From fb4ac04e9bfa115da9cc425b892ebad23e811b10 Mon Sep 17 00:00:00 2001 From: Junfeng Guo Date: Mon, 31 Oct 2022 08:33:29 +0000 Subject: [PATCH] common/idpf: introduce common library Introduce common library for IDPF (Infrastructure Data Path Function) PMD. Add base code and OS specific implementation first. Signed-off-by: Beilei Xing Signed-off-by: Xiao Wang Signed-off-by: Junfeng Guo --- drivers/common/idpf/base/idpf_alloc.h | 22 + drivers/common/idpf/base/idpf_common.c | 364 +++ drivers/common/idpf/base/idpf_controlq.c | 691 ++++ drivers/common/idpf/base/idpf_controlq.h | 224 ++ drivers/common/idpf/base/idpf_controlq_api.h | 207 ++ .../common/idpf/base/idpf_controlq_setup.c | 179 + drivers/common/idpf/base/idpf_devids.h | 18 + drivers/common/idpf/base/idpf_lan_pf_regs.h | 134 + drivers/common/idpf/base/idpf_lan_txrx.h | 428 +++ drivers/common/idpf/base/idpf_lan_vf_regs.h | 114 + drivers/common/idpf/base/idpf_osdep.h | 364 +++ drivers/common/idpf/base/idpf_prototype.h | 45 + drivers/common/idpf/base/idpf_type.h | 106 + drivers/common/idpf/base/meson.build | 14 + drivers/common/idpf/base/siov_regs.h | 47 + drivers/common/idpf/base/virtchnl.h | 2866 +++++++++++++++++ drivers/common/idpf/base/virtchnl2.h | 1462 +++++++++ drivers/common/idpf/base/virtchnl2_lan_desc.h | 606 ++++ .../common/idpf/base/virtchnl_inline_ipsec.h | 567 ++++ drivers/common/idpf/meson.build | 4 + drivers/common/idpf/version.map | 12 + drivers/common/meson.build | 1 + 22 files changed, 8475 insertions(+) create mode 100644 drivers/common/idpf/base/idpf_alloc.h create mode 100644 drivers/common/idpf/base/idpf_common.c create mode 100644 drivers/common/idpf/base/idpf_controlq.c create mode 100644 drivers/common/idpf/base/idpf_controlq.h create mode 100644 drivers/common/idpf/base/idpf_controlq_api.h create mode 100644 drivers/common/idpf/base/idpf_controlq_setup.c create mode 100644 drivers/common/idpf/base/idpf_devids.h create mode 100644 drivers/common/idpf/base/idpf_lan_pf_regs.h create mode 100644 drivers/common/idpf/base/idpf_lan_txrx.h create mode 100644 drivers/common/idpf/base/idpf_lan_vf_regs.h create mode 100644 drivers/common/idpf/base/idpf_osdep.h create mode 100644 drivers/common/idpf/base/idpf_prototype.h create mode 100644 drivers/common/idpf/base/idpf_type.h create mode 100644 drivers/common/idpf/base/meson.build create mode 100644 drivers/common/idpf/base/siov_regs.h create mode 100644 drivers/common/idpf/base/virtchnl.h create mode 100644 drivers/common/idpf/base/virtchnl2.h create mode 100644 drivers/common/idpf/base/virtchnl2_lan_desc.h create mode 100644 drivers/common/idpf/base/virtchnl_inline_ipsec.h create mode 100644 drivers/common/idpf/meson.build create mode 100644 drivers/common/idpf/version.map diff --git a/drivers/common/idpf/base/idpf_alloc.h b/drivers/common/idpf/base/idpf_alloc.h new file mode 100644 index 0000000000..bc054851b3 --- /dev/null +++ b/drivers/common/idpf/base/idpf_alloc.h @@ -0,0 +1,22 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_ALLOC_H_ +#define _IDPF_ALLOC_H_ + +/* Memory types */ +enum idpf_memset_type { + IDPF_NONDMA_MEM = 0, + IDPF_DMA_MEM +}; + +/* Memcpy types */ +enum idpf_memcpy_type { + IDPF_NONDMA_TO_NONDMA = 0, + IDPF_NONDMA_TO_DMA, + IDPF_DMA_TO_DMA, + IDPF_DMA_TO_NONDMA +}; + +#endif /* _IDPF_ALLOC_H_ */ diff --git a/drivers/common/idpf/base/idpf_common.c b/drivers/common/idpf/base/idpf_common.c new file mode 100644 index 0000000000..1debf129a3 --- /dev/null +++ b/drivers/common/idpf/base/idpf_common.c @@ -0,0 +1,364 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#include "idpf_type.h" +#include "idpf_prototype.h" +#include "virtchnl.h" + + +/** + * idpf_set_mac_type - Sets MAC type + * @hw: pointer to the HW structure + * + * This function sets the mac type of the adapter based on the + * vendor ID and device ID stored in the hw structure. + */ +int idpf_set_mac_type(struct idpf_hw *hw) +{ + int status = 0; + + DEBUGFUNC("Set MAC type\n"); + + if (hw->vendor_id == IDPF_INTEL_VENDOR_ID) { + switch (hw->device_id) { + case IDPF_DEV_ID_PF: + hw->mac.type = IDPF_MAC_PF; + break; + case IDPF_DEV_ID_VF: + hw->mac.type = IDPF_MAC_VF; + break; + default: + hw->mac.type = IDPF_MAC_GENERIC; + break; + } + } else { + status = -ENODEV; + } + + DEBUGOUT2("Setting MAC type found mac: %d, returns: %d\n", + hw->mac.type, status); + return status; +} + +/** + * idpf_init_hw - main initialization routine + * @hw: pointer to the hardware structure + * @ctlq_size: struct to pass ctlq size data + */ +int idpf_init_hw(struct idpf_hw *hw, struct idpf_ctlq_size ctlq_size) +{ + struct idpf_ctlq_create_info *q_info; + int status = 0; + struct idpf_ctlq_info *cq = NULL; + + /* Setup initial control queues */ + q_info = (struct idpf_ctlq_create_info *) + idpf_calloc(hw, 2, sizeof(struct idpf_ctlq_create_info)); + if (!q_info) + return -ENOMEM; + + q_info[0].type = IDPF_CTLQ_TYPE_MAILBOX_TX; + q_info[0].buf_size = ctlq_size.asq_buf_size; + q_info[0].len = ctlq_size.asq_ring_size; + q_info[0].id = -1; /* default queue */ + + if (hw->mac.type == IDPF_MAC_PF) { + q_info[0].reg.head = PF_FW_ATQH; + q_info[0].reg.tail = PF_FW_ATQT; + q_info[0].reg.len = PF_FW_ATQLEN; + q_info[0].reg.bah = PF_FW_ATQBAH; + q_info[0].reg.bal = PF_FW_ATQBAL; + q_info[0].reg.len_mask = PF_FW_ATQLEN_ATQLEN_M; + q_info[0].reg.len_ena_mask = PF_FW_ATQLEN_ATQENABLE_M; + q_info[0].reg.head_mask = PF_FW_ATQH_ATQH_M; + } else { + q_info[0].reg.head = VF_ATQH; + q_info[0].reg.tail = VF_ATQT; + q_info[0].reg.len = VF_ATQLEN; + q_info[0].reg.bah = VF_ATQBAH; + q_info[0].reg.bal = VF_ATQBAL; + q_info[0].reg.len_mask = VF_ATQLEN_ATQLEN_M; + q_info[0].reg.len_ena_mask = VF_ATQLEN_ATQENABLE_M; + q_info[0].reg.head_mask = VF_ATQH_ATQH_M; + } + + q_info[1].type = IDPF_CTLQ_TYPE_MAILBOX_RX; + q_info[1].buf_size = ctlq_size.arq_buf_size; + q_info[1].len = ctlq_size.arq_ring_size; + q_info[1].id = -1; /* default queue */ + + if (hw->mac.type == IDPF_MAC_PF) { + q_info[1].reg.head = PF_FW_ARQH; + q_info[1].reg.tail = PF_FW_ARQT; + q_info[1].reg.len = PF_FW_ARQLEN; + q_info[1].reg.bah = PF_FW_ARQBAH; + q_info[1].reg.bal = PF_FW_ARQBAL; + q_info[1].reg.len_mask = PF_FW_ARQLEN_ARQLEN_M; + q_info[1].reg.len_ena_mask = PF_FW_ARQLEN_ARQENABLE_M; + q_info[1].reg.head_mask = PF_FW_ARQH_ARQH_M; + } else { + q_info[1].reg.head = VF_ARQH; + q_info[1].reg.tail = VF_ARQT; + q_info[1].reg.len = VF_ARQLEN; + q_info[1].reg.bah = VF_ARQBAH; + q_info[1].reg.bal = VF_ARQBAL; + q_info[1].reg.len_mask = VF_ARQLEN_ARQLEN_M; + q_info[1].reg.len_ena_mask = VF_ARQLEN_ARQENABLE_M; + q_info[1].reg.head_mask = VF_ARQH_ARQH_M; + } + + status = idpf_ctlq_init(hw, 2, q_info); + if (status) { + /* TODO return error */ + idpf_free(hw, q_info); + return status; + } + + LIST_FOR_EACH_ENTRY(cq, &hw->cq_list_head, idpf_ctlq_info, cq_list) { + if (cq->cq_type == IDPF_CTLQ_TYPE_MAILBOX_TX) + hw->asq = cq; + else if (cq->cq_type == IDPF_CTLQ_TYPE_MAILBOX_RX) + hw->arq = cq; + } + + /* TODO hardcode a mac addr for now */ + hw->mac.addr[0] = 0x00; + hw->mac.addr[1] = 0x00; + hw->mac.addr[2] = 0x00; + hw->mac.addr[3] = 0x00; + hw->mac.addr[4] = 0x03; + hw->mac.addr[5] = 0x14; + + return 0; +} + +/** + * idpf_send_msg_to_cp + * @hw: pointer to the hardware structure + * @v_opcode: opcodes for VF-PF communication + * @v_retval: return error code + * @msg: pointer to the msg buffer + * @msglen: msg length + * @cmd_details: pointer to command details + * + * Send message to CP. By default, this message + * is sent asynchronously, i.e. idpf_asq_send_command() does not wait for + * completion before returning. + */ +int idpf_send_msg_to_cp(struct idpf_hw *hw, enum virtchnl_ops v_opcode, + int v_retval, u8 *msg, u16 msglen) +{ + struct idpf_ctlq_msg ctlq_msg = { 0 }; + struct idpf_dma_mem dma_mem = { 0 }; + int status; + + ctlq_msg.opcode = idpf_mbq_opc_send_msg_to_pf; + ctlq_msg.func_id = 0; + ctlq_msg.data_len = msglen; + ctlq_msg.cookie.mbx.chnl_retval = v_retval; + ctlq_msg.cookie.mbx.chnl_opcode = v_opcode; + + if (msglen > 0) { + dma_mem.va = (struct idpf_dma_mem *) + idpf_alloc_dma_mem(hw, &dma_mem, msglen); + if (!dma_mem.va) + return -ENOMEM; + + idpf_memcpy(dma_mem.va, msg, msglen, IDPF_NONDMA_TO_DMA); + ctlq_msg.ctx.indirect.payload = &dma_mem; + } + status = idpf_ctlq_send(hw, hw->asq, 1, &ctlq_msg); + + if (dma_mem.va) + idpf_free_dma_mem(hw, &dma_mem); + + return status; +} + +/** + * idpf_asq_done - check if FW has processed the Admin Send Queue + * @hw: pointer to the hw struct + * + * Returns true if the firmware has processed all descriptors on the + * admin send queue. Returns false if there are still requests pending. + */ +bool idpf_asq_done(struct idpf_hw *hw) +{ + /* AQ designers suggest use of head for better + * timing reliability than DD bit + */ + return rd32(hw, hw->asq->reg.head) == hw->asq->next_to_use; +} + +/** + * idpf_check_asq_alive + * @hw: pointer to the hw struct + * + * Returns true if Queue is enabled else false. + */ +bool idpf_check_asq_alive(struct idpf_hw *hw) +{ + if (hw->asq->reg.len) + return !!(rd32(hw, hw->asq->reg.len) & + PF_FW_ATQLEN_ATQENABLE_M); + + return false; +} + +/** + * idpf_clean_arq_element + * @hw: pointer to the hw struct + * @e: event info from the receive descriptor, includes any buffers + * @pending: number of events that could be left to process + * + * This function cleans one Admin Receive Queue element and returns + * the contents through e. It can also return how many events are + * left to process through 'pending' + */ +int idpf_clean_arq_element(struct idpf_hw *hw, + struct idpf_arq_event_info *e, u16 *pending) +{ + struct idpf_ctlq_msg msg = { 0 }; + int status; + + *pending = 1; + + status = idpf_ctlq_recv(hw->arq, pending, &msg); + + /* ctlq_msg does not align to ctlq_desc, so copy relevant data here */ + e->desc.opcode = msg.opcode; + e->desc.cookie_high = msg.cookie.mbx.chnl_opcode; + e->desc.cookie_low = msg.cookie.mbx.chnl_retval; + e->desc.ret_val = msg.status; + e->desc.datalen = msg.data_len; + if (msg.data_len > 0) { + e->buf_len = msg.data_len; + idpf_memcpy(e->msg_buf, msg.ctx.indirect.payload->va, msg.data_len, + IDPF_DMA_TO_NONDMA); + } + return status; +} + +/** + * idpf_deinit_hw - shutdown routine + * @hw: pointer to the hardware structure + */ +int idpf_deinit_hw(struct idpf_hw *hw) +{ + hw->asq = NULL; + hw->arq = NULL; + + return idpf_ctlq_deinit(hw); +} + +/** + * idpf_reset + * @hw: pointer to the hardware structure + * + * Send a RESET message to the CPF. Does not wait for response from CPF + * as none will be forthcoming. Immediately after calling this function, + * the control queue should be shut down and (optionally) reinitialized. + */ +int idpf_reset(struct idpf_hw *hw) +{ + return idpf_send_msg_to_cp(hw, VIRTCHNL_OP_RESET_VF, + 0, NULL, 0); +} + +/** + * idpf_get_set_rss_lut + * @hw: pointer to the hardware structure + * @vsi_id: vsi fw index + * @pf_lut: for PF table set true, for VSI table set false + * @lut: pointer to the lut buffer provided by the caller + * @lut_size: size of the lut buffer + * @set: set true to set the table, false to get the table + * + * Internal function to get or set RSS look up table + */ +STATIC int idpf_get_set_rss_lut(struct idpf_hw *hw, u16 vsi_id, + bool pf_lut, u8 *lut, u16 lut_size, + bool set) +{ + /* TODO fill out command */ + return 0; +} + +/** + * idpf_get_rss_lut + * @hw: pointer to the hardware structure + * @vsi_id: vsi fw index + * @pf_lut: for PF table set true, for VSI table set false + * @lut: pointer to the lut buffer provided by the caller + * @lut_size: size of the lut buffer + * + * get the RSS lookup table, PF or VSI type + */ +int idpf_get_rss_lut(struct idpf_hw *hw, u16 vsi_id, bool pf_lut, + u8 *lut, u16 lut_size) +{ + return idpf_get_set_rss_lut(hw, vsi_id, pf_lut, lut, lut_size, false); +} + +/** + * idpf_set_rss_lut + * @hw: pointer to the hardware structure + * @vsi_id: vsi fw index + * @pf_lut: for PF table set true, for VSI table set false + * @lut: pointer to the lut buffer provided by the caller + * @lut_size: size of the lut buffer + * + * set the RSS lookup table, PF or VSI type + */ +int idpf_set_rss_lut(struct idpf_hw *hw, u16 vsi_id, bool pf_lut, + u8 *lut, u16 lut_size) +{ + return idpf_get_set_rss_lut(hw, vsi_id, pf_lut, lut, lut_size, true); +} + +/** + * idpf_get_set_rss_key + * @hw: pointer to the hw struct + * @vsi_id: vsi fw index + * @key: pointer to key info struct + * @set: set true to set the key, false to get the key + * + * get the RSS key per VSI + */ +STATIC int idpf_get_set_rss_key(struct idpf_hw *hw, u16 vsi_id, + struct idpf_get_set_rss_key_data *key, + bool set) +{ + /* TODO fill out command */ + return 0; +} + +/** + * idpf_get_rss_key + * @hw: pointer to the hw struct + * @vsi_id: vsi fw index + * @key: pointer to key info struct + * + */ +int idpf_get_rss_key(struct idpf_hw *hw, u16 vsi_id, + struct idpf_get_set_rss_key_data *key) +{ + return idpf_get_set_rss_key(hw, vsi_id, key, false); +} + +/** + * idpf_set_rss_key + * @hw: pointer to the hw struct + * @vsi_id: vsi fw index + * @key: pointer to key info struct + * + * set the RSS key per VSI + */ +int idpf_set_rss_key(struct idpf_hw *hw, u16 vsi_id, + struct idpf_get_set_rss_key_data *key) +{ + return idpf_get_set_rss_key(hw, vsi_id, key, true); +} + +RTE_LOG_REGISTER_DEFAULT(idpf_common_logger, NOTICE); diff --git a/drivers/common/idpf/base/idpf_controlq.c b/drivers/common/idpf/base/idpf_controlq.c new file mode 100644 index 0000000000..3af81e5a64 --- /dev/null +++ b/drivers/common/idpf/base/idpf_controlq.c @@ -0,0 +1,691 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#include "idpf_controlq.h" + +/** + * idpf_ctlq_setup_regs - initialize control queue registers + * @cq: pointer to the specific control queue + * @q_create_info: structs containing info for each queue to be initialized + */ +static void +idpf_ctlq_setup_regs(struct idpf_ctlq_info *cq, + struct idpf_ctlq_create_info *q_create_info) +{ + /* set head and tail registers in our local struct */ + cq->reg.head = q_create_info->reg.head; + cq->reg.tail = q_create_info->reg.tail; + cq->reg.len = q_create_info->reg.len; + cq->reg.bah = q_create_info->reg.bah; + cq->reg.bal = q_create_info->reg.bal; + cq->reg.len_mask = q_create_info->reg.len_mask; + cq->reg.len_ena_mask = q_create_info->reg.len_ena_mask; + cq->reg.head_mask = q_create_info->reg.head_mask; +} + +/** + * idpf_ctlq_init_regs - Initialize control queue registers + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + * @is_rxq: true if receive control queue, false otherwise + * + * Initialize registers. The caller is expected to have already initialized the + * descriptor ring memory and buffer memory + */ +static void idpf_ctlq_init_regs(struct idpf_hw *hw, struct idpf_ctlq_info *cq, + bool is_rxq) +{ + /* Update tail to post pre-allocated buffers for rx queues */ + if (is_rxq) + wr32(hw, cq->reg.tail, (u32)(cq->ring_size - 1)); + + /* For non-Mailbox control queues only TAIL need to be set */ + if (cq->q_id != -1) + return; + + /* Clear Head for both send or receive */ + wr32(hw, cq->reg.head, 0); + + /* set starting point */ + wr32(hw, cq->reg.bal, IDPF_LO_DWORD(cq->desc_ring.pa)); + wr32(hw, cq->reg.bah, IDPF_HI_DWORD(cq->desc_ring.pa)); + wr32(hw, cq->reg.len, (cq->ring_size | cq->reg.len_ena_mask)); +} + +/** + * idpf_ctlq_init_rxq_bufs - populate receive queue descriptors with buf + * @cq: pointer to the specific Control queue + * + * Record the address of the receive queue DMA buffers in the descriptors. + * The buffers must have been previously allocated. + */ +static void idpf_ctlq_init_rxq_bufs(struct idpf_ctlq_info *cq) +{ + int i = 0; + + for (i = 0; i < cq->ring_size; i++) { + struct idpf_ctlq_desc *desc = IDPF_CTLQ_DESC(cq, i); + struct idpf_dma_mem *bi = cq->bi.rx_buff[i]; + + /* No buffer to post to descriptor, continue */ + if (!bi) + continue; + + desc->flags = + CPU_TO_LE16(IDPF_CTLQ_FLAG_BUF | IDPF_CTLQ_FLAG_RD); + desc->opcode = 0; + desc->datalen = (__le16)CPU_TO_LE16(bi->size); + desc->ret_val = 0; + desc->cookie_high = 0; + desc->cookie_low = 0; + desc->params.indirect.addr_high = + CPU_TO_LE32(IDPF_HI_DWORD(bi->pa)); + desc->params.indirect.addr_low = + CPU_TO_LE32(IDPF_LO_DWORD(bi->pa)); + desc->params.indirect.param0 = 0; + desc->params.indirect.param1 = 0; + } +} + +/** + * idpf_ctlq_shutdown - shutdown the CQ + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + * + * The main shutdown routine for any controq queue + */ +static void idpf_ctlq_shutdown(struct idpf_hw *hw, struct idpf_ctlq_info *cq) +{ + idpf_acquire_lock(&cq->cq_lock); + + if (!cq->ring_size) + goto shutdown_sq_out; + +#ifdef SIMICS_BUILD + wr32(hw, cq->reg.head, 0); + wr32(hw, cq->reg.tail, 0); + wr32(hw, cq->reg.len, 0); + wr32(hw, cq->reg.bal, 0); + wr32(hw, cq->reg.bah, 0); +#endif /* SIMICS_BUILD */ + + /* free ring buffers and the ring itself */ + idpf_ctlq_dealloc_ring_res(hw, cq); + + /* Set ring_size to 0 to indicate uninitialized queue */ + cq->ring_size = 0; + +shutdown_sq_out: + idpf_release_lock(&cq->cq_lock); + idpf_destroy_lock(&cq->cq_lock); +} + +/** + * idpf_ctlq_add - add one control queue + * @hw: pointer to hardware struct + * @qinfo: info for queue to be created + * @cq_out: (output) double pointer to control queue to be created + * + * Allocate and initialize a control queue and add it to the control queue list. + * The cq parameter will be allocated/initialized and passed back to the caller + * if no errors occur. + * + * Note: idpf_ctlq_init must be called prior to any calls to idpf_ctlq_add + */ +int idpf_ctlq_add(struct idpf_hw *hw, + struct idpf_ctlq_create_info *qinfo, + struct idpf_ctlq_info **cq_out) +{ + bool is_rxq = false; + int status = 0; + + if (!qinfo->len || !qinfo->buf_size || + qinfo->len > IDPF_CTLQ_MAX_RING_SIZE || + qinfo->buf_size > IDPF_CTLQ_MAX_BUF_LEN) + return -EINVAL; + + *cq_out = (struct idpf_ctlq_info *) + idpf_calloc(hw, 1, sizeof(struct idpf_ctlq_info)); + if (!(*cq_out)) + return -ENOMEM; + + (*cq_out)->cq_type = qinfo->type; + (*cq_out)->q_id = qinfo->id; + (*cq_out)->buf_size = qinfo->buf_size; + (*cq_out)->ring_size = qinfo->len; + + (*cq_out)->next_to_use = 0; + (*cq_out)->next_to_clean = 0; + (*cq_out)->next_to_post = (*cq_out)->ring_size - 1; + + switch (qinfo->type) { + case IDPF_CTLQ_TYPE_MAILBOX_RX: + is_rxq = true; +#ifdef __KERNEL__ + fallthrough; +#else + /* fallthrough */ +#endif /* __KERNEL__ */ + case IDPF_CTLQ_TYPE_MAILBOX_TX: + status = idpf_ctlq_alloc_ring_res(hw, *cq_out); + break; + default: + status = -EINVAL; + break; + } + + if (status) + goto init_free_q; + + if (is_rxq) { + idpf_ctlq_init_rxq_bufs(*cq_out); + } else { + /* Allocate the array of msg pointers for TX queues */ + (*cq_out)->bi.tx_msg = (struct idpf_ctlq_msg **) + idpf_calloc(hw, qinfo->len, + sizeof(struct idpf_ctlq_msg *)); + if (!(*cq_out)->bi.tx_msg) { + status = -ENOMEM; + goto init_dealloc_q_mem; + } + } + + idpf_ctlq_setup_regs(*cq_out, qinfo); + + idpf_ctlq_init_regs(hw, *cq_out, is_rxq); + + idpf_init_lock(&(*cq_out)->cq_lock); + + LIST_INSERT_HEAD(&hw->cq_list_head, (*cq_out), cq_list); + + return status; + +init_dealloc_q_mem: + /* free ring buffers and the ring itself */ + idpf_ctlq_dealloc_ring_res(hw, *cq_out); +init_free_q: + idpf_free(hw, *cq_out); + + return status; +} + +/** + * idpf_ctlq_remove - deallocate and remove specified control queue + * @hw: pointer to hardware struct + * @cq: pointer to control queue to be removed + */ +void idpf_ctlq_remove(struct idpf_hw *hw, + struct idpf_ctlq_info *cq) +{ + LIST_REMOVE(cq, cq_list); + idpf_ctlq_shutdown(hw, cq); + idpf_free(hw, cq); +} + +/** + * idpf_ctlq_init - main initialization routine for all control queues + * @hw: pointer to hardware struct + * @num_q: number of queues to initialize + * @q_info: array of structs containing info for each queue to be initialized + * + * This initializes any number and any type of control queues. This is an all + * or nothing routine; if one fails, all previously allocated queues will be + * destroyed. This must be called prior to using the individual add/remove + * APIs. + */ +int idpf_ctlq_init(struct idpf_hw *hw, u8 num_q, + struct idpf_ctlq_create_info *q_info) +{ + struct idpf_ctlq_info *cq = NULL, *tmp = NULL; + int ret_code = 0; + int i = 0; + + LIST_INIT(&hw->cq_list_head); + + for (i = 0; i < num_q; i++) { + struct idpf_ctlq_create_info *qinfo = q_info + i; + + ret_code = idpf_ctlq_add(hw, qinfo, &cq); + if (ret_code) + goto init_destroy_qs; + } + + return ret_code; + +init_destroy_qs: + LIST_FOR_EACH_ENTRY_SAFE(cq, tmp, &hw->cq_list_head, + idpf_ctlq_info, cq_list) + idpf_ctlq_remove(hw, cq); + + return ret_code; +} + +/** + * idpf_ctlq_deinit - destroy all control queues + * @hw: pointer to hw struct + */ +int idpf_ctlq_deinit(struct idpf_hw *hw) +{ + struct idpf_ctlq_info *cq = NULL, *tmp = NULL; + int ret_code = 0; + + LIST_FOR_EACH_ENTRY_SAFE(cq, tmp, &hw->cq_list_head, + idpf_ctlq_info, cq_list) + idpf_ctlq_remove(hw, cq); + + return ret_code; +} + +/** + * idpf_ctlq_send - send command to Control Queue (CTQ) + * @hw: pointer to hw struct + * @cq: handle to control queue struct to send on + * @num_q_msg: number of messages to send on control queue + * @q_msg: pointer to array of queue messages to be sent + * + * The caller is expected to allocate DMAable buffers and pass them to the + * send routine via the q_msg struct / control queue specific data struct. + * The control queue will hold a reference to each send message until + * the completion for that message has been cleaned. + */ +int idpf_ctlq_send(struct idpf_hw *hw, struct idpf_ctlq_info *cq, + u16 num_q_msg, struct idpf_ctlq_msg q_msg[]) +{ + struct idpf_ctlq_desc *desc; + int num_desc_avail = 0; + int status = 0; + int i = 0; + + if (!cq || !cq->ring_size) + return -ENOBUFS; + + idpf_acquire_lock(&cq->cq_lock); + + /* Ensure there are enough descriptors to send all messages */ + num_desc_avail = IDPF_CTLQ_DESC_UNUSED(cq); + if (num_desc_avail == 0 || num_desc_avail < num_q_msg) { + status = -ENOSPC; + goto sq_send_command_out; + } + + for (i = 0; i < num_q_msg; i++) { + struct idpf_ctlq_msg *msg = &q_msg[i]; + u64 msg_cookie; + + desc = IDPF_CTLQ_DESC(cq, cq->next_to_use); + + desc->opcode = CPU_TO_LE16(msg->opcode); + desc->pfid_vfid = CPU_TO_LE16(msg->func_id); + + msg_cookie = *(u64 *)&msg->cookie; + desc->cookie_high = + CPU_TO_LE32(IDPF_HI_DWORD(msg_cookie)); + desc->cookie_low = + CPU_TO_LE32(IDPF_LO_DWORD(msg_cookie)); + + desc->flags = CPU_TO_LE16((msg->host_id & IDPF_HOST_ID_MASK) << + IDPF_CTLQ_FLAG_HOST_ID_S); + if (msg->data_len) { + struct idpf_dma_mem *buff = msg->ctx.indirect.payload; + + desc->datalen |= CPU_TO_LE16(msg->data_len); + desc->flags |= CPU_TO_LE16(IDPF_CTLQ_FLAG_BUF); + desc->flags |= CPU_TO_LE16(IDPF_CTLQ_FLAG_RD); + + /* Update the address values in the desc with the pa + * value for respective buffer + */ + desc->params.indirect.addr_high = + CPU_TO_LE32(IDPF_HI_DWORD(buff->pa)); + desc->params.indirect.addr_low = + CPU_TO_LE32(IDPF_LO_DWORD(buff->pa)); + + idpf_memcpy(&desc->params, msg->ctx.indirect.context, + IDPF_INDIRECT_CTX_SIZE, IDPF_NONDMA_TO_DMA); +#ifdef SIMICS_BUILD + /* MBX message with opcode idpf_mbq_opc_send_msg_to_pf + * need to set peer PF function id in param0 for Simics + */ + if (msg->opcode == idpf_mbq_opc_send_msg_to_pf) { + desc->params.indirect.param0 = + CPU_TO_LE32(msg->func_id); + } +#endif + } else { + idpf_memcpy(&desc->params, msg->ctx.direct, + IDPF_DIRECT_CTX_SIZE, IDPF_NONDMA_TO_DMA); +#ifdef SIMICS_BUILD + /* MBX message with opcode idpf_mbq_opc_send_msg_to_pf + * need to set peer PF function id in param0 for Simics + */ + if (msg->opcode == idpf_mbq_opc_send_msg_to_pf) { + desc->params.direct.param0 = + CPU_TO_LE32(msg->func_id); + } +#endif + } + + /* Store buffer info */ + cq->bi.tx_msg[cq->next_to_use] = msg; + + (cq->next_to_use)++; + if (cq->next_to_use == cq->ring_size) + cq->next_to_use = 0; + } + + /* Force memory write to complete before letting hardware + * know that there are new descriptors to fetch. + */ + idpf_wmb(); + + wr32(hw, cq->reg.tail, cq->next_to_use); + +sq_send_command_out: + idpf_release_lock(&cq->cq_lock); + + return status; +} + +/** + * idpf_ctlq_clean_sq - reclaim send descriptors on HW write back for the + * requested queue + * @cq: pointer to the specific Control queue + * @clean_count: (input|output) number of descriptors to clean as input, and + * number of descriptors actually cleaned as output + * @msg_status: (output) pointer to msg pointer array to be populated; needs + * to be allocated by caller + * + * Returns an array of message pointers associated with the cleaned + * descriptors. The pointers are to the original ctlq_msgs sent on the cleaned + * descriptors. The status will be returned for each; any messages that failed + * to send will have a non-zero status. The caller is expected to free original + * ctlq_msgs and free or reuse the DMA buffers. + */ +int idpf_ctlq_clean_sq(struct idpf_ctlq_info *cq, u16 *clean_count, + struct idpf_ctlq_msg *msg_status[]) +{ + struct idpf_ctlq_desc *desc; + u16 i = 0, num_to_clean; + u16 ntc, desc_err; + int ret = 0; + + if (!cq || !cq->ring_size) + return -ENOBUFS; + + if (*clean_count == 0) + return 0; + if (*clean_count > cq->ring_size) + return -EINVAL; + + idpf_acquire_lock(&cq->cq_lock); + + ntc = cq->next_to_clean; + + num_to_clean = *clean_count; + + for (i = 0; i < num_to_clean; i++) { + /* Fetch next descriptor and check if marked as done */ + desc = IDPF_CTLQ_DESC(cq, ntc); + if (!(LE16_TO_CPU(desc->flags) & IDPF_CTLQ_FLAG_DD)) + break; + + desc_err = LE16_TO_CPU(desc->ret_val); + if (desc_err) { + /* strip off FW internal code */ + desc_err &= 0xff; + } + + msg_status[i] = cq->bi.tx_msg[ntc]; + msg_status[i]->status = desc_err; + + cq->bi.tx_msg[ntc] = NULL; + + /* Zero out any stale data */ + idpf_memset(desc, 0, sizeof(*desc), IDPF_DMA_MEM); + + ntc++; + if (ntc == cq->ring_size) + ntc = 0; + } + + cq->next_to_clean = ntc; + + idpf_release_lock(&cq->cq_lock); + + /* Return number of descriptors actually cleaned */ + *clean_count = i; + + return ret; +} + +/** + * idpf_ctlq_post_rx_buffs - post buffers to descriptor ring + * @hw: pointer to hw struct + * @cq: pointer to control queue handle + * @buff_count: (input|output) input is number of buffers caller is trying to + * return; output is number of buffers that were not posted + * @buffs: array of pointers to dma mem structs to be given to hardware + * + * Caller uses this function to return DMA buffers to the descriptor ring after + * consuming them; buff_count will be the number of buffers. + * + * Note: this function needs to be called after a receive call even + * if there are no DMA buffers to be returned, i.e. buff_count = 0, + * buffs = NULL to support direct commands + */ +int idpf_ctlq_post_rx_buffs(struct idpf_hw *hw, struct idpf_ctlq_info *cq, + u16 *buff_count, struct idpf_dma_mem **buffs) +{ + struct idpf_ctlq_desc *desc; + u16 ntp = cq->next_to_post; + bool buffs_avail = false; + u16 tbp = ntp + 1; + int status = 0; + int i = 0; + + if (*buff_count > cq->ring_size) + return -EINVAL; + + if (*buff_count > 0) + buffs_avail = true; + + idpf_acquire_lock(&cq->cq_lock); + + if (tbp >= cq->ring_size) + tbp = 0; + + if (tbp == cq->next_to_clean) + /* Nothing to do */ + goto post_buffs_out; + + /* Post buffers for as many as provided or up until the last one used */ + while (ntp != cq->next_to_clean) { + desc = IDPF_CTLQ_DESC(cq, ntp); + + if (cq->bi.rx_buff[ntp]) + goto fill_desc; + if (!buffs_avail) { + /* If the caller hasn't given us any buffers or + * there are none left, search the ring itself + * for an available buffer to move to this + * entry starting at the next entry in the ring + */ + tbp = ntp + 1; + + /* Wrap ring if necessary */ + if (tbp >= cq->ring_size) + tbp = 0; + + while (tbp != cq->next_to_clean) { + if (cq->bi.rx_buff[tbp]) { + cq->bi.rx_buff[ntp] = + cq->bi.rx_buff[tbp]; + cq->bi.rx_buff[tbp] = NULL; + + /* Found a buffer, no need to + * search anymore + */ + break; + } + + /* Wrap ring if necessary */ + tbp++; + if (tbp >= cq->ring_size) + tbp = 0; + } + + if (tbp == cq->next_to_clean) + goto post_buffs_out; + } else { + /* Give back pointer to DMA buffer */ + cq->bi.rx_buff[ntp] = buffs[i]; + i++; + + if (i >= *buff_count) + buffs_avail = false; + } + +fill_desc: + desc->flags = + CPU_TO_LE16(IDPF_CTLQ_FLAG_BUF | IDPF_CTLQ_FLAG_RD); + + /* Post buffers to descriptor */ + desc->datalen = CPU_TO_LE16(cq->bi.rx_buff[ntp]->size); + desc->params.indirect.addr_high = + CPU_TO_LE32(IDPF_HI_DWORD(cq->bi.rx_buff[ntp]->pa)); + desc->params.indirect.addr_low = + CPU_TO_LE32(IDPF_LO_DWORD(cq->bi.rx_buff[ntp]->pa)); + + ntp++; + if (ntp == cq->ring_size) + ntp = 0; + } + +post_buffs_out: + /* Only update tail if buffers were actually posted */ + if (cq->next_to_post != ntp) { + if (ntp) + /* Update next_to_post to ntp - 1 since current ntp + * will not have a buffer + */ + cq->next_to_post = ntp - 1; + else + /* Wrap to end of end ring since current ntp is 0 */ + cq->next_to_post = cq->ring_size - 1; + + wr32(hw, cq->reg.tail, cq->next_to_post); + } + + idpf_release_lock(&cq->cq_lock); + + /* return the number of buffers that were not posted */ + *buff_count = *buff_count - i; + + return status; +} + +/** + * idpf_ctlq_recv - receive control queue message call back + * @cq: pointer to control queue handle to receive on + * @num_q_msg: (input|output) input number of messages that should be received; + * output number of messages actually received + * @q_msg: (output) array of received control queue messages on this q; + * needs to be pre-allocated by caller for as many messages as requested + * + * Called by interrupt handler or polling mechanism. Caller is expected + * to free buffers + */ +int idpf_ctlq_recv(struct idpf_ctlq_info *cq, u16 *num_q_msg, + struct idpf_ctlq_msg *q_msg) +{ + u16 num_to_clean, ntc, ret_val, flags; + struct idpf_ctlq_desc *desc; + int ret_code = 0; + u16 i = 0; + + if (!cq || !cq->ring_size) + return -ENOBUFS; + + if (*num_q_msg == 0) + return 0; + else if (*num_q_msg > cq->ring_size) + return -EINVAL; + + /* take the lock before we start messing with the ring */ + idpf_acquire_lock(&cq->cq_lock); + + ntc = cq->next_to_clean; + + num_to_clean = *num_q_msg; + + for (i = 0; i < num_to_clean; i++) { + u64 msg_cookie; + + /* Fetch next descriptor and check if marked as done */ + desc = IDPF_CTLQ_DESC(cq, ntc); + flags = LE16_TO_CPU(desc->flags); + + if (!(flags & IDPF_CTLQ_FLAG_DD)) + break; + + ret_val = LE16_TO_CPU(desc->ret_val); + + q_msg[i].vmvf_type = (flags & + (IDPF_CTLQ_FLAG_FTYPE_VM | + IDPF_CTLQ_FLAG_FTYPE_PF)) >> + IDPF_CTLQ_FLAG_FTYPE_S; + + if (flags & IDPF_CTLQ_FLAG_ERR) + ret_code = -EBADMSG; + + msg_cookie = (u64)LE32_TO_CPU(desc->cookie_high) << 32; + msg_cookie |= (u64)LE32_TO_CPU(desc->cookie_low); + idpf_memcpy(&q_msg[i].cookie, &msg_cookie, sizeof(u64), + IDPF_NONDMA_TO_NONDMA); + + q_msg[i].opcode = LE16_TO_CPU(desc->opcode); + q_msg[i].data_len = LE16_TO_CPU(desc->datalen); + q_msg[i].status = ret_val; + + if (desc->datalen) { + idpf_memcpy(q_msg[i].ctx.indirect.context, + &desc->params.indirect, + IDPF_INDIRECT_CTX_SIZE, + IDPF_DMA_TO_NONDMA); + + /* Assign pointer to dma buffer to ctlq_msg array + * to be given to upper layer + */ + q_msg[i].ctx.indirect.payload = cq->bi.rx_buff[ntc]; + + /* Zero out pointer to DMA buffer info; + * will be repopulated by post buffers API + */ + cq->bi.rx_buff[ntc] = NULL; + } else { + idpf_memcpy(q_msg[i].ctx.direct, + desc->params.raw, + IDPF_DIRECT_CTX_SIZE, + IDPF_DMA_TO_NONDMA); + } + + /* Zero out stale data in descriptor */ + idpf_memset(desc, 0, sizeof(struct idpf_ctlq_desc), + IDPF_DMA_MEM); + + ntc++; + if (ntc == cq->ring_size) + ntc = 0; + }; + + cq->next_to_clean = ntc; + + idpf_release_lock(&cq->cq_lock); + + *num_q_msg = i; + if (*num_q_msg == 0) + ret_code = -ENOMSG; + + return ret_code; +} diff --git a/drivers/common/idpf/base/idpf_controlq.h b/drivers/common/idpf/base/idpf_controlq.h new file mode 100644 index 0000000000..e7b0d803b3 --- /dev/null +++ b/drivers/common/idpf/base/idpf_controlq.h @@ -0,0 +1,224 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_CONTROLQ_H_ +#define _IDPF_CONTROLQ_H_ + +#ifdef __KERNEL__ +#include +#endif + +#ifndef __KERNEL__ +#include "idpf_osdep.h" +#include "idpf_alloc.h" +#endif +#include "idpf_controlq_api.h" + +/* Maximum buffer lengths for all control queue types */ +#define IDPF_CTLQ_MAX_RING_SIZE 1024 +#define IDPF_CTLQ_MAX_BUF_LEN 4096 + +#define IDPF_CTLQ_DESC(R, i) \ + (&(((struct idpf_ctlq_desc *)((R)->desc_ring.va))[i])) + +#define IDPF_CTLQ_DESC_UNUSED(R) \ + ((u16)((((R)->next_to_clean > (R)->next_to_use) ? 