10deb0bf7SJacob Keller // SPDX-License-Identifier: GPL-2.0
20deb0bf7SJacob Keller /* Copyright (c) 2018, Intel Corporation. */
30deb0bf7SJacob Keller
40deb0bf7SJacob Keller #include "ice.h"
5109aba47SJacob Keller #include "ice_vf_lib_private.h"
60deb0bf7SJacob Keller #include "ice_base.h"
70deb0bf7SJacob Keller #include "ice_lib.h"
80deb0bf7SJacob Keller #include "ice_fltr.h"
90deb0bf7SJacob Keller #include "ice_dcb_lib.h"
100deb0bf7SJacob Keller #include "ice_flow.h"
110deb0bf7SJacob Keller #include "ice_eswitch.h"
120deb0bf7SJacob Keller #include "ice_virtchnl_allowlist.h"
130deb0bf7SJacob Keller #include "ice_flex_pipe.h"
140deb0bf7SJacob Keller #include "ice_vf_vsi_vlan_ops.h"
150deb0bf7SJacob Keller #include "ice_vlan.h"
160deb0bf7SJacob Keller
170deb0bf7SJacob Keller /**
180deb0bf7SJacob Keller * ice_free_vf_entries - Free all VF entries from the hash table
190deb0bf7SJacob Keller * @pf: pointer to the PF structure
200deb0bf7SJacob Keller *
210deb0bf7SJacob Keller * Iterate over the VF hash table, removing and releasing all VF entries.
220deb0bf7SJacob Keller * Called during VF teardown or as cleanup during failed VF initialization.
230deb0bf7SJacob Keller */
ice_free_vf_entries(struct ice_pf * pf)240deb0bf7SJacob Keller static void ice_free_vf_entries(struct ice_pf *pf)
250deb0bf7SJacob Keller {
260deb0bf7SJacob Keller struct ice_vfs *vfs = &pf->vfs;
270deb0bf7SJacob Keller struct hlist_node *tmp;
280deb0bf7SJacob Keller struct ice_vf *vf;
290deb0bf7SJacob Keller unsigned int bkt;
300deb0bf7SJacob Keller
310deb0bf7SJacob Keller /* Remove all VFs from the hash table and release their main
320deb0bf7SJacob Keller * reference. Once all references to the VF are dropped, ice_put_vf()
330deb0bf7SJacob Keller * will call ice_release_vf which will remove the VF memory.
340deb0bf7SJacob Keller */
350deb0bf7SJacob Keller lockdep_assert_held(&vfs->table_lock);
360deb0bf7SJacob Keller
370deb0bf7SJacob Keller hash_for_each_safe(vfs->table, bkt, tmp, vf, entry) {
380deb0bf7SJacob Keller hash_del_rcu(&vf->entry);
390deb0bf7SJacob Keller ice_put_vf(vf);
400deb0bf7SJacob Keller }
410deb0bf7SJacob Keller }
420deb0bf7SJacob Keller
430deb0bf7SJacob Keller /**
440deb0bf7SJacob Keller * ice_free_vf_res - Free a VF's resources
450deb0bf7SJacob Keller * @vf: pointer to the VF info
460deb0bf7SJacob Keller */
ice_free_vf_res(struct ice_vf * vf)470deb0bf7SJacob Keller static void ice_free_vf_res(struct ice_vf *vf)
480deb0bf7SJacob Keller {
490deb0bf7SJacob Keller struct ice_pf *pf = vf->pf;
500deb0bf7SJacob Keller int i, last_vector_idx;
510deb0bf7SJacob Keller
520deb0bf7SJacob Keller /* First, disable VF's configuration API to prevent OS from
530deb0bf7SJacob Keller * accessing the VF's VSI after it's freed or invalidated.
540deb0bf7SJacob Keller */
550deb0bf7SJacob Keller clear_bit(ICE_VF_STATE_INIT, vf->vf_states);
560deb0bf7SJacob Keller ice_vf_fdir_exit(vf);
570deb0bf7SJacob Keller /* free VF control VSI */
580deb0bf7SJacob Keller if (vf->ctrl_vsi_idx != ICE_NO_VSI)
590deb0bf7SJacob Keller ice_vf_ctrl_vsi_release(vf);
600deb0bf7SJacob Keller
610deb0bf7SJacob Keller /* free VSI and disconnect it from the parent uplink */
620deb0bf7SJacob Keller if (vf->lan_vsi_idx != ICE_NO_VSI) {
630deb0bf7SJacob Keller ice_vf_vsi_release(vf);
640deb0bf7SJacob Keller vf->num_mac = 0;
650deb0bf7SJacob Keller }
660deb0bf7SJacob Keller
670deb0bf7SJacob Keller last_vector_idx = vf->first_vector_idx + pf->vfs.num_msix_per - 1;
680deb0bf7SJacob Keller
690deb0bf7SJacob Keller /* clear VF MDD event information */
700deb0bf7SJacob Keller memset(&vf->mdd_tx_events, 0, sizeof(vf->mdd_tx_events));
710deb0bf7SJacob Keller memset(&vf->mdd_rx_events, 0, sizeof(vf->mdd_rx_events));
720deb0bf7SJacob Keller
730deb0bf7SJacob Keller /* Disable interrupts so that VF starts in a known state */
740deb0bf7SJacob Keller for (i = vf->first_vector_idx; i <= last_vector_idx; i++) {
750deb0bf7SJacob Keller wr32(&pf->hw, GLINT_DYN_CTL(i), GLINT_DYN_CTL_CLEARPBA_M);
760deb0bf7SJacob Keller ice_flush(&pf->hw);
770deb0bf7SJacob Keller }
780deb0bf7SJacob Keller /* reset some of the state variables keeping track of the resources */
790deb0bf7SJacob Keller clear_bit(ICE_VF_STATE_MC_PROMISC, vf->vf_states);
800deb0bf7SJacob Keller clear_bit(ICE_VF_STATE_UC_PROMISC, vf->vf_states);
810deb0bf7SJacob Keller }
820deb0bf7SJacob Keller
830deb0bf7SJacob Keller /**
840deb0bf7SJacob Keller * ice_dis_vf_mappings
850deb0bf7SJacob Keller * @vf: pointer to the VF structure
860deb0bf7SJacob Keller */
ice_dis_vf_mappings(struct ice_vf * vf)870deb0bf7SJacob Keller static void ice_dis_vf_mappings(struct ice_vf *vf)
880deb0bf7SJacob Keller {
890deb0bf7SJacob Keller struct ice_pf *pf = vf->pf;
900deb0bf7SJacob Keller struct ice_vsi *vsi;
910deb0bf7SJacob Keller struct device *dev;
920deb0bf7SJacob Keller int first, last, v;
930deb0bf7SJacob Keller struct ice_hw *hw;
940deb0bf7SJacob Keller
950deb0bf7SJacob Keller hw = &pf->hw;
960deb0bf7SJacob Keller vsi = ice_get_vf_vsi(vf);
97baeb705fSJacob Keller if (WARN_ON(!vsi))
98baeb705fSJacob Keller return;
990deb0bf7SJacob Keller
1000deb0bf7SJacob Keller dev = ice_pf_to_dev(pf);
1010deb0bf7SJacob Keller wr32(hw, VPINT_ALLOC(vf->vf_id), 0);
1020deb0bf7SJacob Keller wr32(hw, VPINT_ALLOC_PCI(vf->vf_id), 0);
1030deb0bf7SJacob Keller
1040deb0bf7SJacob Keller first = vf->first_vector_idx;
1050deb0bf7SJacob Keller last = first + pf->vfs.num_msix_per - 1;
1060deb0bf7SJacob Keller for (v = first; v <= last; v++) {
1070deb0bf7SJacob Keller u32 reg;
1080deb0bf7SJacob Keller
1090deb0bf7SJacob Keller reg = (((1 << GLINT_VECT2FUNC_IS_PF_S) &
1100deb0bf7SJacob Keller GLINT_VECT2FUNC_IS_PF_M) |
1110deb0bf7SJacob Keller ((hw->pf_id << GLINT_VECT2FUNC_PF_NUM_S) &
1120deb0bf7SJacob Keller GLINT_VECT2FUNC_PF_NUM_M));
1130deb0bf7SJacob Keller wr32(hw, GLINT_VECT2FUNC(v), reg);
1140deb0bf7SJacob Keller }
1150deb0bf7SJacob Keller
1160deb0bf7SJacob Keller if (vsi->tx_mapping_mode == ICE_VSI_MAP_CONTIG)
1170deb0bf7SJacob Keller wr32(hw, VPLAN_TX_QBASE(vf->vf_id), 0);
1180deb0bf7SJacob Keller else
1190deb0bf7SJacob Keller dev_err(dev, "Scattered mode for VF Tx queues is not yet implemented\n");
1200deb0bf7SJacob Keller
1210deb0bf7SJacob Keller if (vsi->rx_mapping_mode == ICE_VSI_MAP_CONTIG)
1220deb0bf7SJacob Keller wr32(hw, VPLAN_RX_QBASE(vf->vf_id), 0);
1230deb0bf7SJacob Keller else
1240deb0bf7SJacob Keller dev_err(dev, "Scattered mode for VF Rx queues is not yet implemented\n");
1250deb0bf7SJacob Keller }
1260deb0bf7SJacob Keller
1270deb0bf7SJacob Keller /**
1280deb0bf7SJacob Keller * ice_sriov_free_msix_res - Reset/free any used MSIX resources
1290deb0bf7SJacob Keller * @pf: pointer to the PF structure
1300deb0bf7SJacob Keller *
1310deb0bf7SJacob Keller * Since no MSIX entries are taken from the pf->irq_tracker then just clear
1320deb0bf7SJacob Keller * the pf->sriov_base_vector.
1330deb0bf7SJacob Keller *
1340deb0bf7SJacob Keller * Returns 0 on success, and -EINVAL on error.
1350deb0bf7SJacob Keller */
ice_sriov_free_msix_res(struct ice_pf * pf)1360deb0bf7SJacob Keller static int ice_sriov_free_msix_res(struct ice_pf *pf)
1370deb0bf7SJacob Keller {
1380deb0bf7SJacob Keller if (!pf)
1390deb0bf7SJacob Keller return -EINVAL;
1400deb0bf7SJacob Keller
1410deb0bf7SJacob Keller pf->sriov_base_vector = 0;
1420deb0bf7SJacob Keller
1430deb0bf7SJacob Keller return 0;
1440deb0bf7SJacob Keller }
1450deb0bf7SJacob Keller
1460deb0bf7SJacob Keller /**
1470deb0bf7SJacob Keller * ice_free_vfs - Free all VFs
1480deb0bf7SJacob Keller * @pf: pointer to the PF structure
1490deb0bf7SJacob Keller */
ice_free_vfs(struct ice_pf * pf)1500deb0bf7SJacob Keller void ice_free_vfs(struct ice_pf *pf)
1510deb0bf7SJacob Keller {
1520deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
1530deb0bf7SJacob Keller struct ice_vfs *vfs = &pf->vfs;
1540deb0bf7SJacob Keller struct ice_hw *hw = &pf->hw;
1550deb0bf7SJacob Keller struct ice_vf *vf;
1560deb0bf7SJacob Keller unsigned int bkt;
1570deb0bf7SJacob Keller
1580deb0bf7SJacob Keller if (!ice_has_vfs(pf))
1590deb0bf7SJacob Keller return;
1600deb0bf7SJacob Keller
1610deb0bf7SJacob Keller while (test_and_set_bit(ICE_VF_DIS, pf->state))
1620deb0bf7SJacob Keller usleep_range(1000, 2000);
1630deb0bf7SJacob Keller
1640deb0bf7SJacob Keller /* Disable IOV before freeing resources. This lets any VF drivers
1650deb0bf7SJacob Keller * running in the host get themselves cleaned up before we yank
1660deb0bf7SJacob Keller * the carpet out from underneath their feet.
1670deb0bf7SJacob Keller */
1680deb0bf7SJacob Keller if (!pci_vfs_assigned(pf->pdev))
1690deb0bf7SJacob Keller pci_disable_sriov(pf->pdev);
1700deb0bf7SJacob Keller else
1710deb0bf7SJacob Keller dev_warn(dev, "VFs are assigned - not disabling SR-IOV\n");
1720deb0bf7SJacob Keller
1730deb0bf7SJacob Keller mutex_lock(&vfs->table_lock);
1740deb0bf7SJacob Keller
1750deb0bf7SJacob Keller ice_eswitch_release(pf);
1760deb0bf7SJacob Keller
1770deb0bf7SJacob Keller ice_for_each_vf(pf, bkt, vf) {
1780deb0bf7SJacob Keller mutex_lock(&vf->cfg_lock);
1790deb0bf7SJacob Keller
1800deb0bf7SJacob Keller ice_dis_vf_qs(vf);
1810deb0bf7SJacob Keller
1820deb0bf7SJacob Keller if (test_bit(ICE_VF_STATE_INIT, vf->vf_states)) {
1830deb0bf7SJacob Keller /* disable VF qp mappings and set VF disable state */
1840deb0bf7SJacob Keller ice_dis_vf_mappings(vf);
1850deb0bf7SJacob Keller set_bit(ICE_VF_STATE_DIS, vf->vf_states);
1860deb0bf7SJacob Keller ice_free_vf_res(vf);
1870deb0bf7SJacob Keller }
1880deb0bf7SJacob Keller
1890deb0bf7SJacob Keller if (!pci_vfs_assigned(pf->pdev)) {
1900deb0bf7SJacob Keller u32 reg_idx, bit_idx;
1910deb0bf7SJacob Keller
1920deb0bf7SJacob Keller reg_idx = (hw->func_caps.vf_base_id + vf->vf_id) / 32;
1930deb0bf7SJacob Keller bit_idx = (hw->func_caps.vf_base_id + vf->vf_id) % 32;
1940deb0bf7SJacob Keller wr32(hw, GLGEN_VFLRSTAT(reg_idx), BIT(bit_idx));
1950deb0bf7SJacob Keller }
1960deb0bf7SJacob Keller
1970deb0bf7SJacob Keller /* clear malicious info since the VF is getting released */
1988cd8a6b1SJacob Keller list_del(&vf->mbx_info.list_entry);
1990deb0bf7SJacob Keller
2000deb0bf7SJacob Keller mutex_unlock(&vf->cfg_lock);
2010deb0bf7SJacob Keller }
2020deb0bf7SJacob Keller
2030deb0bf7SJacob Keller if (ice_sriov_free_msix_res(pf))
2040deb0bf7SJacob Keller dev_err(dev, "Failed to free MSIX resources used by SR-IOV\n");
2050deb0bf7SJacob Keller
2060deb0bf7SJacob Keller vfs->num_qps_per = 0;
2070deb0bf7SJacob Keller ice_free_vf_entries(pf);
2080deb0bf7SJacob Keller
2090deb0bf7SJacob Keller mutex_unlock(&vfs->table_lock);
2100deb0bf7SJacob Keller
2110deb0bf7SJacob Keller clear_bit(ICE_VF_DIS, pf->state);
2120deb0bf7SJacob Keller clear_bit(ICE_FLAG_SRIOV_ENA, pf->flags);
2130deb0bf7SJacob Keller }
2140deb0bf7SJacob Keller
2150deb0bf7SJacob Keller /**
2160deb0bf7SJacob Keller * ice_vf_vsi_setup - Set up a VF VSI
2170deb0bf7SJacob Keller * @vf: VF to setup VSI for
2180deb0bf7SJacob Keller *
2190deb0bf7SJacob Keller * Returns pointer to the successfully allocated VSI struct on success,
2200deb0bf7SJacob Keller * otherwise returns NULL on failure.
