1bb0ec6b3SJim Harris /*- 250dea2daSJim Harris * Copyright (C) 2012-2016 Intel Corporation 3bb0ec6b3SJim Harris * All rights reserved. 4bb0ec6b3SJim Harris * 5bb0ec6b3SJim Harris * Redistribution and use in source and binary forms, with or without 6bb0ec6b3SJim Harris * modification, are permitted provided that the following conditions 7bb0ec6b3SJim Harris * are met: 8bb0ec6b3SJim Harris * 1. Redistributions of source code must retain the above copyright 9bb0ec6b3SJim Harris * notice, this list of conditions and the following disclaimer. 10bb0ec6b3SJim Harris * 2. Redistributions in binary form must reproduce the above copyright 11bb0ec6b3SJim Harris * notice, this list of conditions and the following disclaimer in the 12bb0ec6b3SJim Harris * documentation and/or other materials provided with the distribution. 13bb0ec6b3SJim Harris * 14bb0ec6b3SJim Harris * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15bb0ec6b3SJim Harris * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16bb0ec6b3SJim Harris * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17bb0ec6b3SJim Harris * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18bb0ec6b3SJim Harris * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19bb0ec6b3SJim Harris * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20bb0ec6b3SJim Harris * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21bb0ec6b3SJim Harris * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22bb0ec6b3SJim Harris * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23bb0ec6b3SJim Harris * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24bb0ec6b3SJim Harris * SUCH DAMAGE. 25bb0ec6b3SJim Harris */ 26bb0ec6b3SJim Harris 27bb0ec6b3SJim Harris #include <sys/cdefs.h> 28bb0ec6b3SJim Harris __FBSDID("$FreeBSD$"); 29bb0ec6b3SJim Harris 30f24c011bSWarner Losh #include "opt_cam.h" 31f24c011bSWarner Losh 32bb0ec6b3SJim Harris #include <sys/param.h> 337c3f19d7SJim Harris #include <sys/systm.h> 347c3f19d7SJim Harris #include <sys/buf.h> 35bb0ec6b3SJim Harris #include <sys/bus.h> 36bb0ec6b3SJim Harris #include <sys/conf.h> 37bb0ec6b3SJim Harris #include <sys/ioccom.h> 387c3f19d7SJim Harris #include <sys/proc.h> 39bb0ec6b3SJim Harris #include <sys/smp.h> 407c3f19d7SJim Harris #include <sys/uio.h> 41bb0ec6b3SJim Harris 42bb0ec6b3SJim Harris #include <dev/pci/pcireg.h> 43bb0ec6b3SJim Harris #include <dev/pci/pcivar.h> 44bb0ec6b3SJim Harris 45bb0ec6b3SJim Harris #include "nvme_private.h" 46bb0ec6b3SJim Harris 470a0b08ccSJim Harris static void nvme_ctrlr_construct_and_submit_aer(struct nvme_controller *ctrlr, 480a0b08ccSJim Harris struct nvme_async_event_request *aer); 49d400f790SJim Harris static void nvme_ctrlr_setup_interrupts(struct nvme_controller *ctrlr); 500a0b08ccSJim Harris 51bb0ec6b3SJim Harris static int 52bb0ec6b3SJim Harris nvme_ctrlr_allocate_bar(struct nvme_controller *ctrlr) 53bb0ec6b3SJim Harris { 54bb0ec6b3SJim Harris 55bb0ec6b3SJim Harris ctrlr->resource_id = PCIR_BAR(0); 56bb0ec6b3SJim Harris 5743cd6160SJustin Hibbits ctrlr->resource = bus_alloc_resource_any(ctrlr->dev, SYS_RES_MEMORY, 5843cd6160SJustin Hibbits &ctrlr->resource_id, RF_ACTIVE); 59bb0ec6b3SJim Harris 60bb0ec6b3SJim Harris if(ctrlr->resource == NULL) { 61547d523eSJim Harris nvme_printf(ctrlr, "unable to allocate pci resource\n"); 62bb0ec6b3SJim Harris return (ENOMEM); 63bb0ec6b3SJim Harris } 64bb0ec6b3SJim Harris 65bb0ec6b3SJim Harris ctrlr->bus_tag = rman_get_bustag(ctrlr->resource); 66bb0ec6b3SJim Harris ctrlr->bus_handle = rman_get_bushandle(ctrlr->resource); 67bb0ec6b3SJim Harris ctrlr->regs = (struct nvme_registers *)ctrlr->bus_handle; 68bb0ec6b3SJim Harris 6991fe20e3SJim Harris /* 7091fe20e3SJim Harris * The NVMe spec allows for the MSI-X table to be placed behind 7191fe20e3SJim Harris * BAR 4/5, separate from the control/doorbell registers. Always 7291fe20e3SJim Harris * try to map this bar, because it must be mapped prior to calling 7391fe20e3SJim Harris * pci_alloc_msix(). If the table isn't behind BAR 4/5, 7491fe20e3SJim Harris * bus_alloc_resource() will just return NULL which is OK. 7591fe20e3SJim Harris */ 7691fe20e3SJim Harris ctrlr->bar4_resource_id = PCIR_BAR(4); 7743cd6160SJustin Hibbits ctrlr->bar4_resource = bus_alloc_resource_any(ctrlr->dev, SYS_RES_MEMORY, 7843cd6160SJustin Hibbits &ctrlr->bar4_resource_id, RF_ACTIVE); 7991fe20e3SJim Harris 80bb0ec6b3SJim Harris return (0); 81bb0ec6b3SJim Harris } 82bb0ec6b3SJim Harris 83*a965389bSScott Long static int 84bb0ec6b3SJim Harris nvme_ctrlr_construct_admin_qpair(struct nvme_controller *ctrlr) 85bb0ec6b3SJim Harris { 86bb0ec6b3SJim Harris struct nvme_qpair *qpair; 87bb0ec6b3SJim Harris uint32_t num_entries; 88*a965389bSScott Long int error; 89bb0ec6b3SJim Harris 90bb0ec6b3SJim Harris qpair = &ctrlr->adminq; 91bb0ec6b3SJim Harris 92bb0ec6b3SJim Harris num_entries = NVME_ADMIN_ENTRIES; 93bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.admin_entries", &num_entries); 94bb0ec6b3SJim Harris /* 95bb0ec6b3SJim Harris * If admin_entries was overridden to an invalid value, revert it 96bb0ec6b3SJim Harris * back to our default value. 97bb0ec6b3SJim Harris */ 98bb0ec6b3SJim Harris if (num_entries < NVME_MIN_ADMIN_ENTRIES || 99bb0ec6b3SJim Harris num_entries > NVME_MAX_ADMIN_ENTRIES) { 100547d523eSJim Harris nvme_printf(ctrlr, "invalid hw.nvme.admin_entries=%d " 101547d523eSJim Harris "specified\n", num_entries); 102bb0ec6b3SJim Harris num_entries = NVME_ADMIN_ENTRIES; 103bb0ec6b3SJim Harris } 104bb0ec6b3SJim Harris 105bb0ec6b3SJim Harris /* 106bb0ec6b3SJim Harris * The admin queue's max xfer size is treated differently than the 107bb0ec6b3SJim Harris * max I/O xfer size. 16KB is sufficient here - maybe even less? 108bb0ec6b3SJim Harris */ 109*a965389bSScott Long error = nvme_qpair_construct(qpair, 11021b6da58SJim Harris 0, /* qpair ID */ 11121b6da58SJim Harris 0, /* vector */ 11221b6da58SJim Harris num_entries, 