0 : (R)->ring_size) + \ + (R)->next_to_clean - (R)->next_to_use - 1)) + +#ifndef __KERNEL__ +/* Data type manipulation macros. */ +#define IDPF_HI_DWORD(x) ((u32)((((x) >> 16) >> 16) & 0xFFFFFFFF)) +#define IDPF_LO_DWORD(x) ((u32)((x) & 0xFFFFFFFF)) +#define IDPF_HI_WORD(x) ((u16)(((x) >> 16) & 0xFFFF)) +#define IDPF_LO_WORD(x) ((u16)((x) & 0xFFFF)) + +#endif +/* Control Queue default settings */ +#define IDPF_CTRL_SQ_CMD_TIMEOUT 250 /* msecs */ + +struct idpf_ctlq_desc { + __le16 flags; + __le16 opcode; + __le16 datalen; /* 0 for direct commands */ + union { + __le16 ret_val; + __le16 pfid_vfid; +#define IDPF_CTLQ_DESC_VF_ID_S 0 +#ifdef SIMICS_BUILD +#define IDPF_CTLQ_DESC_VF_ID_M (0x3FF << IDPF_CTLQ_DESC_VF_ID_S) +#define IDPF_CTLQ_DESC_PF_ID_S 10 +#define IDPF_CTLQ_DESC_PF_ID_M (0x3F << IDPF_CTLQ_DESC_PF_ID_S) +#else +#define IDPF_CTLQ_DESC_VF_ID_M (0x7FF << IDPF_CTLQ_DESC_VF_ID_S) +#define IDPF_CTLQ_DESC_PF_ID_S 11 +#define IDPF_CTLQ_DESC_PF_ID_M (0x1F << IDPF_CTLQ_DESC_PF_ID_S) +#endif + }; + __le32 cookie_high; + __le32 cookie_low; + union { + struct { + __le32 param0; + __le32 param1; + __le32 param2; + __le32 param3; + } direct; + struct { + __le32 param0; + __le32 param1; + __le32 addr_high; + __le32 addr_low; + } indirect; + u8 raw[16]; + } params; +}; + +/* Flags sub-structure + * |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |10 |11 |12 |13 |14 |15 | + * |DD |CMP|ERR| * RSV * |FTYPE | *RSV* |RD |VFC|BUF| HOST_ID | + */ +/* command flags and offsets */ +#define IDPF_CTLQ_FLAG_DD_S 0 +#define IDPF_CTLQ_FLAG_CMP_S 1 +#define IDPF_CTLQ_FLAG_ERR_S 2 +#define IDPF_CTLQ_FLAG_FTYPE_S 6 +#define IDPF_CTLQ_FLAG_RD_S 10 +#define IDPF_CTLQ_FLAG_VFC_S 11 +#define IDPF_CTLQ_FLAG_BUF_S 12 +#define IDPF_CTLQ_FLAG_HOST_ID_S 13 + +#define IDPF_CTLQ_FLAG_DD BIT(IDPF_CTLQ_FLAG_DD_S) /* 0x1 */ +#define IDPF_CTLQ_FLAG_CMP BIT(IDPF_CTLQ_FLAG_CMP_S) /* 0x2 */ +#define IDPF_CTLQ_FLAG_ERR BIT(IDPF_CTLQ_FLAG_ERR_S) /* 0x4 */ +#define IDPF_CTLQ_FLAG_FTYPE_VM BIT(IDPF_CTLQ_FLAG_FTYPE_S) /* 0x40 */ +#define IDPF_CTLQ_FLAG_FTYPE_PF BIT(IDPF_CTLQ_FLAG_FTYPE_S + 1) /* 0x80 */ +#define IDPF_CTLQ_FLAG_RD BIT(IDPF_CTLQ_FLAG_RD_S) /* 0x400 */ +#define IDPF_CTLQ_FLAG_VFC BIT(IDPF_CTLQ_FLAG_VFC_S) /* 0x800 */ +#define IDPF_CTLQ_FLAG_BUF BIT(IDPF_CTLQ_FLAG_BUF_S) /* 0x1000 */ + +/* Host ID is a special field that has 3b and not a 1b flag */ +#define IDPF_CTLQ_FLAG_HOST_ID_M MAKE_MASK(0x7000UL, IDPF_CTLQ_FLAG_HOST_ID_S) + +struct idpf_mbxq_desc { + u8 pad[8]; /* CTLQ flags/opcode/len/retval fields */ + u32 chnl_opcode; /* avoid confusion with desc->opcode */ + u32 chnl_retval; /* ditto for desc->retval */ + u32 pf_vf_id; /* used by CP when sending to PF */ +}; + +enum idpf_mac_type { + IDPF_MAC_UNKNOWN = 0, + IDPF_MAC_PF, + IDPF_MAC_VF, + IDPF_MAC_GENERIC +}; + +#define ETH_ALEN 6 + +struct idpf_mac_info { + enum idpf_mac_type type; + u8 addr[ETH_ALEN]; + u8 perm_addr[ETH_ALEN]; +}; + +#define IDPF_AQ_LINK_UP 0x1 + +/* PCI bus types */ +enum idpf_bus_type { + idpf_bus_type_unknown = 0, + idpf_bus_type_pci, + idpf_bus_type_pcix, + idpf_bus_type_pci_express, + idpf_bus_type_reserved +}; + +/* PCI bus speeds */ +enum idpf_bus_speed { + idpf_bus_speed_unknown = 0, + idpf_bus_speed_33 = 33, + idpf_bus_speed_66 = 66, + idpf_bus_speed_100 = 100, + idpf_bus_speed_120 = 120, + idpf_bus_speed_133 = 133, + idpf_bus_speed_2500 = 2500, + idpf_bus_speed_5000 = 5000, + idpf_bus_speed_8000 = 8000, + idpf_bus_speed_reserved +}; + +/* PCI bus widths */ +enum idpf_bus_width { + idpf_bus_width_unknown = 0, + idpf_bus_width_pcie_x1 = 1, + idpf_bus_width_pcie_x2 = 2, + idpf_bus_width_pcie_x4 = 4, + idpf_bus_width_pcie_x8 = 8, + idpf_bus_width_32 = 32, + idpf_bus_width_64 = 64, + idpf_bus_width_reserved +}; + +/* Bus parameters */ +struct idpf_bus_info { + enum idpf_bus_speed speed; + enum idpf_bus_width width; + enum idpf_bus_type type; + + u16 func; + u16 device; + u16 lan_id; + u16 bus_id; +}; + +/* Function specific capabilities */ +struct idpf_hw_func_caps { + u32 num_alloc_vfs; + u32 vf_base_id; +}; + +/* Define the APF hardware struct to replace other control structs as needed + * Align to ctlq_hw_info + */ +struct idpf_hw { + /* Some part of BAR0 address space is not mapped by the LAN driver. + * This results in 2 regions of BAR0 to be mapped by LAN driver which + * will have its own base hardware address when mapped. + */ + u8 *hw_addr; + u8 *hw_addr_region2; + u64 hw_addr_len; + u64 hw_addr_region2_len; + + void *back; + + /* control queue - send and receive */ + struct idpf_ctlq_info *asq; + struct idpf_ctlq_info *arq; + + /* subsystem structs */ + struct idpf_mac_info mac; + struct idpf_bus_info bus; + struct idpf_hw_func_caps func_caps; + + /* pci info */ + u16 device_id; + u16 vendor_id; + u16 subsystem_device_id; + u16 subsystem_vendor_id; + u8 revision_id; + bool adapter_stopped; + + LIST_HEAD_TYPE(list_head, idpf_ctlq_info) cq_list_head; +}; + +int idpf_ctlq_alloc_ring_res(struct idpf_hw *hw, + struct idpf_ctlq_info *cq); + +void idpf_ctlq_dealloc_ring_res(struct idpf_hw *hw, struct idpf_ctlq_info *cq); + +/* prototype for functions used for dynamic memory allocation */ +void *idpf_alloc_dma_mem(struct idpf_hw *hw, struct idpf_dma_mem *mem, + u64 size); +void idpf_free_dma_mem(struct idpf_hw *hw, struct idpf_dma_mem *mem); +#endif /* _IDPF_CONTROLQ_H_ */ diff --git a/drivers/common/idpf/base/idpf_controlq_api.h b/drivers/common/idpf/base/idpf_controlq_api.h new file mode 100644 index 0000000000..2d79c7f4dd --- /dev/null +++ b/drivers/common/idpf/base/idpf_controlq_api.h @@ -0,0 +1,207 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_CONTROLQ_API_H_ +#define _IDPF_CONTROLQ_API_H_ + +#ifdef __KERNEL__ +#include "idpf_mem.h" +#else /* !__KERNEL__ */ +#include "idpf_osdep.h" +#endif /* !__KERNEL__ */ + +struct idpf_hw; + +/* Used for queue init, response and events */ +enum idpf_ctlq_type { + IDPF_CTLQ_TYPE_MAILBOX_TX = 0, + IDPF_CTLQ_TYPE_MAILBOX_RX = 1, + IDPF_CTLQ_TYPE_CONFIG_TX = 2, + IDPF_CTLQ_TYPE_CONFIG_RX = 3, + IDPF_CTLQ_TYPE_EVENT_RX = 4, + IDPF_CTLQ_TYPE_RDMA_TX = 5, + IDPF_CTLQ_TYPE_RDMA_RX = 6, + IDPF_CTLQ_TYPE_RDMA_COMPL = 7 +}; + +/* + * Generic Control Queue Structures + */ + +struct idpf_ctlq_reg { + /* used for queue tracking */ + u32 head; + u32 tail; + /* Below applies only to default mb (if present) */ + u32 len; + u32 bah; + u32 bal; + u32 len_mask; + u32 len_ena_mask; + u32 head_mask; +}; + +/* Generic queue msg structure */ +struct idpf_ctlq_msg { + u8 vmvf_type; /* represents the source of the message on recv */ +#define IDPF_VMVF_TYPE_VF 0 +#define IDPF_VMVF_TYPE_VM 1 +#define IDPF_VMVF_TYPE_PF 2 + u8 host_id; + /* 3b field used only when sending a message to peer - to be used in + * combination with target func_id to route the message + */ +#define IDPF_HOST_ID_MASK 0x7 + + u16 opcode; + u16 data_len; /* data_len = 0 when no payload is attached */ + union { + u16 func_id; /* when sending a message */ + u16 status; /* when receiving a message */ + }; + union { + struct { + u32 chnl_retval; + u32 chnl_opcode; + } mbx; + } cookie; + union { +#define IDPF_DIRECT_CTX_SIZE 16 +#define IDPF_INDIRECT_CTX_SIZE 8 + /* 16 bytes of context can be provided or 8 bytes of context + * plus the address of a DMA buffer + */ + u8 direct[IDPF_DIRECT_CTX_SIZE]; + struct { + u8 context[IDPF_INDIRECT_CTX_SIZE]; + struct idpf_dma_mem *payload; + } indirect; + } ctx; +}; + +/* Generic queue info structures */ +/* MB, CONFIG and EVENT q do not have extended info */ +struct idpf_ctlq_create_info { + enum idpf_ctlq_type type; + int id; /* absolute queue offset passed as input + * -1 for default mailbox if present + */ + u16 len; /* Queue length passed as input */ + u16 buf_size; /* buffer size passed as input */ + u64 base_address; /* output, HPA of the Queue start */ + struct idpf_ctlq_reg reg; /* registers accessed by ctlqs */ + + int ext_info_size; + void *ext_info; /* Specific to q type */ +}; + +/* Control Queue information */ +struct idpf_ctlq_info { + LIST_ENTRY_TYPE(idpf_ctlq_info) cq_list; + + enum idpf_ctlq_type cq_type; + int q_id; + idpf_lock cq_lock; /* queue lock + * idpf_lock is defined in OSdep.h + */ + /* used for interrupt processing */ + u16 next_to_use; + u16 next_to_clean; + u16 next_to_post; /* starting descriptor to post buffers + * to after recev + */ + + struct idpf_dma_mem desc_ring; /* descriptor ring memory + * idpf_dma_mem is defined in OSdep.h + */ + union { + struct idpf_dma_mem **rx_buff; + struct idpf_ctlq_msg **tx_msg; + } bi; + + u16 buf_size; /* queue buffer size */ + u16 ring_size; /* Number of descriptors */ + struct idpf_ctlq_reg reg; /* registers accessed by ctlqs */ +}; + +/* PF/VF mailbox commands */ +enum idpf_mbx_opc { + /* idpf_mbq_opc_send_msg_to_pf: + * usage: used by PF or VF to send a message to its CPF + * target: RX queue and function ID of parent PF taken from HW + */ + idpf_mbq_opc_send_msg_to_pf = 0x0801, + + /* idpf_mbq_opc_send_msg_to_vf: + * usage: used by PF to send message to a VF + * target: VF control queue ID must be specified in descriptor + */ + idpf_mbq_opc_send_msg_to_vf = 0x0802, + + /* idpf_mbq_opc_send_msg_to_peer_pf: + * usage: used by any function to send message to any peer PF + * target: RX queue and host of parent PF taken from HW + */ + idpf_mbq_opc_send_msg_to_peer_pf = 0x0803, + + /* idpf_mbq_opc_send_msg_to_peer_drv: + * usage: used by any function to send message to any peer driver + * target: RX queue and target host must be specific in descriptor + */ + idpf_mbq_opc_send_msg_to_peer_drv = 0x0804, +}; + +/* + * API supported for control queue management + */ + +/* Will init all required q including default mb. "q_info" is an array of + * create_info structs equal to the number of control queues to be created. + */ +__rte_internal +int idpf_ctlq_init(struct idpf_hw *hw, u8 num_q, + struct idpf_ctlq_create_info *q_info); + +/* Allocate and initialize a single control queue, which will be added to the + * control queue list; returns a handle to the created control queue + */ +int idpf_ctlq_add(struct idpf_hw *hw, + struct idpf_ctlq_create_info *qinfo, + struct idpf_ctlq_info **cq); + +/* Deinitialize and deallocate a single control queue */ +void idpf_ctlq_remove(struct idpf_hw *hw, + struct idpf_ctlq_info *cq); + +/* Sends messages to HW and will also free the buffer*/ +__rte_internal +int idpf_ctlq_send(struct idpf_hw *hw, + struct idpf_ctlq_info *cq, + u16 num_q_msg, + struct idpf_ctlq_msg q_msg[]); + +/* Receives messages and called by interrupt handler/polling + * initiated by app/process. Also caller is supposed to free the buffers + */ +__rte_internal +int idpf_ctlq_recv(struct idpf_ctlq_info *cq, u16 *num_q_msg, + struct idpf_ctlq_msg *q_msg); + +/* Reclaims send descriptors on HW write back */ +__rte_internal +int idpf_ctlq_clean_sq(struct idpf_ctlq_info *cq, u16 *clean_count, + struct idpf_ctlq_msg *msg_status[]); + +/* Indicate RX buffers are done being processed */ +__rte_internal +int idpf_ctlq_post_rx_buffs(struct idpf_hw *hw, + struct idpf_ctlq_info *cq, + u16 *buff_count, + struct idpf_dma_mem **buffs); + +/* Will destroy all q including the default mb */ +__rte_internal +int idpf_ctlq_deinit(struct idpf_hw *hw); + +#endif /* _IDPF_CONTROLQ_API_H_ */ diff --git a/drivers/common/idpf/base/idpf_controlq_setup.c b/drivers/common/idpf/base/idpf_controlq_setup.c new file mode 100644 index 0000000000..3a272b1f8d --- /dev/null +++ b/drivers/common/idpf/base/idpf_controlq_setup.c @@ -0,0 +1,179 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + + +#include "idpf_controlq.h" + + +/** + * idpf_ctlq_alloc_desc_ring - Allocate Control Queue (CQ) rings + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + */ +static int +idpf_ctlq_alloc_desc_ring(struct idpf_hw *hw, + struct idpf_ctlq_info *cq) +{ + size_t size = cq->ring_size * sizeof(struct idpf_ctlq_desc); + + cq->desc_ring.va = idpf_alloc_dma_mem(hw, &cq->desc_ring, size); + if (!cq->desc_ring.va) + return -ENOMEM; + + return 0; +} + +/** + * idpf_ctlq_alloc_bufs - Allocate Control Queue (CQ) buffers + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + * + * Allocate the buffer head for all control queues, and if it's a receive + * queue, allocate DMA buffers + */ +static int idpf_ctlq_alloc_bufs(struct idpf_hw *hw, + struct idpf_ctlq_info *cq) +{ + int i = 0; + + /* Do not allocate DMA buffers for transmit queues */ + if (cq->cq_type == IDPF_CTLQ_TYPE_MAILBOX_TX) + return 0; + + /* We'll be allocating the buffer info memory first, then we can + * allocate the mapped buffers for the event processing + */ + cq->bi.rx_buff = (struct idpf_dma_mem **) + idpf_calloc(hw, cq->ring_size, + sizeof(struct idpf_dma_mem *)); + if (!cq->bi.rx_buff) + return -ENOMEM; + + /* allocate the mapped buffers (except for the last one) */ + for (i = 0; i < cq->ring_size - 1; i++) { + struct idpf_dma_mem *bi; + int num = 1; /* number of idpf_dma_mem to be allocated */ + + cq->bi.rx_buff[i] = (struct idpf_dma_mem *)idpf_calloc(hw, num, + sizeof(struct idpf_dma_mem)); + if (!cq->bi.rx_buff[i]) + goto unwind_alloc_cq_bufs; + + bi = cq->bi.rx_buff[i]; + + bi->va = idpf_alloc_dma_mem(hw, bi, cq->buf_size); + if (!bi->va) { + /* unwind will not free the failed entry */ + idpf_free(hw, cq->bi.rx_buff[i]); + goto unwind_alloc_cq_bufs; + } + } + + return 0; + +unwind_alloc_cq_bufs: + /* don't try to free the one that failed... */ + i--; + for (; i >= 0; i--) { + idpf_free_dma_mem(hw, cq->bi.rx_buff[i]); + idpf_free(hw, cq->bi.rx_buff[i]); + } + idpf_free(hw, cq->bi.rx_buff); + + return -ENOMEM; +} + +/** + * idpf_ctlq_free_desc_ring - Free Control Queue (CQ) rings + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + * + * This assumes the posted send buffers have already been cleaned + * and de-allocated + */ +static void idpf_ctlq_free_desc_ring(struct idpf_hw *hw, + struct idpf_ctlq_info *cq) +{ + idpf_free_dma_mem(hw, &cq->desc_ring); +} + +/** + * idpf_ctlq_free_bufs - Free CQ buffer info elements + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + * + * Free the DMA buffers for RX queues, and DMA buffer header for both RX and TX + * queues. The upper layers are expected to manage freeing of TX DMA buffers + */ +static void idpf_ctlq_free_bufs(struct idpf_hw *hw, struct idpf_ctlq_info *cq) +{ + void *bi; + + if (cq->cq_type == IDPF_CTLQ_TYPE_MAILBOX_RX) { + int i; + + /* free DMA buffers for rx queues*/ + for (i = 0; i < cq->ring_size; i++) { + if (cq->bi.rx_buff[i]) { + idpf_free_dma_mem(hw, cq->bi.rx_buff[i]); + idpf_free(hw, cq->bi.rx_buff[i]); + } + } + + bi = (void *)cq->bi.rx_buff; + } else { + bi = (void *)cq->bi.tx_msg; + } + + /* free the buffer header */ + idpf_free(hw, bi); +} + +/** + * idpf_ctlq_dealloc_ring_res - Free memory allocated for control queue + * @hw: pointer to hw struct + * @cq: pointer to the specific Control queue + * + * Free the memory used by the ring, buffers and other related structures + */ +void idpf_ctlq_dealloc_ring_res(struct idpf_hw *hw, struct idpf_ctlq_info *cq) +{ + /* free ring buffers and the ring itself */ + idpf_ctlq_free_bufs(hw, cq); + idpf_ctlq_free_desc_ring(hw, cq); +} + +/** + * idpf_ctlq_alloc_ring_res - allocate memory for descriptor ring and bufs + * @hw: pointer to hw struct + * @cq: pointer to control queue struct + * + * Do *NOT* hold the lock when calling this as the memory allocation routines + * called are not going to be atomic context safe + */ +int idpf_ctlq_alloc_ring_res(struct idpf_hw *hw, struct idpf_ctlq_info *cq) +{ + int ret_code; + + /* verify input for valid configuration */ + if (!cq->ring_size || !cq->buf_size) + return -EINVAL; + + /* allocate the ring memory */ + ret_code = idpf_ctlq_alloc_desc_ring(hw, cq); + if (ret_code) + return ret_code; + + /* allocate buffers in the rings */ + ret_code = idpf_ctlq_alloc_bufs(hw, cq); + if (ret_code) + goto idpf_init_cq_free_ring; + + /* success! */ + return 0; + +idpf_init_cq_free_ring: + idpf_free_dma_mem(hw, &cq->desc_ring); + return ret_code; +} diff --git a/drivers/common/idpf/base/idpf_devids.h b/drivers/common/idpf/base/idpf_devids.h new file mode 100644 index 0000000000..a91eb4e02a --- /dev/null +++ b/drivers/common/idpf/base/idpf_devids.h @@ -0,0 +1,18 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_DEVIDS_H_ +#define _IDPF_DEVIDS_H_ + +/* Vendor ID */ +#define IDPF_INTEL_VENDOR_ID 0x8086 + +/* Device IDs */ +#define IDPF_DEV_ID_PF 0x1452 +#define IDPF_DEV_ID_VF 0x1889 + + + + +#endif /* _IDPF_DEVIDS_H_ */ diff --git a/drivers/common/idpf/base/idpf_lan_pf_regs.h b/drivers/common/idpf/base/idpf_lan_pf_regs.h new file mode 100644 index 0000000000..3df2347bd7 --- /dev/null +++ b/drivers/common/idpf/base/idpf_lan_pf_regs.h @@ -0,0 +1,134 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_LAN_PF_REGS_H_ +#define _IDPF_LAN_PF_REGS_H_ + + +/* Receive queues */ +#define PF_QRX_BASE 0x00000000 +#define PF_QRX_TAIL(_QRX) (PF_QRX_BASE + (((_QRX) * 0x1000))) +#define PF_QRX_BUFFQ_BASE 0x03000000 +#define PF_QRX_BUFFQ_TAIL(_QRX) (PF_QRX_BUFFQ_BASE + (((_QRX) * 0x1000))) + +/* Transmit queues */ +#define PF_QTX_BASE 0x05000000 +#define PF_QTX_COMM_DBELL(_DBQM) (PF_QTX_BASE + ((_DBQM) * 0x1000)) + + +/* Control(PF Mailbox) Queue */ +#define PF_FW_BASE 0x08400000 + +#define PF_FW_ARQBAL (PF_FW_BASE) +#define PF_FW_ARQBAH (PF_FW_BASE + 0x4) +#define PF_FW_ARQLEN (PF_FW_BASE + 0x8) +#define PF_FW_ARQLEN_ARQLEN_S 0 +#define PF_FW_ARQLEN_ARQLEN_M MAKEMASK(0x1FFF, PF_FW_ARQLEN_ARQLEN_S) +#define PF_FW_ARQLEN_ARQVFE_S 28 +#define PF_FW_ARQLEN_ARQVFE_M BIT(PF_FW_ARQLEN_ARQVFE_S) +#define PF_FW_ARQLEN_ARQOVFL_S 29 +#define PF_FW_ARQLEN_ARQOVFL_M BIT(PF_FW_ARQLEN_ARQOVFL_S) +#define PF_FW_ARQLEN_ARQCRIT_S 30 +#define PF_FW_ARQLEN_ARQCRIT_M BIT(PF_FW_ARQLEN_ARQCRIT_S) +#define PF_FW_ARQLEN_ARQENABLE_S 31 +#define PF_FW_ARQLEN_ARQENABLE_M BIT(PF_FW_ARQLEN_ARQENABLE_S) +#define PF_FW_ARQH (PF_FW_BASE + 0xC) +#define PF_FW_ARQH_ARQH_S 0 +#define PF_FW_ARQH_ARQH_M MAKEMASK(0x1FFF, PF_FW_ARQH_ARQH_S) +#define PF_FW_ARQT (PF_FW_BASE + 0x10) + +#define PF_FW_ATQBAL (PF_FW_BASE + 0x14) +#define PF_FW_ATQBAH (PF_FW_BASE + 0x18) +#define PF_FW_ATQLEN (PF_FW_BASE + 0x1C) +#define PF_FW_ATQLEN_ATQLEN_S 0 +#define PF_FW_ATQLEN_ATQLEN_M MAKEMASK(0x3FF, PF_FW_ATQLEN_ATQLEN_S) +#define PF_FW_ATQLEN_ATQVFE_S 28 +#define PF_FW_ATQLEN_ATQVFE_M BIT(PF_FW_ATQLEN_ATQVFE_S) +#define PF_FW_ATQLEN_ATQOVFL_S 29 +#define PF_FW_ATQLEN_ATQOVFL_M BIT(PF_FW_ATQLEN_ATQOVFL_S) +#define PF_FW_ATQLEN_ATQCRIT_S 30 +#define PF_FW_ATQLEN_ATQCRIT_M BIT(PF_FW_ATQLEN_ATQCRIT_S) +#define PF_FW_ATQLEN_ATQENABLE_S 31 +#define PF_FW_ATQLEN_ATQENABLE_M BIT(PF_FW_ATQLEN_ATQENABLE_S) +#define PF_FW_ATQH (PF_FW_BASE + 0x20) +#define PF_FW_ATQH_ATQH_S 0 +#define PF_FW_ATQH_ATQH_M MAKEMASK(0x3FF, PF_FW_ATQH_ATQH_S) +#define PF_FW_ATQT (PF_FW_BASE + 0x24) + +/* Interrupts */ +#define PF_GLINT_BASE 0x08900000 +#define PF_GLINT_DYN_CTL(_INT) (PF_GLINT_BASE + ((_INT) * 0x1000)) +#define PF_GLINT_DYN_CTL_INTENA_S 0 +#define PF_GLINT_DYN_CTL_INTENA_M BIT(PF_GLINT_DYN_CTL_INTENA_S) +#define PF_GLINT_DYN_CTL_CLEARPBA_S 1 +#define PF_GLINT_DYN_CTL_CLEARPBA_M BIT(PF_GLINT_DYN_CTL_CLEARPBA_S) +#define PF_GLINT_DYN_CTL_SWINT_TRIG_S 2 +#define PF_GLINT_DYN_CTL_SWINT_TRIG_M BIT(PF_GLINT_DYN_CTL_SWINT_TRIG_S) +#define PF_GLINT_DYN_CTL_ITR_INDX_S 3 +#define PF_GLINT_DYN_CTL_ITR_INDX_M MAKEMASK(0x3, PF_GLINT_DYN_CTL_ITR_INDX_S) +#define PF_GLINT_DYN_CTL_INTERVAL_S 5 +#define PF_GLINT_DYN_CTL_INTERVAL_M BIT(PF_GLINT_DYN_CTL_INTERVAL_S) +#define PF_GLINT_DYN_CTL_SW_ITR_INDX_ENA_S 24 +#define PF_GLINT_DYN_CTL_SW_ITR_INDX_ENA_M BIT(PF_GLINT_DYN_CTL_SW_ITR_INDX_ENA_S) +#define PF_GLINT_DYN_CTL_SW_ITR_INDX_S 25 +#define PF_GLINT_DYN_CTL_SW_ITR_INDX_M BIT(PF_GLINT_DYN_CTL_SW_ITR_INDX_S) +#define PF_GLINT_DYN_CTL_WB_ON_ITR_S 30 +#define PF_GLINT_DYN_CTL_WB_ON_ITR_M BIT(PF_GLINT_DYN_CTL_WB_ON_ITR_S) +#define PF_GLINT_DYN_CTL_INTENA_MSK_S 31 +#define PF_GLINT_DYN_CTL_INTENA_MSK_M BIT(PF_GLINT_DYN_CTL_INTENA_MSK_S) +#define PF_GLINT_ITR_V2(_i, _reg_start) (((_i) * 4) + (_reg_start)) +#define PF_GLINT_ITR(_i, _INT) (PF_GLINT_BASE + (((_i) + 1) * 4) + ((_INT) * 0x1000)) +#define PF_GLINT_ITR_MAX_INDEX 2 +#define PF_GLINT_ITR_INTERVAL_S 0 +#define PF_GLINT_ITR_INTERVAL_M MAKEMASK(0xFFF, PF_GLINT_ITR_INTERVAL_S) + +/* Timesync registers */ +#define PF_TIMESYNC_BASE 0x08404000 +#define PF_GLTSYN_CMD_SYNC (PF_TIMESYNC_BASE) +#define PF_GLTSYN_CMD_SYNC_EXEC_CMD_S 0 +#define PF_GLTSYN_CMD_SYNC_EXEC_CMD_M MAKEMASK(0x3, PF_GLTSYN_CMD_SYNC_EXEC_CMD_S) +#define PF_GLTSYN_CMD_SYNC_SHTIME_EN_S 2 +#define PF_GLTSYN_CMD_SYNC_SHTIME_EN_M BIT(PF_GLTSYN_CMD_SYNC_SHTIME_EN_S) +#define PF_GLTSYN_SHTIME_0 (PF_TIMESYNC_BASE + 0x4) +#define PF_GLTSYN_SHTIME_L (PF_TIMESYNC_BASE + 0x8) +#define PF_GLTSYN_SHTIME_H (PF_TIMESYNC_BASE + 0xC) +#define PF_GLTSYN_ART_L (PF_TIMESYNC_BASE + 0x10) +#define PF_GLTSYN_ART_H (PF_TIMESYNC_BASE + 0x14) + +/* Generic registers */ +#define PF_INT_DIR_OICR_ENA 0x08406000 +#define PF_INT_DIR_OICR_ENA_S 0 +#define PF_INT_DIR_OICR_ENA_M MAKEMASK(0xFFFFFFFF, PF_INT_DIR_OICR_ENA_S) +#define PF_INT_DIR_OICR 0x08406004 +#define PF_INT_DIR_OICR_TSYN_EVNT 0 +#define PF_INT_DIR_OICR_PHY_TS_0 BIT(1) +#define PF_INT_DIR_OICR_PHY_TS_1 BIT(2) +#define PF_INT_DIR_OICR_CAUSE 0x08406008 +#define PF_INT_DIR_OICR_CAUSE_CAUSE_S 0 +#define PF_INT_DIR_OICR_CAUSE_CAUSE_M MAKEMASK(0xFFFFFFFF, PF_INT_DIR_OICR_CAUSE_CAUSE_S) +#define PF_INT_PBA_CLEAR 0x0840600C + +#define PF_FUNC_RID 0x08406010 +#define PF_FUNC_RID_FUNCTION_NUMBER_S 0 +#define PF_FUNC_RID_FUNCTION_NUMBER_M MAKEMASK(0x7, PF_FUNC_RID_FUNCTION_NUMBER_S) +#define PF_FUNC_RID_DEVICE_NUMBER_S 3 +#define PF_FUNC_RID_DEVICE_NUMBER_M MAKEMASK(0x1F, PF_FUNC_RID_DEVICE_NUMBER_S) +#define PF_FUNC_RID_BUS_NUMBER_S 8 +#define PF_FUNC_RID_BUS_NUMBER_M MAKEMASK(0xFF, PF_FUNC_RID_BUS_NUMBER_S) + +/* Reset registers */ +#define PFGEN_RTRIG 0x08407000 +#define PFGEN_RTRIG_CORER_S 0 +#define PFGEN_RTRIG_CORER_M BIT(0) +#define PFGEN_RTRIG_LINKR_S 1 +#define PFGEN_RTRIG_LINKR_M BIT(1) +#define PFGEN_RTRIG_IMCR_S 2 +#define PFGEN_RTRIG_IMCR_M BIT(2) +#define PFGEN_RSTAT 0x08407008 /* PFR Status */ +#define PFGEN_RSTAT_PFR_STATE_S 0 +#define PFGEN_RSTAT_PFR_STATE_M MAKEMASK(0x3, PFGEN_RSTAT_PFR_STATE_S) +#define PFGEN_CTRL 0x0840700C +#define PFGEN_CTRL_PFSWR BIT(0) + +#endif diff --git a/drivers/common/idpf/base/idpf_lan_txrx.h b/drivers/common/idpf/base/idpf_lan_txrx.h new file mode 100644 index 0000000000..98484b267c --- /dev/null +++ b/drivers/common/idpf/base/idpf_lan_txrx.h @@ -0,0 +1,428 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_LAN_TXRX_H_ +#define _IDPF_LAN_TXRX_H_ +#ifndef __KERNEL__ +#include "idpf_osdep.h" +#endif + +enum idpf_rss_hash { + /* Values 0 - 28 are reserved for future use */ + IDPF_HASH_INVALID = 0, + IDPF_HASH_NONF_UNICAST_IPV4_UDP = 29, + IDPF_HASH_NONF_MULTICAST_IPV4_UDP, + IDPF_HASH_NONF_IPV4_UDP, + IDPF_HASH_NONF_IPV4_TCP_SYN_NO_ACK, + IDPF_HASH_NONF_IPV4_TCP, + IDPF_HASH_NONF_IPV4_SCTP, + IDPF_HASH_NONF_IPV4_OTHER, + IDPF_HASH_FRAG_IPV4, + /* Values 37-38 are reserved */ + IDPF_HASH_NONF_UNICAST_IPV6_UDP = 39, + IDPF_HASH_NONF_MULTICAST_IPV6_UDP, + IDPF_HASH_NONF_IPV6_UDP, + IDPF_HASH_NONF_IPV6_TCP_SYN_NO_ACK, + IDPF_HASH_NONF_IPV6_TCP, + IDPF_HASH_NONF_IPV6_SCTP, + IDPF_HASH_NONF_IPV6_OTHER, + IDPF_HASH_FRAG_IPV6, + IDPF_HASH_NONF_RSVD47, + IDPF_HASH_NONF_FCOE_OX, + IDPF_HASH_NONF_FCOE_RX, + IDPF_HASH_NONF_FCOE_OTHER, + /* Values 51-62 are reserved */ + IDPF_HASH_L2_PAYLOAD = 63, + IDPF_HASH_MAX +}; + +/* Supported RSS offloads */ +#define IDPF_DEFAULT_RSS_HASH ( \ + BIT_ULL(IDPF_HASH_NONF_IPV4_UDP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV4_SCTP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV4_TCP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV4_OTHER) | \ + BIT_ULL(IDPF_HASH_FRAG_IPV4) | \ + BIT_ULL(IDPF_HASH_NONF_IPV6_UDP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV6_TCP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV6_SCTP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV6_OTHER) | \ + BIT_ULL(IDPF_HASH_FRAG_IPV6) | \ + BIT_ULL(IDPF_HASH_L2_PAYLOAD)) + + /* TODO: Wrap below comment under internal flag + * Below 6 pcktypes are not supported by FVL or older products + * They are supported by FPK and future products + */ +#define IDPF_DEFAULT_RSS_HASH_EXPANDED (IDPF_DEFAULT_RSS_HASH | \ + BIT_ULL(IDPF_HASH_NONF_IPV4_TCP_SYN_NO_ACK) | \ + BIT_ULL(IDPF_HASH_NONF_UNICAST_IPV4_UDP) | \ + BIT_ULL(IDPF_HASH_NONF_MULTICAST_IPV4_UDP) | \ + BIT_ULL(IDPF_HASH_NONF_IPV6_TCP_SYN_NO_ACK) | \ + BIT_ULL(IDPF_HASH_NONF_UNICAST_IPV6_UDP) | \ + BIT_ULL(IDPF_HASH_NONF_MULTICAST_IPV6_UDP)) + +/* For idpf_splitq_base_tx_compl_desc */ +#define IDPF_TXD_COMPLQ_GEN_S 15 +#define IDPF_TXD_COMPLQ_GEN_M BIT_ULL(IDPF_TXD_COMPLQ_GEN_S) +#define IDPF_TXD_COMPLQ_COMPL_TYPE_S 11 +#define IDPF_TXD_COMPLQ_COMPL_TYPE_M \ + MAKEMASK(0x7UL, IDPF_TXD_COMPLQ_COMPL_TYPE_S) +#define IDPF_TXD_COMPLQ_QID_S 0 +#define IDPF_TXD_COMPLQ_QID_M MAKEMASK(0x3FFUL, IDPF_TXD_COMPLQ_QID_S) + +/* For base mode TX descriptors */ + +#define IDPF_TXD_CTX_QW0_TUNN_L4T_CS_S 23 +#define IDPF_TXD_CTX_QW0_TUNN_L4T_CS_M BIT_ULL(IDPF_TXD_CTX_QW0_TUNN_L4T_CS_S) +#define IDPF_TXD_CTX_QW0_TUNN_DECTTL_S 19 +#define IDPF_TXD_CTX_QW0_TUNN_DECTTL_M \ + (0xFULL << IDPF_TXD_CTX_QW0_TUNN_DECTTL_S) +#define IDPF_TXD_CTX_QW0_TUNN_NATLEN_S 12 +#define IDPF_TXD_CTX_QW0_TUNN_NATLEN_M \ + (0X7FULL << IDPF_TXD_CTX_QW0_TUNN_NATLEN_S) +#define IDPF_TXD_CTX_QW0_TUNN_EIP_NOINC_S 11 +#define IDPF_TXD_CTX_QW0_TUNN_EIP_NOINC_M \ + BIT_ULL(IDPF_TXD_CTX_QW0_TUNN_EIP_NOINC_S) +#define IDPF_TXD_CTX_EIP_NOINC_IPID_CONST \ + IDPF_TXD_CTX_QW0_TUNN_EIP_NOINC_M +#define IDPF_TXD_CTX_QW0_TUNN_NATT_S 9 +#define IDPF_TXD_CTX_QW0_TUNN_NATT_M (0x3ULL << IDPF_TXD_CTX_QW0_TUNN_NATT_S) +#define IDPF_TXD_CTX_UDP_TUNNELING BIT_ULL(IDPF_TXD_CTX_QW0_TUNN_NATT_S) +#define IDPF_TXD_CTX_GRE_TUNNELING (0x2ULL << IDPF_TXD_CTX_QW0_TUNN_NATT_S) +#define IDPF_TXD_CTX_QW0_TUNN_EXT_IPLEN_S 2 +#define IDPF_TXD_CTX_QW0_TUNN_EXT_IPLEN_M \ + (0x3FULL << IDPF_TXD_CTX_QW0_TUNN_EXT_IPLEN_S) +#define IDPF_TXD_CTX_QW0_TUNN_EXT_IP_S 0 +#define IDPF_TXD_CTX_QW0_TUNN_EXT_IP_M \ + (0x3ULL << IDPF_TXD_CTX_QW0_TUNN_EXT_IP_S) + +#define IDPF_TXD_CTX_QW1_MSS_S 50 +#define IDPF_TXD_CTX_QW1_MSS_M \ + MAKEMASK(0x3FFFULL, IDPF_TXD_CTX_QW1_MSS_S) +#define IDPF_TXD_CTX_QW1_TSO_LEN_S 30 +#define IDPF_TXD_CTX_QW1_TSO_LEN_M \ + MAKEMASK(0x3FFFFULL, IDPF_TXD_CTX_QW1_TSO_LEN_S) +#define IDPF_TXD_CTX_QW1_CMD_S 4 +#define IDPF_TXD_CTX_QW1_CMD_M \ + MAKEMASK(0xFFFUL, IDPF_TXD_CTX_QW1_CMD_S) +#define IDPF_TXD_CTX_QW1_DTYPE_S 0 +#define IDPF_TXD_CTX_QW1_DTYPE_M \ + MAKEMASK(0xFUL, IDPF_TXD_CTX_QW1_DTYPE_S) +#define IDPF_TXD_QW1_L2TAG1_S 48 +#define IDPF_TXD_QW1_L2TAG1_M \ + MAKEMASK(0xFFFFULL, IDPF_TXD_QW1_L2TAG1_S) +#define IDPF_TXD_QW1_TX_BUF_SZ_S 34 +#define IDPF_TXD_QW1_TX_BUF_SZ_M \ + MAKEMASK(0x3FFFULL, IDPF_TXD_QW1_TX_BUF_SZ_S) +#define IDPF_TXD_QW1_OFFSET_S 16 +#define IDPF_TXD_QW1_OFFSET_M \ + MAKEMASK(0x3FFFFULL, IDPF_TXD_QW1_OFFSET_S) +#define IDPF_TXD_QW1_CMD_S 4 +#define IDPF_TXD_QW1_CMD_M MAKEMASK(0xFFFUL, IDPF_TXD_QW1_CMD_S) +#define IDPF_TXD_QW1_DTYPE_S 0 +#define IDPF_TXD_QW1_DTYPE_M MAKEMASK(0xFUL, IDPF_TXD_QW1_DTYPE_S) + +/* TX Completion Descriptor Completion Types */ +#define IDPF_TXD_COMPLT_ITR_FLUSH 0 +#define IDPF_TXD_COMPLT_RULE_MISS 1 +#define IDPF_TXD_COMPLT_RS 2 +#define IDPF_TXD_COMPLT_REINJECTED 3 +#define IDPF_TXD_COMPLT_RE 4 +#define IDPF_TXD_COMPLT_SW_MARKER 5 + +enum idpf_tx_desc_dtype_value { + IDPF_TX_DESC_DTYPE_DATA = 0, + IDPF_TX_DESC_DTYPE_CTX = 1, + IDPF_TX_DESC_DTYPE_REINJECT_CTX = 2, + IDPF_TX_DESC_DTYPE_FLEX_DATA = 3, + IDPF_TX_DESC_DTYPE_FLEX_CTX = 4, + IDPF_TX_DESC_DTYPE_FLEX_TSO_CTX = 5, + IDPF_TX_DESC_DTYPE_FLEX_TSYN_L2TAG1 = 6, + IDPF_TX_DESC_DTYPE_FLEX_L2TAG1_L2TAG2 = 7, + IDPF_TX_DESC_DTYPE_FLEX_TSO_L2TAG2_PARSTAG_CTX = 8, + IDPF_TX_DESC_DTYPE_FLEX_HOSTSPLIT_SA_TSO_CTX = 9, + IDPF_TX_DESC_DTYPE_FLEX_HOSTSPLIT_SA_CTX = 10, + IDPF_TX_DESC_DTYPE_FLEX_L2TAG2_CTX = 11, + IDPF_TX_DESC_DTYPE_FLEX_FLOW_SCHE = 12, + IDPF_TX_DESC_DTYPE_FLEX_HOSTSPLIT_TSO_CTX = 13, + IDPF_TX_DESC_DTYPE_FLEX_HOSTSPLIT_CTX = 14, + /* DESC_DONE - HW has completed write-back of descriptor */ + IDPF_TX_DESC_DTYPE_DESC_DONE = 15, +}; + +enum idpf_tx_ctx_desc_cmd_bits { + IDPF_TX_CTX_DESC_TSO = 0x01, + IDPF_TX_CTX_DESC_TSYN = 0x02, + IDPF_TX_CTX_DESC_IL2TAG2 = 0x04, + IDPF_TX_CTX_DESC_RSVD = 0x08, + IDPF_TX_CTX_DESC_SWTCH_NOTAG = 0x00, + IDPF_TX_CTX_DESC_SWTCH_UPLINK = 0x10, + IDPF_TX_CTX_DESC_SWTCH_LOCAL = 0x20, + IDPF_TX_CTX_DESC_SWTCH_VSI = 0x30, + IDPF_TX_CTX_DESC_FILT_AU_EN = 0x40, + IDPF_TX_CTX_DESC_FILT_AU_EVICT = 0x80, + IDPF_TX_CTX_DESC_RSVD1 = 0xF00 +}; + +enum idpf_tx_desc_len_fields { + /* Note: These are predefined bit offsets */ + IDPF_TX_DESC_LEN_MACLEN_S = 0, /* 7 BITS */ + IDPF_TX_DESC_LEN_IPLEN_S = 7, /* 7 BITS */ + IDPF_TX_DESC_LEN_L4_LEN_S = 14 /* 4 BITS */ +}; + +#define IDPF_TXD_QW1_MACLEN_M MAKEMASK(0x7FUL, IDPF_TX_DESC_LEN_MACLEN_S) +#define IDPF_TXD_QW1_IPLEN_M MAKEMASK(0x7FUL, IDPF_TX_DESC_LEN_IPLEN_S) +#define IDPF_TXD_QW1_L4LEN_M MAKEMASK(0xFUL, IDPF_TX_DESC_LEN_L4_LEN_S) +#define IDPF_TXD_QW1_FCLEN_M MAKEMASK(0xFUL, IDPF_TX_DESC_LEN_L4_LEN_S) + +enum idpf_tx_base_desc_cmd_bits { + IDPF_TX_DESC_CMD_EOP = 0x0001, + IDPF_TX_DESC_CMD_RS = 0x0002, + /* only on VFs else RSVD */ + IDPF_TX_DESC_CMD_ICRC = 0x0004, + IDPF_TX_DESC_CMD_IL2TAG1 = 0x0008, + IDPF_TX_DESC_CMD_RSVD1 = 0x0010, + IDPF_TX_DESC_CMD_IIPT_NONIP = 0x0000, /* 2 BITS */ + IDPF_TX_DESC_CMD_IIPT_IPV6 = 0x0020, /* 2 BITS */ + IDPF_TX_DESC_CMD_IIPT_IPV4 = 0x0040, /* 2 BITS */ + IDPF_TX_DESC_CMD_IIPT_IPV4_CSUM = 0x0060, /* 2 BITS */ + IDPF_TX_DESC_CMD_RSVD2 = 0x0080, + IDPF_TX_DESC_CMD_L4T_EOFT_UNK = 0x0000, /* 2 BITS */ + IDPF_TX_DESC_CMD_L4T_EOFT_TCP = 0x0100, /* 2 BITS */ + IDPF_TX_DESC_CMD_L4T_EOFT_SCTP = 0x0200, /* 2 BITS */ + IDPF_TX_DESC_CMD_L4T_EOFT_UDP = 0x0300, /* 2 BITS */ + IDPF_TX_DESC_CMD_RSVD3 = 0x0400, + IDPF_TX_DESC_CMD_RSVD4 = 0x0800, +}; + +/* Transmit descriptors */ +/* splitq tx buf, singleq tx buf and singleq compl desc */ +struct idpf_base_tx_desc { + __le64 buf_addr; /* Address of descriptor's data buf */ + __le64 qw1; /* type_cmd_offset_bsz_l2tag1 */ +};/* read used with buffer queues*/ + +struct idpf_splitq_tx_compl_desc { + /* qid=[10:0] comptype=[13:11] rsvd=[14] gen=[15] */ + __le16 qid_comptype_gen; + union { + __le16 q_head; /* Queue head */ + __le16 compl_tag; /* Completion tag */ + } q_head_compl_tag; + u32 rsvd; + +};/* writeback used with completion queues*/ + +/* Context descriptors */ +struct idpf_base_tx_ctx_desc { + struct { + __le32 tunneling_params; + __le16 l2tag2; + __le16 rsvd1; + } qw0; + __le64 qw1; /* type_cmd_tlen_mss/rt_hint */ +}; + +/* Common cmd field defines for all desc except Flex Flow Scheduler (0x0C) */ +enum idpf_tx_flex_desc_cmd_bits { + IDPF_TX_FLEX_DESC_CMD_EOP = 0x01, + IDPF_TX_FLEX_DESC_CMD_RS = 0x02, + IDPF_TX_FLEX_DESC_CMD_RE = 0x04, + IDPF_TX_FLEX_DESC_CMD_IL2TAG1 = 0x08, + IDPF_TX_FLEX_DESC_CMD_DUMMY = 0x10, + IDPF_TX_FLEX_DESC_CMD_CS_EN = 0x20, + IDPF_TX_FLEX_DESC_CMD_FILT_AU_EN = 0x40, + IDPF_TX_FLEX_DESC_CMD_FILT_AU_EVICT = 0x80, +}; + +struct idpf_flex_tx_desc { + __le64 buf_addr; /* Packet buffer address */ + struct { + __le16 cmd_dtype; +#define IDPF_FLEX_TXD_QW1_DTYPE_S 0 +#define IDPF_FLEX_TXD_QW1_DTYPE_M \ + MAKEMASK(0x1FUL, IDPF_FLEX_TXD_QW1_DTYPE_S) +#define IDPF_FLEX_TXD_QW1_CMD_S 5 +#define IDPF_FLEX_TXD_QW1_CMD_M MAKEMASK(0x7FFUL, IDPF_TXD_QW1_CMD_S) + union { + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_DATA_(0x03) */ + u8 raw[4]; + + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_TSYN_L2TAG1 (0x06) */ + struct { + __le16 l2tag1; + u8 flex; + u8 tsync; + } tsync; + + /* DTYPE=IDPF_TX_DESC_DTYPE_FLEX_L2TAG1_L2TAG2 (0x07) */ + struct { + __le16 l2tag1; + __le16 l2tag2; + } l2tags; + } flex; + __le16 buf_size; + } qw1; +}; + +struct idpf_flex_tx_sched_desc { + __le64 buf_addr; /* Packet buffer address */ + + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_FLOW_SCHE_16B (0x0C) */ + struct { + u8 cmd_dtype; +#define IDPF_TXD_FLEX_FLOW_DTYPE_M 0x1F +#define IDPF_TXD_FLEX_FLOW_CMD_EOP 0x20 +#define IDPF_TXD_FLEX_FLOW_CMD_CS_EN 0x40 +#define IDPF_TXD_FLEX_FLOW_CMD_RE 0x80 + + u8 rsvd[3]; + + __le16 compl_tag; + __le16 rxr_bufsize; +#define IDPF_TXD_FLEX_FLOW_RXR 0x4000 +#define IDPF_TXD_FLEX_FLOW_BUFSIZE_M 0x3FFF + } qw1; +}; + +/* Common cmd fields for all flex context descriptors + * Note: these defines already account for the 5 bit dtype in the cmd_dtype + * field + */ +enum idpf_tx_flex_ctx_desc_cmd_bits { + IDPF_TX_FLEX_CTX_DESC_CMD_TSO = 0x0020, + IDPF_TX_FLEX_CTX_DESC_CMD_TSYN_EN = 0x0040, + IDPF_TX_FLEX_CTX_DESC_CMD_L2TAG2 = 0x0080, + IDPF_TX_FLEX_CTX_DESC_CMD_SWTCH_UPLNK = 0x0200, /* 2 bits */ + IDPF_TX_FLEX_CTX_DESC_CMD_SWTCH_LOCAL = 0x0400, /* 2 bits */ + IDPF_TX_FLEX_CTX_DESC_CMD_SWTCH_TARGETVSI = 0x0600, /* 2 bits */ +}; + +/* Standard flex descriptor TSO context quad word */ +struct idpf_flex_tx_tso_ctx_qw { + __le32 flex_tlen; +#define IDPF_TXD_FLEX_CTX_TLEN_M 0x3FFFF +#define IDPF_TXD_FLEX_TSO_CTX_FLEX_S 24 + __le16 mss_rt; +#define IDPF_TXD_FLEX_CTX_MSS_RT_M 0x3FFF + u8 hdr_len; + u8 flex; +}; + +union idpf_flex_tx_ctx_desc { + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_CTX (0x04) */ + struct { + u8 qw0_flex[8]; + struct { + __le16 cmd_dtype; + __le16 l2tag1; + u8 qw1_flex[4]; + } qw1; + } gen; + + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_TSO_CTX (0x05) */ + struct { + struct idpf_flex_tx_tso_ctx_qw qw0; + struct { + __le16 cmd_dtype; + u8 flex[6]; + } qw1; + } tso; + + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_TSO_L2TAG2_PARSTAG_CTX (0x08) */ + struct { + struct idpf_flex_tx_tso_ctx_qw qw0; + struct { + __le16 cmd_dtype; + __le16 l2tag2; + u8 flex0; + u8 ptag; + u8 flex1[2]; + } qw1; + } tso_l2tag2_ptag; + + /* DTYPE = IDPF_TX_DESC_DTYPE_FLEX_L2TAG2_CTX (0x0B) */ + struct { + u8 qw0_flex[8]; + struct { + __le16 cmd_dtype; + __le16 l2tag2; + u8 flex[4]; + } qw1; + } l2tag2; + + /* DTYPE = IDPF_TX_DESC_DTYPE_REINJECT_CTX (0x02) */ + struct { + struct { + __le32 sa_domain; +#define IDPF_TXD_FLEX_CTX_SA_DOM_M 0xFFFF +#define IDPF_TXD_FLEX_CTX_SA_DOM_VAL 0x10000 + __le32 sa_idx; +#define IDPF_TXD_FLEX_CTX_SAIDX_M 0x1FFFFF + } qw0; + struct { + __le16 cmd_dtype; + __le16 txr2comp; +#define IDPF_TXD_FLEX_CTX_TXR2COMP 0x1 + __le16 miss_txq_comp_tag; + __le16 miss_txq_id; + } qw1; + } reinjection_pkt; +}; + +/* Host Split Context Descriptors */ +struct idpf_flex_tx_hs_ctx_desc { + union { + struct { + __le32 host_fnum_tlen; +#define IDPF_TXD_FLEX_CTX_TLEN_S 0 +/* see IDPF_TXD_FLEX_CTX_TLEN_M for mask definition */ +#define IDPF_TXD_FLEX_CTX_FNUM_S 18 +#define IDPF_TXD_FLEX_CTX_FNUM_M 0x7FF +#define IDPF_TXD_FLEX_CTX_HOST_S 29 +#define IDPF_TXD_FLEX_CTX_HOST_M 0x7 + __le16 ftype_mss_rt; +#define IDPF_TXD_FLEX_CTX_MSS_RT_0 0 +#define IDPF_TXD_FLEX_CTX_MSS_RT_M 0x3FFF +#define IDPF_TXD_FLEX_CTX_FTYPE_S 14 +#define IDPF_TXD_FLEX_CTX_FTYPE_VF MAKEMASK(0x0, IDPF_TXD_FLEX_CTX_FTYPE_S) +#define IDPF_TXD_FLEX_CTX_FTYPE_VDEV MAKEMASK(0x1, IDPF_TXD_FLEX_CTX_FTYPE_S) +#define IDPF_TXD_FLEX_CTX_FTYPE_PF MAKEMASK(0x2, IDPF_TXD_FLEX_CTX_FTYPE_S) + u8 hdr_len; + u8 ptag; + } tso; + struct { + u8 flex0[2]; + __le16 host_fnum_ftype; + u8 flex1[3]; + u8 ptag; + } no_tso; + } qw0; + + __le64 qw1_cmd_dtype; +#define IDPF_TXD_FLEX_CTX_QW1_PASID_S 16 +#define IDPF_TXD_FLEX_CTX_QW1_PASID_M 0xFFFFF +#define IDPF_TXD_FLEX_CTX_QW1_PASID_VALID_S 36 +#define IDPF_TXD_FLEX_CTX_QW1_PASID_VALID \ + MAKEMASK(0x1, IDPF_TXD_FLEX_CTX_PASID_VALID_S) +#define IDPF_TXD_FLEX_CTX_QW1_TPH_S 37 +#define IDPF_TXD_FLEX_CTX_QW1_TPH \ + MAKEMASK(0x1, IDPF_TXD_FLEX_CTX_TPH_S) +#define IDPF_TXD_FLEX_CTX_QW1_PFNUM_S 38 +#define IDPF_TXD_FLEX_CTX_QW1_PFNUM_M 0xF +/* The following are only valid for DTYPE = 0x09 and DTYPE = 0x0A */ +#define IDPF_TXD_FLEX_CTX_QW1_SAIDX_S 42 +#define IDPF_TXD_FLEX_CTX_QW1_SAIDX_M 0x1FFFFF +#define IDPF_TXD_FLEX_CTX_QW1_SAIDX_VAL_S 63 +#define IDPF_TXD_FLEX_CTX_QW1_SAIDX_VALID \ + MAKEMASK(0x1, IDPF_TXD_FLEX_CTX_QW1_SAIDX_VAL_S) +/* The following are only valid for DTYPE = 0x0D and DTYPE = 0x0E */ +#define IDPF_TXD_FLEX_CTX_QW1_FLEX0_S 48 +#define IDPF_TXD_FLEX_CTX_QW1_FLEX0_M 0xFF +#define IDPF_TXD_FLEX_CTX_QW1_FLEX1_S 56 +#define IDPF_TXD_FLEX_CTX_QW1_FLEX1_M 0xFF +}; +#endif /* _IDPF_LAN_TXRX_H_ */ diff --git a/drivers/common/idpf/base/idpf_lan_vf_regs.h b/drivers/common/idpf/base/idpf_lan_vf_regs.h new file mode 100644 index 0000000000..9cd4f757d9 --- /dev/null +++ b/drivers/common/idpf/base/idpf_lan_vf_regs.h @@ -0,0 +1,114 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_LAN_VF_REGS_H_ +#define _IDPF_LAN_VF_REGS_H_ + + +/* Reset */ +#define VFGEN_RSTAT 0x00008800 +#define VFGEN_RSTAT_VFR_STATE_S 0 +#define VFGEN_RSTAT_VFR_STATE_M MAKEMASK(0x3, VFGEN_RSTAT_VFR_STATE_S) + +/* Control(VF Mailbox) Queue */ +#define VF_BASE 0x00006000 + +#define VF_ATQBAL (VF_BASE + 0x1C00) +#define VF_ATQBAH (VF_BASE + 0x1800) +#define VF_ATQLEN (VF_BASE + 0x0800) +#define VF_ATQLEN_ATQLEN_S 