2210deb0bf7SJacob Keller */
ice_vf_vsi_setup(struct ice_vf * vf)2220deb0bf7SJacob Keller static struct ice_vsi *ice_vf_vsi_setup(struct ice_vf *vf)
2230deb0bf7SJacob Keller {
2245e509ab2SJacob Keller struct ice_vsi_cfg_params params = {};
2250deb0bf7SJacob Keller struct ice_pf *pf = vf->pf;
2260deb0bf7SJacob Keller struct ice_vsi *vsi;
2270deb0bf7SJacob Keller
2285e509ab2SJacob Keller params.type = ICE_VSI_VF;
2295e509ab2SJacob Keller params.pi = ice_vf_get_port_info(vf);
2305e509ab2SJacob Keller params.vf = vf;
2315e509ab2SJacob Keller params.flags = ICE_VSI_FLAG_INIT;
2325e509ab2SJacob Keller
2335e509ab2SJacob Keller vsi = ice_vsi_setup(pf, ¶ms);
2340deb0bf7SJacob Keller
2350deb0bf7SJacob Keller if (!vsi) {
2360deb0bf7SJacob Keller dev_err(ice_pf_to_dev(pf), "Failed to create VF VSI\n");
2370deb0bf7SJacob Keller ice_vf_invalidate_vsi(vf);
2380deb0bf7SJacob Keller return NULL;
2390deb0bf7SJacob Keller }
2400deb0bf7SJacob Keller
2410deb0bf7SJacob Keller vf->lan_vsi_idx = vsi->idx;
2420deb0bf7SJacob Keller vf->lan_vsi_num = vsi->vsi_num;
2430deb0bf7SJacob Keller
2440deb0bf7SJacob Keller return vsi;
2450deb0bf7SJacob Keller }
2460deb0bf7SJacob Keller
2470deb0bf7SJacob Keller /**
2480deb0bf7SJacob Keller * ice_calc_vf_first_vector_idx - Calculate MSIX vector index in the PF space
2490deb0bf7SJacob Keller * @pf: pointer to PF structure
2500deb0bf7SJacob Keller * @vf: pointer to VF that the first MSIX vector index is being calculated for
2510deb0bf7SJacob Keller *
2520deb0bf7SJacob Keller * This returns the first MSIX vector index in PF space that is used by this VF.
2530deb0bf7SJacob Keller * This index is used when accessing PF relative registers such as
2540deb0bf7SJacob Keller * GLINT_VECT2FUNC and GLINT_DYN_CTL.
2550deb0bf7SJacob Keller * This will always be the OICR index in the AVF driver so any functionality
2560deb0bf7SJacob Keller * using vf->first_vector_idx for queue configuration will have to increment by
2570deb0bf7SJacob Keller * 1 to avoid meddling with the OICR index.
2580deb0bf7SJacob Keller */
ice_calc_vf_first_vector_idx(struct ice_pf * pf,struct ice_vf * vf)2590deb0bf7SJacob Keller static int ice_calc_vf_first_vector_idx(struct ice_pf *pf, struct ice_vf *vf)
2600deb0bf7SJacob Keller {
2610deb0bf7SJacob Keller return pf->sriov_base_vector + vf->vf_id * pf->vfs.num_msix_per;
2620deb0bf7SJacob Keller }
2630deb0bf7SJacob Keller
2640deb0bf7SJacob Keller /**
2650deb0bf7SJacob Keller * ice_ena_vf_msix_mappings - enable VF MSIX mappings in hardware
2660deb0bf7SJacob Keller * @vf: VF to enable MSIX mappings for
2670deb0bf7SJacob Keller *
2680deb0bf7SJacob Keller * Some of the registers need to be indexed/configured using hardware global
2690deb0bf7SJacob Keller * device values and other registers need 0-based values, which represent PF
2700deb0bf7SJacob Keller * based values.
2710deb0bf7SJacob Keller */
ice_ena_vf_msix_mappings(struct ice_vf * vf)2720deb0bf7SJacob Keller static void ice_ena_vf_msix_mappings(struct ice_vf *vf)
2730deb0bf7SJacob Keller {
2740deb0bf7SJacob Keller int device_based_first_msix, device_based_last_msix;
2750deb0bf7SJacob Keller int pf_based_first_msix, pf_based_last_msix, v;
2760deb0bf7SJacob Keller struct ice_pf *pf = vf->pf;
2770deb0bf7SJacob Keller int device_based_vf_id;
2780deb0bf7SJacob Keller struct ice_hw *hw;
2790deb0bf7SJacob Keller u32 reg;
2800deb0bf7SJacob Keller
2810deb0bf7SJacob Keller hw = &pf->hw;
2820deb0bf7SJacob Keller pf_based_first_msix = vf->first_vector_idx;
2830deb0bf7SJacob Keller pf_based_last_msix = (pf_based_first_msix + pf->vfs.num_msix_per) - 1;
2840deb0bf7SJacob Keller
2850deb0bf7SJacob Keller device_based_first_msix = pf_based_first_msix +
2860deb0bf7SJacob Keller pf->hw.func_caps.common_cap.msix_vector_first_id;
2870deb0bf7SJacob Keller device_based_last_msix =
2880deb0bf7SJacob Keller (device_based_first_msix + pf->vfs.num_msix_per) - 1;
2890deb0bf7SJacob Keller device_based_vf_id = vf->vf_id + hw->func_caps.vf_base_id;
2900deb0bf7SJacob Keller
2910deb0bf7SJacob Keller reg = (((device_based_first_msix << VPINT_ALLOC_FIRST_S) &
2920deb0bf7SJacob Keller VPINT_ALLOC_FIRST_M) |
2930deb0bf7SJacob Keller ((device_based_last_msix << VPINT_ALLOC_LAST_S) &
2940deb0bf7SJacob Keller VPINT_ALLOC_LAST_M) | VPINT_ALLOC_VALID_M);
2950deb0bf7SJacob Keller wr32(hw, VPINT_ALLOC(vf->vf_id), reg);
2960deb0bf7SJacob Keller
2970deb0bf7SJacob Keller reg = (((device_based_first_msix << VPINT_ALLOC_PCI_FIRST_S)
2980deb0bf7SJacob Keller & VPINT_ALLOC_PCI_FIRST_M) |
2990deb0bf7SJacob Keller ((device_based_last_msix << VPINT_ALLOC_PCI_LAST_S) &
3000deb0bf7SJacob Keller VPINT_ALLOC_PCI_LAST_M) | VPINT_ALLOC_PCI_VALID_M);
3010deb0bf7SJacob Keller wr32(hw, VPINT_ALLOC_PCI(vf->vf_id), reg);
3020deb0bf7SJacob Keller
3030deb0bf7SJacob Keller /* map the interrupts to its functions */
3040deb0bf7SJacob Keller for (v = pf_based_first_msix; v <= pf_based_last_msix; v++) {
3050deb0bf7SJacob Keller reg = (((device_based_vf_id << GLINT_VECT2FUNC_VF_NUM_S) &
3060deb0bf7SJacob Keller GLINT_VECT2FUNC_VF_NUM_M) |
3070deb0bf7SJacob Keller ((hw->pf_id << GLINT_VECT2FUNC_PF_NUM_S) &
3080deb0bf7SJacob Keller GLINT_VECT2FUNC_PF_NUM_M));
3090deb0bf7SJacob Keller wr32(hw, GLINT_VECT2FUNC(v), reg);
3100deb0bf7SJacob Keller }
3110deb0bf7SJacob Keller
3120deb0bf7SJacob Keller /* Map mailbox interrupt to VF MSI-X vector 0 */
3130deb0bf7SJacob Keller wr32(hw, VPINT_MBX_CTL(device_based_vf_id), VPINT_MBX_CTL_CAUSE_ENA_M);
3140deb0bf7SJacob Keller }
3150deb0bf7SJacob Keller
3160deb0bf7SJacob Keller /**
3170deb0bf7SJacob Keller * ice_ena_vf_q_mappings - enable Rx/Tx queue mappings for a VF
3180deb0bf7SJacob Keller * @vf: VF to enable the mappings for
3190deb0bf7SJacob Keller * @max_txq: max Tx queues allowed on the VF's VSI
3200deb0bf7SJacob Keller * @max_rxq: max Rx queues allowed on the VF's VSI
3210deb0bf7SJacob Keller */
ice_ena_vf_q_mappings(struct ice_vf * vf,u16 max_txq,u16 max_rxq)3220deb0bf7SJacob Keller static void ice_ena_vf_q_mappings(struct ice_vf *vf, u16 max_txq, u16 max_rxq)
3230deb0bf7SJacob Keller {
3240deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(vf->pf);
3250deb0bf7SJacob Keller struct ice_vsi *vsi = ice_get_vf_vsi(vf);
3260deb0bf7SJacob Keller struct ice_hw *hw = &vf->pf->hw;
3270deb0bf7SJacob Keller u32 reg;
3280deb0bf7SJacob Keller
329baeb705fSJacob Keller if (WARN_ON(!vsi))
330baeb705fSJacob Keller return;
331baeb705fSJacob Keller
3320deb0bf7SJacob Keller /* set regardless of mapping mode */
3330deb0bf7SJacob Keller wr32(hw, VPLAN_TXQ_MAPENA(vf->vf_id), VPLAN_TXQ_MAPENA_TX_ENA_M);
3340deb0bf7SJacob Keller
3350deb0bf7SJacob Keller /* VF Tx queues allocation */
3360deb0bf7SJacob Keller if (vsi->tx_mapping_mode == ICE_VSI_MAP_CONTIG) {
3370deb0bf7SJacob Keller /* set the VF PF Tx queue range
3380deb0bf7SJacob Keller * VFNUMQ value should be set to (number of queues - 1). A value
3390deb0bf7SJacob Keller * of 0 means 1 queue and a value of 255 means 256 queues
3400deb0bf7SJacob Keller */
3410deb0bf7SJacob Keller reg = (((vsi->txq_map[0] << VPLAN_TX_QBASE_VFFIRSTQ_S) &
3420deb0bf7SJacob Keller VPLAN_TX_QBASE_VFFIRSTQ_M) |
3430deb0bf7SJacob Keller (((max_txq - 1) << VPLAN_TX_QBASE_VFNUMQ_S) &
3440deb0bf7SJacob Keller VPLAN_TX_QBASE_VFNUMQ_M));
3450deb0bf7SJacob Keller wr32(hw, VPLAN_TX_QBASE(vf->vf_id), reg);
3460deb0bf7SJacob Keller } else {
3470deb0bf7SJacob Keller dev_err(dev, "Scattered mode for VF Tx queues is not yet implemented\n");
3480deb0bf7SJacob Keller }
3490deb0bf7SJacob Keller
3500deb0bf7SJacob Keller /* set regardless of mapping mode */
3510deb0bf7SJacob Keller wr32(hw, VPLAN_RXQ_MAPENA(vf->vf_id), VPLAN_RXQ_MAPENA_RX_ENA_M);
3520deb0bf7SJacob Keller
3530deb0bf7SJacob Keller /* VF Rx queues allocation */
3540deb0bf7SJacob Keller if (vsi->rx_mapping_mode == ICE_VSI_MAP_CONTIG) {
3550deb0bf7SJacob Keller /* set the VF PF Rx queue range
3560deb0bf7SJacob Keller * VFNUMQ value should be set to (number of queues - 1). A value
3570deb0bf7SJacob Keller * of 0 means 1 queue and a value of 255 means 256 queues
3580deb0bf7SJacob Keller */
3590deb0bf7SJacob Keller reg = (((vsi->rxq_map[0] << VPLAN_RX_QBASE_VFFIRSTQ_S) &
3600deb0bf7SJacob Keller VPLAN_RX_QBASE_VFFIRSTQ_M) |
3610deb0bf7SJacob Keller (((max_rxq - 1) << VPLAN_RX_QBASE_VFNUMQ_S) &
3620deb0bf7SJacob Keller VPLAN_RX_QBASE_VFNUMQ_M));
3630deb0bf7SJacob Keller wr32(hw, VPLAN_RX_QBASE(vf->vf_id), reg);
3640deb0bf7SJacob Keller } else {
3650deb0bf7SJacob Keller dev_err(dev, "Scattered mode for VF Rx queues is not yet implemented\n");
3660deb0bf7SJacob Keller }
3670deb0bf7SJacob Keller }
3680deb0bf7SJacob Keller
3690deb0bf7SJacob Keller /**
3700deb0bf7SJacob Keller * ice_ena_vf_mappings - enable VF MSIX and queue mapping
3710deb0bf7SJacob Keller * @vf: pointer to the VF structure
3720deb0bf7SJacob Keller */
ice_ena_vf_mappings(struct ice_vf * vf)3730deb0bf7SJacob Keller static void ice_ena_vf_mappings(struct ice_vf *vf)
3740deb0bf7SJacob Keller {
3750deb0bf7SJacob Keller struct ice_vsi *vsi = ice_get_vf_vsi(vf);
3760deb0bf7SJacob Keller
377baeb705fSJacob Keller if (WARN_ON(!vsi))
378baeb705fSJacob Keller return;
379baeb705fSJacob Keller
3800deb0bf7SJacob Keller ice_ena_vf_msix_mappings(vf);
3810deb0bf7SJacob Keller ice_ena_vf_q_mappings(vf, vsi->alloc_txq, vsi->alloc_rxq);
3820deb0bf7SJacob Keller }
3830deb0bf7SJacob Keller
3840deb0bf7SJacob Keller /**
3850deb0bf7SJacob Keller * ice_calc_vf_reg_idx - Calculate the VF's register index in the PF space
3860deb0bf7SJacob Keller * @vf: VF to calculate the register index for
3870deb0bf7SJacob Keller * @q_vector: a q_vector associated to the VF
3880deb0bf7SJacob Keller */
ice_calc_vf_reg_idx(struct ice_vf * vf,struct ice_q_vector * q_vector)3890deb0bf7SJacob Keller int ice_calc_vf_reg_idx(struct ice_vf *vf, struct ice_q_vector *q_vector)
3900deb0bf7SJacob Keller {
3910deb0bf7SJacob Keller struct ice_pf *pf;
3920deb0bf7SJacob Keller
3930deb0bf7SJacob Keller if (!vf || !q_vector)
3940deb0bf7SJacob Keller return -EINVAL;
3950deb0bf7SJacob Keller
3960deb0bf7SJacob Keller pf = vf->pf;
3970deb0bf7SJacob Keller
3980deb0bf7SJacob Keller /* always add one to account for the OICR being the first MSIX */
3990deb0bf7SJacob Keller return pf->sriov_base_vector + pf->vfs.num_msix_per * vf->vf_id +
4000deb0bf7SJacob Keller q_vector->v_idx + 1;
4010deb0bf7SJacob Keller }
4020deb0bf7SJacob Keller
4030deb0bf7SJacob Keller /**
4040deb0bf7SJacob Keller * ice_sriov_set_msix_res - Set any used MSIX resources
4050deb0bf7SJacob Keller * @pf: pointer to PF structure
4060deb0bf7SJacob Keller * @num_msix_needed: number of MSIX vectors needed for all SR-IOV VFs
4070deb0bf7SJacob Keller *
4080deb0bf7SJacob Keller * This function allows SR-IOV resources to be taken from the end of the PF's
4090deb0bf7SJacob Keller * allowed HW MSIX vectors so that the irq_tracker will not be affected. We
4100deb0bf7SJacob Keller * just set the pf->sriov_base_vector and return success.
4110deb0bf7SJacob Keller *
4120deb0bf7SJacob Keller * If there are not enough resources available, return an error. This should
4130deb0bf7SJacob Keller * always be caught by ice_set_per_vf_res().
