1ca853deeSEric Joyner /* SPDX-License-Identifier: BSD-3-Clause */ 2ca853deeSEric Joyner /* Copyright (c) 2021, Intel Corporation 3ca853deeSEric Joyner * All rights reserved. 4ca853deeSEric Joyner * 5ca853deeSEric Joyner * Redistribution and use in source and binary forms, with or without 6ca853deeSEric Joyner * modification, are permitted provided that the following conditions are met: 7ca853deeSEric Joyner * 8ca853deeSEric Joyner * 1. Redistributions of source code must retain the above copyright notice, 9ca853deeSEric Joyner * this list of conditions and the following disclaimer. 10ca853deeSEric Joyner * 11ca853deeSEric Joyner * 2. Redistributions in binary form must reproduce the above copyright 12ca853deeSEric Joyner * notice, this list of conditions and the following disclaimer in the 13ca853deeSEric Joyner * documentation and/or other materials provided with the distribution. 14ca853deeSEric Joyner * 15ca853deeSEric Joyner * 3. Neither the name of the Intel Corporation nor the names of its 16ca853deeSEric Joyner * contributors may be used to endorse or promote products derived from 17ca853deeSEric Joyner * this software without specific prior written permission. 18ca853deeSEric Joyner * 19ca853deeSEric Joyner * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" 20ca853deeSEric Joyner * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 21ca853deeSEric Joyner * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 22ca853deeSEric Joyner * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE 23ca853deeSEric Joyner * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24ca853deeSEric Joyner * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25ca853deeSEric Joyner * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26ca853deeSEric Joyner * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27ca853deeSEric Joyner * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28ca853deeSEric Joyner * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29ca853deeSEric Joyner * POSSIBILITY OF SUCH DAMAGE. 30ca853deeSEric Joyner */ 31ca853deeSEric Joyner /*$FreeBSD$*/ 32ca853deeSEric Joyner 33ca853deeSEric Joyner /** 34ca853deeSEric Joyner * @file if_iavf_iflib.c 35ca853deeSEric Joyner * @brief iflib driver implementation 36ca853deeSEric Joyner * 37ca853deeSEric Joyner * Contains the main entry point for the iflib driver implementation. It 38ca853deeSEric Joyner * implements the various ifdi driver methods, and sets up the module and 39ca853deeSEric Joyner * driver values to load an iflib driver. 40ca853deeSEric Joyner */ 41ca853deeSEric Joyner 42ca853deeSEric Joyner #include "iavf_iflib.h" 43ca853deeSEric Joyner #include "iavf_vc_common.h" 44ca853deeSEric Joyner 45ca853deeSEric Joyner #include "iavf_drv_info.h" 46ca853deeSEric Joyner #include "iavf_sysctls_iflib.h" 47ca853deeSEric Joyner 48ca853deeSEric Joyner /********************************************************************* 49ca853deeSEric Joyner * Function prototypes 50ca853deeSEric Joyner *********************************************************************/ 51ca853deeSEric Joyner static void *iavf_register(device_t dev); 52ca853deeSEric Joyner static int iavf_if_attach_pre(if_ctx_t ctx); 53ca853deeSEric Joyner static int iavf_if_attach_post(if_ctx_t ctx); 54ca853deeSEric Joyner static int iavf_if_detach(if_ctx_t ctx); 55ca853deeSEric Joyner static int iavf_if_shutdown(if_ctx_t ctx); 56ca853deeSEric Joyner static int iavf_if_suspend(if_ctx_t ctx); 57ca853deeSEric Joyner static int iavf_if_resume(if_ctx_t ctx); 58ca853deeSEric Joyner static int iavf_if_msix_intr_assign(if_ctx_t ctx, int msix); 59ca853deeSEric Joyner static void iavf_if_enable_intr(if_ctx_t ctx); 60ca853deeSEric Joyner static void iavf_if_disable_intr(if_ctx_t ctx); 61ca853deeSEric Joyner static int iavf_if_rx_queue_intr_enable(if_ctx_t ctx, uint16_t rxqid); 62ca853deeSEric Joyner static int iavf_if_tx_queue_intr_enable(if_ctx_t ctx, uint16_t txqid); 63ca853deeSEric Joyner static int iavf_if_tx_queues_alloc(if_ctx_t ctx, caddr_t *vaddrs, uint64_t *paddrs, int ntxqs, int ntxqsets); 64ca853deeSEric Joyner static int iavf_if_rx_queues_alloc(if_ctx_t ctx, caddr_t *vaddrs, uint64_t *paddrs, int nqs, int nqsets); 65ca853deeSEric Joyner static void iavf_if_queues_free(if_ctx_t ctx); 66ca853deeSEric Joyner static void iavf_if_update_admin_status(if_ctx_t ctx); 67ca853deeSEric Joyner static void iavf_if_multi_set(if_ctx_t ctx); 68ca853deeSEric Joyner static int iavf_if_mtu_set(if_ctx_t ctx, uint32_t mtu); 69ca853deeSEric Joyner static void iavf_if_media_status(if_ctx_t ctx, struct ifmediareq *ifmr); 70ca853deeSEric Joyner static int iavf_if_media_change(if_ctx_t ctx); 71ca853deeSEric Joyner static int iavf_if_promisc_set(if_ctx_t ctx, int flags); 72ca853deeSEric Joyner static void iavf_if_timer(if_ctx_t ctx, uint16_t qid); 73ca853deeSEric Joyner static void iavf_if_vlan_register(if_ctx_t ctx, u16 vtag); 74ca853deeSEric Joyner static void iavf_if_vlan_unregister(if_ctx_t ctx, u16 vtag); 75ca853deeSEric Joyner static uint64_t iavf_if_get_counter(if_ctx_t ctx, ift_counter cnt); 76ca853deeSEric Joyner static void iavf_if_init(if_ctx_t ctx); 77ca853deeSEric Joyner static void iavf_if_stop(if_ctx_t ctx); 78ca853deeSEric Joyner 79ca853deeSEric Joyner static int iavf_allocate_pci_resources(struct iavf_sc *); 80ca853deeSEric Joyner static void iavf_free_pci_resources(struct iavf_sc *); 81ca853deeSEric Joyner static void iavf_setup_interface(struct iavf_sc *); 82ca853deeSEric Joyner static void iavf_add_device_sysctls(struct iavf_sc *); 83ca853deeSEric Joyner static void iavf_enable_queue_irq(struct iavf_hw *, int); 84ca853deeSEric Joyner static void iavf_disable_queue_irq(struct iavf_hw *, int); 85ca853deeSEric Joyner static void iavf_stop(struct iavf_sc *); 86ca853deeSEric Joyner 87ca853deeSEric Joyner static int iavf_del_mac_filter(struct iavf_sc *sc, u8 *macaddr); 88ca853deeSEric Joyner static int iavf_msix_que(void *); 89ca853deeSEric Joyner static int iavf_msix_adminq(void *); 90ca853deeSEric Joyner static void iavf_configure_itr(struct iavf_sc *sc); 91ca853deeSEric Joyner 92ca853deeSEric Joyner static int iavf_sysctl_queue_interrupt_table(SYSCTL_HANDLER_ARGS); 93ca853deeSEric Joyner #ifdef IAVF_DEBUG 94ca853deeSEric Joyner static int iavf_sysctl_vf_reset(SYSCTL_HANDLER_ARGS); 95ca853deeSEric Joyner static int iavf_sysctl_vflr_reset(SYSCTL_HANDLER_ARGS); 96ca853deeSEric Joyner #endif 97ca853deeSEric Joyner 98ca853deeSEric Joyner static enum iavf_status iavf_process_adminq(struct iavf_sc *, u16 *); 99ca853deeSEric Joyner static void iavf_vc_task(void *arg, int pending __unused); 100ca853deeSEric Joyner static int iavf_setup_vc_tq(struct iavf_sc *sc); 101ca853deeSEric Joyner static int iavf_vc_sleep_wait(struct iavf_sc *sc, u32 op); 102ca853deeSEric Joyner 103ca853deeSEric Joyner /********************************************************************* 104ca853deeSEric Joyner * FreeBSD Device Interface Entry Points 105ca853deeSEric Joyner *********************************************************************/ 106ca853deeSEric Joyner 107ca853deeSEric Joyner /** 108ca853deeSEric Joyner * @var iavf_methods 109ca853deeSEric Joyner * @brief device methods for the iavf driver 110ca853deeSEric Joyner * 111ca853deeSEric Joyner * Device method callbacks used to interact with the driver. For iflib this 112ca853deeSEric Joyner * primarily resolves to the default iflib implementations. 113ca853deeSEric Joyner */ 114ca853deeSEric Joyner static device_method_t iavf_methods[] = { 115ca853deeSEric Joyner /* Device interface */ 116ca853deeSEric Joyner DEVMETHOD(device_register, iavf_register), 117ca853deeSEric Joyner DEVMETHOD(device_probe, iflib_device_probe), 118ca853deeSEric Joyner DEVMETHOD(device_attach, iflib_device_attach), 119ca853deeSEric Joyner DEVMETHOD(device_detach, iflib_device_detach), 120ca853deeSEric Joyner DEVMETHOD(device_shutdown, iflib_device_shutdown), 121ca853deeSEric Joyner DEVMETHOD_END 122ca853deeSEric Joyner }; 123ca853deeSEric Joyner 124ca853deeSEric Joyner static driver_t iavf_driver = { 125ca853deeSEric Joyner "iavf", iavf_methods, sizeof(struct iavf_sc), 126ca853deeSEric Joyner }; 127ca853deeSEric Joyner 128*83c0a9e8SJohn Baldwin DRIVER_MODULE(iavf, pci, iavf_driver, 0, 0); 129ca853deeSEric Joyner MODULE_VERSION(iavf, 1); 130ca853deeSEric Joyner 131ca853deeSEric Joyner MODULE_DEPEND(iavf, pci, 1, 1, 1); 132ca853deeSEric Joyner MODULE_DEPEND(iavf, ether, 1, 1, 1); 133ca853deeSEric Joyner MODULE_DEPEND(iavf, iflib, 1, 1, 1); 134ca853deeSEric Joyner 135ca853deeSEric Joyner IFLIB_PNP_INFO(pci, iavf, iavf_vendor_info_array); 136ca853deeSEric Joyner 137ca853deeSEric Joyner /** 138ca853deeSEric Joyner * @var M_IAVF 139ca853deeSEric Joyner * @brief main iavf driver allocation type 140ca853deeSEric Joyner * 141ca853deeSEric Joyner * malloc(9) allocation type used by the majority of memory allocations in the 142ca853deeSEric Joyner * iavf iflib driver. 143ca853deeSEric Joyner */ 144ca853deeSEric Joyner MALLOC_DEFINE(M_IAVF, "iavf", "iavf driver allocations"); 145ca853deeSEric Joyner 146ca853deeSEric Joyner static device_method_t iavf_if_methods[] = { 147ca853deeSEric Joyner DEVMETHOD(ifdi_attach_pre, iavf_if_attach_pre), 148ca853deeSEric Joyner DEVMETHOD(ifdi_attach_post, iavf_if_attach_post), 149ca853deeSEric Joyner DEVMETHOD(ifdi_detach, iavf_if_detach), 150ca853deeSEric Joyner DEVMETHOD(ifdi_shutdown, iavf_if_shutdown), 151ca853deeSEric Joyner DEVMETHOD(ifdi_suspend, iavf_if_suspend), 152ca853deeSEric Joyner DEVMETHOD(ifdi_resume, iavf_if_resume), 153ca853deeSEric Joyner DEVMETHOD(ifdi_init, iavf_if_init), 154ca853deeSEric Joyner DEVMETHOD(ifdi_stop, iavf_if_stop), 155ca853deeSEric Joyner DEVMETHOD(ifdi_msix_intr_assign, iavf_if_msix_intr_assign), 156ca853deeSEric Joyner DEVMETHOD(ifdi_intr_enable, iavf_if_enable_intr), 157ca853deeSEric Joyner DEVMETHOD(ifdi_intr_disable, iavf_if_disable_intr), 158ca853deeSEric Joyner DEVMETHOD(ifdi_rx_queue_intr_enable, iavf_if_rx_queue_intr_enable), 159ca853deeSEric Joyner DEVMETHOD(ifdi_tx_queue_intr_enable, iavf_if_tx_queue_intr_enable), 160ca853deeSEric Joyner DEVMETHOD(ifdi_tx_queues_alloc, iavf_if_tx_queues_alloc), 161ca853deeSEric Joyner DEVMETHOD(ifdi_rx_queues_alloc, iavf_if_rx_queues_alloc), 162ca853deeSEric Joyner DEVMETHOD(ifdi_queues_free, iavf_if_queues_free), 163ca853deeSEric Joyner DEVMETHOD(ifdi_update_admin_status, iavf_if_update_admin_status), 164ca853deeSEric Joyner DEVMETHOD(ifdi_multi_set, iavf_if_multi_set), 165ca853deeSEric Joyner DEVMETHOD(ifdi_mtu_set, iavf_if_mtu_set), 166ca853deeSEric Joyner DEVMETHOD(ifdi_media_status, iavf_if_media_status), 167ca853deeSEric Joyner DEVMETHOD(ifdi_media_change, iavf_if_media_change), 168ca853deeSEric Joyner DEVMETHOD(ifdi_promisc_set, iavf_if_promisc_set), 169ca853deeSEric Joyner DEVMETHOD(ifdi_timer, iavf_if_timer), 170ca853deeSEric Joyner DEVMETHOD(ifdi_vlan_register, iavf_if_vlan_register), 171ca853deeSEric Joyner DEVMETHOD(ifdi_vlan_unregister, iavf_if_vlan_unregister), 172ca853deeSEric Joyner DEVMETHOD(ifdi_get_counter, iavf_if_get_counter), 173ca853deeSEric Joyner DEVMETHOD_END 174ca853deeSEric Joyner }; 175ca853deeSEric Joyner 176ca853deeSEric Joyner static driver_t iavf_if_driver = { 177ca853deeSEric Joyner "iavf_if", iavf_if_methods, sizeof(struct iavf_sc) 178ca853deeSEric Joyner }; 179ca853deeSEric Joyner 180ca853deeSEric Joyner extern struct if_txrx iavf_txrx_hwb; 181ca853deeSEric Joyner extern struct if_txrx iavf_txrx_dwb; 182ca853deeSEric Joyner 183ca853deeSEric Joyner static struct if_shared_ctx iavf_sctx = { 184ca853deeSEric Joyner .isc_magic = IFLIB_MAGIC, 185ca853deeSEric Joyner .isc_q_align = PAGE_SIZE, 186ca853deeSEric Joyner .isc_tx_maxsize = IAVF_MAX_FRAME, 187ca853deeSEric Joyner .isc_tx_maxsegsize = IAVF_MAX_FRAME, 188ca853deeSEric Joyner .isc_tso_maxsize = IAVF_TSO_SIZE + sizeof(struct ether_vlan_header), 189ca853deeSEric Joyner .isc_tso_maxsegsize = IAVF_MAX_DMA_SEG_SIZE, 190ca853deeSEric Joyner .isc_rx_maxsize = IAVF_MAX_FRAME, 191ca853deeSEric Joyner .isc_rx_nsegments = IAVF_MAX_RX_SEGS, 192ca853deeSEric Joyner .isc_rx_maxsegsize = IAVF_MAX_FRAME, 193ca853deeSEric Joyner .isc_nfl = 1, 194ca853deeSEric Joyner .isc_ntxqs = 1, 195ca853deeSEric Joyner .isc_nrxqs = 1, 196ca853deeSEric Joyner 197ca853deeSEric Joyner .isc_admin_intrcnt = 1, 198ca853deeSEric Joyner .isc_vendor_info = iavf_vendor_info_array, 199ca853deeSEric Joyner .isc_driver_version = __DECONST(char *, iavf_driver_version), 200ca853deeSEric Joyner .isc_driver = &iavf_if_driver, 201ca853deeSEric Joyner .isc_flags = IFLIB_NEED_SCRATCH | IFLIB_NEED_ZERO_CSUM | IFLIB_TSO_INIT_IP | IFLIB_IS_VF, 202ca853deeSEric Joyner 203ca853deeSEric Joyner .isc_nrxd_min = {IAVF_MIN_RING}, 204ca853deeSEric Joyner .isc_ntxd_min = {IAVF_MIN_RING}, 205ca853deeSEric Joyner .isc_nrxd_max = {IAVF_MAX_RING}, 206ca853deeSEric Joyner .isc_ntxd_max = {IAVF_MAX_RING}, 207ca853deeSEric Joyner .isc_nrxd_default = {IAVF_DEFAULT_RING}, 208ca853deeSEric Joyner .isc_ntxd_default = {IAVF_DEFAULT_RING}, 209ca853deeSEric Joyner }; 210ca853deeSEric Joyner 211ca853deeSEric Joyner /*** Functions ***/ 212ca853deeSEric Joyner 213ca853deeSEric Joyner /** 214ca853deeSEric Joyner * iavf_register - iflib callback to obtain the shared context pointer 215ca853deeSEric Joyner * @dev: the device being registered 216ca853deeSEric Joyner * 217ca853deeSEric Joyner * Called when the driver is first being attached to the driver. This function 218ca853deeSEric Joyner * is used by iflib to obtain a pointer to the shared context structure which 219ca853deeSEric Joyner * describes the device features. 