From ca1286221871b6aedd0ee2d343e371338216897f Mon Sep 17 00:00:00 2001 From: Timothy McDaniel Date: Sat, 1 May 2021 14:03:44 -0500 Subject: [PATCH] event/dlb2: add v2.5 create LDB port Update the low level HW functions responsible for creating load balanced ports. These functions create the producer port (PP), configure the consumer queue (CQ), and validate the port creation arguments. The logic is very similar to what was done for v2.0, but the new combined register map for v2.0 and v2.5 uses new register names and bit names. Additionally, new register access macros are used so that the code can perform the correct action, based on the hardware version, v2.0 or v2.5. Signed-off-by: Timothy McDaniel --- drivers/event/dlb2/pf/base/dlb2_resource.c | 490 ------------------ .../event/dlb2/pf/base/dlb2_resource_new.c | 471 +++++++++++++++++ 2 files changed, 471 insertions(+), 490 deletions(-) diff --git a/drivers/event/dlb2/pf/base/dlb2_resource.c b/drivers/event/dlb2/pf/base/dlb2_resource.c index f8b85bc57d..45d096eecc 100644 --- a/drivers/event/dlb2/pf/base/dlb2_resource.c +++ b/drivers/event/dlb2/pf/base/dlb2_resource.c @@ -1216,496 +1216,6 @@ int dlb2_set_group_sequence_numbers(struct dlb2_hw *hw, 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) -{ - union dlb2_sys_ldb_pp2vas r0 = { {0} }; - union dlb2_sys_ldb_pp_v r4 = { {0} }; - - r0.field.vas = domain->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_PP2VAS(port->id.phys_id), r0.val); - - if (vdev_req) { - union dlb2_sys_vf_ldb_vpp2pp r1 = { {0} }; - union dlb2_sys_ldb_pp2vdev r2 = { {0} }; - union dlb2_sys_vf_ldb_vpp_v r3 = { {0} }; - 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; - - r1.field.pp = port->id.phys_id; - - offs = vdev_id * DLB2_MAX_NUM_LDB_PORTS + virt_id; - - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP2PP(offs), r1.val); - - r2.field.vdev = vdev_id; - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_PP2VDEV(port->id.phys_id), - r2.val); - - r3.field.vpp_v = 1; - - DLB2_CSR_WR(hw, DLB2_SYS_VF_LDB_VPP_V(offs), r3.val); - } - - r4.field.pp_v = 1; - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_PP_V(port->id.phys_id), - r4.val); -} - -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) -{ - union dlb2_sys_ldb_cq_addr_l r0 = { {0} }; - union dlb2_sys_ldb_cq_addr_u r1 = { {0} }; - union dlb2_sys_ldb_cq2vf_pf_ro r2 = { {0} }; - union dlb2_chp_ldb_cq_tkn_depth_sel r3 = { {0} }; - union dlb2_lsp_cq_ldb_tkn_depth_sel r4 = { {0} }; - union dlb2_chp_hist_list_lim r5 = { {0} }; - union dlb2_chp_hist_list_base r6 = { {0} }; - union dlb2_lsp_cq_ldb_infl_lim r7 = { {0} }; - union dlb2_chp_hist_list_push_ptr r8 = { {0} }; - union dlb2_chp_hist_list_pop_ptr r9 = { {0} }; - union dlb2_sys_ldb_cq_at r10 = { {0} }; - union dlb2_sys_ldb_cq_pasid r11 = { {0} }; - union dlb2_chp_ldb_cq2vas r12 = { {0} }; - union dlb2_lsp_cq2priov r13 = { {0} }; - - /* The CQ address is 64B-aligned, and the DLB only wants bits [63:6] */ - r0.field.addr_l = cq_dma_base >> 6; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_ADDR_L(port->id.phys_id), r0.val); - - r1.field.addr_u = cq_dma_base >> 32; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_ADDR_U(port->id.phys_id), r1.val); - - /* - * '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). - */ - r2.field.vf = vdev_id; - r2.field.is_pf = !vdev_req && (hw->virt_mode != DLB2_VIRT_SIOV); - r2.field.ro = 1; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ2VF_PF_RO(port->id.phys_id), r2.val); - - if (args->cq_depth <= 8) { - r3.field.token_depth_select = 1; - } else if (args->cq_depth == 16) { - r3.field.token_depth_select = 2; - } else if (args->cq_depth == 32) { - r3.field.token_depth_select = 3; - } else if (args->cq_depth == 64) { - r3.field.token_depth_select = 4; - } else if (args->cq_depth == 128) { - r3.field.token_depth_select = 5; - } else if (args->cq_depth == 256) { - r3.field.token_depth_select = 6; - } else if (args->cq_depth == 512) { - r3.field.token_depth_select = 7; - } else if (args->cq_depth == 1024) { - r3.field.token_depth_select = 8; - } else { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: invalid CQ depth\n", - __func__, __LINE__); - return -EFAULT; - } - - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_TKN_DEPTH_SEL(port->id.phys_id), - r3.val); - - /* - * 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) { - union dlb2_lsp_cq_ldb_tkn_cnt r14 = { {0} }; - - port->init_tkn_cnt = 8 - args->cq_depth; - - r14.field.token_count = port->init_tkn_cnt; - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_CNT(port->id.phys_id), - r14.val); - } else { - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_CNT(port->id.phys_id), - DLB2_LSP_CQ_LDB_TKN_CNT_RST); - } - - r4.field.token_depth_select = r3.field.token_depth_select; - r4.field.ignore_depth = 