4140deb0bf7SJacob Keller *
4150deb0bf7SJacob Keller * Return 0 on success, and -EINVAL when there are not enough MSIX vectors
4160deb0bf7SJacob Keller * in the PF's space available for SR-IOV.
4170deb0bf7SJacob Keller */
ice_sriov_set_msix_res(struct ice_pf * pf,u16 num_msix_needed)4180deb0bf7SJacob Keller static int ice_sriov_set_msix_res(struct ice_pf *pf, u16 num_msix_needed)
4190deb0bf7SJacob Keller {
4200deb0bf7SJacob Keller u16 total_vectors = pf->hw.func_caps.common_cap.num_msix_vectors;
421011670ccSPiotr Raczynski int vectors_used = ice_get_max_used_msix_vector(pf);
4220deb0bf7SJacob Keller int sriov_base_vector;
4230deb0bf7SJacob Keller
4240deb0bf7SJacob Keller sriov_base_vector = total_vectors - num_msix_needed;
4250deb0bf7SJacob Keller
4260deb0bf7SJacob Keller /* make sure we only grab irq_tracker entries from the list end and
4270deb0bf7SJacob Keller * that we have enough available MSIX vectors
4280deb0bf7SJacob Keller */
4290deb0bf7SJacob Keller if (sriov_base_vector < vectors_used)
4300deb0bf7SJacob Keller return -EINVAL;
4310deb0bf7SJacob Keller
4320deb0bf7SJacob Keller pf->sriov_base_vector = sriov_base_vector;
4330deb0bf7SJacob Keller
4340deb0bf7SJacob Keller return 0;
4350deb0bf7SJacob Keller }
4360deb0bf7SJacob Keller
4370deb0bf7SJacob Keller /**
4380deb0bf7SJacob Keller * ice_set_per_vf_res - check if vectors and queues are available
4390deb0bf7SJacob Keller * @pf: pointer to the PF structure
4400deb0bf7SJacob Keller * @num_vfs: the number of SR-IOV VFs being configured
4410deb0bf7SJacob Keller *
4420deb0bf7SJacob Keller * First, determine HW interrupts from common pool. If we allocate fewer VFs, we
4430deb0bf7SJacob Keller * get more vectors and can enable more queues per VF. Note that this does not
4440deb0bf7SJacob Keller * grab any vectors from the SW pool already allocated. Also note, that all
4450deb0bf7SJacob Keller * vector counts include one for each VF's miscellaneous interrupt vector
4460deb0bf7SJacob Keller * (i.e. OICR).
4470deb0bf7SJacob Keller *
4480deb0bf7SJacob Keller * Minimum VFs - 2 vectors, 1 queue pair
4490deb0bf7SJacob Keller * Small VFs - 5 vectors, 4 queue pairs
4500deb0bf7SJacob Keller * Medium VFs - 17 vectors, 16 queue pairs
4510deb0bf7SJacob Keller *
4520deb0bf7SJacob Keller * Second, determine number of queue pairs per VF by starting with a pre-defined
4530deb0bf7SJacob Keller * maximum each VF supports. If this is not possible, then we adjust based on
4540deb0bf7SJacob Keller * queue pairs available on the device.
4550deb0bf7SJacob Keller *
4560deb0bf7SJacob Keller * Lastly, set queue and MSI-X VF variables tracked by the PF so it can be used
4570deb0bf7SJacob Keller * by each VF during VF initialization and reset.
4580deb0bf7SJacob Keller */
ice_set_per_vf_res(struct ice_pf * pf,u16 num_vfs)4590deb0bf7SJacob Keller static int ice_set_per_vf_res(struct ice_pf *pf, u16 num_vfs)
4600deb0bf7SJacob Keller {
461011670ccSPiotr Raczynski int vectors_used = ice_get_max_used_msix_vector(pf);
4620deb0bf7SJacob Keller u16 num_msix_per_vf, num_txq, num_rxq, avail_qs;
4630deb0bf7SJacob Keller int msix_avail_per_vf, msix_avail_for_sriov;
4640deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
46594ab2488SJacob Keller int err;
4660deb0bf7SJacob Keller
4670deb0bf7SJacob Keller lockdep_assert_held(&pf->vfs.table_lock);
4680deb0bf7SJacob Keller
46994ab2488SJacob Keller if (!num_vfs)
4700deb0bf7SJacob Keller return -EINVAL;
4710deb0bf7SJacob Keller
4720deb0bf7SJacob Keller /* determine MSI-X resources per VF */
4730deb0bf7SJacob Keller msix_avail_for_sriov = pf->hw.func_caps.common_cap.num_msix_vectors -
474011670ccSPiotr Raczynski vectors_used;
4750deb0bf7SJacob Keller msix_avail_per_vf = msix_avail_for_sriov / num_vfs;
4760deb0bf7SJacob Keller if (msix_avail_per_vf >= ICE_NUM_VF_MSIX_MED) {
4770deb0bf7SJacob Keller num_msix_per_vf = ICE_NUM_VF_MSIX_MED;
4780deb0bf7SJacob Keller } else if (msix_avail_per_vf >= ICE_NUM_VF_MSIX_SMALL) {
4790deb0bf7SJacob Keller num_msix_per_vf = ICE_NUM_VF_MSIX_SMALL;
4800deb0bf7SJacob Keller } else if (msix_avail_per_vf >= ICE_NUM_VF_MSIX_MULTIQ_MIN) {
4810deb0bf7SJacob Keller num_msix_per_vf = ICE_NUM_VF_MSIX_MULTIQ_MIN;
4820deb0bf7SJacob Keller } else if (msix_avail_per_vf >= ICE_MIN_INTR_PER_VF) {
4830deb0bf7SJacob Keller num_msix_per_vf = ICE_MIN_INTR_PER_VF;
4840deb0bf7SJacob Keller } else {
4850deb0bf7SJacob Keller dev_err(dev, "Only %d MSI-X interrupts available for SR-IOV. Not enough to support minimum of %d MSI-X interrupts per VF for %d VFs\n",
4860deb0bf7SJacob Keller msix_avail_for_sriov, ICE_MIN_INTR_PER_VF,
4870deb0bf7SJacob Keller num_vfs);
48894ab2488SJacob Keller return -ENOSPC;
4890deb0bf7SJacob Keller }
4900deb0bf7SJacob Keller
4910deb0bf7SJacob Keller num_txq = min_t(u16, num_msix_per_vf - ICE_NONQ_VECS_VF,
4920deb0bf7SJacob Keller ICE_MAX_RSS_QS_PER_VF);
4930deb0bf7SJacob Keller avail_qs = ice_get_avail_txq_count(pf) / num_vfs;
4940deb0bf7SJacob Keller if (!avail_qs)
4950deb0bf7SJacob Keller num_txq = 0;
4960deb0bf7SJacob Keller else if (num_txq > avail_qs)
4970deb0bf7SJacob Keller num_txq = rounddown_pow_of_two(avail_qs);
4980deb0bf7SJacob Keller
4990deb0bf7SJacob Keller num_rxq = min_t(u16, num_msix_per_vf - ICE_NONQ_VECS_VF,
5000deb0bf7SJacob Keller ICE_MAX_RSS_QS_PER_VF);
5010deb0bf7SJacob Keller avail_qs = ice_get_avail_rxq_count(pf) / num_vfs;
5020deb0bf7SJacob Keller if (!avail_qs)
5030deb0bf7SJacob Keller num_rxq = 0;
5040deb0bf7SJacob Keller else if (num_rxq > avail_qs)
5050deb0bf7SJacob Keller num_rxq = rounddown_pow_of_two(avail_qs);
5060deb0bf7SJacob Keller
5070deb0bf7SJacob Keller if (num_txq < ICE_MIN_QS_PER_VF || num_rxq < ICE_MIN_QS_PER_VF) {
5080deb0bf7SJacob Keller dev_err(dev, "Not enough queues to support minimum of %d queue pairs per VF for %d VFs\n",
5090deb0bf7SJacob Keller ICE_MIN_QS_PER_VF, num_vfs);
51094ab2488SJacob Keller return -ENOSPC;
5110deb0bf7SJacob Keller }
5120deb0bf7SJacob Keller
51394ab2488SJacob Keller err = ice_sriov_set_msix_res(pf, num_msix_per_vf * num_vfs);
51494ab2488SJacob Keller if (err) {
51594ab2488SJacob Keller dev_err(dev, "Unable to set MSI-X resources for %d VFs, err %d\n",
51694ab2488SJacob Keller num_vfs, err);
51794ab2488SJacob Keller return err;
5180deb0bf7SJacob Keller }
5190deb0bf7SJacob Keller
5200deb0bf7SJacob Keller /* only allow equal Tx/Rx queue count (i.e. queue pairs) */
5210deb0bf7SJacob Keller pf->vfs.num_qps_per = min_t(int, num_txq, num_rxq);
5220deb0bf7SJacob Keller pf->vfs.num_msix_per = num_msix_per_vf;
5230deb0bf7SJacob Keller dev_info(dev, "Enabling %d VFs with %d vectors and %d queues per VF\n",
5240deb0bf7SJacob Keller num_vfs, pf->vfs.num_msix_per, pf->vfs.num_qps_per);
5250deb0bf7SJacob Keller
5260deb0bf7SJacob Keller return 0;
5270deb0bf7SJacob Keller }
5280deb0bf7SJacob Keller
5290deb0bf7SJacob Keller /**
5300deb0bf7SJacob Keller * ice_init_vf_vsi_res - initialize/setup VF VSI resources
5310deb0bf7SJacob Keller * @vf: VF to initialize/setup the VSI for
5320deb0bf7SJacob Keller *
5330deb0bf7SJacob Keller * This function creates a VSI for the VF, adds a VLAN 0 filter, and sets up the
5340deb0bf7SJacob Keller * VF VSI's broadcast filter and is only used during initial VF creation.
5350deb0bf7SJacob Keller */
ice_init_vf_vsi_res(struct ice_vf * vf)5360deb0bf7SJacob Keller static int ice_init_vf_vsi_res(struct ice_vf *vf)
5370deb0bf7SJacob Keller {
5380deb0bf7SJacob Keller struct ice_pf *pf = vf->pf;
5390deb0bf7SJacob Keller struct ice_vsi *vsi;
5400deb0bf7SJacob Keller int err;
5410deb0bf7SJacob Keller
5420deb0bf7SJacob Keller vf->first_vector_idx = ice_calc_vf_first_vector_idx(pf, vf);
5430deb0bf7SJacob Keller
5440deb0bf7SJacob Keller vsi = ice_vf_vsi_setup(vf);
5450deb0bf7SJacob Keller if (!vsi)
5460deb0bf7SJacob Keller return -ENOMEM;
5470deb0bf7SJacob Keller
548b1b56942SJacob Keller err = ice_vf_init_host_cfg(vf, vsi);
549b1b56942SJacob Keller if (err)
5500deb0bf7SJacob Keller goto release_vsi;
5510deb0bf7SJacob Keller
5520deb0bf7SJacob Keller return 0;
5530deb0bf7SJacob Keller
5540deb0bf7SJacob Keller release_vsi:
5550deb0bf7SJacob Keller ice_vf_vsi_release(vf);
5560deb0bf7SJacob Keller return err;
5570deb0bf7SJacob Keller }
5580deb0bf7SJacob Keller
5590deb0bf7SJacob Keller /**
5600deb0bf7SJacob Keller * ice_start_vfs - start VFs so they are ready to be used by SR-IOV
5610deb0bf7SJacob Keller * @pf: PF the VFs are associated with
5620deb0bf7SJacob Keller */
ice_start_vfs(struct ice_pf * pf)5630deb0bf7SJacob Keller static int ice_start_vfs(struct ice_pf *pf)
5640deb0bf7SJacob Keller {
5650deb0bf7SJacob Keller struct ice_hw *hw = &pf->hw;
5660deb0bf7SJacob Keller unsigned int bkt, it_cnt;
5670deb0bf7SJacob Keller struct ice_vf *vf;
5680deb0bf7SJacob Keller int retval;
5690deb0bf7SJacob Keller
5700deb0bf7SJacob Keller lockdep_assert_held(&pf->vfs.table_lock);
5710deb0bf7SJacob Keller
5720deb0bf7SJacob Keller it_cnt = 0;
5730deb0bf7SJacob Keller ice_for_each_vf(pf, bkt, vf) {
5749c6f7878SJacob Keller vf->vf_ops->clear_reset_trigger(vf);
5750deb0bf7SJacob Keller
5760deb0bf7SJacob Keller retval = ice_init_vf_vsi_res(vf);
5770deb0bf7SJacob Keller if (retval) {
5780deb0bf7SJacob Keller dev_err(ice_pf_to_dev(pf), "Failed to initialize VSI resources for VF %d, error %d\n",
5790deb0bf7SJacob Keller vf->vf_id, retval);
5800deb0bf7SJacob Keller goto teardown;
5810deb0bf7SJacob Keller }
5820deb0bf7SJacob Keller
5830deb0bf7SJacob Keller set_bit(ICE_VF_STATE_INIT, vf->vf_states);
5840deb0bf7SJacob Keller ice_ena_vf_mappings(vf);
5850deb0bf7SJacob Keller wr32(hw, VFGEN_RSTAT(vf->vf_id), VIRTCHNL_VFR_VFACTIVE);
5860deb0bf7SJacob Keller it_cnt++;
5870deb0bf7SJacob Keller }
5880deb0bf7SJacob Keller
5890deb0bf7SJacob Keller ice_flush(hw);
5900deb0bf7SJacob Keller return 0;
5910deb0bf7SJacob Keller
5920deb0bf7SJacob Keller teardown:
5930deb0bf7SJacob Keller ice_for_each_vf(pf, bkt, vf) {
5940deb0bf7SJacob Keller if (it_cnt == 0)
5950deb0bf7SJacob Keller break;
5960deb0bf7SJacob Keller
5970deb0bf7SJacob Keller ice_dis_vf_mappings(vf);
5980deb0bf7SJacob Keller ice_vf_vsi_release(vf);
5990deb0bf7SJacob Keller it_cnt--;
6000deb0bf7SJacob Keller }
6010deb0bf7SJacob Keller
6020deb0bf7SJacob Keller return retval;
6030deb0bf7SJacob Keller }
6040deb0bf7SJacob Keller
6050deb0bf7SJacob Keller /**
6069c6f7878SJacob Keller * ice_sriov_free_vf - Free VF memory after all references are dropped
6079c6f7878SJacob Keller * @vf: pointer to VF to free
6089c6f7878SJacob Keller *
6099c6f7878SJacob Keller * Called by ice_put_vf through ice_release_vf once the last reference to a VF
6109c6f7878SJacob Keller * structure has been dropped.
6119c6f7878SJacob Keller */
ice_sriov_free_vf(struct ice_vf * vf)6129c6f7878SJacob Keller static void ice_sriov_free_vf(struct ice_vf *vf)
6139c6f7878SJacob Keller {
6149c6f7878SJacob Keller mutex_destroy(&vf->cfg_lock);
6159c6f7878SJacob Keller
6169c6f7878SJacob Keller kfree_rcu(vf, rcu);
6179c6f7878SJacob Keller }
6189c6f7878SJacob Keller
6199c6f7878SJacob Keller /**
620fa4a15c8SJacob Keller * ice_sriov_clear_reset_state - clears VF Reset status register
621fa4a15c8SJacob Keller * @vf: the vf to configure
622fa4a15c8SJacob Keller */
ice_sriov_clear_reset_state(struct ice_vf * vf)623fa4a15c8SJacob Keller static void ice_sriov_clear_reset_state(struct ice_vf *vf)
624fa4a15c8SJacob Keller {
625fa4a15c8SJacob Keller struct ice_hw *hw = &vf->pf->hw;
626fa4a15c8SJacob Keller
627fa4a15c8SJacob Keller /* Clear the reset status register so that VF immediately sees that
628fa4a15c8SJacob Keller * the device is resetting, even if hardware hasn't yet gotten around
629fa4a15c8SJacob Keller * to clearing VFGEN_RSTAT for us.