220ca853deeSEric Joyner * 221ca853deeSEric Joyner * @returns a pointer to the iavf shared context structure. 222ca853deeSEric Joyner */ 223ca853deeSEric Joyner static void * 224ca853deeSEric Joyner iavf_register(device_t dev __unused) 225ca853deeSEric Joyner { 226ca853deeSEric Joyner return (&iavf_sctx); 227ca853deeSEric Joyner } 228ca853deeSEric Joyner 229ca853deeSEric Joyner /** 230ca853deeSEric Joyner * iavf_allocate_pci_resources - Allocate PCI resources 231ca853deeSEric Joyner * @sc: the device private softc 232ca853deeSEric Joyner * 233ca853deeSEric Joyner * Allocate PCI resources used by the iflib driver. 234ca853deeSEric Joyner * 235ca853deeSEric Joyner * @returns zero or a non-zero error code on failure 236ca853deeSEric Joyner */ 237ca853deeSEric Joyner static int 238ca853deeSEric Joyner iavf_allocate_pci_resources(struct iavf_sc *sc) 239ca853deeSEric Joyner { 240ca853deeSEric Joyner return iavf_allocate_pci_resources_common(sc); 241ca853deeSEric Joyner } 242ca853deeSEric Joyner 243ca853deeSEric Joyner /** 244ca853deeSEric Joyner * iavf_if_attach_pre - Begin attaching the device to the driver 245ca853deeSEric Joyner * @ctx: the iflib context pointer 246ca853deeSEric Joyner * 247ca853deeSEric Joyner * Called by iflib to begin the attach process. Allocates resources and 248ca853deeSEric Joyner * initializes the hardware for operation. 249ca853deeSEric Joyner * 250ca853deeSEric Joyner * @returns zero or a non-zero error code on failure. 251ca853deeSEric Joyner */ 252ca853deeSEric Joyner static int 253ca853deeSEric Joyner iavf_if_attach_pre(if_ctx_t ctx) 254ca853deeSEric Joyner { 255ca853deeSEric Joyner device_t dev; 256ca853deeSEric Joyner struct iavf_sc *sc; 257ca853deeSEric Joyner struct iavf_hw *hw; 258ca853deeSEric Joyner struct iavf_vsi *vsi; 259ca853deeSEric Joyner if_softc_ctx_t scctx; 260ca853deeSEric Joyner int error = 0; 261ca853deeSEric Joyner 262ca853deeSEric Joyner /* Setup pointers */ 263ca853deeSEric Joyner dev = iflib_get_dev(ctx); 264ca853deeSEric Joyner sc = iavf_sc_from_ctx(ctx); 265ca853deeSEric Joyner 266ca853deeSEric Joyner vsi = &sc->vsi; 267ca853deeSEric Joyner vsi->back = sc; 268ca853deeSEric Joyner sc->dev = sc->osdep.dev = dev; 269ca853deeSEric Joyner hw = &sc->hw; 270ca853deeSEric Joyner 271ca853deeSEric Joyner vsi->dev = dev; 272ca853deeSEric Joyner vsi->hw = &sc->hw; 273ca853deeSEric Joyner vsi->num_vlans = 0; 274ca853deeSEric Joyner vsi->ctx = ctx; 275ca853deeSEric Joyner sc->media = iflib_get_media(ctx); 276ca853deeSEric Joyner vsi->ifp = iflib_get_ifp(ctx); 277ca853deeSEric Joyner vsi->shared = scctx = iflib_get_softc_ctx(ctx); 278ca853deeSEric Joyner 279ca853deeSEric Joyner iavf_save_tunables(sc); 280ca853deeSEric Joyner 281ca853deeSEric Joyner /* Setup VC mutex */ 282ca853deeSEric Joyner snprintf(sc->vc_mtx_name, sizeof(sc->vc_mtx_name), 283ca853deeSEric Joyner "%s:vc", device_get_nameunit(dev)); 284ca853deeSEric Joyner mtx_init(&sc->vc_mtx, sc->vc_mtx_name, NULL, MTX_DEF); 285ca853deeSEric Joyner 286ca853deeSEric Joyner /* Do PCI setup - map BAR0, etc */ 287ca853deeSEric Joyner error = iavf_allocate_pci_resources(sc); 288ca853deeSEric Joyner if (error) { 289ca853deeSEric Joyner device_printf(dev, "%s: Allocation of PCI resources failed\n", 290ca853deeSEric Joyner __func__); 291ca853deeSEric Joyner goto err_early; 292ca853deeSEric Joyner } 293ca853deeSEric Joyner 294ca853deeSEric Joyner iavf_dbg_init(sc, "Allocated PCI resources and MSI-X vectors\n"); 295ca853deeSEric Joyner 296ca853deeSEric Joyner error = iavf_set_mac_type(hw); 297ca853deeSEric Joyner if (error) { 298ca853deeSEric Joyner device_printf(dev, "%s: set_mac_type failed: %d\n", 299ca853deeSEric Joyner __func__, error); 300ca853deeSEric Joyner goto err_pci_res; 301ca853deeSEric Joyner } 302ca853deeSEric Joyner 303ca853deeSEric Joyner error = iavf_reset_complete(hw); 304ca853deeSEric Joyner if (error) { 305ca853deeSEric Joyner device_printf(dev, "%s: Device is still being reset\n", 306ca853deeSEric Joyner __func__); 307ca853deeSEric Joyner goto err_pci_res; 308ca853deeSEric Joyner } 309ca853deeSEric Joyner 310ca853deeSEric Joyner iavf_dbg_init(sc, "VF Device is ready for configuration\n"); 311ca853deeSEric Joyner 312ca853deeSEric Joyner /* Sets up Admin Queue */ 313ca853deeSEric Joyner error = iavf_setup_vc(sc); 314ca853deeSEric Joyner if (error) { 315ca853deeSEric Joyner device_printf(dev, "%s: Error setting up PF comms, %d\n", 316ca853deeSEric Joyner __func__, error); 317ca853deeSEric Joyner goto err_pci_res; 318ca853deeSEric Joyner } 319ca853deeSEric Joyner 320ca853deeSEric Joyner iavf_dbg_init(sc, "PF API version verified\n"); 321ca853deeSEric Joyner 322ca853deeSEric Joyner /* Need API version before sending reset message */ 323ca853deeSEric Joyner error = iavf_reset(sc); 324ca853deeSEric Joyner if (error) { 325ca853deeSEric Joyner device_printf(dev, "VF reset failed; reload the driver\n"); 326ca853deeSEric Joyner goto err_aq; 327ca853deeSEric Joyner } 328ca853deeSEric Joyner 329ca853deeSEric Joyner iavf_dbg_init(sc, "VF reset complete\n"); 330ca853deeSEric Joyner 331ca853deeSEric Joyner /* Ask for VF config from PF */ 332ca853deeSEric Joyner error = iavf_vf_config(sc); 333ca853deeSEric Joyner if (error) { 334ca853deeSEric Joyner device_printf(dev, "Error getting configuration from PF: %d\n", 335ca853deeSEric Joyner error); 336ca853deeSEric Joyner goto err_aq; 337ca853deeSEric Joyner } 338ca853deeSEric Joyner 339ca853deeSEric Joyner iavf_print_device_info(sc); 340ca853deeSEric Joyner 341ca853deeSEric Joyner error = iavf_get_vsi_res_from_vf_res(sc); 342ca853deeSEric Joyner if (error) 343ca853deeSEric Joyner goto err_res_buf; 344ca853deeSEric Joyner 345ca853deeSEric Joyner iavf_dbg_init(sc, "Resource Acquisition complete\n"); 346ca853deeSEric Joyner 347ca853deeSEric Joyner /* Setup taskqueue to service VC messages */ 348ca853deeSEric Joyner error = iavf_setup_vc_tq(sc); 349ca853deeSEric Joyner if (error) 350ca853deeSEric Joyner goto err_vc_tq; 351ca853deeSEric Joyner 352ca853deeSEric Joyner iavf_set_mac_addresses(sc); 353ca853deeSEric Joyner iflib_set_mac(ctx, hw->mac.addr); 354ca853deeSEric Joyner 355ca853deeSEric Joyner /* Allocate filter lists */ 356ca853deeSEric Joyner iavf_init_filters(sc); 357ca853deeSEric Joyner 358ca853deeSEric Joyner /* Fill out more iflib parameters */ 359ca853deeSEric Joyner scctx->isc_ntxqsets_max = scctx->isc_nrxqsets_max = 360ca853deeSEric Joyner sc->vsi_res->num_queue_pairs; 361ca853deeSEric Joyner if (vsi->enable_head_writeback) { 362ca853deeSEric Joyner scctx->isc_txqsizes[0] = roundup2(scctx->isc_ntxd[0] 363ca853deeSEric Joyner * sizeof(struct iavf_tx_desc) + sizeof(u32), DBA_ALIGN); 364ca853deeSEric Joyner scctx->isc_txrx = &iavf_txrx_hwb; 365ca853deeSEric Joyner } else { 366ca853deeSEric Joyner scctx->isc_txqsizes[0] = roundup2(scctx->isc_ntxd[0] 367ca853deeSEric Joyner * sizeof(struct iavf_tx_desc), DBA_ALIGN); 368ca853deeSEric Joyner scctx->isc_txrx = &iavf_txrx_dwb; 369ca853deeSEric Joyner } 370ca853deeSEric Joyner scctx->isc_rxqsizes[0] = roundup2(scctx->isc_nrxd[0] 371ca853deeSEric Joyner * sizeof(union iavf_32byte_rx_desc), DBA_ALIGN); 372ca853deeSEric Joyner scctx->isc_msix_bar = PCIR_BAR(IAVF_MSIX_BAR); 373ca853deeSEric Joyner scctx->isc_tx_nsegments = IAVF_MAX_TX_SEGS; 374ca853deeSEric Joyner scctx->isc_tx_tso_segments_max = IAVF_MAX_TSO_SEGS; 375ca853deeSEric Joyner scctx->isc_tx_tso_size_max = IAVF_TSO_SIZE; 376ca853deeSEric Joyner scctx->isc_tx_tso_segsize_max = IAVF_MAX_DMA_SEG_SIZE; 377ca853deeSEric Joyner scctx->isc_rss_table_size = IAVF_RSS_VSI_LUT_SIZE; 378ca853deeSEric Joyner scctx->isc_capabilities = scctx->isc_capenable = IAVF_CAPS; 379ca853deeSEric Joyner scctx->isc_tx_csum_flags = CSUM_OFFLOAD; 380ca853deeSEric Joyner 381ca853deeSEric Joyner /* Update OS cache of MSIX control register values */ 382ca853deeSEric Joyner iavf_update_msix_devinfo(dev); 383ca853deeSEric Joyner 384ca853deeSEric Joyner return (0); 385ca853deeSEric Joyner 386ca853deeSEric Joyner err_vc_tq: 387ca853deeSEric Joyner taskqueue_free(sc->vc_tq); 388ca853deeSEric Joyner err_res_buf: 389ca853deeSEric Joyner free(sc->vf_res, M_IAVF); 390ca853deeSEric Joyner err_aq: 391ca853deeSEric Joyner iavf_shutdown_adminq(hw); 392ca853deeSEric Joyner err_pci_res: 393ca853deeSEric Joyner iavf_free_pci_resources(sc); 394ca853deeSEric Joyner err_early: 395ca853deeSEric Joyner IAVF_VC_LOCK_DESTROY(sc); 396ca853deeSEric Joyner return (error); 397ca853deeSEric Joyner } 398ca853deeSEric Joyner 399ca853deeSEric Joyner /** 400ca853deeSEric Joyner * iavf_vc_task - task used to process VC messages 401ca853deeSEric Joyner * @arg: device softc 402ca853deeSEric Joyner * @pending: unused 403ca853deeSEric Joyner * 404ca853deeSEric Joyner * Processes the admin queue, in order to process the virtual 405ca853deeSEric Joyner * channel messages received from the PF. 406ca853deeSEric Joyner */ 407ca853deeSEric Joyner static void 408ca853deeSEric Joyner iavf_vc_task(void *arg, int pending __unused) 409ca853deeSEric Joyner { 410ca853deeSEric Joyner struct iavf_sc *sc = (struct iavf_sc *)arg; 411ca853deeSEric Joyner u16 var; 412ca853deeSEric Joyner 413ca853deeSEric Joyner iavf_process_adminq(sc, &var); 414ca853deeSEric Joyner } 415ca853deeSEric Joyner 416ca853deeSEric Joyner /** 417ca853deeSEric Joyner * iavf_setup_vc_tq - Setup task queues 418ca853deeSEric Joyner * @sc: device softc 419ca853deeSEric Joyner * 420ca853deeSEric Joyner * Create taskqueue and tasklet for processing virtual channel messages. This 421ca853deeSEric Joyner * is done in a separate non-iflib taskqueue so that the iflib context lock 422ca853deeSEric Joyner * does not need to be held for VC messages to be processed. 423ca853deeSEric Joyner * 424ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 425ca853deeSEric Joyner */ 426ca853deeSEric Joyner static int 427ca853deeSEric Joyner iavf_setup_vc_tq(struct iavf_sc *sc) 428ca853deeSEric Joyner { 429ca853deeSEric Joyner device_t dev = sc->dev; 430ca853deeSEric Joyner int error = 0; 431ca853deeSEric Joyner 432ca853deeSEric Joyner TASK_INIT(&sc->vc_task, 0, iavf_vc_task, sc); 433ca853deeSEric Joyner 434ca853deeSEric Joyner sc->vc_tq = taskqueue_create_fast("iavf_vc", M_NOWAIT, 435ca853deeSEric Joyner taskqueue_thread_enqueue, &sc->vc_tq); 436ca853deeSEric Joyner if (!sc->vc_tq) { 437ca853deeSEric Joyner device_printf(dev, "taskqueue_create_fast (for VC task) returned NULL!\n"); 438ca853deeSEric Joyner return (ENOMEM); 439ca853deeSEric Joyner } 440ca853deeSEric Joyner error = taskqueue_start_threads(&sc->vc_tq, 1, PI_NET, "%s vc", 441ca853deeSEric Joyner device_get_nameunit(dev)); 442ca853deeSEric Joyner if (error) { 443ca853deeSEric Joyner device_printf(dev, "taskqueue_start_threads (for VC task) error: %d\n", 444ca853deeSEric Joyner error); 445ca853deeSEric Joyner taskqueue_free(sc->vc_tq); 446ca853deeSEric Joyner return (error); 447ca853deeSEric Joyner } 448ca853deeSEric Joyner 449ca853deeSEric Joyner return (error); 450ca853deeSEric Joyner } 451ca853deeSEric Joyner 452ca853deeSEric Joyner /** 453ca853deeSEric Joyner * iavf_if_attach_post - Finish attaching the device to the driver 454ca853deeSEric Joyner * @ctx: the iflib context pointer 455ca853deeSEric Joyner * 456ca853deeSEric Joyner * Called by iflib after it has setup queues and interrupts. Used to finish up 457ca853deeSEric Joyner * the attach process for a device. Attach logic which must occur after Tx and 458ca853deeSEric Joyner * Rx queues are setup belongs here. 459ca853deeSEric Joyner * 460ca853deeSEric Joyner * @returns zero or a non-zero error code on failure 461ca853deeSEric Joyner */ 462ca853deeSEric Joyner static int 463ca853deeSEric Joyner iavf_if_attach_post(if_ctx_t ctx) 464ca853deeSEric Joyner { 465ee28ad11SJohn Baldwin #ifdef IXL_DEBUG 466ee28ad11SJohn Baldwin device_t dev = iflib_get_dev(ctx); 467ee28ad11SJohn Baldwin #endif 468ca853deeSEric Joyner struct iavf_sc *sc; 469ca853deeSEric Joyner struct iavf_hw *hw; 470ca853deeSEric Joyner struct iavf_vsi *vsi; 471ca853deeSEric Joyner int error = 0; 472ca853deeSEric Joyner 473ca853deeSEric Joyner INIT_DBG_DEV(dev, "begin"); 474ca853deeSEric Joyner 475ca853deeSEric Joyner sc = iavf_sc_from_ctx(ctx); 476ca853deeSEric Joyner vsi = &sc->vsi; 477ca853deeSEric Joyner hw = &sc->hw; 478ca853deeSEric Joyner 479ca853deeSEric Joyner /* Save off determined number of queues for interface */ 480ca853deeSEric Joyner vsi->num_rx_queues = vsi->shared->isc_nrxqsets; 481ca853deeSEric Joyner vsi->num_tx_queues = vsi->shared->isc_ntxqsets; 482ca853deeSEric Joyner 483ca853deeSEric Joyner /* Setup the stack interface */ 484ca853deeSEric Joyner iavf_setup_interface(sc); 485ca853deeSEric Joyner 486ca853deeSEric Joyner iavf_dbg_init(sc, "Interface setup complete\n"); 487ca853deeSEric Joyner 488ca853deeSEric Joyner /* Initialize statistics & add sysctls */ 489ca853deeSEric Joyner bzero(&sc->vsi.eth_stats, sizeof(struct iavf_eth_stats)); 490ca853deeSEric Joyner iavf_add_device_sysctls(sc); 491ca853deeSEric Joyner 492ca853deeSEric Joyner atomic_store_rel_32(&sc->queues_enabled, 0); 493ca853deeSEric Joyner iavf_set_state(&sc->state, IAVF_STATE_INITIALIZED); 494ca853deeSEric Joyner 495ca853deeSEric Joyner /* We want AQ enabled early for init */ 496ca853deeSEric Joyner iavf_enable_adminq_irq(hw); 497ca853deeSEric Joyner 498ca853deeSEric Joyner INIT_DBG_DEV(dev, "end"); 499ca853deeSEric Joyner 500ca853deeSEric Joyner return (error); 501ca853deeSEric Joyner } 502ca853deeSEric Joyner 503ca853deeSEric Joyner /** 504ca853deeSEric Joyner * iavf_if_detach - Detach a device from the driver 505ca853deeSEric Joyner * @ctx: the iflib context of the device to detach 506ca853deeSEric Joyner * 507ca853deeSEric Joyner * Called by iflib to detach a given device from the driver. Clean up any 508ca853deeSEric Joyner * resources associated with the driver and shut the device down. 509ca853deeSEric Joyner * 510ca853deeSEric Joyner * @remark iflib always ignores the return value of IFDI_DETACH, so this 511ca853deeSEric Joyner * function is effectively not allowed to fail. Instead, it should clean up 512ca853deeSEric Joyner * and release as much as possible even if something goes wrong. 