// SPDX-License-Identifier: GPL-2.0 /* Huawei HiNIC PCI Express Linux driver * Copyright(c) 2017 Huawei Technologies Co., Ltd * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * */ #define pr_fmt(fmt) KBUILD_MODNAME ": [COMM]" fmt #include #include #include #include #include #include "ossl_knl.h" #include "hinic_hw.h" #include "hinic_hw_mgmt.h" #include "hinic_hwdev.h" #include "hinic_csr.h" #include "hinic_hwif.h" #include "hinic_eqs.h" #define WAIT_HWIF_READY_TIMEOUT 10000 #define HINIC_SELFTEST_RESULT 0x883C /* For UEFI driver, this function can only read BAR0 */ u32 hinic_hwif_read_reg(struct hinic_hwif *hwif, u32 reg) { return be32_to_cpu(readl(hwif->cfg_regs_base + reg)); } /* For UEFI driver, this function can only write BAR0 */ void hinic_hwif_write_reg(struct hinic_hwif *hwif, u32 reg, u32 val) { writel(cpu_to_be32(val), hwif->cfg_regs_base + reg); } /** * hwif_ready - test if the HW initialization passed * @hwdev: the pointer to hw device * Return: 0 - success, negative - failure */ static int hwif_ready(struct hinic_hwdev *hwdev) { u32 addr, attr1; addr = HINIC_CSR_FUNC_ATTR1_ADDR; attr1 = hinic_hwif_read_reg(hwdev->hwif, addr); if (attr1 == HINIC_PCIE_LINK_DOWN) return -EBUSY; if (!HINIC_AF1_GET(attr1, MGMT_INIT_STATUS)) return -EBUSY; if (HINIC_IS_VF(hwdev)) { if (!HINIC_AF1_GET(attr1, PF_INIT_STATUS)) return -EBUSY; } return 0; } static int wait_hwif_ready(struct hinic_hwdev *hwdev) { ulong timeout = 0; do { if (!hwif_ready(hwdev)) return 0; usleep_range(999, 1000); timeout++; } while (timeout <= WAIT_HWIF_READY_TIMEOUT); sdk_err(hwdev->dev_hdl, "Wait for hwif timeout\n"); return -EBUSY; } /** * set_hwif_attr - set the attributes as members in hwif * @hwif: the hardware interface of a pci function device * @attr0: the first attribute that was read from the hw * @attr1: the second attribute that was read from the hw * @attr2: the third attribute that was read from the hw */ static void set_hwif_attr(struct hinic_hwif *hwif, u32 attr0, u32 attr1, u32 attr2) { hwif->attr.func_global_idx = HINIC_AF0_GET(attr0, FUNC_GLOBAL_IDX); hwif->attr.port_to_port_idx = HINIC_AF0_GET(attr0, P2P_IDX); hwif->attr.pci_intf_idx = HINIC_AF0_GET(attr0, PCI_INTF_IDX); hwif->attr.vf_in_pf = HINIC_AF0_GET(attr0, VF_IN_PF); hwif->attr.func_type = HINIC_AF0_GET(attr0, FUNC_TYPE); hwif->attr.ppf_idx = HINIC_AF1_GET(attr1, PPF_IDX); hwif->attr.num_aeqs = BIT(HINIC_AF1_GET(attr1, AEQS_PER_FUNC)); hwif->attr.num_ceqs = BIT(HINIC_AF1_GET(attr1, CEQS_PER_FUNC)); hwif->attr.num_irqs = BIT(HINIC_AF1_GET(attr1, IRQS_PER_FUNC)); hwif->attr.num_dma_attr = BIT(HINIC_AF1_GET(attr1, DMA_ATTR_PER_FUNC)); hwif->attr.global_vf_id_of_pf = HINIC_AF2_GET(attr2, GLOBAL_VF_ID_OF_PF); } /** * get_hwif_attr - read and set the attributes as members in hwif * @hwif: the hardware interface of a pci function device */ static void get_hwif_attr(struct hinic_hwif *hwif) { u32 addr, attr0, attr1, attr2; addr = HINIC_CSR_FUNC_ATTR0_ADDR; attr0 = hinic_hwif_read_reg(hwif, addr); addr = HINIC_CSR_FUNC_ATTR1_ADDR; attr1 = hinic_hwif_read_reg(hwif, addr); addr = HINIC_CSR_FUNC_ATTR2_ADDR; attr2 = hinic_hwif_read_reg(hwif, addr); set_hwif_attr(hwif, attr0, attr1, attr2); } void hinic_set_pf_status(struct hinic_hwif *hwif, enum hinic_pf_status status) { u32 attr5 = HINIC_AF5_SET(status, PF_STATUS); u32 addr = HINIC_CSR_FUNC_ATTR5_ADDR; if (hwif->attr.func_type == TYPE_VF) return; hinic_hwif_write_reg(hwif, addr, attr5); } enum hinic_pf_status hinic_get_pf_status(struct hinic_hwif *hwif) { u32 attr5 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR5_ADDR); return HINIC_AF5_GET(attr5, PF_STATUS); } enum hinic_doorbell_ctrl hinic_get_doorbell_ctrl_status(struct hinic_hwif *hwif) { u32 attr4 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR); return HINIC_AF4_GET(attr4, DOORBELL_CTRL); } enum hinic_outbound_ctrl hinic_get_outbound_ctrl_status(struct hinic_hwif *hwif) { u32 attr4 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR); return HINIC_AF4_GET(attr4, OUTBOUND_CTRL); } void hinic_enable_doorbell(struct hinic_hwif *hwif) { u32 addr, attr4; addr = HINIC_CSR_FUNC_ATTR4_ADDR; attr4 = hinic_hwif_read_reg(hwif, addr); attr4 = HINIC_AF4_CLEAR(attr4, DOORBELL_CTRL); attr4 |= HINIC_AF4_SET(ENABLE_DOORBELL, DOORBELL_CTRL); hinic_hwif_write_reg(hwif, addr, attr4); } void hinic_disable_doorbell(struct hinic_hwif *hwif) { u32 addr, attr4; addr = HINIC_CSR_FUNC_ATTR4_ADDR; attr4 = hinic_hwif_read_reg(hwif, addr); attr4 = HINIC_AF4_CLEAR(attr4, DOORBELL_CTRL); attr4 |= HINIC_AF4_SET(DISABLE_DOORBELL, DOORBELL_CTRL); hinic_hwif_write_reg(hwif, addr, attr4); } void hinic_enable_outbound(struct hinic_hwif *hwif) { u32 addr, attr4; addr = HINIC_CSR_FUNC_ATTR4_ADDR; attr4 = hinic_hwif_read_reg(hwif, addr); attr4 = HINIC_AF4_CLEAR(attr4, OUTBOUND_CTRL); attr4 |= HINIC_AF4_SET(ENABLE_OUTBOUND, OUTBOUND_CTRL); hinic_hwif_write_reg(hwif, addr, attr4); } void hinic_disable_outbound(struct hinic_hwif *hwif) { u32 addr, attr4; addr = HINIC_CSR_FUNC_ATTR4_ADDR; attr4 = hinic_hwif_read_reg(hwif, addr); attr4 = HINIC_AF4_CLEAR(attr4, OUTBOUND_CTRL); attr4 |= HINIC_AF4_SET(DISABLE_OUTBOUND, OUTBOUND_CTRL); hinic_hwif_write_reg(hwif, addr, attr4); } /** * set_ppf - try to set hwif as ppf and set the type of hwif in this case * @hwif: the hardware interface of a pci function device */ static void set_ppf(struct hinic_hwif *hwif) { struct hinic_func_attr *attr = &hwif->attr; u32 addr, val, ppf_election; /* Read Modify Write */ addr = HINIC_CSR_PPF_ELECTION_ADDR; val = hinic_hwif_read_reg(hwif, addr); val = HINIC_PPF_ELECTION_CLEAR(val, IDX); ppf_election = HINIC_PPF_ELECTION_SET(attr->func_global_idx, IDX); val |= ppf_election; hinic_hwif_write_reg(hwif, addr, val); /* Check PPF */ val = hinic_hwif_read_reg(hwif, addr); attr->ppf_idx = HINIC_PPF_ELECTION_GET(val, IDX); if (attr->ppf_idx == attr->func_global_idx) attr->func_type = TYPE_PPF; } /** * get_mpf - get the mpf index into the hwif * @hwif: the hardware interface of a pci function device */ static void get_mpf(struct hinic_hwif *hwif) { struct hinic_func_attr *attr = &hwif->attr; u32 mpf_election, addr; addr = HINIC_CSR_GLOBAL_MPF_ELECTION_ADDR; mpf_election = hinic_hwif_read_reg(hwif, addr); attr->mpf_idx = HINIC_MPF_ELECTION_GET(mpf_election, IDX); } /** * set_mpf - try to set hwif as mpf and set the mpf idx in hwif * @hwif: the hardware interface of a pci function device */ static void set_mpf(struct hinic_hwif *hwif) { struct hinic_func_attr *attr = &hwif->attr; u32 addr, val, mpf_election; /* Read Modify Write */ addr = HINIC_CSR_GLOBAL_MPF_ELECTION_ADDR; val = hinic_hwif_read_reg(hwif, addr); val = HINIC_MPF_ELECTION_CLEAR(val, IDX); mpf_election = HINIC_MPF_ELECTION_SET(attr->func_global_idx, IDX); val |= mpf_election; hinic_hwif_write_reg(hwif, addr, val); } static void init_db_area_idx(struct hinic_free_db_area *free_db_area) { u32 i; for (i = 0; i < HINIC_DB_MAX_AREAS; i++) free_db_area->db_idx[i] = i; free_db_area->num_free = HINIC_DB_MAX_AREAS; spin_lock_init(&free_db_area->idx_lock); } static int get_db_idx(struct hinic_hwif *hwif, u32 *idx) { struct hinic_free_db_area *free_db_area = &hwif->free_db_area; u32 pos; u32 pg_idx; spin_lock(&free_db_area->idx_lock); retry: if (free_db_area->num_free == 0) { spin_unlock(&free_db_area->idx_lock); return -ENOMEM; } free_db_area->num_free--; pos = free_db_area->alloc_pos++; pos &= HINIC_DB_MAX_AREAS - 1; pg_idx = free_db_area->db_idx[pos]; free_db_area->db_idx[pos] = 0xFFFFFFFF; /* pg_idx out of range */ if (pg_idx >= HINIC_DB_MAX_AREAS) goto retry; spin_unlock(&free_db_area->idx_lock); *idx = pg_idx; return 0; } static void free_db_idx(struct hinic_hwif *hwif, u32 idx) { struct hinic_free_db_area *free_db_area = &hwif->free_db_area; u32 pos; if (idx >= HINIC_DB_MAX_AREAS) return; spin_lock(&free_db_area->idx_lock); pos = free_db_area->return_pos++; pos &= HINIC_DB_MAX_AREAS - 1; free_db_area->db_idx[pos] = idx; free_db_area->num_free++; spin_unlock(&free_db_area->idx_lock); } void hinic_free_db_addr(void *hwdev, void __iomem *db_base, void __iomem *dwqe_base) { struct hinic_hwif *hwif; u32 idx; if (!hwdev || !db_base) return; hwif = ((struct hinic_hwdev *)hwdev)->hwif; idx = DB_IDX(db_base, hwif->db_base); /* No need to unmap */ free_db_idx(hwif, idx); } EXPORT_SYMBOL(hinic_free_db_addr); int hinic_alloc_db_addr(void *hwdev, void __iomem **db_base, void __iomem **dwqe_base) { struct hinic_hwif *hwif; u64 offset; u32 idx; int err; if (!hwdev || !db_base) return -EINVAL; hwif = ((struct hinic_hwdev *)hwdev)->hwif; err = get_db_idx(hwif, &idx); if (err) return -EFAULT; *db_base = hwif->db_base + idx * HINIC_DB_PAGE_SIZE; if (!dwqe_base) return 0; offset = ((u64)idx) << PAGE_SHIFT; *dwqe_base = hwif->dwqe_mapping + offset; if (!