11321b6da58SJim Harris NVME_ADMIN_TRACKERS, 11421b6da58SJim Harris ctrlr); 115*a965389bSScott Long return (error); 116bb0ec6b3SJim Harris } 117bb0ec6b3SJim Harris 118bb0ec6b3SJim Harris static int 119bb0ec6b3SJim Harris nvme_ctrlr_construct_io_qpairs(struct nvme_controller *ctrlr) 120bb0ec6b3SJim Harris { 121bb0ec6b3SJim Harris struct nvme_qpair *qpair; 122bb0ec6b3SJim Harris union cap_lo_register cap_lo; 123*a965389bSScott Long int i, error, num_entries, num_trackers; 124bb0ec6b3SJim Harris 125bb0ec6b3SJim Harris num_entries = NVME_IO_ENTRIES; 126bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.io_entries", &num_entries); 127bb0ec6b3SJim Harris 128bb0ec6b3SJim Harris /* 129bb0ec6b3SJim Harris * NVMe spec sets a hard limit of 64K max entries, but 130bb0ec6b3SJim Harris * devices may specify a smaller limit, so we need to check 131bb0ec6b3SJim Harris * the MQES field in the capabilities register. 132bb0ec6b3SJim Harris */ 133bb0ec6b3SJim Harris cap_lo.raw = nvme_mmio_read_4(ctrlr, cap_lo); 134bb0ec6b3SJim Harris num_entries = min(num_entries, cap_lo.bits.mqes+1); 135bb0ec6b3SJim Harris 13621b6da58SJim Harris num_trackers = NVME_IO_TRACKERS; 13721b6da58SJim Harris TUNABLE_INT_FETCH("hw.nvme.io_trackers", &num_trackers); 13821b6da58SJim Harris 13921b6da58SJim Harris num_trackers = max(num_trackers, NVME_MIN_IO_TRACKERS); 14021b6da58SJim Harris num_trackers = min(num_trackers, NVME_MAX_IO_TRACKERS); 14121b6da58SJim Harris /* 14221b6da58SJim Harris * No need to have more trackers than entries in the submit queue. 14321b6da58SJim Harris * Note also that for a queue size of N, we can only have (N-1) 14421b6da58SJim Harris * commands outstanding, hence the "-1" here. 14521b6da58SJim Harris */ 14621b6da58SJim Harris num_trackers = min(num_trackers, (num_entries-1)); 14721b6da58SJim Harris 1482b647da7SJim Harris /* 1492b647da7SJim Harris * This was calculated previously when setting up interrupts, but 1502b647da7SJim Harris * a controller could theoretically support fewer I/O queues than 1512b647da7SJim Harris * MSI-X vectors. So calculate again here just to be safe. 1522b647da7SJim Harris */ 1539c6b5d40SJim Harris ctrlr->num_cpus_per_ioq = howmany(mp_ncpus, ctrlr->num_io_queues); 1542b647da7SJim Harris 155bb0ec6b3SJim Harris ctrlr->ioq = malloc(ctrlr->num_io_queues * sizeof(struct nvme_qpair), 156237d2019SJim Harris M_NVME, M_ZERO | M_WAITOK); 157bb0ec6b3SJim Harris 158bb0ec6b3SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) { 159bb0ec6b3SJim Harris qpair = &ctrlr->ioq[i]; 160bb0ec6b3SJim Harris 161bb0ec6b3SJim Harris /* 162bb0ec6b3SJim Harris * Admin queue has ID=0. IO queues start at ID=1 - 163bb0ec6b3SJim Harris * hence the 'i+1' here. 164bb0ec6b3SJim Harris * 165bb0ec6b3SJim Harris * For I/O queues, use the controller-wide max_xfer_size 166bb0ec6b3SJim Harris * calculated in nvme_attach(). 