513ca853deeSEric Joyner * 514ca853deeSEric Joyner * @returns zero 515ca853deeSEric Joyner */ 516ca853deeSEric Joyner static int 517ca853deeSEric Joyner iavf_if_detach(if_ctx_t ctx) 518ca853deeSEric Joyner { 519ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 520ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 521ca853deeSEric Joyner device_t dev = sc->dev; 522ca853deeSEric Joyner enum iavf_status status; 523ca853deeSEric Joyner 524ca853deeSEric Joyner INIT_DBG_DEV(dev, "begin"); 525ca853deeSEric Joyner 526ca853deeSEric Joyner iavf_clear_state(&sc->state, IAVF_STATE_INITIALIZED); 527ca853deeSEric Joyner 528ca853deeSEric Joyner /* Drain admin queue taskqueue */ 529ca853deeSEric Joyner taskqueue_free(sc->vc_tq); 530ca853deeSEric Joyner IAVF_VC_LOCK_DESTROY(sc); 531ca853deeSEric Joyner 532ca853deeSEric Joyner /* Remove all the media and link information */ 533ca853deeSEric Joyner ifmedia_removeall(sc->media); 534ca853deeSEric Joyner 535ca853deeSEric Joyner iavf_disable_adminq_irq(hw); 536ca853deeSEric Joyner status = iavf_shutdown_adminq(&sc->hw); 537ca853deeSEric Joyner if (status != IAVF_SUCCESS) { 538ca853deeSEric Joyner device_printf(dev, 539ca853deeSEric Joyner "iavf_shutdown_adminq() failed with status %s\n", 540ca853deeSEric Joyner iavf_stat_str(hw, status)); 541ca853deeSEric Joyner } 542ca853deeSEric Joyner 543ca853deeSEric Joyner free(sc->vf_res, M_IAVF); 544ca853deeSEric Joyner sc->vf_res = NULL; 545ca853deeSEric Joyner iavf_free_pci_resources(sc); 546ca853deeSEric Joyner iavf_free_filters(sc); 547ca853deeSEric Joyner 548ca853deeSEric Joyner INIT_DBG_DEV(dev, "end"); 549ca853deeSEric Joyner return (0); 550ca853deeSEric Joyner } 551ca853deeSEric Joyner 552ca853deeSEric Joyner /** 553ca853deeSEric Joyner * iavf_if_shutdown - called by iflib to handle shutdown 554ca853deeSEric Joyner * @ctx: the iflib context pointer 555ca853deeSEric Joyner * 556ca853deeSEric Joyner * Callback for the IFDI_SHUTDOWN iflib function. 557ca853deeSEric Joyner * 558ca853deeSEric Joyner * @returns zero or an error code on failure 559ca853deeSEric Joyner */ 560ca853deeSEric Joyner static int 561ca853deeSEric Joyner iavf_if_shutdown(if_ctx_t ctx __unused) 562ca853deeSEric Joyner { 563ca853deeSEric Joyner return (0); 564ca853deeSEric Joyner } 565ca853deeSEric Joyner 566ca853deeSEric Joyner /** 567ca853deeSEric Joyner * iavf_if_suspend - called by iflib to handle suspend 568ca853deeSEric Joyner * @ctx: the iflib context pointer 569ca853deeSEric Joyner * 570ca853deeSEric Joyner * Callback for the IFDI_SUSPEND iflib function. 571ca853deeSEric Joyner * 572ca853deeSEric Joyner * @returns zero or an error code on failure 573ca853deeSEric Joyner */ 574ca853deeSEric Joyner static int 575ca853deeSEric Joyner iavf_if_suspend(if_ctx_t ctx __unused) 576ca853deeSEric Joyner { 577ca853deeSEric Joyner return (0); 578ca853deeSEric Joyner } 579ca853deeSEric Joyner 580ca853deeSEric Joyner /** 581ca853deeSEric Joyner * iavf_if_resume - called by iflib to handle resume 582ca853deeSEric Joyner * @ctx: the iflib context pointer 583ca853deeSEric Joyner * 584ca853deeSEric Joyner * Callback for the IFDI_RESUME iflib function. 585ca853deeSEric Joyner * 586ca853deeSEric Joyner * @returns zero or an error code on failure 587ca853deeSEric Joyner */ 588ca853deeSEric Joyner static int 589ca853deeSEric Joyner iavf_if_resume(if_ctx_t ctx __unused) 590ca853deeSEric Joyner { 591ca853deeSEric Joyner return (0); 592ca853deeSEric Joyner } 593ca853deeSEric Joyner 594ca853deeSEric Joyner /** 595ca853deeSEric Joyner * iavf_vc_sleep_wait - Sleep for a response from a VC message 596ca853deeSEric Joyner * @sc: device softc 597ca853deeSEric Joyner * @op: the op code to sleep on 598ca853deeSEric Joyner * 599ca853deeSEric Joyner * Sleep until a response from the PF for the VC message sent by the 600ca853deeSEric Joyner * given op. 601ca853deeSEric Joyner * 602ca853deeSEric Joyner * @returns zero on success, or EWOULDBLOCK if the sleep times out. 603ca853deeSEric Joyner */ 604ca853deeSEric Joyner static int 605ca853deeSEric Joyner iavf_vc_sleep_wait(struct iavf_sc *sc, u32 op) 606ca853deeSEric Joyner { 607ca853deeSEric Joyner int error = 0; 608ca853deeSEric Joyner 609ca853deeSEric Joyner IAVF_VC_LOCK_ASSERT(sc); 610ca853deeSEric Joyner 611ca853deeSEric Joyner iavf_dbg_vc(sc, "Sleeping for op %b\n", op, IAVF_FLAGS); 612ca853deeSEric Joyner 613ca853deeSEric Joyner error = mtx_sleep(iavf_vc_get_op_chan(sc, op), 614ca853deeSEric Joyner &sc->vc_mtx, PRI_MAX, "iavf_vc", IAVF_AQ_TIMEOUT); 615ca853deeSEric Joyner 616ca853deeSEric Joyner return (error); 617ca853deeSEric Joyner } 618ca853deeSEric Joyner 619ca853deeSEric Joyner /** 620ca853deeSEric Joyner * iavf_send_vc_msg_sleep - Send a virtchnl message and wait for a response 621ca853deeSEric Joyner * @sc: device softc 622ca853deeSEric Joyner * @op: the op code to send 623ca853deeSEric Joyner * 624ca853deeSEric Joyner * Send a virtchnl message to the PF, and sleep or busy wait for a response 625ca853deeSEric Joyner * from the PF, depending on iflib context lock type. 626ca853deeSEric Joyner * 627ca853deeSEric Joyner * @remark this function does not wait if the device is detaching, on kernels 628ca853deeSEric Joyner * that support indicating to the driver that the device is detaching 629ca853deeSEric Joyner * 630ca853deeSEric Joyner * @returns zero or an error code on failure. 631ca853deeSEric Joyner */ 632ca853deeSEric Joyner int 633ca853deeSEric Joyner iavf_send_vc_msg_sleep(struct iavf_sc *sc, u32 op) 634ca853deeSEric Joyner { 635ca853deeSEric Joyner if_ctx_t ctx = sc->vsi.ctx; 636ca853deeSEric Joyner int error = 0; 637ca853deeSEric Joyner 638ca853deeSEric Joyner IAVF_VC_LOCK(sc); 639ca853deeSEric Joyner error = iavf_vc_send_cmd(sc, op); 640ca853deeSEric Joyner if (error != 0) { 641ca853deeSEric Joyner iavf_dbg_vc(sc, "Error sending %b: %d\n", op, IAVF_FLAGS, error); 642ca853deeSEric Joyner goto release_lock; 643ca853deeSEric Joyner } 644ca853deeSEric Joyner 645ca853deeSEric Joyner /* Don't wait for a response if the device is being detached. */ 646ca853deeSEric Joyner if (!iflib_in_detach(ctx)) { 647ca853deeSEric Joyner error = iavf_vc_sleep_wait(sc, op); 648ca853deeSEric Joyner IAVF_VC_LOCK_ASSERT(sc); 649ca853deeSEric Joyner 650ca853deeSEric Joyner if (error == EWOULDBLOCK) 651ca853deeSEric Joyner device_printf(sc->dev, "%b timed out\n", op, IAVF_FLAGS); 652ca853deeSEric Joyner } 653ca853deeSEric Joyner release_lock: 654ca853deeSEric Joyner IAVF_VC_UNLOCK(sc); 655ca853deeSEric Joyner return (error); 656ca853deeSEric Joyner } 657ca853deeSEric Joyner 658ca853deeSEric Joyner /** 659ca853deeSEric Joyner * iavf_send_vc_msg - Send a virtchnl message to the PF 660ca853deeSEric Joyner * @sc: device softc 661ca853deeSEric Joyner * @op: the op code to send 662ca853deeSEric Joyner * 663ca853deeSEric Joyner * Send a virtchnl message to the PF and do not wait for a response. 664ca853deeSEric Joyner * 665ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 666ca853deeSEric Joyner */ 667ca853deeSEric Joyner int 668ca853deeSEric Joyner iavf_send_vc_msg(struct iavf_sc *sc, u32 op) 669ca853deeSEric Joyner { 670ca853deeSEric Joyner int error = 0; 671ca853deeSEric Joyner 672ca853deeSEric Joyner error = iavf_vc_send_cmd(sc, op); 673ca853deeSEric Joyner if (error != 0) 674ca853deeSEric Joyner iavf_dbg_vc(sc, "Error sending %b: %d\n", op, IAVF_FLAGS, error); 675ca853deeSEric Joyner 676ca853deeSEric Joyner return (error); 677ca853deeSEric Joyner } 678ca853deeSEric Joyner 679ca853deeSEric Joyner /** 680ca853deeSEric Joyner * iavf_init_queues - initialize Tx and Rx queues 681ca853deeSEric Joyner * @vsi: the VSI to initialize 682ca853deeSEric Joyner * 683ca853deeSEric Joyner * Refresh the Tx and Rx ring contents and update the tail pointers for each 684ca853deeSEric Joyner * queue. 685ca853deeSEric Joyner */ 686ca853deeSEric Joyner static void 687ca853deeSEric Joyner iavf_init_queues(struct iavf_vsi *vsi) 688ca853deeSEric Joyner { 689ca853deeSEric Joyner struct iavf_tx_queue *tx_que = vsi->tx_queues; 690ca853deeSEric Joyner struct iavf_rx_queue *rx_que = vsi->rx_queues; 691ca853deeSEric Joyner struct rx_ring *rxr; 692ca853deeSEric Joyner uint32_t mbuf_sz; 693ca853deeSEric Joyner 694ca853deeSEric Joyner mbuf_sz = iflib_get_rx_mbuf_sz(vsi->ctx); 695ca853deeSEric Joyner MPASS(mbuf_sz <= UINT16_MAX); 696ca853deeSEric Joyner 697ca853deeSEric Joyner for (int i = 0; i < vsi->num_tx_queues; i++, tx_que++) 698ca853deeSEric Joyner iavf_init_tx_ring(vsi, tx_que); 699ca853deeSEric Joyner 700ca853deeSEric Joyner for (int i = 0; i < vsi->num_rx_queues; i++, rx_que++) { 701ca853deeSEric Joyner rxr = &rx_que->rxr; 702ca853deeSEric Joyner 703ca853deeSEric Joyner rxr->mbuf_sz = mbuf_sz; 704ca853deeSEric Joyner wr32(vsi->hw, rxr->tail, 0); 705ca853deeSEric Joyner } 706ca853deeSEric Joyner } 707ca853deeSEric Joyner 708ca853deeSEric Joyner /** 709ca853deeSEric Joyner * iavf_if_init - Initialize device for operation 710ca853deeSEric Joyner * @ctx: the iflib context pointer 711ca853deeSEric Joyner * 712ca853deeSEric Joyner * Initializes a device for operation. Called by iflib in response to an 713ca853deeSEric Joyner * interface up event from the stack. 714ca853deeSEric Joyner * 715ca853deeSEric Joyner * @remark this function does not return a value and thus cannot indicate 716ca853deeSEric Joyner * failure to initialize. 717ca853deeSEric Joyner */ 718ca853deeSEric Joyner static void 719ca853deeSEric Joyner iavf_if_init(if_ctx_t ctx) 720ca853deeSEric Joyner { 721ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 722ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 723ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 724ca853deeSEric Joyner if_t ifp = iflib_get_ifp(ctx); 725ca853deeSEric Joyner u8 tmpaddr[ETHER_ADDR_LEN]; 726ca853deeSEric Joyner enum iavf_status status; 727ca853deeSEric Joyner device_t dev = sc->dev; 728ca853deeSEric Joyner int error = 0; 729ca853deeSEric Joyner 730ca853deeSEric Joyner INIT_DBG_IF(ifp, "begin"); 731ca853deeSEric Joyner 732ca853deeSEric Joyner IFLIB_CTX_ASSERT(ctx); 733ca853deeSEric Joyner 734ca853deeSEric Joyner error = iavf_reset_complete(hw); 735ca853deeSEric Joyner if (error) { 736ca853deeSEric Joyner device_printf(sc->dev, "%s: VF reset failed\n", 737ca853deeSEric Joyner __func__); 738ca853deeSEric Joyner } 739ca853deeSEric Joyner 740ca853deeSEric Joyner if (!iavf_check_asq_alive(hw)) { 741ca853deeSEric Joyner iavf_dbg_info(sc, "ASQ is not alive, re-initializing AQ\n"); 742ca853deeSEric Joyner pci_enable_busmaster(dev); 743ca853deeSEric Joyner 744ca853deeSEric Joyner status = iavf_shutdown_adminq(hw); 745ca853deeSEric Joyner if (status != IAVF_SUCCESS) { 746ca853deeSEric Joyner device_printf(dev, 747ca853deeSEric Joyner "%s: iavf_shutdown_adminq failed: %s\n", 748ca853deeSEric Joyner __func__, iavf_stat_str(hw, status)); 749ca853deeSEric Joyner return; 750ca853deeSEric Joyner } 751ca853deeSEric Joyner 752ca853deeSEric Joyner status = iavf_init_adminq(hw); 753ca853deeSEric Joyner if (status != IAVF_SUCCESS) { 754ca853deeSEric Joyner device_printf(dev, 755ca853deeSEric Joyner "%s: iavf_init_adminq failed: %s\n", 756ca853deeSEric Joyner __func__, iavf_stat_str(hw, status)); 757ca853deeSEric Joyner return; 758ca853deeSEric Joyner } 759ca853deeSEric Joyner } 760ca853deeSEric Joyner 761ca853deeSEric Joyner /* Make sure queues are disabled */ 762ca853deeSEric Joyner iavf_disable_queues_with_retries(sc); 763ca853deeSEric Joyner 764ca853deeSEric Joyner bcopy(IF_LLADDR(ifp), tmpaddr, ETHER_ADDR_LEN); 765ca853deeSEric Joyner if (!cmp_etheraddr(hw->mac.addr, tmpaddr) && 766ca853deeSEric Joyner (iavf_validate_mac_addr(tmpaddr) == IAVF_SUCCESS)) { 767ca853deeSEric Joyner error = iavf_del_mac_filter(sc, hw->mac.addr); 768ca853deeSEric Joyner if (error == 0) 769ca853deeSEric Joyner iavf_send_vc_msg(sc, IAVF_FLAG_AQ_DEL_MAC_FILTER); 770ca853deeSEric Joyner 771ca853deeSEric Joyner bcopy(tmpaddr, hw->mac.addr, ETH_ALEN); 772ca853deeSEric Joyner } 773ca853deeSEric Joyner 774ca853deeSEric Joyner error = iavf_add_mac_filter(sc, hw->mac.addr, 0); 775ca853deeSEric Joyner if (!error || error == EEXIST) 776ca853deeSEric Joyner iavf_send_vc_msg(sc, IAVF_FLAG_AQ_ADD_MAC_FILTER); 777ca853deeSEric Joyner iflib_set_mac(ctx, hw->mac.addr); 778ca853deeSEric Joyner 779ca853deeSEric Joyner /* Prepare the queues for operation */ 780ca853deeSEric Joyner iavf_init_queues(vsi); 781ca853deeSEric Joyner 782ca853deeSEric Joyner /* Set initial ITR values */ 783ca853deeSEric Joyner iavf_configure_itr(sc); 784ca853deeSEric Joyner 785ca853deeSEric Joyner iavf_send_vc_msg(sc, IAVF_FLAG_AQ_CONFIGURE_QUEUES); 786ca853deeSEric Joyner 787ca853deeSEric Joyner /* Set up RSS */ 788ca853deeSEric Joyner iavf_config_rss(sc); 789ca853deeSEric Joyner 790ca853deeSEric Joyner /* Map vectors */ 791ca853deeSEric Joyner iavf_send_vc_msg(sc, IAVF_FLAG_AQ_MAP_VECTORS); 792ca853deeSEric Joyner 793ca853deeSEric Joyner /* Init SW TX ring indices */ 794ca853deeSEric Joyner if (vsi->enable_head_writeback) 795ca853deeSEric Joyner iavf_init_tx_cidx(vsi); 796ca853deeSEric Joyner else 797ca853deeSEric Joyner iavf_init_tx_rsqs(vsi); 798ca853deeSEric Joyner 799ca853deeSEric Joyner /* Configure promiscuous mode */ 800ca853deeSEric Joyner iavf_config_promisc(sc, if_getflags(ifp)); 801ca853deeSEric Joyner 802ca853deeSEric Joyner /* Enable queues */ 803ca853deeSEric Joyner iavf_send_vc_msg_sleep(sc, IAVF_FLAG_AQ_ENABLE_QUEUES); 804ca853deeSEric Joyner 805ca853deeSEric Joyner iavf_set_state(&sc->state, IAVF_STATE_RUNNING); 806ca853deeSEric Joyner } 807ca853deeSEric Joyner 808ca853deeSEric Joyner /** 809ca853deeSEric Joyner * iavf_if_msix_intr_assign - Assign MSI-X interrupts 810ca853deeSEric Joyner * @ctx: the iflib context pointer 811ca853deeSEric Joyner * @msix: the number of MSI-X vectors available 812ca853deeSEric Joyner * 813ca853deeSEric Joyner * Called by iflib to assign MSI-X interrupt vectors to queues. Assigns and 814ca853deeSEric Joyner * sets up vectors for each Tx and Rx queue, as well as the administrative 815ca853deeSEric Joyner * control interrupt. 