630fa4a15c8SJacob Keller */
631fa4a15c8SJacob Keller wr32(hw, VFGEN_RSTAT(vf->vf_id), VIRTCHNL_VFR_INPROGRESS);
632fa4a15c8SJacob Keller }
633fa4a15c8SJacob Keller
634fa4a15c8SJacob Keller /**
6359c6f7878SJacob Keller * ice_sriov_clear_mbx_register - clears SRIOV VF's mailbox registers
6369c6f7878SJacob Keller * @vf: the vf to configure
6379c6f7878SJacob Keller */
ice_sriov_clear_mbx_register(struct ice_vf * vf)6389c6f7878SJacob Keller static void ice_sriov_clear_mbx_register(struct ice_vf *vf)
6399c6f7878SJacob Keller {
6409c6f7878SJacob Keller struct ice_pf *pf = vf->pf;
6419c6f7878SJacob Keller
6429c6f7878SJacob Keller wr32(&pf->hw, VF_MBX_ARQLEN(vf->vf_id), 0);
6439c6f7878SJacob Keller wr32(&pf->hw, VF_MBX_ATQLEN(vf->vf_id), 0);
6449c6f7878SJacob Keller }
6459c6f7878SJacob Keller
6469c6f7878SJacob Keller /**
6479c6f7878SJacob Keller * ice_sriov_trigger_reset_register - trigger VF reset for SRIOV VF
6489c6f7878SJacob Keller * @vf: pointer to VF structure
6499c6f7878SJacob Keller * @is_vflr: true if reset occurred due to VFLR
6509c6f7878SJacob Keller *
6519c6f7878SJacob Keller * Trigger and cleanup after a VF reset for a SR-IOV VF.
6529c6f7878SJacob Keller */
ice_sriov_trigger_reset_register(struct ice_vf * vf,bool is_vflr)6539c6f7878SJacob Keller static void ice_sriov_trigger_reset_register(struct ice_vf *vf, bool is_vflr)
6549c6f7878SJacob Keller {
6559c6f7878SJacob Keller struct ice_pf *pf = vf->pf;
6569c6f7878SJacob Keller u32 reg, reg_idx, bit_idx;
6579c6f7878SJacob Keller unsigned int vf_abs_id, i;
6589c6f7878SJacob Keller struct device *dev;
6599c6f7878SJacob Keller struct ice_hw *hw;
6609c6f7878SJacob Keller
6619c6f7878SJacob Keller dev = ice_pf_to_dev(pf);
6629c6f7878SJacob Keller hw = &pf->hw;
6639c6f7878SJacob Keller vf_abs_id = vf->vf_id + hw->func_caps.vf_base_id;
6649c6f7878SJacob Keller
6659c6f7878SJacob Keller /* In the case of a VFLR, HW has already reset the VF and we just need
6669c6f7878SJacob Keller * to clean up. Otherwise we must first trigger the reset using the
6679c6f7878SJacob Keller * VFRTRIG register.
6689c6f7878SJacob Keller */
6699c6f7878SJacob Keller if (!is_vflr) {
6709c6f7878SJacob Keller reg = rd32(hw, VPGEN_VFRTRIG(vf->vf_id));
6719c6f7878SJacob Keller reg |= VPGEN_VFRTRIG_VFSWR_M;
6729c6f7878SJacob Keller wr32(hw, VPGEN_VFRTRIG(vf->vf_id), reg);
6739c6f7878SJacob Keller }
6749c6f7878SJacob Keller
6759c6f7878SJacob Keller /* clear the VFLR bit in GLGEN_VFLRSTAT */
6769c6f7878SJacob Keller reg_idx = (vf_abs_id) / 32;
6779c6f7878SJacob Keller bit_idx = (vf_abs_id) % 32;
6789c6f7878SJacob Keller wr32(hw, GLGEN_VFLRSTAT(reg_idx), BIT(bit_idx));
6799c6f7878SJacob Keller ice_flush(hw);
6809c6f7878SJacob Keller
6819c6f7878SJacob Keller wr32(hw, PF_PCI_CIAA,
6829c6f7878SJacob Keller VF_DEVICE_STATUS | (vf_abs_id << PF_PCI_CIAA_VF_NUM_S));
6839c6f7878SJacob Keller for (i = 0; i < ICE_PCI_CIAD_WAIT_COUNT; i++) {
6849c6f7878SJacob Keller reg = rd32(hw, PF_PCI_CIAD);
6859c6f7878SJacob Keller /* no transactions pending so stop polling */
6869c6f7878SJacob Keller if ((reg & VF_TRANS_PENDING_M) == 0)
6879c6f7878SJacob Keller break;
6889c6f7878SJacob Keller
6899c6f7878SJacob Keller dev_err(dev, "VF %u PCI transactions stuck\n", vf->vf_id);
6909c6f7878SJacob Keller udelay(ICE_PCI_CIAD_WAIT_DELAY_US);
6919c6f7878SJacob Keller }
6929c6f7878SJacob Keller }
6939c6f7878SJacob Keller
6949c6f7878SJacob Keller /**
6959c6f7878SJacob Keller * ice_sriov_poll_reset_status - poll SRIOV VF reset status
6969c6f7878SJacob Keller * @vf: pointer to VF structure
6979c6f7878SJacob Keller *
6989c6f7878SJacob Keller * Returns true when reset is successful, else returns false
6999c6f7878SJacob Keller */
ice_sriov_poll_reset_status(struct ice_vf * vf)7009c6f7878SJacob Keller static bool ice_sriov_poll_reset_status(struct ice_vf *vf)
7019c6f7878SJacob Keller {
7029c6f7878SJacob Keller struct ice_pf *pf = vf->pf;
7039c6f7878SJacob Keller unsigned int i;
7049c6f7878SJacob Keller u32 reg;
7059c6f7878SJacob Keller
7069c6f7878SJacob Keller for (i = 0; i < 10; i++) {
7079c6f7878SJacob Keller /* VF reset requires driver to first reset the VF and then
7089c6f7878SJacob Keller * poll the status register to make sure that the reset
7099c6f7878SJacob Keller * completed successfully.
7109c6f7878SJacob Keller */
7119c6f7878SJacob Keller reg = rd32(&pf->hw, VPGEN_VFRSTAT(vf->vf_id));
7129c6f7878SJacob Keller if (reg & VPGEN_VFRSTAT_VFRD_M)
7139c6f7878SJacob Keller return true;
7149c6f7878SJacob Keller
7159c6f7878SJacob Keller /* only sleep if the reset is not done */
7169c6f7878SJacob Keller usleep_range(10, 20);
7179c6f7878SJacob Keller }
7189c6f7878SJacob Keller return false;
7199c6f7878SJacob Keller }
7209c6f7878SJacob Keller
7219c6f7878SJacob Keller /**
7229c6f7878SJacob Keller * ice_sriov_clear_reset_trigger - enable VF to access hardware
7239c6f7878SJacob Keller * @vf: VF to enabled hardware access for
7249c6f7878SJacob Keller */
ice_sriov_clear_reset_trigger(struct ice_vf * vf)7259c6f7878SJacob Keller static void ice_sriov_clear_reset_trigger(struct ice_vf *vf)
7269c6f7878SJacob Keller {
7279c6f7878SJacob Keller struct ice_hw *hw = &vf->pf->hw;
7289c6f7878SJacob Keller u32 reg;
7299c6f7878SJacob Keller
7309c6f7878SJacob Keller reg = rd32(hw, VPGEN_VFRTRIG(vf->vf_id));
7319c6f7878SJacob Keller reg &= ~VPGEN_VFRTRIG_VFSWR_M;
7329c6f7878SJacob Keller wr32(hw, VPGEN_VFRTRIG(vf->vf_id), reg);
7339c6f7878SJacob Keller ice_flush(hw);
7349c6f7878SJacob Keller }
7359c6f7878SJacob Keller
7369c6f7878SJacob Keller /**
7375531bb85SJacob Keller * ice_sriov_create_vsi - Create a new VSI for a VF
7385531bb85SJacob Keller * @vf: VF to create the VSI for
7399c6f7878SJacob Keller *
7405531bb85SJacob Keller * This is called by ice_vf_recreate_vsi to create the new VSI after the old
7415531bb85SJacob Keller * VSI has been released.
7429c6f7878SJacob Keller */
ice_sriov_create_vsi(struct ice_vf * vf)7435531bb85SJacob Keller static int ice_sriov_create_vsi(struct ice_vf *vf)
7449c6f7878SJacob Keller {
7455531bb85SJacob Keller struct ice_vsi *vsi;
7469c6f7878SJacob Keller
7475531bb85SJacob Keller vsi = ice_vf_vsi_setup(vf);
7485531bb85SJacob Keller if (!vsi)
7499c6f7878SJacob Keller return -ENOMEM;
7509c6f7878SJacob Keller
7519c6f7878SJacob Keller return 0;
7529c6f7878SJacob Keller }
7539c6f7878SJacob Keller
7549c6f7878SJacob Keller /**
7559c6f7878SJacob Keller * ice_sriov_post_vsi_rebuild - tasks to do after the VF's VSI have been rebuilt
7569c6f7878SJacob Keller * @vf: VF to perform tasks on
7579c6f7878SJacob Keller */
ice_sriov_post_vsi_rebuild(struct ice_vf * vf)7589c6f7878SJacob Keller static void ice_sriov_post_vsi_rebuild(struct ice_vf *vf)
7599c6f7878SJacob Keller {
7609c6f7878SJacob Keller ice_ena_vf_mappings(vf);
7619c6f7878SJacob Keller wr32(&vf->pf->hw, VFGEN_RSTAT(vf->vf_id), VIRTCHNL_VFR_VFACTIVE);
7629c6f7878SJacob Keller }
7639c6f7878SJacob Keller
7649c6f7878SJacob Keller static const struct ice_vf_ops ice_sriov_vf_ops = {
7659c6f7878SJacob Keller .reset_type = ICE_VF_RESET,
7669c6f7878SJacob Keller .free = ice_sriov_free_vf,
767fa4a15c8SJacob Keller .clear_reset_state = ice_sriov_clear_reset_state,
7689c6f7878SJacob Keller .clear_mbx_register = ice_sriov_clear_mbx_register,
7699c6f7878SJacob Keller .trigger_reset_register = ice_sriov_trigger_reset_register,
7709c6f7878SJacob Keller .poll_reset_status = ice_sriov_poll_reset_status,
7719c6f7878SJacob Keller .clear_reset_trigger = ice_sriov_clear_reset_trigger,
772537dfe06SJacob Keller .irq_close = NULL,
7735531bb85SJacob Keller .create_vsi = ice_sriov_create_vsi,
7749c6f7878SJacob Keller .post_vsi_rebuild = ice_sriov_post_vsi_rebuild,
7759c6f7878SJacob Keller };
7769c6f7878SJacob Keller
7779c6f7878SJacob Keller /**
7780deb0bf7SJacob Keller * ice_create_vf_entries - Allocate and insert VF entries
7790deb0bf7SJacob Keller * @pf: pointer to the PF structure
7800deb0bf7SJacob Keller * @num_vfs: the number of VFs to allocate
7810deb0bf7SJacob Keller *
7820deb0bf7SJacob Keller * Allocate new VF entries and insert them into the hash table. Set some
7830deb0bf7SJacob Keller * basic default fields for initializing the new VFs.
7840deb0bf7SJacob Keller *
7850deb0bf7SJacob Keller * After this function exits, the hash table will have num_vfs entries
7860deb0bf7SJacob Keller * inserted.
7870deb0bf7SJacob Keller *
7880deb0bf7SJacob Keller * Returns 0 on success or an integer error code on failure.