0 +#define VF_ATQLEN_ATQLEN_M MAKEMASK(0x3FF, VF_ATQLEN_ATQLEN_S) +#define VF_ATQLEN_ATQVFE_S 28 +#define VF_ATQLEN_ATQVFE_M BIT(VF_ATQLEN_ATQVFE_S) +#define VF_ATQLEN_ATQOVFL_S 29 +#define VF_ATQLEN_ATQOVFL_M BIT(VF_ATQLEN_ATQOVFL_S) +#define VF_ATQLEN_ATQCRIT_S 30 +#define VF_ATQLEN_ATQCRIT_M BIT(VF_ATQLEN_ATQCRIT_S) +#define VF_ATQLEN_ATQENABLE_S 31 +#define VF_ATQLEN_ATQENABLE_M BIT(VF_ATQLEN_ATQENABLE_S) +#define VF_ATQH (VF_BASE + 0x0400) +#define VF_ATQH_ATQH_S 0 +#define VF_ATQH_ATQH_M MAKEMASK(0x3FF, VF_ATQH_ATQH_S) +#define VF_ATQT (VF_BASE + 0x2400) + +#define VF_ARQBAL (VF_BASE + 0x0C00) +#define VF_ARQBAH (VF_BASE) +#define VF_ARQLEN (VF_BASE + 0x2000) +#define VF_ARQLEN_ARQLEN_S 0 +#define VF_ARQLEN_ARQLEN_M MAKEMASK(0x3FF, VF_ARQLEN_ARQLEN_S) +#define VF_ARQLEN_ARQVFE_S 28 +#define VF_ARQLEN_ARQVFE_M BIT(VF_ARQLEN_ARQVFE_S) +#define VF_ARQLEN_ARQOVFL_S 29 +#define VF_ARQLEN_ARQOVFL_M BIT(VF_ARQLEN_ARQOVFL_S) +#define VF_ARQLEN_ARQCRIT_S 30 +#define VF_ARQLEN_ARQCRIT_M BIT(VF_ARQLEN_ARQCRIT_S) +#define VF_ARQLEN_ARQENABLE_S 31 +#define VF_ARQLEN_ARQENABLE_M BIT(VF_ARQLEN_ARQENABLE_S) +#define VF_ARQH (VF_BASE + 0x1400) +#define VF_ARQH_ARQH_S 0 +#define VF_ARQH_ARQH_M MAKEMASK(0x1FFF, VF_ARQH_ARQH_S) +#define VF_ARQT (VF_BASE + 0x1000) + +/* Transmit queues */ +#define VF_QTX_TAIL_BASE 0x00000000 +#define VF_QTX_TAIL(_QTX) (VF_QTX_TAIL_BASE + (_QTX) * 0x4) +#define VF_QTX_TAIL_EXT_BASE 0x00040000 +#define VF_QTX_TAIL_EXT(_QTX) (VF_QTX_TAIL_EXT_BASE + ((_QTX) * 4)) + +/* Receive queues */ +#define VF_QRX_TAIL_BASE 0x00002000 +#define VF_QRX_TAIL(_QRX) (VF_QRX_TAIL_BASE + ((_QRX) * 4)) +#define VF_QRX_TAIL_EXT_BASE 0x00050000 +#define VF_QRX_TAIL_EXT(_QRX) (VF_QRX_TAIL_EXT_BASE + ((_QRX) * 4)) +#define VF_QRXB_TAIL_BASE 0x00060000 +#define VF_QRXB_TAIL(_QRX) (VF_QRXB_TAIL_BASE + ((_QRX) * 4)) + +/* Interrupts */ +#define VF_INT_DYN_CTL0 0x00005C00 +#define VF_INT_DYN_CTL0_INTENA_S 0 +#define VF_INT_DYN_CTL0_INTENA_M BIT(VF_INT_DYN_CTL0_INTENA_S) +#define VF_INT_DYN_CTL0_ITR_INDX_S 3 +#define VF_INT_DYN_CTL0_ITR_INDX_M MAKEMASK(0x3, VF_INT_DYN_CTL0_ITR_INDX_S) +#define VF_INT_DYN_CTLN(_INT) (0x00003800 + ((_INT) * 4)) +#define VF_INT_DYN_CTLN_EXT(_INT) (0x00070000 + ((_INT) * 4)) +#define VF_INT_DYN_CTLN_INTENA_S 0 +#define VF_INT_DYN_CTLN_INTENA_M BIT(VF_INT_DYN_CTLN_INTENA_S) +#define VF_INT_DYN_CTLN_CLEARPBA_S 1 +#define VF_INT_DYN_CTLN_CLEARPBA_M BIT(VF_INT_DYN_CTLN_CLEARPBA_S) +#define VF_INT_DYN_CTLN_SWINT_TRIG_S 2 +#define VF_INT_DYN_CTLN_SWINT_TRIG_M BIT(VF_INT_DYN_CTLN_SWINT_TRIG_S) +#define VF_INT_DYN_CTLN_ITR_INDX_S 3 +#define VF_INT_DYN_CTLN_ITR_INDX_M MAKEMASK(0x3, VF_INT_DYN_CTLN_ITR_INDX_S) +#define VF_INT_DYN_CTLN_INTERVAL_S 5 +#define VF_INT_DYN_CTLN_INTERVAL_M BIT(VF_INT_DYN_CTLN_INTERVAL_S) +#define VF_INT_DYN_CTLN_SW_ITR_INDX_ENA_S 24 +#define VF_INT_DYN_CTLN_SW_ITR_INDX_ENA_M BIT(VF_INT_DYN_CTLN_SW_ITR_INDX_ENA_S) +#define VF_INT_DYN_CTLN_SW_ITR_INDX_S 25 +#define VF_INT_DYN_CTLN_SW_ITR_INDX_M BIT(VF_INT_DYN_CTLN_SW_ITR_INDX_S) +#define VF_INT_DYN_CTLN_WB_ON_ITR_S 30 +#define VF_INT_DYN_CTLN_WB_ON_ITR_M BIT(VF_INT_DYN_CTLN_WB_ON_ITR_S) +#define VF_INT_DYN_CTLN_INTENA_MSK_S 31 +#define VF_INT_DYN_CTLN_INTENA_MSK_M BIT(VF_INT_DYN_CTLN_INTENA_MSK_S) +#define VF_INT_ITR0(_i) (0x00004C00 + ((_i) * 4)) +#define VF_INT_ITRN_V2(_i, _reg_start) ((_reg_start) + (((_i)) * 4)) +#define VF_INT_ITRN(_i, _INT) (0x00002800 + ((_i) * 4) + ((_INT) * 0x40)) +#define VF_INT_ITRN_64(_i, _INT) (0x00002C00 + ((_i) * 4) + ((_INT) * 0x100)) +#define VF_INT_ITRN_2K(_i, _INT) (0x00072000 + ((_i) * 4) + ((_INT) * 0x100)) +#define VF_INT_ITRN_MAX_INDEX 2 +#define VF_INT_ITRN_INTERVAL_S 0 +#define VF_INT_ITRN_INTERVAL_M MAKEMASK(0xFFF, VF_INT_ITRN_INTERVAL_S) +#define VF_INT_PBA_CLEAR 0x00008900 + +#define VF_INT_ICR0_ENA1 0x00005000 +#define VF_INT_ICR0_ENA1_ADMINQ_S 30 +#define VF_INT_ICR0_ENA1_ADMINQ_M BIT(VF_INT_ICR0_ENA1_ADMINQ_S) +#define VF_INT_ICR0_ENA1_RSVD_S 31 +#define VF_INT_ICR01 0x00004800 +#define VF_QF_HENA(_i) (0x0000C400 + ((_i) * 4)) +#define VF_QF_HENA_MAX_INDX 1 +#define VF_QF_HKEY(_i) (0x0000CC00 + ((_i) * 4)) +#define VF_QF_HKEY_MAX_INDX 12 +#define VF_QF_HLUT(_i) (0x0000D000 + ((_i) * 4)) +#define VF_QF_HLUT_MAX_INDX 15 +#endif diff --git a/drivers/common/idpf/base/idpf_osdep.h b/drivers/common/idpf/base/idpf_osdep.h new file mode 100644 index 0000000000..99ae9cf60a --- /dev/null +++ b/drivers/common/idpf/base/idpf_osdep.h @@ -0,0 +1,364 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_OSDEP_H_ +#define _IDPF_OSDEP_H_ + +#include +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#define INLINE inline +#define STATIC static + +typedef uint8_t u8; +typedef int8_t s8; +typedef uint16_t u16; +typedef int16_t s16; +typedef uint32_t u32; +typedef int32_t s32; +typedef uint64_t u64; +typedef uint64_t s64; + +typedef struct idpf_lock idpf_lock; + +#define __iomem +#define hw_dbg(hw, S, A...) do {} while (0) +#define upper_32_bits(n) ((u32)(((n) >> 16) >> 16)) +#define lower_32_bits(n) ((u32)(n)) +#define low_16_bits(x) ((x) & 0xFFFF) +#define high_16_bits(x) (((x) & 0xFFFF0000) >> 16) + +#ifndef ETH_ADDR_LEN +#define ETH_ADDR_LEN 6 +#endif + +#ifndef __le16 +#define __le16 uint16_t +#endif +#ifndef __le32 +#define __le32 uint32_t +#endif +#ifndef __le64 +#define __le64 uint64_t +#endif +#ifndef __be16 +#define __be16 uint16_t +#endif +#ifndef __be32 +#define __be32 uint32_t +#endif +#ifndef __be64 +#define __be64 uint64_t +#endif + +#ifndef BIT_ULL +#define BIT_ULL(a) RTE_BIT64(a) +#endif + +#ifndef BIT +#define BIT(a) RTE_BIT32(a) +#endif + +#define FALSE 0 +#define TRUE 1 +#define false 0 +#define true 1 + +/* Avoid macro redefinition warning on Windows */ +#ifdef RTE_EXEC_ENV_WINDOWS +#ifdef min +#undef min +#endif +#ifdef max +#undef max +#endif +#endif + +#define min(a, b) RTE_MIN(a, b) +#define max(a, b) RTE_MAX(a, b) + +#define ARRAY_SIZE(arr) RTE_DIM(arr) +#define FIELD_SIZEOF(t, f) (sizeof(((t *)0)->(f))) +#define MAKEMASK(m, s) ((m) << (s)) + +extern int idpf_common_logger; + +#define DEBUGOUT(S) rte_log(RTE_LOG_DEBUG, idpf_common_logger, S) +#define DEBUGOUT2(S, A...) rte_log(RTE_LOG_DEBUG, idpf_common_logger, S, ##A) +#define DEBUGFUNC(F) DEBUGOUT(F "\n") + +#define idpf_debug(h, m, s, ...) \ + do { \ + if (((m) & (h)->debug_mask)) \ + PMD_DRV_LOG_RAW(DEBUG, "idpf %02x.%x " s, \ + (h)->bus.device, (h)->bus.func, \ + ##__VA_ARGS__); \ + } while (0) + +#define idpf_info(hw, fmt, args...) idpf_debug(hw, IDPF_DBG_ALL, fmt, ##args) +#define idpf_warn(hw, fmt, args...) idpf_debug(hw, IDPF_DBG_ALL, fmt, ##args) +#define idpf_debug_array(hw, type, rowsize, groupsize, buf, len) \ + do { \ + struct idpf_hw *hw_l = hw; \ + u16 len_l = len; \ + u8 *buf_l = buf; \ + int i; \ + for (i = 0; i < len_l; i += 8) \ + idpf_debug(hw_l, type, \ + "0x%04X 0x%016"PRIx64"\n", \ + i, *((u64 *)((buf_l) + i))); \ + } while (0) +#define idpf_snprintf snprintf +#ifndef SNPRINTF +#define SNPRINTF idpf_snprintf +#endif + +#define IDPF_PCI_REG(reg) rte_read32(reg) +#define IDPF_PCI_REG_ADDR(a, reg) \ + ((volatile uint32_t *)((char *)(a)->hw_addr + (reg))) +#define IDPF_PCI_REG64(reg) rte_read64(reg) +#define IDPF_PCI_REG_ADDR64(a, reg) \ + ((volatile uint64_t *)((char *)(a)->hw_addr + (reg))) + +#define idpf_wmb() rte_io_wmb() +#define idpf_rmb() rte_io_rmb() +#define idpf_mb() rte_io_mb() + +static inline uint32_t idpf_read_addr(volatile void *addr) +{ + return rte_le_to_cpu_32(IDPF_PCI_REG(addr)); +} + +static inline uint64_t idpf_read_addr64(volatile void *addr) +{ + return rte_le_to_cpu_64(IDPF_PCI_REG64(addr)); +} + +#define IDPF_PCI_REG_WRITE(reg, value) \ + rte_write32((rte_cpu_to_le_32(value)), reg) + +#define IDPF_PCI_REG_WRITE64(reg, value) \ + rte_write64((rte_cpu_to_le_64(value)), reg) + +#define IDPF_READ_REG(hw, reg) idpf_read_addr(IDPF_PCI_REG_ADDR((hw), (reg))) +#define IDPF_WRITE_REG(hw, reg, value) \ + IDPF_PCI_REG_WRITE(IDPF_PCI_REG_ADDR((hw), (reg)), (value)) + +#define rd32(a, reg) idpf_read_addr(IDPF_PCI_REG_ADDR((a), (reg))) +#define wr32(a, reg, value) \ + IDPF_PCI_REG_WRITE(IDPF_PCI_REG_ADDR((a), (reg)), (value)) +#define div64_long(n, d) ((n) / (d)) +#define rd64(a, reg) idpf_read_addr64(IDPF_PCI_REG_ADDR64((a), (reg))) + +#define BITS_PER_BYTE 8 + +/* memory allocation tracking */ +struct idpf_dma_mem { + void *va; + u64 pa; + u32 size; + const void *zone; +} __rte_packed; + +struct idpf_virt_mem { + void *va; + u32 size; +} __rte_packed; + +#define idpf_malloc(h, s) rte_zmalloc(NULL, s, 0) +#define idpf_calloc(h, c, s) rte_zmalloc(NULL, (c) * (s), 0) +#define idpf_free(h, m) rte_free(m) + +#define idpf_memset(a, b, c, d) memset((a), (b), (c)) +#define idpf_memcpy(a, b, c, d) rte_memcpy((a), (b), (c)) +#define idpf_memdup(a, b, c, d) rte_memcpy(idpf_malloc(a, c), b, c) + +#define CPU_TO_BE16(o) rte_cpu_to_be_16(o) +#define CPU_TO_BE32(o) rte_cpu_to_be_32(o) +#define CPU_TO_BE64(o) rte_cpu_to_be_64(o) +#define CPU_TO_LE16(o) rte_cpu_to_le_16(o) +#define CPU_TO_LE32(s) rte_cpu_to_le_32(s) +#define CPU_TO_LE64(h) rte_cpu_to_le_64(h) +#define LE16_TO_CPU(a) rte_le_to_cpu_16(a) +#define LE32_TO_CPU(c) rte_le_to_cpu_32(c) +#define LE64_TO_CPU(k) rte_le_to_cpu_64(k) + +#define NTOHS(a) rte_be_to_cpu_16(a) +#define NTOHL(a) rte_be_to_cpu_32(a) +#define HTONS(a) rte_cpu_to_be_16(a) +#define HTONL(a) rte_cpu_to_be_32(a) + +/* SW spinlock */ +struct idpf_lock { + rte_spinlock_t spinlock; +}; + +static inline void +idpf_init_lock(struct idpf_lock *sp) +{ + rte_spinlock_init(&sp->spinlock); +} + +static inline void +idpf_acquire_lock(struct idpf_lock *sp) +{ + rte_spinlock_lock(&sp->spinlock); +} + +static inline void +idpf_release_lock(struct idpf_lock *sp) +{ + rte_spinlock_unlock(&sp->spinlock); +} + +static inline void +idpf_destroy_lock(__rte_unused struct idpf_lock *sp) +{ +} + +struct idpf_hw; + +static inline void * +idpf_alloc_dma_mem(__rte_unused struct idpf_hw *hw, + struct idpf_dma_mem *mem, u64 size) +{ + const struct rte_memzone *mz = NULL; + char z_name[RTE_MEMZONE_NAMESIZE]; + + if (!mem) + return NULL; + + snprintf(z_name, sizeof(z_name), "idpf_dma_%"PRIu64, rte_rand()); + mz = rte_memzone_reserve_aligned(z_name, size, SOCKET_ID_ANY, + RTE_MEMZONE_IOVA_CONTIG, RTE_PGSIZE_4K); + if (!mz) + return NULL; + + mem->size = size; + mem->va = mz->addr; + mem->pa = mz->iova; + mem->zone = (const void *)mz; + memset(mem->va, 0, size); + + return mem->va; +} + +static inline void +idpf_free_dma_mem(__rte_unused struct idpf_hw *hw, + struct idpf_dma_mem *mem) +{ + rte_memzone_free((const struct rte_memzone *)mem->zone); + mem->size = 0; + mem->va = NULL; + mem->pa = 0; +} + +static inline u8 +idpf_hweight8(u32 num) +{ + u8 bits = 0; + u32 i; + + for (i = 0; i < 8; i++) { + bits += (u8)(num & 0x1); + num >>= 1; + } + + return bits; +} + +static inline u8 +idpf_hweight32(u32 num) +{ + u8 bits = 0; + u32 i; + + for (i = 0; i < 32; i++) { + bits += (u8)(num & 0x1); + num >>= 1; + } + + return bits; +} + +#define DIV_ROUND_UP(n, d) (((n) + (d) - 1) / (d)) +#define DELAY(x) rte_delay_us(x) +#define idpf_usec_delay(x) rte_delay_us(x) +#define idpf_msec_delay(x, y) rte_delay_us(1000 * (x)) +#define udelay(x) DELAY(x) +#define msleep(x) DELAY(1000 * (x)) +#define usleep_range(min, max) msleep(DIV_ROUND_UP(min, 1000)) + +#ifndef IDPF_DBG_TRACE +#define IDPF_DBG_TRACE BIT_ULL(0) +#endif + +#ifndef DIVIDE_AND_ROUND_UP +#define DIVIDE_AND_ROUND_UP(a, b) (((a) + (b) - 1) / (b)) +#endif + +#ifndef IDPF_INTEL_VENDOR_ID +#define IDPF_INTEL_VENDOR_ID 0x8086 +#endif + +#ifndef IS_UNICAST_ETHER_ADDR +#define IS_UNICAST_ETHER_ADDR(addr) \ + ((bool)((((u8 *)(addr))[0] % ((u8)0x2)) == 0)) +#endif + +#ifndef IS_MULTICAST_ETHER_ADDR +#define IS_MULTICAST_ETHER_ADDR(addr) \ + ((bool)((((u8 *)(addr))[0] % ((u8)0x2)) == 1)) +#endif + +#ifndef IS_BROADCAST_ETHER_ADDR +/* Check whether an address is broadcast. */ +#define IS_BROADCAST_ETHER_ADDR(addr) \ + ((bool)((((u16 *)(addr))[0] == ((u16)0xffff)))) +#endif + +#ifndef IS_ZERO_ETHER_ADDR +#define IS_ZERO_ETHER_ADDR(addr) \ + (((bool)((((u16 *)(addr))[0] == ((u16)0x0)))) && \ + ((bool)((((u16 *)(addr))[1] == ((u16)0x0)))) && \ + ((bool)((((u16 *)(addr))[2] == ((u16)0x0))))) +#endif + +#ifndef LIST_HEAD_TYPE +#define LIST_HEAD_TYPE(list_name, type) LIST_HEAD(list_name, type) +#endif + +#ifndef LIST_ENTRY_TYPE +#define LIST_ENTRY_TYPE(type) LIST_ENTRY(type) +#endif + +#ifndef LIST_FOR_EACH_ENTRY_SAFE +#define LIST_FOR_EACH_ENTRY_SAFE(pos, temp, head, entry_type, list) \ + LIST_FOREACH(pos, head, list) + +#endif + +#ifndef LIST_FOR_EACH_ENTRY +#define LIST_FOR_EACH_ENTRY(pos, head, entry_type, list) \ + LIST_FOREACH(pos, head, list) + +#endif + +#endif /* _IDPF_OSDEP_H_ */ diff --git a/drivers/common/idpf/base/idpf_prototype.h b/drivers/common/idpf/base/idpf_prototype.h new file mode 100644 index 0000000000..529b62212d --- /dev/null +++ b/drivers/common/idpf/base/idpf_prototype.h @@ -0,0 +1,45 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_PROTOTYPE_H_ +#define _IDPF_PROTOTYPE_H_ + +/* Include generic macros and types first */ +#include "idpf_osdep.h" +#include "idpf_controlq.h" +#include "idpf_type.h" +#include "idpf_alloc.h" +#include "idpf_devids.h" +#include "idpf_controlq_api.h" +#include "idpf_lan_pf_regs.h" +#include "idpf_lan_vf_regs.h" +#include "idpf_lan_txrx.h" +#include "virtchnl.h" + +#define APF + +int idpf_init_hw(struct idpf_hw *hw, struct idpf_ctlq_size ctlq_size); +int idpf_deinit_hw(struct idpf_hw *hw); + +int idpf_clean_arq_element(struct idpf_hw *hw, + struct idpf_arq_event_info *e, + u16 *events_pending); +bool idpf_asq_done(struct idpf_hw *hw); +bool idpf_check_asq_alive(struct idpf_hw *hw); + +int idpf_get_rss_lut(struct idpf_hw *hw, u16 seid, bool pf_lut, + u8 *lut, u16 lut_size); +int idpf_set_rss_lut(struct idpf_hw *hw, u16 seid, bool pf_lut, + u8 *lut, u16 lut_size); +int idpf_get_rss_key(struct idpf_hw *hw, u16 seid, + struct idpf_get_set_rss_key_data *key); +int idpf_set_rss_key(struct idpf_hw *hw, u16 seid, + struct idpf_get_set_rss_key_data *key); + +int idpf_set_mac_type(struct idpf_hw *hw); + +int idpf_reset(struct idpf_hw *hw); +int idpf_send_msg_to_cp(struct idpf_hw *hw, enum virtchnl_ops v_opcode, + int v_retval, u8 *msg, u16 msglen); +#endif /* _IDPF_PROTOTYPE_H_ */ diff --git a/drivers/common/idpf/base/idpf_type.h b/drivers/common/idpf/base/idpf_type.h new file mode 100644 index 0000000000..3b46536287 --- /dev/null +++ b/drivers/common/idpf/base/idpf_type.h @@ -0,0 +1,106 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _IDPF_TYPE_H_ +#define _IDPF_TYPE_H_ + +#include "idpf_controlq.h" + +#define UNREFERENCED_XPARAMETER +#define UNREFERENCED_1PARAMETER(_p) +#define UNREFERENCED_2PARAMETER(_p, _q) +#define UNREFERENCED_3PARAMETER(_p, _q, _r) +#define UNREFERENCED_4PARAMETER(_p, _q, _r, _s) +#define UNREFERENCED_5PARAMETER(_p, _q, _r, _s, _t) + +#define MAKEMASK(m, s) ((m) << (s)) + +struct idpf_eth_stats { + u64 rx_bytes; /* gorc */ + u64 rx_unicast; /* uprc */ + u64 rx_multicast; /* mprc */ + u64 rx_broadcast; /* bprc */ + u64 rx_discards; /* rdpc */ + u64 rx_unknown_protocol; /* rupp */ + u64 tx_bytes; /* gotc */ + u64 tx_unicast; /* uptc */ + u64 tx_multicast; /* mptc */ + u64 tx_broadcast; /* bptc */ + u64 tx_discards; /* tdpc */ + u64 tx_errors; /* tepc */ +}; + +/* Statistics collected by the MAC */ +struct idpf_hw_port_stats { + /* eth stats collected by the port */ + struct idpf_eth_stats eth; + + /* additional port specific stats */ + u64 tx_dropped_link_down; /* tdold */ + u64 crc_errors; /* crcerrs */ + u64 illegal_bytes; /* illerrc */ + u64 error_bytes; /* errbc */ + u64 mac_local_faults; /* mlfc */ + u64 mac_remote_faults; /* mrfc */ + u64 rx_length_errors; /* rlec */ + u64 link_xon_rx; /* lxonrxc */ + u64 link_xoff_rx; /* lxoffrxc */ + u64 priority_xon_rx[8]; /* pxonrxc[8] */ + u64 priority_xoff_rx[8]; /* pxoffrxc[8] */ + u64 link_xon_tx; /* lxontxc */ + u64 link_xoff_tx; /* lxofftxc */ + u64 priority_xon_tx[8]; /* pxontxc[8] */ + u64 priority_xoff_tx[8]; /* pxofftxc[8] */ + u64 priority_xon_2_xoff[8]; /* pxon2offc[8] */ + u64 rx_size_64; /* prc64 */ + u64 rx_size_127; /* prc127 */ + u64 rx_size_255; /* prc255 */ + u64 rx_size_511; /* prc511 */ + u64 rx_size_1023; /* prc1023 */ + u64 rx_size_1522; /* prc1522 */ + u64 rx_size_big; /* prc9522 */ + u64 rx_undersize; /* ruc */ + u64 rx_fragments; /* rfc */ + u64 rx_oversize; /* roc */ + u64 rx_jabber; /* rjc */ + u64 tx_size_64; /* ptc64 */ + u64 tx_size_127; /* ptc127 */ + u64 tx_size_255; /* ptc255 */ + u64 tx_size_511; /* ptc511 */ + u64 tx_size_1023; /* ptc1023 */ + u64 tx_size_1522; /* ptc1522 */ + u64 tx_size_big; /* ptc9522 */ + u64 mac_short_packet_dropped; /* mspdc */ + u64 checksum_error; /* xec */ +}; +/* Static buffer size to initialize control queue */ +struct idpf_ctlq_size { + u16 asq_buf_size; + u16 asq_ring_size; + u16 arq_buf_size; + u16 arq_ring_size; +}; + +/* Temporary definition to compile - TBD if needed */ +struct idpf_arq_event_info { + struct idpf_ctlq_desc desc; + u16 msg_len; + u16 buf_len; + u8 *msg_buf; +}; + +struct idpf_get_set_rss_key_data { + u8 standard_rss_key[0x28]; + u8 extended_hash_key[0xc]; +}; + +struct idpf_aq_get_phy_abilities_resp { + __le32 phy_type; +}; + +struct idpf_filter_program_desc { + __le32 qid; +}; + +#endif /* _IDPF_TYPE_H_ */ diff --git a/drivers/common/idpf/base/meson.build b/drivers/common/idpf/base/meson.build new file mode 100644 index 0000000000..183587b51a --- /dev/null +++ b/drivers/common/idpf/base/meson.build @@ -0,0 +1,14 @@ +# SPDX-License-Identifier: BSD-3-Clause +# Copyright(c) 2022 Intel Corporation + +sources = files( + 'idpf_common.c', + 'idpf_controlq.c', + 'idpf_controlq_setup.c', +) + +cflags += ['-Wno-unused-value'] +cflags += ['-Wno-unused-variable'] +cflags += ['-Wno-unused-parameter'] +cflags += ['-Wno-implicit-fallthrough'] +cflags += ['-Wno-strict-aliasing'] diff --git a/drivers/common/idpf/base/siov_regs.h b/drivers/common/idpf/base/siov_regs.h new file mode 100644 index 0000000000..3ac4f8f177 --- /dev/null +++ b/drivers/common/idpf/base/siov_regs.h @@ -0,0 +1,47 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ +#ifndef _SIOV_REGS_H_ +#define _SIOV_REGS_H_ +#define VDEV_MBX_START 0x20000 /* Begin at 128KB */ +#define VDEV_MBX_ATQBAL (VDEV_MBX_START + 0x0000) +#define VDEV_MBX_ATQBAH (VDEV_MBX_START + 0x0004) +#define VDEV_MBX_ATQLEN (VDEV_MBX_START + 0x0008) +#define VDEV_MBX_ATQH (VDEV_MBX_START + 0x000C) +#define VDEV_MBX_ATQT (VDEV_MBX_START + 0x0010) +#define VDEV_MBX_ARQBAL (VDEV_MBX_START + 0x0014) +#define VDEV_MBX_ARQBAH (VDEV_MBX_START + 0x0018) +#define VDEV_MBX_ARQLEN (VDEV_MBX_START + 0x001C) +#define VDEV_MBX_ARQH (VDEV_MBX_START + 0x0020) +#define VDEV_MBX_ARQT (VDEV_MBX_START + 0x0024) +#define VDEV_GET_RSTAT 0x21000 /* 132KB for RSTAT */ + +/* Begin at offset after 1MB (after 256 4k pages) */ +#define VDEV_QRX_TAIL_START 0x100000 +#define VDEV_QRX_TAIL(_i) (VDEV_QRX_TAIL_START + ((_i) * 0x1000)) /* 2k Rx queues */ + +/* Begin at offset of 9MB for Rx buffer queue tail register pages */ +#define VDEV_QRX_BUFQ_TAIL_START 0x900000 +/* 2k Rx buffer queues */ +#define VDEV_QRX_BUFQ_TAIL(_i) (VDEV_QRX_BUFQ_TAIL_START + ((_i) * 0x1000)) + +/* Begin at offset of 17MB for 2k Tx queues */ +#define VDEV_QTX_TAIL_START 0x1100000 +#define VDEV_QTX_TAIL(_i) (VDEV_QTX_TAIL_START + ((_i) * 0x1000)) /* 2k Tx queues */ + +/* Begin at offset of 25MB for 2k Tx completion queues */ +#define VDEV_QTX_COMPL_TAIL_START 0x1900000 +/* 2k Tx completion queues */ +#define VDEV_QTX_COMPL_TAIL(_i) (VDEV_QTX_COMPL_TAIL_START + ((_i) * 0x1000)) + +#define VDEV_INT_DYN_CTL01 0x2100000 /* Begin at offset 33MB */ + +/* Begin at offset of 33MB + 4k to accommodate CTL01 register */ +#define VDEV_INT_DYN_START (VDEV_INT_DYN_CTL01 + 0x1000) +#define VDEV_INT_DYN_CTL(_i) (VDEV_INT_DYN_START + ((_i) * 0x1000)) +#define VDEV_INT_ITR_0(_i) (VDEV_INT_DYN_START + ((_i) * 0x1000) + 0x04) +#define VDEV_INT_ITR_1(_i) (VDEV_INT_DYN_START + ((_i) * 0x1000) + 0x08) +#define VDEV_INT_ITR_2(_i) (VDEV_INT_DYN_START + ((_i) * 0x1000) + 0x0C) + +/* Next offset to begin at 42MB (0x2A00000) */ +#endif /* _SIOV_REGS_H_ */ diff --git a/drivers/common/idpf/base/virtchnl.h b/drivers/common/idpf/base/virtchnl.h new file mode 100644 index 0000000000..ea798e3971 --- /dev/null +++ b/drivers/common/idpf/base/virtchnl.h @@ -0,0 +1,2866 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _VIRTCHNL_H_ +#define _VIRTCHNL_H_ + +/* Description: + * This header file describes the Virtual Function (VF) - Physical Function + * (PF) communication protocol used by the drivers for all devices starting + * from our 40G product line + * + * Admin queue buffer usage: + * desc->opcode is always aqc_opc_send_msg_to_pf + * flags, retval, datalen, and data addr are all used normally. + * The Firmware copies the cookie fields when sending messages between the + * PF and VF, but uses all other fields internally. Due to this limitation, + * we must send all messages as "indirect", i.e. using an external buffer. + * + * All the VSI indexes are relative to the VF. Each VF can have maximum of + * three VSIs. All the queue indexes are relative to the VSI. Each VF can + * have a maximum of sixteen queues for all of its VSIs. + * + * The PF is required to return a status code in v_retval for all messages + * except RESET_VF, which does not require any response. The returned value + * is of virtchnl_status_code type, defined here. + * + * In general, VF driver initialization should roughly follow the order of + * these opcodes. The VF driver must first validate the API version of the + * PF driver, then request a reset, then get resources, then configure + * queues and interrupts. After these operations are complete, the VF + * driver may start its queues, optionally add MAC and VLAN filters, and + * process traffic. + */ + +/* START GENERIC DEFINES + * Need to ensure the following enums and defines hold the same meaning and + * value in current and future projects + */ + +#define VIRTCHNL_ETH_LENGTH_OF_ADDRESS 6 + +/* These macros are used to generate compilation errors if a structure/union + * is not exactly the correct length. It gives a divide by zero error if the + * structure/union is not of the correct size, otherwise it creates an enum + * that is never used. + */ +#define VIRTCHNL_CHECK_STRUCT_LEN(n, X) enum virtchnl_static_assert_enum_##X \ + { virtchnl_static_assert_##X = (n)/((sizeof(struct X) == (n)) ? 1 : 0) } +#define VIRTCHNL_CHECK_UNION_LEN(n, X) enum virtchnl_static_asset_enum_##X \ + { virtchnl_static_assert_##X = (n)/((sizeof(union X) == (n)) ? 1 : 0) } + + +/* Error Codes + * Note that many older versions of various iAVF drivers convert the reported + * status code directly into an iavf_status enumeration. For this reason, it + * is important that the values of these enumerations line up. + */ +enum virtchnl_status_code { + VIRTCHNL_STATUS_SUCCESS = 0, + VIRTCHNL_STATUS_ERR_PARAM = -5, + VIRTCHNL_STATUS_ERR_NO_MEMORY = -18, + VIRTCHNL_STATUS_ERR_OPCODE_MISMATCH = -38, + VIRTCHNL_STATUS_ERR_CQP_COMPL_ERROR = -39, + VIRTCHNL_STATUS_ERR_INVALID_VF_ID = -40, + VIRTCHNL_STATUS_ERR_ADMIN_QUEUE_ERROR = -53, + VIRTCHNL_STATUS_ERR_NOT_SUPPORTED = -64, +}; + +/* Backward compatibility */ +#define VIRTCHNL_ERR_PARAM VIRTCHNL_STATUS_ERR_PARAM +#define VIRTCHNL_STATUS_NOT_SUPPORTED VIRTCHNL_STATUS_ERR_NOT_SUPPORTED + +#define VIRTCHNL_LINK_SPEED_2_5GB_SHIFT 0x0 +#define VIRTCHNL_LINK_SPEED_100MB_SHIFT 0x1 +#define VIRTCHNL_LINK_SPEED_1000MB_SHIFT 0x2 +#define VIRTCHNL_LINK_SPEED_10GB_SHIFT 0x3 +#define VIRTCHNL_LINK_SPEED_40GB_SHIFT 0x4 +#define VIRTCHNL_LINK_SPEED_20GB_SHIFT 0x5 +#define VIRTCHNL_LINK_SPEED_25GB_SHIFT 0x6 +#define VIRTCHNL_LINK_SPEED_5GB_SHIFT 0x7 + +enum virtchnl_link_speed { + VIRTCHNL_LINK_SPEED_UNKNOWN = 0, + VIRTCHNL_LINK_SPEED_100MB = BIT(VIRTCHNL_LINK_SPEED_100MB_SHIFT), + VIRTCHNL_LINK_SPEED_1GB = BIT(VIRTCHNL_LINK_SPEED_1000MB_SHIFT), + VIRTCHNL_LINK_SPEED_10GB = BIT(VIRTCHNL_LINK_SPEED_10GB_SHIFT), + VIRTCHNL_LINK_SPEED_40GB = BIT(VIRTCHNL_LINK_SPEED_40GB_SHIFT), + VIRTCHNL_LINK_SPEED_20GB = BIT(VIRTCHNL_LINK_SPEED_20GB_SHIFT), + VIRTCHNL_LINK_SPEED_25GB = BIT(VIRTCHNL_LINK_SPEED_25GB_SHIFT), + VIRTCHNL_LINK_SPEED_2_5GB = BIT(VIRTCHNL_LINK_SPEED_2_5GB_SHIFT), + VIRTCHNL_LINK_SPEED_5GB = BIT(VIRTCHNL_LINK_SPEED_5GB_SHIFT), +}; + +/* for hsplit_0 field of Rx HMC context */ +/* deprecated with AVF 1.0 */ +enum virtchnl_rx_hsplit { + VIRTCHNL_RX_HSPLIT_NO_SPLIT = 0, + VIRTCHNL_RX_HSPLIT_SPLIT_L2 = 1, + VIRTCHNL_RX_HSPLIT_SPLIT_IP = 2, + VIRTCHNL_RX_HSPLIT_SPLIT_TCP_UDP = 4, + VIRTCHNL_RX_HSPLIT_SPLIT_SCTP = 8, +}; + +enum virtchnl_bw_limit_type { + VIRTCHNL_BW_SHAPER = 0, +}; +/* END GENERIC DEFINES */ + +/* Opcodes for VF-PF communication. These are placed in the v_opcode field + * of the virtchnl_msg structure. + */ +enum virtchnl_ops { +/* The PF sends status change events to VFs using + * the VIRTCHNL_OP_EVENT opcode. + * VFs send requests to the PF using the other ops. + * Use of "advanced opcode" features must be negotiated as part of capabilities + * exchange and are not considered part of base mode feature set. + * + */ + VIRTCHNL_OP_UNKNOWN = 0, + VIRTCHNL_OP_VERSION = 1, /* must ALWAYS be 1 */ + VIRTCHNL_OP_RESET_VF = 2, + VIRTCHNL_OP_GET_VF_RESOURCES = 3, + VIRTCHNL_OP_CONFIG_TX_QUEUE = 4, + VIRTCHNL_OP_CONFIG_RX_QUEUE = 5, + VIRTCHNL_OP_CONFIG_VSI_QUEUES = 6, + VIRTCHNL_OP_CONFIG_IRQ_MAP = 7, + VIRTCHNL_OP_ENABLE_QUEUES = 8, + VIRTCHNL_OP_DISABLE_QUEUES = 9, + VIRTCHNL_OP_ADD_ETH_ADDR = 10, + VIRTCHNL_OP_DEL_ETH_ADDR = 11, + VIRTCHNL_OP_ADD_VLAN = 12, + VIRTCHNL_OP_DEL_VLAN = 13, + VIRTCHNL_OP_CONFIG_PROMISCUOUS_MODE = 14, + VIRTCHNL_OP_GET_STATS = 15, + VIRTCHNL_OP_RSVD = 16, + VIRTCHNL_OP_EVENT = 17, /* must ALWAYS be 17 */ + /* opcode 19 is reserved */ + /* opcodes 20, 21, and 22 are reserved */ + VIRTCHNL_OP_CONFIG_RSS_KEY = 23, + VIRTCHNL_OP_CONFIG_RSS_LUT = 24, + VIRTCHNL_OP_GET_RSS_HENA_CAPS = 25, + VIRTCHNL_OP_SET_RSS_HENA = 26, + VIRTCHNL_OP_ENABLE_VLAN_STRIPPING = 27, + VIRTCHNL_OP_DISABLE_VLAN_STRIPPING = 28, + VIRTCHNL_OP_REQUEST_QUEUES = 29, + VIRTCHNL_OP_ENABLE_CHANNELS = 30, + VIRTCHNL_OP_DISABLE_CHANNELS = 31, + VIRTCHNL_OP_ADD_CLOUD_FILTER = 32, + VIRTCHNL_OP_DEL_CLOUD_FILTER = 33, + /* opcode 34 is reserved */ + /* opcodes 38, 39, 40, 41, 42 and 43 are reserved */ + /* opcode 44 is reserved */ + VIRTCHNL_OP_ADD_RSS_CFG = 45, + VIRTCHNL_OP_DEL_RSS_CFG = 46, + VIRTCHNL_OP_ADD_FDIR_FILTER = 47, + VIRTCHNL_OP_DEL_FDIR_FILTER = 48, + VIRTCHNL_OP_GET_MAX_RSS_QREGION = 50, + VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS = 51, + VIRTCHNL_OP_ADD_VLAN_V2 = 52, + VIRTCHNL_OP_DEL_VLAN_V2 = 53, + VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 = 54, + VIRTCHNL_OP_DISABLE_VLAN_STRIPPING_V2 = 55, + VIRTCHNL_OP_ENABLE_VLAN_INSERTION_V2 = 56, + VIRTCHNL_OP_DISABLE_VLAN_INSERTION_V2 = 57, + VIRTCHNL_OP_ENABLE_VLAN_FILTERING_V2 = 58, + VIRTCHNL_OP_DISABLE_VLAN_FILTERING_V2 = 59, + VIRTCHNL_OP_1588_PTP_GET_CAPS = 60, + VIRTCHNL_OP_1588_PTP_GET_TIME = 61, + VIRTCHNL_OP_1588_PTP_SET_TIME = 62, + VIRTCHNL_OP_1588_PTP_ADJ_TIME = 63, + VIRTCHNL_OP_1588_PTP_ADJ_FREQ = 64, + VIRTCHNL_OP_1588_PTP_TX_TIMESTAMP = 65, + VIRTCHNL_OP_GET_QOS_CAPS = 66, + VIRTCHNL_OP_CONFIG_QUEUE_TC_MAP = 67, + VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS = 68, + VIRTCHNL_OP_1588_PTP_SET_PIN_CFG = 69, + VIRTCHNL_OP_1588_PTP_EXT_TIMESTAMP = 70, + VIRTCHNL_OP_ENABLE_QUEUES_V2 = 107, + VIRTCHNL_OP_DISABLE_QUEUES_V2 = 108, + VIRTCHNL_OP_MAP_QUEUE_VECTOR = 111, + VIRTCHNL_OP_CONFIG_QUEUE_BW = 112, + VIRTCHNL_OP_CONFIG_QUANTA = 113, + VIRTCHNL_OP_MAX, +}; + +static inline const char *virtchnl_op_str(enum virtchnl_ops v_opcode) +{ + switch (v_opcode) { + case VIRTCHNL_OP_UNKNOWN: + return "VIRTCHNL_OP_UNKNOWN"; + case VIRTCHNL_OP_VERSION: + return "VIRTCHNL_OP_VERSION"; + case VIRTCHNL_OP_RESET_VF: + return "VIRTCHNL_OP_RESET_VF"; + case VIRTCHNL_OP_GET_VF_RESOURCES: + return "VIRTCHNL_OP_GET_VF_RESOURCES"; + case VIRTCHNL_OP_CONFIG_TX_QUEUE: + return "VIRTCHNL_OP_CONFIG_TX_QUEUE"; + case VIRTCHNL_OP_CONFIG_RX_QUEUE: + return "VIRTCHNL_OP_CONFIG_RX_QUEUE"; + case VIRTCHNL_OP_CONFIG_VSI_QUEUES: + return "VIRTCHNL_OP_CONFIG_VSI_QUEUES"; + case VIRTCHNL_OP_CONFIG_IRQ_MAP: + return "VIRTCHNL_OP_CONFIG_IRQ_MAP"; + case VIRTCHNL_OP_ENABLE_QUEUES: + return "VIRTCHNL_OP_ENABLE_QUEUES"; + case VIRTCHNL_OP_DISABLE_QUEUES: + return "VIRTCHNL_OP_DISABLE_QUEUES"; + case VIRTCHNL_OP_ADD_ETH_ADDR: + return "VIRTCHNL_OP_ADD_ETH_ADDR"; + case VIRTCHNL_OP_DEL_ETH_ADDR: + return "VIRTCHNL_OP_DEL_ETH_ADDR"; + case VIRTCHNL_OP_ADD_VLAN: + return "VIRTCHNL_OP_ADD_VLAN"; + case VIRTCHNL_OP_DEL_VLAN: + return "VIRTCHNL_OP_DEL_VLAN"; + case VIRTCHNL_OP_CONFIG_PROMISCUOUS_MODE: + return "VIRTCHNL_OP_CONFIG_PROMISCUOUS_MODE"; + case VIRTCHNL_OP_GET_STATS: + return "VIRTCHNL_OP_GET_STATS"; + case VIRTCHNL_OP_RSVD: + return "VIRTCHNL_OP_RSVD"; + case VIRTCHNL_OP_EVENT: + return "VIRTCHNL_OP_EVENT"; + case VIRTCHNL_OP_CONFIG_RSS_KEY: + return "VIRTCHNL_OP_CONFIG_RSS_KEY"; + case VIRTCHNL_OP_CONFIG_RSS_LUT: + return "VIRTCHNL_OP_CONFIG_RSS_LUT"; + case VIRTCHNL_OP_GET_RSS_HENA_CAPS: + return "VIRTCHNL_OP_GET_RSS_HENA_CAPS"; + case VIRTCHNL_OP_SET_RSS_HENA: + return "VIRTCHNL_OP_SET_RSS_HENA"; + case VIRTCHNL_OP_ENABLE_VLAN_STRIPPING: + return "VIRTCHNL_OP_ENABLE_VLAN_STRIPPING"; + case VIRTCHNL_OP_DISABLE_VLAN_STRIPPING: + return "VIRTCHNL_OP_DISABLE_VLAN_STRIPPING"; + case VIRTCHNL_OP_REQUEST_QUEUES: + return "VIRTCHNL_OP_REQUEST_QUEUES"; + case VIRTCHNL_OP_ENABLE_CHANNELS: + return "VIRTCHNL_OP_ENABLE_CHANNELS"; + case VIRTCHNL_OP_DISABLE_CHANNELS: + return "VIRTCHNL_OP_DISABLE_CHANNELS"; + case VIRTCHNL_OP_ADD_CLOUD_FILTER: + return "VIRTCHNL_OP_ADD_CLOUD_FILTER"; + case VIRTCHNL_OP_DEL_CLOUD_FILTER: + return "VIRTCHNL_OP_DEL_CLOUD_FILTER"; + case VIRTCHNL_OP_ADD_RSS_CFG: + return "VIRTCHNL_OP_ADD_RSS_CFG"; + case VIRTCHNL_OP_DEL_RSS_CFG: + return "VIRTCHNL_OP_DEL_RSS_CFG"; + case VIRTCHNL_OP_ADD_FDIR_FILTER: + return "VIRTCHNL_OP_ADD_FDIR_FILTER"; + case VIRTCHNL_OP_DEL_FDIR_FILTER: + return "VIRTCHNL_OP_DEL_FDIR_FILTER"; + case VIRTCHNL_OP_GET_MAX_RSS_QREGION: + return "VIRTCHNL_OP_GET_MAX_RSS_QREGION"; + case VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS: + return "VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS"; + case VIRTCHNL_OP_ADD_VLAN_V2: + return "VIRTCHNL_OP_ADD_VLAN_V2"; + case VIRTCHNL_OP_DEL_VLAN_V2: + return "VIRTCHNL_OP_DEL_VLAN_V2"; + case VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2: + return "VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2"; + case VIRTCHNL_OP_DISABLE_VLAN_STRIPPING_V2: + return "VIRTCHNL_OP_DISABLE_VLAN_STRIPPING_V2"; + case VIRTCHNL_OP_ENABLE_VLAN_INSERTION_V2: + return "VIRTCHNL_OP_ENABLE_VLAN_INSERTION_V2"; + case VIRTCHNL_OP_DISABLE_VLAN_INSERTION_V2: + return "VIRTCHNL_OP_DISABLE_VLAN_INSERTION_V2"; + case VIRTCHNL_OP_ENABLE_VLAN_FILTERING_V2: + return "VIRTCHNL_OP_ENABLE_VLAN_FILTERING_V2"; + case VIRTCHNL_OP_DISABLE_VLAN_FILTERING_V2: + return "VIRTCHNL_OP_DISABLE_VLAN_FILTERING_V2"; + case VIRTCHNL_OP_1588_PTP_GET_CAPS: + return "VIRTCHNL_OP_1588_PTP_GET_CAPS"; + case VIRTCHNL_OP_1588_PTP_GET_TIME: + return "VIRTCHNL_OP_1588_PTP_GET_TIME"; + case VIRTCHNL_OP_1588_PTP_SET_TIME: + return "VIRTCHNL_OP_1588_PTP_SET_TIME"; + case VIRTCHNL_OP_1588_PTP_ADJ_TIME: + return "VIRTCHNL_OP_1588_PTP_ADJ_TIME"; + case VIRTCHNL_OP_1588_PTP_ADJ_FREQ: + return "VIRTCHNL_OP_1588_PTP_ADJ_FREQ"; + case VIRTCHNL_OP_1588_PTP_TX_TIMESTAMP: + return "VIRTCHNL_OP_1588_PTP_TX_TIMESTAMP"; + case VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS: + return "VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS"; + case VIRTCHNL_OP_1588_PTP_SET_PIN_CFG: + return "VIRTCHNL_OP_1588_PTP_SET_PIN_CFG"; + case VIRTCHNL_OP_1588_PTP_EXT_TIMESTAMP: + return "VIRTCHNL_OP_1588_PTP_EXT_TIMESTAMP"; + case VIRTCHNL_OP_ENABLE_QUEUES_V2: + return "VIRTCHNL_OP_ENABLE_QUEUES_V2"; + case VIRTCHNL_OP_DISABLE_QUEUES_V2: + return "VIRTCHNL_OP_DISABLE_QUEUES_V2"; + case VIRTCHNL_OP_MAP_QUEUE_VECTOR: + return "VIRTCHNL_OP_MAP_QUEUE_VECTOR"; + case VIRTCHNL_OP_MAX: + return "VIRTCHNL_OP_MAX"; + default: + return "Unsupported (update virtchnl.h)"; + } +} + +static inline const char *virtchnl_stat_str(enum virtchnl_status_code v_status) +{ + switch (v_status) { + case VIRTCHNL_STATUS_SUCCESS: + return "VIRTCHNL_STATUS_SUCCESS"; + case VIRTCHNL_STATUS_ERR_PARAM: + return "VIRTCHNL_STATUS_ERR_PARAM"; + case VIRTCHNL_STATUS_ERR_NO_MEMORY: + return "VIRTCHNL_STATUS_ERR_NO_MEMORY"; + case VIRTCHNL_STATUS_ERR_OPCODE_MISMATCH: + return "VIRTCHNL_STATUS_ERR_OPCODE_MISMATCH"; + case VIRTCHNL_STATUS_ERR_CQP_COMPL_ERROR: + return "VIRTCHNL_STATUS_ERR_CQP_COMPL_ERROR"; + case VIRTCHNL_STATUS_ERR_INVALID_VF_ID: + return "VIRTCHNL_STATUS_ERR_INVALID_VF_ID"; + case VIRTCHNL_STATUS_ERR_ADMIN_QUEUE_ERROR: + return "VIRTCHNL_STATUS_ERR_ADMIN_QUEUE_ERROR"; + case VIRTCHNL_STATUS_ERR_NOT_SUPPORTED: + return "VIRTCHNL_STATUS_ERR_NOT_SUPPORTED"; + default: + return "Unknown status code (update virtchnl.h)"; + } +} + +/* Virtual channel message descriptor. This overlays the admin queue + * descriptor. All other data is passed in external buffers. + */ + +struct virtchnl_msg { + u8 pad[8]; /* AQ flags/opcode/len/retval fields */ + + /* avoid confusion with desc->opcode */ + enum virtchnl_ops v_opcode; + + /* ditto for desc->retval */ + enum virtchnl_status_code v_retval; + u32 vfid; /* used by PF when sending to VF */ +}; + +VIRTCHNL_CHECK_STRUCT_LEN(20, virtchnl_msg); + +/* Message descriptions and data structures. */ + +/* VIRTCHNL_OP_VERSION + * VF posts its version number to the PF. PF responds with its version number + * in the same format, along with a return code. + * Reply from PF has its major/minor versions also in param0 and param1. + * If there is a major version mismatch, then the VF cannot operate. + * If there is a minor version mismatch, then the VF can operate but should + * add a warning to the system log. + * + * This enum element MUST always be specified as == 1, regardless of other + * changes in the API. The PF must always respond to this message without + * error regardless of version mismatch. + */ +#define VIRTCHNL_VERSION_MAJOR 1 +#define VIRTCHNL_VERSION_MINOR 1 +#define VIRTCHNL_VERSION_MAJOR_2 2 +#define VIRTCHNL_VERSION_MINOR_0 0 +#define VIRTCHNL_VERSION_MINOR_NO_VF_CAPS 0 + +struct virtchnl_version_info { + u32 major; + u32 minor; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_version_info); + +#define VF_IS_V10(_ver) (((_ver)->major == 1) && ((_ver)->minor == 0)) +#define VF_IS_V11(_ver) (((_ver)->major == 1) && ((_ver)->minor == 1)) +#define VF_IS_V20(_ver) (((_ver)->major == 2) && ((_ver)->minor == 0)) + +/* VIRTCHNL_OP_RESET_VF + * VF sends this request to PF with no parameters + * PF does NOT respond! VF driver must delay then poll VFGEN_RSTAT register + * until reset completion is indicated. The admin queue must be reinitialized + * after this operation. + * + * When reset is complete, PF must ensure that all queues in all VSIs associated + * with the VF are stopped, all queue configurations in the HMC are set to 0, + * and all MAC and VLAN filters (except the default MAC address) on all VSIs + * are cleared. + */ + +/* VSI types that use VIRTCHNL interface for VF-PF communication. VSI_SRIOV + * vsi_type should always be 6 for backward compatibility. Add other fields + * as needed. + */ +enum virtchnl_vsi_type { + VIRTCHNL_VSI_TYPE_INVALID = 0, + VIRTCHNL_VSI_SRIOV = 6, +}; + +/* VIRTCHNL_OP_GET_VF_RESOURCES + * Version 1.0 VF sends this request to PF with no parameters + * Version 1.1 VF sends this request to PF with u32 bitmap of its capabilities + * PF responds with an indirect message containing + * virtchnl_vf_resource and one or more + * virtchnl_vsi_resource structures. + */ + +struct virtchnl_vsi_resource { + u16 vsi_id; + u16 num_queue_pairs; + + /* see enum virtchnl_vsi_type */ + s32 vsi_type; + u16 qset_handle; + u8 default_mac_addr[VIRTCHNL_ETH_LENGTH_OF_ADDRESS]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_vsi_resource); + +/* VF capability flags + * VIRTCHNL_VF_OFFLOAD_L2 flag is inclusive of base mode L2 offloads including + * TX/RX Checksum offloading and TSO for non-tunnelled packets. + */ +#define VIRTCHNL_VF_OFFLOAD_L2 BIT(0) +#define VIRTCHNL_VF_OFFLOAD_IWARP BIT(1) +#define VIRTCHNL_VF_CAP_RDMA VIRTCHNL_VF_OFFLOAD_IWARP +#define VIRTCHNL_VF_OFFLOAD_RSS_AQ BIT(3) +#define VIRTCHNL_VF_OFFLOAD_RSS_REG BIT(4) +#define VIRTCHNL_VF_OFFLOAD_WB_ON_ITR BIT(5) +#define VIRTCHNL_VF_OFFLOAD_REQ_QUEUES BIT(6) +/* used to negotiate communicating link speeds in Mbps */ +#define VIRTCHNL_VF_CAP_ADV_LINK_SPEED BIT(7) + /* BIT(8) is reserved */ +#define VIRTCHNL_VF_LARGE_NUM_QPAIRS BIT(9) +#define VIRTCHNL_VF_OFFLOAD_CRC BIT(10) +#define VIRTCHNL_VF_OFFLOAD_VLAN_V2 BIT(15) +#define VIRTCHNL_VF_OFFLOAD_VLAN BIT(16) +#define VIRTCHNL_VF_OFFLOAD_RX_POLLING BIT(17) +#define VIRTCHNL_VF_OFFLOAD_RSS_PCTYPE_V2 BIT(18) +#define VIRTCHNL_VF_OFFLOAD_RSS_PF BIT(19) +#define VIRTCHNL_VF_OFFLOAD_ENCAP BIT(20) +#define VIRTCHNL_VF_OFFLOAD_ENCAP_CSUM BIT(21) +#define VIRTCHNL_VF_OFFLOAD_RX_ENCAP_CSUM BIT(22) +#define VIRTCHNL_VF_OFFLOAD_ADQ BIT(23) +#define VIRTCHNL_VF_OFFLOAD_ADQ_V2 BIT(24) +#define VIRTCHNL_VF_OFFLOAD_USO BIT(25) + /* BIT(26) is reserved */ +#define VIRTCHNL_VF_OFFLOAD_ADV_RSS_PF BIT(27) +#define VIRTCHNL_VF_OFFLOAD_FDIR_PF BIT(28) +#define VIRTCHNL_VF_OFFLOAD_QOS BIT(29) + /* BIT(30) is reserved */ +#define VIRTCHNL_VF_CAP_PTP BIT(31) + +#define VF_BASE_MODE_OFFLOADS (VIRTCHNL_VF_OFFLOAD_L2 | \ + VIRTCHNL_VF_OFFLOAD_VLAN | \ + VIRTCHNL_VF_OFFLOAD_RSS_PF) + +struct virtchnl_vf_resource { + u16 num_vsis; + u16 num_queue_pairs; + u16 max_vectors; + u16 max_mtu; + + u32 vf_cap_flags; + u32 rss_key_size; + u32 rss_lut_size; + + struct virtchnl_vsi_resource vsi_res[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(36, virtchnl_vf_resource); + +/* VIRTCHNL_OP_CONFIG_TX_QUEUE + * VF sends this message to set up parameters for one TX queue. + * External data buffer contains one instance of virtchnl_txq_info. + * PF configures requested queue and returns a status code. + */ + +/* Tx queue config info */ +struct virtchnl_txq_info { + u16 vsi_id; + u16 queue_id; + u16 ring_len; /* number of descriptors, multiple of 8 */ + u16 headwb_enabled; /* deprecated with AVF 1.0 */ + u64 dma_ring_addr; + u64 dma_headwb_addr; /* deprecated with AVF 1.0 */ +}; + +VIRTCHNL_CHECK_STRUCT_LEN(24, virtchnl_txq_info); + +/* RX descriptor IDs (range from 0 to 63) */ +enum virtchnl_rx_desc_ids { + VIRTCHNL_RXDID_0_16B_BASE = 0, + VIRTCHNL_RXDID_1_32B_BASE = 1, + VIRTCHNL_RXDID_2_FLEX_SQ_NIC = 2, + VIRTCHNL_RXDID_3_FLEX_SQ_SW = 3, + VIRTCHNL_RXDID_4_FLEX_SQ_NIC_VEB = 4, + VIRTCHNL_RXDID_5_FLEX_SQ_NIC_ACL = 5, + VIRTCHNL_RXDID_6_FLEX_SQ_NIC_2 = 6, + VIRTCHNL_RXDID_7_HW_RSVD = 7, + /* 8 through 15 are reserved */ + VIRTCHNL_RXDID_16_COMMS_GENERIC = 16, + VIRTCHNL_RXDID_17_COMMS_AUX_VLAN = 17, + VIRTCHNL_RXDID_18_COMMS_AUX_IPV4 = 18, + VIRTCHNL_RXDID_19_COMMS_AUX_IPV6 = 19, + VIRTCHNL_RXDID_20_COMMS_AUX_FLOW = 20, + VIRTCHNL_RXDID_21_COMMS_AUX_TCP = 21, + /* 22 through 63 are reserved */ +}; + +/* RX descriptor ID bitmasks */ +enum virtchnl_rx_desc_id_bitmasks { + VIRTCHNL_RXDID_0_16B_BASE_M = BIT(VIRTCHNL_RXDID_0_16B_BASE), + VIRTCHNL_RXDID_1_32B_BASE_M = BIT(VIRTCHNL_RXDID_1_32B_BASE), + VIRTCHNL_RXDID_2_FLEX_SQ_NIC_M = BIT(VIRTCHNL_RXDID_2_FLEX_SQ_NIC), + VIRTCHNL_RXDID_3_FLEX_SQ_SW_M = BIT(VIRTCHNL_RXDID_3_FLEX_SQ_SW), + VIRTCHNL_RXDID_4_FLEX_SQ_NIC_VEB_M = BIT(VIRTCHNL_RXDID_4_FLEX_SQ_NIC_VEB), + VIRTCHNL_RXDID_5_FLEX_SQ_NIC_ACL_M = BIT(VIRTCHNL_RXDID_5_FLEX_SQ_NIC_ACL), + VIRTCHNL_RXDID_6_FLEX_SQ_NIC_2_M = BIT(VIRTCHNL_RXDID_6_FLEX_SQ_NIC_2), + VIRTCHNL_RXDID_7_HW_RSVD_M = BIT(VIRTCHNL_RXDID_7_HW_RSVD), + /* 9 through 15 are reserved */ + VIRTCHNL_RXDID_16_COMMS_GENERIC_M = BIT(VIRTCHNL_RXDID_16_COMMS_GENERIC), + VIRTCHNL_RXDID_17_COMMS_AUX_VLAN_M = BIT(VIRTCHNL_RXDID_17_COMMS_AUX_VLAN), + VIRTCHNL_RXDID_18_COMMS_AUX_IPV4_M = BIT(VIRTCHNL_RXDID_18_COMMS_AUX_IPV4), + VIRTCHNL_RXDID_19_COMMS_AUX_IPV6_M = BIT(VIRTCHNL_RXDID_19_COMMS_AUX_IPV6), + VIRTCHNL_RXDID_20_COMMS_AUX_FLOW_M = BIT(VIRTCHNL_RXDID_20_COMMS_AUX_FLOW), + VIRTCHNL_RXDID_21_COMMS_AUX_TCP_M = BIT(VIRTCHNL_RXDID_21_COMMS_AUX_TCP), + /* 22 through 63 are reserved */ +}; + +/* virtchnl_rxq_info_flags + * + * Definition of bits in the flags field of the virtchnl_rxq_info structure. + */ +enum virtchnl_rxq_info_flags { + /* If the VIRTCHNL_PTP_RX_TSTAMP bit of the flag field is set, this is + * a request to enable Rx timestamp. Other flag bits are currently + * reserved and they may be extended in the future. + */ + VIRTCHNL_PTP_RX_TSTAMP = BIT(0), +}; + +/* VIRTCHNL_OP_CONFIG_RX_QUEUE + * VF sends this message to set up parameters for one RX queue. + * External data buffer contains one instance of virtchnl_rxq_info. + * PF configures requested queue and returns a status code. The + * crc_disable flag disables CRC stripping on the VF. Setting + * the crc_disable flag to 1 will disable CRC stripping for each + * queue in the VF where the flag is set. The VIRTCHNL_VF_OFFLOAD_CRC + * offload must have been set prior to sending this info or the PF + * will ignore the request. This flag should be set the same for + * all of the queues for a VF. + */ + +/* Rx queue config info */ +struct virtchnl_rxq_info { + u16 vsi_id; + u16 queue_id; + u32 ring_len; /* number of descriptors, multiple of 32 */ + u16 hdr_size; + u16 splithdr_enabled; /* deprecated with AVF 1.0 */ + u32 databuffer_size; + u32 max_pkt_size; + u8 crc_disable; + u8 pad1[3]; + u64 dma_ring_addr; + + /* see enum virtchnl_rx_hsplit; deprecated with AVF 1.0 */ + s32 rx_split_pos; + u32 pad2; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(40, virtchnl_rxq_info); + +/* VIRTCHNL_OP_CONFIG_VSI_QUEUES + * VF sends this message to set parameters for active TX and RX queues + * associated with the specified VSI. + * PF configures queues and returns status. + * If the number of queues specified is greater than the number of queues + * associated with the VSI, an error is returned and no queues are configured. + * NOTE: The VF is not required to configure all queues in a single request. + * It may send multiple messages. PF drivers must correctly handle all VF + * requests. + */ +struct virtchnl_queue_pair_info { + /* NOTE: vsi_id and queue_id should be identical for both queues. */ + struct virtchnl_txq_info txq; + struct virtchnl_rxq_info rxq; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(64, virtchnl_queue_pair_info); + +struct virtchnl_vsi_queue_config_info { + u16 vsi_id; + u16 num_queue_pairs; + u32 pad; + struct virtchnl_queue_pair_info qpair[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(72, virtchnl_vsi_queue_config_info); + +/* VIRTCHNL_OP_REQUEST_QUEUES + * VF sends this message to request the PF to allocate additional queues to + * this VF. Each VF gets a guaranteed number of queues on init but asking for + * additional queues must be negotiated. This is a best effort request as it + * is possible the PF does not have enough queues left to support the request. + * If the PF cannot support the number requested it will respond with the + * maximum number it is able to support. If the request is successful, PF will + * then reset the VF to institute required changes. + */ + +/* VF resource request */ +struct virtchnl_vf_res_request { + u16 num_queue_pairs; +}; + +/* VIRTCHNL_OP_CONFIG_IRQ_MAP + * VF uses this message to map vectors to queues. + * The rxq_map and txq_map fields are bitmaps used to indicate which queues + * are to be associated with the specified vector. + * The "other" causes are always mapped to vector 0. The VF may not request + * that vector 0 be used for traffic. + * PF configures interrupt mapping and returns status. + * NOTE: due to hardware requirements, all active queues (both TX and RX) + * should be mapped to interrupts, even if the driver intends to operate + * only in polling mode. In this case the interrupt may be disabled, but + * the ITR timer will still run to trigger writebacks. + */ +struct virtchnl_vector_map { + u16 vsi_id; + u16 vector_id; + u16 rxq_map; + u16 txq_map; + u16 rxitr_idx; + u16 txitr_idx; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_vector_map); + +struct virtchnl_irq_map_info { + u16 num_vectors; + struct virtchnl_vector_map vecmap[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(14, virtchnl_irq_map_info); + +/* VIRTCHNL_OP_ENABLE_QUEUES + * VIRTCHNL_OP_DISABLE_QUEUES + * VF sends these message to enable or disable TX/RX queue pairs. + * The queues fields are bitmaps indicating which queues to act upon. + * (Currently, we only support 16 queues per VF, but we make the field + * u32 to allow for expansion.) + * PF performs requested action and returns status. + * NOTE: The VF is not required to enable/disable all queues in a single + * request. It may send multiple messages. + * PF drivers must correctly handle all VF requests. + */ +struct virtchnl_queue_select { + u16 vsi_id; + u16 pad; + u32 rx_queues; + u32 tx_queues; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_queue_select); + +/* VIRTCHNL_OP_GET_MAX_RSS_QREGION + * + * if VIRTCHNL_VF_LARGE_NUM_QPAIRS was negotiated in VIRTCHNL_OP_GET_VF_RESOURCES + * then this op must be supported. + * + * VF sends this message in order to query the max RSS queue region + * size supported by PF, when VIRTCHNL_VF_LARGE_NUM_QPAIRS is enabled. + * This information should be used when configuring the RSS LUT and/or + * configuring queue region based filters. + * + * The maximum RSS queue region is 2^qregion_width. So, a qregion_width + * of 6 would inform the VF that the PF supports a maximum RSS queue region + * of 64. + * + * A queue region represents a range of queues that can be used to configure + * a RSS LUT. For example, if a VF is given 64 queues, but only a max queue + * region size of 16 (i.e. 2^qregion_width = 16) then it will only be able + * to configure the RSS LUT with queue indices from 0 to 15. However, other + * filters can be used to direct packets to queues >15 via specifying a queue + * base/offset and queue region width. + */ +struct virtchnl_max_rss_qregion { + u16 vport_id; + u16 qregion_width; + u8 pad[4]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_max_rss_qregion); + +/* VIRTCHNL_OP_ADD_ETH_ADDR + * VF sends this message in order to add one or more unicast or multicast + * address filters for the specified VSI. + * PF adds the filters and returns status. + */ + +/* VIRTCHNL_OP_DEL_ETH_ADDR + * VF sends this message in order to remove one or more unicast or multicast + * filters for the specified VSI. + * PF removes the filters and returns status. + */ + +/* VIRTCHNL_ETHER_ADDR_LEGACY + * Prior to adding the @type member to virtchnl_ether_addr, there were 2 pad + * bytes. Moving forward all VF drivers should not set type to + * VIRTCHNL_ETHER_ADDR_LEGACY. This is only here to not break previous/legacy + * behavior. The control plane function (i.e. PF) can use a best effort method + * of tracking the primary/device unicast in this case, but there is no + * guarantee and functionality depends on the implementation of the PF. + */ + +/* VIRTCHNL_ETHER_ADDR_PRIMARY + * All VF drivers should set @type to VIRTCHNL_ETHER_ADDR_PRIMARY for the + * primary/device unicast MAC address filter for VIRTCHNL_OP_ADD_ETH_ADDR and + * VIRTCHNL_OP_DEL_ETH_ADDR. This allows for the underlying control plane + * function (i.e. PF) to accurately track and use this MAC address for + * displaying on the host and for VM/function reset. + */ + +/* VIRTCHNL_ETHER_ADDR_EXTRA + * All VF drivers should set @type to VIRTCHNL_ETHER_ADDR_EXTRA for any extra + * unicast and/or multicast filters that are being added/deleted via + * VIRTCHNL_OP_DEL_ETH_ADDR/VIRTCHNL_OP_ADD_ETH_ADDR respectively. + */ +struct virtchnl_ether_addr { + u8 addr[VIRTCHNL_ETH_LENGTH_OF_ADDRESS]; + u8 type; +#define VIRTCHNL_ETHER_ADDR_LEGACY 0 +#define VIRTCHNL_ETHER_ADDR_PRIMARY 1 +#define VIRTCHNL_ETHER_ADDR_EXTRA 2 +#define VIRTCHNL_ETHER_ADDR_TYPE_MASK 3 /* first two bits of type are valid */ + u8 pad; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_ether_addr); + +struct virtchnl_ether_addr_list { + u16 vsi_id; + u16 num_elements; + struct virtchnl_ether_addr list[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_ether_addr_list); + +/* VIRTCHNL_OP_ADD_VLAN + * VF sends this message to add one or more VLAN tag filters for receives. + * PF adds the filters and returns status. + * If a port VLAN is configured by the PF, this operation will return an + * error to the VF. + */ + +/* VIRTCHNL_OP_DEL_VLAN + * VF sends this message to remove one or more VLAN tag filters for receives. + * PF removes the filters and returns status. + * If a port VLAN is configured by the PF, this operation will return an + * error to the VF. + */ + +struct virtchnl_vlan_filter_list { + u16 vsi_id; + u16 num_elements; + u16 vlan_id[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(6, virtchnl_vlan_filter_list); + +/* This enum is used for all of the VIRTCHNL_VF_OFFLOAD_VLAN_V2_CAPS related + * structures and opcodes. + * + * VIRTCHNL_VLAN_UNSUPPORTED - This field is not supported and if a VF driver + * populates it the PF should return VIRTCHNL_STATUS_ERR_NOT_SUPPORTED. + * + * VIRTCHNL_VLAN_ETHERTYPE_8100 - This field supports 0x8100 ethertype. + * VIRTCHNL_VLAN_ETHERTYPE_88A8 - This field supports 0x88A8 ethertype. + * VIRTCHNL_VLAN_ETHERTYPE_9100 - This field supports 0x9100 ethertype. + * + * VIRTCHNL_VLAN_ETHERTYPE_AND - Used when multiple ethertypes can be supported + * by the PF concurrently. For example, if the PF can support + * VIRTCHNL_VLAN_ETHERTYPE_8100 AND VIRTCHNL_VLAN_ETHERTYPE_88A8 filters it + * would OR the following bits: + * + * VIRTHCNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_AND; + * + * The VF would interpret this as VLAN filtering can be supported on both 0x8100 + * and 0x88A8 VLAN ethertypes. + * + * VIRTCHNL_ETHERTYPE_XOR - Used when only a single ethertype can be supported + * by the PF concurrently. For example if the PF can support + * VIRTCHNL_VLAN_ETHERTYPE_8100 XOR VIRTCHNL_VLAN_ETHERTYPE_88A8 stripping + * offload it would OR the following bits: + * + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_XOR; + * + * The VF would interpret this as VLAN stripping can be supported on either + * 0x8100 or 0x88a8 VLAN ethertypes. So when requesting VLAN stripping via + * VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 the specified ethertype will override + * the previously set value. + * + * VIRTCHNL_VLAN_TAG_LOCATION_L2TAG1 - Used to tell the VF to insert and/or + * strip the VLAN tag using the L2TAG1 field of the Tx/Rx descriptors. + * + * VIRTCHNL_VLAN_TAG_LOCATION_L2TAG2 - Used to tell the VF to insert hardware + * offloaded VLAN tags using the L2TAG2 field of the Tx descriptor. + * + * VIRTCHNL_VLAN_TAG_LOCATION_L2TAG2 - Used to tell the VF to strip hardware + * offloaded VLAN tags using the L2TAG2_2 field of the Rx descriptor. + * + * VIRTCHNL_VLAN_PRIO - This field supports VLAN priority bits. This is used for + * VLAN filtering if the underlying PF supports it. + * + * VIRTCHNL_VLAN_TOGGLE_ALLOWED - This field is used to say whether a + * certain VLAN capability can be toggled. For example if the underlying PF/CP + * allows the VF to toggle VLAN filtering, stripping, and/or insertion it should + * set this bit along with the supported ethertypes. + */ +enum virtchnl_vlan_support { + VIRTCHNL_VLAN_UNSUPPORTED = 0, + VIRTCHNL_VLAN_ETHERTYPE_8100 = 0x00000001, + VIRTCHNL_VLAN_ETHERTYPE_88A8 = 0x00000002, + VIRTCHNL_VLAN_ETHERTYPE_9100 = 0x00000004, + VIRTCHNL_VLAN_TAG_LOCATION_L2TAG1 = 0x00000100, + VIRTCHNL_VLAN_TAG_LOCATION_L2TAG2 = 0x00000200, + VIRTCHNL_VLAN_TAG_LOCATION_L2TAG2_2 = 0x00000400, + VIRTCHNL_VLAN_PRIO = 0x01000000, + VIRTCHNL_VLAN_FILTER_MASK = 0x10000000, + VIRTCHNL_VLAN_ETHERTYPE_AND = 0x20000000, + VIRTCHNL_VLAN_ETHERTYPE_XOR = 0x40000000, + VIRTCHNL_VLAN_TOGGLE = 0x80000000 +}; + +/* This structure is used as part of the VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS + * for filtering, insertion, and stripping capabilities. + * + * If only outer capabilities are supported (for filtering, insertion, and/or + * stripping) then this refers to the outer most or single VLAN from the VF's + * perspective. + * + * If only inner capabilities are supported (for filtering, insertion, and/or + * stripping) then this refers to the outer most or single VLAN from the VF's + * perspective. Functionally this is the same as if only outer capabilities are + * supported. The VF driver is just forced to use the inner fields when + * adding/deleting filters and enabling/disabling offloads (if supported). + * + * If both outer and inner capabilities are supported (for filtering, insertion, + * and/or stripping) then outer refers to the outer most or single VLAN and + * inner refers to the second VLAN, if it exists, in the packet. + * + * There is no support for tunneled VLAN offloads, so outer or inner are never + * referring to a tunneled packet from the VF's perspective. + */ +struct virtchnl_vlan_supported_caps { + u32 outer; + u32 inner; +}; + +/* The PF populates these fields based on the supported VLAN filtering. If a + * field is VIRTCHNL_VLAN_UNSUPPORTED then it's not supported and the PF will + * reject any VIRTCHNL_OP_ADD_VLAN_V2 or VIRTCHNL_OP_DEL_VLAN_V2 messages using + * the unsupported fields. + * + * Also, a VF is only allowed to toggle its VLAN filtering setting if the + * VIRTCHNL_VLAN_TOGGLE bit is set. + * + * The ethertype(s) specified in the ethertype_init field are the ethertypes + * enabled for VLAN filtering. VLAN filtering in this case refers to the outer + * most VLAN from the VF's perspective. If both inner and outer filtering are + * allowed then ethertype_init only refers to the outer most VLAN as only + * VLAN ethertype supported for inner VLAN filtering is + * VIRTCHNL_VLAN_ETHERTYPE_8100. By default, inner VLAN filtering is disabled + * when both inner and outer filtering are allowed. + * + * The max_filters field tells the VF how many VLAN filters it's allowed to have + * at any one time. If it exceeds this amount and tries to add another filter, + * then the request will be rejected by the PF. To prevent failures, the VF + * should keep track of how many VLAN filters it has added and not attempt to + * add more than max_filters. + */ +struct virtchnl_vlan_filtering_caps { + struct virtchnl_vlan_supported_caps filtering_support; + u32 ethertype_init; + u16 max_filters; + u8 pad[2]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_vlan_filtering_caps); + +/* This enum is used for the virtchnl_vlan_offload_caps structure to specify + * if the PF supports a different ethertype for stripping and insertion. + * + * VIRTCHNL_ETHERTYPE_STRIPPING_MATCHES_INSERTION - The ethertype(s) specified + * for stripping affect the ethertype(s) specified for insertion and visa versa + * as well. If the VF tries to configure VLAN stripping via + * VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 with VIRTCHNL_VLAN_ETHERTYPE_8100 then + * that will be the ethertype for both stripping and insertion. + * + * VIRTCHNL_ETHERTYPE_MATCH_NOT_REQUIRED - The ethertype(s) specified for + * stripping do not affect the ethertype(s) specified for insertion and visa + * versa. + */ +enum virtchnl_vlan_ethertype_match { + VIRTCHNL_ETHERTYPE_STRIPPING_MATCHES_INSERTION = 0, + VIRTCHNL_ETHERTYPE_MATCH_NOT_REQUIRED = 1, +}; + +/* The PF populates these fields based on the supported VLAN offloads. If a + * field is VIRTCHNL_VLAN_UNSUPPORTED then it's not supported and the PF will + * reject any VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 or + * VIRTCHNL_OP_DISABLE_VLAN_STRIPPING_V2 messages using the unsupported fields. + * + * Also, a VF is only allowed to toggle its VLAN offload setting if the + * VIRTCHNL_VLAN_TOGGLE_ALLOWED bit is set. + * + * The VF driver needs to be aware of how the tags are stripped by hardware and + * inserted by the VF driver based on the level of offload support. The PF will + * populate these fields based on where the VLAN tags are expected to be + * offloaded via the VIRTHCNL_VLAN_TAG_LOCATION_* bits. The VF will need to + * interpret these fields. See the definition of the + * VIRTCHNL_VLAN_TAG_LOCATION_* bits above the virtchnl_vlan_support + * enumeration. + */ +struct virtchnl_vlan_offload_caps { + struct virtchnl_vlan_supported_caps stripping_support; + struct virtchnl_vlan_supported_caps insertion_support; + u32 ethertype_init; + u8 ethertype_match; + u8 pad[3]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(24, virtchnl_vlan_offload_caps); + +/* VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS + * VF sends this message to determine its VLAN capabilities. + * + * PF will mark which capabilities it supports based on hardware support and + * current configuration. For example, if a port VLAN is configured the PF will + * not allow outer VLAN filtering, stripping, or insertion to be configured so + * it will block these features from the VF. + * + * The VF will need to cross reference its capabilities with the PFs + * capabilities in the response message from the PF to determine the VLAN + * support. + */ +struct virtchnl_vlan_caps { + struct virtchnl_vlan_filtering_caps filtering; + struct virtchnl_vlan_offload_caps offloads; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(40, virtchnl_vlan_caps); + +struct virtchnl_vlan { + u16 tci; /* tci[15:13] = PCP and tci[11:0] = VID */ + u16 tci_mask; /* only valid if VIRTCHNL_VLAN_FILTER_MASK set in + * filtering caps + */ + u16 tpid; /* 0x8100, 0x88a8, etc. and only type(s) set in + * filtering caps. Note that tpid here does not refer to + * VIRTCHNL_VLAN_ETHERTYPE_*, but it refers to the + * actual 2-byte VLAN TPID + */ + u8 pad[2]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_vlan); + +struct virtchnl_vlan_filter { + struct virtchnl_vlan inner; + struct virtchnl_vlan outer; + u8 pad[16]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(32, virtchnl_vlan_filter); + +/* VIRTCHNL_OP_ADD_VLAN_V2 + * VIRTCHNL_OP_DEL_VLAN_V2 + * + * VF sends these messages to add/del one or more VLAN tag filters for Rx + * traffic. + * + * The PF attempts to add the filters and returns status. + * + * The VF should only ever attempt to add/del virtchnl_vlan_filter(s) using the + * supported fields negotiated via VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS. + */ +struct virtchnl_vlan_filter_list_v2 { + u16 vport_id; + u16 num_elements; + u8 pad[4]; + struct virtchnl_vlan_filter filters[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(40, virtchnl_vlan_filter_list_v2); + +/* VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 + * VIRTCHNL_OP_DISABLE_VLAN_STRIPPING_V2 + * VIRTCHNL_OP_ENABLE_VLAN_INSERTION_V2 + * VIRTCHNL_OP_DISABLE_VLAN_INSERTION_V2 + * + * VF sends this message to enable or disable VLAN stripping or insertion. It + * also needs to specify an ethertype. The VF knows which VLAN ethertypes are + * allowed and whether or not it's allowed to enable/disable the specific + * offload via the VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS message. The VF needs to + * parse the virtchnl_vlan_caps.offloads fields to determine which offload + * messages are allowed. + * + * For example, if the PF populates the virtchnl_vlan_caps.offloads in the + * following manner the VF will be allowed to enable and/or disable 0x8100 inner + * VLAN insertion and/or stripping via the opcodes listed above. Inner in this + * case means the outer most or single VLAN from the VF's perspective. This is + * because no outer offloads are supported. See the comments above the + * virtchnl_vlan_supported_caps structure for more details. + * + * virtchnl_vlan_caps.offloads.stripping_support.inner = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100; + * + * virtchnl_vlan_caps.offloads.insertion_support.inner = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100; + * + * In order to enable inner (again note that in this case inner is the outer + * most or single VLAN from the VF's perspective) VLAN stripping for 0x8100 + * VLANs, the VF would populate the virtchnl_vlan_setting structure in the + * following manner and send the VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 message. + * + * virtchnl_vlan_setting.inner_ethertype_setting = + * VIRTCHNL_VLAN_ETHERTYPE_8100; + * + * virtchnl_vlan_setting.vport_id = vport_id or vsi_id assigned to the VF on + * initialization. + * + * The reason that VLAN TPID(s) are not being used for the + * outer_ethertype_setting and inner_ethertype_setting fields is because it's + * possible a device could support VLAN insertion and/or stripping offload on + * multiple ethertypes concurrently, so this method allows a VF to request + * multiple ethertypes in one message using the virtchnl_vlan_support + * enumeration. + * + * For example, if the PF populates the virtchnl_vlan_caps.offloads in the + * following manner the VF will be allowed to enable 0x8100 and 0x88a8 outer + * VLAN insertion and stripping simultaneously. The + * virtchnl_vlan_caps.offloads.ethertype_match field will also have to be + * populated based on what the PF can support. + * + * virtchnl_vlan_caps.offloads.stripping_support.outer = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_AND; + * + * virtchnl_vlan_caps.offloads.insertion_support.outer = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_AND; + * + * In order to enable outer VLAN stripping for 0x8100 and 0x88a8 VLANs, the VF + * would populate the virthcnl_vlan_offload_structure in the following manner + * and send the VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2 message. + * + * virtchnl_vlan_setting.outer_ethertype_setting = + * VIRTHCNL_VLAN_ETHERTYPE_8100 | + * VIRTHCNL_VLAN_ETHERTYPE_88A8; + * + * virtchnl_vlan_setting.vport_id = vport_id or vsi_id assigned to the VF on + * initialization. + * + * There is also the case where a PF and the underlying hardware can support + * VLAN offloads on multiple ethertypes, but not concurrently. For example, if + * the PF populates the virtchnl_vlan_caps.offloads in the following manner the + * VF will be allowed to enable and/or disable 0x8100 XOR 0x88a8 outer VLAN + * offloads. The ethertypes must match for stripping and insertion. + * + * virtchnl_vlan_caps.offloads.stripping_support.outer = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_XOR; + * + * virtchnl_vlan_caps.offloads.insertion_support.outer = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_XOR; + * + * virtchnl_vlan_caps.offloads.ethertype_match = + * VIRTCHNL_ETHERTYPE_STRIPPING_MATCHES_INSERTION; + * + * In order to enable outer VLAN stripping for 0x88a8 VLANs, the VF would + * populate the virtchnl_vlan_setting structure in the following manner and send + * the VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2. Also, this will change the + * ethertype for VLAN insertion if it's enabled. So, for completeness, a + * VIRTCHNL_OP_ENABLE_VLAN_INSERTION_V2 with the same ethertype should be sent. + * + * virtchnl_vlan_setting.outer_ethertype_setting = VIRTHCNL_VLAN_ETHERTYPE_88A8; + * + * virtchnl_vlan_setting.vport_id = vport_id or vsi_id assigned to the VF on + * initialization. + * + * VIRTCHNL_OP_ENABLE_VLAN_FILTERING_V2 + * VIRTCHNL_OP_DISABLE_VLAN_FILTERING_V2 + * + * VF sends this message to enable or disable VLAN filtering. It also needs to + * specify an ethertype. The VF knows which VLAN ethertypes are allowed and + * whether or not it's allowed to enable/disable filtering via the + * VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS message. The VF needs to + * parse the virtchnl_vlan_caps.filtering fields to determine which, if any, + * filtering messages are allowed. + * + * For example, if the PF populates the virtchnl_vlan_caps.filtering in the + * following manner the VF will be allowed to enable/disable 0x8100 and 0x88a8 + * outer VLAN filtering together. Note, that the VIRTCHNL_VLAN_ETHERTYPE_AND + * means that all filtering ethertypes will to be enabled and disabled together + * regardless of the request from the VF. This means that the underlying + * hardware only supports VLAN filtering for all VLAN the specified ethertypes + * or none of them. + * + * virtchnl_vlan_caps.filtering.filtering_support.outer = + * VIRTCHNL_VLAN_TOGGLE | + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTHCNL_VLAN_ETHERTYPE_88A8 | + * VIRTCHNL_VLAN_ETHERTYPE_9100 | + * VIRTCHNL_VLAN_ETHERTYPE_AND; + * + * In order to enable outer VLAN filtering for 0x88a8 and 0x8100 VLANs (0x9100 + * VLANs aren't supported by the VF driver), the VF would populate the + * virtchnl_vlan_setting structure in the following manner and send the + * VIRTCHNL_OP_ENABLE_VLAN_FILTERING_V2. The same message format would be used + * to disable outer VLAN filtering for 0x88a8 and 0x8100 VLANs, but the + * VIRTCHNL_OP_DISABLE_VLAN_FILTERING_V2 opcode is used. + * + * virtchnl_vlan_setting.outer_ethertype_setting = + * VIRTCHNL_VLAN_ETHERTYPE_8100 | + * VIRTCHNL_VLAN_ETHERTYPE_88A8; + * + */ +struct virtchnl_vlan_setting { + u32 outer_ethertype_setting; + u32 inner_ethertype_setting; + u16 vport_id; + u8 pad[6]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_vlan_setting); + +/* VIRTCHNL_OP_CONFIG_PROMISCUOUS_MODE + * VF sends VSI id and flags. + * PF returns status code in retval. + * Note: we assume that broadcast accept mode is always enabled. + */ +struct virtchnl_promisc_info { + u16 vsi_id; + u16 flags; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(4, virtchnl_promisc_info); + +#define FLAG_VF_UNICAST_PROMISC 0x00000001 +#define FLAG_VF_MULTICAST_PROMISC 0x00000002 + +/* VIRTCHNL_OP_GET_STATS + * VF sends this message to request stats for the selected VSI. VF uses + * the virtchnl_queue_select struct to specify the VSI. The queue_id + * field is ignored by the PF. + * + * PF replies with struct virtchnl_eth_stats in an external buffer. + */ + +struct virtchnl_eth_stats { + u64 rx_bytes; /* received bytes */ + u64 rx_unicast; /* received unicast pkts */ + u64 rx_multicast; /* received multicast pkts */ + u64 rx_broadcast; /* received broadcast pkts */ + u64 rx_discards; + u64 rx_unknown_protocol; + u64 tx_bytes; /* transmitted bytes */ + u64 tx_unicast; /* transmitted unicast pkts */ + u64 tx_multicast; /* transmitted multicast pkts */ + u64 tx_broadcast; /* transmitted broadcast pkts */ + u64 tx_discards; + u64 tx_errors; +}; + +/* VIRTCHNL_OP_CONFIG_RSS_KEY + * VIRTCHNL_OP_CONFIG_RSS_LUT + * VF sends these messages to configure RSS. Only supported if both PF + * and VF drivers set the VIRTCHNL_VF_OFFLOAD_RSS_PF bit during + * configuration negotiation. If this is the case, then the RSS fields in + * the VF resource struct are valid. + * Both the key and LUT are initialized to 0 by the PF, meaning that + * RSS is effectively disabled until set up by the VF. + */ +struct virtchnl_rss_key { + u16 vsi_id; + u16 key_len; + u8 key[1]; /* RSS hash key, packed bytes */ +}; + +VIRTCHNL_CHECK_STRUCT_LEN(6, virtchnl_rss_key); + +struct virtchnl_rss_lut { + u16 vsi_id; + u16 lut_entries; + u8 lut[1]; /* RSS lookup table */ +}; + +VIRTCHNL_CHECK_STRUCT_LEN(6, virtchnl_rss_lut); + +/* enum virthcnl_hash_filter + * + * Bits defining the hash filters in the hena field of the virtchnl_rss_hena + * structure. Each bit indicates a specific hash filter for RSS. + * + * Note that not all bits are supported on all hardware. The VF should use + * VIRTCHNL_OP_GET_RSS_HENA_CAPS to determine which bits the PF is capable of + * before using VIRTCHNL_OP_SET_RSS_HENA to enable specific filters. + */ +enum virtchnl_hash_filter { + /* Bits 0 through 28 are reserved for future use */ + /* Bit 29, 30, and 32 are not supported on XL710 a X710 */ + VIRTCHNL_HASH_FILTER_UNICAST_IPV4_UDP = 29, + VIRTCHNL_HASH_FILTER_MULTICAST_IPV4_UDP = 30, + VIRTCHNL_HASH_FILTER_IPV4_UDP = 31, + VIRTCHNL_HASH_FILTER_IPV4_TCP_SYN_NO_ACK = 32, + VIRTCHNL_HASH_FILTER_IPV4_TCP = 33, + VIRTCHNL_HASH_FILTER_IPV4_SCTP = 34, + VIRTCHNL_HASH_FILTER_IPV4_OTHER = 35, + VIRTCHNL_HASH_FILTER_FRAG_IPV4 = 36, + /* Bits 37 and 38 are reserved for future use */ + /* Bit 39, 40, and 42 are not supported on XL710 a X710 */ + VIRTCHNL_HASH_FILTER_UNICAST_IPV6_UDP = 39, + VIRTCHNL_HASH_FILTER_MULTICAST_IPV6_UDP = 40, + VIRTCHNL_HASH_FILTER_IPV6_UDP = 41, + VIRTCHNL_HASH_FILTER_IPV6_TCP_SYN_NO_ACK = 42, + VIRTCHNL_HASH_FILTER_IPV6_TCP = 43, + VIRTCHNL_HASH_FILTER_IPV6_SCTP = 44, + VIRTCHNL_HASH_FILTER_IPV6_OTHER = 45, + VIRTCHNL_HASH_FILTER_FRAG_IPV6 = 46, + /* Bit 37 is reserved for future use */ + VIRTCHNL_HASH_FILTER_FCOE_OX = 48, + VIRTCHNL_HASH_FILTER_FCOE_RX = 49, + VIRTCHNL_HASH_FILTER_FCOE_OTHER = 50, + /* Bits 51 through 62 are reserved for future use */ + VIRTCHNL_HASH_FILTER_L2_PAYLOAD = 63, +}; + +#define VIRTCHNL_HASH_FILTER_INVALID (0) + +/* VIRTCHNL_OP_GET_RSS_HENA_CAPS + * VIRTCHNL_OP_SET_RSS_HENA + * VF sends these messages to get and set the hash filter enable bits for RSS. + * By default, the PF sets these to all possible traffic types that the + * hardware supports. The VF can query this value if it wants to change the + * traffic types that are hashed by the hardware. + */ +struct virtchnl_rss_hena { + /* see enum virtchnl_hash_filter */ + u64 hena; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_rss_hena); + +/* Type of RSS algorithm */ +enum virtchnl_rss_algorithm { + VIRTCHNL_RSS_ALG_TOEPLITZ_ASYMMETRIC = 0, + VIRTCHNL_RSS_ALG_R_ASYMMETRIC = 1, + VIRTCHNL_RSS_ALG_TOEPLITZ_SYMMETRIC = 2, + VIRTCHNL_RSS_ALG_XOR_SYMMETRIC = 3, +}; + +/* This is used by PF driver to enforce how many channels can be supported. + * When ADQ_V2 capability is negotiated, it will allow 16 channels otherwise + * PF driver will allow only max 4 channels + */ +#define VIRTCHNL_MAX_ADQ_CHANNELS 4 +#define VIRTCHNL_MAX_ADQ_V2_CHANNELS 16 + +/* VIRTCHNL_OP_ENABLE_CHANNELS + * VIRTCHNL_OP_DISABLE_CHANNELS + * VF sends these messages to enable or disable channels based on + * the user specified queue count and queue offset for each traffic class. + * This struct encompasses all the information that the PF needs from + * VF to create a channel. + */ +struct virtchnl_channel_info { + u16 count; /* number of queues in a channel */ + u16 offset; /* queues in a channel start from 'offset' */ + u32 pad; + u64 max_tx_rate; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_channel_info); + +struct virtchnl_tc_info { + u32 num_tc; + u32 pad; + struct virtchnl_channel_info list[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(24, virtchnl_tc_info); + +/* VIRTCHNL_ADD_CLOUD_FILTER + * VIRTCHNL_DEL_CLOUD_FILTER + * VF sends these messages to add or delete a cloud filter based on the + * user specified match and action filters. These structures encompass + * all the information that the PF needs from the VF to add/delete a + * cloud filter. + */ + +struct virtchnl_l4_spec { + u8 src_mac[VIRTCHNL_ETH_LENGTH_OF_ADDRESS]; + u8 dst_mac[VIRTCHNL_ETH_LENGTH_OF_ADDRESS]; + /* vlan_prio is part of this 16 bit field even from OS perspective + * vlan_id:12 is actual vlan_id, then vlanid:bit14..12 is vlan_prio + * in future, when decided to offload vlan_prio, pass that information + * as part of the "vlan_id" field, Bit14..12 + */ + __be16 vlan_id; + __be16 pad; /* reserved for future use */ + __be32 src_ip[4]; + __be32 dst_ip[4]; + __be16 src_port; + __be16 dst_port; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(52, virtchnl_l4_spec); + +union virtchnl_flow_spec { + struct virtchnl_l4_spec tcp_spec; + u8 buffer[128]; /* reserved for future use */ +}; + +VIRTCHNL_CHECK_UNION_LEN(128, virtchnl_flow_spec); + +enum virtchnl_action { + /* action types */ + VIRTCHNL_ACTION_DROP = 0, + VIRTCHNL_ACTION_TC_REDIRECT, + VIRTCHNL_ACTION_PASSTHRU, + VIRTCHNL_ACTION_QUEUE, + VIRTCHNL_ACTION_Q_REGION, + VIRTCHNL_ACTION_MARK, + VIRTCHNL_ACTION_COUNT, +}; + +enum virtchnl_flow_type { + /* flow types */ + VIRTCHNL_TCP_V4_FLOW = 0, + VIRTCHNL_TCP_V6_FLOW, + VIRTCHNL_UDP_V4_FLOW, + VIRTCHNL_UDP_V6_FLOW, +}; + +struct virtchnl_filter { + union virtchnl_flow_spec data; + union virtchnl_flow_spec mask; + + /* see enum virtchnl_flow_type */ + s32 flow_type; + + /* see enum virtchnl_action */ + s32 action; + u32 action_meta; + u8 field_flags; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(272, virtchnl_filter); + +struct virtchnl_shaper_bw { + /* Unit is Kbps */ + u32 committed; + u32 peak; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_shaper_bw); + + + +/* VIRTCHNL_OP_EVENT + * PF sends this message to inform the VF driver of events that may affect it. + * No direct response is expected from the VF, though it may generate other + * messages in response to this one. + */ +enum virtchnl_event_codes { + VIRTCHNL_EVENT_UNKNOWN = 0, + VIRTCHNL_EVENT_LINK_CHANGE, + VIRTCHNL_EVENT_RESET_IMPENDING, + VIRTCHNL_EVENT_PF_DRIVER_CLOSE, +}; + +#define PF_EVENT_SEVERITY_INFO 0 +#define PF_EVENT_SEVERITY_ATTENTION 1 +#define PF_EVENT_SEVERITY_ACTION_REQUIRED 2 +#define PF_EVENT_SEVERITY_CERTAIN_DOOM 255 + +struct virtchnl_pf_event { + /* see enum virtchnl_event_codes */ + s32 event; + union { + /* If the PF driver does not support the new speed reporting + * capabilities then use link_event else use link_event_adv to + * get the speed and link information. The ability to understand + * new speeds is indicated by setting the capability flag + * VIRTCHNL_VF_CAP_ADV_LINK_SPEED in vf_cap_flags parameter + * in virtchnl_vf_resource struct and can be used to determine + * which link event struct to use below. + */ + struct { + enum virtchnl_link_speed link_speed; + bool link_status; + u8 pad[3]; + } link_event; + struct { + /* link_speed provided in Mbps */ + u32 link_speed; + u8 link_status; + u8 pad[3]; + } link_event_adv; + } event_data; + + s32 severity; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_pf_event); + + +/* VF reset states - these are written into the RSTAT register: + * VFGEN_RSTAT on the VF + * When the PF initiates a reset, it writes 0 + * When the reset is complete, it writes 1 + * When the PF detects that the VF has recovered, it writes 2 + * VF checks this register periodically to determine if a reset has occurred, + * then polls it to know when the reset is complete. + * If either the PF or VF reads the register while the hardware + * is in a reset state, it will return DEADBEEF, which, when masked + * will result in 3. + */ +enum virtchnl_vfr_states { + VIRTCHNL_VFR_INPROGRESS = 0, + VIRTCHNL_VFR_COMPLETED, + VIRTCHNL_VFR_VFACTIVE, +}; + +#define VIRTCHNL_MAX_NUM_PROTO_HDRS 32 +#define VIRTCHNL_MAX_SIZE_RAW_PACKET 1024 +#define PROTO_HDR_SHIFT 5 +#define PROTO_HDR_FIELD_START(proto_hdr_type) \ + (proto_hdr_type << PROTO_HDR_SHIFT) +#define PROTO_HDR_FIELD_MASK ((1UL << PROTO_HDR_SHIFT) - 1) + +/* VF use these macros to configure each protocol header. + * Specify which protocol headers and protocol header fields base on + * virtchnl_proto_hdr_type and virtchnl_proto_hdr_field. + * @param hdr: a struct of virtchnl_proto_hdr + * @param hdr_type: ETH/IPV4/TCP, etc + * @param field: SRC/DST/TEID/SPI, etc + */ +#define VIRTCHNL_ADD_PROTO_HDR_FIELD(hdr, field) \ + ((hdr)->field_selector |= BIT((field) & PROTO_HDR_FIELD_MASK)) +#define VIRTCHNL_DEL_PROTO_HDR_FIELD(hdr, field) \ + ((hdr)->field_selector &= ~BIT((field) & PROTO_HDR_FIELD_MASK)) +#define VIRTCHNL_TEST_PROTO_HDR_FIELD(hdr, val) \ + ((hdr)->field_selector & BIT((val) & PROTO_HDR_FIELD_MASK)) +#define VIRTCHNL_GET_PROTO_HDR_FIELD(hdr) ((hdr)->field_selector) + +#define VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, hdr_type, field) \ + (VIRTCHNL_ADD_PROTO_HDR_FIELD(hdr, \ + VIRTCHNL_PROTO_HDR_ ## hdr_type ## _ ## field)) +#define VIRTCHNL_DEL_PROTO_HDR_FIELD_BIT(hdr, hdr_type, field) \ + (VIRTCHNL_DEL_PROTO_HDR_FIELD(hdr, \ + VIRTCHNL_PROTO_HDR_ ## hdr_type ## _ ## field)) + +#define VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, hdr_type) \ + ((hdr)->type = VIRTCHNL_PROTO_HDR_ ## hdr_type) +#define VIRTCHNL_GET_PROTO_HDR_TYPE(hdr) \ + (((hdr)->type) >> PROTO_HDR_SHIFT) +#define VIRTCHNL_TEST_PROTO_HDR_TYPE(hdr, val) \ + ((hdr)->type == ((s32)((val) >> PROTO_HDR_SHIFT))) +#define VIRTCHNL_TEST_PROTO_HDR(hdr, val) \ + (VIRTCHNL_TEST_PROTO_HDR_TYPE(hdr, val) && \ + VIRTCHNL_TEST_PROTO_HDR_FIELD(hdr, val)) + +/* Protocol header type within a packet segment. A segment consists of one or + * more protocol headers that make up a logical group of protocol headers. Each + * logical group of protocol headers encapsulates or is encapsulated using/by + * tunneling or encapsulation protocols for network virtualization. + */ +enum virtchnl_proto_hdr_type { + VIRTCHNL_PROTO_HDR_NONE, + VIRTCHNL_PROTO_HDR_ETH, + VIRTCHNL_PROTO_HDR_S_VLAN, + VIRTCHNL_PROTO_HDR_C_VLAN, + VIRTCHNL_PROTO_HDR_IPV4, + VIRTCHNL_PROTO_HDR_IPV6, + VIRTCHNL_PROTO_HDR_TCP, + VIRTCHNL_PROTO_HDR_UDP, + VIRTCHNL_PROTO_HDR_SCTP, + VIRTCHNL_PROTO_HDR_GTPU_IP, + VIRTCHNL_PROTO_HDR_GTPU_EH, + VIRTCHNL_PROTO_HDR_GTPU_EH_PDU_DWN, + VIRTCHNL_PROTO_HDR_GTPU_EH_PDU_UP, + VIRTCHNL_PROTO_HDR_PPPOE, + VIRTCHNL_PROTO_HDR_L2TPV3, + VIRTCHNL_PROTO_HDR_ESP, + VIRTCHNL_PROTO_HDR_AH, + VIRTCHNL_PROTO_HDR_PFCP, + VIRTCHNL_PROTO_HDR_GTPC, + VIRTCHNL_PROTO_HDR_ECPRI, + VIRTCHNL_PROTO_HDR_L2TPV2, + VIRTCHNL_PROTO_HDR_PPP, + /* IPv4 and IPv6 Fragment header types are only associated to + * VIRTCHNL_PROTO_HDR_IPV4 and VIRTCHNL_PROTO_HDR_IPV6 respectively, + * cannot be used independently. + */ + VIRTCHNL_PROTO_HDR_IPV4_FRAG, + VIRTCHNL_PROTO_HDR_IPV6_EH_FRAG, + VIRTCHNL_PROTO_HDR_GRE, +}; + +/* Protocol header field within a protocol header. */ +enum virtchnl_proto_hdr_field { + /* ETHER */ + VIRTCHNL_PROTO_HDR_ETH_SRC = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_ETH), + VIRTCHNL_PROTO_HDR_ETH_DST, + VIRTCHNL_PROTO_HDR_ETH_ETHERTYPE, + /* S-VLAN */ + VIRTCHNL_PROTO_HDR_S_VLAN_ID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_S_VLAN), + /* C-VLAN */ + VIRTCHNL_PROTO_HDR_C_VLAN_ID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_C_VLAN), + /* IPV4 */ + VIRTCHNL_PROTO_HDR_IPV4_SRC = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_IPV4), + VIRTCHNL_PROTO_HDR_IPV4_DST, + VIRTCHNL_PROTO_HDR_IPV4_DSCP, + VIRTCHNL_PROTO_HDR_IPV4_TTL, + VIRTCHNL_PROTO_HDR_IPV4_PROT, + VIRTCHNL_PROTO_HDR_IPV4_CHKSUM, + /* IPV6 */ + VIRTCHNL_PROTO_HDR_IPV6_SRC = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_IPV6), + VIRTCHNL_PROTO_HDR_IPV6_DST, + VIRTCHNL_PROTO_HDR_IPV6_TC, + VIRTCHNL_PROTO_HDR_IPV6_HOP_LIMIT, + VIRTCHNL_PROTO_HDR_IPV6_PROT, + /* IPV6 Prefix */ + VIRTCHNL_PROTO_HDR_IPV6_PREFIX32_SRC, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX32_DST, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX40_SRC, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX40_DST, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX48_SRC, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX48_DST, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX56_SRC, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX56_DST, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX64_SRC, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX64_DST, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX96_SRC, + VIRTCHNL_PROTO_HDR_IPV6_PREFIX96_DST, + /* TCP */ + VIRTCHNL_PROTO_HDR_TCP_SRC_PORT = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_TCP), + VIRTCHNL_PROTO_HDR_TCP_DST_PORT, + VIRTCHNL_PROTO_HDR_TCP_CHKSUM, + /* UDP */ + VIRTCHNL_PROTO_HDR_UDP_SRC_PORT = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_UDP), + VIRTCHNL_PROTO_HDR_UDP_DST_PORT, + VIRTCHNL_PROTO_HDR_UDP_CHKSUM, + /* SCTP */ + VIRTCHNL_PROTO_HDR_SCTP_SRC_PORT = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_SCTP), + VIRTCHNL_PROTO_HDR_SCTP_DST_PORT, + VIRTCHNL_PROTO_HDR_SCTP_CHKSUM, + /* GTPU_IP */ + VIRTCHNL_PROTO_HDR_GTPU_IP_TEID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_GTPU_IP), + /* GTPU_EH */ + VIRTCHNL_PROTO_HDR_GTPU_EH_PDU = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_GTPU_EH), + VIRTCHNL_PROTO_HDR_GTPU_EH_QFI, + /* PPPOE */ + VIRTCHNL_PROTO_HDR_PPPOE_SESS_ID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_PPPOE), + /* L2TPV3 */ + VIRTCHNL_PROTO_HDR_L2TPV3_SESS_ID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_L2TPV3), + /* ESP */ + VIRTCHNL_PROTO_HDR_ESP_SPI = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_ESP), + /* AH */ + VIRTCHNL_PROTO_HDR_AH_SPI = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_AH), + /* PFCP */ + VIRTCHNL_PROTO_HDR_PFCP_S_FIELD = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_PFCP), + VIRTCHNL_PROTO_HDR_PFCP_SEID, + /* GTPC */ + VIRTCHNL_PROTO_HDR_GTPC_TEID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_GTPC), + /* ECPRI */ + VIRTCHNL_PROTO_HDR_ECPRI_MSG_TYPE = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_ECPRI), + VIRTCHNL_PROTO_HDR_ECPRI_PC_RTC_ID, + /* IPv4 Dummy Fragment */ + VIRTCHNL_PROTO_HDR_IPV4_FRAG_PKID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_IPV4_FRAG), + /* IPv6 Extension Fragment */ + VIRTCHNL_PROTO_HDR_IPV6_EH_FRAG_PKID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_IPV6_EH_FRAG), + /* GTPU_DWN/UP */ + VIRTCHNL_PROTO_HDR_GTPU_DWN_QFI = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_GTPU_EH_PDU_DWN), + VIRTCHNL_PROTO_HDR_GTPU_UP_QFI = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_GTPU_EH_PDU_UP), + /* L2TPv2 */ + VIRTCHNL_PROTO_HDR_L2TPV2_SESS_ID = + PROTO_HDR_FIELD_START(VIRTCHNL_PROTO_HDR_L2TPV2), + VIRTCHNL_PROTO_HDR_L2TPV2_LEN_SESS_ID, +}; + +struct virtchnl_proto_hdr { + /* see enum virtchnl_proto_hdr_type */ + s32 type; + u32 field_selector; /* a bit mask to select field for header type */ + u8 buffer[64]; + /** + * binary buffer in network order for specific header type. + * For example, if type = VIRTCHNL_PROTO_HDR_IPV4, a IPv4 + * header is expected to be copied into the buffer. + */ +}; + +VIRTCHNL_CHECK_STRUCT_LEN(72, virtchnl_proto_hdr); + +struct virtchnl_proto_hdrs { + u8 tunnel_level; + /** + * specify where protocol header start from. + * must be 0 when sending a raw packet request. + * 0 - from the outer layer + * 1 - from the first inner layer + * 2 - from the second inner layer + * .... + */ + int count; + /** + * number of proto layers, must < VIRTCHNL_MAX_NUM_PROTO_HDRS + * must be 0 for a raw packet request. + */ + union { + struct virtchnl_proto_hdr + proto_hdr[VIRTCHNL_MAX_NUM_PROTO_HDRS]; + struct { + u16 pkt_len; + u8 spec[VIRTCHNL_MAX_SIZE_RAW_PACKET]; + u8 mask[VIRTCHNL_MAX_SIZE_RAW_PACKET]; + } raw; + }; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(2312, virtchnl_proto_hdrs); + +struct virtchnl_rss_cfg { + struct virtchnl_proto_hdrs proto_hdrs; /* protocol headers */ + + /* see enum virtchnl_rss_algorithm; rss algorithm type */ + s32 rss_algorithm; + u8 reserved[128]; /* reserve for future */ +}; + +VIRTCHNL_CHECK_STRUCT_LEN(2444, virtchnl_rss_cfg); + +/* action configuration for FDIR */ +struct virtchnl_filter_action { + /* see enum virtchnl_action type */ + s32 type; + union { + /* used for queue and qgroup action */ + struct { + u16 index; + u8 region; + } queue; + /* used for count action */ + struct { + /* share counter ID with other flow rules */ + u8 shared; + u32 id; /* counter ID */ + } count; + /* used for mark action */ + u32 mark_id; + u8 reserve[32]; + } act_conf; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(36, virtchnl_filter_action); + +#define VIRTCHNL_MAX_NUM_ACTIONS 8 + +struct virtchnl_filter_action_set { + /* action number must be less then VIRTCHNL_MAX_NUM_ACTIONS */ + int count; + struct virtchnl_filter_action actions[VIRTCHNL_MAX_NUM_ACTIONS]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(292, virtchnl_filter_action_set); + +/* pattern and action for FDIR rule */ +struct virtchnl_fdir_rule { + struct virtchnl_proto_hdrs proto_hdrs; + struct virtchnl_filter_action_set action_set; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(2604, virtchnl_fdir_rule); + +/* Status returned to VF after VF requests FDIR commands + * VIRTCHNL_FDIR_SUCCESS + * VF FDIR related request is successfully done by PF + * The request can be OP_ADD/DEL/QUERY_FDIR_FILTER. + * + * VIRTCHNL_FDIR_FAILURE_RULE_NORESOURCE + * OP_ADD_FDIR_FILTER request is failed due to no Hardware resource. + * + * VIRTCHNL_FDIR_FAILURE_RULE_EXIST + * OP_ADD_FDIR_FILTER request is failed due to the rule is already existed. + * + * VIRTCHNL_FDIR_FAILURE_RULE_CONFLICT + * OP_ADD_FDIR_FILTER request is failed due to conflict with existing rule. + * + * VIRTCHNL_FDIR_FAILURE_RULE_NONEXIST + * OP_DEL_FDIR_FILTER request is failed due to this rule doesn't exist. + * + * VIRTCHNL_FDIR_FAILURE_RULE_INVALID + * OP_ADD_FDIR_FILTER request is failed due to parameters validation + * or HW doesn't support. + * + * VIRTCHNL_FDIR_FAILURE_RULE_TIMEOUT + * OP_ADD/DEL_FDIR_FILTER request is failed due to timing out + * for programming. + * + * VIRTCHNL_FDIR_FAILURE_QUERY_INVALID + * OP_QUERY_FDIR_FILTER request is failed due to parameters validation, + * for example, VF query counter of a rule who has no counter action. + */ +enum virtchnl_fdir_prgm_status { + VIRTCHNL_FDIR_SUCCESS = 0, + VIRTCHNL_FDIR_FAILURE_RULE_NORESOURCE, + VIRTCHNL_FDIR_FAILURE_RULE_EXIST, + VIRTCHNL_FDIR_FAILURE_RULE_CONFLICT, + VIRTCHNL_FDIR_FAILURE_RULE_NONEXIST, + VIRTCHNL_FDIR_FAILURE_RULE_INVALID, + VIRTCHNL_FDIR_FAILURE_RULE_TIMEOUT, + VIRTCHNL_FDIR_FAILURE_QUERY_INVALID, +}; + +/* VIRTCHNL_OP_ADD_FDIR_FILTER + * VF sends this request to PF by filling out vsi_id, + * validate_only and rule_cfg. PF will return flow_id + * if the request is successfully done and return add_status to VF. + */ +struct virtchnl_fdir_add { + u16 vsi_id; /* INPUT */ + /* + * 1 for validating a fdir rule, 0 for creating a fdir rule. + * Validate and create share one ops: VIRTCHNL_OP_ADD_FDIR_FILTER. + */ + u16 validate_only; /* INPUT */ + u32 flow_id; /* OUTPUT */ + struct virtchnl_fdir_rule rule_cfg; /* INPUT */ + + /* see enum virtchnl_fdir_prgm_status; OUTPUT */ + s32 status; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(2616, virtchnl_fdir_add); + +/* VIRTCHNL_OP_DEL_FDIR_FILTER + * VF sends this request to PF by filling out vsi_id + * and flow_id. PF will return del_status to VF. + */ +struct virtchnl_fdir_del { + u16 vsi_id; /* INPUT */ + u16 pad; + u32 flow_id; /* INPUT */ + + /* see enum virtchnl_fdir_prgm_status; OUTPUT */ + s32 status; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_fdir_del); + +/* VIRTCHNL_OP_GET_QOS_CAPS + * VF sends this message to get its QoS Caps, such as + * TC number, Arbiter and Bandwidth. + */ +struct virtchnl_qos_cap_elem { + u8 tc_num; + u8 tc_prio; +#define VIRTCHNL_ABITER_STRICT 0 +#define VIRTCHNL_ABITER_ETS 2 + u8 arbiter; +#define VIRTCHNL_STRICT_WEIGHT 1 + u8 weight; + enum virtchnl_bw_limit_type type; + union { + struct virtchnl_shaper_bw shaper; + u8 pad2[32]; + }; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(40, virtchnl_qos_cap_elem); + +struct virtchnl_qos_cap_list { + u16 vsi_id; + u16 num_elem; + struct virtchnl_qos_cap_elem cap[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(44, virtchnl_qos_cap_list); + +/* VIRTCHNL_OP_CONFIG_QUEUE_TC_MAP + * VF sends message virtchnl_queue_tc_mapping to set queue to tc + * mapping for all the Tx and Rx queues with a specified VSI, and + * would get response about bitmap of valid user priorities + * associated with queues. + */ +struct virtchnl_queue_tc_mapping { + u16 vsi_id; + u16 num_tc; + u16 num_queue_pairs; + u8 pad[2]; + union { + struct { + u16 start_queue_id; + u16 queue_count; + } req; + struct { +#define VIRTCHNL_USER_PRIO_TYPE_UP 0 +#define VIRTCHNL_USER_PRIO_TYPE_DSCP 1 + u16 prio_type; + u16 valid_prio_bitmap; + } resp; + } tc[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_queue_tc_mapping); + +/* VIRTCHNL_OP_CONFIG_QUEUE_BW */ +struct virtchnl_queue_bw { + u16 queue_id; + u8 tc; + u8 pad; + struct virtchnl_shaper_bw shaper; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_queue_bw); + +struct virtchnl_queues_bw_cfg { + u16 vsi_id; + u16 num_queues; + struct virtchnl_queue_bw cfg[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_queues_bw_cfg); + +/* queue types */ +enum virtchnl_queue_type { + VIRTCHNL_QUEUE_TYPE_TX = 0, + VIRTCHNL_QUEUE_TYPE_RX = 1, +}; + +/* structure to specify a chunk of contiguous queues */ +struct virtchnl_queue_chunk { + /* see enum virtchnl_queue_type */ + s32 type; + u16 start_queue_id; + u16 num_queues; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(8, virtchnl_queue_chunk); + +/* structure to specify several chunks of contiguous queues */ +struct virtchnl_queue_chunks { + u16 num_chunks; + u16 rsvd; + struct virtchnl_queue_chunk chunks[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_queue_chunks); + +/* VIRTCHNL_OP_ENABLE_QUEUES_V2 + * VIRTCHNL_OP_DISABLE_QUEUES_V2 + * + * These opcodes can be used if VIRTCHNL_VF_LARGE_NUM_QPAIRS was negotiated in + * VIRTCHNL_OP_GET_VF_RESOURCES + * + * VF sends virtchnl_ena_dis_queues struct to specify the queues to be + * enabled/disabled in chunks. Also applicable to single queue RX or + * TX. PF performs requested action and returns status. + */ +struct virtchnl_del_ena_dis_queues { + u16 vport_id; + u16 pad; + struct virtchnl_queue_chunks chunks; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_del_ena_dis_queues); + +/* Virtchannel interrupt throttling rate index */ +enum virtchnl_itr_idx { + VIRTCHNL_ITR_IDX_0 = 0, + VIRTCHNL_ITR_IDX_1 = 1, + VIRTCHNL_ITR_IDX_NO_ITR = 3, +}; + +/* Queue to vector mapping */ +struct virtchnl_queue_vector { + u16 queue_id; + u16 vector_id; + u8 pad[4]; + + /* see enum virtchnl_itr_idx */ + s32 itr_idx; + + /* see enum virtchnl_queue_type */ + s32 queue_type; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_queue_vector); + +/* VIRTCHNL_OP_MAP_QUEUE_VECTOR + * + * This opcode can be used only if VIRTCHNL_VF_LARGE_NUM_QPAIRS was negotiated + * in VIRTCHNL_OP_GET_VF_RESOURCES + * + * VF sends this message to map queues to vectors and ITR index registers. + * External data buffer contains virtchnl_queue_vector_maps structure + * that contains num_qv_maps of virtchnl_queue_vector structures. + * PF maps the requested queue vector maps after validating the queue and vector + * ids and returns a status code. + */ +struct virtchnl_queue_vector_maps { + u16 vport_id; + u16 num_qv_maps; + u8 pad[4]; + struct virtchnl_queue_vector qv_maps[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(24, virtchnl_queue_vector_maps); + +struct virtchnl_quanta_cfg { + u16 quanta_size; + struct virtchnl_queue_chunk queue_select; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(12, virtchnl_quanta_cfg); + +/* VIRTCHNL_VF_CAP_PTP + * VIRTCHNL_OP_1588_PTP_GET_CAPS + * VIRTCHNL_OP_1588_PTP_GET_TIME + * VIRTCHNL_OP_1588_PTP_SET_TIME + * VIRTCHNL_OP_1588_PTP_ADJ_TIME + * VIRTCHNL_OP_1588_PTP_ADJ_FREQ + * VIRTCHNL_OP_1588_PTP_TX_TIMESTAMP + * VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS + * VIRTCHNL_OP_1588_PTP_SET_PIN_CFG + * VIRTCHNL_OP_1588_PTP_EXT_TIMESTAMP + * + * Support for offloading control of the device PTP hardware clock (PHC) is enabled + * by VIRTCHNL_VF_CAP_PTP. This capability allows a VF to request that PF + * enable Tx and Rx timestamps, and request access to read and/or write the + * PHC on the device, as well as query if the VF has direct access to the PHC + * time registers. + * + * The VF must set VIRTCHNL_VF_CAP_PTP in its capabilities when requesting + * resources. If the capability is set in reply, the VF must then send + * a VIRTCHNL_OP_1588_PTP_GET_CAPS request during initialization. The VF indicates + * what extended capabilities it wants by setting the appropriate flags in the + * caps field. The PF reply will indicate what features are enabled for + * that VF. + */ +#define VIRTCHNL_1588_PTP_CAP_TX_TSTAMP BIT(0) +#define VIRTCHNL_1588_PTP_CAP_RX_TSTAMP BIT(1) +#define VIRTCHNL_1588_PTP_CAP_READ_PHC BIT(2) +#define VIRTCHNL_1588_PTP_CAP_WRITE_PHC BIT(3) +#define VIRTCHNL_1588_PTP_CAP_PHC_REGS BIT(4) +#define VIRTCHNL_1588_PTP_CAP_PIN_CFG BIT(5) + +/** + * virtchnl_phc_regs + * + * Structure defines how the VF should access PHC related registers. The VF + * must request VIRTCHNL_1588_PTP_CAP_PHC_REGS. If the VF has access to PHC + * registers, the PF will reply with the capability flag set, and with this + * structure detailing what PCIe region and what offsets to use. If direct + * access is not available, this entire structure is reserved and the fields + * will be zero. + * + * If necessary in a future extension, a separate capability mutually + * exclusive with VIRTCHNL_1588_PTP_CAP_PHC_REGS might be used to change the + * entire format of this structure within virtchnl_ptp_caps. + * + * @clock_hi: Register offset of the high 32 bits of clock time + * @clock_lo: Register offset of the low 32 bits of clock time + * @pcie_region: The PCIe region the registers are located in. + * @rsvd: Reserved bits for future extension + */ +struct virtchnl_phc_regs { + u32 clock_hi; + u32 clock_lo; + u8 pcie_region; + u8 rsvd[15]; +}; +VIRTCHNL_CHECK_STRUCT_LEN(24, virtchnl_phc_regs); + +/* timestamp format enumeration + * + * VIRTCHNL_1588_PTP_TSTAMP_40BIT + * + * This format indicates a timestamp that uses the 40bit format from the + * flexible Rx descriptors. It is also the default Tx timestamp format used + * today. + * + * Such a timestamp has the following 40bit format: + * + * *--------------------------------*-------------------------------*-----------* + * | 32 bits of time in nanoseconds | 7 bits of sub-nanosecond time | valid bit | + * *--------------------------------*-------------------------------*-----------* + * + * The timestamp is passed in a u64, with the upper 24bits of the field + * reserved as zero. + * + * With this format, in order to report a full 64bit timestamp to userspace + * applications, the VF is responsible for performing timestamp extension by + * carefully comparing the timestamp with the PHC time. This can correctly + * be achieved with a recent cached copy of the PHC time by doing delta + * comparison between the 32bits of nanoseconds in the timestamp with the + * lower 32 bits of the clock time. For this to work, the cached PHC time + * must be from within 2^31 nanoseconds (~2.1 seconds) of when the timestamp + * was captured. + * + * VIRTCHNL_1588_PTP_TSTAMP_64BIT_NS + * + * This format indicates a timestamp that is 64 bits of nanoseconds. + */ +enum virtchnl_ptp_tstamp_format { + VIRTCHNL_1588_PTP_TSTAMP_40BIT = 0, + VIRTCHNL_1588_PTP_TSTAMP_64BIT_NS = 1, +}; + +/** + * virtchnl_ptp_caps + * + * Structure that defines the PTP capabilities available to the VF. The VF + * sends VIRTCHNL_OP_1588_PTP_GET_CAPS, and must fill in the ptp_caps field + * indicating what capabilities it is requesting. The PF will respond with the + * same message with the virtchnl_ptp_caps structure indicating what is + * enabled for the VF. + * + * @phc_regs: If VIRTCHNL_1588_PTP_CAP_PHC_REGS is set, contains information + * on the PHC related registers available to the VF. + * @caps: On send, VF sets what capabilities it requests. On reply, PF + * indicates what has been enabled for this VF. The PF shall not set + * bits which were not requested by the VF. + * @max_adj: The maximum adjustment capable of being requested by + * VIRTCHNL_OP_1588_PTP_ADJ_FREQ, in parts per billion. Note that 1 ppb + * is approximately 65.5 scaled_ppm. The PF shall clamp any + * frequency adjustment in VIRTCHNL_op_1588_ADJ_FREQ to +/- max_adj. + * Use of ppb in this field allows fitting the value into 4 bytes + * instead of potentially requiring 8 if scaled_ppm units were used. + * @tx_tstamp_idx: The Tx timestamp index to set in the transmit descriptor + * when requesting a timestamp for an outgoing packet. + * Reserved if VIRTCHNL_1588_PTP_CAP_TX_TSTAMP is not enabled. + * @n_ext_ts: Number of external timestamp functions available. Reserved + * if VIRTCHNL_1588_PTP_CAP_PIN_CFG is not enabled. + * @n_per_out: Number of periodic output functions available. Reserved if + * VIRTCHNL_1588_PTP_CAP_PIN_CFG is not enabled. + * @n_pins: Number of physical programmable pins able to be controlled. + * Reserved if VIRTCHNL_1588_PTP_CAP_PIN_CFG is not enabled. + * @tx_tstamp_format: Format of the Tx timestamps. Valid formats are defined + * by the virtchnl_ptp_tstamp enumeration. Note that Rx + * timestamps are tied to the descriptor format, and do not + * have a separate format field. + * @rsvd: Reserved bits for future extension. + * + * PTP capabilities + * + * VIRTCHNL_1588_PTP_CAP_TX_TSTAMP indicates that the VF can request transmit + * timestamps for packets in its transmit descriptors. If this is unset, + * transmit timestamp requests are ignored. Note that only one outstanding Tx + * timestamp request will be honored at a time. The PF shall handle receipt of + * the timestamp from the hardware, and will forward this to the VF by sending + * a VIRTCHNL_OP_1588_TX_TIMESTAMP message. + * + * VIRTCHNL_1588_PTP_CAP_RX_TSTAMP indicates that the VF receive queues have + * receive timestamps enabled in the flexible descriptors. Note that this + * requires a VF to also negotiate to enable advanced flexible descriptors in + * the receive path instead of the default legacy descriptor format. + * + * For a detailed description of the current Tx and Rx timestamp format, see + * the section on virtchnl_phc_tx_tstamp. Future extensions may indicate + * timestamp format in the capability structure. + * + * VIRTCHNL_1588_PTP_CAP_READ_PHC indicates that the VF may read the PHC time + * via the VIRTCHNL_OP_1588_PTP_GET_TIME command, or by directly reading PHC + * registers if VIRTCHNL_1588_PTP_CAP_PHC_REGS is also set. + * + * VIRTCHNL_1588_PTP_CAP_WRITE_PHC indicates that the VF may request updates + * to the PHC time via VIRTCHNL_OP_1588_PTP_SET_TIME, + * VIRTCHNL_OP_1588_PTP_ADJ_TIME, and VIRTCHNL_OP_1588_PTP_ADJ_FREQ. + * + * VIRTCHNL_1588_PTP_CAP_PHC_REGS indicates that the VF has direct access to + * certain PHC related registers, primarily for lower latency access to the + * PHC time. If this is set, the VF shall read the virtchnl_phc_regs section + * of the capabilities to determine the location of the clock registers. If + * this capability is not set, the entire 24 bytes of virtchnl_phc_regs is + * reserved as zero. Future extensions define alternative formats for this + * data, in which case they will be mutually exclusive with this capability. + * + * VIRTCHNL_1588_PTP_CAP_PIN_CFG indicates that the VF has the capability to + * control software defined pins. These pins can be assigned either as an + * input to timestamp external events, or as an output to cause a periodic + * signal output. + * + * Note that in the future, additional capability flags may be added which + * indicate additional extended support. All fields marked as reserved by this + * header will be set to zero. VF implementations should verify this to ensure + * that future extensions do not break compatibility. + */ +struct virtchnl_ptp_caps { + struct virtchnl_phc_regs phc_regs; + u32 caps; + s32 max_adj; + u8 tx_tstamp_idx; + u8 n_ext_ts; + u8 n_per_out; + u8 n_pins; + /* see enum virtchnl_ptp_tstamp_format */ + u8 tx_tstamp_format; + u8 rsvd[11]; +}; +VIRTCHNL_CHECK_STRUCT_LEN(48, virtchnl_ptp_caps); + +/** + * virtchnl_phc_time + * @time: PHC time in nanoseconds + * @rsvd: Reserved for future extension + * + * Structure sent with VIRTCHNL_OP_1588_PTP_SET_TIME and received with + * VIRTCHNL_OP_1588_PTP_GET_TIME. Contains the 64bits of PHC clock time in + * nanoseconds. + * + * VIRTCHNL_OP_1588_PTP_SET_TIME may be sent by the VF if + * VIRTCHNL_1588_PTP_CAP_WRITE_PHC is set. This will request that the PHC time + * be set to the requested value. This operation is non-atomic and thus does + * not adjust for the delay between request and completion. It is recommended + * that the VF use VIRTCHNL_OP_1588_PTP_ADJ_TIME and + * VIRTCHNL_OP_1588_PTP_ADJ_FREQ when possible to steer the PHC clock. + * + * VIRTCHNL_OP_1588_PTP_GET_TIME may be sent to request the current time of + * the PHC. This op is available in case direct access via the PHC registers + * is not available. + */ +struct virtchnl_phc_time { + u64 time; + u8 rsvd[8]; +}; +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_phc_time); + +/** + * virtchnl_phc_adj_time + * @delta: offset requested to adjust clock by + * @rsvd: reserved for future extension + * + * Sent with VIRTCHNL_OP_1588_PTP_ADJ_TIME. Used to request an adjustment of + * the clock time by the provided delta, with negative values representing + * subtraction. VIRTCHNL_OP_1588_PTP_ADJ_TIME may not be sent unless + * VIRTCHNL_1588_PTP_CAP_WRITE_PHC is set. + * + * The atomicity of this operation is not guaranteed. The PF should perform an + * atomic update using appropriate mechanisms if possible. However, this is + * not guaranteed. + */ +struct virtchnl_phc_adj_time { + s64 delta; + u8 rsvd[8]; +}; +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_phc_adj_time); + +/** + * virtchnl_phc_adj_freq + * @scaled_ppm: frequency adjustment represented in scaled parts per million + * @rsvd: Reserved for future extension + * + * Sent with the VIRTCHNL_OP_1588_PTP_ADJ_FREQ to request an adjustment to the + * clock frequency. The adjustment is in scaled_ppm, which is parts per + * million with a 16bit binary fractional portion. 