(*dwqe_base)) { hinic_free_db_addr(hwdev, *db_base, NULL); return -EFAULT; } return 0; } EXPORT_SYMBOL(hinic_alloc_db_addr); void hinic_free_db_phy_addr(void *hwdev, u64 db_base, u64 dwqe_base) { struct hinic_hwif *hwif; u32 idx; if (!hwdev) return; hwif = ((struct hinic_hwdev *)hwdev)->hwif; idx = DB_IDX(db_base, hwif->db_base_phy); free_db_idx(hwif, idx); } EXPORT_SYMBOL(hinic_free_db_phy_addr); int hinic_alloc_db_phy_addr(void *hwdev, u64 *db_base, u64 *dwqe_base) { struct hinic_hwif *hwif; u32 idx; int err; if (!hwdev || !db_base || !dwqe_base) return -EINVAL; hwif = ((struct hinic_hwdev *)hwdev)->hwif; err = get_db_idx(hwif, &idx); if (err) return -EFAULT; *db_base = hwif->db_base_phy + idx * HINIC_DB_PAGE_SIZE; *dwqe_base = *db_base + HINIC_DB_DWQE_SIZE; return 0; } EXPORT_SYMBOL(hinic_alloc_db_phy_addr); void hinic_set_msix_state(void *hwdev, u16 msix_idx, enum hinic_msix_state flag) { struct hinic_hwif *hwif; u32 offset = msix_idx * HINIC_PCI_MSIX_ENTRY_SIZE + HINIC_PCI_MSIX_ENTRY_VECTOR_CTRL; u32 mask_bits; if (!hwdev) return; hwif = ((struct hinic_hwdev *)hwdev)->hwif; mask_bits = readl(hwif->intr_regs_base + offset); mask_bits &= ~HINIC_PCI_MSIX_ENTRY_CTRL_MASKBIT; if (flag) mask_bits |= HINIC_PCI_MSIX_ENTRY_CTRL_MASKBIT; writel(mask_bits, hwif->intr_regs_base + offset); } EXPORT_SYMBOL(hinic_set_msix_state); static void disable_all_msix(struct hinic_hwdev *hwdev) { u16 num_irqs = hwdev->hwif->attr.num_irqs; u16 i; for (i = 0; i < num_irqs; i++) hinic_set_msix_state(hwdev, i, HINIC_MSIX_DISABLE); } int wait_until_doorbell_flush_states(struct hinic_hwif *hwif, enum hinic_doorbell_ctrl states) { enum hinic_doorbell_ctrl db_ctrl; u32 cnt = 0; if (!hwif) return -EFAULT; while (cnt < HINIC_WAIT_DOORBELL_AND_OUTBOUND_TIMEOUT) { db_ctrl = hinic_get_doorbell_ctrl_status(hwif); if (db_ctrl == states) return 0; usleep_range(900, 1000); cnt++; } return -EFAULT; } EXPORT_SYMBOL(wait_until_doorbell_flush_states); static int wait_until_doorbell_and_outbound_enabled(struct hinic_hwif *hwif) { enum hinic_doorbell_ctrl db_ctrl; enum hinic_outbound_ctrl outbound_ctrl; u32 cnt = 0; while (cnt < HINIC_WAIT_DOORBELL_AND_OUTBOUND_TIMEOUT) { db_ctrl = hinic_get_doorbell_ctrl_status(hwif); outbound_ctrl = hinic_get_outbound_ctrl_status(hwif); if (outbound_ctrl == ENABLE_OUTBOUND && db_ctrl == ENABLE_DOORBELL) return 0; usleep_range(900, 1000); cnt++; } return -EFAULT; } static void __print_selftest_reg(struct hinic_hwdev *hwdev) { u32 addr, attr0, attr1; addr = HINIC_CSR_FUNC_ATTR1_ADDR; attr1 = hinic_hwif_read_reg(hwdev->hwif, addr); if (attr1 == HINIC_PCIE_LINK_DOWN) { sdk_err(hwdev->dev_hdl, "PCIE is link down\n"); return; } addr = HINIC_CSR_FUNC_ATTR0_ADDR; attr0 = hinic_hwif_read_reg(hwdev->hwif, addr); if (HINIC_AF0_GET(attr0, FUNC_TYPE) != TYPE_VF && !HINIC_AF0_GET(attr0, PCI_INTF_IDX)) sdk_err(hwdev->dev_hdl, "Selftest reg: 0x%08x\n", hinic_hwif_read_reg(hwdev->hwif, HINIC_SELFTEST_RESULT)); } /** * hinic_init_hwif - initialize the hw interface * @hwdev: the pointer to hw device * @cfg_reg_base: configuration base address * Return: 0 - success, negative - failure */ int hinic_init_hwif(struct hinic_hwdev *hwdev, void *cfg_reg_base, void *intr_reg_base, u64 db_base_phy, void *db_base, void *dwqe_mapping) { struct hinic_hwif *hwif; int err; hwif = kzalloc(sizeof(*hwif), GFP_KERNEL); if (!hwif) return -ENOMEM; hwdev->hwif = hwif; hwif->pdev = hwdev->pcidev_hdl; hwif->cfg_regs_base = cfg_reg_base; hwif->intr_regs_base = intr_reg_base; hwif->db_base_phy = db_base_phy; hwif->db_base = db_base; hwif->dwqe_mapping = dwqe_mapping; init_db_area_idx(&hwif->free_db_area); err = wait_hwif_ready(hwdev); if (err) { sdk_err(hwdev->dev_hdl, "Chip status is not ready\n"); __print_selftest_reg(hwdev); goto hwif_ready_err; } get_hwif_attr(hwif); err = wait_until_doorbell_and_outbound_enabled(hwif); if (err) { sdk_err(hwdev->dev_hdl, "Hw doorbell/outbound is disabled\n"); goto hwif_ready_err; } if (!HINIC_IS_VF(hwdev)) { set_ppf(hwif); if (HINIC_IS_PPF(hwdev)) set_mpf(hwif); get_mpf(hwif); } disable_all_msix(hwdev); /* disable mgmt cpu report any event */ hinic_set_pf_status(hwdev->hwif, HINIC_PF_STATUS_INIT); pr_info("global_func_idx: %d, func_type: %d, host_id: %d, ppf: %d, mpf: %d\n", hwif->attr.func_global_idx, hwif->attr.func_type, hwif->attr.pci_intf_idx, hwif->attr.ppf_idx, hwif->attr.mpf_idx); return 0; hwif_ready_err: spin_lock_deinit(&hwif->free_db_area.idx_lock); kfree(hwif); return err; } /** * hinic_free_hwif - free the hw interface * @hwdev: the pointer to hw device */ void hinic_free_hwif(struct hinic_hwdev *hwdev) { spin_lock_deinit(&hwdev->hwif->free_db_area.idx_lock); kfree(hwdev->hwif); } int hinic_dma_zalloc_coherent_align(void *dev_hdl, u64 size, u64 align, unsigned int flag, struct hinic_dma_addr_align *mem_align) { void *vaddr, *align_vaddr; dma_addr_t paddr, align_paddr; u64 real_size = size; vaddr = dma_zalloc_coherent(dev_hdl, real_size, &paddr, flag); if (!vaddr) return -ENOMEM; align_paddr = ALIGN(paddr, align); /* align */ if (align_paddr == paddr) { align_vaddr = vaddr; goto out; } dma_free_coherent(dev_hdl, real_size, vaddr, paddr); /* realloc memory for align */ real_size = size + align; vaddr = dma_zalloc_coherent(dev_hdl, real_size, &paddr, flag); if (!vaddr) return -ENOMEM; align_paddr = ALIGN(paddr, align); align_vaddr = (void *)((u64)vaddr + (align_paddr - paddr)); out: mem_align->real_size = (u32)real_size; mem_align->ori_vaddr = vaddr; mem_align->ori_paddr = paddr; mem_align->align_vaddr = align_vaddr; mem_align->align_paddr = align_paddr; return 0; } void hinic_dma_free_coherent_align(void *dev_hdl, struct hinic_dma_addr_align *mem_align) { dma_free_coherent(dev_hdl, mem_align->real_size, mem_align->ori_vaddr, mem_align->ori_paddr); } u16 hinic_global_func_id(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.func_global_idx; } EXPORT_SYMBOL(hinic_global_func_id); /** * get function id from register,used by sriov hot migration process * @hwdev: the pointer to hw device */ u16 hinic_global_func_id_hw(void *hwdev) { u32 addr, attr0; struct hinic_hwdev *dev; dev = (struct hinic_hwdev *)hwdev; addr = HINIC_CSR_FUNC_ATTR0_ADDR; attr0 = hinic_hwif_read_reg(dev->hwif, addr); return HINIC_AF0_GET(attr0, FUNC_GLOBAL_IDX); } static int func_busy_state_check(struct hinic_hwdev *hwdev) { u32 func_state; int cycle; /* set BUSY before src vm suspend and clear it before dst vm resume */ cycle = PIPE_CYCLE_MAX; func_state = hinic_func_busy_state_get(hwdev); while (func_state && cycle) { msleep(20); cycle--; if (!cycle) { sdk_err(hwdev->dev_hdl, "busy_state suspend timeout"); return -ETIMEDOUT; } func_state = hinic_func_busy_state_get(hwdev); } return 0; } int hinic_func_own_get(void *hwdev) { struct hinic_hwdev *dev = (struct hinic_hwdev *)hwdev; u32 func_state; int err; if (!HINIC_IS_VF(dev)) return 0; restart: down(&dev->func_sem); dev->func_ref++; hinic_func_own_bit_set(dev, 1); func_state = hinic_func_busy_state_get(hwdev); if (func_state) { dev->func_ref--; if (dev->func_ref == 0) hinic_func_own_bit_set(dev, 0); up(&dev->func_sem); err = func_busy_state_check(dev); if (err) return err; goto restart; } up(&dev->func_sem); return 0; } void hinic_func_own_free(void *hwdev) { struct hinic_hwdev *dev = (struct hinic_hwdev *)hwdev; if (!HINIC_IS_VF(dev)) return; down(&dev->func_sem); dev->func_ref--; if (dev->func_ref == 0) hinic_func_own_bit_set(dev, 0); up(&dev->func_sem); return; } /** * get function id, used by sriov hot migratition process. * @hwdev: the pointer to hw device * @func_id: function id */ int hinic_global_func_id_get(void *hwdev, u16 *func_id) { struct hinic_hwdev *dev = (struct hinic_hwdev *)hwdev; int err; /* only vf get func_id from chip reg for sriov migrate */ if (!HINIC_IS_VF(dev)) { *func_id = hinic_global_func_id(hwdev); return 0; } err = func_busy_state_check(dev); if (err) return err; *func_id = hinic_global_func_id_hw(dev); return 0; } u16 hinic_intr_num(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.num_irqs; } EXPORT_SYMBOL(hinic_intr_num); u8 hinic_pf_id_of_vf(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.port_to_port_idx; } EXPORT_SYMBOL(hinic_pf_id_of_vf); u16 hinic_pf_id_of_vf_hw(void *hwdev) { u32 addr, attr0; struct hinic_hwdev *dev; dev = (struct hinic_hwdev *)hwdev; addr = HINIC_CSR_FUNC_ATTR0_ADDR; attr0 = hinic_hwif_read_reg(dev->hwif, addr); return HINIC_AF0_GET(attr0, P2P_IDX); } u8 hinic_pcie_itf_id(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.pci_intf_idx; } EXPORT_SYMBOL(hinic_pcie_itf_id); u8 hinic_vf_in_pf(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.vf_in_pf; } EXPORT_SYMBOL(hinic_vf_in_pf); enum func_type hinic_func_type(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.func_type; } EXPORT_SYMBOL(hinic_func_type); u8 hinic_ceq_num(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.num_ceqs; } EXPORT_SYMBOL(hinic_ceq_num); u8 hinic_dma_attr_entry_num(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.num_dma_attr; } EXPORT_SYMBOL(hinic_dma_attr_entry_num); u16 hinic_glb_pf_vf_offset(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.global_vf_id_of_pf; } EXPORT_SYMBOL(hinic_glb_pf_vf_offset); u8 hinic_mpf_idx(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.mpf_idx; } EXPORT_SYMBOL(hinic_mpf_idx); u8 hinic_ppf_idx(void *hwdev) { struct hinic_hwif *hwif; if (!hwdev) return 0; hwif = ((struct hinic_hwdev *)hwdev)->hwif; return hwif->attr.ppf_idx; } EXPORT_SYMBOL(hinic_ppf_idx);