7890deb0bf7SJacob Keller */
ice_create_vf_entries(struct ice_pf * pf,u16 num_vfs)7900deb0bf7SJacob Keller static int ice_create_vf_entries(struct ice_pf *pf, u16 num_vfs)
7910deb0bf7SJacob Keller {
7920deb0bf7SJacob Keller struct ice_vfs *vfs = &pf->vfs;
7930deb0bf7SJacob Keller struct ice_vf *vf;
7940deb0bf7SJacob Keller u16 vf_id;
7950deb0bf7SJacob Keller int err;
7960deb0bf7SJacob Keller
7970deb0bf7SJacob Keller lockdep_assert_held(&vfs->table_lock);
7980deb0bf7SJacob Keller
7990deb0bf7SJacob Keller for (vf_id = 0; vf_id < num_vfs; vf_id++) {
8000deb0bf7SJacob Keller vf = kzalloc(sizeof(*vf), GFP_KERNEL);
8010deb0bf7SJacob Keller if (!vf) {
8020deb0bf7SJacob Keller err = -ENOMEM;
8030deb0bf7SJacob Keller goto err_free_entries;
8040deb0bf7SJacob Keller }
8050deb0bf7SJacob Keller kref_init(&vf->refcnt);
8060deb0bf7SJacob Keller
8070deb0bf7SJacob Keller vf->pf = pf;
8080deb0bf7SJacob Keller vf->vf_id = vf_id;
8090deb0bf7SJacob Keller
8109c6f7878SJacob Keller /* set sriov vf ops for VFs created during SRIOV flow */
8119c6f7878SJacob Keller vf->vf_ops = &ice_sriov_vf_ops;
8129c6f7878SJacob Keller
813b5dcff1fSJacob Keller ice_initialize_vf_entry(vf);
814b5dcff1fSJacob Keller
8150deb0bf7SJacob Keller vf->vf_sw_id = pf->first_sw;
8160deb0bf7SJacob Keller
8170deb0bf7SJacob Keller hash_add_rcu(vfs->table, &vf->entry, vf_id);
8180deb0bf7SJacob Keller }
8190deb0bf7SJacob Keller
8200deb0bf7SJacob Keller return 0;
8210deb0bf7SJacob Keller
8220deb0bf7SJacob Keller err_free_entries:
8230deb0bf7SJacob Keller ice_free_vf_entries(pf);
8240deb0bf7SJacob Keller return err;
8250deb0bf7SJacob Keller }
8260deb0bf7SJacob Keller
8270deb0bf7SJacob Keller /**
8280deb0bf7SJacob Keller * ice_ena_vfs - enable VFs so they are ready to be used
8290deb0bf7SJacob Keller * @pf: pointer to the PF structure
8300deb0bf7SJacob Keller * @num_vfs: number of VFs to enable
8310deb0bf7SJacob Keller */
ice_ena_vfs(struct ice_pf * pf,u16 num_vfs)8320deb0bf7SJacob Keller static int ice_ena_vfs(struct ice_pf *pf, u16 num_vfs)
8330deb0bf7SJacob Keller {
8340deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
8350deb0bf7SJacob Keller struct ice_hw *hw = &pf->hw;
8360deb0bf7SJacob Keller int ret;
8370deb0bf7SJacob Keller
8380deb0bf7SJacob Keller /* Disable global interrupt 0 so we don't try to handle the VFLR. */
8394aad5335SPiotr Raczynski wr32(hw, GLINT_DYN_CTL(pf->oicr_irq.index),
8400deb0bf7SJacob Keller ICE_ITR_NONE << GLINT_DYN_CTL_ITR_INDX_S);
8410deb0bf7SJacob Keller set_bit(ICE_OICR_INTR_DIS, pf->state);
8420deb0bf7SJacob Keller ice_flush(hw);
8430deb0bf7SJacob Keller
8440deb0bf7SJacob Keller ret = pci_enable_sriov(pf->pdev, num_vfs);
8450deb0bf7SJacob Keller if (ret)
8460deb0bf7SJacob Keller goto err_unroll_intr;
8470deb0bf7SJacob Keller
8480deb0bf7SJacob Keller mutex_lock(&pf->vfs.table_lock);
8490deb0bf7SJacob Keller
85094ab2488SJacob Keller ret = ice_set_per_vf_res(pf, num_vfs);
85194ab2488SJacob Keller if (ret) {
85294ab2488SJacob Keller dev_err(dev, "Not enough resources for %d VFs, err %d. Try with fewer number of VFs\n",
85394ab2488SJacob Keller num_vfs, ret);
8540deb0bf7SJacob Keller goto err_unroll_sriov;
8550deb0bf7SJacob Keller }
8560deb0bf7SJacob Keller
8570deb0bf7SJacob Keller ret = ice_create_vf_entries(pf, num_vfs);
8580deb0bf7SJacob Keller if (ret) {
8590deb0bf7SJacob Keller dev_err(dev, "Failed to allocate VF entries for %d VFs\n",
8600deb0bf7SJacob Keller num_vfs);
8610deb0bf7SJacob Keller goto err_unroll_sriov;
8620deb0bf7SJacob Keller }
8630deb0bf7SJacob Keller
86494ab2488SJacob Keller ret = ice_start_vfs(pf);
86594ab2488SJacob Keller if (ret) {
86694ab2488SJacob Keller dev_err(dev, "Failed to start %d VFs, err %d\n", num_vfs, ret);
8670deb0bf7SJacob Keller ret = -EAGAIN;
8680deb0bf7SJacob Keller goto err_unroll_vf_entries;
8690deb0bf7SJacob Keller }
8700deb0bf7SJacob Keller
8710deb0bf7SJacob Keller clear_bit(ICE_VF_DIS, pf->state);
8720deb0bf7SJacob Keller
8730deb0bf7SJacob Keller ret = ice_eswitch_configure(pf);
8742b369448SJacob Keller if (ret) {
8752b369448SJacob Keller dev_err(dev, "Failed to configure eswitch, err %d\n", ret);
8760deb0bf7SJacob Keller goto err_unroll_sriov;
8772b369448SJacob Keller }
8780deb0bf7SJacob Keller
8790deb0bf7SJacob Keller /* rearm global interrupts */
8800deb0bf7SJacob Keller if (test_and_clear_bit(ICE_OICR_INTR_DIS, pf->state))
8810deb0bf7SJacob Keller ice_irq_dynamic_ena(hw, NULL, NULL);
8820deb0bf7SJacob Keller
8830deb0bf7SJacob Keller mutex_unlock(&pf->vfs.table_lock);
8840deb0bf7SJacob Keller
8850deb0bf7SJacob Keller return 0;
8860deb0bf7SJacob Keller
8870deb0bf7SJacob Keller err_unroll_vf_entries:
8880deb0bf7SJacob Keller ice_free_vf_entries(pf);
8890deb0bf7SJacob Keller err_unroll_sriov:
8900deb0bf7SJacob Keller mutex_unlock(&pf->vfs.table_lock);
8910deb0bf7SJacob Keller pci_disable_sriov(pf->pdev);
8920deb0bf7SJacob Keller err_unroll_intr:
8930deb0bf7SJacob Keller /* rearm interrupts here */
8940deb0bf7SJacob Keller ice_irq_dynamic_ena(hw, NULL, NULL);
8950deb0bf7SJacob Keller clear_bit(ICE_OICR_INTR_DIS, pf->state);
8960deb0bf7SJacob Keller return ret;
8970deb0bf7SJacob Keller }
8980deb0bf7SJacob Keller
8990deb0bf7SJacob Keller /**
9000deb0bf7SJacob Keller * ice_pci_sriov_ena - Enable or change number of VFs
9010deb0bf7SJacob Keller * @pf: pointer to the PF structure
9020deb0bf7SJacob Keller * @num_vfs: number of VFs to allocate
9030deb0bf7SJacob Keller *
9040deb0bf7SJacob Keller * Returns 0 on success and negative on failure
9050deb0bf7SJacob Keller */
ice_pci_sriov_ena(struct ice_pf * pf,int num_vfs)9060deb0bf7SJacob Keller static int ice_pci_sriov_ena(struct ice_pf *pf, int num_vfs)
9070deb0bf7SJacob Keller {
9080deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
9090deb0bf7SJacob Keller int err;
9100deb0bf7SJacob Keller
911f9827747SPrzemek Kitszel if (!num_vfs) {
9120deb0bf7SJacob Keller ice_free_vfs(pf);
9130deb0bf7SJacob Keller return 0;
914f9827747SPrzemek Kitszel }
9150deb0bf7SJacob Keller
9160deb0bf7SJacob Keller if (num_vfs > pf->vfs.num_supported) {
9170deb0bf7SJacob Keller dev_err(dev, "Can't enable %d VFs, max VFs supported is %d\n",
9180deb0bf7SJacob Keller num_vfs, pf->vfs.num_supported);
9190deb0bf7SJacob Keller return -EOPNOTSUPP;
9200deb0bf7SJacob Keller }
9210deb0bf7SJacob Keller
9220deb0bf7SJacob Keller dev_info(dev, "Enabling %d VFs\n", num_vfs);
9230deb0bf7SJacob Keller err = ice_ena_vfs(pf, num_vfs);
9240deb0bf7SJacob Keller if (err) {
9250deb0bf7SJacob Keller dev_err(dev, "Failed to enable SR-IOV: %d\n", err);
9260deb0bf7SJacob Keller return err;
9270deb0bf7SJacob Keller }
9280deb0bf7SJacob Keller
9290deb0bf7SJacob Keller set_bit(ICE_FLAG_SRIOV_ENA, pf->flags);
9300deb0bf7SJacob Keller return 0;
9310deb0bf7SJacob Keller }
9320deb0bf7SJacob Keller
9330deb0bf7SJacob Keller /**
9340deb0bf7SJacob Keller * ice_check_sriov_allowed - check if SR-IOV is allowed based on various checks
9350deb0bf7SJacob Keller * @pf: PF to enabled SR-IOV on
9360deb0bf7SJacob Keller */
ice_check_sriov_allowed(struct ice_pf * pf)9370deb0bf7SJacob Keller static int ice_check_sriov_allowed(struct ice_pf *pf)
9380deb0bf7SJacob Keller {
9390deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
9400deb0bf7SJacob Keller
9410deb0bf7SJacob Keller if (!test_bit(ICE_FLAG_SRIOV_CAPABLE, pf->flags)) {
9420deb0bf7SJacob Keller dev_err(dev, "This device is not capable of SR-IOV\n");
9430deb0bf7SJacob Keller return -EOPNOTSUPP;
9440deb0bf7SJacob Keller }
9450deb0bf7SJacob Keller
9460deb0bf7SJacob Keller if (ice_is_safe_mode(pf)) {
9470deb0bf7SJacob Keller dev_err(dev, "SR-IOV cannot be configured - Device is in Safe Mode\n");
9480deb0bf7SJacob Keller return -EOPNOTSUPP;
9490deb0bf7SJacob Keller }
9500deb0bf7SJacob Keller
9510deb0bf7SJacob Keller if (!ice_pf_state_is_nominal(pf)) {
9520deb0bf7SJacob Keller dev_err(dev, "Cannot enable SR-IOV, device not ready\n");
9530deb0bf7SJacob Keller return -EBUSY;
9540deb0bf7SJacob Keller }
9550deb0bf7SJacob Keller
9560deb0bf7SJacob Keller return 0;
9570deb0bf7SJacob Keller }
9580deb0bf7SJacob Keller
9590deb0bf7SJacob Keller /**
9600deb0bf7SJacob Keller * ice_sriov_configure - Enable or change number of VFs via sysfs
9610deb0bf7SJacob Keller * @pdev: pointer to a pci_dev structure
9620deb0bf7SJacob Keller * @num_vfs: number of VFs to allocate or 0 to free VFs
9630deb0bf7SJacob Keller *
9640deb0bf7SJacob Keller * This function is called when the user updates the number of VFs in sysfs. On
9650deb0bf7SJacob Keller * success return whatever num_vfs was set to by the caller. Return negative on
9660deb0bf7SJacob Keller * failure.
9670deb0bf7SJacob Keller */
ice_sriov_configure(struct pci_dev * pdev,int num_vfs)9680deb0bf7SJacob Keller int ice_sriov_configure(struct pci_dev *pdev, int num_vfs)
9690deb0bf7SJacob Keller {
9700deb0bf7SJacob Keller struct ice_pf *pf = pci_get_drvdata(pdev);
9710deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
9720deb0bf7SJacob Keller int err;
9730deb0bf7SJacob Keller
9740deb0bf7SJacob Keller err = ice_check_sriov_allowed(pf);
9750deb0bf7SJacob Keller if (err)
9760deb0bf7SJacob Keller return err;
9770deb0bf7SJacob Keller
9780deb0bf7SJacob Keller if (!num_vfs) {
9790deb0bf7SJacob Keller if (!pci_vfs_assigned(pdev)) {
9800deb0bf7SJacob Keller ice_free_vfs(pf);
9810deb0bf7SJacob Keller return 0;
9820deb0bf7SJacob Keller }
9830deb0bf7SJacob Keller
9840deb0bf7SJacob Keller dev_err(dev, "can't free VFs because some are assigned to VMs.\n");
9850deb0bf7SJacob Keller return -EBUSY;
9860deb0bf7SJacob Keller }
9870deb0bf7SJacob Keller
9880deb0bf7SJacob Keller err = ice_pci_sriov_ena(pf, num_vfs);
9894bdf5f25SJacob Keller if (err)
9900deb0bf7SJacob Keller return err;
9910deb0bf7SJacob Keller
9920deb0bf7SJacob Keller return num_vfs;
9930deb0bf7SJacob Keller }
9940deb0bf7SJacob Keller
9950deb0bf7SJacob Keller /**
9960deb0bf7SJacob Keller * ice_process_vflr_event - Free VF resources via IRQ calls
9970deb0bf7SJacob Keller * @pf: pointer to the PF structure
9980deb0bf7SJacob Keller *
9990deb0bf7SJacob Keller * called from the VFLR IRQ handler to
10000deb0bf7SJacob Keller * free up VF resources and state variables
10010deb0bf7SJacob Keller */
ice_process_vflr_event(struct ice_pf * pf)10020deb0bf7SJacob Keller void ice_process_vflr_event(struct ice_pf *pf)
10030deb0bf7SJacob Keller {
10040deb0bf7SJacob Keller struct ice_hw *hw = &pf->hw;
10050deb0bf7SJacob Keller struct ice_vf *vf;
10060deb0bf7SJacob Keller unsigned int bkt;
10070deb0bf7SJacob Keller u32 reg;
10080deb0bf7SJacob Keller
10090deb0bf7SJacob Keller if (!test_and_clear_bit(ICE_VFLR_EVENT_PENDING, pf->state) ||
10100deb0bf7SJacob Keller !ice_has_vfs(pf))
10110deb0bf7SJacob Keller return;
10120deb0bf7SJacob Keller
10130deb0bf7SJacob Keller mutex_lock(&pf->vfs.table_lock);
10140deb0bf7SJacob Keller ice_for_each_vf(pf, bkt, vf) {
10150deb0bf7SJacob Keller u32 reg_idx, bit_idx;
10160deb0bf7SJacob Keller
10170deb0bf7SJacob Keller reg_idx = (hw->func_caps.vf_base_id + vf->vf_id) / 32;
10180deb0bf7SJacob Keller bit_idx = (hw->func_caps.vf_base_id + vf->vf_id) % 32;
10190deb0bf7SJacob Keller /* read GLGEN_VFLRSTAT register to find out the flr VFs */
10200deb0bf7SJacob Keller reg = rd32(hw, GLGEN_VFLRSTAT(reg_idx));
1021f5f085c0SJacob Keller if (reg & BIT(bit_idx))
10220deb0bf7SJacob Keller /* GLGEN_VFLRSTAT bit will be cleared in ice_reset_vf */
1023f5f085c0SJacob Keller ice_reset_vf(vf, ICE_VF_RESET_VFLR | ICE_VF_RESET_LOCK);
10240deb0bf7SJacob Keller }
10250deb0bf7SJacob Keller mutex_unlock(&pf->vfs.table_lock);
10260deb0bf7SJacob Keller }
10270deb0bf7SJacob Keller
10280deb0bf7SJacob Keller /**
10290deb0bf7SJacob Keller * ice_get_vf_from_pfq - get the VF who owns the PF space queue passed in
10300deb0bf7SJacob Keller * @pf: PF used to index all VFs
10310deb0bf7SJacob Keller * @pfq: queue index relative to the PF's function space
10320deb0bf7SJacob Keller *
10330deb0bf7SJacob Keller * If no VF is found who owns the pfq then return NULL, otherwise return a
10340deb0bf7SJacob Keller * pointer to the VF who owns the pfq
10350deb0bf7SJacob Keller *
10360deb0bf7SJacob Keller * If this function returns non-NULL, it acquires a reference count of the VF
10370deb0bf7SJacob Keller * structure. The caller is responsible for calling ice_put_vf() to drop this
10380deb0bf7SJacob Keller * reference.
10390deb0bf7SJacob Keller */
ice_get_vf_from_pfq(struct ice_pf * pf,u16 pfq)10400deb0bf7SJacob Keller static struct ice_vf *ice_get_vf_from_pfq(struct ice_pf *pf, u16 pfq)
10410deb0bf7SJacob Keller {
10420deb0bf7SJacob Keller struct ice_vf *vf;
10430deb0bf7SJacob Keller unsigned int bkt;
10440deb0bf7SJacob Keller
10450deb0bf7SJacob Keller rcu_read_lock();
10460deb0bf7SJacob Keller ice_for_each_vf_rcu(pf, bkt, vf) {
10470deb0bf7SJacob Keller struct ice_vsi *vsi;
10480deb0bf7SJacob Keller u16 rxq_idx;
10490deb0bf7SJacob Keller
10500deb0bf7SJacob Keller vsi = ice_get_vf_vsi(vf);
1051baeb705fSJacob Keller if (!vsi)
1052baeb705fSJacob Keller continue;
10530deb0bf7SJacob Keller
10540deb0bf7SJacob Keller ice_for_each_rxq(vsi, rxq_idx)
10550deb0bf7SJacob Keller if (vsi->rxq_map[rxq_idx] == pfq) {
10560deb0bf7SJacob Keller struct ice_vf *found;
10570deb0bf7SJacob Keller
10580deb0bf7SJacob Keller if (kref_get_unless_zero(&vf->refcnt))
10590deb0bf7SJacob Keller found = vf;
10600deb0bf7SJacob Keller else
10610deb0bf7SJacob Keller found = NULL;
10620deb0bf7SJacob Keller rcu_read_unlock();
10630deb0bf7SJacob Keller return found;
10640deb0bf7SJacob Keller }
10650deb0bf7SJacob Keller }
10660deb0bf7SJacob Keller rcu_read_unlock();
10670deb0bf7SJacob Keller
10680deb0bf7SJacob Keller return NULL;
10690deb0bf7SJacob Keller }
10700deb0bf7SJacob Keller
10710deb0bf7SJacob Keller /**
10720deb0bf7SJacob Keller * ice_globalq_to_pfq - convert from global queue index to PF space queue index
10730deb0bf7SJacob Keller * @pf: PF used for conversion
10740deb0bf7SJacob Keller * @globalq: global queue index used to convert to PF space queue index
10750deb0bf7SJacob Keller */
ice_globalq_to_pfq(struct ice_pf * pf,u32 globalq)10760deb0bf7SJacob Keller static u32 ice_globalq_to_pfq(struct ice_pf *pf, u32 globalq)
10770deb0bf7SJacob Keller {
10780deb0bf7SJacob Keller return globalq - pf->hw.func_caps.common_cap.rxq_first_id;
10790deb0bf7SJacob Keller }
10800deb0bf7SJacob Keller
10810deb0bf7SJacob Keller /**
10820deb0bf7SJacob Keller * ice_vf_lan_overflow_event - handle LAN overflow event for a VF
10830deb0bf7SJacob Keller * @pf: PF that the LAN overflow event happened on
10840deb0bf7SJacob Keller * @event: structure holding the event information for the LAN overflow event
10850deb0bf7SJacob Keller *
10860deb0bf7SJacob Keller * Determine if the LAN overflow event was caused by a VF queue. If it was not
10870deb0bf7SJacob Keller * caused by a VF, do nothing. If a VF caused this LAN overflow event trigger a
10880deb0bf7SJacob Keller * reset on the offending VF.