816ca853deeSEric Joyner * 817ca853deeSEric Joyner * @returns zero or an error code on failure 818ca853deeSEric Joyner */ 819ca853deeSEric Joyner static int 820ca853deeSEric Joyner iavf_if_msix_intr_assign(if_ctx_t ctx, int msix __unused) 821ca853deeSEric Joyner { 822ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 823ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 824ca853deeSEric Joyner struct iavf_rx_queue *rx_que = vsi->rx_queues; 825ca853deeSEric Joyner struct iavf_tx_queue *tx_que = vsi->tx_queues; 826ca853deeSEric Joyner int err, i, rid, vector = 0; 827ca853deeSEric Joyner char buf[16]; 828ca853deeSEric Joyner 829ca853deeSEric Joyner MPASS(vsi->shared->isc_nrxqsets > 0); 830ca853deeSEric Joyner MPASS(vsi->shared->isc_ntxqsets > 0); 831ca853deeSEric Joyner 832ca853deeSEric Joyner /* Admin Que is vector 0*/ 833ca853deeSEric Joyner rid = vector + 1; 834ca853deeSEric Joyner err = iflib_irq_alloc_generic(ctx, &vsi->irq, rid, IFLIB_INTR_ADMIN, 835ca853deeSEric Joyner iavf_msix_adminq, sc, 0, "aq"); 836ca853deeSEric Joyner if (err) { 837ca853deeSEric Joyner iflib_irq_free(ctx, &vsi->irq); 838ca853deeSEric Joyner device_printf(iflib_get_dev(ctx), 839ca853deeSEric Joyner "Failed to register Admin Que handler"); 840ca853deeSEric Joyner return (err); 841ca853deeSEric Joyner } 842ca853deeSEric Joyner 843ca853deeSEric Joyner /* Now set up the stations */ 844ca853deeSEric Joyner for (i = 0, vector = 1; i < vsi->shared->isc_nrxqsets; i++, vector++, rx_que++) { 845ca853deeSEric Joyner rid = vector + 1; 846ca853deeSEric Joyner 847ca853deeSEric Joyner snprintf(buf, sizeof(buf), "rxq%d", i); 848ca853deeSEric Joyner err = iflib_irq_alloc_generic(ctx, &rx_que->que_irq, rid, 849ca853deeSEric Joyner IFLIB_INTR_RXTX, iavf_msix_que, rx_que, rx_que->rxr.me, buf); 850ca853deeSEric Joyner if (err) { 851ca853deeSEric Joyner device_printf(iflib_get_dev(ctx), 852ca853deeSEric Joyner "Failed to allocate queue RX int vector %d, err: %d\n", i, err); 853ca853deeSEric Joyner vsi->num_rx_queues = i + 1; 854ca853deeSEric Joyner goto fail; 855ca853deeSEric Joyner } 856ca853deeSEric Joyner rx_que->msix = vector; 857ca853deeSEric Joyner } 858ca853deeSEric Joyner 859ca853deeSEric Joyner bzero(buf, sizeof(buf)); 860ca853deeSEric Joyner 861ca853deeSEric Joyner for (i = 0; i < vsi->shared->isc_ntxqsets; i++, tx_que++) { 862ca853deeSEric Joyner snprintf(buf, sizeof(buf), "txq%d", i); 863ca853deeSEric Joyner iflib_softirq_alloc_generic(ctx, 864ca853deeSEric Joyner &vsi->rx_queues[i % vsi->shared->isc_nrxqsets].que_irq, 865ca853deeSEric Joyner IFLIB_INTR_TX, tx_que, tx_que->txr.me, buf); 866ca853deeSEric Joyner 867ca853deeSEric Joyner tx_que->msix = (i % vsi->shared->isc_nrxqsets) + 1; 868ca853deeSEric Joyner } 869ca853deeSEric Joyner 870ca853deeSEric Joyner return (0); 871ca853deeSEric Joyner fail: 872ca853deeSEric Joyner iflib_irq_free(ctx, &vsi->irq); 873ca853deeSEric Joyner rx_que = vsi->rx_queues; 874ca853deeSEric Joyner for (int i = 0; i < vsi->num_rx_queues; i++, rx_que++) 875ca853deeSEric Joyner iflib_irq_free(ctx, &rx_que->que_irq); 876ca853deeSEric Joyner return (err); 877ca853deeSEric Joyner } 878ca853deeSEric Joyner 879ca853deeSEric Joyner /** 880ca853deeSEric Joyner * iavf_if_enable_intr - Enable all interrupts for a device 881ca853deeSEric Joyner * @ctx: the iflib context pointer 882ca853deeSEric Joyner * 883ca853deeSEric Joyner * Called by iflib to request enabling all interrupts. 884ca853deeSEric Joyner */ 885ca853deeSEric Joyner static void 886ca853deeSEric Joyner iavf_if_enable_intr(if_ctx_t ctx) 887ca853deeSEric Joyner { 888ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 889ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 890ca853deeSEric Joyner 891ca853deeSEric Joyner iavf_enable_intr(vsi); 892ca853deeSEric Joyner } 893ca853deeSEric Joyner 894ca853deeSEric Joyner /** 895ca853deeSEric Joyner * iavf_if_disable_intr - Disable all interrupts for a device 896ca853deeSEric Joyner * @ctx: the iflib context pointer 897ca853deeSEric Joyner * 898ca853deeSEric Joyner * Called by iflib to request disabling all interrupts. 899ca853deeSEric Joyner */ 900ca853deeSEric Joyner static void 901ca853deeSEric Joyner iavf_if_disable_intr(if_ctx_t ctx) 902ca853deeSEric Joyner { 903ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 904ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 905ca853deeSEric Joyner 906ca853deeSEric Joyner iavf_disable_intr(vsi); 907ca853deeSEric Joyner } 908ca853deeSEric Joyner 909ca853deeSEric Joyner /** 910ca853deeSEric Joyner * iavf_if_rx_queue_intr_enable - Enable one Rx queue interrupt 911ca853deeSEric Joyner * @ctx: the iflib context pointer 912ca853deeSEric Joyner * @rxqid: Rx queue index 913ca853deeSEric Joyner * 914ca853deeSEric Joyner * Enables the interrupt associated with a specified Rx queue. 915ca853deeSEric Joyner * 916ca853deeSEric Joyner * @returns zero 917ca853deeSEric Joyner */ 918ca853deeSEric Joyner static int 919ca853deeSEric Joyner iavf_if_rx_queue_intr_enable(if_ctx_t ctx, uint16_t rxqid) 920ca853deeSEric Joyner { 921ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 922ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 923ca853deeSEric Joyner struct iavf_hw *hw = vsi->hw; 924ca853deeSEric Joyner struct iavf_rx_queue *rx_que = &vsi->rx_queues[rxqid]; 925ca853deeSEric Joyner 926ca853deeSEric Joyner iavf_enable_queue_irq(hw, rx_que->msix - 1); 927ca853deeSEric Joyner return (0); 928ca853deeSEric Joyner } 929ca853deeSEric Joyner 930ca853deeSEric Joyner /** 931ca853deeSEric Joyner * iavf_if_tx_queue_intr_enable - Enable one Tx queue interrupt 932ca853deeSEric Joyner * @ctx: the iflib context pointer 933ca853deeSEric Joyner * @txqid: Tx queue index 934ca853deeSEric Joyner * 935ca853deeSEric Joyner * Enables the interrupt associated with a specified Tx queue. 936ca853deeSEric Joyner * 937ca853deeSEric Joyner * @returns zero 938ca853deeSEric Joyner */ 939ca853deeSEric Joyner static int 940ca853deeSEric Joyner iavf_if_tx_queue_intr_enable(if_ctx_t ctx, uint16_t txqid) 941ca853deeSEric Joyner { 942ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 943ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 944ca853deeSEric Joyner struct iavf_hw *hw = vsi->hw; 945ca853deeSEric Joyner struct iavf_tx_queue *tx_que = &vsi->tx_queues[txqid]; 946ca853deeSEric Joyner 947ca853deeSEric Joyner iavf_enable_queue_irq(hw, tx_que->msix - 1); 948ca853deeSEric Joyner return (0); 949ca853deeSEric Joyner } 950ca853deeSEric Joyner 951ca853deeSEric Joyner /** 952ca853deeSEric Joyner * iavf_if_tx_queues_alloc - Allocate Tx queue memory 953ca853deeSEric Joyner * @ctx: the iflib context pointer 954ca853deeSEric Joyner * @vaddrs: Array of virtual addresses 955ca853deeSEric Joyner * @paddrs: Array of physical addresses 956ca853deeSEric Joyner * @ntxqs: the number of Tx queues per group (should always be 1) 957ca853deeSEric Joyner * @ntxqsets: the number of Tx queues 958ca853deeSEric Joyner * 959ca853deeSEric Joyner * Allocates memory for the specified number of Tx queues. This includes 960ca853deeSEric Joyner * memory for the queue structures and the report status array for the queues. 961ca853deeSEric Joyner * The virtual and physical addresses are saved for later use during 962ca853deeSEric Joyner * initialization. 963ca853deeSEric Joyner * 964ca853deeSEric Joyner * @returns zero or a non-zero error code on failure 965ca853deeSEric Joyner */ 966ca853deeSEric Joyner static int 967ca853deeSEric Joyner iavf_if_tx_queues_alloc(if_ctx_t ctx, caddr_t *vaddrs, uint64_t *paddrs, int ntxqs, int ntxqsets) 968ca853deeSEric Joyner { 969ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 970ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 971ca853deeSEric Joyner if_softc_ctx_t scctx = vsi->shared; 972ca853deeSEric Joyner struct iavf_tx_queue *que; 973ca853deeSEric Joyner int i, j, error = 0; 974ca853deeSEric Joyner 975ca853deeSEric Joyner MPASS(scctx->isc_ntxqsets > 0); 976ca853deeSEric Joyner MPASS(ntxqs == 1); 977ca853deeSEric Joyner MPASS(scctx->isc_ntxqsets == ntxqsets); 978ca853deeSEric Joyner 979ca853deeSEric Joyner /* Allocate queue structure memory */ 980ca853deeSEric Joyner if (!(vsi->tx_queues = 981ca853deeSEric Joyner (struct iavf_tx_queue *)malloc(sizeof(struct iavf_tx_queue) *ntxqsets, M_IAVF, M_NOWAIT | M_ZERO))) { 982ca853deeSEric Joyner device_printf(iflib_get_dev(ctx), "Unable to allocate TX ring memory\n"); 983ca853deeSEric Joyner return (ENOMEM); 984ca853deeSEric Joyner } 985ca853deeSEric Joyner 986ca853deeSEric Joyner for (i = 0, que = vsi->tx_queues; i < ntxqsets; i++, que++) { 987ca853deeSEric Joyner struct tx_ring *txr = &que->txr; 988ca853deeSEric Joyner 989ca853deeSEric Joyner txr->me = i; 990ca853deeSEric Joyner que->vsi = vsi; 991ca853deeSEric Joyner 992ca853deeSEric Joyner if (!vsi->enable_head_writeback) { 993ca853deeSEric Joyner /* Allocate report status array */ 994ca853deeSEric Joyner if (!(txr->tx_rsq = (qidx_t *)malloc(sizeof(qidx_t) * scctx->isc_ntxd[0], M_IAVF, M_NOWAIT))) { 995ca853deeSEric Joyner device_printf(iflib_get_dev(ctx), "failed to allocate tx_rsq memory\n"); 996ca853deeSEric Joyner error = ENOMEM; 997ca853deeSEric Joyner goto fail; 998ca853deeSEric Joyner } 999ca853deeSEric Joyner /* Init report status array */ 1000ca853deeSEric Joyner for (j = 0; j < scctx->isc_ntxd[0]; j++) 1001ca853deeSEric Joyner txr->tx_rsq[j] = QIDX_INVALID; 1002ca853deeSEric Joyner } 1003ca853deeSEric Joyner /* get the virtual and physical address of the hardware queues */ 1004ca853deeSEric Joyner txr->tail = IAVF_QTX_TAIL1(txr->me); 1005ca853deeSEric Joyner txr->tx_base = (struct iavf_tx_desc *)vaddrs[i * ntxqs]; 1006ca853deeSEric Joyner txr->tx_paddr = paddrs[i * ntxqs]; 1007ca853deeSEric Joyner txr->que = que; 1008ca853deeSEric Joyner } 1009ca853deeSEric Joyner 1010ca853deeSEric Joyner return (0); 1011ca853deeSEric Joyner fail: 1012ca853deeSEric Joyner iavf_if_queues_free(ctx); 1013ca853deeSEric Joyner return (error); 1014ca853deeSEric Joyner } 1015ca853deeSEric Joyner 1016ca853deeSEric Joyner /** 1017ca853deeSEric Joyner * iavf_if_rx_queues_alloc - Allocate Rx queue memory 1018ca853deeSEric Joyner * @ctx: the iflib context pointer 1019ca853deeSEric Joyner * @vaddrs: Array of virtual addresses 1020ca853deeSEric Joyner * @paddrs: Array of physical addresses 1021ca853deeSEric Joyner * @nrxqs: number of Rx queues per group (should always be 1) 1022ca853deeSEric Joyner * @nrxqsets: the number of Rx queues to allocate 1023ca853deeSEric Joyner * 1024ca853deeSEric Joyner * Called by iflib to allocate driver memory for a number of Rx queues. 1025ca853deeSEric Joyner * Allocates memory for the drivers private Rx queue data structure, and saves 1026ca853deeSEric Joyner * the physical and virtual addresses for later use. 1027ca853deeSEric Joyner * 1028ca853deeSEric Joyner * @returns zero or a non-zero error code on failure 1029ca853deeSEric Joyner */ 1030ca853deeSEric Joyner static int 1031ca853deeSEric Joyner iavf_if_rx_queues_alloc(if_ctx_t ctx, caddr_t *vaddrs, uint64_t *paddrs, int nrxqs, int nrxqsets) 1032ca853deeSEric Joyner { 1033ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1034ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1035ca853deeSEric Joyner struct iavf_rx_queue *que; 1036ca853deeSEric Joyner int i, error = 0; 1037ca853deeSEric Joyner 1038ca853deeSEric Joyner #ifdef INVARIANTS 1039ca853deeSEric Joyner if_softc_ctx_t scctx = vsi->shared; 1040ca853deeSEric Joyner MPASS(scctx->isc_nrxqsets > 0); 1041ca853deeSEric Joyner MPASS(nrxqs == 1); 1042ca853deeSEric Joyner MPASS(scctx->isc_nrxqsets == nrxqsets); 1043ca853deeSEric Joyner #endif 1044ca853deeSEric Joyner 1045ca853deeSEric Joyner /* Allocate queue structure memory */ 1046ca853deeSEric Joyner if (!