1 part per billion is + * approximately 65.5 scaled_ppm. + * + * ppm = scaled_ppm / 2^16 + * + * ppb = scaled_ppm * 1000 / 2^16 or + * + * ppb = scaled_ppm * 125 / 2^13 + * + * The PF shall clamp any adjustment request to plus or minus the specified + * max_adj in the PTP capabilities. + * + * Requests for adjustment are always based off of nominal clock frequency and + * not compounding. To reset clock frequency, send a request with a scaled_ppm + * of 0. + */ +struct virtchnl_phc_adj_freq { + s64 scaled_ppm; + u8 rsvd[8]; +}; +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_phc_adj_freq); + +/** + * virtchnl_phc_tx_stamp + * @tstamp: timestamp value + * @rsvd: Reserved for future extension + * + * Sent along with VIRTCHNL_OP_1588_PTP_TX_TIMESTAMP from the PF when a Tx + * timestamp for the index associated with this VF in the tx_tstamp_idx field + * is captured by hardware. + * + * If VIRTCHNL_1588_PTP_CAP_TX_TSTAMP is set, the VF may request a timestamp + * for a packet in its transmit context descriptor by setting the appropriate + * flag and setting the timestamp index provided by the PF. On transmission, + * the timestamp will be captured and sent to the PF. The PF will forward this + * timestamp to the VF via the VIRTCHNL_1588_PTP_CAP_TX_TSTAMP op. + * + * The timestamp format is defined by the tx_tstamp_format field of the + * virtchnl_ptp_caps structure. + */ +struct virtchnl_phc_tx_tstamp { + u64 tstamp; + u8 rsvd[8]; +}; +VIRTCHNL_CHECK_STRUCT_LEN(16, virtchnl_phc_tx_tstamp); + +enum virtchnl_phc_pin_func { + VIRTCHNL_PHC_PIN_FUNC_NONE = 0, /* Not assigned to any function */ + VIRTCHNL_PHC_PIN_FUNC_EXT_TS = 1, /* Assigned to external timestamp */ + VIRTCHNL_PHC_PIN_FUNC_PER_OUT = 2, /* Assigned to periodic output */ +}; + +/* Length of the pin configuration data. All pin configurations belong within + * the same union and *must* have this length in bytes. + */ +#define VIRTCHNL_PIN_CFG_LEN 64 + +/* virtchnl_phc_ext_ts_mode + * + * Mode of the external timestamp, indicating which edges of the input signal + * to timestamp. + */ +enum virtchnl_phc_ext_ts_mode { + VIRTCHNL_PHC_EXT_TS_NONE = 0, + VIRTCHNL_PHC_EXT_TS_RISING_EDGE = 1, + VIRTCHNL_PHC_EXT_TS_FALLING_EDGE = 2, + VIRTCHNL_PHC_EXT_TS_BOTH_EDGES = 3, +}; + +/** + * virtchnl_phc_ext_ts + * @mode: mode of external timestamp request + * @rsvd: reserved for future extension + * + * External timestamp configuration. Defines the configuration for this + * external timestamp function. + * + * If mode is VIRTCHNL_PHC_EXT_TS_NONE, the function is essentially disabled, + * timestamping nothing. + * + * If mode is VIRTCHNL_PHC_EXT_TS_RISING_EDGE, the function shall timestamp + * the rising edge of the input when it transitions from low to high signal. + * + * If mode is VIRTCHNL_PHC_EXT_TS_FALLING_EDGE, the function shall timestamp + * the falling edge of the input when it transitions from high to low signal. + * + * If mode is VIRTCHNL_PHC_EXT_TS_BOTH_EDGES, the function shall timestamp + * both the rising and falling edge of the signal whenever it changes. + * + * The PF shall return an error if the requested mode cannot be implemented on + * the function. + */ +struct virtchnl_phc_ext_ts { + u8 mode; /* see virtchnl_phc_ext_ts_mode */ + u8 rsvd[63]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(VIRTCHNL_PIN_CFG_LEN, virtchnl_phc_ext_ts); + +/* virtchnl_phc_per_out_flags + * + * Flags defining periodic output functionality. + */ +enum virtchnl_phc_per_out_flags { + VIRTCHNL_PHC_PER_OUT_PHASE_START = BIT(0), +}; + +/** + * virtchnl_phc_per_out + * @start: absolute start time (if VIRTCHNL_PHC_PER_OUT_PHASE_START unset) + * @phase: phase offset to start (if VIRTCHNL_PHC_PER_OUT_PHASE_START set) + * @period: time to complete a full clock cycle (low - > high -> low) + * @on: length of time the signal should stay high + * @flags: flags defining the periodic output operation. + * rsvd: reserved for future extension + * + * Configuration for a periodic output signal. Used to define the signal that + * should be generated on a given function. + * + * The period field determines the full length of the clock cycle, including + * both duration hold high transition and duration to hold low transition in + * nanoseconds. + * + * The on field determines how long the signal should remain high. For + * a traditional square wave clock that is on for some duration and off for + * the same duration, use an on length of precisely half the period. The duty + * cycle of the clock is period/on. + * + * If VIRTCHNL_PHC_PER_OUT_PHASE_START is unset, then the request is to start + * a clock an absolute time. This means that the clock should start precisely + * at the specified time in the start field. If the start time is in the past, + * then the periodic output should start at the next valid multiple of the + * period plus the start time: + * + * new_start = (n * period) + start + * (choose n such that new start is in the future) + * + * Note that the PF should not reject a start time in the past because it is + * possible that such a start time was valid when the request was made, but + * became invalid due to delay in programming the pin. + * + * If VIRTCHNL_PHC_PER_OUT_PHASE_START is set, then the request is to start + * the next multiple of the period plus the phase offset. The phase must be + * less than the period. In this case, the clock should start as soon possible + * at the next available multiple of the period. To calculate a start time + * when programming this mode, use: + * + * start = (n * period) + phase + * (choose n such that start is in the future) + * + * A period of zero should be treated as a request to disable the clock + * output. + */ +struct virtchnl_phc_per_out { + union { + u64 start; + u64 phase; + }; + u64 period; + u64 on; + u32 flags; + u8 rsvd[36]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(VIRTCHNL_PIN_CFG_LEN, virtchnl_phc_per_out); + +/* virtchnl_phc_pin_cfg_flags + * + * Definition of bits in the flags field of the virtchnl_phc_pin_cfg + * structure. + */ +enum virtchnl_phc_pin_cfg_flags { + /* Valid for VIRTCHNL_OP_1588_PTP_SET_PIN_CFG. If set, indicates this + * is a request to verify if the function can be assigned to the + * provided pin. In this case, the ext_ts and per_out fields are + * ignored, and the PF response must be an error if the pin cannot be + * assigned to that function index. + */ + VIRTCHNL_PHC_PIN_CFG_VERIFY = BIT(0), +}; + +/** + * virtchnl_phc_set_pin + * @pin_index: The pin to get or set + * @func: the function type the pin is assigned to + * @func_index: the index of the function the pin is assigned to + * @ext_ts: external timestamp configuration + * @per_out: periodic output configuration + * @rsvd1: Reserved for future extension + * @rsvd2: Reserved for future extension + * + * Sent along with the VIRTCHNL_OP_1588_PTP_SET_PIN_CFG op. + * + * The VF issues a VIRTCHNL_OP_1588_PTP_SET_PIN_CFG to assign the pin to one + * of the functions. It must set the pin_index field, the func field, and + * the func_index field. The pin_index must be less than n_pins, and the + * func_index must be less than the n_ext_ts or n_per_out depending on which + * function type is selected. If func is for an external timestamp, the + * ext_ts field must be filled in with the desired configuration. Similarly, + * if the function is for a periodic output, the per_out field must be + * configured. + * + * If the VIRTCHNL_PHC_PIN_CFG_VERIFY bit of the flag field is set, this is + * a request only to verify the configuration, not to set it. In this case, + * the PF should simply report an error if the requested pin cannot be + * assigned to the requested function. This allows VF to determine whether or + * not a given function can be assigned to a specific pin. Other flag bits are + * currently reserved and must be verified as zero on both sides. They may be + * extended in the future. + */ +struct virtchnl_phc_set_pin { + u32 flags; /* see virtchnl_phc_pin_cfg_flags */ + u8 pin_index; + u8 func; /* see virtchnl_phc_pin_func */ + u8 func_index; + u8 rsvd1; + union { + struct virtchnl_phc_ext_ts ext_ts; + struct virtchnl_phc_per_out per_out; + }; + u8 rsvd2[8]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(80, virtchnl_phc_set_pin); + +/** + * virtchnl_phc_pin + * @pin_index: The pin to get or set + * @func: the function type the pin is assigned to + * @func_index: the index of the function the pin is assigned to + * @rsvd: Reserved for future extension + * @name: human readable pin name, supplied by PF on GET_PIN_CFGS + * + * Sent by the PF as part of the VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS response. + * + * The VF issues a VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS request to the PF in + * order to obtain the current pin configuration for all of the pins that were + * assigned to this VF. + * + * This structure details the pin configuration state, including a pin name + * and which function is assigned to the pin currently. + */ +struct virtchnl_phc_pin { + u8 pin_index; + u8 func; /* see virtchnl_phc_pin_func */ + u8 func_index; + u8 rsvd[5]; + char name[64]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(72, virtchnl_phc_pin); + +/** + * virtchnl_phc_pin_cfg + * @len: length of the variable pin config array + * @pins: variable length pin configuration array + * + * Variable structure sent by the PF in reply to + * VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS. The VF does not send this structure with + * its request of the operation. + * + * It is possible that the PF may need to send more pin configuration data + * than can be sent in one virtchnl message. To handle this, the PF should + * issue multiple VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS responses. Each response + * will indicate the number of pins it covers. The VF should be ready to wait + * for multiple responses until it has received a total length equal to the + * number of n_pins negotiated during extended PTP capabilities exchange. + */ +struct virtchnl_phc_get_pins { + u8 len; + u8 rsvd[7]; + struct virtchnl_phc_pin pins[1]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(80, virtchnl_phc_get_pins); + +/** + * virtchnl_phc_ext_stamp + * @tstamp: timestamp value + * @tstamp_rsvd: Reserved for future extension of the timestamp value. + * @tstamp_format: format of the timstamp + * @func_index: external timestamp function this timestamp is for + * @rsvd2: Reserved for future extension + * + * Sent along with the VIRTCHNL_OP_1588_PTP_EXT_TIMESTAMP from the PF when an + * external timestamp function is triggered. + * + * This will be sent only if one of the external timestamp functions is + * configured by the VF, and is only valid if VIRTCHNL_1588_PTP_CAP_PIN_CFG is + * negotiated with the PF. + * + * The timestamp format is defined by the tstamp_format field using the + * virtchnl_ptp_tstamp_format enumeration. The tstamp_rsvd field is + * exclusively reserved for possible future variants of the timestamp format, + * and its access will be controlled by the tstamp_format field. + */ +struct virtchnl_phc_ext_tstamp { + u64 tstamp; + u8 tstamp_rsvd[8]; + u8 tstamp_format; + u8 func_index; + u8 rsvd2[6]; +}; + +VIRTCHNL_CHECK_STRUCT_LEN(24, virtchnl_phc_ext_tstamp); + +/* Since VF messages are limited by u16 size, precalculate the maximum possible + * values of nested elements in virtchnl structures that virtual channel can + * possibly handle in a single message. + */ +enum virtchnl_vector_limits { + VIRTCHNL_OP_CONFIG_VSI_QUEUES_MAX = + ((u16)(~0) - sizeof(struct virtchnl_vsi_queue_config_info)) / + sizeof(struct virtchnl_queue_pair_info), + + VIRTCHNL_OP_CONFIG_IRQ_MAP_MAX = + ((u16)(~0) - sizeof(struct virtchnl_irq_map_info)) / + sizeof(struct virtchnl_vector_map), + + VIRTCHNL_OP_ADD_DEL_ETH_ADDR_MAX = + ((u16)(~0) - sizeof(struct virtchnl_ether_addr_list)) / + sizeof(struct virtchnl_ether_addr), + + VIRTCHNL_OP_ADD_DEL_VLAN_MAX = + ((u16)(~0) - sizeof(struct virtchnl_vlan_filter_list)) / + sizeof(u16), + + + VIRTCHNL_OP_ENABLE_CHANNELS_MAX = + ((u16)(~0) - sizeof(struct virtchnl_tc_info)) / + sizeof(struct virtchnl_channel_info), + + VIRTCHNL_OP_ENABLE_DISABLE_DEL_QUEUES_V2_MAX = + ((u16)(~0) - sizeof(struct virtchnl_del_ena_dis_queues)) / + sizeof(struct virtchnl_queue_chunk), + + VIRTCHNL_OP_MAP_UNMAP_QUEUE_VECTOR_MAX = + ((u16)(~0) - sizeof(struct virtchnl_queue_vector_maps)) / + sizeof(struct virtchnl_queue_vector), + + VIRTCHNL_OP_ADD_DEL_VLAN_V2_MAX = + ((u16)(~0) - sizeof(struct virtchnl_vlan_filter_list_v2)) / + sizeof(struct virtchnl_vlan_filter), +}; + +/** + * virtchnl_vc_validate_vf_msg + * @ver: Virtchnl version info + * @v_opcode: Opcode for the message + * @msg: pointer to the msg buffer + * @msglen: msg length + * + * validate msg format against struct for each opcode + */ +static inline int +virtchnl_vc_validate_vf_msg(struct virtchnl_version_info *ver, u32 v_opcode, + u8 *msg, u16 msglen) +{ + bool err_msg_format = false; + u32 valid_len = 0; + + /* Validate message length. */ + switch (v_opcode) { + case VIRTCHNL_OP_VERSION: + valid_len = sizeof(struct virtchnl_version_info); + break; + case VIRTCHNL_OP_RESET_VF: + break; + case VIRTCHNL_OP_GET_VF_RESOURCES: + if (VF_IS_V11(ver)) + valid_len = sizeof(u32); + break; + case VIRTCHNL_OP_CONFIG_TX_QUEUE: + valid_len = sizeof(struct virtchnl_txq_info); + break; + case VIRTCHNL_OP_CONFIG_RX_QUEUE: + valid_len = sizeof(struct virtchnl_rxq_info); + break; + case VIRTCHNL_OP_CONFIG_VSI_QUEUES: + valid_len = sizeof(struct virtchnl_vsi_queue_config_info); + if (msglen >= valid_len) { + struct virtchnl_vsi_queue_config_info *vqc = + (struct virtchnl_vsi_queue_config_info *)msg; + + if (vqc->num_queue_pairs == 0 || vqc->num_queue_pairs > + VIRTCHNL_OP_CONFIG_VSI_QUEUES_MAX) { + err_msg_format = true; + break; + } + + valid_len += (vqc->num_queue_pairs * + sizeof(struct + virtchnl_queue_pair_info)); + } + break; + case VIRTCHNL_OP_CONFIG_IRQ_MAP: + valid_len = sizeof(struct virtchnl_irq_map_info); + if (msglen >= valid_len) { + struct virtchnl_irq_map_info *vimi = + (struct virtchnl_irq_map_info *)msg; + + if (vimi->num_vectors == 0 || vimi->num_vectors > + VIRTCHNL_OP_CONFIG_IRQ_MAP_MAX) { + err_msg_format = true; + break; + } + + valid_len += (vimi->num_vectors * + sizeof(struct virtchnl_vector_map)); + } + break; + case VIRTCHNL_OP_ENABLE_QUEUES: + case VIRTCHNL_OP_DISABLE_QUEUES: + valid_len = sizeof(struct virtchnl_queue_select); + break; + case VIRTCHNL_OP_GET_MAX_RSS_QREGION: + break; + case VIRTCHNL_OP_ADD_ETH_ADDR: + case VIRTCHNL_OP_DEL_ETH_ADDR: + valid_len = sizeof(struct virtchnl_ether_addr_list); + if (msglen >= valid_len) { + struct virtchnl_ether_addr_list *veal = + (struct virtchnl_ether_addr_list *)msg; + + if (veal->num_elements == 0 || veal->num_elements > + VIRTCHNL_OP_ADD_DEL_ETH_ADDR_MAX) { + err_msg_format = true; + break; + } + + valid_len += veal->num_elements * + sizeof(struct virtchnl_ether_addr); + } + break; + case VIRTCHNL_OP_ADD_VLAN: + case VIRTCHNL_OP_DEL_VLAN: + valid_len = sizeof(struct virtchnl_vlan_filter_list); + if (msglen >= valid_len) { + struct virtchnl_vlan_filter_list *vfl = + (struct virtchnl_vlan_filter_list *)msg; + + if (vfl->num_elements == 0 || vfl->num_elements > + VIRTCHNL_OP_ADD_DEL_VLAN_MAX) { + err_msg_format = true; + break; + } + + valid_len += vfl->num_elements * sizeof(u16); + } + break; + case VIRTCHNL_OP_CONFIG_PROMISCUOUS_MODE: + valid_len = sizeof(struct virtchnl_promisc_info); + break; + case VIRTCHNL_OP_GET_STATS: + valid_len = sizeof(struct virtchnl_queue_select); + break; + case VIRTCHNL_OP_CONFIG_RSS_KEY: + valid_len = sizeof(struct virtchnl_rss_key); + if (msglen >= valid_len) { + struct virtchnl_rss_key *vrk = + (struct virtchnl_rss_key *)msg; + + if (vrk->key_len == 0) { + /* zero length is allowed as input */ + break; + } + + valid_len += vrk->key_len - 1; + } + break; + case VIRTCHNL_OP_CONFIG_RSS_LUT: + valid_len = sizeof(struct virtchnl_rss_lut); + if (msglen >= valid_len) { + struct virtchnl_rss_lut *vrl = + (struct virtchnl_rss_lut *)msg; + + if (vrl->lut_entries == 0) { + /* zero entries is allowed as input */ + break; + } + + valid_len += vrl->lut_entries - 1; + } + break; + case VIRTCHNL_OP_GET_RSS_HENA_CAPS: + break; + case VIRTCHNL_OP_SET_RSS_HENA: + valid_len = sizeof(struct virtchnl_rss_hena); + break; + case VIRTCHNL_OP_ENABLE_VLAN_STRIPPING: + case VIRTCHNL_OP_DISABLE_VLAN_STRIPPING: + break; + case VIRTCHNL_OP_REQUEST_QUEUES: + valid_len = sizeof(struct virtchnl_vf_res_request); + break; + case VIRTCHNL_OP_ENABLE_CHANNELS: + valid_len = sizeof(struct virtchnl_tc_info); + if (msglen >= valid_len) { + struct virtchnl_tc_info *vti = + (struct virtchnl_tc_info *)msg; + + if (vti->num_tc == 0 || vti->num_tc > + VIRTCHNL_OP_ENABLE_CHANNELS_MAX) { + err_msg_format = true; + break; + } + + valid_len += (vti->num_tc - 1) * + sizeof(struct virtchnl_channel_info); + } + break; + case VIRTCHNL_OP_DISABLE_CHANNELS: + break; + case VIRTCHNL_OP_ADD_CLOUD_FILTER: + case VIRTCHNL_OP_DEL_CLOUD_FILTER: + valid_len = sizeof(struct virtchnl_filter); + break; + case VIRTCHNL_OP_ADD_RSS_CFG: + case VIRTCHNL_OP_DEL_RSS_CFG: + valid_len = sizeof(struct virtchnl_rss_cfg); + break; + case VIRTCHNL_OP_ADD_FDIR_FILTER: + valid_len = sizeof(struct virtchnl_fdir_add); + break; + case VIRTCHNL_OP_DEL_FDIR_FILTER: + valid_len = sizeof(struct virtchnl_fdir_del); + break; + case VIRTCHNL_OP_GET_QOS_CAPS: + break; + case VIRTCHNL_OP_CONFIG_QUEUE_TC_MAP: + valid_len = sizeof(struct virtchnl_queue_tc_mapping); + if (msglen >= valid_len) { + struct virtchnl_queue_tc_mapping *q_tc = + (struct virtchnl_queue_tc_mapping *)msg; + if (q_tc->num_tc == 0) { + err_msg_format = true; + break; + } + valid_len += (q_tc->num_tc - 1) * + sizeof(q_tc->tc[0]); + } + break; + case VIRTCHNL_OP_CONFIG_QUEUE_BW: + valid_len = sizeof(struct virtchnl_queues_bw_cfg); + if (msglen >= valid_len) { + struct virtchnl_queues_bw_cfg *q_bw = + (struct virtchnl_queues_bw_cfg *)msg; + if (q_bw->num_queues == 0) { + err_msg_format = true; + break; + } + valid_len += (q_bw->num_queues - 1) * + sizeof(q_bw->cfg[0]); + } + break; + case VIRTCHNL_OP_CONFIG_QUANTA: + valid_len = sizeof(struct virtchnl_quanta_cfg); + if (msglen >= valid_len) { + struct virtchnl_quanta_cfg *q_quanta = + (struct virtchnl_quanta_cfg *)msg; + if (q_quanta->quanta_size == 0 || + q_quanta->queue_select.num_queues == 0) { + err_msg_format = true; + break; + } + } + break; + case VIRTCHNL_OP_GET_OFFLOAD_VLAN_V2_CAPS: + break; + case VIRTCHNL_OP_ADD_VLAN_V2: + case VIRTCHNL_OP_DEL_VLAN_V2: + valid_len = sizeof(struct virtchnl_vlan_filter_list_v2); + if (msglen >= valid_len) { + struct virtchnl_vlan_filter_list_v2 *vfl = + (struct virtchnl_vlan_filter_list_v2 *)msg; + + if (vfl->num_elements == 0 || vfl->num_elements > + VIRTCHNL_OP_ADD_DEL_VLAN_V2_MAX) { + err_msg_format = true; + break; + } + + valid_len += (vfl->num_elements - 1) * + sizeof(struct virtchnl_vlan_filter); + } + break; + case VIRTCHNL_OP_ENABLE_VLAN_STRIPPING_V2: + case VIRTCHNL_OP_DISABLE_VLAN_STRIPPING_V2: + case VIRTCHNL_OP_ENABLE_VLAN_INSERTION_V2: + case VIRTCHNL_OP_DISABLE_VLAN_INSERTION_V2: + case VIRTCHNL_OP_ENABLE_VLAN_FILTERING_V2: + case VIRTCHNL_OP_DISABLE_VLAN_FILTERING_V2: + valid_len = sizeof(struct virtchnl_vlan_setting); + break; + case VIRTCHNL_OP_1588_PTP_GET_CAPS: + valid_len = sizeof(struct virtchnl_ptp_caps); + break; + case VIRTCHNL_OP_1588_PTP_GET_TIME: + case VIRTCHNL_OP_1588_PTP_SET_TIME: + valid_len = sizeof(struct virtchnl_phc_time); + break; + case VIRTCHNL_OP_1588_PTP_ADJ_TIME: + valid_len = sizeof(struct virtchnl_phc_adj_time); + break; + case VIRTCHNL_OP_1588_PTP_ADJ_FREQ: + valid_len = sizeof(struct virtchnl_phc_adj_freq); + break; + case VIRTCHNL_OP_1588_PTP_TX_TIMESTAMP: + valid_len = sizeof(struct virtchnl_phc_tx_tstamp); + break; + case VIRTCHNL_OP_1588_PTP_SET_PIN_CFG: + valid_len = sizeof(struct virtchnl_phc_set_pin); + break; + case VIRTCHNL_OP_1588_PTP_GET_PIN_CFGS: + break; + case VIRTCHNL_OP_1588_PTP_EXT_TIMESTAMP: + valid_len = sizeof(struct virtchnl_phc_ext_tstamp); + break; + case VIRTCHNL_OP_ENABLE_QUEUES_V2: + case VIRTCHNL_OP_DISABLE_QUEUES_V2: + valid_len = sizeof(struct virtchnl_del_ena_dis_queues); + if (msglen >= valid_len) { + struct virtchnl_del_ena_dis_queues *qs = + (struct virtchnl_del_ena_dis_queues *)msg; + if (qs->chunks.num_chunks == 0 || + qs->chunks.num_chunks > VIRTCHNL_OP_ENABLE_DISABLE_DEL_QUEUES_V2_MAX) { + err_msg_format = true; + break; + } + valid_len += (qs->chunks.num_chunks - 1) * + sizeof(struct virtchnl_queue_chunk); + } + break; + case VIRTCHNL_OP_MAP_QUEUE_VECTOR: + valid_len = sizeof(struct virtchnl_queue_vector_maps); + if (msglen >= valid_len) { + struct virtchnl_queue_vector_maps *v_qp = + (struct virtchnl_queue_vector_maps *)msg; + if (v_qp->num_qv_maps == 0 || + v_qp->num_qv_maps > VIRTCHNL_OP_MAP_UNMAP_QUEUE_VECTOR_MAX) { + err_msg_format = true; + break; + } + valid_len += (v_qp->num_qv_maps - 1) * + sizeof(struct virtchnl_queue_vector); + } + break; + /* These are always errors coming from the VF. */ + case VIRTCHNL_OP_EVENT: + case VIRTCHNL_OP_UNKNOWN: + default: + return VIRTCHNL_STATUS_ERR_PARAM; + } + /* few more checks */ + if (err_msg_format || valid_len != msglen) + return VIRTCHNL_STATUS_ERR_OPCODE_MISMATCH; + + return 0; +} +#endif /* _VIRTCHNL_H_ */ diff --git a/drivers/common/idpf/base/virtchnl2.h b/drivers/common/idpf/base/virtchnl2.h new file mode 100644 index 0000000000..d496f2388e --- /dev/null +++ b/drivers/common/idpf/base/virtchnl2.h @@ -0,0 +1,1462 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _VIRTCHNL2_H_ +#define _VIRTCHNL2_H_ + +/* All opcodes associated with virtchnl 2 are prefixed with virtchnl2 or + * VIRTCHNL2. Any future opcodes, offloads/capabilities, structures, + * and defines must be prefixed with virtchnl2 or VIRTCHNL2 to avoid confusion. + */ + +#include "virtchnl2_lan_desc.h" + +/* Error Codes + * Note that many older versions of various iAVF drivers convert the reported + * status code directly into an iavf_status enumeration. For this reason, it + * is important that the values of these enumerations line up. + */ +#define VIRTCHNL2_STATUS_SUCCESS 0 +#define VIRTCHNL2_STATUS_ERR_PARAM -5 +#define VIRTCHNL2_STATUS_ERR_OPCODE_MISMATCH -38 + +/* These macros are used to generate compilation errors if a structure/union + * is not exactly the correct length. It gives a divide by zero error if the + * structure/union is not of the correct size, otherwise it creates an enum + * that is never used. + */ +#define VIRTCHNL2_CHECK_STRUCT_LEN(n, X) enum virtchnl2_static_assert_enum_##X \ + { virtchnl2_static_assert_##X = (n)/((sizeof(struct X) == (n)) ? 1 : 0) } +#define VIRTCHNL2_CHECK_UNION_LEN(n, X) enum virtchnl2_static_asset_enum_##X \ + { virtchnl2_static_assert_##X = (n)/((sizeof(union X) == (n)) ? 1 : 0) } + +/* New major set of opcodes introduced and so leaving room for + * old misc opcodes to be added in future. Also these opcodes may only + * be used if both the PF and VF have successfully negotiated the + * VIRTCHNL version as 2.0 during VIRTCHNL22_OP_VERSION exchange. + */ +#define VIRTCHNL2_OP_UNKNOWN 0 +#define VIRTCHNL2_OP_VERSION 1 +#define VIRTCHNL2_OP_GET_CAPS 500 +#define VIRTCHNL2_OP_CREATE_VPORT 501 +#define VIRTCHNL2_OP_DESTROY_VPORT 502 +#define VIRTCHNL2_OP_ENABLE_VPORT 503 +#define VIRTCHNL2_OP_DISABLE_VPORT 504 +#define VIRTCHNL2_OP_CONFIG_TX_QUEUES 505 +#define VIRTCHNL2_OP_CONFIG_RX_QUEUES 506 +#define VIRTCHNL2_OP_ENABLE_QUEUES 507 +#define VIRTCHNL2_OP_DISABLE_QUEUES 508 +#define VIRTCHNL2_OP_ADD_QUEUES 509 +#define VIRTCHNL2_OP_DEL_QUEUES 510 +#define VIRTCHNL2_OP_MAP_QUEUE_VECTOR 511 +#define VIRTCHNL2_OP_UNMAP_QUEUE_VECTOR 512 +#define VIRTCHNL2_OP_GET_RSS_KEY 513 +#define VIRTCHNL2_OP_SET_RSS_KEY 514 +#define VIRTCHNL2_OP_GET_RSS_LUT 515 +#define VIRTCHNL2_OP_SET_RSS_LUT 516 +#define VIRTCHNL2_OP_GET_RSS_HASH 517 +#define VIRTCHNL2_OP_SET_RSS_HASH 518 +#define VIRTCHNL2_OP_SET_SRIOV_VFS 519 +#define VIRTCHNL2_OP_ALLOC_VECTORS 520 +#define VIRTCHNL2_OP_DEALLOC_VECTORS 521 +#define VIRTCHNL2_OP_EVENT 522 +#define VIRTCHNL2_OP_GET_STATS 523 +#define VIRTCHNL2_OP_RESET_VF 524 + /* opcode 525 is reserved */ +#define VIRTCHNL2_OP_GET_PTYPE_INFO 526 + /* opcode 527 and 528 are reserved for VIRTCHNL2_OP_GET_PTYPE_ID and + * VIRTCHNL2_OP_GET_PTYPE_INFO_RAW + */ + /* opcodes 529, 530, and 531 are reserved */ +#define VIRTCHNL2_OP_CREATE_ADI 532 +#define VIRTCHNL2_OP_DESTROY_ADI 533 +#define VIRTCHNL2_OP_LOOPBACK 534 +#define VIRTCHNL2_OP_ADD_MAC_ADDR 535 +#define VIRTCHNL2_OP_DEL_MAC_ADDR 536 +#define VIRTCHNL2_OP_CONFIG_PROMISCUOUS_MODE 537 + +#define VIRTCHNL2_RDMA_INVALID_QUEUE_IDX 0xFFFF + +/* VIRTCHNL2_VPORT_TYPE + * Type of virtual port + */ +#define VIRTCHNL2_VPORT_TYPE_DEFAULT 0 +#define VIRTCHNL2_VPORT_TYPE_SRIOV 1 +#define VIRTCHNL2_VPORT_TYPE_SIOV 2 +#define VIRTCHNL2_VPORT_TYPE_SUBDEV 3 +#define VIRTCHNL2_VPORT_TYPE_MNG 4 + +/* VIRTCHNL2_QUEUE_MODEL + * Type of queue model + * + * In the single queue model, the same transmit descriptor queue is used by + * software to post descriptors to hardware and by hardware to post completed + * descriptors to software. + * Likewise, the same receive descriptor queue is used by hardware to post + * completions to software and by software to post buffers to hardware. + */ +#define VIRTCHNL2_QUEUE_MODEL_SINGLE 0 +/* In the split queue model, hardware uses transmit completion queues to post + * descriptor/buffer completions to software, while software uses transmit + * descriptor queues to post descriptors to hardware. + * Likewise, hardware posts descriptor completions to the receive descriptor + * queue, while software uses receive buffer queues to post buffers to hardware. + */ +#define VIRTCHNL2_QUEUE_MODEL_SPLIT 1 + +/* VIRTCHNL2_CHECKSUM_OFFLOAD_CAPS + * Checksum offload capability flags + */ +#define VIRTCHNL2_CAP_TX_CSUM_L3_IPV4 BIT(0) +#define VIRTCHNL2_CAP_TX_CSUM_L4_IPV4_TCP BIT(1) +#define VIRTCHNL2_CAP_TX_CSUM_L4_IPV4_UDP BIT(2) +#define VIRTCHNL2_CAP_TX_CSUM_L4_IPV4_SCTP BIT(3) +#define VIRTCHNL2_CAP_TX_CSUM_L4_IPV6_TCP BIT(4) +#define VIRTCHNL2_CAP_TX_CSUM_L4_IPV6_UDP BIT(5) +#define VIRTCHNL2_CAP_TX_CSUM_L4_IPV6_SCTP BIT(6) +#define VIRTCHNL2_CAP_TX_CSUM_GENERIC BIT(7) +#define VIRTCHNL2_CAP_RX_CSUM_L3_IPV4 BIT(8) +#define VIRTCHNL2_CAP_RX_CSUM_L4_IPV4_TCP BIT(9) +#define VIRTCHNL2_CAP_RX_CSUM_L4_IPV4_UDP BIT(10) +#define VIRTCHNL2_CAP_RX_CSUM_L4_IPV4_SCTP BIT(11) +#define VIRTCHNL2_CAP_RX_CSUM_L4_IPV6_TCP BIT(12) +#define VIRTCHNL2_CAP_RX_CSUM_L4_IPV6_UDP BIT(13) +#define VIRTCHNL2_CAP_RX_CSUM_L4_IPV6_SCTP BIT(14) +#define VIRTCHNL2_CAP_RX_CSUM_GENERIC BIT(15) +#define VIRTCHNL2_CAP_TX_CSUM_L3_SINGLE_TUNNEL BIT(16) +#define VIRTCHNL2_CAP_TX_CSUM_L3_DOUBLE_TUNNEL BIT(17) +#define VIRTCHNL2_CAP_RX_CSUM_L3_SINGLE_TUNNEL BIT(18) +#define VIRTCHNL2_CAP_RX_CSUM_L3_DOUBLE_TUNNEL BIT(19) +#define VIRTCHNL2_CAP_TX_CSUM_L4_SINGLE_TUNNEL BIT(20) +#define VIRTCHNL2_CAP_TX_CSUM_L4_DOUBLE_TUNNEL BIT(21) +#define VIRTCHNL2_CAP_RX_CSUM_L4_SINGLE_TUNNEL BIT(22) +#define VIRTCHNL2_CAP_RX_CSUM_L4_DOUBLE_TUNNEL BIT(23) + +/* VIRTCHNL2_SEGMENTATION_OFFLOAD_CAPS + * Segmentation offload capability flags + */ +#define VIRTCHNL2_CAP_SEG_IPV4_TCP BIT(0) +#define VIRTCHNL2_CAP_SEG_IPV4_UDP BIT(1) +#define VIRTCHNL2_CAP_SEG_IPV4_SCTP BIT(2) +#define VIRTCHNL2_CAP_SEG_IPV6_TCP BIT(3) +#define VIRTCHNL2_CAP_SEG_IPV6_UDP BIT(4) +#define VIRTCHNL2_CAP_SEG_IPV6_SCTP BIT(5) +#define VIRTCHNL2_CAP_SEG_GENERIC BIT(6) +#define VIRTCHNL2_CAP_SEG_TX_SINGLE_TUNNEL BIT(7) +#define VIRTCHNL2_CAP_SEG_TX_DOUBLE_TUNNEL BIT(8) + +/* VIRTCHNL2_RSS_FLOW_TYPE_CAPS + * Receive Side Scaling Flow type capability flags + */ +#define VIRTCHNL2_CAP_RSS_IPV4_TCP BIT(0) +#define VIRTCHNL2_CAP_RSS_IPV4_UDP BIT(1) +#define VIRTCHNL2_CAP_RSS_IPV4_SCTP BIT(2) +#define VIRTCHNL2_CAP_RSS_IPV4_OTHER BIT(3) +#define VIRTCHNL2_CAP_RSS_IPV6_TCP BIT(4) +#define VIRTCHNL2_CAP_RSS_IPV6_UDP BIT(5) +#define VIRTCHNL2_CAP_RSS_IPV6_SCTP BIT(6) +#define VIRTCHNL2_CAP_RSS_IPV6_OTHER BIT(7) +#define VIRTCHNL2_CAP_RSS_IPV4_AH BIT(8) +#define VIRTCHNL2_CAP_RSS_IPV4_ESP BIT(9) +#define VIRTCHNL2_CAP_RSS_IPV4_AH_ESP BIT(10) +#define VIRTCHNL2_CAP_RSS_IPV6_AH BIT(11) +#define VIRTCHNL2_CAP_RSS_IPV6_ESP BIT(12) +#define VIRTCHNL2_CAP_RSS_IPV6_AH_ESP BIT(13) + +/* VIRTCHNL2_HEADER_SPLIT_CAPS + * Header split capability flags + */ +/* for prepended metadata */ +#define VIRTCHNL2_CAP_RX_HSPLIT_AT_L2 BIT(0) +/* all VLANs go into header buffer */ +#define VIRTCHNL2_CAP_RX_HSPLIT_AT_L3 BIT(1) +#define VIRTCHNL2_CAP_RX_HSPLIT_AT_L4V4 BIT(2) +#define VIRTCHNL2_CAP_RX_HSPLIT_AT_L4V6 BIT(3) + +/* VIRTCHNL2_RSC_OFFLOAD_CAPS + * Receive Side Coalescing offload capability flags + */ +#define VIRTCHNL2_CAP_RSC_IPV4_TCP BIT(0) +#define VIRTCHNL2_CAP_RSC_IPV4_SCTP BIT(1) +#define VIRTCHNL2_CAP_RSC_IPV6_TCP BIT(2) +#define VIRTCHNL2_CAP_RSC_IPV6_SCTP BIT(3) + +/* VIRTCHNL2_OTHER_CAPS + * Other capability flags + * SPLITQ_QSCHED: Queue based scheduling using split queue model + * TX_VLAN: VLAN tag insertion + * RX_VLAN: VLAN tag stripping + */ +#define VIRTCHNL2_CAP_RDMA BIT(0) +#define VIRTCHNL2_CAP_SRIOV BIT(1) +#define VIRTCHNL2_CAP_MACFILTER BIT(2) +#define VIRTCHNL2_CAP_FLOW_DIRECTOR BIT(3) +#define VIRTCHNL2_CAP_SPLITQ_QSCHED BIT(4) +#define VIRTCHNL2_CAP_CRC BIT(5) +#define VIRTCHNL2_CAP_ADQ BIT(6) +#define VIRTCHNL2_CAP_WB_ON_ITR BIT(7) +#define VIRTCHNL2_CAP_PROMISC BIT(8) +#define VIRTCHNL2_CAP_LINK_SPEED BIT(9) +#define VIRTCHNL2_CAP_INLINE_IPSEC BIT(10) +#define VIRTCHNL2_CAP_LARGE_NUM_QUEUES BIT(11) +/* require additional info */ +#define VIRTCHNL2_CAP_VLAN BIT(12) +#define VIRTCHNL2_CAP_PTP BIT(13) +#define VIRTCHNL2_CAP_ADV_RSS BIT(15) +#define VIRTCHNL2_CAP_FDIR BIT(16) +#define VIRTCHNL2_CAP_RX_FLEX_DESC BIT(17) +#define VIRTCHNL2_CAP_PTYPE BIT(18) +#define VIRTCHNL2_CAP_LOOPBACK BIT(19) +#define VIRTCHNL2_CAP_OEM BIT(20) + +/* VIRTCHNL2_DEVICE_TYPE */ +/* underlying device type */ +#define VIRTCHNL2_MEV_DEVICE 0 + +/* VIRTCHNL2_TXQ_SCHED_MODE + * Transmit Queue Scheduling Modes - Queue mode is the legacy mode i.e. inorder + * completions where descriptors and buffers are completed at the same time. + * Flow scheduling mode allows for out of order packet processing where + * descriptors are cleaned in order, but buffers can be completed out of order. + */ +#define VIRTCHNL2_TXQ_SCHED_MODE_QUEUE 0 +#define VIRTCHNL2_TXQ_SCHED_MODE_FLOW 1 + +/* VIRTCHNL2_TXQ_FLAGS + * Transmit Queue feature flags + * + * Enable rule miss completion type; packet completion for a packet + * sent on exception path; only relevant in flow scheduling mode + */ +#define VIRTCHNL2_TXQ_ENABLE_MISS_COMPL BIT(0) + +/* VIRTCHNL2_PEER_TYPE + * Transmit mailbox peer type + */ +#define VIRTCHNL2_RDMA_CPF 0 +#define VIRTCHNL2_NVME_CPF 1 +#define VIRTCHNL2_ATE_CPF 2 +#define VIRTCHNL2_LCE_CPF 3 + +/* VIRTCHNL2_RXQ_FLAGS + * Receive Queue Feature flags + */ +#define VIRTCHNL2_RXQ_RSC BIT(0) +#define VIRTCHNL2_RXQ_HDR_SPLIT BIT(1) +/* When set, packet descriptors are flushed by hardware immediately after + * processing each packet. + */ +#define VIRTCHNL2_RXQ_IMMEDIATE_WRITE_BACK BIT(2) +#define VIRTCHNL2_RX_DESC_SIZE_16BYTE BIT(3) +#define VIRTCHNL2_RX_DESC_SIZE_32BYTE BIT(4) + +/* VIRTCHNL2_RSS_ALGORITHM + * Type of RSS algorithm + */ +#define VIRTCHNL2_RSS_ALG_TOEPLITZ_ASYMMETRIC 0 +#define VIRTCHNL2_RSS_ALG_R_ASYMMETRIC 1 +#define VIRTCHNL2_RSS_ALG_TOEPLITZ_SYMMETRIC 2 +#define VIRTCHNL2_RSS_ALG_XOR_SYMMETRIC 3 + +/* VIRTCHNL2_EVENT_CODES + * Type of event + */ +#define VIRTCHNL2_EVENT_UNKNOWN 0 +#define VIRTCHNL2_EVENT_LINK_CHANGE 1 +/* These messages are only sent to PF from CP */ +#define VIRTCHNL2_EVENT_START_RESET_ADI 2 +#define VIRTCHNL2_EVENT_FINISH_RESET_ADI 3 + +/* VIRTCHNL2_QUEUE_TYPE + * Transmit and Receive queue types are valid in legacy as well as split queue + * models. With Split Queue model, 2 additional types are introduced - + * TX_COMPLETION and RX_BUFFER. In split queue model, receive corresponds to + * the queue where hardware posts completions. + */ +#define VIRTCHNL2_QUEUE_TYPE_TX 0 +#define VIRTCHNL2_QUEUE_TYPE_RX 1 +#define VIRTCHNL2_QUEUE_TYPE_TX_COMPLETION 2 +#define VIRTCHNL2_QUEUE_TYPE_RX_BUFFER 3 +#define VIRTCHNL2_QUEUE_TYPE_CONFIG_TX 4 +#define VIRTCHNL2_QUEUE_TYPE_CONFIG_RX 5 +#define VIRTCHNL2_QUEUE_TYPE_P2P_TX 6 +#define VIRTCHNL2_QUEUE_TYPE_P2P_RX 7 +#define VIRTCHNL2_QUEUE_TYPE_P2P_TX_COMPLETION 8 +#define VIRTCHNL2_QUEUE_TYPE_P2P_RX_BUFFER 9 +#define VIRTCHNL2_QUEUE_TYPE_MBX_TX 10 +#define VIRTCHNL2_QUEUE_TYPE_MBX_RX 11 + +/* VIRTCHNL2_ITR_IDX + * Virtchannel interrupt throttling rate index + */ +#define VIRTCHNL2_ITR_IDX_0 0 +#define VIRTCHNL2_ITR_IDX_1 1 +#define VIRTCHNL2_ITR_IDX_2 2 +#define VIRTCHNL2_ITR_IDX_NO_ITR 3 + +/* VIRTCHNL2_VECTOR_LIMITS + * Since PF/VF messages are limited by __le16 size, precalculate the maximum + * possible values of nested elements in virtchnl structures that virtual + * channel can possibly handle in a single message. + */ + +#define VIRTCHNL2_OP_DEL_ENABLE_DISABLE_QUEUES_MAX (\ + ((__le16)(~0) - sizeof(struct virtchnl2_del_ena_dis_queues)) / \ + sizeof(struct virtchnl2_queue_chunk)) + +#define VIRTCHNL2_OP_MAP_UNMAP_QUEUE_VECTOR_MAX (\ + ((__le16)(~0) - sizeof(struct virtchnl2_queue_vector_maps)) / \ + sizeof(struct virtchnl2_queue_vector)) + +/* VIRTCHNL2_MAC_TYPE + * VIRTCHNL2_MAC_ADDR_PRIMARY + * PF/VF driver should set @type to VIRTCHNL2_MAC_ADDR_PRIMARY for the + * primary/device unicast MAC address filter for VIRTCHNL2_OP_ADD_MAC_ADDR and + * VIRTCHNL2_OP_DEL_MAC_ADDR. This allows for the underlying control plane + * function to accurately track the MAC address and for VM/function reset. + * + * VIRTCHNL2_MAC_ADDR_EXTRA + * PF/VF driver should set @type to VIRTCHNL2_MAC_ADDR_EXTRA for any extra + * unicast and/or multicast filters that are being added/deleted via + * VIRTCHNL2_OP_ADD_MAC_ADDR/VIRTCHNL2_OP_DEL_MAC_ADDR respectively. + */ +#define VIRTCHNL2_MAC_ADDR_PRIMARY 1 +#define VIRTCHNL2_MAC_ADDR_EXTRA 2 + +/* VIRTCHNL2_PROMISC_FLAGS + * Flags used for promiscuous mode + */ +#define VIRTCHNL2_UNICAST_PROMISC BIT(0) +#define VIRTCHNL2_MULTICAST_PROMISC BIT(1) + +/* VIRTCHNL2_PROTO_HDR_TYPE + * Protocol header type within a packet segment. A segment consists of one or + * more protocol headers that make up a logical group of protocol headers. Each + * logical group of protocol headers encapsulates or is encapsulated using/by + * tunneling or encapsulation protocols for network virtualization. + */ +/* VIRTCHNL2_PROTO_HDR_ANY is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_ANY 0 +#define VIRTCHNL2_PROTO_HDR_PRE_MAC 1 +/* VIRTCHNL2_PROTO_HDR_MAC is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_MAC 2 +#define VIRTCHNL2_PROTO_HDR_POST_MAC 3 +#define VIRTCHNL2_PROTO_HDR_ETHERTYPE 4 +#define VIRTCHNL2_PROTO_HDR_VLAN 5 +#define VIRTCHNL2_PROTO_HDR_SVLAN 6 +#define VIRTCHNL2_PROTO_HDR_CVLAN 7 +#define VIRTCHNL2_PROTO_HDR_MPLS 8 +#define VIRTCHNL2_PROTO_HDR_UMPLS 9 +#define VIRTCHNL2_PROTO_HDR_MMPLS 10 +#define VIRTCHNL2_PROTO_HDR_PTP 11 +#define VIRTCHNL2_PROTO_HDR_CTRL 12 +#define VIRTCHNL2_PROTO_HDR_LLDP 13 +#define VIRTCHNL2_PROTO_HDR_ARP 14 +#define VIRTCHNL2_PROTO_HDR_ECP 15 +#define VIRTCHNL2_PROTO_HDR_EAPOL 16 +#define VIRTCHNL2_PROTO_HDR_PPPOD 17 +#define VIRTCHNL2_PROTO_HDR_PPPOE 18 +/* VIRTCHNL2_PROTO_HDR_IPV4 is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_IPV4 19 +/* IPv4 and IPv6 Fragment header types are only associated to + * VIRTCHNL2_PROTO_HDR_IPV4 and VIRTCHNL2_PROTO_HDR_IPV6 respectively, + * cannot be used independently. + */ +/* VIRTCHNL2_PROTO_HDR_IPV4_FRAG is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_IPV4_FRAG 20 +/* VIRTCHNL2_PROTO_HDR_IPV6 is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_IPV6 21 +/* VIRTCHNL2_PROTO_HDR_IPV6_FRAG is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_IPV6_FRAG 22 +#define VIRTCHNL2_PROTO_HDR_IPV6_EH 23 +/* VIRTCHNL2_PROTO_HDR_UDP is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_UDP 24 +/* VIRTCHNL2_PROTO_HDR_TCP is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_TCP 25 +/* VIRTCHNL2_PROTO_HDR_SCTP is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_SCTP 26 +/* VIRTCHNL2_PROTO_HDR_ICMP is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_ICMP 27 +/* VIRTCHNL2_PROTO_HDR_ICMPV6 is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_ICMPV6 28 +#define VIRTCHNL2_PROTO_HDR_IGMP 29 +#define VIRTCHNL2_PROTO_HDR_AH 30 +#define VIRTCHNL2_PROTO_HDR_ESP 31 +#define VIRTCHNL2_PROTO_HDR_IKE 32 +#define VIRTCHNL2_PROTO_HDR_NATT_KEEP 33 +/* VIRTCHNL2_PROTO_HDR_PAY is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_PAY 34 +#define VIRTCHNL2_PROTO_HDR_L2TPV2 35 +#define VIRTCHNL2_PROTO_HDR_L2TPV2_CONTROL 36 +#define VIRTCHNL2_PROTO_HDR_L2TPV3 37 +#define VIRTCHNL2_PROTO_HDR_GTP 38 +#define VIRTCHNL2_PROTO_HDR_GTP_EH 39 +#define VIRTCHNL2_PROTO_HDR_GTPCV2 40 +#define VIRTCHNL2_PROTO_HDR_GTPC_TEID 41 +#define VIRTCHNL2_PROTO_HDR_GTPU 42 +#define VIRTCHNL2_PROTO_HDR_GTPU_UL 43 +#define VIRTCHNL2_PROTO_HDR_GTPU_DL 44 +#define VIRTCHNL2_PROTO_HDR_ECPRI 45 +#define VIRTCHNL2_PROTO_HDR_VRRP 46 +#define VIRTCHNL2_PROTO_HDR_OSPF 47 +/* VIRTCHNL2_PROTO_HDR_TUN is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_TUN 48 +#define VIRTCHNL2_PROTO_HDR_GRE 49 +#define VIRTCHNL2_PROTO_HDR_NVGRE 50 +#define VIRTCHNL2_PROTO_HDR_VXLAN 51 +#define VIRTCHNL2_PROTO_HDR_VXLAN_GPE 52 +#define VIRTCHNL2_PROTO_HDR_GENEVE 53 +#define VIRTCHNL2_PROTO_HDR_NSH 54 +#define VIRTCHNL2_PROTO_HDR_QUIC 55 +#define VIRTCHNL2_PROTO_HDR_PFCP 56 +#define VIRTCHNL2_PROTO_HDR_PFCP_NODE 57 +#define VIRTCHNL2_PROTO_HDR_PFCP_SESSION 58 +#define VIRTCHNL2_PROTO_HDR_RTP 59 +#define VIRTCHNL2_PROTO_HDR_ROCE 60 +#define VIRTCHNL2_PROTO_HDR_ROCEV1 61 +#define VIRTCHNL2_PROTO_HDR_ROCEV2 62 +/* protocol ids