(hw, "\tValue: %u\n", val); -} - -/** - * 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, - u32 group_id, - u32 val) -{ - const u32 valid_allocations[] = {64, 128, 256, 512, 1024}; - struct dlb2_sn_group *group; - u32 sn_mode = 0; - int mode; - - if (group_id >= DLB2_MAX_NUM_SEQUENCE_NUMBER_GROUPS) - return -EINVAL; - - group = &hw->rsrcs.sn_groups[group_id]; - - /* - * Once the first load-balanced queue using an SN group is configured, - * the group cannot be changed. - */ - if (group->slot_use_bitmap != 0) - return -EPERM; - - for (mode = 0; mode < DLB2_MAX_NUM_SEQUENCE_NUMBER_MODES; mode++) - if (val == valid_allocations[mode]) - break; - - if (mode == DLB2_MAX_NUM_SEQUENCE_NUMBER_MODES) - return -EINVAL; - - group->mode = mode; - group->sequence_numbers_per_queue = val; - - DLB2_BITS_SET(sn_mode, hw->rsrcs.sn_groups[0].mode, - DLB2_RO_GRP_SN_MODE_SN_MODE_0); - DLB2_BITS_SET(sn_mode, hw->rsrcs.sn_groups[1].mode, - DLB2_RO_GRP_SN_MODE_SN_MODE_1); - - DLB2_CSR_WR(hw, DLB2_RO_GRP_SN_MODE(hw->ver), sn_mode); - - dlb2_log_set_group_sequence_numbers(hw, group_id, val); - - return 0; -} - -- 2.20.1