(vsi->rx_queues = 1047ca853deeSEric Joyner (struct iavf_rx_queue *) malloc(sizeof(struct iavf_rx_queue) * 1048ca853deeSEric Joyner nrxqsets, M_IAVF, M_NOWAIT | M_ZERO))) { 1049ca853deeSEric Joyner device_printf(iflib_get_dev(ctx), "Unable to allocate RX ring memory\n"); 1050ca853deeSEric Joyner error = ENOMEM; 1051ca853deeSEric Joyner goto fail; 1052ca853deeSEric Joyner } 1053ca853deeSEric Joyner 1054ca853deeSEric Joyner for (i = 0, que = vsi->rx_queues; i < nrxqsets; i++, que++) { 1055ca853deeSEric Joyner struct rx_ring *rxr = &que->rxr; 1056ca853deeSEric Joyner 1057ca853deeSEric Joyner rxr->me = i; 1058ca853deeSEric Joyner que->vsi = vsi; 1059ca853deeSEric Joyner 1060ca853deeSEric Joyner /* get the virtual and physical address of the hardware queues */ 1061ca853deeSEric Joyner rxr->tail = IAVF_QRX_TAIL1(rxr->me); 1062ca853deeSEric Joyner rxr->rx_base = (union iavf_rx_desc *)vaddrs[i * nrxqs]; 1063ca853deeSEric Joyner rxr->rx_paddr = paddrs[i * nrxqs]; 1064ca853deeSEric Joyner rxr->que = que; 1065ca853deeSEric Joyner } 1066ca853deeSEric Joyner 1067ca853deeSEric Joyner return (0); 1068ca853deeSEric Joyner fail: 1069ca853deeSEric Joyner iavf_if_queues_free(ctx); 1070ca853deeSEric Joyner return (error); 1071ca853deeSEric Joyner } 1072ca853deeSEric Joyner 1073ca853deeSEric Joyner /** 1074ca853deeSEric Joyner * iavf_if_queues_free - Free driver queue memory 1075ca853deeSEric Joyner * @ctx: the iflib context pointer 1076ca853deeSEric Joyner * 1077ca853deeSEric Joyner * Called by iflib to release memory allocated by the driver when setting up 1078ca853deeSEric Joyner * Tx and Rx queues. 1079ca853deeSEric Joyner * 1080ca853deeSEric Joyner * @remark The ordering of this function and iavf_if_detach is not guaranteed. 1081ca853deeSEric Joyner * It is possible for this function to be called either before or after the 1082ca853deeSEric Joyner * iavf_if_detach. Thus, care must be taken to ensure that either ordering of 1083ca853deeSEric Joyner * iavf_if_detach and iavf_if_queues_free is safe. 1084ca853deeSEric Joyner */ 1085ca853deeSEric Joyner static void 1086ca853deeSEric Joyner iavf_if_queues_free(if_ctx_t ctx) 1087ca853deeSEric Joyner { 1088ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1089ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1090ca853deeSEric Joyner 1091ca853deeSEric Joyner if (!vsi->enable_head_writeback) { 1092ca853deeSEric Joyner struct iavf_tx_queue *que; 1093ca853deeSEric Joyner int i = 0; 1094ca853deeSEric Joyner 1095ca853deeSEric Joyner for (i = 0, que = vsi->tx_queues; i < vsi->shared->isc_ntxqsets; i++, que++) { 1096ca853deeSEric Joyner struct tx_ring *txr = &que->txr; 1097ca853deeSEric Joyner if (txr->tx_rsq != NULL) { 1098ca853deeSEric Joyner free(txr->tx_rsq, M_IAVF); 1099ca853deeSEric Joyner txr->tx_rsq = NULL; 1100ca853deeSEric Joyner } 1101ca853deeSEric Joyner } 1102ca853deeSEric Joyner } 1103ca853deeSEric Joyner 1104ca853deeSEric Joyner if (vsi->tx_queues != NULL) { 1105ca853deeSEric Joyner free(vsi->tx_queues, M_IAVF); 1106ca853deeSEric Joyner vsi->tx_queues = NULL; 1107ca853deeSEric Joyner } 1108ca853deeSEric Joyner if (vsi->rx_queues != NULL) { 1109ca853deeSEric Joyner free(vsi->rx_queues, M_IAVF); 1110ca853deeSEric Joyner vsi->rx_queues = NULL; 1111ca853deeSEric Joyner } 1112ca853deeSEric Joyner } 1113ca853deeSEric Joyner 1114ca853deeSEric Joyner /** 1115ca853deeSEric Joyner * iavf_check_aq_errors - Check for AdminQ errors 1116ca853deeSEric Joyner * @sc: device softc 1117ca853deeSEric Joyner * 1118ca853deeSEric Joyner * Check the AdminQ registers for errors, and determine whether or not a reset 1119ca853deeSEric Joyner * may be required to resolve them. 1120ca853deeSEric Joyner * 1121ca853deeSEric Joyner * @post if there are errors, the VF device will be stopped and a reset will 1122ca853deeSEric Joyner * be requested. 1123ca853deeSEric Joyner * 1124ca853deeSEric Joyner * @returns zero if there are no issues, EBUSY if the device is resetting, 1125ca853deeSEric Joyner * or EIO if there are any AQ errors. 1126ca853deeSEric Joyner */ 1127ca853deeSEric Joyner static int 1128ca853deeSEric Joyner iavf_check_aq_errors(struct iavf_sc *sc) 1129ca853deeSEric Joyner { 1130ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 1131ca853deeSEric Joyner device_t dev = sc->dev; 1132ca853deeSEric Joyner u32 reg, oldreg; 1133ca853deeSEric Joyner u8 aq_error = false; 1134ca853deeSEric Joyner 1135ca853deeSEric Joyner oldreg = reg = rd32(hw, hw->aq.arq.len); 1136ca853deeSEric Joyner 1137ca853deeSEric Joyner /* Check if device is in reset */ 1138ca853deeSEric Joyner if (reg == 0xdeadbeef || reg == 0xffffffff) { 1139ca853deeSEric Joyner device_printf(dev, "VF in reset\n"); 1140ca853deeSEric Joyner return (EBUSY); 1141ca853deeSEric Joyner } 1142ca853deeSEric Joyner 1143ca853deeSEric Joyner /* Check for Admin queue errors */ 1144ca853deeSEric Joyner if (reg & IAVF_VF_ARQLEN1_ARQVFE_MASK) { 1145ca853deeSEric Joyner device_printf(dev, "ARQ VF Error detected\n"); 1146ca853deeSEric Joyner reg &= ~IAVF_VF_ARQLEN1_ARQVFE_MASK; 1147ca853deeSEric Joyner aq_error = true; 1148ca853deeSEric Joyner } 1149ca853deeSEric Joyner if (reg & IAVF_VF_ARQLEN1_ARQOVFL_MASK) { 1150ca853deeSEric Joyner device_printf(dev, "ARQ Overflow Error detected\n"); 1151ca853deeSEric Joyner reg &= ~IAVF_VF_ARQLEN1_ARQOVFL_MASK; 1152ca853deeSEric Joyner aq_error = true; 1153ca853deeSEric Joyner } 1154ca853deeSEric Joyner if (reg & IAVF_VF_ARQLEN1_ARQCRIT_MASK) { 1155ca853deeSEric Joyner device_printf(dev, "ARQ Critical Error detected\n"); 1156ca853deeSEric Joyner reg &= ~IAVF_VF_ARQLEN1_ARQCRIT_MASK; 1157ca853deeSEric Joyner aq_error = true; 1158ca853deeSEric Joyner } 1159ca853deeSEric Joyner if (oldreg != reg) 1160ca853deeSEric Joyner wr32(hw, hw->aq.arq.len, reg); 1161ca853deeSEric Joyner 1162ca853deeSEric Joyner oldreg = reg = rd32(hw, hw->aq.asq.len); 1163ca853deeSEric Joyner if (reg & IAVF_VF_ATQLEN1_ATQVFE_MASK) { 1164ca853deeSEric Joyner device_printf(dev, "ASQ VF Error detected\n"); 1165ca853deeSEric Joyner reg &= ~IAVF_VF_ATQLEN1_ATQVFE_MASK; 1166ca853deeSEric Joyner aq_error = true; 1167ca853deeSEric Joyner } 1168ca853deeSEric Joyner if (reg & IAVF_VF_ATQLEN1_ATQOVFL_MASK) { 1169ca853deeSEric Joyner device_printf(dev, "ASQ Overflow Error detected\n"); 1170ca853deeSEric Joyner reg &= ~IAVF_VF_ATQLEN1_ATQOVFL_MASK; 1171ca853deeSEric Joyner aq_error = true; 1172ca853deeSEric Joyner } 1173ca853deeSEric Joyner if (reg & IAVF_VF_ATQLEN1_ATQCRIT_MASK) { 1174ca853deeSEric Joyner device_printf(dev, "ASQ Critical Error detected\n"); 1175ca853deeSEric Joyner reg &= ~IAVF_VF_ATQLEN1_ATQCRIT_MASK; 1176ca853deeSEric Joyner aq_error = true; 1177ca853deeSEric Joyner } 1178ca853deeSEric Joyner if (oldreg != reg) 1179ca853deeSEric Joyner wr32(hw, hw->aq.asq.len, reg); 1180ca853deeSEric Joyner 1181ca853deeSEric Joyner return (aq_error ? EIO : 0); 1182ca853deeSEric Joyner } 1183ca853deeSEric Joyner 1184ca853deeSEric Joyner /** 1185ca853deeSEric Joyner * iavf_process_adminq - Process adminq responses from the PF 1186ca853deeSEric Joyner * @sc: device softc 1187ca853deeSEric Joyner * @pending: output parameter indicating how many messages remain 1188ca853deeSEric Joyner * 1189ca853deeSEric Joyner * Process the adminq to handle replies from the PF over the virtchnl 1190ca853deeSEric Joyner * connection. 1191ca853deeSEric Joyner * 1192ca853deeSEric Joyner * @returns zero or an iavf_status code on failure 1193ca853deeSEric Joyner */ 1194ca853deeSEric Joyner static enum iavf_status 1195ca853deeSEric Joyner iavf_process_adminq(struct iavf_sc *sc, u16 *pending) 1196ca853deeSEric Joyner { 1197ca853deeSEric Joyner enum iavf_status status = IAVF_SUCCESS; 1198ca853deeSEric Joyner struct iavf_arq_event_info event; 1199ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 1200ca853deeSEric Joyner struct virtchnl_msg *v_msg; 1201ca853deeSEric Joyner int error = 0, loop = 0; 1202ca853deeSEric Joyner u32 reg; 1203ca853deeSEric Joyner 1204ca853deeSEric Joyner if (iavf_test_state(&sc->state, IAVF_STATE_RESET_PENDING)) { 1205ca853deeSEric Joyner status = IAVF_ERR_ADMIN_QUEUE_ERROR; 1206ca853deeSEric Joyner goto reenable_interrupt; 1207ca853deeSEric Joyner } 1208ca853deeSEric Joyner 1209ca853deeSEric Joyner error = iavf_check_aq_errors(sc); 1210ca853deeSEric Joyner if (error) { 1211ca853deeSEric Joyner status = IAVF_ERR_ADMIN_QUEUE_CRITICAL_ERROR; 1212ca853deeSEric Joyner goto reenable_interrupt; 1213ca853deeSEric Joyner } 1214ca853deeSEric Joyner 1215ca853deeSEric Joyner event.buf_len = IAVF_AQ_BUF_SZ; 1216ca853deeSEric Joyner event.msg_buf = sc->aq_buffer; 1217ca853deeSEric Joyner bzero(event.msg_buf, IAVF_AQ_BUF_SZ); 1218ca853deeSEric Joyner v_msg = (struct virtchnl_msg *)&event.desc; 1219ca853deeSEric Joyner 1220ca853deeSEric Joyner IAVF_VC_LOCK(sc); 1221ca853deeSEric Joyner /* clean and process any events */ 1222ca853deeSEric Joyner do { 1223ca853deeSEric Joyner status = iavf_clean_arq_element(hw, &event, pending); 1224ca853deeSEric Joyner /* 1225ca853deeSEric Joyner * Also covers normal case when iavf_clean_arq_element() 1226ca853deeSEric Joyner * returns "IAVF_ERR_ADMIN_QUEUE_NO_WORK" 1227ca853deeSEric Joyner */ 1228ca853deeSEric Joyner if (status) 1229ca853deeSEric Joyner break; 1230ca853deeSEric Joyner iavf_vc_completion(sc, v_msg->v_opcode, 1231ca853deeSEric Joyner v_msg->v_retval, event.msg_buf, event.msg_len); 1232ca853deeSEric Joyner bzero(event.msg_buf, IAVF_AQ_BUF_SZ); 1233ca853deeSEric Joyner } while (*pending && (loop++ < IAVF_ADM_LIMIT)); 1234ca853deeSEric Joyner IAVF_VC_UNLOCK(sc); 1235ca853deeSEric Joyner 1236ca853deeSEric Joyner reenable_interrupt: 1237ca853deeSEric Joyner /* Re-enable admin queue interrupt cause */ 1238ca853deeSEric Joyner reg = rd32(hw, IAVF_VFINT_ICR0_ENA1); 1239ca853deeSEric Joyner reg |= IAVF_VFINT_ICR0_ENA1_ADMINQ_MASK; 1240ca853deeSEric Joyner wr32(hw, IAVF_VFINT_ICR0_ENA1, reg); 1241ca853deeSEric Joyner 1242ca853deeSEric Joyner return (status); 1243ca853deeSEric Joyner } 1244ca853deeSEric Joyner 1245ca853deeSEric Joyner /** 1246ca853deeSEric Joyner * iavf_if_update_admin_status - Administrative status task 1247ca853deeSEric Joyner * @ctx: iflib context 1248ca853deeSEric Joyner * 1249ca853deeSEric Joyner * Called by iflib to handle administrative status events. The iavf driver 1250ca853deeSEric Joyner * uses this to process the adminq virtchnl messages outside of interrupt 1251ca853deeSEric Joyner * context. 1252ca853deeSEric Joyner */ 1253ca853deeSEric Joyner static void 1254ca853deeSEric Joyner iavf_if_update_admin_status(if_ctx_t ctx) 1255ca853deeSEric Joyner { 1256ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1257ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 1258ca853deeSEric Joyner u16 pending = 0; 1259ca853deeSEric Joyner 1260ca853deeSEric Joyner iavf_process_adminq(sc, &pending); 1261ca853deeSEric Joyner iavf_update_link_status(sc); 1262ca853deeSEric Joyner 1263ca853deeSEric Joyner /* 1264ca853deeSEric Joyner * If there are still messages to process, reschedule. 1265ca853deeSEric Joyner * Otherwise, re-enable the Admin Queue interrupt. 1266ca853deeSEric Joyner */ 1267ca853deeSEric Joyner if (pending > 0) 1268ca853deeSEric Joyner iflib_admin_intr_deferred(ctx); 1269ca853deeSEric Joyner else 1270ca853deeSEric Joyner iavf_enable_adminq_irq(hw); 1271ca853deeSEric Joyner } 1272ca853deeSEric Joyner 1273ca853deeSEric Joyner /** 1274ca853deeSEric Joyner * iavf_if_multi_set - Set multicast address filters 1275ca853deeSEric Joyner * @ctx: iflib context 1276ca853deeSEric Joyner * 1277ca853deeSEric Joyner * Called by iflib to update the current list of multicast filters for the 1278ca853deeSEric Joyner * device. 1279ca853deeSEric Joyner */ 1280ca853deeSEric Joyner static void 1281ca853deeSEric Joyner iavf_if_multi_set(if_ctx_t ctx) 1282ca853deeSEric Joyner { 1283ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1284ca853deeSEric Joyner 1285ca853deeSEric Joyner iavf_multi_set(sc); 1286ca853deeSEric Joyner } 1287ca853deeSEric Joyner 1288ca853deeSEric Joyner /** 1289ca853deeSEric Joyner * iavf_if_mtu_set - Set the device MTU 1290ca853deeSEric Joyner * @ctx: iflib context 1291ca853deeSEric Joyner * @mtu: MTU value to set 1292ca853deeSEric Joyner * 1293ca853deeSEric Joyner * Called by iflib to set the device MTU. 1294ca853deeSEric Joyner * 1295ca853deeSEric Joyner * @returns zero on success, or EINVAL if the MTU is invalid. 