10890deb0bf7SJacob Keller */
10900deb0bf7SJacob Keller void
ice_vf_lan_overflow_event(struct ice_pf * pf,struct ice_rq_event_info * event)10910deb0bf7SJacob Keller ice_vf_lan_overflow_event(struct ice_pf *pf, struct ice_rq_event_info *event)
10920deb0bf7SJacob Keller {
10930deb0bf7SJacob Keller u32 gldcb_rtctq, queue;
10940deb0bf7SJacob Keller struct ice_vf *vf;
10950deb0bf7SJacob Keller
10960deb0bf7SJacob Keller gldcb_rtctq = le32_to_cpu(event->desc.params.lan_overflow.prtdcb_ruptq);
10970deb0bf7SJacob Keller dev_dbg(ice_pf_to_dev(pf), "GLDCB_RTCTQ: 0x%08x\n", gldcb_rtctq);
10980deb0bf7SJacob Keller
10990deb0bf7SJacob Keller /* event returns device global Rx queue number */
11000deb0bf7SJacob Keller queue = (gldcb_rtctq & GLDCB_RTCTQ_RXQNUM_M) >>
11010deb0bf7SJacob Keller GLDCB_RTCTQ_RXQNUM_S;
11020deb0bf7SJacob Keller
11030deb0bf7SJacob Keller vf = ice_get_vf_from_pfq(pf, ice_globalq_to_pfq(pf, queue));
11040deb0bf7SJacob Keller if (!vf)
11050deb0bf7SJacob Keller return;
11060deb0bf7SJacob Keller
1107f5f085c0SJacob Keller ice_reset_vf(vf, ICE_VF_RESET_NOTIFY | ICE_VF_RESET_LOCK);
11080deb0bf7SJacob Keller ice_put_vf(vf);
11090deb0bf7SJacob Keller }
11100deb0bf7SJacob Keller
11110deb0bf7SJacob Keller /**
11120deb0bf7SJacob Keller * ice_set_vf_spoofchk
11130deb0bf7SJacob Keller * @netdev: network interface device structure
11140deb0bf7SJacob Keller * @vf_id: VF identifier
11150deb0bf7SJacob Keller * @ena: flag to enable or disable feature
11160deb0bf7SJacob Keller *
11170deb0bf7SJacob Keller * Enable or disable VF spoof checking
11180deb0bf7SJacob Keller */
ice_set_vf_spoofchk(struct net_device * netdev,int vf_id,bool ena)11190deb0bf7SJacob Keller int ice_set_vf_spoofchk(struct net_device *netdev, int vf_id, bool ena)
11200deb0bf7SJacob Keller {
11210deb0bf7SJacob Keller struct ice_netdev_priv *np = netdev_priv(netdev);
11220deb0bf7SJacob Keller struct ice_pf *pf = np->vsi->back;
11230deb0bf7SJacob Keller struct ice_vsi *vf_vsi;
11240deb0bf7SJacob Keller struct device *dev;
11250deb0bf7SJacob Keller struct ice_vf *vf;
11260deb0bf7SJacob Keller int ret;
11270deb0bf7SJacob Keller
11280deb0bf7SJacob Keller dev = ice_pf_to_dev(pf);
11290deb0bf7SJacob Keller
11300deb0bf7SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
11310deb0bf7SJacob Keller if (!vf)
11320deb0bf7SJacob Keller return -EINVAL;
11330deb0bf7SJacob Keller
1134*0ecff05eSPetr Oros ret = ice_check_vf_ready_for_cfg(vf);
11350deb0bf7SJacob Keller if (ret)
11360deb0bf7SJacob Keller goto out_put_vf;
11370deb0bf7SJacob Keller
11380deb0bf7SJacob Keller vf_vsi = ice_get_vf_vsi(vf);
11390deb0bf7SJacob Keller if (!vf_vsi) {
11400deb0bf7SJacob Keller netdev_err(netdev, "VSI %d for VF %d is null\n",
11410deb0bf7SJacob Keller vf->lan_vsi_idx, vf->vf_id);
11420deb0bf7SJacob Keller ret = -EINVAL;
11430deb0bf7SJacob Keller goto out_put_vf;
11440deb0bf7SJacob Keller }
11450deb0bf7SJacob Keller
11460deb0bf7SJacob Keller if (vf_vsi->type != ICE_VSI_VF) {
11470deb0bf7SJacob Keller netdev_err(netdev, "Type %d of VSI %d for VF %d is no ICE_VSI_VF\n",
11480deb0bf7SJacob Keller vf_vsi->type, vf_vsi->vsi_num, vf->vf_id);
11490deb0bf7SJacob Keller ret = -ENODEV;
11500deb0bf7SJacob Keller goto out_put_vf;
11510deb0bf7SJacob Keller }
11520deb0bf7SJacob Keller
11530deb0bf7SJacob Keller if (ena == vf->spoofchk) {
11540deb0bf7SJacob Keller dev_dbg(dev, "VF spoofchk already %s\n", ena ? "ON" : "OFF");
11550deb0bf7SJacob Keller ret = 0;
11560deb0bf7SJacob Keller goto out_put_vf;
11570deb0bf7SJacob Keller }
11580deb0bf7SJacob Keller
1159a8ea6d86SJacob Keller ret = ice_vsi_apply_spoofchk(vf_vsi, ena);
11600deb0bf7SJacob Keller if (ret)
11610deb0bf7SJacob Keller dev_err(dev, "Failed to set spoofchk %s for VF %d VSI %d\n error %d\n",
11620deb0bf7SJacob Keller ena ? "ON" : "OFF", vf->vf_id, vf_vsi->vsi_num, ret);
11630deb0bf7SJacob Keller else
11640deb0bf7SJacob Keller vf->spoofchk = ena;
11650deb0bf7SJacob Keller
11660deb0bf7SJacob Keller out_put_vf:
11670deb0bf7SJacob Keller ice_put_vf(vf);
11680deb0bf7SJacob Keller return ret;
11690deb0bf7SJacob Keller }
11700deb0bf7SJacob Keller
11710deb0bf7SJacob Keller /**
11720deb0bf7SJacob Keller * ice_get_vf_cfg
11730deb0bf7SJacob Keller * @netdev: network interface device structure
11740deb0bf7SJacob Keller * @vf_id: VF identifier
11750deb0bf7SJacob Keller * @ivi: VF configuration structure
11760deb0bf7SJacob Keller *
11770deb0bf7SJacob Keller * return VF configuration
11780deb0bf7SJacob Keller */
11790deb0bf7SJacob Keller int
ice_get_vf_cfg(struct net_device * netdev,int vf_id,struct ifla_vf_info * ivi)11800deb0bf7SJacob Keller ice_get_vf_cfg(struct net_device *netdev, int vf_id, struct ifla_vf_info *ivi)
11810deb0bf7SJacob Keller {
11820deb0bf7SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
11830deb0bf7SJacob Keller struct ice_vf *vf;
11840deb0bf7SJacob Keller int ret;
11850deb0bf7SJacob Keller
11860deb0bf7SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
11870deb0bf7SJacob Keller if (!vf)
11880deb0bf7SJacob Keller return -EINVAL;
11890deb0bf7SJacob Keller
11900deb0bf7SJacob Keller ret = ice_check_vf_ready_for_cfg(vf);
11910deb0bf7SJacob Keller if (ret)
11920deb0bf7SJacob Keller goto out_put_vf;
11930deb0bf7SJacob Keller
11940deb0bf7SJacob Keller ivi->vf = vf_id;
1195e0645311SJacob Keller ether_addr_copy(ivi->mac, vf->hw_lan_addr);
11960deb0bf7SJacob Keller
11970deb0bf7SJacob Keller /* VF configuration for VLAN and applicable QoS */
11980deb0bf7SJacob Keller ivi->vlan = ice_vf_get_port_vlan_id(vf);
11990deb0bf7SJacob Keller ivi->qos = ice_vf_get_port_vlan_prio(vf);
12000deb0bf7SJacob Keller if (ice_vf_is_port_vlan_ena(vf))
12010deb0bf7SJacob Keller ivi->vlan_proto = cpu_to_be16(ice_vf_get_port_vlan_tpid(vf));
12020deb0bf7SJacob Keller
12030deb0bf7SJacob Keller ivi->trusted = vf->trusted;
12040deb0bf7SJacob Keller ivi->spoofchk = vf->spoofchk;
12050deb0bf7SJacob Keller if (!vf->link_forced)
12060deb0bf7SJacob Keller ivi->linkstate = IFLA_VF_LINK_STATE_AUTO;
12070deb0bf7SJacob Keller else if (vf->link_up)
12080deb0bf7SJacob Keller ivi->linkstate = IFLA_VF_LINK_STATE_ENABLE;
12090deb0bf7SJacob Keller else
12100deb0bf7SJacob Keller ivi->linkstate = IFLA_VF_LINK_STATE_DISABLE;
12110deb0bf7SJacob Keller ivi->max_tx_rate = vf->max_tx_rate;
12120deb0bf7SJacob Keller ivi->min_tx_rate = vf->min_tx_rate;
12130deb0bf7SJacob Keller
12140deb0bf7SJacob Keller out_put_vf:
12150deb0bf7SJacob Keller ice_put_vf(vf);
12160deb0bf7SJacob Keller return ret;
12170deb0bf7SJacob Keller }
12180deb0bf7SJacob Keller
12190deb0bf7SJacob Keller /**
12200deb0bf7SJacob Keller * ice_set_vf_mac
12210deb0bf7SJacob Keller * @netdev: network interface device structure
12220deb0bf7SJacob Keller * @vf_id: VF identifier
12230deb0bf7SJacob Keller * @mac: MAC address
12240deb0bf7SJacob Keller *
12250deb0bf7SJacob Keller * program VF MAC address
12260deb0bf7SJacob Keller */
ice_set_vf_mac(struct net_device * netdev,int vf_id,u8 * mac)12270deb0bf7SJacob Keller int ice_set_vf_mac(struct net_device *netdev, int vf_id, u8 *mac)
12280deb0bf7SJacob Keller {
12290deb0bf7SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
12300deb0bf7SJacob Keller struct ice_vf *vf;
12310deb0bf7SJacob Keller int ret;
12320deb0bf7SJacob Keller
12330deb0bf7SJacob Keller if (is_multicast_ether_addr(mac)) {
12340deb0bf7SJacob Keller netdev_err(netdev, "%pM not a valid unicast address\n", mac);
12350deb0bf7SJacob Keller return -EINVAL;
12360deb0bf7SJacob Keller }
12370deb0bf7SJacob Keller
12380deb0bf7SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
12390deb0bf7SJacob Keller if (!vf)
12400deb0bf7SJacob Keller return -EINVAL;
12410deb0bf7SJacob Keller
12420deb0bf7SJacob Keller /* nothing left to do, unicast MAC already set */
1243e0645311SJacob Keller if (ether_addr_equal(vf->dev_lan_addr, mac) &&
1244e0645311SJacob Keller ether_addr_equal(vf->hw_lan_addr, mac)) {
12450deb0bf7SJacob Keller ret = 0;
12460deb0bf7SJacob Keller goto out_put_vf;
12470deb0bf7SJacob Keller }
12480deb0bf7SJacob Keller
1249*0ecff05eSPetr Oros ret = ice_check_vf_ready_for_cfg(vf);
12500deb0bf7SJacob Keller if (ret)
12510deb0bf7SJacob Keller goto out_put_vf;
12520deb0bf7SJacob Keller
12530deb0bf7SJacob Keller mutex_lock(&vf->cfg_lock);
12540deb0bf7SJacob Keller
12550deb0bf7SJacob Keller /* VF is notified of its new MAC via the PF's response to the
12560deb0bf7SJacob Keller * VIRTCHNL_OP_GET_VF_RESOURCES message after the VF has been reset
12570deb0bf7SJacob Keller */
1258e0645311SJacob Keller ether_addr_copy(vf->dev_lan_addr, mac);
1259e0645311SJacob Keller ether_addr_copy(vf->hw_lan_addr, mac);
12600deb0bf7SJacob Keller if (is_zero_ether_addr(mac)) {
12610deb0bf7SJacob Keller /* VF will send VIRTCHNL_OP_ADD_ETH_ADDR message with its MAC */
12620deb0bf7SJacob Keller vf->pf_set_mac = false;
12630deb0bf7SJacob Keller netdev_info(netdev, "Removing MAC on VF %d. VF driver will be reinitialized\n",
12640deb0bf7SJacob Keller vf->vf_id);
12650deb0bf7SJacob Keller } else {
12660deb0bf7SJacob Keller /* PF will add MAC rule for the VF */
12670deb0bf7SJacob Keller vf->pf_set_mac = true;
12680deb0bf7SJacob Keller netdev_info(netdev, "Setting MAC %pM on VF %d. VF driver will be reinitialized\n",
12690deb0bf7SJacob Keller mac, vf_id);
12700deb0bf7SJacob Keller }
12710deb0bf7SJacob Keller
12729dbb33daSJacob Keller ice_reset_vf(vf, ICE_VF_RESET_NOTIFY);
12730deb0bf7SJacob Keller mutex_unlock(&vf->cfg_lock);
12740deb0bf7SJacob Keller
12750deb0bf7SJacob Keller out_put_vf:
12760deb0bf7SJacob Keller ice_put_vf(vf);
12770deb0bf7SJacob Keller return ret;
12780deb0bf7SJacob Keller }
12790deb0bf7SJacob Keller
12800deb0bf7SJacob Keller /**
12810deb0bf7SJacob Keller * ice_set_vf_trust
12820deb0bf7SJacob Keller * @netdev: network interface device structure
12830deb0bf7SJacob Keller * @vf_id: VF identifier
12840deb0bf7SJacob Keller * @trusted: Boolean value to enable/disable trusted VF
12850deb0bf7SJacob Keller *
12860deb0bf7SJacob Keller * Enable or disable a given VF as trusted
12870deb0bf7SJacob Keller */
ice_set_vf_trust(struct net_device * netdev,int vf_id,bool trusted)12880deb0bf7SJacob Keller int ice_set_vf_trust(struct net_device *netdev, int vf_id, bool trusted)
12890deb0bf7SJacob Keller {
12900deb0bf7SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
12910deb0bf7SJacob Keller struct ice_vf *vf;
12920deb0bf7SJacob Keller int ret;
12930deb0bf7SJacob Keller
129483b49e7fSMichal Swiatkowski vf = ice_get_vf_by_id(pf, vf_id);
129583b49e7fSMichal Swiatkowski if (!vf)
129683b49e7fSMichal Swiatkowski return -EINVAL;
129783b49e7fSMichal Swiatkowski
12980deb0bf7SJacob Keller if (ice_is_eswitch_mode_switchdev(pf)) {
12990deb0bf7SJacob Keller dev_info(ice_pf_to_dev(pf), "Trusted VF is forbidden in switchdev mode\n");
13000deb0bf7SJacob Keller return -EOPNOTSUPP;
13010deb0bf7SJacob Keller }
13020deb0bf7SJacob Keller
1303*0ecff05eSPetr Oros ret = ice_check_vf_ready_for_cfg(vf);
13040deb0bf7SJacob Keller if (ret)
13050deb0bf7SJacob Keller goto out_put_vf;
13060deb0bf7SJacob Keller
13070deb0bf7SJacob Keller /* Check if already trusted */
13080deb0bf7SJacob Keller if (trusted == vf->trusted) {
13090deb0bf7SJacob Keller ret = 0;
13100deb0bf7SJacob Keller goto out_put_vf;
13110deb0bf7SJacob Keller }
13120deb0bf7SJacob Keller
13130deb0bf7SJacob Keller mutex_lock(&vf->cfg_lock);
13140deb0bf7SJacob Keller
13150deb0bf7SJacob Keller vf->trusted = trusted;
13169dbb33daSJacob Keller ice_reset_vf(vf, ICE_VF_RESET_NOTIFY);
13170deb0bf7SJacob Keller dev_info(ice_pf_to_dev(pf), "VF %u is now %strusted\n",
13180deb0bf7SJacob Keller vf_id, trusted ? "" : "un");
13190deb0bf7SJacob Keller
13200deb0bf7SJacob Keller mutex_unlock(&vf->cfg_lock);
13210deb0bf7SJacob Keller
13220deb0bf7SJacob Keller out_put_vf:
13230deb0bf7SJacob Keller ice_put_vf(vf);
13240deb0bf7SJacob Keller return ret;