167bb0ec6b3SJim Harris */ 168*a965389bSScott Long error = nvme_qpair_construct(qpair, 169bb0ec6b3SJim Harris i+1, /* qpair ID */ 170bb0ec6b3SJim Harris ctrlr->msix_enabled ? i+1 : 0, /* vector */ 171bb0ec6b3SJim Harris num_entries, 17221b6da58SJim Harris num_trackers, 173bb0ec6b3SJim Harris ctrlr); 174*a965389bSScott Long if (error) 175*a965389bSScott Long return (error); 176bb0ec6b3SJim Harris 1772b647da7SJim Harris /* 1782b647da7SJim Harris * Do not bother binding interrupts if we only have one I/O 1792b647da7SJim Harris * interrupt thread for this controller. 1802b647da7SJim Harris */ 181c75ad8ceSJim Harris if (ctrlr->num_io_queues > 1) 1822b647da7SJim Harris bus_bind_intr(ctrlr->dev, qpair->res, 1832b647da7SJim Harris i * ctrlr->num_cpus_per_ioq); 184bb0ec6b3SJim Harris } 185bb0ec6b3SJim Harris 186bb0ec6b3SJim Harris return (0); 187bb0ec6b3SJim Harris } 188bb0ec6b3SJim Harris 189232e2edbSJim Harris static void 190232e2edbSJim Harris nvme_ctrlr_fail(struct nvme_controller *ctrlr) 191232e2edbSJim Harris { 192232e2edbSJim Harris int i; 193232e2edbSJim Harris 194232e2edbSJim Harris ctrlr->is_failed = TRUE; 195232e2edbSJim Harris nvme_qpair_fail(&ctrlr->adminq); 196232e2edbSJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 197232e2edbSJim Harris nvme_qpair_fail(&ctrlr->ioq[i]); 198232e2edbSJim Harris nvme_notify_fail_consumers(ctrlr); 199232e2edbSJim Harris } 200232e2edbSJim Harris 201232e2edbSJim Harris void 202232e2edbSJim Harris nvme_ctrlr_post_failed_request(struct nvme_controller *ctrlr, 203232e2edbSJim Harris struct nvme_request *req) 204232e2edbSJim Harris { 205232e2edbSJim Harris 206a90b8104SJim Harris mtx_lock(&ctrlr->lock); 207232e2edbSJim Harris STAILQ_INSERT_TAIL(&ctrlr->fail_req, req, stailq); 208a90b8104SJim Harris mtx_unlock(&ctrlr->lock); 209232e2edbSJim Harris taskqueue_enqueue(ctrlr->taskqueue, &ctrlr->fail_req_task); 210232e2edbSJim Harris } 211232e2edbSJim Harris 212232e2edbSJim Harris static void 213232e2edbSJim Harris nvme_ctrlr_fail_req_task(void *arg, int pending) 214232e2edbSJim Harris { 215232e2edbSJim Harris struct nvme_controller *ctrlr = arg; 216232e2edbSJim Harris struct nvme_request *req; 217232e2edbSJim Harris 218a90b8104SJim Harris mtx_lock(&ctrlr->lock); 219232e2edbSJim Harris while (!STAILQ_EMPTY(&ctrlr->fail_req)) { 220232e2edbSJim Harris req = STAILQ_FIRST(&ctrlr->fail_req); 221232e2edbSJim Harris STAILQ_REMOVE_HEAD(&ctrlr->fail_req, stailq); 222232e2edbSJim Harris nvme_qpair_manual_complete_request(req->qpair, req, 223232e2edbSJim Harris NVME_SCT_GENERIC, NVME_SC_ABORTED_BY_REQUEST, TRUE); 224232e2edbSJim Harris } 225a90b8104SJim Harris mtx_unlock(&ctrlr->lock); 226232e2edbSJim Harris } 227232e2edbSJim Harris 228bb0ec6b3SJim Harris static int 229cbdec09cSJim Harris nvme_ctrlr_wait_for_ready(struct nvme_controller *ctrlr, int desired_val) 230bb0ec6b3SJim Harris { 231bb0ec6b3SJim Harris int ms_waited; 232bb0ec6b3SJim Harris union cc_register cc; 233bb0ec6b3SJim Harris union csts_register csts; 234bb0ec6b3SJim Harris 235bb0ec6b3SJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 236bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 237bb0ec6b3SJim Harris 238cbdec09cSJim Harris if (cc.bits.en != desired_val) { 239cbdec09cSJim Harris nvme_printf(ctrlr, "%s called with desired_val = %d " 240cbdec09cSJim Harris "but cc.en = %d\n", __func__, desired_val, cc.bits.en); 241bb0ec6b3SJim Harris return (ENXIO); 242bb0ec6b3SJim Harris } 243bb0ec6b3SJim Harris 244bb0ec6b3SJim Harris ms_waited = 0; 245bb0ec6b3SJim Harris 246cbdec09cSJim Harris while (csts.bits.rdy != desired_val) { 247bb0ec6b3SJim Harris DELAY(1000); 248bb0ec6b3SJim Harris if (ms_waited++ > ctrlr->ready_timeout_in_ms) { 249cbdec09cSJim Harris nvme_printf(ctrlr, "controller ready did not become %d " 250cbdec09cSJim Harris "within %d ms\n", desired_val, ctrlr->ready_timeout_in_ms); 251bb0ec6b3SJim Harris return (ENXIO); 252bb0ec6b3SJim Harris } 253bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 254bb0ec6b3SJim Harris } 255bb0ec6b3SJim Harris 256bb0ec6b3SJim Harris return (0); 257bb0ec6b3SJim Harris } 258bb0ec6b3SJim Harris 259bb0ec6b3SJim Harris static void 260bb0ec6b3SJim Harris nvme_ctrlr_disable(struct nvme_controller *ctrlr) 261bb0ec6b3SJim Harris { 262bb0ec6b3SJim Harris union cc_register cc; 263bb0ec6b3SJim Harris union csts_register csts; 264bb0ec6b3SJim Harris 265bb0ec6b3SJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 266bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 267bb0ec6b3SJim Harris 268bb0ec6b3SJim Harris if (cc.bits.en == 1 && csts.bits.rdy == 0) 269cbdec09cSJim Harris nvme_ctrlr_wait_for_ready(ctrlr, 1); 270bb0ec6b3SJim Harris 271bb0ec6b3SJim Harris cc.bits.en = 0; 272bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, cc, cc.raw); 273bb0ec6b3SJim Harris DELAY(5000); 274cbdec09cSJim Harris nvme_ctrlr_wait_for_ready(ctrlr, 0); 275bb0ec6b3SJim Harris } 276bb0ec6b3SJim Harris 277bb0ec6b3SJim Harris static int 278bb0ec6b3SJim Harris nvme_ctrlr_enable(struct nvme_controller *ctrlr) 279bb0ec6b3SJim Harris { 280bb0ec6b3SJim Harris union cc_register cc; 281bb0ec6b3SJim Harris union csts_register csts; 282bb0ec6b3SJim Harris union aqa_register aqa; 283bb0ec6b3SJim Harris 284bb0ec6b3SJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 285bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 286bb0ec6b3SJim Harris 287bb0ec6b3SJim Harris if (cc.bits.en == 1) { 288bb0ec6b3SJim Harris if (csts.bits.rdy == 1) 289bb0ec6b3SJim Harris return (0); 290bb0ec6b3SJim Harris else 291cbdec09cSJim Harris return (nvme_ctrlr_wait_for_ready(ctrlr, 1)); 292bb0ec6b3SJim Harris } 293bb0ec6b3SJim Harris 294bb0ec6b3SJim Harris nvme_mmio_write_8(ctrlr, asq, ctrlr->adminq.cmd_bus_addr); 295bb0ec6b3SJim Harris DELAY(5000); 296bb0ec6b3SJim Harris nvme_mmio_write_8(ctrlr, acq, ctrlr->adminq.cpl_bus_addr); 297bb0ec6b3SJim Harris DELAY(5000); 298bb0ec6b3SJim Harris 299bb0ec6b3SJim Harris aqa.raw = 0; 300bb0ec6b3SJim Harris /* acqs and asqs are 0-based. */ 301bb0ec6b3SJim Harris