1296ca853deeSEric Joyner */ 1297ca853deeSEric Joyner static int 1298ca853deeSEric Joyner iavf_if_mtu_set(if_ctx_t ctx, uint32_t mtu) 1299ca853deeSEric Joyner { 1300ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1301ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1302ca853deeSEric Joyner 1303ca853deeSEric Joyner IOCTL_DEBUGOUT("ioctl: SiOCSIFMTU (Set Interface MTU)"); 1304ca853deeSEric Joyner if (mtu < IAVF_MIN_MTU || mtu > IAVF_MAX_MTU) { 1305ca853deeSEric Joyner device_printf(sc->dev, "mtu %d is not in valid range [%d-%d]\n", 1306ca853deeSEric Joyner mtu, IAVF_MIN_MTU, IAVF_MAX_MTU); 1307ca853deeSEric Joyner return (EINVAL); 1308ca853deeSEric Joyner } 1309ca853deeSEric Joyner 1310ca853deeSEric Joyner vsi->shared->isc_max_frame_size = mtu + ETHER_HDR_LEN + ETHER_CRC_LEN + 1311ca853deeSEric Joyner ETHER_VLAN_ENCAP_LEN; 1312ca853deeSEric Joyner 1313ca853deeSEric Joyner return (0); 1314ca853deeSEric Joyner } 1315ca853deeSEric Joyner 1316ca853deeSEric Joyner /** 1317ca853deeSEric Joyner * iavf_if_media_status - Report current media status 1318ca853deeSEric Joyner * @ctx: iflib context 1319ca853deeSEric Joyner * @ifmr: ifmedia request structure 1320ca853deeSEric Joyner * 1321ca853deeSEric Joyner * Called by iflib to report the current media status in the ifmr. 1322ca853deeSEric Joyner */ 1323ca853deeSEric Joyner static void 1324ca853deeSEric Joyner iavf_if_media_status(if_ctx_t ctx, struct ifmediareq *ifmr) 1325ca853deeSEric Joyner { 1326ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1327ca853deeSEric Joyner 1328ca853deeSEric Joyner iavf_media_status_common(sc, ifmr); 1329ca853deeSEric Joyner } 1330ca853deeSEric Joyner 1331ca853deeSEric Joyner /** 1332ca853deeSEric Joyner * iavf_if_media_change - Change the current media settings 1333ca853deeSEric Joyner * @ctx: iflib context 1334ca853deeSEric Joyner * 1335ca853deeSEric Joyner * Called by iflib to change the current media settings. 1336ca853deeSEric Joyner * 1337ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 1338ca853deeSEric Joyner */ 1339ca853deeSEric Joyner static int 1340ca853deeSEric Joyner iavf_if_media_change(if_ctx_t ctx) 1341ca853deeSEric Joyner { 1342ca853deeSEric Joyner return iavf_media_change_common(iflib_get_ifp(ctx)); 1343ca853deeSEric Joyner } 1344ca853deeSEric Joyner 1345ca853deeSEric Joyner /** 1346ca853deeSEric Joyner * iavf_if_promisc_set - Set device promiscuous mode 1347ca853deeSEric Joyner * @ctx: iflib context 1348ca853deeSEric Joyner * @flags: promiscuous configuration 1349ca853deeSEric Joyner * 1350ca853deeSEric Joyner * Called by iflib to request that the device enter promiscuous mode. 1351ca853deeSEric Joyner * 1352ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 1353ca853deeSEric Joyner */ 1354ca853deeSEric Joyner static int 1355ca853deeSEric Joyner iavf_if_promisc_set(if_ctx_t ctx, int flags) 1356ca853deeSEric Joyner { 1357ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1358ca853deeSEric Joyner 1359ca853deeSEric Joyner return iavf_config_promisc(sc, flags); 1360ca853deeSEric Joyner } 1361ca853deeSEric Joyner 1362ca853deeSEric Joyner /** 1363ca853deeSEric Joyner * iavf_if_timer - Periodic timer called by iflib 1364ca853deeSEric Joyner * @ctx: iflib context 1365ca853deeSEric Joyner * @qid: The queue being triggered 1366ca853deeSEric Joyner * 1367ca853deeSEric Joyner * Called by iflib periodically as a timer task, so that the driver can handle 1368ca853deeSEric Joyner * periodic work. 1369ca853deeSEric Joyner * 1370ca853deeSEric Joyner * @remark this timer is only called while the interface is up, even if 1371ca853deeSEric Joyner * IFLIB_ADMIN_ALWAYS_RUN is set. 1372ca853deeSEric Joyner */ 1373ca853deeSEric Joyner static void 1374ca853deeSEric Joyner iavf_if_timer(if_ctx_t ctx, uint16_t qid) 1375ca853deeSEric Joyner { 1376ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1377ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 1378ca853deeSEric Joyner u32 val; 1379ca853deeSEric Joyner 1380ca853deeSEric Joyner if (qid != 0) 1381ca853deeSEric Joyner return; 1382ca853deeSEric Joyner 1383ca853deeSEric Joyner /* Check for when PF triggers a VF reset */ 1384ca853deeSEric Joyner val = rd32(hw, IAVF_VFGEN_RSTAT) & 1385ca853deeSEric Joyner IAVF_VFGEN_RSTAT_VFR_STATE_MASK; 1386ca853deeSEric Joyner if (val != VIRTCHNL_VFR_VFACTIVE 1387ca853deeSEric Joyner && val != VIRTCHNL_VFR_COMPLETED) { 1388ca853deeSEric Joyner iavf_dbg_info(sc, "reset in progress! (%d)\n", val); 1389ca853deeSEric Joyner return; 1390ca853deeSEric Joyner } 1391ca853deeSEric Joyner 1392ca853deeSEric Joyner /* Fire off the adminq task */ 1393ca853deeSEric Joyner iflib_admin_intr_deferred(ctx); 1394ca853deeSEric Joyner 1395ca853deeSEric Joyner /* Update stats */ 1396ca853deeSEric Joyner iavf_request_stats(sc); 1397ca853deeSEric Joyner } 1398ca853deeSEric Joyner 1399ca853deeSEric Joyner /** 1400ca853deeSEric Joyner * iavf_if_vlan_register - Register a VLAN 1401ca853deeSEric Joyner * @ctx: iflib context 1402ca853deeSEric Joyner * @vtag: the VLAN to register 1403ca853deeSEric Joyner * 1404ca853deeSEric Joyner * Register a VLAN filter for a given vtag. 1405ca853deeSEric Joyner */ 1406ca853deeSEric Joyner static void 1407ca853deeSEric Joyner iavf_if_vlan_register(if_ctx_t ctx, u16 vtag) 1408ca853deeSEric Joyner { 1409ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1410ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1411ca853deeSEric Joyner 1412ca853deeSEric Joyner if ((vtag == 0) || (vtag > 4095)) /* Invalid */ 1413ca853deeSEric Joyner return; 1414ca853deeSEric Joyner 1415ca853deeSEric Joyner /* Add VLAN 0 to list, for untagged traffic */ 1416ca853deeSEric Joyner if (vsi->num_vlans == 0) 1417ca853deeSEric Joyner iavf_add_vlan_filter(sc, 0); 1418ca853deeSEric Joyner 1419ca853deeSEric Joyner iavf_add_vlan_filter(sc, vtag); 1420ca853deeSEric Joyner 1421ca853deeSEric Joyner ++vsi->num_vlans; 1422ca853deeSEric Joyner 1423ca853deeSEric Joyner iavf_send_vc_msg(sc, IAVF_FLAG_AQ_ADD_VLAN_FILTER); 1424ca853deeSEric Joyner } 1425ca853deeSEric Joyner 1426ca853deeSEric Joyner /** 1427ca853deeSEric Joyner * iavf_if_vlan_unregister - Unregister a VLAN 1428ca853deeSEric Joyner * @ctx: iflib context 1429ca853deeSEric Joyner * @vtag: the VLAN to remove 1430ca853deeSEric Joyner * 1431ca853deeSEric Joyner * Unregister (remove) a VLAN filter for the given vtag. 1432ca853deeSEric Joyner */ 1433ca853deeSEric Joyner static void 1434ca853deeSEric Joyner iavf_if_vlan_unregister(if_ctx_t ctx, u16 vtag) 1435ca853deeSEric Joyner { 1436ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1437ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1438ca853deeSEric Joyner int i = 0; 1439ca853deeSEric Joyner 1440ca853deeSEric Joyner if ((vtag == 0) || (vtag > 4095) || (vsi->num_vlans == 0)) /* Invalid */ 1441ca853deeSEric Joyner return; 1442ca853deeSEric Joyner 1443ca853deeSEric Joyner i = iavf_mark_del_vlan_filter(sc, vtag); 1444ca853deeSEric Joyner vsi->num_vlans -= i; 1445ca853deeSEric Joyner 1446ca853deeSEric Joyner /* Remove VLAN filter 0 if the last VLAN is being removed */ 1447ca853deeSEric Joyner if (vsi->num_vlans == 0) 1448ca853deeSEric Joyner i += iavf_mark_del_vlan_filter(sc, 0); 1449ca853deeSEric Joyner 1450ca853deeSEric Joyner if (i > 0) 1451ca853deeSEric Joyner iavf_send_vc_msg(sc, IAVF_FLAG_AQ_DEL_VLAN_FILTER); 1452ca853deeSEric Joyner } 1453ca853deeSEric Joyner 1454ca853deeSEric Joyner /** 1455ca853deeSEric Joyner * iavf_if_get_counter - Get network statistic counters 1456ca853deeSEric Joyner * @ctx: iflib context 1457ca853deeSEric Joyner * @cnt: The counter to obtain 1458ca853deeSEric Joyner * 1459ca853deeSEric Joyner * Called by iflib to obtain the value of the specified counter. 1460ca853deeSEric Joyner * 1461ca853deeSEric Joyner * @returns the uint64_t counter value. 1462ca853deeSEric Joyner */ 1463ca853deeSEric Joyner static uint64_t 1464ca853deeSEric Joyner iavf_if_get_counter(if_ctx_t ctx, ift_counter cnt) 1465ca853deeSEric Joyner { 1466ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1467ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1468ca853deeSEric Joyner if_t ifp = iflib_get_ifp(ctx); 1469ca853deeSEric Joyner 1470ca853deeSEric Joyner switch (cnt) { 1471ca853deeSEric Joyner case IFCOUNTER_IPACKETS: 1472ca853deeSEric Joyner return (vsi->ipackets); 1473ca853deeSEric Joyner case IFCOUNTER_IERRORS: 1474ca853deeSEric Joyner return (vsi->ierrors); 1475ca853deeSEric Joyner case IFCOUNTER_OPACKETS: 1476ca853deeSEric Joyner return (vsi->opackets); 1477ca853deeSEric Joyner case IFCOUNTER_OERRORS: 1478ca853deeSEric Joyner return (vsi->oerrors); 1479ca853deeSEric Joyner case IFCOUNTER_COLLISIONS: 1480ca853deeSEric Joyner /* Collisions are by standard impossible in 40G/10G Ethernet */ 1481ca853deeSEric Joyner return (0); 1482ca853deeSEric Joyner case IFCOUNTER_IBYTES: 1483ca853deeSEric Joyner return (vsi->ibytes); 1484ca853deeSEric Joyner case IFCOUNTER_OBYTES: 1485ca853deeSEric Joyner return (vsi->obytes); 1486ca853deeSEric Joyner case IFCOUNTER_IMCASTS: 1487ca853deeSEric Joyner return (vsi->imcasts); 1488ca853deeSEric Joyner case IFCOUNTER_OMCASTS: 1489ca853deeSEric Joyner return (vsi->omcasts); 1490ca853deeSEric Joyner case IFCOUNTER_IQDROPS: 1491ca853deeSEric Joyner return (vsi->iqdrops); 1492ca853deeSEric Joyner case IFCOUNTER_OQDROPS: 1493ca853deeSEric Joyner return (vsi->oqdrops); 1494ca853deeSEric Joyner case IFCOUNTER_NOPROTO: 1495ca853deeSEric Joyner return (vsi->noproto); 1496ca853deeSEric Joyner default: 1497ca853deeSEric Joyner return (if_get_counter_default(ifp, cnt)); 1498ca853deeSEric Joyner } 1499ca853deeSEric Joyner } 1500ca853deeSEric Joyner 1501ca853deeSEric Joyner /** 1502ca853deeSEric Joyner * iavf_free_pci_resources - Free PCI resources 1503ca853deeSEric Joyner * @sc: device softc 1504ca853deeSEric Joyner * 1505ca853deeSEric Joyner * Called to release the PCI resources allocated during attach. May be called 1506ca853deeSEric Joyner * in the error flow of attach_pre, or during detach as part of cleanup. 1507ca853deeSEric Joyner */ 1508ca853deeSEric Joyner static void 1509ca853deeSEric Joyner iavf_free_pci_resources(struct iavf_sc *sc) 1510ca853deeSEric Joyner { 1511ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1512ca853deeSEric Joyner struct iavf_rx_queue *rx_que = vsi->rx_queues; 1513ca853deeSEric Joyner device_t dev = sc->dev; 1514ca853deeSEric Joyner 1515ca853deeSEric Joyner /* We may get here before stations are set up */ 1516ca853deeSEric Joyner if (rx_que == NULL) 1517ca853deeSEric Joyner goto early; 1518ca853deeSEric Joyner 1519ca853deeSEric Joyner /* Release all interrupts */ 1520ca853deeSEric Joyner iflib_irq_free(vsi->ctx, &vsi->irq); 1521ca853deeSEric Joyner 1522ca853deeSEric Joyner for (int i = 0; i < vsi->num_rx_queues; i++, rx_que++) 1523ca853deeSEric Joyner iflib_irq_free(vsi->ctx, &rx_que->que_irq); 1524ca853deeSEric Joyner 1525ca853deeSEric Joyner early: 1526ca853deeSEric Joyner if (sc->pci_mem != NULL) 1527ca853deeSEric Joyner bus_release_resource(dev, SYS_RES_MEMORY, 1528ca853deeSEric Joyner rman_get_rid(sc->pci_mem), sc->pci_mem); 1529ca853deeSEric Joyner } 1530ca853deeSEric Joyner 1531ca853deeSEric Joyner /** 1532ca853deeSEric Joyner * iavf_setup_interface - Setup the device interface 1533ca853deeSEric Joyner * @sc: device softc 1534ca853deeSEric Joyner * 1535ca853deeSEric Joyner * Called to setup some device interface settings, such as the ifmedia 1536ca853deeSEric Joyner * structure. 1537ca853deeSEric Joyner */ 1538ca853deeSEric Joyner static void 1539ca853deeSEric Joyner iavf_setup_interface(struct iavf_sc *sc) 1540ca853deeSEric Joyner { 1541ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1542ca853deeSEric Joyner if_ctx_t ctx = vsi->ctx; 1543ca853deeSEric Joyner struct ifnet *ifp = iflib_get_ifp(ctx); 1544ca853deeSEric Joyner 1545ca853deeSEric Joyner iavf_dbg_init(sc, "begin\n"); 1546ca853deeSEric Joyner 1547ca853deeSEric Joyner vsi->shared->isc_max_frame_size = 1548ca853deeSEric Joyner ifp->if_mtu + ETHER_HDR_LEN + ETHER_CRC_LEN 1549ca853deeSEric Joyner + ETHER_VLAN_ENCAP_LEN; 1550ca853deeSEric Joyner 1551ca853deeSEric Joyner iavf_set_initial_baudrate(ifp); 1552ca853deeSEric Joyner 1553ca853deeSEric Joyner ifmedia_add(sc->media, IFM_ETHER | IFM_AUTO, 0, NULL); 1554ca853deeSEric Joyner ifmedia_set(sc->media, IFM_ETHER | IFM_AUTO); 1555ca853deeSEric Joyner } 1556ca853deeSEric Joyner 1557ca853deeSEric Joyner /** 1558ca853deeSEric Joyner * iavf_msix_adminq - Admin Queue interrupt handler 1559ca853deeSEric Joyner * @arg: void pointer to the device softc 1560ca853deeSEric Joyner * 1561ca853deeSEric Joyner * Interrupt handler for the non-queue interrupt causes. Primarily this will 1562ca853deeSEric Joyner * be the adminq interrupt, but also includes other miscellaneous causes. 1563ca853deeSEric Joyner * 1564ca853deeSEric Joyner * @returns FILTER_SCHEDULE_THREAD if the admin task needs to be run, otherwise 1565ca853deeSEric Joyner * returns FITLER_HANDLED. 1566ca853deeSEric Joyner */ 1567ca853deeSEric Joyner static int 1568ca853deeSEric Joyner iavf_msix_adminq(void *arg) 1569ca853deeSEric Joyner { 1570ca853deeSEric Joyner struct iavf_sc *sc = (struct iavf_sc *)arg; 1571ca853deeSEric Joyner struct iavf_hw *hw = &sc->hw; 1572ca853deeSEric Joyner u32 reg, mask; 1573ca853deeSEric Joyner 1574ca853deeSEric Joyner ++sc->admin_irq; 1575ca853deeSEric Joyner 1576ca853deeSEric Joyner if (!iavf_test_state(&sc->state, IAVF_STATE_INITIALIZED)) 1577ca853deeSEric Joyner return (FILTER_HANDLED); 1578ca853deeSEric Joyner 1579ca853deeSEric Joyner reg = rd32(hw, IAVF_VFINT_ICR01); 1580ca853deeSEric Joyner /* 1581ca853deeSEric Joyner * For masking off interrupt causes that need to be handled before 1582ca853deeSEric Joyner * they can be re-enabled 1583ca853deeSEric Joyner */ 1584ca853deeSEric Joyner mask = rd32(hw, IAVF_VFINT_ICR0_ENA1); 1585ca853deeSEric Joyner 1586ca853deeSEric Joyner /* Check on the cause */ 1587ca853deeSEric Joyner if (reg & IAVF_VFINT_ICR01_ADMINQ_MASK) { 1588ca853deeSEric Joyner mask &= ~IAVF_VFINT_ICR0_ENA1_ADMINQ_MASK; 1589ca853deeSEric Joyner 1590ca853deeSEric Joyner /* Process messages outside of the iflib context lock */ 1591ca853deeSEric Joyner taskqueue_enqueue(sc->vc_tq, &sc->vc_task); 1592ca853deeSEric Joyner } 1593ca853deeSEric Joyner 1594ca853deeSEric Joyner wr32(hw, IAVF_VFINT_ICR0_ENA1, mask); 1595ca853deeSEric Joyner iavf_enable_adminq_irq(hw); 1596ca853deeSEric Joyner 1597ca853deeSEric Joyner return (FILTER_HANDLED); 1598ca853deeSEric Joyner } 1599ca853deeSEric Joyner 1600ca853deeSEric Joyner /** 1601ca853deeSEric Joyner * iavf_enable_intr - Enable device interrupts 1602ca853deeSEric Joyner * @vsi: the main VSI 1603ca853deeSEric Joyner * 1604ca853deeSEric Joyner * Called to enable all queue interrupts. 