/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2018-2019 Hisilicon Limited. */ #include #include #include "hns3_ethdev.h" #include "hns3_regs.h" #include "hns3_logs.h" #include "hns3_intr.h" #include "hns3_rxtx.h" #define HNS3_CMD_CODE_OFFSET 2 static const struct errno_respcode_map err_code_map[] = { {0, 0}, {1, -EPERM}, {2, -ENOENT}, {5, -EIO}, {11, -EAGAIN}, {12, -ENOMEM}, {16, -EBUSY}, {22, -EINVAL}, {28, -ENOSPC}, {95, -EOPNOTSUPP}, }; static int hns3_resp_to_errno(uint16_t resp_code) { uint32_t i, num; num = sizeof(err_code_map) / sizeof(struct errno_respcode_map); for (i = 0; i < num; i++) { if (err_code_map[i].resp_code == resp_code) return err_code_map[i].err_no; } return -EIO; } static void hns3_poll_all_sync_msg(void) { struct rte_eth_dev *eth_dev; struct hns3_adapter *adapter; const char *name; uint16_t port_id; RTE_ETH_FOREACH_DEV(port_id) { eth_dev = &rte_eth_devices[port_id]; name = eth_dev->device->driver->name; if (strcmp(name, "net_hns3") && strcmp(name, "net_hns3_vf")) continue; adapter = eth_dev->data->dev_private; if (!adapter || adapter->hw.adapter_state == HNS3_NIC_CLOSED) continue; /* Synchronous msg, the mbx_resp.req_msg_data is non-zero */ if (adapter->hw.mbx_resp.req_msg_data) hns3_dev_handle_mbx_msg(&adapter->hw); } } static int hns3_get_mbx_resp(struct hns3_hw *hw, uint16_t code0, uint16_t code1, uint8_t *resp_data, uint16_t resp_len) { #define HNS3_MAX_RETRY_MS 500 struct hns3_adapter *hns = HNS3_DEV_HW_TO_ADAPTER(hw); struct hns3_mbx_resp_status *mbx_resp; bool in_irq = false; uint64_t now; uint64_t end; if (resp_len > HNS3_MBX_MAX_RESP_DATA_SIZE) { hns3_err(hw, "VF mbx response len(=%u) exceeds maximum(=%d)", resp_len, HNS3_MBX_MAX_RESP_DATA_SIZE); return -EINVAL; } now = get_timeofday_ms(); end = now + HNS3_MAX_RETRY_MS; while ((hw->mbx_resp.head != hw->mbx_resp.tail + hw->mbx_resp.lost) && (now < end)) { if (rte_atomic16_read(&hw->reset.disable_cmd)) { hns3_err(hw, "Don't wait for mbx respone because of " "disable_cmd"); return -EBUSY; } if (is_reset_pending(hns)) { hw->mbx_resp.req_msg_data = 0; hns3_err(hw, "Don't wait for mbx respone because of " "reset pending"); return -EIO; } /* * The mbox response is running on the interrupt thread. * Sending mbox in the interrupt thread cannot wait for the * response, so polling the mbox response on the irq thread. */ if (pthread_equal(hw->irq_thread_id, pthread_self())) { in_irq = true; hns3_poll_all_sync_msg(); } else { rte_delay_ms(HNS3_POLL_RESPONE_MS); } now = get_timeofday_ms(); } hw->mbx_resp.req_msg_data = 0; if (now >= end) { hw->mbx_resp.lost++; hns3_err(hw, "VF could not get mbx(%u,%u) head(%u) tail(%u) lost(%u) from PF in_irq:%d", code0, code1, hw->mbx_resp.head, hw->mbx_resp.tail, hw->mbx_resp.lost, in_irq); return -ETIME; } rte_io_rmb(); mbx_resp = &hw->mbx_resp; if (mbx_resp->resp_status) return mbx_resp->resp_status; if (resp_data) memcpy(resp_data, &mbx_resp->additional_info[0], resp_len); return 0; } int hns3_send_mbx_msg(struct hns3_hw *hw, uint16_t code, uint16_t subcode, const uint8_t *msg_data, uint8_t msg_len, bool need_resp, uint8_t *resp_data, uint16_t resp_len) { struct hns3_mbx_vf_to_pf_cmd *req; struct hns3_cmd_desc desc; bool is_ring_vector_msg; int offset; int ret; req = (struct hns3_mbx_vf_to_pf_cmd *)desc.data; /* first two bytes are reserved for code & subcode */ if (msg_len > (HNS3_MBX_MAX_MSG_SIZE - HNS3_CMD_CODE_OFFSET)) { hns3_err(hw, "VF send mbx msg fail, msg len %u exceeds max payload len %d", msg_len, HNS3_MBX_MAX_MSG_SIZE - HNS3_CMD_CODE_OFFSET); return -EINVAL; } hns3_cmd_setup_basic_desc(&desc, HNS3_OPC_MBX_VF_TO_PF, false); req->msg[0] = code; is_ring_vector_msg = (code == HNS3_MBX_MAP_RING_TO_VECTOR) || (code == HNS3_MBX_UNMAP_RING_TO_VECTOR) || (code == HNS3_MBX_GET_RING_VECTOR_MAP); if (!is_ring_vector_msg) req->msg[1] = subcode; if (msg_data) { offset = is_ring_vector_msg ? 