13250deb0bf7SJacob Keller }
13260deb0bf7SJacob Keller
13270deb0bf7SJacob Keller /**
13280deb0bf7SJacob Keller * ice_set_vf_link_state
13290deb0bf7SJacob Keller * @netdev: network interface device structure
13300deb0bf7SJacob Keller * @vf_id: VF identifier
13310deb0bf7SJacob Keller * @link_state: required link state
13320deb0bf7SJacob Keller *
13330deb0bf7SJacob Keller * Set VF's link state, irrespective of physical link state status
13340deb0bf7SJacob Keller */
ice_set_vf_link_state(struct net_device * netdev,int vf_id,int link_state)13350deb0bf7SJacob Keller int ice_set_vf_link_state(struct net_device *netdev, int vf_id, int link_state)
13360deb0bf7SJacob Keller {
13370deb0bf7SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
13380deb0bf7SJacob Keller struct ice_vf *vf;
13390deb0bf7SJacob Keller int ret;
13400deb0bf7SJacob Keller
13410deb0bf7SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
13420deb0bf7SJacob Keller if (!vf)
13430deb0bf7SJacob Keller return -EINVAL;
13440deb0bf7SJacob Keller
13450deb0bf7SJacob Keller ret = ice_check_vf_ready_for_cfg(vf);
13460deb0bf7SJacob Keller if (ret)
13470deb0bf7SJacob Keller goto out_put_vf;
13480deb0bf7SJacob Keller
13490deb0bf7SJacob Keller switch (link_state) {
13500deb0bf7SJacob Keller case IFLA_VF_LINK_STATE_AUTO:
13510deb0bf7SJacob Keller vf->link_forced = false;
13520deb0bf7SJacob Keller break;
13530deb0bf7SJacob Keller case IFLA_VF_LINK_STATE_ENABLE:
13540deb0bf7SJacob Keller vf->link_forced = true;
13550deb0bf7SJacob Keller vf->link_up = true;
13560deb0bf7SJacob Keller break;
13570deb0bf7SJacob Keller case IFLA_VF_LINK_STATE_DISABLE:
13580deb0bf7SJacob Keller vf->link_forced = true;
13590deb0bf7SJacob Keller vf->link_up = false;
13600deb0bf7SJacob Keller break;
13610deb0bf7SJacob Keller default:
13620deb0bf7SJacob Keller ret = -EINVAL;
13630deb0bf7SJacob Keller goto out_put_vf;
13640deb0bf7SJacob Keller }
13650deb0bf7SJacob Keller
13660deb0bf7SJacob Keller ice_vc_notify_vf_link_state(vf);
13670deb0bf7SJacob Keller
13680deb0bf7SJacob Keller out_put_vf:
13690deb0bf7SJacob Keller ice_put_vf(vf);
13700deb0bf7SJacob Keller return ret;
13710deb0bf7SJacob Keller }
13720deb0bf7SJacob Keller
13730deb0bf7SJacob Keller /**
13740deb0bf7SJacob Keller * ice_calc_all_vfs_min_tx_rate - calculate cumulative min Tx rate on all VFs
13750deb0bf7SJacob Keller * @pf: PF associated with VFs
13760deb0bf7SJacob Keller */
ice_calc_all_vfs_min_tx_rate(struct ice_pf * pf)13770deb0bf7SJacob Keller static int ice_calc_all_vfs_min_tx_rate(struct ice_pf *pf)
13780deb0bf7SJacob Keller {
13790deb0bf7SJacob Keller struct ice_vf *vf;
13800deb0bf7SJacob Keller unsigned int bkt;
13810deb0bf7SJacob Keller int rate = 0;
13820deb0bf7SJacob Keller
13830deb0bf7SJacob Keller rcu_read_lock();
13840deb0bf7SJacob Keller ice_for_each_vf_rcu(pf, bkt, vf)
13850deb0bf7SJacob Keller rate += vf->min_tx_rate;
13860deb0bf7SJacob Keller rcu_read_unlock();
13870deb0bf7SJacob Keller
13880deb0bf7SJacob Keller return rate;
13890deb0bf7SJacob Keller }
13900deb0bf7SJacob Keller
13910deb0bf7SJacob Keller /**
13920deb0bf7SJacob Keller * ice_min_tx_rate_oversubscribed - check if min Tx rate causes oversubscription
13930deb0bf7SJacob Keller * @vf: VF trying to configure min_tx_rate
13940deb0bf7SJacob Keller * @min_tx_rate: min Tx rate in Mbps
13950deb0bf7SJacob Keller *
13960deb0bf7SJacob Keller * Check if the min_tx_rate being passed in will cause oversubscription of total
13970deb0bf7SJacob Keller * min_tx_rate based on the current link speed and all other VFs configured
13980deb0bf7SJacob Keller * min_tx_rate
13990deb0bf7SJacob Keller *
14000deb0bf7SJacob Keller * Return true if the passed min_tx_rate would cause oversubscription, else
14010deb0bf7SJacob Keller * return false
14020deb0bf7SJacob Keller */
14030deb0bf7SJacob Keller static bool
ice_min_tx_rate_oversubscribed(struct ice_vf * vf,int min_tx_rate)14040deb0bf7SJacob Keller ice_min_tx_rate_oversubscribed(struct ice_vf *vf, int min_tx_rate)
14050deb0bf7SJacob Keller {
1406baeb705fSJacob Keller struct ice_vsi *vsi = ice_get_vf_vsi(vf);
1407baeb705fSJacob Keller int all_vfs_min_tx_rate;
1408baeb705fSJacob Keller int link_speed_mbps;
1409baeb705fSJacob Keller
1410baeb705fSJacob Keller if (WARN_ON(!vsi))
1411baeb705fSJacob Keller return false;
1412baeb705fSJacob Keller
1413baeb705fSJacob Keller link_speed_mbps = ice_get_link_speed_mbps(vsi);
1414baeb705fSJacob Keller all_vfs_min_tx_rate = ice_calc_all_vfs_min_tx_rate(vf->pf);
14150deb0bf7SJacob Keller
14160deb0bf7SJacob Keller /* this VF's previous rate is being overwritten */
14170deb0bf7SJacob Keller all_vfs_min_tx_rate -= vf->min_tx_rate;
14180deb0bf7SJacob Keller
14190deb0bf7SJacob Keller if (all_vfs_min_tx_rate + min_tx_rate > link_speed_mbps) {
14200deb0bf7SJacob Keller dev_err(ice_pf_to_dev(vf->pf), "min_tx_rate of %d Mbps on VF %u would cause oversubscription of %d Mbps based on the current link speed %d Mbps\n",
14210deb0bf7SJacob Keller min_tx_rate, vf->vf_id,
14220deb0bf7SJacob Keller all_vfs_min_tx_rate + min_tx_rate - link_speed_mbps,
14230deb0bf7SJacob Keller link_speed_mbps);
14240deb0bf7SJacob Keller return true;
14250deb0bf7SJacob Keller }
14260deb0bf7SJacob Keller
14270deb0bf7SJacob Keller return false;
14280deb0bf7SJacob Keller }
14290deb0bf7SJacob Keller
14300deb0bf7SJacob Keller /**
14310deb0bf7SJacob Keller * ice_set_vf_bw - set min/max VF bandwidth
14320deb0bf7SJacob Keller * @netdev: network interface device structure
14330deb0bf7SJacob Keller * @vf_id: VF identifier
14340deb0bf7SJacob Keller * @min_tx_rate: Minimum Tx rate in Mbps
14350deb0bf7SJacob Keller * @max_tx_rate: Maximum Tx rate in Mbps
14360deb0bf7SJacob Keller */
14370deb0bf7SJacob Keller int
ice_set_vf_bw(struct net_device * netdev,int vf_id,int min_tx_rate,int max_tx_rate)14380deb0bf7SJacob Keller ice_set_vf_bw(struct net_device *netdev, int vf_id, int min_tx_rate,
14390deb0bf7SJacob Keller int max_tx_rate)
14400deb0bf7SJacob Keller {
14410deb0bf7SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
14420deb0bf7SJacob Keller struct ice_vsi *vsi;
14430deb0bf7SJacob Keller struct device *dev;
14440deb0bf7SJacob Keller struct ice_vf *vf;
14450deb0bf7SJacob Keller int ret;
14460deb0bf7SJacob Keller
14470deb0bf7SJacob Keller dev = ice_pf_to_dev(pf);
14480deb0bf7SJacob Keller
14490deb0bf7SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
14500deb0bf7SJacob Keller if (!vf)
14510deb0bf7SJacob Keller return -EINVAL;
14520deb0bf7SJacob Keller
14530deb0bf7SJacob Keller ret = ice_check_vf_ready_for_cfg(vf);
14540deb0bf7SJacob Keller if (ret)
14550deb0bf7SJacob Keller goto out_put_vf;
14560deb0bf7SJacob Keller
14570deb0bf7SJacob Keller vsi = ice_get_vf_vsi(vf);
1458baeb705fSJacob Keller if (!vsi) {
1459baeb705fSJacob Keller ret = -EINVAL;
1460baeb705fSJacob Keller goto out_put_vf;
1461baeb705fSJacob Keller }
14620deb0bf7SJacob Keller
14630deb0bf7SJacob Keller if (min_tx_rate && ice_is_dcb_active(pf)) {
14640deb0bf7SJacob Keller dev_err(dev, "DCB on PF is currently enabled. VF min Tx rate limiting not allowed on this PF.\n");
14650deb0bf7SJacob Keller ret = -EOPNOTSUPP;
14660deb0bf7SJacob Keller goto out_put_vf;
14670deb0bf7SJacob Keller }
14680deb0bf7SJacob Keller
14690deb0bf7SJacob Keller if (ice_min_tx_rate_oversubscribed(vf, min_tx_rate)) {
14700deb0bf7SJacob Keller ret = -EINVAL;
14710deb0bf7SJacob Keller goto out_put_vf;
14720deb0bf7SJacob Keller }
14730deb0bf7SJacob Keller
14740deb0bf7SJacob Keller if (vf->min_tx_rate != (unsigned int)min_tx_rate) {
14750deb0bf7SJacob Keller ret = ice_set_min_bw_limit(vsi, (u64)min_tx_rate * 1000);
14760deb0bf7SJacob Keller if (ret) {
14770deb0bf7SJacob Keller dev_err(dev, "Unable to set min-tx-rate for VF %d\n",
14780deb0bf7SJacob Keller vf->vf_id);
14790deb0bf7SJacob Keller goto out_put_vf;
14800deb0bf7SJacob Keller }
14810deb0bf7SJacob Keller
14820deb0bf7SJacob Keller vf->min_tx_rate = min_tx_rate;
14830deb0bf7SJacob Keller }
14840deb0bf7SJacob Keller
14850deb0bf7SJacob Keller if (vf->max_tx_rate != (unsigned int)max_tx_rate) {
14860deb0bf7SJacob Keller ret = ice_set_max_bw_limit(vsi, (u64)max_tx_rate * 1000);
14870deb0bf7SJacob Keller if (ret) {
14880deb0bf7SJacob Keller dev_err(dev, "Unable to set max-tx-rate for VF %d\n",
14890deb0bf7SJacob Keller vf->vf_id);
14900deb0bf7SJacob Keller goto out_put_vf;
14910deb0bf7SJacob Keller }
14920deb0bf7SJacob Keller
14930deb0bf7SJacob Keller vf->max_tx_rate = max_tx_rate;
14940deb0bf7SJacob Keller }
14950deb0bf7SJacob Keller
14960deb0bf7SJacob Keller out_put_vf:
14970deb0bf7SJacob Keller ice_put_vf(vf);
14980deb0bf7SJacob Keller return ret;
14990deb0bf7SJacob Keller }
15000deb0bf7SJacob Keller
15010deb0bf7SJacob Keller /**
15020deb0bf7SJacob Keller * ice_get_vf_stats - populate some stats for the VF
15030deb0bf7SJacob Keller * @netdev: the netdev of the PF
15040deb0bf7SJacob Keller * @vf_id: the host OS identifier (0-255)
15050deb0bf7SJacob Keller * @vf_stats: pointer to the OS memory to be initialized
15060deb0bf7SJacob Keller */
ice_get_vf_stats(struct net_device * netdev,int vf_id,struct ifla_vf_stats * vf_stats)15070deb0bf7SJacob Keller int ice_get_vf_stats(struct net_device *netdev, int vf_id,
15080deb0bf7SJacob Keller struct ifla_vf_stats *vf_stats)
15090deb0bf7SJacob Keller {
15100deb0bf7SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
15110deb0bf7SJacob Keller struct ice_eth_stats *stats;
15120deb0bf7SJacob Keller struct ice_vsi *vsi;
15130deb0bf7SJacob Keller struct ice_vf *vf;
15140deb0bf7SJacob Keller int ret;
15150deb0bf7SJacob Keller
15160deb0bf7SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
15170deb0bf7SJacob Keller if (!vf)
15180deb0bf7SJacob Keller return -EINVAL;
15190deb0bf7SJacob Keller
15200deb0bf7SJacob Keller ret = ice_check_vf_ready_for_cfg(vf);
15210deb0bf7SJacob Keller if (ret)
15220deb0bf7SJacob Keller goto out_put_vf;
15230deb0bf7SJacob Keller
15240deb0bf7SJacob Keller vsi = ice_get_vf_vsi(vf);
15250deb0bf7SJacob Keller if (!vsi) {
15260deb0bf7SJacob Keller ret = -EINVAL;
15270deb0bf7SJacob Keller goto out_put_vf;
15280deb0bf7SJacob Keller }
15290deb0bf7SJacob Keller
15300deb0bf7SJacob Keller ice_update_eth_stats(vsi);
15310deb0bf7SJacob Keller stats = &vsi->eth_stats;
15320deb0bf7SJacob Keller
15330deb0bf7SJacob Keller memset(vf_stats, 0, sizeof(*vf_stats));
15340deb0bf7SJacob Keller
15350deb0bf7SJacob Keller vf_stats->rx_packets = stats->rx_unicast + stats->rx_broadcast +
15360deb0bf7SJacob Keller stats->rx_multicast;
15370deb0bf7SJacob Keller vf_stats->tx_packets = stats->tx_unicast + stats->tx_broadcast +
15380deb0bf7SJacob Keller stats->tx_multicast;
15390deb0bf7SJacob Keller vf_stats->rx_bytes = stats->rx_bytes;
15400deb0bf7SJacob Keller vf_stats->tx_bytes = stats->tx_bytes;
15410deb0bf7SJacob Keller vf_stats->broadcast = stats->rx_broadcast;
15420deb0bf7SJacob Keller vf_stats->multicast = stats->rx_multicast;
15430deb0bf7SJacob Keller vf_stats->rx_dropped = stats->rx_discards;
15440deb0bf7SJacob Keller vf_stats->tx_dropped = stats->tx_discards;
15450deb0bf7SJacob Keller
15460deb0bf7SJacob Keller out_put_vf:
15470deb0bf7SJacob Keller ice_put_vf(vf);
15480deb0bf7SJacob Keller return ret;
15490deb0bf7SJacob Keller }
15500deb0bf7SJacob Keller
15510deb0bf7SJacob Keller /**
1552346f7aa3SJacob Keller * ice_is_supported_port_vlan_proto - make sure the vlan_proto is supported
1553346f7aa3SJacob Keller * @hw: hardware structure used to check the VLAN mode
1554346f7aa3SJacob Keller * @vlan_proto: VLAN TPID being checked
1555346f7aa3SJacob Keller *
1556346f7aa3SJacob Keller * If the device is configured in Double VLAN Mode (DVM), then both ETH_P_8021Q
1557346f7aa3SJacob Keller * and ETH_P_8021AD are supported. If the device is configured in Single VLAN
1558346f7aa3SJacob Keller * Mode (SVM), then only ETH_P_8021Q is supported.