aqa.bits.acqs = ctrlr->adminq.num_entries-1; 302bb0ec6b3SJim Harris aqa.bits.asqs = ctrlr->adminq.num_entries-1; 303bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, aqa, aqa.raw); 304bb0ec6b3SJim Harris DELAY(5000); 305bb0ec6b3SJim Harris 306bb0ec6b3SJim Harris cc.bits.en = 1; 307bb0ec6b3SJim Harris cc.bits.css = 0; 308bb0ec6b3SJim Harris cc.bits.ams = 0; 309bb0ec6b3SJim Harris cc.bits.shn = 0; 310bb0ec6b3SJim Harris cc.bits.iosqes = 6; /* SQ entry size == 64 == 2^6 */ 311bb0ec6b3SJim Harris cc.bits.iocqes = 4; /* CQ entry size == 16 == 2^4 */ 312bb0ec6b3SJim Harris 313bb0ec6b3SJim Harris /* This evaluates to 0, which is according to spec. */ 314bb0ec6b3SJim Harris cc.bits.mps = (PAGE_SIZE >> 13); 315bb0ec6b3SJim Harris 316bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, cc, cc.raw); 317bb0ec6b3SJim Harris DELAY(5000); 318bb0ec6b3SJim Harris 319cbdec09cSJim Harris return (nvme_ctrlr_wait_for_ready(ctrlr, 1)); 320bb0ec6b3SJim Harris } 321bb0ec6b3SJim Harris 322bb0ec6b3SJim Harris int 323b846efd7SJim Harris nvme_ctrlr_hw_reset(struct nvme_controller *ctrlr) 324bb0ec6b3SJim Harris { 325b846efd7SJim Harris int i; 326b846efd7SJim Harris 327b846efd7SJim Harris nvme_admin_qpair_disable(&ctrlr->adminq); 3282b647da7SJim Harris /* 3292b647da7SJim Harris * I/O queues are not allocated before the initial HW 3302b647da7SJim Harris * reset, so do not try to disable them. Use is_initialized 3312b647da7SJim Harris * to determine if this is the initial HW reset. 3322b647da7SJim Harris */ 3332b647da7SJim Harris if (ctrlr->is_initialized) { 334b846efd7SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 335b846efd7SJim Harris nvme_io_qpair_disable(&ctrlr->ioq[i]); 3362b647da7SJim Harris } 337b846efd7SJim Harris 338b846efd7SJim Harris DELAY(100*1000); 339bb0ec6b3SJim Harris 340bb0ec6b3SJim Harris nvme_ctrlr_disable(ctrlr); 341bb0ec6b3SJim Harris return (nvme_ctrlr_enable(ctrlr)); 342bb0ec6b3SJim Harris } 343bb0ec6b3SJim Harris 344b846efd7SJim Harris void 345b846efd7SJim Harris nvme_ctrlr_reset(struct nvme_controller *ctrlr) 346b846efd7SJim Harris { 347f37c22a3SJim Harris int cmpset; 348f37c22a3SJim Harris 349f37c22a3SJim Harris cmpset = atomic_cmpset_32(&ctrlr->is_resetting, 0, 1); 350f37c22a3SJim Harris 351232e2edbSJim Harris if (cmpset == 0 || ctrlr->is_failed) 352232e2edbSJim Harris /* 353232e2edbSJim Harris * Controller is already resetting or has failed. Return 354232e2edbSJim Harris * immediately since there is no need to kick off another 355232e2edbSJim Harris * reset in these cases. 