0; - - DLB2_CSR_WR(hw, - DLB2_LSP_CQ_LDB_TKN_DEPTH_SEL(port->id.phys_id), - r4.val); - - /* Reset the CQ write pointer */ - DLB2_CSR_WR(hw, - DLB2_CHP_LDB_CQ_WPTR(port->id.phys_id), - DLB2_CHP_LDB_CQ_WPTR_RST); - - r5.field.limit = port->hist_list_entry_limit - 1; - - DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_LIM(port->id.phys_id), r5.val); - - r6.field.base = port->hist_list_entry_base; - - DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_BASE(port->id.phys_id), r6.val); - - /* - * The inflight limit sets a cap on the number of QEs for which this CQ - * can owe completions at one time. - */ - r7.field.limit = args->cq_history_list_size; - - DLB2_CSR_WR(hw, DLB2_LSP_CQ_LDB_INFL_LIM(port->id.phys_id), r7.val); - - r8.field.push_ptr = r6.field.base; - r8.field.generation = 0; - - DLB2_CSR_WR(hw, - DLB2_CHP_HIST_LIST_PUSH_PTR(port->id.phys_id), - r8.val); - - r9.field.pop_ptr = r6.field.base; - r9.field.generation = 0; - - DLB2_CSR_WR(hw, DLB2_CHP_HIST_LIST_POP_PTR(port->id.phys_id), r9.val); - - /* - * Address translation (AT) settings: 0: untranslated, 2: translated - * (see ATS spec regarding Address Type field for more details) - */ - r10.field.cq_at = 0; - - DLB2_CSR_WR(hw, DLB2_SYS_LDB_CQ_AT(port->id.phys_id), r10.val); - - if (vdev_req && hw->virt_mode == DLB2_VIRT_SIOV) { - r11.field.pasid = hw->pasid[vdev_id]; - r11.field.fmt2 = 1; - } - - DLB2_CSR_WR(hw, - DLB2_SYS_LDB_CQ_PASID(port->id.phys_id), - r11.val); - - r12.field.cq2vas = domain->id.phys_id; - - DLB2_CSR_WR(hw, DLB2_CHP_LDB_CQ2VAS(port->id.phys_id), r12.val); - - /* Disable the port's QID mappings */ - r13.field.v = 0; - - DLB2_CSR_WR(hw, DLB2_LSP_CQ2PRIOV(port->id.phys_id), r13.val); - - return 0; -} - -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 < 0) - 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 *domain; - int i; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - - if (domain == NULL) { - 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) { - if (dlb2_list_empty(&domain->avail_ldb_ports[args->cos_id])) { - resp->status = DLB2_ST_LDB_PORTS_UNAVAILABLE; - return -EINVAL; - } - } else { - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - if (!dlb2_list_empty(&domain->avail_ldb_ports[i])) - break; - } - - if (i == DLB2_NUM_COS_DOMAINS) { - 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 (args->cq_depth != 1 && - args->cq_depth != 2 && - args->cq_depth != 4 && - args->cq_depth != 8 && - args->cq_depth != 16 && - args->cq_depth != 32 && - args->cq_depth != 64 && - args->cq_depth != 128 && - args->cq_depth != 256 && - args->cq_depth != 512 && - args->cq_depth != 1024) { - 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; - } - - return 0; -} - - -/** - * dlb2_hw_create_ldb_port() - Allocate and initialize a load-balanced port and - * its resources. - * @hw: Contains the current state of the DLB2 hardware. - * @domain_id: Domain ID - * @args: User-provided arguments. - * @cq_dma_base: Base DMA address for consumer queue memory - * @resp: Response to user. - * @vdev_req: Request came from a virtual device. - * @vdev_id: If vdev_req is true, this contains the virtual device's ID. - * - * Return: returns < 0 on error, 0 otherwise. If the driver is unable to - * satisfy a request, resp->status will be set accordingly. - */ -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, i; - - 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); - if (ret) - return ret; - - domain = dlb2_get_domain_from_id(hw, domain_id, vdev_req, vdev_id); - if (domain == NULL) { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: domain not found\n", - __func__, __LINE__); - return -EFAULT; - } - - if (args->cos_strict) { - cos_id = args->cos_id; - - port = DLB2_DOM_LIST_HEAD(domain->avail_ldb_ports[cos_id], - typeof(*port)); - } else { - int idx; - - for (i = 0; i < DLB2_NUM_COS_DOMAINS; i++) { - idx = (args->cos_id + i) % DLB2_NUM_COS_DOMAINS; - - port = DLB2_DOM_LIST_HEAD(domain->avail_ldb_ports[idx], - typeof(*port)); - if (port) - break; - } - - cos_id = idx; - } - - if (port == NULL) { - DLB2_HW_ERR(hw, - "[%s():%d] Internal error: no available ldb ports\n", - __func__, __LINE__); - return -EFAULT; - } - - if (port->configured) { - DLB2_HW_ERR(hw, - "[%s()] Internal error: avail_ldb_ports contains configured ports.\n", - __func__); - return -EFAULT; - } - - ret = dlb2_configure_ldb_port(hw, - domain, - port, - cq_dma_base, - args, - vdev_req, - vdev_id); - if (ret < 0) - 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, diff --git a/drivers/event/dlb2/pf/base/dlb2_resource_new.c b/drivers/event/dlb2/pf/base/dlb2_resource_new.c index b52d2becd7..2eb39e23d6 100644 --- a/drivers/event/dlb2/pf/base/dlb2_resource_new.c +++ b/drivers/event/dlb2/pf/base/dlb2_resource_new.c @@ -3972,3 +3972,474 @@ int dlb2_hw_create_ldb_queue(struct dlb2_hw *hw, 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; +} -- 2.20.1