1559346f7aa3SJacob Keller */
1560346f7aa3SJacob Keller static bool
ice_is_supported_port_vlan_proto(struct ice_hw * hw,u16 vlan_proto)1561346f7aa3SJacob Keller ice_is_supported_port_vlan_proto(struct ice_hw *hw, u16 vlan_proto)
1562346f7aa3SJacob Keller {
1563346f7aa3SJacob Keller bool is_supported = false;
1564346f7aa3SJacob Keller
1565346f7aa3SJacob Keller switch (vlan_proto) {
1566346f7aa3SJacob Keller case ETH_P_8021Q:
1567346f7aa3SJacob Keller is_supported = true;
1568346f7aa3SJacob Keller break;
1569346f7aa3SJacob Keller case ETH_P_8021AD:
1570346f7aa3SJacob Keller if (ice_is_dvm_ena(hw))
1571346f7aa3SJacob Keller is_supported = true;
1572346f7aa3SJacob Keller break;
1573346f7aa3SJacob Keller }
1574346f7aa3SJacob Keller
1575346f7aa3SJacob Keller return is_supported;
1576346f7aa3SJacob Keller }
1577346f7aa3SJacob Keller
1578346f7aa3SJacob Keller /**
1579346f7aa3SJacob Keller * ice_set_vf_port_vlan
1580346f7aa3SJacob Keller * @netdev: network interface device structure
1581346f7aa3SJacob Keller * @vf_id: VF identifier
1582346f7aa3SJacob Keller * @vlan_id: VLAN ID being set
1583346f7aa3SJacob Keller * @qos: priority setting
1584346f7aa3SJacob Keller * @vlan_proto: VLAN protocol
1585346f7aa3SJacob Keller *
1586346f7aa3SJacob Keller * program VF Port VLAN ID and/or QoS
1587346f7aa3SJacob Keller */
1588346f7aa3SJacob Keller int
ice_set_vf_port_vlan(struct net_device * netdev,int vf_id,u16 vlan_id,u8 qos,__be16 vlan_proto)1589346f7aa3SJacob Keller ice_set_vf_port_vlan(struct net_device *netdev, int vf_id, u16 vlan_id, u8 qos,
1590346f7aa3SJacob Keller __be16 vlan_proto)
1591346f7aa3SJacob Keller {
1592346f7aa3SJacob Keller struct ice_pf *pf = ice_netdev_to_pf(netdev);
1593346f7aa3SJacob Keller u16 local_vlan_proto = ntohs(vlan_proto);
1594346f7aa3SJacob Keller struct device *dev;
1595346f7aa3SJacob Keller struct ice_vf *vf;
1596346f7aa3SJacob Keller int ret;
1597346f7aa3SJacob Keller
1598346f7aa3SJacob Keller dev = ice_pf_to_dev(pf);
1599346f7aa3SJacob Keller
1600346f7aa3SJacob Keller if (vlan_id >= VLAN_N_VID || qos > 7) {
1601346f7aa3SJacob Keller dev_err(dev, "Invalid Port VLAN parameters for VF %d, ID %d, QoS %d\n",
1602346f7aa3SJacob Keller vf_id, vlan_id, qos);
1603346f7aa3SJacob Keller return -EINVAL;
1604346f7aa3SJacob Keller }
1605346f7aa3SJacob Keller
1606346f7aa3SJacob Keller if (!ice_is_supported_port_vlan_proto(&pf->hw, local_vlan_proto)) {
1607346f7aa3SJacob Keller dev_err(dev, "VF VLAN protocol 0x%04x is not supported\n",
1608346f7aa3SJacob Keller local_vlan_proto);
1609346f7aa3SJacob Keller return -EPROTONOSUPPORT;
1610346f7aa3SJacob Keller }
1611346f7aa3SJacob Keller
1612346f7aa3SJacob Keller vf = ice_get_vf_by_id(pf, vf_id);
1613346f7aa3SJacob Keller if (!vf)
1614346f7aa3SJacob Keller return -EINVAL;
1615346f7aa3SJacob Keller
1616*0ecff05eSPetr Oros ret = ice_check_vf_ready_for_cfg(vf);
1617346f7aa3SJacob Keller if (ret)
1618346f7aa3SJacob Keller goto out_put_vf;
1619346f7aa3SJacob Keller
1620346f7aa3SJacob Keller if (ice_vf_get_port_vlan_prio(vf) == qos &&
1621346f7aa3SJacob Keller ice_vf_get_port_vlan_tpid(vf) == local_vlan_proto &&
1622346f7aa3SJacob Keller ice_vf_get_port_vlan_id(vf) == vlan_id) {
1623346f7aa3SJacob Keller /* duplicate request, so just return success */
1624346f7aa3SJacob Keller dev_dbg(dev, "Duplicate port VLAN %u, QoS %u, TPID 0x%04x request\n",
1625346f7aa3SJacob Keller vlan_id, qos, local_vlan_proto);
1626346f7aa3SJacob Keller ret = 0;
1627346f7aa3SJacob Keller goto out_put_vf;
1628346f7aa3SJacob Keller }
1629346f7aa3SJacob Keller
1630346f7aa3SJacob Keller mutex_lock(&vf->cfg_lock);
1631346f7aa3SJacob Keller
1632346f7aa3SJacob Keller vf->port_vlan_info = ICE_VLAN(local_vlan_proto, vlan_id, qos);
1633346f7aa3SJacob Keller if (ice_vf_is_port_vlan_ena(vf))
1634346f7aa3SJacob Keller dev_info(dev, "Setting VLAN %u, QoS %u, TPID 0x%04x on VF %d\n",
1635346f7aa3SJacob Keller vlan_id, qos, local_vlan_proto, vf_id);
1636346f7aa3SJacob Keller else
1637346f7aa3SJacob Keller dev_info(dev, "Clearing port VLAN on VF %d\n", vf_id);
1638346f7aa3SJacob Keller
16399dbb33daSJacob Keller ice_reset_vf(vf, ICE_VF_RESET_NOTIFY);
1640346f7aa3SJacob Keller mutex_unlock(&vf->cfg_lock);
1641346f7aa3SJacob Keller
1642346f7aa3SJacob Keller out_put_vf:
1643346f7aa3SJacob Keller ice_put_vf(vf);
1644346f7aa3SJacob Keller return ret;
1645346f7aa3SJacob Keller }
1646346f7aa3SJacob Keller
1647346f7aa3SJacob Keller /**
16480deb0bf7SJacob Keller * ice_print_vf_rx_mdd_event - print VF Rx malicious driver detect event
16490deb0bf7SJacob Keller * @vf: pointer to the VF structure
16500deb0bf7SJacob Keller */
ice_print_vf_rx_mdd_event(struct ice_vf * vf)16510deb0bf7SJacob Keller void ice_print_vf_rx_mdd_event(struct ice_vf *vf)
16520deb0bf7SJacob Keller {
16530deb0bf7SJacob Keller struct ice_pf *pf = vf->pf;
16540deb0bf7SJacob Keller struct device *dev;
16550deb0bf7SJacob Keller
16560deb0bf7SJacob Keller dev = ice_pf_to_dev(pf);
16570deb0bf7SJacob Keller
16580deb0bf7SJacob Keller dev_info(dev, "%d Rx Malicious Driver Detection events detected on PF %d VF %d MAC %pM. mdd-auto-reset-vfs=%s\n",
16590deb0bf7SJacob Keller vf->mdd_rx_events.count, pf->hw.pf_id, vf->vf_id,
1660e0645311SJacob Keller vf->dev_lan_addr,
16610deb0bf7SJacob Keller test_bit(ICE_FLAG_MDD_AUTO_RESET_VF, pf->flags)
16620deb0bf7SJacob Keller ? "on" : "off");
16630deb0bf7SJacob Keller }
16640deb0bf7SJacob Keller
16650deb0bf7SJacob Keller /**
16660deb0bf7SJacob Keller * ice_print_vfs_mdd_events - print VFs malicious driver detect event
16670deb0bf7SJacob Keller * @pf: pointer to the PF structure
16680deb0bf7SJacob Keller *
16690deb0bf7SJacob Keller * Called from ice_handle_mdd_event to rate limit and print VFs MDD events.
16700deb0bf7SJacob Keller */
ice_print_vfs_mdd_events(struct ice_pf * pf)16710deb0bf7SJacob Keller void ice_print_vfs_mdd_events(struct ice_pf *pf)
16720deb0bf7SJacob Keller {
16730deb0bf7SJacob Keller struct device *dev = ice_pf_to_dev(pf);
16740deb0bf7SJacob Keller struct ice_hw *hw = &pf->hw;
16750deb0bf7SJacob Keller struct ice_vf *vf;
16760deb0bf7SJacob Keller unsigned int bkt;
16770deb0bf7SJacob Keller
16780deb0bf7SJacob Keller /* check that there are pending MDD events to print */
16790deb0bf7SJacob Keller if (!test_and_clear_bit(ICE_MDD_VF_PRINT_PENDING, pf->state))
16800deb0bf7SJacob Keller return;
16810deb0bf7SJacob Keller
16820deb0bf7SJacob Keller /* VF MDD event logs are rate limited to one second intervals */
16830deb0bf7SJacob Keller if (time_is_after_jiffies(pf->vfs.last_printed_mdd_jiffies + HZ * 1))
16840deb0bf7SJacob Keller return;
16850deb0bf7SJacob Keller
16860deb0bf7SJacob Keller pf->vfs.last_printed_mdd_jiffies = jiffies;
16870deb0bf7SJacob Keller
16880deb0bf7SJacob Keller mutex_lock(&pf->vfs.table_lock);
16890deb0bf7SJacob Keller ice_for_each_vf(pf, bkt, vf) {
16900deb0bf7SJacob Keller /* only print Rx MDD event message if there are new events */
16910deb0bf7SJacob Keller if (vf->mdd_rx_events.count != vf->mdd_rx_events.last_printed) {
16920deb0bf7SJacob Keller vf->mdd_rx_events.last_printed =
16930deb0bf7SJacob Keller vf->mdd_rx_events.count;
16940deb0bf7SJacob Keller ice_print_vf_rx_mdd_event(vf);
16950deb0bf7SJacob Keller }
16960deb0bf7SJacob Keller
16970deb0bf7SJacob Keller /* only print Tx MDD event message if there are new events */
16980deb0bf7SJacob Keller if (vf->mdd_tx_events.count != vf->mdd_tx_events.last_printed) {
16990deb0bf7SJacob Keller vf->mdd_tx_events.last_printed =
17000deb0bf7SJacob Keller vf->mdd_tx_events.count;
17010deb0bf7SJacob Keller
17020deb0bf7SJacob Keller dev_info(dev, "%d Tx Malicious Driver Detection events detected on PF %d VF %d MAC %pM.\n",
17030deb0bf7SJacob Keller vf->mdd_tx_events.count, hw->pf_id, vf->vf_id,
1704e0645311SJacob Keller vf->dev_lan_addr);
17050deb0bf7SJacob Keller }
17060deb0bf7SJacob Keller }
17070deb0bf7SJacob Keller mutex_unlock(&pf->vfs.table_lock);
17080deb0bf7SJacob Keller }
17090deb0bf7SJacob Keller
17100deb0bf7SJacob Keller /**
17110deb0bf7SJacob Keller * ice_restore_all_vfs_msi_state - restore VF MSI state after PF FLR
17120deb0bf7SJacob Keller * @pdev: pointer to a pci_dev structure
17130deb0bf7SJacob Keller *
17140deb0bf7SJacob Keller * Called when recovering from a PF FLR to restore interrupt capability to
17150deb0bf7SJacob Keller * the VFs.
17160deb0bf7SJacob Keller */
ice_restore_all_vfs_msi_state(struct pci_dev * pdev)17170deb0bf7SJacob Keller void ice_restore_all_vfs_msi_state(struct pci_dev *pdev)
17180deb0bf7SJacob Keller {
17190deb0bf7SJacob Keller u16 vf_id;
17200deb0bf7SJacob Keller int pos;
17210deb0bf7SJacob Keller
17220deb0bf7SJacob Keller if (!pci_num_vf(pdev))
17230deb0bf7SJacob Keller return;
17240deb0bf7SJacob Keller
17250deb0bf7SJacob Keller pos = pci_find_ext_capability(pdev, PCI_EXT_CAP_ID_SRIOV);
17260deb0bf7SJacob Keller if (pos) {
17270deb0bf7SJacob Keller struct pci_dev *vfdev;
17280deb0bf7SJacob Keller
17290deb0bf7SJacob Keller pci_read_config_word(pdev, pos + PCI_SRIOV_VF_DID,
17300deb0bf7SJacob Keller &vf_id);
17310deb0bf7SJacob Keller vfdev = pci_get_device(pdev->vendor, vf_id, NULL);
17320deb0bf7SJacob Keller while (vfdev) {
17330deb0bf7SJacob Keller if (vfdev->is_virtfn && vfdev->physfn == pdev)
17340deb0bf7SJacob Keller pci_restore_msi_state(vfdev);
17350deb0bf7SJacob Keller vfdev = pci_get_device(pdev->vendor, vf_id,
17360deb0bf7SJacob Keller vfdev);
17370deb0bf7SJacob Keller }
17380deb0bf7SJacob Keller }
17390deb0bf7SJacob Keller }
1740