1605ca853deeSEric Joyner */ 1606ca853deeSEric Joyner void 1607ca853deeSEric Joyner iavf_enable_intr(struct iavf_vsi *vsi) 1608ca853deeSEric Joyner { 1609ca853deeSEric Joyner struct iavf_hw *hw = vsi->hw; 1610ca853deeSEric Joyner struct iavf_rx_queue *que = vsi->rx_queues; 1611ca853deeSEric Joyner 1612ca853deeSEric Joyner iavf_enable_adminq_irq(hw); 1613ca853deeSEric Joyner for (int i = 0; i < vsi->num_rx_queues; i++, que++) 1614ca853deeSEric Joyner iavf_enable_queue_irq(hw, que->rxr.me); 1615ca853deeSEric Joyner } 1616ca853deeSEric Joyner 1617ca853deeSEric Joyner /** 1618ca853deeSEric Joyner * iavf_disable_intr - Disable device interrupts 1619ca853deeSEric Joyner * @vsi: the main VSI 1620ca853deeSEric Joyner * 1621ca853deeSEric Joyner * Called to disable all interrupts 1622ca853deeSEric Joyner * 1623ca853deeSEric Joyner * @remark we never disable the admin status interrupt. 1624ca853deeSEric Joyner */ 1625ca853deeSEric Joyner void 1626ca853deeSEric Joyner iavf_disable_intr(struct iavf_vsi *vsi) 1627ca853deeSEric Joyner { 1628ca853deeSEric Joyner struct iavf_hw *hw = vsi->hw; 1629ca853deeSEric Joyner struct iavf_rx_queue *que = vsi->rx_queues; 1630ca853deeSEric Joyner 1631ca853deeSEric Joyner for (int i = 0; i < vsi->num_rx_queues; i++, que++) 1632ca853deeSEric Joyner iavf_disable_queue_irq(hw, que->rxr.me); 1633ca853deeSEric Joyner } 1634ca853deeSEric Joyner 1635ca853deeSEric Joyner /** 1636ca853deeSEric Joyner * iavf_enable_queue_irq - Enable IRQ register for a queue interrupt 1637ca853deeSEric Joyner * @hw: hardware structure 1638ca853deeSEric Joyner * @id: IRQ vector to enable 1639ca853deeSEric Joyner * 1640ca853deeSEric Joyner * Writes the IAVF_VFINT_DYN_CTLN1 register to enable a given IRQ interrupt. 1641ca853deeSEric Joyner */ 1642ca853deeSEric Joyner static void 1643ca853deeSEric Joyner iavf_enable_queue_irq(struct iavf_hw *hw, int id) 1644ca853deeSEric Joyner { 1645ca853deeSEric Joyner u32 reg; 1646ca853deeSEric Joyner 1647ca853deeSEric Joyner reg = IAVF_VFINT_DYN_CTLN1_INTENA_MASK | 1648ca853deeSEric Joyner IAVF_VFINT_DYN_CTLN1_CLEARPBA_MASK | 1649ca853deeSEric Joyner IAVF_VFINT_DYN_CTLN1_ITR_INDX_MASK; 1650ca853deeSEric Joyner wr32(hw, IAVF_VFINT_DYN_CTLN1(id), reg); 1651ca853deeSEric Joyner } 1652ca853deeSEric Joyner 1653ca853deeSEric Joyner /** 1654ca853deeSEric Joyner * iavf_disable_queue_irq - Disable IRQ register for a queue interrupt 1655ca853deeSEric Joyner * @hw: hardware structure 1656ca853deeSEric Joyner * @id: IRQ vector to disable 1657ca853deeSEric Joyner * 1658ca853deeSEric Joyner * Writes the IAVF_VFINT_DYN_CTLN1 register to disable a given IRQ interrupt. 1659ca853deeSEric Joyner */ 1660ca853deeSEric Joyner static void 1661ca853deeSEric Joyner iavf_disable_queue_irq(struct iavf_hw *hw, int id) 1662ca853deeSEric Joyner { 1663ca853deeSEric Joyner wr32(hw, IAVF_VFINT_DYN_CTLN1(id), 1664ca853deeSEric Joyner IAVF_VFINT_DYN_CTLN1_ITR_INDX_MASK); 1665ca853deeSEric Joyner rd32(hw, IAVF_VFGEN_RSTAT); 1666ca853deeSEric Joyner } 1667ca853deeSEric Joyner 1668ca853deeSEric Joyner /** 1669ca853deeSEric Joyner * iavf_configure_itr - Get initial ITR values from tunable values. 1670ca853deeSEric Joyner * @sc: device softc 1671ca853deeSEric Joyner * 1672ca853deeSEric Joyner * Load the initial tunable values for the ITR configuration. 1673ca853deeSEric Joyner */ 1674ca853deeSEric Joyner static void 1675ca853deeSEric Joyner iavf_configure_itr(struct iavf_sc *sc) 1676ca853deeSEric Joyner { 1677ca853deeSEric Joyner iavf_configure_tx_itr(sc); 1678ca853deeSEric Joyner iavf_configure_rx_itr(sc); 1679ca853deeSEric Joyner } 1680ca853deeSEric Joyner 1681ca853deeSEric Joyner /** 1682ca853deeSEric Joyner * iavf_set_queue_rx_itr - Update Rx ITR value 1683ca853deeSEric Joyner * @que: Rx queue to update 1684ca853deeSEric Joyner * 1685ca853deeSEric Joyner * Provide a update to the queue RX interrupt moderation value. 1686ca853deeSEric Joyner */ 1687ca853deeSEric Joyner static void 1688ca853deeSEric Joyner iavf_set_queue_rx_itr(struct iavf_rx_queue *que) 1689ca853deeSEric Joyner { 1690ca853deeSEric Joyner struct iavf_vsi *vsi = que->vsi; 1691ca853deeSEric Joyner struct iavf_hw *hw = vsi->hw; 1692ca853deeSEric Joyner struct rx_ring *rxr = &que->rxr; 1693ca853deeSEric Joyner 1694ca853deeSEric Joyner /* Idle, do nothing */ 1695ca853deeSEric Joyner if (rxr->bytes == 0) 1696ca853deeSEric Joyner return; 1697ca853deeSEric Joyner 1698ca853deeSEric Joyner /* Update the hardware if needed */ 1699ca853deeSEric Joyner if (rxr->itr != vsi->rx_itr_setting) { 1700ca853deeSEric Joyner rxr->itr = vsi->rx_itr_setting; 1701ca853deeSEric Joyner wr32(hw, IAVF_VFINT_ITRN1(IAVF_RX_ITR, 1702ca853deeSEric Joyner que->rxr.me), rxr->itr); 1703ca853deeSEric Joyner } 1704ca853deeSEric Joyner } 1705ca853deeSEric Joyner 1706ca853deeSEric Joyner /** 1707ca853deeSEric Joyner * iavf_msix_que - Main Rx queue interrupt handler 1708ca853deeSEric Joyner * @arg: void pointer to the Rx queue 1709ca853deeSEric Joyner * 1710ca853deeSEric Joyner * Main MSI-X interrupt handler for Rx queue interrupts 1711ca853deeSEric Joyner * 1712ca853deeSEric Joyner * @returns FILTER_SCHEDULE_THREAD if the main thread for Rx needs to run, 1713ca853deeSEric Joyner * otherwise returns FILTER_HANDLED. 1714ca853deeSEric Joyner */ 1715ca853deeSEric Joyner static int 1716ca853deeSEric Joyner iavf_msix_que(void *arg) 1717ca853deeSEric Joyner { 1718ca853deeSEric Joyner struct iavf_rx_queue *rx_que = (struct iavf_rx_queue *)arg; 1719ca853deeSEric Joyner struct iavf_sc *sc = rx_que->vsi->back; 1720ca853deeSEric Joyner 1721ca853deeSEric Joyner ++rx_que->irqs; 1722ca853deeSEric Joyner 1723ca853deeSEric Joyner if (!iavf_test_state(&sc->state, IAVF_STATE_RUNNING)) 1724ca853deeSEric Joyner return (FILTER_HANDLED); 1725ca853deeSEric Joyner 1726ca853deeSEric Joyner iavf_set_queue_rx_itr(rx_que); 1727ca853deeSEric Joyner 1728ca853deeSEric Joyner return (FILTER_SCHEDULE_THREAD); 1729ca853deeSEric Joyner } 1730ca853deeSEric Joyner 1731ca853deeSEric Joyner /** 1732ca853deeSEric Joyner * iavf_update_link_status - Update iflib Link status 1733ca853deeSEric Joyner * @sc: device softc 1734ca853deeSEric Joyner * 1735ca853deeSEric Joyner * Notify the iflib stack of changes in link status. Called after the device 1736ca853deeSEric Joyner * receives a virtchnl message indicating a change in link status. 1737ca853deeSEric Joyner */ 1738ca853deeSEric Joyner void 1739ca853deeSEric Joyner iavf_update_link_status(struct iavf_sc *sc) 1740ca853deeSEric Joyner { 1741ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1742ca853deeSEric Joyner u64 baudrate; 1743ca853deeSEric Joyner 1744ca853deeSEric Joyner if (sc->link_up){ 1745ca853deeSEric Joyner if (vsi->link_active == FALSE) { 1746ca853deeSEric Joyner vsi->link_active = TRUE; 1747ca853deeSEric Joyner baudrate = iavf_baudrate_from_link_speed(sc); 1748ca853deeSEric Joyner iavf_dbg_info(sc, "baudrate: %llu\n", (unsigned long long)baudrate); 1749ca853deeSEric Joyner iflib_link_state_change(vsi->ctx, LINK_STATE_UP, baudrate); 1750ca853deeSEric Joyner } 1751ca853deeSEric Joyner } else { /* Link down */ 1752ca853deeSEric Joyner if (vsi->link_active == TRUE) { 1753ca853deeSEric Joyner vsi->link_active = FALSE; 1754ca853deeSEric Joyner iflib_link_state_change(vsi->ctx, LINK_STATE_DOWN, 0); 1755ca853deeSEric Joyner } 1756ca853deeSEric Joyner } 1757ca853deeSEric Joyner } 1758ca853deeSEric Joyner 1759ca853deeSEric Joyner /** 1760ca853deeSEric Joyner * iavf_stop - Stop the interface 1761ca853deeSEric Joyner * @sc: device softc 1762ca853deeSEric Joyner * 1763ca853deeSEric Joyner * This routine disables all traffic on the adapter by disabling interrupts 1764ca853deeSEric Joyner * and sending a message to the PF to tell it to stop the hardware 1765ca853deeSEric Joyner * Tx/Rx LAN queues. 1766ca853deeSEric Joyner */ 1767ca853deeSEric Joyner static void 1768ca853deeSEric Joyner iavf_stop(struct iavf_sc *sc) 1769ca853deeSEric Joyner { 1770ca853deeSEric Joyner iavf_clear_state(&sc->state, IAVF_STATE_RUNNING); 1771ca853deeSEric Joyner 1772ca853deeSEric Joyner iavf_disable_intr(&sc->vsi); 1773ca853deeSEric Joyner 1774ca853deeSEric Joyner iavf_disable_queues_with_retries(sc); 1775ca853deeSEric Joyner } 1776ca853deeSEric Joyner 1777ca853deeSEric Joyner /** 1778ca853deeSEric Joyner * iavf_if_stop - iflib stop handler 1779ca853deeSEric Joyner * @ctx: iflib context 1780ca853deeSEric Joyner * 1781ca853deeSEric Joyner * Call iavf_stop to stop the interface. 1782ca853deeSEric Joyner */ 1783ca853deeSEric Joyner static void 1784ca853deeSEric Joyner iavf_if_stop(if_ctx_t ctx) 1785ca853deeSEric Joyner { 1786ca853deeSEric Joyner struct iavf_sc *sc = iavf_sc_from_ctx(ctx); 1787ca853deeSEric Joyner 1788ca853deeSEric Joyner iavf_stop(sc); 1789ca853deeSEric Joyner } 1790ca853deeSEric Joyner 1791ca853deeSEric Joyner /** 1792ca853deeSEric Joyner * iavf_del_mac_filter - Delete a MAC filter 1793ca853deeSEric Joyner * @sc: device softc 1794ca853deeSEric Joyner * @macaddr: MAC address to remove 1795ca853deeSEric Joyner * 1796ca853deeSEric Joyner * Marks a MAC filter for deletion. 1797ca853deeSEric Joyner * 1798ca853deeSEric Joyner * @returns zero if the filter existed, or ENOENT if it did not. 1799ca853deeSEric Joyner */ 1800ca853deeSEric Joyner static int 1801ca853deeSEric Joyner iavf_del_mac_filter(struct iavf_sc *sc, u8 *macaddr) 1802ca853deeSEric Joyner { 1803ca853deeSEric Joyner struct iavf_mac_filter *f; 1804ca853deeSEric Joyner 1805ca853deeSEric Joyner f = iavf_find_mac_filter(sc, macaddr); 1806ca853deeSEric Joyner if (f == NULL) 1807ca853deeSEric Joyner return (ENOENT); 1808ca853deeSEric Joyner 1809ca853deeSEric Joyner f->flags |= IAVF_FILTER_DEL; 1810ca853deeSEric Joyner return (0); 1811ca853deeSEric Joyner } 1812ca853deeSEric Joyner 1813ca853deeSEric Joyner /** 1814ca853deeSEric Joyner * iavf_init_tx_rsqs - Initialize Report Status array 1815ca853deeSEric Joyner * @vsi: the main VSI 1816ca853deeSEric Joyner * 1817ca853deeSEric Joyner * Set the Report Status queue fields to zero in order to initialize the 1818ca853deeSEric Joyner * queues for transmit. 1819ca853deeSEric Joyner */ 1820ca853deeSEric Joyner void 1821ca853deeSEric Joyner iavf_init_tx_rsqs(struct iavf_vsi *vsi) 1822ca853deeSEric Joyner { 1823ca853deeSEric Joyner if_softc_ctx_t scctx = vsi->shared; 1824ca853deeSEric Joyner struct iavf_tx_queue *tx_que; 1825ca853deeSEric Joyner int i, j; 1826ca853deeSEric Joyner 1827ca853deeSEric Joyner for (i = 0, tx_que = vsi->tx_queues; i < vsi->num_tx_queues; i++, tx_que++) { 1828ca853deeSEric Joyner struct tx_ring *txr = &tx_que->txr; 1829ca853deeSEric Joyner 1830ca853deeSEric Joyner txr->tx_rs_cidx = txr->tx_rs_pidx; 1831ca853deeSEric Joyner 1832ca853deeSEric Joyner /* Initialize the last processed descriptor to be the end of 1833ca853deeSEric Joyner * the ring, rather than the start, so that we avoid an 1834ca853deeSEric Joyner * off-by-one error when calculating how many descriptors are 1835ca853deeSEric Joyner * done in the credits_update function. 1836ca853deeSEric Joyner */ 1837ca853deeSEric Joyner txr->tx_cidx_processed = scctx->isc_ntxd[0] - 1; 1838ca853deeSEric Joyner 1839ca853deeSEric Joyner for (j = 0; j < scctx->isc_ntxd[0]; j++) 1840ca853deeSEric Joyner txr->tx_rsq[j] = QIDX_INVALID; 1841ca853deeSEric Joyner } 1842ca853deeSEric Joyner } 1843ca853deeSEric Joyner 1844ca853deeSEric Joyner /** 1845ca853deeSEric Joyner * iavf_init_tx_cidx - Initialize Tx cidx values 1846ca853deeSEric Joyner * @vsi: the main VSI 1847ca853deeSEric Joyner * 1848ca853deeSEric Joyner * Initialize the tx_cidx_processed values for Tx queues in order to 1849ca853deeSEric Joyner * initialize the Tx queues for transmit. 1850ca853deeSEric Joyner */ 1851ca853deeSEric Joyner void 1852ca853deeSEric Joyner iavf_init_tx_cidx(struct iavf_vsi *vsi) 1853ca853deeSEric Joyner { 1854ca853deeSEric Joyner if_softc_ctx_t scctx = vsi->shared; 1855ca853deeSEric Joyner struct iavf_tx_queue *tx_que; 1856ca853deeSEric Joyner int i; 1857ca853deeSEric Joyner 1858ca853deeSEric Joyner for (i = 0, tx_que = vsi->tx_queues; i < vsi->num_tx_queues; i++, tx_que++) { 1859ca853deeSEric Joyner struct tx_ring *txr = &tx_que->txr; 1860ca853deeSEric Joyner 1861ca853deeSEric Joyner txr->tx_cidx_processed = scctx->isc_ntxd[0] - 1; 1862ca853deeSEric Joyner } 1863ca853deeSEric Joyner } 1864ca853deeSEric Joyner 1865ca853deeSEric Joyner /** 1866ca853deeSEric Joyner * iavf_add_device_sysctls - Add device sysctls for configuration 1867ca853deeSEric Joyner * @sc: device softc 1868ca853deeSEric Joyner * 1869ca853deeSEric Joyner * Add the main sysctl nodes and sysctls for device configuration. 