up to 32767 are reserved for AVF use */ +/* 32768 - 65534 are used for user defined protocol ids */ +/* VIRTCHNL2_PROTO_HDR_NO_PROTO is a mandatory protocol id */ +#define VIRTCHNL2_PROTO_HDR_NO_PROTO 65535 + +#define VIRTCHNL2_VERSION_MAJOR_2 2 +#define VIRTCHNL2_VERSION_MINOR_0 0 + + +/* VIRTCHNL2_OP_VERSION + * VF posts its version number to the CP. CP responds with its version number + * in the same format, along with a return code. + * If there is a major version mismatch, then the VF cannot operate. + * If there is a minor version mismatch, then the VF can operate but should + * add a warning to the system log. + * + * This version opcode MUST always be specified as == 1, regardless of other + * changes in the API. The CP must always respond to this message without + * error regardless of version mismatch. + */ +struct virtchnl2_version_info { + u32 major; + u32 minor; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_version_info); + +/* VIRTCHNL2_OP_GET_CAPS + * Dataplane driver sends this message to CP to negotiate capabilities and + * provides a virtchnl2_get_capabilities structure with its desired + * capabilities, max_sriov_vfs and num_allocated_vectors. + * CP responds with a virtchnl2_get_capabilities structure updated + * with allowed capabilities and the other fields as below. + * If PF sets max_sriov_vfs as 0, CP will respond with max number of VFs + * that can be created by this PF. For any other value 'n', CP responds + * with max_sriov_vfs set to min(n, x) where x is the max number of VFs + * allowed by CP's policy. max_sriov_vfs is not applicable for VFs. + * If dataplane driver sets num_allocated_vectors as 0, CP will respond with 1 + * which is default vector associated with the default mailbox. For any other + * value 'n', CP responds with a value <= n based on the CP's policy of + * max number of vectors for a PF. + * CP will respond with the vector ID of mailbox allocated to the PF in + * mailbox_vector_id and the number of itr index registers in itr_idx_map. + * It also responds with default number of vports that the dataplane driver + * should comeup with in default_num_vports and maximum number of vports that + * can be supported in max_vports + */ +struct virtchnl2_get_capabilities { + /* see VIRTCHNL2_CHECKSUM_OFFLOAD_CAPS definitions */ + __le32 csum_caps; + + /* see VIRTCHNL2_SEGMENTATION_OFFLOAD_CAPS definitions */ + __le32 seg_caps; + + /* see VIRTCHNL2_HEADER_SPLIT_CAPS definitions */ + __le32 hsplit_caps; + + /* see VIRTCHNL2_RSC_OFFLOAD_CAPS definitions */ + __le32 rsc_caps; + + /* see VIRTCHNL2_RSS_FLOW_TYPE_CAPS definitions */ + __le64 rss_caps; + + + /* see VIRTCHNL2_OTHER_CAPS definitions */ + __le64 other_caps; + + /* DYN_CTL register offset and vector id for mailbox provided by CP */ + __le32 mailbox_dyn_ctl; + __le16 mailbox_vector_id; + /* Maximum number of allocated vectors for the device */ + __le16 num_allocated_vectors; + + /* Maximum number of queues that can be supported */ + __le16 max_rx_q; + __le16 max_tx_q; + __le16 max_rx_bufq; + __le16 max_tx_complq; + + /* The PF sends the maximum VFs it is requesting. The CP responds with + * the maximum VFs granted. + */ + __le16 max_sriov_vfs; + + /* maximum number of vports that can be supported */ + __le16 max_vports; + /* default number of vports driver should allocate on load */ + __le16 default_num_vports; + + /* Max header length hardware can parse/checksum, in bytes */ + __le16 max_tx_hdr_size; + + /* Max number of scatter gather buffers that can be sent per transmit + * packet without needing to be linearized + */ + u8 max_sg_bufs_per_tx_pkt; + + /* see VIRTCHNL2_ITR_IDX definition */ + u8 itr_idx_map; + + __le16 pad1; + + /* version of Control Plane that is running */ + __le16 oem_cp_ver_major; + __le16 oem_cp_ver_minor; + /* see VIRTCHNL2_DEVICE_TYPE definitions */ + __le32 device_type; + + u8 reserved[12]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(80, virtchnl2_get_capabilities); + +struct virtchnl2_queue_reg_chunk { + /* see VIRTCHNL2_QUEUE_TYPE definitions */ + __le32 type; + __le32 start_queue_id; + __le32 num_queues; + __le32 pad; + + /* Queue tail register offset and spacing provided by CP */ + __le64 qtail_reg_start; + __le32 qtail_reg_spacing; + + u8 reserved[4]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(32, virtchnl2_queue_reg_chunk); + +/* structure to specify several chunks of contiguous queues */ +struct virtchnl2_queue_reg_chunks { + __le16 num_chunks; + u8 reserved[6]; + struct virtchnl2_queue_reg_chunk chunks[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(40, virtchnl2_queue_reg_chunks); + +#define VIRTCHNL2_ETH_LENGTH_OF_ADDRESS 6 + +/* VIRTCHNL2_OP_CREATE_VPORT + * PF sends this message to CP to create a vport by filling in required + * fields of virtchnl2_create_vport structure. + * CP responds with the updated virtchnl2_create_vport structure containing the + * necessary fields followed by chunks which in turn will have an array of + * num_chunks entries of virtchnl2_queue_chunk structures. + */ +struct virtchnl2_create_vport { + /* PF/VF populates the following fields on request */ + /* see VIRTCHNL2_VPORT_TYPE definitions */ + __le16 vport_type; + + /* see VIRTCHNL2_QUEUE_MODEL definitions */ + __le16 txq_model; + + /* see VIRTCHNL2_QUEUE_MODEL definitions */ + __le16 rxq_model; + __le16 num_tx_q; + /* valid only if txq_model is split queue */ + __le16 num_tx_complq; + __le16 num_rx_q; + /* valid only if rxq_model is split queue */ + __le16 num_rx_bufq; + /* relative receive queue index to be used as default */ + __le16 default_rx_q; + /* used to align PF and CP in case of default multiple vports, it is + * filled by the PF and CP returns the same value, to enable the driver + * to support multiple asynchronous parallel CREATE_VPORT requests and + * associate a response to a specific request + */ + __le16 vport_index; + + /* CP populates the following fields on response */ + __le16 max_mtu; + __le32 vport_id; + u8 default_mac_addr[VIRTCHNL2_ETH_LENGTH_OF_ADDRESS]; + __le16 pad; + /* see VIRTCHNL2_RX_DESC_IDS definitions */ + __le64 rx_desc_ids; + /* see VIRTCHNL2_TX_DESC_IDS definitions */ + __le64 tx_desc_ids; + +#define MAX_Q_REGIONS 16 + __le32 max_qs_per_qregion[MAX_Q_REGIONS]; + __le32 qregion_total_qs; + __le16 qregion_type; + __le16 pad2; + + /* see VIRTCHNL2_RSS_ALGORITHM definitions */ + __le32 rss_algorithm; + __le16 rss_key_size; + __le16 rss_lut_size; + + /* see VIRTCHNL2_HEADER_SPLIT_CAPS definitions */ + __le32 rx_split_pos; + + u8 reserved[20]; + struct virtchnl2_queue_reg_chunks chunks; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(192, virtchnl2_create_vport); + +/* VIRTCHNL2_OP_DESTROY_VPORT + * VIRTCHNL2_OP_ENABLE_VPORT + * VIRTCHNL2_OP_DISABLE_VPORT + * PF sends this message to CP to destroy, enable or disable a vport by filling + * in the vport_id in virtchnl2_vport structure. + * CP responds with the status of the requested operation. + */ +struct virtchnl2_vport { + __le32 vport_id; + u8 reserved[4]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_vport); + +/* Transmit queue config info */ +struct virtchnl2_txq_info { + __le64 dma_ring_addr; + + /* see VIRTCHNL2_QUEUE_TYPE definitions */ + __le32 type; + + __le32 queue_id; + /* valid only if queue model is split and type is transmit queue. Used + * in many to one mapping of transmit queues to completion queue + */ + __le16 relative_queue_id; + + /* see VIRTCHNL2_QUEUE_MODEL definitions */ + __le16 model; + + /* see VIRTCHNL2_TXQ_SCHED_MODE definitions */ + __le16 sched_mode; + + /* see VIRTCHNL2_TXQ_FLAGS definitions */ + __le16 qflags; + __le16 ring_len; + + /* valid only if queue model is split and type is transmit queue */ + __le16 tx_compl_queue_id; + /* valid only if queue type is VIRTCHNL2_QUEUE_TYPE_MAILBOX_TX */ + /* see VIRTCHNL2_PEER_TYPE definitions */ + __le16 peer_type; + /* valid only if queue type is CONFIG_TX and used to deliver messages + * for the respective CONFIG_TX queue + */ + __le16 peer_rx_queue_id; + + /* value ranges from 0 to 15 */ + __le16 qregion_id; + u8 pad[2]; + + /* Egress pasid is used for SIOV use case */ + __le32 egress_pasid; + __le32 egress_hdr_pasid; + __le32 egress_buf_pasid; + + u8 reserved[8]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(56, virtchnl2_txq_info); + +/* VIRTCHNL2_OP_CONFIG_TX_QUEUES + * PF sends this message to set up parameters for one or more transmit queues. + * This message contains an array of num_qinfo instances of virtchnl2_txq_info + * structures. CP configures requested queues and returns a status code. If + * num_qinfo specified is greater than the number of queues associated with the + * vport, an error is returned and no queues are configured. + */ +struct virtchnl2_config_tx_queues { + __le32 vport_id; + __le16 num_qinfo; + + u8 reserved[10]; + struct virtchnl2_txq_info qinfo[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(72, virtchnl2_config_tx_queues); + +/* Receive queue config info */ +struct virtchnl2_rxq_info { + /* see VIRTCHNL2_RX_DESC_IDS definitions */ + __le64 desc_ids; + __le64 dma_ring_addr; + + /* see VIRTCHNL2_QUEUE_TYPE definitions */ + __le32 type; + __le32 queue_id; + + /* see QUEUE_MODEL definitions */ + __le16 model; + + __le16 hdr_buffer_size; + __le32 data_buffer_size; + __le32 max_pkt_size; + + __le16 ring_len; + u8 buffer_notif_stride; + u8 pad[1]; + + /* Applicable only for receive buffer queues */ + __le64 dma_head_wb_addr; + + /* Applicable only for receive completion queues */ + /* see VIRTCHNL2_RXQ_FLAGS definitions */ + __le16 qflags; + + __le16 rx_buffer_low_watermark; + + /* valid only in split queue model */ + __le16 rx_bufq1_id; + /* valid only in split queue model */ + __le16 rx_bufq2_id; + /* it indicates if there is a second buffer, rx_bufq2_id is valid only + * if this field is set + */ + u8 bufq2_ena; + u8 pad2; + + /* value ranges from 0 to 15 */ + __le16 qregion_id; + + /* Ingress pasid is used for SIOV use case */ + __le32 ingress_pasid; + __le32 ingress_hdr_pasid; + __le32 ingress_buf_pasid; + + u8 reserved[16]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(88, virtchnl2_rxq_info); + +/* VIRTCHNL2_OP_CONFIG_RX_QUEUES + * PF sends this message to set up parameters for one or more receive queues. + * This message contains an array of num_qinfo instances of virtchnl2_rxq_info + * structures. CP configures requested queues and returns a status code. + * If the number of queues specified is greater than the number of queues + * associated with the vport, an error is returned and no queues are configured. + */ +struct virtchnl2_config_rx_queues { + __le32 vport_id; + __le16 num_qinfo; + + u8 reserved[18]; + struct virtchnl2_rxq_info qinfo[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(112, virtchnl2_config_rx_queues); + +/* VIRTCHNL2_OP_ADD_QUEUES + * PF sends this message to request additional transmit/receive queues beyond + * the ones that were assigned via CREATE_VPORT request. virtchnl2_add_queues + * structure is used to specify the number of each type of queues. + * CP responds with the same structure with the actual number of queues assigned + * followed by num_chunks of virtchnl2_queue_chunk structures. + */ +struct virtchnl2_add_queues { + __le32 vport_id; + __le16 num_tx_q; + __le16 num_tx_complq; + __le16 num_rx_q; + __le16 num_rx_bufq; + u8 reserved[4]; + struct virtchnl2_queue_reg_chunks chunks; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(56, virtchnl2_add_queues); + +/* Structure to specify a chunk of contiguous interrupt vectors */ +struct virtchnl2_vector_chunk { + __le16 start_vector_id; + __le16 start_evv_id; + __le16 num_vectors; + __le16 pad1; + + /* Register offsets and spacing provided by CP. + * dynamic control registers are used for enabling/disabling/re-enabling + * interrupts and updating interrupt rates in the hotpath. Any changes + * to interrupt rates in the dynamic control registers will be reflected + * in the interrupt throttling rate registers. + * itrn registers are used to update interrupt rates for specific + * interrupt indices without modifying the state of the interrupt. + */ + __le32 dynctl_reg_start; + __le32 dynctl_reg_spacing; + + __le32 itrn_reg_start; + __le32 itrn_reg_spacing; + u8 reserved[8]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(32, virtchnl2_vector_chunk); + +/* Structure to specify several chunks of contiguous interrupt vectors */ +struct virtchnl2_vector_chunks { + __le16 num_vchunks; + u8 reserved[14]; + struct virtchnl2_vector_chunk vchunks[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(48, virtchnl2_vector_chunks); + +/* VIRTCHNL2_OP_ALLOC_VECTORS + * PF sends this message to request additional interrupt vectors beyond the + * ones that were assigned via GET_CAPS request. virtchnl2_alloc_vectors + * structure is used to specify the number of vectors requested. CP responds + * with the same structure with the actual number of vectors assigned followed + * by virtchnl2_vector_chunks structure identifying the vector ids. + */ +struct virtchnl2_alloc_vectors { + __le16 num_vectors; + u8 reserved[14]; + struct virtchnl2_vector_chunks vchunks; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(64, virtchnl2_alloc_vectors); + +/* VIRTCHNL2_OP_DEALLOC_VECTORS + * PF sends this message to release the vectors. + * PF sends virtchnl2_vector_chunks struct to specify the vectors it is giving + * away. CP performs requested action and returns status. + */ + +/* VIRTCHNL2_OP_GET_RSS_LUT + * VIRTCHNL2_OP_SET_RSS_LUT + * PF sends this message to get or set RSS lookup table. Only supported if + * both PF and CP drivers set the VIRTCHNL2_CAP_RSS bit during configuration + * negotiation. Uses the virtchnl2_rss_lut structure + */ +struct virtchnl2_rss_lut { + __le32 vport_id; + __le16 lut_entries_start; + __le16 lut_entries; + u8 reserved[4]; + __le32 lut[1]; /* RSS lookup table */ +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(16, virtchnl2_rss_lut); + +/* VIRTCHNL2_OP_GET_RSS_KEY + * PF sends this message to get RSS key. Only supported if both PF and CP + * drivers set the VIRTCHNL2_CAP_RSS bit during configuration negotiation. Uses + * the virtchnl2_rss_key structure + */ + +/* VIRTCHNL2_OP_GET_RSS_HASH + * VIRTCHNL2_OP_SET_RSS_HASH + * PF sends these messages to get and set the hash filter enable bits for RSS. + * By default, the CP sets these to all possible traffic types that the + * hardware supports. The PF can query this value if it wants to change the + * traffic types that are hashed by the hardware. + * Only supported if both PF and CP drivers set the VIRTCHNL2_CAP_RSS bit + * during configuration negotiation. + */ +struct virtchnl2_rss_hash { + /* Packet Type Groups bitmap */ + __le64 ptype_groups; + __le32 vport_id; + u8 reserved[4]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(16, virtchnl2_rss_hash); + +/* VIRTCHNL2_OP_SET_SRIOV_VFS + * This message is used to set number of SRIOV VFs to be created. The actual + * allocation of resources for the VFs in terms of vport, queues and interrupts + * is done by CP. When this call completes, the APF driver calls + * pci_enable_sriov to let the OS instantiate the SRIOV PCIE devices. + * The number of VFs set to 0 will destroy all the VFs of this function. + */ + +struct virtchnl2_sriov_vfs_info { + __le16 num_vfs; + __le16 pad; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(4, virtchnl2_sriov_vfs_info); + +/* VIRTCHNL2_OP_CREATE_ADI + * PF sends this message to CP to create ADI by filling in required + * fields of virtchnl2_create_adi structure. + * CP responds with the updated virtchnl2_create_adi structure containing the + * necessary fields followed by chunks which in turn will have an array of + * num_chunks entries of virtchnl2_queue_chunk structures. + */ +struct virtchnl2_create_adi { + /* PF sends PASID to CP */ + __le32 pasid; + /* + * mbx_id is set to 1 by PF when requesting CP to provide HW mailbox + * id else it is set to 0 by PF + */ + __le16 mbx_id; + /* PF sends mailbox vector id to CP */ + __le16 mbx_vec_id; + /* CP populates ADI id */ + __le16 adi_id; + u8 reserved[64]; + u8 pad[6]; + /* CP populates queue chunks */ + struct virtchnl2_queue_reg_chunks chunks; + /* PF sends vector chunks to CP */ + struct virtchnl2_vector_chunks vchunks; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(168, virtchnl2_create_adi); + +/* VIRTCHNL2_OP_DESTROY_ADI + * PF sends this message to CP to destroy ADI by filling + * in the adi_id in virtchnl2_destropy_adi structure. + * CP responds with the status of the requested operation. + */ +struct virtchnl2_destroy_adi { + __le16 adi_id; + u8 reserved[2]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(4, virtchnl2_destroy_adi); + +/* Based on the descriptor type the PF supports, CP fills ptype_id_10 or + * ptype_id_8 for flex and base descriptor respectively. If ptype_id_10 value + * is set to 0xFFFF, PF should consider this ptype as dummy one and it is the + * last ptype. + */ +struct virtchnl2_ptype { + __le16 ptype_id_10; + u8 ptype_id_8; + /* number of protocol ids the packet supports, maximum of 32 + * protocol ids are supported + */ + u8 proto_id_count; + __le16 pad; + /* proto_id_count decides the allocation of protocol id array */ + /* see VIRTCHNL2_PROTO_HDR_TYPE */ + __le16 proto_id[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_ptype); + +/* VIRTCHNL2_OP_GET_PTYPE_INFO + * PF sends this message to CP to get all supported packet types. It does by + * filling in start_ptype_id and num_ptypes. Depending on descriptor type the + * PF supports, it sets num_ptypes to 1024 (10-bit ptype) for flex descriptor + * and 256 (8-bit ptype) for base descriptor support. CP responds back to PF by + * populating start_ptype_id, num_ptypes and array of ptypes. If all ptypes + * doesn't fit into one mailbox buffer, CP splits ptype info into multiple + * messages, where each message will have the start ptype id, number of ptypes + * sent in that message and the ptype array itself. When CP is done updating + * all ptype information it extracted from the package (number of ptypes + * extracted might be less than what PF expects), it will append a dummy ptype + * (which has 'ptype_id_10' of 'struct virtchnl2_ptype' as 0xFFFF) to the ptype + * array. PF is expected to receive multiple VIRTCHNL2_OP_GET_PTYPE_INFO + * messages. + */ +struct virtchnl2_get_ptype_info { + __le16 start_ptype_id; + __le16 num_ptypes; + __le32 pad; + struct virtchnl2_ptype ptype[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(16, virtchnl2_get_ptype_info); + +/* VIRTCHNL2_OP_GET_STATS + * PF/VF sends this message to CP to get the update stats by specifying the + * vport_id. CP responds with stats in struct virtchnl2_vport_stats. + */ +struct virtchnl2_vport_stats { + __le32 vport_id; + u8 pad[4]; + + __le64 rx_bytes; /* received bytes */ + __le64 rx_unicast; /* received unicast pkts */ + __le64 rx_multicast; /* received multicast pkts */ + __le64 rx_broadcast; /* received broadcast pkts */ + __le64 rx_discards; + __le64 rx_errors; + __le64 rx_unknown_protocol; + __le64 tx_bytes; /* transmitted bytes */ + __le64 tx_unicast; /* transmitted unicast pkts */ + __le64 tx_multicast; /* transmitted multicast pkts */ + __le64 tx_broadcast; /* transmitted broadcast pkts */ + __le64 tx_discards; + __le64 tx_errors; + __le64 rx_invalid_frame_length; + __le64 rx_overflow_drop; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(128, virtchnl2_vport_stats); + +/* VIRTCHNL2_OP_EVENT + * CP sends this message to inform the PF/VF driver of events that may affect + * it. No direct response is expected from the driver, though it may generate + * other messages in response to this one. + */ +struct virtchnl2_event { + /* see VIRTCHNL2_EVENT_CODES definitions */ + __le32 event; + /* link_speed provided in Mbps */ + __le32 link_speed; + __le32 vport_id; + u8 link_status; + u8 pad[1]; + /* CP sends reset notification to PF with corresponding ADI ID */ + __le16 adi_id; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(16, virtchnl2_event); + +/* VIRTCHNL2_OP_GET_RSS_KEY + * VIRTCHNL2_OP_SET_RSS_KEY + * PF/VF sends this message to get or set RSS key. Only supported if both + * PF/VF and CP drivers set the VIRTCHNL2_CAP_RSS bit during configuration + * negotiation. Uses the virtchnl2_rss_key structure + */ +struct virtchnl2_rss_key { + __le32 vport_id; + __le16 key_len; + u8 pad; + u8 key[1]; /* RSS hash key, packed bytes */ +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_rss_key); + +/* structure to specify a chunk of contiguous queues */ +struct virtchnl2_queue_chunk { + /* see VIRTCHNL2_QUEUE_TYPE definitions */ + __le32 type; + __le32 start_queue_id; + __le32 num_queues; + u8 reserved[4]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(16, virtchnl2_queue_chunk); + +/* structure to specify several chunks of contiguous queues */ +struct virtchnl2_queue_chunks { + __le16 num_chunks; + u8 reserved[6]; + struct virtchnl2_queue_chunk chunks[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(24, virtchnl2_queue_chunks); + +/* VIRTCHNL2_OP_ENABLE_QUEUES + * VIRTCHNL2_OP_DISABLE_QUEUES + * VIRTCHNL2_OP_DEL_QUEUES + * + * PF sends these messages to enable, disable or delete queues specified in + * chunks. PF sends virtchnl2_del_ena_dis_queues struct to specify the queues + * to be enabled/disabled/deleted. Also applicable to single queue receive or + * transmit. CP performs requested action and returns status. + */ +struct virtchnl2_del_ena_dis_queues { + __le32 vport_id; + u8 reserved[4]; + struct virtchnl2_queue_chunks chunks; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(32, virtchnl2_del_ena_dis_queues); + +/* Queue to vector mapping */ +struct virtchnl2_queue_vector { + __le32 queue_id; + __le16 vector_id; + u8 pad[2]; + + /* see VIRTCHNL2_ITR_IDX definitions */ + __le32 itr_idx; + + /* see VIRTCHNL2_QUEUE_TYPE definitions */ + __le32 queue_type; + u8 reserved[8]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(24, virtchnl2_queue_vector); + +/* VIRTCHNL2_OP_MAP_QUEUE_VECTOR + * VIRTCHNL2_OP_UNMAP_QUEUE_VECTOR + * + * PF sends this message to map or unmap queues to vectors and interrupt + * throttling rate index registers. External data buffer contains + * virtchnl2_queue_vector_maps structure that contains num_qv_maps of + * virtchnl2_queue_vector structures. CP maps the requested queue vector maps + * after validating the queue and vector ids and returns a status code. + */ +struct virtchnl2_queue_vector_maps { + __le32 vport_id; + __le16 num_qv_maps; + u8 pad[10]; + struct virtchnl2_queue_vector qv_maps[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(40, virtchnl2_queue_vector_maps); + +/* VIRTCHNL2_OP_LOOPBACK + * + * PF/VF sends this message to transition to/from the loopback state. Setting + * the 'enable' to 1 enables the loopback state and setting 'enable' to 0 + * disables it. CP configures the state to loopback and returns status. + */ +struct virtchnl2_loopback { + __le32 vport_id; + u8 enable; + u8 pad[3]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_loopback); + +/* structure to specify each MAC address */ +struct virtchnl2_mac_addr { + u8 addr[VIRTCHNL2_ETH_LENGTH_OF_ADDRESS]; + /* see VIRTCHNL2_MAC_TYPE definitions */ + u8 type; + u8 pad; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_mac_addr); + +/* VIRTCHNL2_OP_ADD_MAC_ADDR + * VIRTCHNL2_OP_DEL_MAC_ADDR + * + * PF/VF driver uses this structure to send list of MAC addresses to be + * added/deleted to the CP where as CP performs the action and returns the + * status. + */ +struct virtchnl2_mac_addr_list { + __le32 vport_id; + __le16 num_mac_addr; + u8 pad[2]; + struct virtchnl2_mac_addr mac_addr_list[1]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(16, virtchnl2_mac_addr_list); + +/* VIRTCHNL2_OP_CONFIG_PROMISCUOUS_MODE + * + * PF/VF sends vport id and flags to the CP where as CP performs the action + * and returns the status. + */ +struct virtchnl2_promisc_info { + __le32 vport_id; + /* see VIRTCHNL2_PROMISC_FLAGS definitions */ + __le16 flags; + u8 pad[2]; +}; + +VIRTCHNL2_CHECK_STRUCT_LEN(8, virtchnl2_promisc_info); + + +static inline const char *virtchnl2_op_str(__le32 v_opcode) +{ + switch (v_opcode) { + case VIRTCHNL2_OP_VERSION: + return "VIRTCHNL2_OP_VERSION"; + case VIRTCHNL2_OP_GET_CAPS: + return "VIRTCHNL2_OP_GET_CAPS"; + case VIRTCHNL2_OP_CREATE_VPORT: + return "VIRTCHNL2_OP_CREATE_VPORT"; + case VIRTCHNL2_OP_DESTROY_VPORT: + return "VIRTCHNL2_OP_DESTROY_VPORT"; + case VIRTCHNL2_OP_ENABLE_VPORT: + return "VIRTCHNL2_OP_ENABLE_VPORT"; + case VIRTCHNL2_OP_DISABLE_VPORT: + return "VIRTCHNL2_OP_DISABLE_VPORT"; + case VIRTCHNL2_OP_CONFIG_TX_QUEUES: + return "VIRTCHNL2_OP_CONFIG_TX_QUEUES"; + case VIRTCHNL2_OP_CONFIG_RX_QUEUES: + return "VIRTCHNL2_OP_CONFIG_RX_QUEUES"; + case VIRTCHNL2_OP_ENABLE_QUEUES: + return "VIRTCHNL2_OP_ENABLE_QUEUES"; + case VIRTCHNL2_OP_DISABLE_QUEUES: + return "VIRTCHNL2_OP_DISABLE_QUEUES"; + case VIRTCHNL2_OP_ADD_QUEUES: + return "VIRTCHNL2_OP_ADD_QUEUES"; + case VIRTCHNL2_OP_DEL_QUEUES: + return "VIRTCHNL2_OP_DEL_QUEUES"; + case VIRTCHNL2_OP_MAP_QUEUE_VECTOR: + return "VIRTCHNL2_OP_MAP_QUEUE_VECTOR"; + case VIRTCHNL2_OP_UNMAP_QUEUE_VECTOR: + return "VIRTCHNL2_OP_UNMAP_QUEUE_VECTOR"; + case VIRTCHNL2_OP_GET_RSS_KEY: + return "VIRTCHNL2_OP_GET_RSS_KEY"; + case VIRTCHNL2_OP_SET_RSS_KEY: + return "VIRTCHNL2_OP_SET_RSS_KEY"; + case VIRTCHNL2_OP_GET_RSS_LUT: + return "VIRTCHNL2_OP_GET_RSS_LUT"; + case VIRTCHNL2_OP_SET_RSS_LUT: + return "VIRTCHNL2_OP_SET_RSS_LUT"; + case VIRTCHNL2_OP_GET_RSS_HASH: + return "VIRTCHNL2_OP_GET_RSS_HASH"; + case VIRTCHNL2_OP_SET_RSS_HASH: + return "VIRTCHNL2_OP_SET_RSS_HASH"; + case VIRTCHNL2_OP_SET_SRIOV_VFS: + return "VIRTCHNL2_OP_SET_SRIOV_VFS"; + case VIRTCHNL2_OP_ALLOC_VECTORS: + return "VIRTCHNL2_OP_ALLOC_VECTORS"; + case VIRTCHNL2_OP_DEALLOC_VECTORS: + return "VIRTCHNL2_OP_DEALLOC_VECTORS"; + case VIRTCHNL2_OP_GET_PTYPE_INFO: + return "VIRTCHNL2_OP_GET_PTYPE_INFO"; + case VIRTCHNL2_OP_GET_STATS: + return "VIRTCHNL2_OP_GET_STATS"; + case VIRTCHNL2_OP_EVENT: + return "VIRTCHNL2_OP_EVENT"; + case VIRTCHNL2_OP_RESET_VF: + return "VIRTCHNL2_OP_RESET_VF"; + case VIRTCHNL2_OP_CREATE_ADI: + return "VIRTCHNL2_OP_CREATE_ADI"; + case VIRTCHNL2_OP_DESTROY_ADI: + return "VIRTCHNL2_OP_DESTROY_ADI"; + default: + return "Unsupported (update virtchnl2.h)"; + } +} + +/** + * virtchnl2_vc_validate_vf_msg + * @ver: Virtchnl2 version info + * @v_opcode: Opcode for the message + * @msg: pointer to the msg buffer + * @msglen: msg length + * + * validate msg format against struct for each opcode + */ +static inline int +virtchnl2_vc_validate_vf_msg(__rte_unused struct virtchnl2_version_info *ver, u32 v_opcode, + u8 *msg, __le16 msglen) +{ + bool err_msg_format = false; + __le32 valid_len = 0; + + /* Validate message length. */ + switch (v_opcode) { + case VIRTCHNL2_OP_VERSION: + valid_len = sizeof(struct virtchnl2_version_info); + break; + case VIRTCHNL2_OP_GET_CAPS: + valid_len = sizeof(struct virtchnl2_get_capabilities); + break; + case VIRTCHNL2_OP_CREATE_VPORT: + valid_len = sizeof(struct virtchnl2_create_vport); + if (msglen >= valid_len) { + struct virtchnl2_create_vport *cvport = + (struct virtchnl2_create_vport *)msg; + + if (cvport->chunks.num_chunks == 0) { + /* zero chunks is allowed as input */ + break; + } + + valid_len += (cvport->chunks.num_chunks - 1) * + sizeof(struct virtchnl2_queue_reg_chunk); + } + break; + case VIRTCHNL2_OP_CREATE_ADI: + valid_len = sizeof(struct virtchnl2_create_adi); + if (msglen >= valid_len) { + struct virtchnl2_create_adi *cadi = + (struct virtchnl2_create_adi *)msg; + + if (cadi->chunks.num_chunks == 0) { + /* zero chunks is allowed as input */ + break; + } + + if (cadi->vchunks.num_vchunks == 0) { + err_msg_format = true; + break; + } + valid_len += (cadi->chunks.num_chunks - 1) * + sizeof(struct virtchnl2_queue_reg_chunk); + valid_len += (cadi->vchunks.num_vchunks - 1) * + sizeof(struct virtchnl2_vector_chunk); + } + break; + case VIRTCHNL2_OP_DESTROY_ADI: + valid_len = sizeof(struct virtchnl2_destroy_adi); + break; + case VIRTCHNL2_OP_DESTROY_VPORT: + case VIRTCHNL2_OP_ENABLE_VPORT: + case VIRTCHNL2_OP_DISABLE_VPORT: + valid_len = sizeof(struct virtchnl2_vport); + break; + case VIRTCHNL2_OP_CONFIG_TX_QUEUES: + valid_len = sizeof(struct virtchnl2_config_tx_queues); + if (msglen >= valid_len) { + struct virtchnl2_config_tx_queues *ctq = + (struct virtchnl2_config_tx_queues *)msg; + if (ctq->num_qinfo == 0) { + err_msg_format = true; + break; + } + valid_len += (ctq->num_qinfo - 1) * + sizeof(struct virtchnl2_txq_info); + } + break; + case VIRTCHNL2_OP_CONFIG_RX_QUEUES: + valid_len = sizeof(struct virtchnl2_config_rx_queues); + if (msglen >= valid_len) { + struct virtchnl2_config_rx_queues *crq = + (struct virtchnl2_config_rx_queues *)msg; + if (crq->num_qinfo == 0) { + err_msg_format = true; + break; + } + valid_len += (crq->num_qinfo - 1) * + sizeof(struct virtchnl2_rxq_info); + } + break; + case VIRTCHNL2_OP_ADD_QUEUES: + valid_len = sizeof(struct virtchnl2_add_queues); + if (msglen >= valid_len) { + struct virtchnl2_add_queues *add_q = + (struct virtchnl2_add_queues *)msg; + + if (add_q->chunks.num_chunks == 0) { + /* zero chunks is allowed as input */ + break; + } + + valid_len += (add_q->chunks.num_chunks - 1) * + sizeof(struct virtchnl2_queue_reg_chunk); + } + break; + case VIRTCHNL2_OP_ENABLE_QUEUES: + case VIRTCHNL2_OP_DISABLE_QUEUES: + case VIRTCHNL2_OP_DEL_QUEUES: + valid_len = sizeof(struct virtchnl2_del_ena_dis_queues); + if (msglen >= valid_len) { + struct virtchnl2_del_ena_dis_queues *qs = + (struct virtchnl2_del_ena_dis_queues *)msg; + if (qs->chunks.num_chunks == 0 || + qs->chunks.num_chunks > VIRTCHNL2_OP_DEL_ENABLE_DISABLE_QUEUES_MAX) { + err_msg_format = true; + break; + } + valid_len += (qs->chunks.num_chunks - 1) * + sizeof(struct virtchnl2_queue_chunk); + } + break; + case VIRTCHNL2_OP_MAP_QUEUE_VECTOR: + case VIRTCHNL2_OP_UNMAP_QUEUE_VECTOR: + valid_len = sizeof(struct virtchnl2_queue_vector_maps); + if (msglen >= valid_len) { + struct virtchnl2_queue_vector_maps *v_qp = + (struct virtchnl2_queue_vector_maps *)msg; + if (v_qp->num_qv_maps == 0 || + v_qp->num_qv_maps > VIRTCHNL2_OP_MAP_UNMAP_QUEUE_VECTOR_MAX) { + err_msg_format = true; + break; + } + valid_len += (v_qp->num_qv_maps - 1) * + sizeof(struct virtchnl2_queue_vector); + } + break; + case VIRTCHNL2_OP_ALLOC_VECTORS: + valid_len = sizeof(struct virtchnl2_alloc_vectors); + if (msglen >= valid_len) { + struct virtchnl2_alloc_vectors *v_av = + (struct virtchnl2_alloc_vectors *)msg; + + if (v_av->vchunks.num_vchunks == 0) { + /* zero chunks is allowed as input */ + break; + } + + valid_len += (v_av->vchunks.num_vchunks - 1) * + sizeof(struct virtchnl2_vector_chunk); + } + break; + case VIRTCHNL2_OP_DEALLOC_VECTORS: + valid_len = sizeof(struct virtchnl2_vector_chunks); + if (msglen >= valid_len) { + struct virtchnl2_vector_chunks *v_chunks = + (struct virtchnl2_vector_chunks *)msg; + if (v_chunks->num_vchunks == 0) { + err_msg_format = true; + break; + } + valid_len += (v_chunks->num_vchunks - 1) * + sizeof(struct virtchnl2_vector_chunk); + } + break; + case VIRTCHNL2_OP_GET_RSS_KEY: + case VIRTCHNL2_OP_SET_RSS_KEY: + valid_len = sizeof(struct virtchnl2_rss_key); + if (msglen >= valid_len) { + struct virtchnl2_rss_key *vrk = + (struct virtchnl2_rss_key *)msg; + + if (vrk->key_len == 0) { + /* zero length is allowed as input */ + break; + } + + valid_len += vrk->key_len - 1; + } + break; + case VIRTCHNL2_OP_GET_RSS_LUT: + case VIRTCHNL2_OP_SET_RSS_LUT: + valid_len = sizeof(struct virtchnl2_rss_lut); + if (msglen >= valid_len) { + struct virtchnl2_rss_lut *vrl = + (struct virtchnl2_rss_lut *)msg; + + if (vrl->lut_entries == 0) { + /* zero entries is allowed as input */ + break; + } + + valid_len += (vrl->lut_entries - 1) * sizeof(vrl->lut); + } + break; + case VIRTCHNL2_OP_GET_RSS_HASH: + case VIRTCHNL2_OP_SET_RSS_HASH: + valid_len = sizeof(struct virtchnl2_rss_hash); + break; + case VIRTCHNL2_OP_SET_SRIOV_VFS: + valid_len = sizeof(struct virtchnl2_sriov_vfs_info); + break; + case VIRTCHNL2_OP_GET_PTYPE_INFO: + valid_len = sizeof(struct virtchnl2_get_ptype_info); + break; + case VIRTCHNL2_OP_GET_STATS: + valid_len = sizeof(struct virtchnl2_vport_stats); + break; + case VIRTCHNL2_OP_RESET_VF: + break; + /* These are always errors coming from the VF. */ + case VIRTCHNL2_OP_EVENT: + case VIRTCHNL2_OP_UNKNOWN: + default: + return VIRTCHNL2_STATUS_ERR_PARAM; + } + /* few more checks */ + if (err_msg_format || valid_len != msglen) + return VIRTCHNL2_STATUS_ERR_OPCODE_MISMATCH; + + return 0; +} + +#endif /* _VIRTCHNL_2_H_ */ diff --git a/drivers/common/idpf/base/virtchnl2_lan_desc.h b/drivers/common/idpf/base/virtchnl2_lan_desc.h new file mode 100644 index 0000000000..b8cb22e474 --- /dev/null +++ b/drivers/common/idpf/base/virtchnl2_lan_desc.h @@ -0,0 +1,606 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ +/* + * Copyright (C) 2019 Intel Corporation + * + * For licensing information, see the file 'LICENSE' in the root folder + */ +#ifndef _VIRTCHNL2_LAN_DESC_H_ +#define _VIRTCHNL2_LAN_DESC_H_ + +/* VIRTCHNL2_TX_DESC_IDS + * Transmit descriptor ID flags + */ +#define VIRTCHNL2_TXDID_DATA BIT(0) +#define VIRTCHNL2_TXDID_CTX BIT(1) +#define VIRTCHNL2_TXDID_REINJECT_CTX BIT(2) +#define VIRTCHNL2_TXDID_FLEX_DATA BIT(3) +#define VIRTCHNL2_TXDID_FLEX_CTX BIT(4) +#define VIRTCHNL2_TXDID_FLEX_TSO_CTX BIT(5) +#define VIRTCHNL2_TXDID_FLEX_TSYN_L2TAG1 BIT(6) +#define VIRTCHNL2_TXDID_FLEX_L2TAG1_L2TAG2 BIT(7) +#define VIRTCHNL2_TXDID_FLEX_TSO_L2TAG2_PARSTAG_CTX BIT(8) +#define VIRTCHNL2_TXDID_FLEX_HOSTSPLIT_SA_TSO_CTX BIT(9) +#define VIRTCHNL2_TXDID_FLEX_HOSTSPLIT_SA_CTX BIT(10) +#define VIRTCHNL2_TXDID_FLEX_L2TAG2_CTX BIT(11) +#define VIRTCHNL2_TXDID_FLEX_FLOW_SCHED BIT(12) +#define VIRTCHNL2_TXDID_FLEX_HOSTSPLIT_TSO_CTX BIT(13) +#define VIRTCHNL2_TXDID_FLEX_HOSTSPLIT_CTX BIT(14) +#define VIRTCHNL2_TXDID_DESC_DONE BIT(15) + +/* VIRTCHNL2_RX_DESC_IDS + * Receive descriptor IDs (range from 0 to 63) + */ +#define VIRTCHNL2_RXDID_0_16B_BASE 0 +#define VIRTCHNL2_RXDID_1_32B_BASE 1 +/* FLEX_SQ_NIC and FLEX_SPLITQ share desc ids because they can be + * differentiated based on queue model; e.g. single queue model can + * only use FLEX_SQ_NIC and split queue model can only use FLEX_SPLITQ + * for DID 2. + */ +#define VIRTCHNL2_RXDID_2_FLEX_SPLITQ 2 +#define VIRTCHNL2_RXDID_2_FLEX_SQ_NIC 2 +#define VIRTCHNL2_RXDID_3_FLEX_SQ_SW 3 +#define VIRTCHNL2_RXDID_4_FLEX_SQ_NIC_VEB 4 +#define VIRTCHNL2_RXDID_5_FLEX_SQ_NIC_ACL 5 +#define VIRTCHNL2_RXDID_6_FLEX_SQ_NIC_2 6 +#define VIRTCHNL2_RXDID_7_HW_RSVD 7 +/* 9 through 15 are reserved */ +#define VIRTCHNL2_RXDID_16_COMMS_GENERIC 16 +#define VIRTCHNL2_RXDID_17_COMMS_AUX_VLAN 17 +#define VIRTCHNL2_RXDID_18_COMMS_AUX_IPV4 18 +#define VIRTCHNL2_RXDID_19_COMMS_AUX_IPV6 19 +#define