1 : HNS3_CMD_CODE_OFFSET; memcpy(&req->msg[offset], msg_data, msg_len); } /* synchronous send */ if (need_resp) { req->mbx_need_resp |= HNS3_MBX_NEED_RESP_BIT; rte_spinlock_lock(&hw->mbx_resp.lock); hw->mbx_resp.req_msg_data = (uint32_t)code << 16 | subcode; hw->mbx_resp.head++; ret = hns3_cmd_send(hw, &desc, 1); if (ret) { rte_spinlock_unlock(&hw->mbx_resp.lock); hns3_err(hw, "VF failed(=%d) to send mbx message to PF", ret); return ret; } ret = hns3_get_mbx_resp(hw, code, subcode, resp_data, resp_len); rte_spinlock_unlock(&hw->mbx_resp.lock); } else { /* asynchronous send */ ret = hns3_cmd_send(hw, &desc, 1); if (ret) { hns3_err(hw, "VF failed(=%d) to send mbx message to PF", ret); return ret; } } return ret; } static bool hns3_cmd_crq_empty(struct hns3_hw *hw) { uint32_t tail = hns3_read_dev(hw, HNS3_CMDQ_RX_TAIL_REG); return tail == hw->cmq.crq.next_to_use; } static void hns3_mbx_handler(struct hns3_hw *hw) { struct hns3_mac *mac = &hw->mac; enum hns3_reset_level reset_level; uint16_t *msg_q; uint8_t opcode; uint32_t tail; tail = hw->arq.tail; /* process all the async queue messages */ while (tail != hw->arq.head) { msg_q = hw->arq.msg_q[hw->arq.head]; opcode = msg_q[0] & 0xff; switch (opcode) { case HNS3_MBX_LINK_STAT_CHANGE: memcpy(&mac->link_speed, &msg_q[2], sizeof(mac->link_speed)); mac->link_status = rte_le_to_cpu_16(msg_q[1]); mac->link_duplex = (uint8_t)rte_le_to_cpu_16(msg_q[4]); break; case HNS3_MBX_ASSERTING_RESET: /* PF has asserted reset hence VF should go in pending * state and poll for the hardware reset status till it * has been completely reset. After this stack should * eventually be re-initialized. */ reset_level = rte_le_to_cpu_16(msg_q[1]); hns3_atomic_set_bit(reset_level, &hw->reset.pending); hns3_warn(hw, "PF inform reset level %d", reset_level); hw->reset.stats.request_cnt++; hns3_schedule_reset(HNS3_DEV_HW_TO_ADAPTER(hw)); break; default: hns3_err(hw, "Fetched unsupported(%u) message from arq", opcode); break; } hns3_mbx_head_ptr_move_arq(hw->arq); msg_q = hw->arq.msg_q[hw->arq.head]; } } /* * Case1: receive response after timeout, req_msg_data * is 0, not equal resp_msg, do lost-- * Case2: receive last response during new send_mbx_msg, * req_msg_data is different with resp_msg, let * lost--, continue to wait for response. */ static void hns3_update_resp_position(struct hns3_hw *hw, uint32_t resp_msg) { struct hns3_mbx_resp_status *resp = &hw->mbx_resp; uint32_t tail = resp->tail + 1; if (tail > resp->head) tail = resp->head; if (resp->req_msg_data != resp_msg) { if (resp->lost) resp->lost--; hns3_warn(hw, "Received a mismatched response req_msg(%x) " "resp_msg(%x) head(%u) tail(%u) lost(%u)", resp->req_msg_data, resp_msg, resp->head, tail, resp->lost); } else if (tail + resp->lost > resp->head) { resp->lost--; hns3_warn(hw, "Received a new response again resp_msg(%x) " "head(%u) tail(%u) lost(%u)", resp_msg, resp->head, tail, resp->lost); } rte_io_wmb(); resp->tail = tail; } static void hns3_link_fail_parse(struct hns3_hw *hw, uint8_t link_fail_code) { switch (link_fail_code) { case HNS3_MBX_LF_NORMAL: break; case HNS3_MBX_LF_REF_CLOCK_LOST: hns3_warn(hw, "Reference clock lost!"); break; case HNS3_MBX_LF_XSFP_TX_DISABLE: hns3_warn(hw, "SFP tx is disabled!"); break; case HNS3_MBX_LF_XSFP_ABSENT: hns3_warn(hw, "SFP is absent!"); break; default: hns3_warn(hw, "Unknown fail code:%u!", link_fail_code); break; } } static void hns3_handle_link_change_event(struct hns3_hw *hw, struct hns3_mbx_pf_to_vf_cmd *req) { #define LINK_STATUS_OFFSET 1 #define LINK_FAIL_CODE_OFFSET 2 