1870ca853deeSEric Joyner */ 1871ca853deeSEric Joyner static void 1872ca853deeSEric Joyner iavf_add_device_sysctls(struct iavf_sc *sc) 1873ca853deeSEric Joyner { 1874ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 1875ca853deeSEric Joyner device_t dev = sc->dev; 1876ca853deeSEric Joyner struct sysctl_ctx_list *ctx = device_get_sysctl_ctx(dev); 1877ca853deeSEric Joyner struct sysctl_oid_list *debug_list; 1878ca853deeSEric Joyner 1879ca853deeSEric Joyner iavf_add_device_sysctls_common(sc); 1880ca853deeSEric Joyner 1881ca853deeSEric Joyner debug_list = iavf_create_debug_sysctl_tree(sc); 1882ca853deeSEric Joyner 1883ca853deeSEric Joyner iavf_add_debug_sysctls_common(sc, debug_list); 1884ca853deeSEric Joyner 1885ca853deeSEric Joyner SYSCTL_ADD_PROC(ctx, debug_list, 1886ca853deeSEric Joyner OID_AUTO, "queue_interrupt_table", CTLTYPE_STRING | CTLFLAG_RD, 1887ca853deeSEric Joyner sc, 0, iavf_sysctl_queue_interrupt_table, "A", "View MSI-X indices for TX/RX queues"); 1888ca853deeSEric Joyner 1889ca853deeSEric Joyner #ifdef IAVF_DEBUG 1890ca853deeSEric Joyner SYSCTL_ADD_PROC(ctx, debug_list, 1891ca853deeSEric Joyner OID_AUTO, "do_vf_reset", CTLTYPE_INT | CTLFLAG_WR, 1892ca853deeSEric Joyner sc, 0, iavf_sysctl_vf_reset, "A", "Request a VF reset from PF"); 1893ca853deeSEric Joyner 1894ca853deeSEric Joyner SYSCTL_ADD_PROC(ctx, debug_list, 1895ca853deeSEric Joyner OID_AUTO, "do_vflr_reset", CTLTYPE_INT | CTLFLAG_WR, 1896ca853deeSEric Joyner sc, 0, iavf_sysctl_vflr_reset, "A", "Request a VFLR reset from HW"); 1897ca853deeSEric Joyner #endif 1898ca853deeSEric Joyner 1899ca853deeSEric Joyner /* Add stats sysctls */ 1900ca853deeSEric Joyner iavf_add_vsi_sysctls(dev, vsi, ctx, "vsi"); 1901ca853deeSEric Joyner 1902ca853deeSEric Joyner iavf_add_queues_sysctls(dev, vsi); 1903ca853deeSEric Joyner } 1904ca853deeSEric Joyner 1905ca853deeSEric Joyner /** 1906ca853deeSEric Joyner * iavf_add_queues_sysctls - Add per-queue sysctls 1907ca853deeSEric Joyner * @dev: device pointer 1908ca853deeSEric Joyner * @vsi: the main VSI 1909ca853deeSEric Joyner * 1910ca853deeSEric Joyner * Add sysctls for each Tx and Rx queue. 1911ca853deeSEric Joyner */ 1912ca853deeSEric Joyner void 1913ca853deeSEric Joyner iavf_add_queues_sysctls(device_t dev, struct iavf_vsi *vsi) 1914ca853deeSEric Joyner { 1915ca853deeSEric Joyner struct sysctl_ctx_list *ctx = device_get_sysctl_ctx(dev); 1916ca853deeSEric Joyner struct sysctl_oid_list *vsi_list, *queue_list; 1917ca853deeSEric Joyner struct sysctl_oid *queue_node; 1918ca853deeSEric Joyner char queue_namebuf[32]; 1919ca853deeSEric Joyner 1920ca853deeSEric Joyner struct iavf_rx_queue *rx_que; 1921ca853deeSEric Joyner struct iavf_tx_queue *tx_que; 1922ca853deeSEric Joyner struct tx_ring *txr; 1923ca853deeSEric Joyner struct rx_ring *rxr; 1924ca853deeSEric Joyner 1925ca853deeSEric Joyner vsi_list = SYSCTL_CHILDREN(vsi->vsi_node); 1926ca853deeSEric Joyner 1927ca853deeSEric Joyner /* Queue statistics */ 1928ca853deeSEric Joyner for (int q = 0; q < vsi->num_rx_queues; q++) { 1929ca853deeSEric Joyner bzero(queue_namebuf, sizeof(queue_namebuf)); 1930ca853deeSEric Joyner snprintf(queue_namebuf, IAVF_QUEUE_NAME_LEN, "rxq%02d", q); 1931ca853deeSEric Joyner queue_node = SYSCTL_ADD_NODE(ctx, vsi_list, 1932ca853deeSEric Joyner OID_AUTO, queue_namebuf, CTLFLAG_RD, NULL, "RX Queue #"); 1933ca853deeSEric Joyner queue_list = SYSCTL_CHILDREN(queue_node); 1934ca853deeSEric Joyner 1935ca853deeSEric Joyner rx_que = &(vsi->rx_queues[q]); 1936ca853deeSEric Joyner rxr = &(rx_que->rxr); 1937ca853deeSEric Joyner 1938ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "irqs", 1939ca853deeSEric Joyner CTLFLAG_RD, &(rx_que->irqs), 1940ca853deeSEric Joyner "irqs on this queue (both Tx and Rx)"); 1941ca853deeSEric Joyner 1942ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "packets", 1943ca853deeSEric Joyner CTLFLAG_RD, &(rxr->rx_packets), 1944ca853deeSEric Joyner "Queue Packets Received"); 1945ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "bytes", 1946ca853deeSEric Joyner CTLFLAG_RD, &(rxr->rx_bytes), 1947ca853deeSEric Joyner "Queue Bytes Received"); 1948ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "desc_err", 1949ca853deeSEric Joyner CTLFLAG_RD, &(rxr->desc_errs), 1950ca853deeSEric Joyner "Queue Rx Descriptor Errors"); 1951ca853deeSEric Joyner SYSCTL_ADD_UINT(ctx, queue_list, OID_AUTO, "itr", 1952ca853deeSEric Joyner CTLFLAG_RD, &(rxr->itr), 0, 1953ca853deeSEric Joyner "Queue Rx ITR Interval"); 1954ca853deeSEric Joyner } 1955ca853deeSEric Joyner for (int q = 0; q < vsi->num_tx_queues; q++) { 1956ca853deeSEric Joyner bzero(queue_namebuf, sizeof(queue_namebuf)); 1957ca853deeSEric Joyner snprintf(queue_namebuf, IAVF_QUEUE_NAME_LEN, "txq%02d", q); 1958ca853deeSEric Joyner queue_node = SYSCTL_ADD_NODE(ctx, vsi_list, 1959ca853deeSEric Joyner OID_AUTO, queue_namebuf, CTLFLAG_RD, NULL, "TX Queue #"); 1960ca853deeSEric Joyner queue_list = SYSCTL_CHILDREN(queue_node); 1961ca853deeSEric Joyner 1962ca853deeSEric Joyner tx_que = &(vsi->tx_queues[q]); 1963ca853deeSEric Joyner txr = &(tx_que->txr); 1964ca853deeSEric Joyner 1965ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "tso", 1966ca853deeSEric Joyner CTLFLAG_RD, &(tx_que->tso), 1967ca853deeSEric Joyner "TSO"); 1968ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "mss_too_small", 1969ca853deeSEric Joyner CTLFLAG_RD, &(txr->mss_too_small), 1970ca853deeSEric Joyner "TSO sends with an MSS less than 64"); 1971ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "packets", 1972ca853deeSEric Joyner CTLFLAG_RD, &(txr->tx_packets), 1973ca853deeSEric Joyner "Queue Packets Transmitted"); 1974ca853deeSEric Joyner SYSCTL_ADD_UQUAD(ctx, queue_list, OID_AUTO, "bytes", 1975ca853deeSEric Joyner CTLFLAG_RD, &(txr->tx_bytes), 1976ca853deeSEric Joyner "Queue Bytes Transmitted"); 1977ca853deeSEric Joyner SYSCTL_ADD_UINT(ctx, queue_list, OID_AUTO, "itr", 1978ca853deeSEric Joyner CTLFLAG_RD, &(txr->itr), 0, 1979ca853deeSEric Joyner "Queue Tx ITR Interval"); 1980ca853deeSEric Joyner } 1981ca853deeSEric Joyner } 1982ca853deeSEric Joyner 1983ca853deeSEric Joyner /** 1984ca853deeSEric Joyner * iavf_driver_is_detaching - Check if the driver is detaching/unloading 1985ca853deeSEric Joyner * @sc: device private softc 1986ca853deeSEric Joyner * 1987ca853deeSEric Joyner * @returns true if the driver is detaching, false otherwise. 1988ca853deeSEric Joyner * 1989ca853deeSEric Joyner * @remark on newer kernels, take advantage of iflib_in_detach in order to 1990ca853deeSEric Joyner * report detachment correctly as early as possible. 1991ca853deeSEric Joyner * 1992ca853deeSEric Joyner * @remark this function is used by various code paths that want to avoid 1993ca853deeSEric Joyner * running if the driver is about to be removed. This includes sysctls and 1994ca853deeSEric Joyner * other driver access points. Note that it does not fully resolve 1995ca853deeSEric Joyner * detach-based race conditions as it is possible for a thread to race with 1996ca853deeSEric Joyner * iflib_in_detach. 1997ca853deeSEric Joyner */ 1998ca853deeSEric Joyner bool 1999ca853deeSEric Joyner iavf_driver_is_detaching(struct iavf_sc *sc) 2000ca853deeSEric Joyner { 2001ca853deeSEric Joyner return (!iavf_test_state(&sc->state, IAVF_STATE_INITIALIZED) || 2002ca853deeSEric Joyner iflib_in_detach(sc->vsi.ctx)); 2003ca853deeSEric Joyner } 2004ca853deeSEric Joyner 2005ca853deeSEric Joyner /** 2006ca853deeSEric Joyner * iavf_sysctl_queue_interrupt_table - Sysctl for displaying Tx queue mapping 2007ca853deeSEric Joyner * @oidp: sysctl oid structure 2008ca853deeSEric Joyner * @arg1: void pointer to device softc 2009ca853deeSEric Joyner * @arg2: unused 2010ca853deeSEric Joyner * @req: sysctl request pointer 2011ca853deeSEric Joyner * 2012ca853deeSEric Joyner * Print out mapping of TX queue indexes and Rx queue indexes to MSI-X vectors. 2013ca853deeSEric Joyner * 2014ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 2015ca853deeSEric Joyner */ 2016ca853deeSEric Joyner static int 2017ca853deeSEric Joyner iavf_sysctl_queue_interrupt_table(SYSCTL_HANDLER_ARGS) 2018ca853deeSEric Joyner { 2019ca853deeSEric Joyner struct iavf_sc *sc = (struct iavf_sc *)arg1; 2020ca853deeSEric Joyner struct iavf_vsi *vsi = &sc->vsi; 2021ca853deeSEric Joyner device_t dev = sc->dev; 2022ca853deeSEric Joyner struct sbuf *buf; 2023ca853deeSEric Joyner int error = 0; 2024ca853deeSEric Joyner 2025ca853deeSEric Joyner struct iavf_rx_queue *rx_que; 2026ca853deeSEric Joyner struct iavf_tx_queue *tx_que; 2027ca853deeSEric Joyner 2028ca853deeSEric Joyner UNREFERENCED_2PARAMETER(arg2, oidp); 2029ca853deeSEric Joyner 2030ca853deeSEric Joyner if (iavf_driver_is_detaching(sc)) 2031ca853deeSEric Joyner return (ESHUTDOWN); 2032ca853deeSEric Joyner 2033ca853deeSEric Joyner buf = sbuf_new_for_sysctl(NULL, NULL, 128, req); 2034ca853deeSEric Joyner if (!buf) { 2035ca853deeSEric Joyner device_printf(dev, "Could not allocate sbuf for output.\n"); 2036ca853deeSEric Joyner return (ENOMEM); 2037ca853deeSEric Joyner } 2038ca853deeSEric Joyner 2039ca853deeSEric Joyner sbuf_cat(buf, "\n"); 2040ca853deeSEric Joyner for (int i = 0; i < vsi->num_rx_queues; i++) { 2041ca853deeSEric Joyner rx_que = &vsi->rx_queues[i]; 2042ca853deeSEric Joyner sbuf_printf(buf, "(rxq %3d): %d\n", i, rx_que->msix); 2043ca853deeSEric Joyner } 2044ca853deeSEric Joyner for (int i = 0; i < vsi->num_tx_queues; i++) { 2045ca853deeSEric Joyner tx_que = &vsi->tx_queues[i]; 2046ca853deeSEric Joyner sbuf_printf(buf, "(txq %3d): %d\n", i, tx_que->msix); 2047ca853deeSEric Joyner } 2048ca853deeSEric Joyner 2049ca853deeSEric Joyner error = sbuf_finish(buf); 2050ca853deeSEric Joyner if (error) 2051ca853deeSEric Joyner device_printf(dev, "Error finishing sbuf: %d\n", error); 2052ca853deeSEric Joyner sbuf_delete(buf); 2053ca853deeSEric Joyner 2054ca853deeSEric Joyner return (error); 2055ca853deeSEric Joyner } 2056ca853deeSEric Joyner 2057ca853deeSEric Joyner #ifdef IAVF_DEBUG 2058ca853deeSEric Joyner #define CTX_ACTIVE(ctx) ((if_getdrvflags(iflib_get_ifp(ctx)) & IFF_DRV_RUNNING)) 2059ca853deeSEric Joyner 2060ca853deeSEric Joyner /** 2061ca853deeSEric Joyner * iavf_sysctl_vf_reset - Request a VF reset 2062ca853deeSEric Joyner * @oidp: sysctl oid pointer 2063ca853deeSEric Joyner * @arg1: void pointer to device softc 2064ca853deeSEric Joyner * @arg2: unused 2065ca853deeSEric Joyner * @req: sysctl request pointer 2066ca853deeSEric Joyner * 2067ca853deeSEric Joyner * Request a VF reset for the device. 2068ca853deeSEric Joyner * 2069ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 2070ca853deeSEric Joyner */ 2071ca853deeSEric Joyner static int 2072ca853deeSEric Joyner iavf_sysctl_vf_reset(SYSCTL_HANDLER_ARGS) 2073ca853deeSEric Joyner { 2074ca853deeSEric Joyner struct iavf_sc *sc = (struct iavf_sc *)arg1; 2075ca853deeSEric Joyner int do_reset = 0, error = 0; 2076ca853deeSEric Joyner 2077ca853deeSEric Joyner UNREFERENCED_PARAMETER(arg2); 2078ca853deeSEric Joyner 2079ca853deeSEric Joyner if (iavf_driver_is_detaching(sc)) 2080ca853deeSEric Joyner return (ESHUTDOWN); 2081ca853deeSEric Joyner 2082ca853deeSEric Joyner error = sysctl_handle_int(oidp, &do_reset, 0, req); 2083ca853deeSEric Joyner if ((error) || (req->newptr == NULL)) 2084ca853deeSEric Joyner return (error); 2085ca853deeSEric Joyner 2086ca853deeSEric Joyner if (do_reset == 1) { 2087ca853deeSEric Joyner iavf_reset(sc); 2088ca853deeSEric Joyner if (CTX_ACTIVE(sc->vsi.ctx)) 2089ca853deeSEric Joyner iflib_request_reset(sc->vsi.ctx); 2090ca853deeSEric Joyner } 2091ca853deeSEric Joyner 2092ca853deeSEric Joyner return (error); 2093ca853deeSEric Joyner } 2094ca853deeSEric Joyner 2095ca853deeSEric Joyner /** 2096ca853deeSEric Joyner * iavf_sysctl_vflr_reset - Trigger a PCIe FLR for the device 2097ca853deeSEric Joyner * @oidp: sysctl oid pointer 2098ca853deeSEric Joyner * @arg1: void pointer to device softc 2099ca853deeSEric Joyner * @arg2: unused 2100ca853deeSEric Joyner * @req: sysctl request pointer 2101ca853deeSEric Joyner * 2102ca853deeSEric Joyner * Sysctl callback to trigger a PCIe FLR. 2103ca853deeSEric Joyner * 2104ca853deeSEric Joyner * @returns zero on success, or an error code on failure. 2105ca853deeSEric Joyner */ 2106ca853deeSEric Joyner static int 2107ca853deeSEric Joyner iavf_sysctl_vflr_reset(SYSCTL_HANDLER_ARGS) 2108ca853deeSEric Joyner { 2109ca853deeSEric Joyner struct iavf_sc *sc = (struct iavf_sc *)arg1; 2110ca853deeSEric Joyner device_t dev = sc->dev; 2111ca853deeSEric Joyner int do_reset = 0, error = 0; 2112ca853deeSEric Joyner 2113ca853deeSEric Joyner UNREFERENCED_PARAMETER(arg2); 2114ca853deeSEric Joyner 2115ca853deeSEric Joyner if (iavf_driver_is_detaching(sc)) 2116ca853deeSEric Joyner return (ESHUTDOWN); 2117ca853deeSEric Joyner 2118ca853deeSEric Joyner error = sysctl_handle_int(oidp, &do_reset, 0, req); 2119ca853deeSEric Joyner if ((error) || (req->newptr == NULL)) 2120ca853deeSEric Joyner return (error); 2121ca853deeSEric Joyner 2122ca853deeSEric Joyner if (do_reset == 1) { 2123ca853deeSEric Joyner if (!pcie_flr(dev, max(pcie_get_max_completion_timeout(dev) / 1000, 10), true)) { 2124ca853deeSEric Joyner device_printf(dev, "PCIE FLR failed\n"); 2125ca853deeSEric Joyner error = EIO; 2126ca853deeSEric Joyner } 2127ca853deeSEric Joyner else if (CTX_ACTIVE(sc->vsi.ctx)) 2128ca853deeSEric Joyner iflib_request_reset(sc->vsi.ctx); 2129ca853deeSEric Joyner } 2130ca853deeSEric Joyner 2131ca853deeSEric Joyner return (error); 2132ca853deeSEric Joyner } 2133ca853deeSEric Joyner #undef CTX_ACTIVE 2134ca853deeSEric Joyner #endif 2135