356232e2edbSJim Harris */ 357f37c22a3SJim Harris return; 358b846efd7SJim Harris 35948ce3178SJim Harris taskqueue_enqueue(ctrlr->taskqueue, &ctrlr->reset_task); 360b846efd7SJim Harris } 361b846efd7SJim Harris 362bb0ec6b3SJim Harris static int 363bb0ec6b3SJim Harris nvme_ctrlr_identify(struct nvme_controller *ctrlr) 364bb0ec6b3SJim Harris { 365955910a9SJim Harris struct nvme_completion_poll_status status; 366bb0ec6b3SJim Harris 367955910a9SJim Harris status.done = FALSE; 368bb0ec6b3SJim Harris nvme_ctrlr_cmd_identify_controller(ctrlr, &ctrlr->cdata, 369955910a9SJim Harris nvme_completion_poll_cb, &status); 370955910a9SJim Harris while (status.done == FALSE) 3718e0ac13fSJim Harris pause("nvme", 1); 372955910a9SJim Harris if (nvme_completion_is_error(&status.cpl)) { 373547d523eSJim Harris nvme_printf(ctrlr, "nvme_identify_controller failed!\n"); 374bb0ec6b3SJim Harris return (ENXIO); 375bb0ec6b3SJim Harris } 376bb0ec6b3SJim Harris 37702e33484SJim Harris /* 37802e33484SJim Harris * Use MDTS to ensure our default max_xfer_size doesn't exceed what the 37902e33484SJim Harris * controller supports. 38002e33484SJim Harris */ 38102e33484SJim Harris if (ctrlr->cdata.mdts > 0) 38202e33484SJim Harris ctrlr->max_xfer_size = min(ctrlr->max_xfer_size, 38302e33484SJim Harris ctrlr->min_page_size * (1 << (ctrlr->cdata.mdts))); 38402e33484SJim Harris 385bb0ec6b3SJim Harris return (0); 386bb0ec6b3SJim Harris } 387bb0ec6b3SJim Harris 388bb0ec6b3SJim Harris static int 389bb0ec6b3SJim Harris nvme_ctrlr_set_num_qpairs(struct nvme_controller *ctrlr) 390bb0ec6b3SJim Harris { 391955910a9SJim Harris struct nvme_completion_poll_status status; 3922b647da7SJim Harris int cq_allocated, sq_allocated; 393bb0ec6b3SJim Harris 394955910a9SJim Harris status.done = FALSE; 395bb0ec6b3SJim Harris nvme_ctrlr_cmd_set_num_queues(ctrlr, ctrlr->num_io_queues, 396955910a9SJim Harris nvme_completion_poll_cb, &status); 397955910a9SJim Harris while (status.done == FALSE) 3988e0ac13fSJim Harris pause("nvme", 1); 399955910a9SJim Harris if (nvme_completion_is_error(&status.cpl)) { 400547d523eSJim Harris nvme_printf(ctrlr, "nvme_set_num_queues failed!\n"); 401bb0ec6b3SJim Harris return (ENXIO); 402bb0ec6b3SJim Harris } 403bb0ec6b3SJim Harris 404bb0ec6b3SJim Harris /* 405bb0ec6b3SJim Harris * Data in cdw0 is 0-based. 406bb0ec6b3SJim Harris * Lower 16-bits indicate number of submission queues allocated. 407bb0ec6b3SJim Harris * Upper 16-bits indicate number of completion queues allocated. 408bb0ec6b3SJim Harris */ 409955910a9SJim Harris sq_allocated = (status.cpl.cdw0 & 0xFFFF) + 1; 410955910a9SJim Harris cq_allocated = (status.cpl.cdw0 >> 16) + 1; 411bb0ec6b3SJim Harris 412bb0ec6b3SJim Harris /* 4132b647da7SJim Harris * Controller may allocate more queues than we requested, 4142b647da7SJim Harris * so use the minimum of the number requested and what was 4152b647da7SJim Harris * actually allocated. 416bb0ec6b3SJim Harris */ 4172b647da7SJim Harris ctrlr->num_io_queues = min(ctrlr->num_io_queues, sq_allocated); 4182b647da7SJim Harris ctrlr->num_io_queues = min(ctrlr->num_io_queues, cq_allocated); 419bb0ec6b3SJim Harris 420bb0ec6b3SJim Harris return (0); 421bb0ec6b3SJim Harris } 422bb0ec6b3SJim Harris 423bb0ec6b3SJim Harris static int 424bb0ec6b3SJim Harris nvme_ctrlr_create_qpairs(struct nvme_controller *ctrlr) 425bb0ec6b3SJim Harris { 426955910a9SJim Harris