if (!req->msg[LINK_STATUS_OFFSET]) hns3_link_fail_parse(hw, req->msg[LINK_FAIL_CODE_OFFSET]); hns3_update_link_status(hw); } static void hns3_update_port_base_vlan_info(struct hns3_hw *hw, struct hns3_mbx_pf_to_vf_cmd *req) { #define PVID_STATE_OFFSET 1 uint16_t new_pvid_state = req->msg[PVID_STATE_OFFSET] ? HNS3_PORT_BASE_VLAN_ENABLE : HNS3_PORT_BASE_VLAN_DISABLE; /* * Currently, hardware doesn't support more than two layers VLAN offload * based on hns3 network engine, which would cause packets loss or wrong * packets for these types of packets. If the hns3 PF kernel ethdev * driver sets the PVID for VF device after initialization of the * related VF device, the PF driver will notify VF driver to update the * PVID configuration state. The VF driver will update the PVID * configuration state immediately to ensure that the VLAN process in Tx * and Rx is correct. But in the window period of this state transition, * packets loss or packets with wrong VLAN may occur. */ if (hw->port_base_vlan_cfg.state != new_pvid_state) { hw->port_base_vlan_cfg.state = new_pvid_state; hns3_update_all_queues_pvid_proc_en(hw); } } static void hns3_handle_promisc_info(struct hns3_hw *hw, uint16_t promisc_en) { if (!promisc_en) { /* * When promisc/allmulti mode is closed by the hns3 PF kernel * ethdev driver for untrusted, modify VF's related status. */ hns3_warn(hw, "Promisc mode will be closed by host for being " "untrusted."); hw->data->promiscuous = 0; hw->data->all_multicast = 0; } } void hns3_dev_handle_mbx_msg(struct hns3_hw *hw) { struct hns3_mbx_resp_status *resp = &hw->mbx_resp; struct hns3_cmq_ring *crq = &hw->cmq.crq; struct hns3_mbx_pf_to_vf_cmd *req; struct hns3_cmd_desc *desc; uint32_t msg_data; uint16_t *msg_q; uint8_t opcode; uint16_t flag; uint8_t *temp; int i; while (!hns3_cmd_crq_empty(hw)) { if (rte_atomic16_read(&hw->reset.disable_cmd)) return; desc = &crq->desc[crq->next_to_use]; req = (struct hns3_mbx_pf_to_vf_cmd *)desc->data; opcode = req->msg[0] & 0xff; flag = rte_le_to_cpu_16(crq->desc[crq->next_to_use].flag); if (unlikely(!hns3_get_bit(flag, HNS3_CMDQ_RX_OUTVLD_B))) { hns3_warn(hw, "dropped invalid mailbox message, code = %u", opcode); /* dropping/not processing this invalid message */ crq->desc[crq->next_to_use].flag = 0; hns3_mbx_ring_ptr_move_crq(crq); continue; } switch (opcode) { case HNS3_MBX_PF_VF_RESP: resp->resp_status = hns3_resp_to_errno(req->msg[3]); temp = (uint8_t *)&req->msg[4]; for (i = 0; i < HNS3_MBX_MAX_RESP_DATA_SIZE; i++) { resp->additional_info[i] = *temp; temp++; } msg_data = (uint32_t)req->msg[1] << 16 | req->msg[2]; hns3_update_resp_position(hw, msg_data); break; case HNS3_MBX_LINK_STAT_CHANGE: case HNS3_MBX_ASSERTING_RESET: msg_q = hw->arq.msg_q[hw->arq.tail]; memcpy(&msg_q[0], req->msg, HNS3_MBX_MAX_ARQ_MSG_SIZE * sizeof(uint16_t)); hns3_mbx_tail_ptr_move_arq(hw->arq); hns3_mbx_handler(hw); break; case HNS3_MBX_PUSH_LINK_STATUS: hns3_handle_link_change_event(hw, req); break; case HNS3_MBX_PUSH_VLAN_INFO: /* * When the PVID configuration status of VF device is * changed by the hns3 PF kernel driver, VF driver will * receive this mailbox message from PF driver. */ hns3_update_port_base_vlan_info(hw, req); break; case HNS3_MBX_PUSH_PROMISC_INFO: /* * When the trust status of VF device changed by the * hns3 PF kernel driver, VF driver will receive this * mailbox message from PF driver. */ hns3_handle_promisc_info(hw, req->msg[1]); break; default: hns3_err(hw, "VF received unsupported(%u) mbx msg from PF", req->msg[0]); break; } crq->desc[crq->next_to_use].flag = 0; hns3_mbx_ring_ptr_move_crq(crq); } /* Write back CMDQ_RQ header pointer, IMP need this pointer */ hns3_write_dev(hw, HNS3_CMDQ_RX_HEAD_REG, crq->next_to_use); }