VIRTCHNL2_RXDID_20_COMMS_AUX_FLOW 20 +#define VIRTCHNL2_RXDID_21_COMMS_AUX_TCP 21 +/* 22 through 63 are reserved */ + +/* VIRTCHNL2_RX_DESC_ID_BITMASKS + * Receive descriptor ID bitmasks + */ +#define VIRTCHNL2_RXDID_0_16B_BASE_M BIT(VIRTCHNL2_RXDID_0_16B_BASE) +#define VIRTCHNL2_RXDID_1_32B_BASE_M BIT(VIRTCHNL2_RXDID_1_32B_BASE) +#define VIRTCHNL2_RXDID_2_FLEX_SPLITQ_M BIT(VIRTCHNL2_RXDID_2_FLEX_SPLITQ) +#define VIRTCHNL2_RXDID_2_FLEX_SQ_NIC_M BIT(VIRTCHNL2_RXDID_2_FLEX_SQ_NIC) +#define VIRTCHNL2_RXDID_3_FLEX_SQ_SW_M BIT(VIRTCHNL2_RXDID_3_FLEX_SQ_SW) +#define VIRTCHNL2_RXDID_4_FLEX_SQ_NIC_VEB_M BIT(VIRTCHNL2_RXDID_4_FLEX_SQ_NIC_VEB) +#define VIRTCHNL2_RXDID_5_FLEX_SQ_NIC_ACL_M BIT(VIRTCHNL2_RXDID_5_FLEX_SQ_NIC_ACL) +#define VIRTCHNL2_RXDID_6_FLEX_SQ_NIC_2_M BIT(VIRTCHNL2_RXDID_6_FLEX_SQ_NIC_2) +#define VIRTCHNL2_RXDID_7_HW_RSVD_M BIT(VIRTCHNL2_RXDID_7_HW_RSVD) +/* 9 through 15 are reserved */ +#define VIRTCHNL2_RXDID_16_COMMS_GENERIC_M BIT(VIRTCHNL2_RXDID_16_COMMS_GENERIC) +#define VIRTCHNL2_RXDID_17_COMMS_AUX_VLAN_M BIT(VIRTCHNL2_RXDID_17_COMMS_AUX_VLAN) +#define VIRTCHNL2_RXDID_18_COMMS_AUX_IPV4_M BIT(VIRTCHNL2_RXDID_18_COMMS_AUX_IPV4) +#define VIRTCHNL2_RXDID_19_COMMS_AUX_IPV6_M BIT(VIRTCHNL2_RXDID_19_COMMS_AUX_IPV6) +#define VIRTCHNL2_RXDID_20_COMMS_AUX_FLOW_M BIT(VIRTCHNL2_RXDID_20_COMMS_AUX_FLOW) +#define VIRTCHNL2_RXDID_21_COMMS_AUX_TCP_M BIT(VIRTCHNL2_RXDID_21_COMMS_AUX_TCP) +/* 22 through 63 are reserved */ + +/* Rx */ +/* For splitq virtchnl2_rx_flex_desc_adv desc members */ +#define VIRTCHNL2_RX_FLEX_DESC_ADV_RXDID_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_RXDID_M \ + MAKEMASK(0xFUL, VIRTCHNL2_RX_FLEX_DESC_ADV_RXDID_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_PTYPE_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_PTYPE_M \ + MAKEMASK(0x3FFUL, VIRTCHNL2_RX_FLEX_DESC_ADV_PTYPE_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_UMBCAST_S 10 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_UMBCAST_M \ + MAKEMASK(0x3UL, VIRTCHNL2_RX_FLEX_DESC_ADV_UMBCAST_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_FF0_S 12 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_FF0_M \ + MAKEMASK(0xFUL, VIRTCHNL2_RX_FLEX_DESC_ADV_FF0_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_PBUF_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_PBUF_M \ + MAKEMASK(0x3FFFUL, VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_PBUF_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_GEN_S 14 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_GEN_M \ + BIT_ULL(VIRTCHNL2_RX_FLEX_DESC_ADV_GEN_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_BUFQ_ID_S 15 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_BUFQ_ID_M \ + BIT_ULL(VIRTCHNL2_RX_FLEX_DESC_ADV_BUFQ_ID_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_HDR_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_HDR_M \ + MAKEMASK(0x3FFUL, VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_HDR_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_RSC_S 10 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_RSC_M \ + BIT_ULL(VIRTCHNL2_RX_FLEX_DESC_ADV_RSC_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_SPH_S 11 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_SPH_M \ + BIT_ULL(VIRTCHNL2_RX_FLEX_DESC_ADV_SPH_S) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_FF1_S 12 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_FF1_M \ + MAKEMASK(0x7UL, VIRTCHNL2_RX_FLEX_DESC_ADV_FF1_M) +#define VIRTCHNL2_RX_FLEX_DESC_ADV_MISS_S 15 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_MISS_M \ + BIT_ULL(VIRTCHNL2_RX_FLEX_DESC_ADV_MISS_S) + +/* VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS_ERROR_0_QW1_BITS + * for splitq virtchnl2_rx_flex_desc_adv + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_DD_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_EOF_S 1 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_HBO_S 2 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_L3L4P_S 3 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_IPE_S 4 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_L4E_S 5 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_EIPE_S 6 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_EUDPE_S 7 + +/* VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS_ERROR_0_QW0_BITS + * for splitq virtchnl2_rx_flex_desc_adv + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_LPBK_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_IPV6EXADD_S 1 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_RXE_S 2 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_CRCP_S 3 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_RSS_VALID_S 4 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_L2TAG1P_S 5 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XTRMD0_VALID_S 6 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XTRMD1_VALID_S 7 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_LAST 8 /* this entry must be last!!! */ + +/* VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS_ERROR_1_BITS + * for splitq virtchnl2_rx_flex_desc_adv + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_RSVD_S 0 /* 2 bits */ +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_ATRAEFAIL_S 2 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_L2TAG2P_S 3 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_XTRMD2_VALID_S 4 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_XTRMD3_VALID_S 5 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_XTRMD4_VALID_S 6 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_XTRMD5_VALID_S 7 +#define VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS1_LAST 8 /* this entry must be last!!! */ + +/* for singleq (flex) virtchnl2_rx_flex_desc fields */ +/* for virtchnl2_rx_flex_desc.ptype_flex_flags0 member */ +#define VIRTCHNL2_RX_FLEX_DESC_PTYPE_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_PTYPE_M \ + MAKEMASK(0x3FFUL, VIRTCHNL2_RX_FLEX_DESC_PTYPE_S) /* 10 bits */ + +/* for virtchnl2_rx_flex_desc.pkt_length member */ +#define VIRTCHNL2_RX_FLEX_DESC_PKT_LEN_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_PKT_LEN_M \ + MAKEMASK(0x3FFFUL, VIRTCHNL2_RX_FLEX_DESC_PKT_LEN_S) /* 14 bits */ + +/* VIRTCHNL2_RX_FLEX_DESC_STATUS_ERROR_0_BITS + * for singleq (flex) virtchnl2_rx_flex_desc + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_DD_S 0 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_EOF_S 1 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_HBO_S 2 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_L3L4P_S 3 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_XSUM_IPE_S 4 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_XSUM_L4E_S 5 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_XSUM_EIPE_S 6 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_XSUM_EUDPE_S 7 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_LPBK_S 8 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_IPV6EXADD_S 9 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_RXE_S 10 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_CRCP_S 11 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_RSS_VALID_S 12 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_L2TAG1P_S 13 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_XTRMD0_VALID_S 14 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_XTRMD1_VALID_S 15 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS0_LAST 16 /* this entry must be last!!! */ + +/* VIRTCHNL2_RX_FLEX_DESC_STATUS_ERROR_1_BITS + * for singleq (flex) virtchnl2_rx_flex_desc + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_CPM_S 0 /* 4 bits */ +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_NAT_S 4 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_CRYPTO_S 5 +/* [10:6] reserved */ +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_L2TAG2P_S 11 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_XTRMD2_VALID_S 12 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_XTRMD3_VALID_S 13 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_XTRMD4_VALID_S 14 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_XTRMD5_VALID_S 15 +#define VIRTCHNL2_RX_FLEX_DESC_STATUS1_LAST 16 /* this entry must be last!!! */ + +/* for virtchnl2_rx_flex_desc.ts_low member */ +#define VIRTCHNL2_RX_FLEX_TSTAMP_VALID BIT(0) + +/* For singleq (non flex) virtchnl2_singleq_base_rx_desc legacy desc members */ +#define VIRTCHNL2_RX_BASE_DESC_QW1_LEN_SPH_S 63 +#define VIRTCHNL2_RX_BASE_DESC_QW1_LEN_SPH_M \ + BIT_ULL(VIRTCHNL2_RX_BASE_DESC_QW1_LEN_SPH_S) +#define VIRTCHNL2_RX_BASE_DESC_QW1_LEN_HBUF_S 52 +#define VIRTCHNL2_RX_BASE_DESC_QW1_LEN_HBUF_M \ + MAKEMASK(0x7FFULL, VIRTCHNL2_RX_BASE_DESC_QW1_LEN_HBUF_S) +#define VIRTCHNL2_RX_BASE_DESC_QW1_LEN_PBUF_S 38 +#define VIRTCHNL2_RX_BASE_DESC_QW1_LEN_PBUF_M \ + MAKEMASK(0x3FFFULL, VIRTCHNL2_RX_BASE_DESC_QW1_LEN_PBUF_S) +#define VIRTCHNL2_RX_BASE_DESC_QW1_PTYPE_S 30 +#define VIRTCHNL2_RX_BASE_DESC_QW1_PTYPE_M \ + MAKEMASK(0xFFULL, VIRTCHNL2_RX_BASE_DESC_QW1_PTYPE_S) +#define VIRTCHNL2_RX_BASE_DESC_QW1_ERROR_S 19 +#define VIRTCHNL2_RX_BASE_DESC_QW1_ERROR_M \ + MAKEMASK(0xFFUL, VIRTCHNL2_RX_BASE_DESC_QW1_ERROR_S) +#define VIRTCHNL2_RX_BASE_DESC_QW1_STATUS_S 0 +#define VIRTCHNL2_RX_BASE_DESC_QW1_STATUS_M \ + MAKEMASK(0x7FFFFUL, VIRTCHNL2_RX_BASE_DESC_QW1_STATUS_S) + +/* VIRTCHNL2_RX_BASE_DESC_STATUS_BITS + * for singleq (base) virtchnl2_rx_base_desc + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_BASE_DESC_STATUS_DD_S 0 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_EOF_S 1 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_L2TAG1P_S 2 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_L3L4P_S 3 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_CRCP_S 4 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_RSVD_S 5 /* 3 bits */ +#define VIRTCHNL2_RX_BASE_DESC_STATUS_EXT_UDP_0_S 8 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_UMBCAST_S 9 /* 2 bits */ +#define VIRTCHNL2_RX_BASE_DESC_STATUS_FLM_S 11 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_FLTSTAT_S 12 /* 2 bits */ +#define VIRTCHNL2_RX_BASE_DESC_STATUS_LPBK_S 14 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_IPV6EXADD_S 15 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_RSVD1_S 16 /* 2 bits */ +#define VIRTCHNL2_RX_BASE_DESC_STATUS_INT_UDP_0_S 18 +#define VIRTCHNL2_RX_BASE_DESC_STATUS_LAST 19 /* this entry must be last!!! */ + +/* VIRTCHNL2_RX_BASE_DESC_EXT_STATUS_BITS + * for singleq (base) virtchnl2_rx_base_desc + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_BASE_DESC_EXT_STATUS_L2TAG2P_S 0 + +/* VIRTCHNL2_RX_BASE_DESC_ERROR_BITS + * for singleq (base) virtchnl2_rx_base_desc + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_BASE_DESC_ERROR_RXE_S 0 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_ATRAEFAIL_S 1 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_HBO_S 2 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_L3L4E_S 3 /* 3 bits */ +#define VIRTCHNL2_RX_BASE_DESC_ERROR_IPE_S 3 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_L4E_S 4 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_EIPE_S 5 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_OVERSIZE_S 6 +#define VIRTCHNL2_RX_BASE_DESC_ERROR_PPRS_S 7 + +/* VIRTCHNL2_RX_BASE_DESC_FLTSTAT_VALUES + * for singleq (base) virtchnl2_rx_base_desc + * Note: These are predefined bit offsets + */ +#define VIRTCHNL2_RX_BASE_DESC_FLTSTAT_NO_DATA 0 +#define VIRTCHNL2_RX_BASE_DESC_FLTSTAT_FD_ID 1 +#define VIRTCHNL2_RX_BASE_DESC_FLTSTAT_RSV 2 +#define VIRTCHNL2_RX_BASE_DESC_FLTSTAT_RSS_HASH 3 + +/* Receive Descriptors */ +/* splitq buf + * | 16| 0| + * ---------------------------------------------------------------- + * | RSV | Buffer ID | + * ---------------------------------------------------------------- + * | Rx packet buffer address | + * ---------------------------------------------------------------- + * | Rx header buffer address | + * ---------------------------------------------------------------- + * | RSV | + * ---------------------------------------------------------------- + * | 0| + */ +struct virtchnl2_splitq_rx_buf_desc { + struct { + __le16 buf_id; /* Buffer Identifier */ + __le16 rsvd0; + __le32 rsvd1; + } qword0; + __le64 pkt_addr; /* Packet buffer address */ + __le64 hdr_addr; /* Header buffer address */ + __le64 rsvd2; +}; /* read used with buffer queues*/ + +/* singleq buf + * | 0| + * ---------------------------------------------------------------- + * | Rx packet buffer address | + * ---------------------------------------------------------------- + * | Rx header buffer address | + * ---------------------------------------------------------------- + * | RSV | + * ---------------------------------------------------------------- + * | RSV | + * ---------------------------------------------------------------- + * | 0| + */ +struct virtchnl2_singleq_rx_buf_desc { + __le64 pkt_addr; /* Packet buffer address */ + __le64 hdr_addr; /* Header buffer address */ + __le64 rsvd1; + __le64 rsvd2; +}; /* read used with buffer queues*/ + +union virtchnl2_rx_buf_desc { + struct virtchnl2_singleq_rx_buf_desc read; + struct virtchnl2_splitq_rx_buf_desc split_rd; +}; + +/* (0x00) singleq wb(compl) */ +struct virtchnl2_singleq_base_rx_desc { + struct { + struct { + __le16 mirroring_status; + __le16 l2tag1; + } lo_dword; + union { + __le32 rss; /* RSS Hash */ + __le32 fd_id; /* Flow Director filter id */ + } hi_dword; + } qword0; + struct { + /* status/error/PTYPE/length */ + __le64 status_error_ptype_len; + } qword1; + struct { + __le16 ext_status; /* extended status */ + __le16 rsvd; + __le16 l2tag2_1; + __le16 l2tag2_2; + } qword2; + struct { + __le32 reserved; + __le32 fd_id; + } qword3; +}; /* writeback */ + +/* (0x01) singleq flex compl */ +struct virtchnl2_rx_flex_desc { + /* Qword 0 */ + u8 rxdid; /* descriptor builder profile id */ + u8 mir_id_umb_cast; /* mirror=[5:0], umb=[7:6] */ + __le16 ptype_flex_flags0; /* ptype=[9:0], ff0=[15:10] */ + __le16 pkt_len; /* [15:14] are reserved */ + __le16 hdr_len_sph_flex_flags1; /* header=[10:0] */ + /* sph=[11:11] */ + /* ff1/ext=[15:12] */ + + /* Qword 1 */ + __le16 status_error0; + __le16 l2tag1; + __le16 flex_meta0; + __le16 flex_meta1; + + /* Qword 2 */ + __le16 status_error1; + u8 flex_flags2; + u8 time_stamp_low; + __le16 l2tag2_1st; + __le16 l2tag2_2nd; + + /* Qword 3 */ + __le16 flex_meta2; + __le16 flex_meta3; + union { + struct { + __le16 flex_meta4; + __le16 flex_meta5; + } flex; + __le32 ts_high; + } flex_ts; +}; + +/* (0x02) */ +struct virtchnl2_rx_flex_desc_nic { + /* Qword 0 */ + u8 rxdid; + u8 mir_id_umb_cast; + __le16 ptype_flex_flags0; + __le16 pkt_len; + __le16 hdr_len_sph_flex_flags1; + + /* Qword 1 */ + __le16 status_error0; + __le16 l2tag1; + __le32 rss_hash; + + /* Qword 2 */ + __le16 status_error1; + u8 flexi_flags2; + u8 ts_low; + __le16 l2tag2_1st; + __le16 l2tag2_2nd; + + /* Qword 3 */ + __le32 flow_id; + union { + struct { + __le16 rsvd; + __le16 flow_id_ipv6; + } flex; + __le32 ts_high; + } flex_ts; +}; + +/* Rx Flex Descriptor Switch Profile + * RxDID Profile Id 3 + * Flex-field 0: Source Vsi + */ +struct virtchnl2_rx_flex_desc_sw { + /* Qword 0 */ + u8 rxdid; + u8 mir_id_umb_cast; + __le16 ptype_flex_flags0; + __le16 pkt_len; + __le16 hdr_len_sph_flex_flags1; + + /* Qword 1 */ + __le16 status_error0; + __le16 l2tag1; + __le16 src_vsi; /* [10:15] are reserved */ + __le16 flex_md1_rsvd; + + /* Qword 2 */ + __le16 status_error1; + u8 flex_flags2; + u8 ts_low; + __le16 l2tag2_1st; + __le16 l2tag2_2nd; + + /* Qword 3 */ + __le32 rsvd; /* flex words 2-3 are reserved */ + __le32 ts_high; +}; + + +/* Rx Flex Descriptor NIC Profile + * RxDID Profile Id 6 + * Flex-field 0: RSS hash lower 16-bits + * Flex-field 1: RSS hash upper 16-bits + * Flex-field 2: Flow Id lower 16-bits + * Flex-field 3: Source Vsi + * Flex-field 4: reserved, Vlan id taken from L2Tag + */ +struct virtchnl2_rx_flex_desc_nic_2 { + /* Qword 0 */ + u8 rxdid; + u8 mir_id_umb_cast; + __le16 ptype_flex_flags0; + __le16 pkt_len; + __le16 hdr_len_sph_flex_flags1; + + /* Qword 1 */ + __le16 status_error0; + __le16 l2tag1; + __le32 rss_hash; + + /* Qword 2 */ + __le16 status_error1; + u8 flexi_flags2; + u8 ts_low; + __le16 l2tag2_1st; + __le16 l2tag2_2nd; + + /* Qword 3 */ + __le16 flow_id; + __le16 src_vsi; + union { + struct { + __le16 rsvd; + __le16 flow_id_ipv6; + } flex; + __le32 ts_high; + } flex_ts; +}; + +/* Rx Flex Descriptor Advanced (Split Queue Model) + * RxDID Profile Id 7 + */ +struct virtchnl2_rx_flex_desc_adv { + /* Qword 0 */ + u8 rxdid_ucast; /* profile_id=[3:0] */ + /* rsvd=[5:4] */ + /* ucast=[7:6] */ + u8 status_err0_qw0; + __le16 ptype_err_fflags0; /* ptype=[9:0] */ + /* ip_hdr_err=[10:10] */ + /* udp_len_err=[11:11] */ + /* ff0=[15:12] */ + __le16 pktlen_gen_bufq_id; /* plen=[13:0] */ + /* gen=[14:14] only in splitq */ + /* bufq_id=[15:15] only in splitq */ + __le16 hdrlen_flags; /* header=[9:0] */ + /* rsc=[10:10] only in splitq */ + /* sph=[11:11] only in splitq */ + /* ext_udp_0=[12:12] */ + /* int_udp_0=[13:13] */ + /* trunc_mirr=[14:14] */ + /* miss_prepend=[15:15] */ + /* Qword 1 */ + u8 status_err0_qw1; + u8 status_err1; + u8 fflags1; + u8 ts_low; + __le16 fmd0; + __le16 fmd1; + /* Qword 2 */ + __le16 fmd2; + u8 fflags2; + u8 hash3; + __le16 fmd3; + __le16 fmd4; + /* Qword 3 */ + __le16 fmd5; + __le16 fmd6; + __le16 fmd7_0; + __le16 fmd7_1; +}; /* writeback */ + +/* Rx Flex Descriptor Advanced (Split Queue Model) NIC Profile + * RxDID Profile Id 8 + * Flex-field 0: BufferID + * Flex-field 1: Raw checksum/L2TAG1/RSC Seg Len (determined by HW) + * Flex-field 2: Hash[15:0] + * Flex-flags 2: Hash[23:16] + * Flex-field 3: L2TAG2 + * Flex-field 5: L2TAG1 + * Flex-field 7: Timestamp (upper 32 bits) + */ +struct virtchnl2_rx_flex_desc_adv_nic_3 { + /* Qword 0 */ + u8 rxdid_ucast; /* profile_id=[3:0] */ + /* rsvd=[5:4] */ + /* ucast=[7:6] */ + u8 status_err0_qw0; + __le16 ptype_err_fflags0; /* ptype=[9:0] */ + /* ip_hdr_err=[10:10] */ + /* udp_len_err=[11:11] */ + /* ff0=[15:12] */ + __le16 pktlen_gen_bufq_id; /* plen=[13:0] */ + /* gen=[14:14] only in splitq */ + /* bufq_id=[15:15] only in splitq */ + __le16 hdrlen_flags; /* header=[9:0] */ + /* rsc=[10:10] only in splitq */ + /* sph=[11:11] only in splitq */ + /* ext_udp_0=[12:12] */ + /* int_udp_0=[13:13] */ + /* trunc_mirr=[14:14] */ + /* miss_prepend=[15:15] */ + /* Qword 1 */ + u8 status_err0_qw1; + u8 status_err1; + u8 fflags1; + u8 ts_low; + __le16 buf_id; /* only in splitq */ + union { + __le16 raw_cs; + __le16 l2tag1; + __le16 rscseglen; + } misc; + /* Qword 2 */ + __le16 hash1; + union { + u8 fflags2; + u8 mirrorid; + u8 hash2; + } ff2_mirrid_hash2; + u8 hash3; + __le16 l2tag2; + __le16 fmd4; + /* Qword 3 */ + __le16 l2tag1; + __le16 fmd6; + __le32 ts_high; +}; /* writeback */ + +union virtchnl2_rx_desc { + struct virtchnl2_singleq_rx_buf_desc read; + struct virtchnl2_singleq_base_rx_desc base_wb; + struct virtchnl2_rx_flex_desc flex_wb; + struct virtchnl2_rx_flex_desc_nic flex_nic_wb; + struct virtchnl2_rx_flex_desc_sw flex_sw_wb; + struct virtchnl2_rx_flex_desc_nic_2 flex_nic_2_wb; + struct virtchnl2_rx_flex_desc_adv flex_adv_wb; + struct virtchnl2_rx_flex_desc_adv_nic_3 flex_adv_nic_3_wb; +}; + +#endif /* _VIRTCHNL_LAN_DESC_H_ */ diff --git a/drivers/common/idpf/base/virtchnl_inline_ipsec.h b/drivers/common/idpf/base/virtchnl_inline_ipsec.h new file mode 100644 index 0000000000..e19043ac47 --- /dev/null +++ b/drivers/common/idpf/base/virtchnl_inline_ipsec.h @@ -0,0 +1,567 @@ +/* SPDX-License-Identifier: BSD-3-Clause + * Copyright(c) 2001-2022 Intel Corporation + */ + +#ifndef _VIRTCHNL_INLINE_IPSEC_H_ +#define _VIRTCHNL_INLINE_IPSEC_H_ + +#define VIRTCHNL_IPSEC_MAX_CRYPTO_CAP_NUM 3 +#define VIRTCHNL_IPSEC_MAX_ALGO_CAP_NUM 16 +#define VIRTCHNL_IPSEC_MAX_TX_DESC_NUM 128 +#define VIRTCHNL_IPSEC_MAX_CRYPTO_ITEM_NUMBER 2 +#define VIRTCHNL_IPSEC_MAX_KEY_LEN 128 +#define VIRTCHNL_IPSEC_MAX_SA_DESTROY_NUM 8 +#define VIRTCHNL_IPSEC_SA_DESTROY 0 +#define VIRTCHNL_IPSEC_BROADCAST_VFID 0xFFFFFFFF +#define VIRTCHNL_IPSEC_INVALID_REQ_ID 0xFFFF +#define VIRTCHNL_IPSEC_INVALID_SA_CFG_RESP 0xFFFFFFFF +#define VIRTCHNL_IPSEC_INVALID_SP_CFG_RESP 0xFFFFFFFF + +/* crypto type */ +#define VIRTCHNL_AUTH 1 +#define VIRTCHNL_CIPHER 2 +#define VIRTCHNL_AEAD 3 + +/* caps enabled */ +#define VIRTCHNL_IPSEC_ESN_ENA BIT(0) +#define VIRTCHNL_IPSEC_UDP_ENCAP_ENA BIT(1) +#define VIRTCHNL_IPSEC_SA_INDEX_SW_ENA BIT(2) +#define VIRTCHNL_IPSEC_AUDIT_ENA BIT(3) +#define VIRTCHNL_IPSEC_BYTE_LIMIT_ENA BIT(4) +#define VIRTCHNL_IPSEC_DROP_ON_AUTH_FAIL_ENA BIT(5) +#define VIRTCHNL_IPSEC_ARW_CHECK_ENA BIT(6) +#define VIRTCHNL_IPSEC_24BIT_SPI_ENA BIT(7) + +/* algorithm type */ +/* Hash Algorithm */ +#define VIRTCHNL_HASH_NO_ALG 0 /* NULL algorithm */ +#define VIRTCHNL_AES_CBC_MAC 1 /* AES-CBC-MAC algorithm */ +#define VIRTCHNL_AES_CMAC 2 /* AES CMAC algorithm */ +#define VIRTCHNL_AES_GMAC 3 /* AES GMAC algorithm */ +#define VIRTCHNL_AES_XCBC_MAC 4 /* AES XCBC algorithm */ +#define VIRTCHNL_MD5_HMAC 5 /* HMAC using MD5 algorithm */ +#define VIRTCHNL_SHA1_HMAC 6 /* HMAC using 128 bit SHA algorithm */ +#define VIRTCHNL_SHA224_HMAC 7 /* HMAC using 224 bit SHA algorithm */ +#define VIRTCHNL_SHA256_HMAC 8 /* HMAC using 256 bit SHA algorithm */ +#define VIRTCHNL_SHA384_HMAC 9 /* HMAC using 384 bit SHA algorithm */ +#define VIRTCHNL_SHA512_HMAC 10 /* HMAC using 512 bit SHA algorithm */ +#define VIRTCHNL_SHA3_224_HMAC 11 /* HMAC using 224 bit SHA3 algorithm */ +#define VIRTCHNL_SHA3_256_HMAC 12 /* HMAC using 256 bit SHA3 algorithm */ +#define VIRTCHNL_SHA3_384_HMAC 13 /* HMAC using 384 bit SHA3 algorithm */ +#define VIRTCHNL_SHA3_512_HMAC 14 /* HMAC using 512 bit SHA3 algorithm */ +/* Cipher Algorithm */ +#define VIRTCHNL_CIPHER_NO_ALG 15 /* NULL algorithm */ +#define VIRTCHNL_3DES_CBC 16 /* Triple DES algorithm in CBC mode */ +#define VIRTCHNL_AES_CBC 17 /* AES algorithm in CBC mode */ +#define VIRTCHNL_AES_CTR 18 /* AES algorithm in Counter mode */ +/* AEAD Algorithm */ +#define VIRTCHNL_AES_CCM 19 /* AES algorithm in CCM mode */ +#define VIRTCHNL_AES_GCM 20 /* AES algorithm in GCM mode */ +#define VIRTCHNL_CHACHA20_POLY1305 21 /* algorithm of ChaCha20-Poly1305 */ + +/* protocol type */ +#define VIRTCHNL_PROTO_ESP 1 +#define VIRTCHNL_PROTO_AH 2 +#define VIRTCHNL_PROTO_RSVD1 3 + +/* sa mode */ +#define VIRTCHNL_SA_MODE_TRANSPORT 1 +#define VIRTCHNL_SA_MODE_TUNNEL 2 +#define VIRTCHNL_SA_MODE_TRAN_TUN 3 +#define VIRTCHNL_SA_MODE_UNKNOWN 4 + +/* sa direction */ +#define VIRTCHNL_DIR_INGRESS 1 +#define VIRTCHNL_DIR_EGRESS 2 +#define VIRTCHNL_DIR_INGRESS_EGRESS 3 + +/* sa termination */ +#define VIRTCHNL_TERM_SOFTWARE 1 +#define VIRTCHNL_TERM_HARDWARE 2 + +/* sa ip type */ +#define VIRTCHNL_IPV4 1 +#define VIRTCHNL_IPV6 2 + +/* for virtchnl_ipsec_resp */ +enum inline_ipsec_resp { + INLINE_IPSEC_SUCCESS = 0, + INLINE_IPSEC_FAIL = -1, + INLINE_IPSEC_ERR_FIFO_FULL = -2, + INLINE_IPSEC_ERR_NOT_READY = -3, + INLINE_IPSEC_ERR_VF_DOWN = -4, + INLINE_IPSEC_ERR_INVALID_PARAMS = -5, + INLINE_IPSEC_ERR_NO_MEM = -6, +}; + +/* Detailed opcodes for DPDK and IPsec use */ +enum inline_ipsec_ops { + INLINE_IPSEC_OP_GET_CAP = 0, + INLINE_IPSEC_OP_GET_STATUS = 1, + INLINE_IPSEC_OP_SA_CREATE = 2, + INLINE_IPSEC_OP_SA_UPDATE = 3, + INLINE_IPSEC_OP_SA_DESTROY = 4, + INLINE_IPSEC_OP_SP_CREATE = 5, + INLINE_IPSEC_OP_SP_DESTROY = 6, + INLINE_IPSEC_OP_SA_READ = 7, + INLINE_IPSEC_OP_EVENT = 8, + INLINE_IPSEC_OP_RESP = 9, +}; + +#pragma pack(1) +/* Not all valid, if certain field is invalid, set 1 for all bits */ +struct virtchnl_algo_cap { + u32 algo_type; + + u16 block_size; + + u16 min_key_size; + u16 max_key_size; + u16 inc_key_size; + + u16 min_iv_size; + u16 max_iv_size; + u16 inc_iv_size; + + u16 min_digest_size; + u16 max_digest_size; + u16 inc_digest_size; + + u16 min_aad_size; + u16 max_aad_size; + u16 inc_aad_size; +}; +#pragma pack() + +/* vf record the capability of crypto from the virtchnl */ +struct virtchnl_sym_crypto_cap { + u8 crypto_type; + u8 algo_cap_num; + struct virtchnl_algo_cap algo_cap_list[VIRTCHNL_IPSEC_MAX_ALGO_CAP_NUM]; +}; + +/* VIRTCHNL_OP_GET_IPSEC_CAP + * VF pass virtchnl_ipsec_cap to PF + * and PF return capability of ipsec from virtchnl. + */ +#pragma pack(1) +struct virtchnl_ipsec_cap { + /* max number of SA per VF */ + u16 max_sa_num; + + /* IPsec SA Protocol - value ref VIRTCHNL_PROTO_XXX */ + u8 virtchnl_protocol_type; + + /* IPsec SA Mode - value ref VIRTCHNL_SA_MODE_XXX */ + u8 virtchnl_sa_mode; + + /* IPSec SA Direction - value ref VIRTCHNL_DIR_XXX */ + u8 virtchnl_direction; + + /* termination mode - value ref VIRTCHNL_TERM_XXX */ + u8 termination_mode; + + /* number of supported crypto capability */ + u8 crypto_cap_num; + + /* descriptor ID */ + u16 desc_id; + + /* capabilities enabled - value ref VIRTCHNL_IPSEC_XXX_ENA */ + u32 caps_enabled; + + /* crypto capabilities */ + struct virtchnl_sym_crypto_cap cap[VIRTCHNL_IPSEC_MAX_CRYPTO_CAP_NUM]; +}; + +/* configuration of crypto function */ +struct virtchnl_ipsec_crypto_cfg_item { + u8 crypto_type; + + u32 algo_type; + + /* Length of valid IV data. */ + u16 iv_len; + + /* Length of digest */ + u16 digest_len; + + /* SA salt */ + u32 salt; + + /* The length of the symmetric key */ + u16 key_len; + + /* key data buffer */ + u8 key_data[VIRTCHNL_IPSEC_MAX_KEY_LEN]; +}; +#pragma pack() + +struct virtchnl_ipsec_sym_crypto_cfg { + struct virtchnl_ipsec_crypto_cfg_item + items[VIRTCHNL_IPSEC_MAX_CRYPTO_ITEM_NUMBER]; +}; + +#pragma pack(1) +/* VIRTCHNL_OP_IPSEC_SA_CREATE + * VF send this SA configuration to PF using virtchnl; + * PF create SA as configuration and PF driver will return + * an unique index (sa_idx) for the created SA. + */ +struct virtchnl_ipsec_sa_cfg { + /* IPsec SA Protocol - AH/ESP */ + u8 virtchnl_protocol_type; + + /* termination mode - value ref VIRTCHNL_TERM_XXX */ + u8 virtchnl_termination; + + /* type of outer IP - IPv4/IPv6 */ + u8 virtchnl_ip_type; + + /* type of esn - !0:enable/0:disable */ + u8 esn_enabled; + + /* udp encap - !0:enable/0:disable */ + u8 udp_encap_enabled; + + /* IPSec SA Direction - value ref VIRTCHNL_DIR_XXX */ + u8 virtchnl_direction; + + /* reserved */ + u8 reserved1; + + /* SA security parameter index */ + u32 spi; + + /* outer src ip address */ + u8 src_addr[16]; + + /* outer dst ip address */ + u8 dst_addr[16]; + + /* SPD reference. Used to link an SA with its policy. + * PF drivers may ignore this field. + */ + u16 spd_ref; + + /* high 32 bits of esn */ + u32 esn_hi; + + /* low 32 bits of esn */ + u32 esn_low; + + /* When enabled, sa_index must be valid */ + u8 sa_index_en; + + /* SA index when sa_index_en is true */ + u32 sa_index; + + /* auditing mode - enable/disable */ + u8 audit_en; + + /* lifetime byte limit - enable/disable + * When enabled, byte_limit_hard and byte_limit_soft + * must be valid. + */ + u8 byte_limit_en; + + /* hard byte limit count */ + u64 byte_limit_hard; + + /* soft byte limit count */ + u64 byte_limit_soft; + + /* drop on authentication failure - enable/disable */ + u8 drop_on_auth_fail_en; + + /* anti-reply window check - enable/disable + * When enabled, arw_size must be valid. + */ + u8 arw_check_en; + + /* size of arw window, offset by 1. Setting to 0 + * represents ARW window size of 1. Setting to 127 + * represents ARW window size of 128 + */ + u8 arw_size; + + /* no ip offload mode - enable/disable + * When enabled, ip type and address must not be valid. + */ + u8 no_ip_offload_en; + + /* SA Domain. Used to logical separate an SADB into groups. + * PF drivers supporting a single group ignore this field. + */ + u16 sa_domain; + + /* crypto configuration */ + struct virtchnl_ipsec_sym_crypto_cfg crypto_cfg; +}; +#pragma pack() + +/* VIRTCHNL_OP_IPSEC_SA_UPDATE + * VF send configuration of index of SA to PF + * PF will update SA according to configuration + */ +struct virtchnl_ipsec_sa_update { + u32 sa_index; /* SA to update */ + u32 esn_hi; /* high 32 bits of esn */ + u32 esn_low; /* low 32 bits of esn */ +}; + +#pragma pack(1) +/* VIRTCHNL_OP_IPSEC_SA_DESTROY + * VF send configuration of index of SA to PF + * PF will destroy SA according to configuration + * flag bitmap indicate all SA or just selected SA will + * be destroyed + */ +struct virtchnl_ipsec_sa_destroy { + /* All zero bitmap indicates all SA will be destroyed. + * Non-zero bitmap indicates the selected SA in + * array sa_index will be destroyed. + */ + u8 flag; + + /* selected SA index */ + u32 sa_index[VIRTCHNL_IPSEC_MAX_SA_DESTROY_NUM]; +}; + +/* VIRTCHNL_OP_IPSEC_SA_READ + * VF send this SA configuration to PF using virtchnl; + * PF read SA and will return configuration for the created SA. + */ +struct virtchnl_ipsec_sa_read { + /* SA valid - invalid/valid */ + u8 valid; + + /* SA active - inactive/active */ + u8 active; + + /* SA SN rollover - not_rollover/rollover */ + u8 sn_rollover; + + /* IPsec SA Protocol - AH/ESP */ + u8 virtchnl_protocol_type; + + /* termination mode - value ref VIRTCHNL_TERM_XXX */ + u8 virtchnl_termination; + + /* auditing mode - enable/disable */ + u8 audit_en; + + /* lifetime byte limit - enable/disable + * When set to limit, byte_limit_hard and byte_limit_soft + * must be valid. + */ + u8 byte_limit_en; + + /* hard byte limit count */ + u64 byte_limit_hard; + + /* soft byte limit count */ + u64 byte_limit_soft; + + /* drop on authentication failure - enable/disable */ + u8 drop_on_auth_fail_en; + + /* anti-replay window check - enable/disable + * When set to check, arw_size, arw_top, and arw must be valid + */ + u8 arw_check_en; + + /* size of arw window, offset by 1. Setting to 0 + * represents ARW window size of 1. Setting to 127 + * represents ARW window size of 128 + */ + u8 arw_size; + + /* reserved */ + u8 reserved1; + + /* top of anti-replay-window */ + u64 arw_top; + + /* anti-replay-window */ + u8 arw[16]; + + /* packets processed */ + u64 packets_processed; + + /* bytes processed */ + u64 bytes_processed; + + /* packets dropped */ + u32 packets_dropped; + + /* authentication failures */ + u32 auth_fails; + + /* ARW check failures */ + u32 arw_fails; + + /* type of esn - enable/disable */ + u8 esn; + + /* IPSec SA Direction - value ref VIRTCHNL_DIR_XXX */ + u8 virtchnl_direction; + + /* SA security parameter index */ + u32 spi; + + /* SA salt */ + u32 salt; + + /* high 32 bits of esn */ + u32 esn_hi; + + /* low 32 bits of esn */ + u32 esn_low; + + /* SA Domain. Used to logical separate an SADB into groups. + * PF drivers supporting a single group ignore this field. + */ + u16 sa_domain; + + /* SPD reference. Used to link an SA with its policy. + * PF drivers may ignore this field. + */ + u16 spd_ref; + + /* crypto configuration. Salt and keys are set to 0 */ + struct virtchnl_ipsec_sym_crypto_cfg crypto_cfg; +}; +#pragma pack() + +/* Add allowlist entry in IES */ +struct virtchnl_ipsec_sp_cfg { + u32 spi; + u32 dip[4]; + + /* Drop frame if true or redirect to QAT if false. */ + u8 drop; + + /* Congestion domain. For future use. */ + u8 cgd; + + /* 0 for IPv4 table, 1 for IPv6 table. */ + u8 table_id; + + /* Set TC (congestion domain) if true. For future use. */ + u8 set_tc; + + /* 0 for NAT-T unsupported, 1 for NAT-T supported */ + u8 is_udp; + + /* reserved */ + u8 reserved; + + /* NAT-T UDP port number. Only valid in case NAT-T supported */ + u16 udp_port; +}; + +#pragma pack(1) +/* Delete allowlist entry in IES */ +struct virtchnl_ipsec_sp_destroy { + /* 0 for IPv4 table, 1 for IPv6 table. */ + u8 table_id; + u32 rule_id; +}; +#pragma pack() + +/* Response from IES to allowlist operations */ +struct virtchnl_ipsec_sp_cfg_resp { + u32 rule_id; +}; + +struct virtchnl_ipsec_sa_cfg_resp { + u32 sa_handle; +}; + +#define INLINE_IPSEC_EVENT_RESET 0x1 +#define INLINE_IPSEC_EVENT_CRYPTO_ON 0x2 +#define INLINE_IPSEC_EVENT_CRYPTO_OFF 0x4 + +struct virtchnl_ipsec_event { + u32 ipsec_event_data; +}; + +#define INLINE_IPSEC_STATUS_AVAILABLE 0x1 +#define INLINE_IPSEC_STATUS_UNAVAILABLE 0x2 + +struct virtchnl_ipsec_status { + u32 status; +}; + +struct virtchnl_ipsec_resp { + u32 resp; +}; + +/* Internal message descriptor for VF <-> IPsec communication */ +struct inline_ipsec_msg { + u16 ipsec_opcode; + u16 req_id; + + union { + /* IPsec request */ + struct virtchnl_ipsec_sa_cfg sa_cfg[0]; + struct virtchnl_ipsec_sp_cfg sp_cfg[0]; + struct virtchnl_ipsec_sa_update sa_update[0]; + struct virtchnl_ipsec_sa_destroy sa_destroy[0]; + struct virtchnl_ipsec_sp_destroy sp_destroy[0]; + + /* IPsec response */ + struct virtchnl_ipsec_sa_cfg_resp sa_cfg_resp[0]; + struct virtchnl_ipsec_sp_cfg_resp sp_cfg_resp[0]; + struct virtchnl_ipsec_cap ipsec_cap[0]; + struct virtchnl_ipsec_status ipsec_status[0]; + /* response to del_sa, del_sp, update_sa */ + struct virtchnl_ipsec_resp ipsec_resp[0]; + + /* IPsec event (no req_id is required) */ + struct virtchnl_ipsec_event event[0]; + + /* Reserved */ + struct virtchnl_ipsec_sa_read sa_read[0]; + } ipsec_data; +}; + +static inline u16 virtchnl_inline_ipsec_val_msg_len(u16 opcode) +{ + u16 valid_len = sizeof(struct inline_ipsec_msg); + + switch (opcode) { + case INLINE_IPSEC_OP_GET_CAP: + case INLINE_IPSEC_OP_GET_STATUS: + break; + case INLINE_IPSEC_OP_SA_CREATE: + valid_len += sizeof(struct virtchnl_ipsec_sa_cfg); + break; + case INLINE_IPSEC_OP_SP_CREATE: + valid_len += sizeof(struct virtchnl_ipsec_sp_cfg); + break; + case INLINE_IPSEC_OP_SA_UPDATE: + valid_len += sizeof(struct virtchnl_ipsec_sa_update); + break; + case INLINE_IPSEC_OP_SA_DESTROY: + valid_len += sizeof(struct virtchnl_ipsec_sa_destroy); + break; + case INLINE_IPSEC_OP_SP_DESTROY: + valid_len += sizeof(struct virtchnl_ipsec_sp_destroy); + break; + /* Only for msg length calculation of response to VF in case of + * inline ipsec failure. + */ + case INLINE_IPSEC_OP_RESP: + valid_len += sizeof(struct virtchnl_ipsec_resp); + break; + default: + valid_len = 0; + break; + } + + return valid_len; +} + +#endif /* _VIRTCHNL_INLINE_IPSEC_H_ */ diff --git a/drivers/common/idpf/meson.build b/drivers/common/idpf/meson.build new file mode 100644 index 0000000000..77d997b4a7 --- /dev/null +++ b/drivers/common/idpf/meson.build @@ -0,0 +1,4 @@ +# SPDX-License-Identifier: BSD-3-Clause +# Copyright(c) 2022 Intel Corporation + +subdir('base') diff --git a/drivers/common/idpf/version.map b/drivers/common/idpf/version.map new file mode 100644 index 0000000000..bfb246c752 --- /dev/null +++ b/drivers/common/idpf/version.map @@ -0,0 +1,12 @@ +INTERNAL { + global: + + idpf_ctlq_deinit; + idpf_ctlq_init; + idpf_ctlq_clean_sq; + idpf_ctlq_recv; + idpf_ctlq_send; + idpf_ctlq_post_rx_buffs; + + local: *; +}; diff --git a/drivers/common/meson.build b/drivers/common/meson.build index ea261dd70a..b63d899d50 100644 --- a/drivers/common/meson.build +++ b/drivers/common/meson.build @@ -6,6 +6,7 @@ drivers = [ 'cpt', 'dpaax', 'iavf', + 'idpf', 'mvep', 'octeontx', ]