struct nvme_completion_poll_status status; 427bb0ec6b3SJim Harris struct nvme_qpair *qpair; 428955910a9SJim Harris int i; 429bb0ec6b3SJim Harris 430bb0ec6b3SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) { 431bb0ec6b3SJim Harris qpair = &ctrlr->ioq[i]; 432bb0ec6b3SJim Harris 433955910a9SJim Harris status.done = FALSE; 434bb0ec6b3SJim Harris nvme_ctrlr_cmd_create_io_cq(ctrlr, qpair, qpair->vector, 435955910a9SJim Harris nvme_completion_poll_cb, &status); 436955910a9SJim Harris while (status.done == FALSE) 4378e0ac13fSJim Harris pause("nvme", 1); 438955910a9SJim Harris if (nvme_completion_is_error(&status.cpl)) { 439547d523eSJim Harris nvme_printf(ctrlr, "nvme_create_io_cq failed!\n"); 440bb0ec6b3SJim Harris return (ENXIO); 441bb0ec6b3SJim Harris } 442bb0ec6b3SJim Harris 443955910a9SJim Harris status.done = FALSE; 444bb0ec6b3SJim Harris nvme_ctrlr_cmd_create_io_sq(qpair->ctrlr, qpair, 445955910a9SJim Harris nvme_completion_poll_cb, &status); 446955910a9SJim Harris while (status.done == FALSE) 4478e0ac13fSJim Harris pause("nvme", 1); 448955910a9SJim Harris if (nvme_completion_is_error(&status.cpl)) { 449547d523eSJim Harris nvme_printf(ctrlr, "nvme_create_io_sq failed!\n"); 450bb0ec6b3SJim Harris return (ENXIO); 451bb0ec6b3SJim Harris } 452bb0ec6b3SJim Harris } 453bb0ec6b3SJim Harris 454bb0ec6b3SJim Harris return (0); 455bb0ec6b3SJim Harris } 456bb0ec6b3SJim Harris 457bb0ec6b3SJim Harris static int 458bb0ec6b3SJim Harris nvme_ctrlr_construct_namespaces(struct nvme_controller *ctrlr) 459bb0ec6b3SJim Harris { 460bb0ec6b3SJim Harris struct nvme_namespace *ns; 461bb0ec6b3SJim Harris int i, status; 462bb0ec6b3SJim Harris 463bb0ec6b3SJim Harris for (i = 0; i < ctrlr->cdata.nn; i++) { 464bb0ec6b3SJim Harris ns = &ctrlr->ns[i]; 465bb0ec6b3SJim Harris status = nvme_ns_construct(ns, i+1, ctrlr); 466bb0ec6b3SJim Harris if (status != 0) 467bb0ec6b3SJim Harris return (status); 468bb0ec6b3SJim Harris } 469bb0ec6b3SJim Harris 470bb0ec6b3SJim Harris return (0); 471bb0ec6b3SJim Harris } 472bb0ec6b3SJim Harris 4732868353aSJim Harris static boolean_t 4742868353aSJim Harris is_log_page_id_valid(uint8_t page_id) 4752868353aSJim Harris { 4762868353aSJim Harris 4772868353aSJim Harris switch (page_id) { 4782868353aSJim Harris case NVME_LOG_ERROR: 4792868353aSJim Harris case NVME_LOG_HEALTH_INFORMATION: 4802868353aSJim Harris case NVME_LOG_FIRMWARE_SLOT: 4812868353aSJim Harris return (TRUE); 4822868353aSJim Harris } 4832868353aSJim Harris 4842868353aSJim Harris return (FALSE); 4852868353aSJim Harris } 4862868353aSJim Harris 4872868353aSJim Harris static uint32_t 4882868353aSJim Harris nvme_ctrlr_get_log_page_size(struct nvme_controller *ctrlr, uint8_t page_id) 4892868353aSJim Harris { 4902868353aSJim Harris uint32_t log_page_size; 4912868353aSJim Harris 4922868353aSJim Harris switch (page_id) { 4932868353aSJim Harris case NVME_LOG_ERROR: 4942868353aSJim Harris log_page_size = min( 4952868353aSJim Harris sizeof(struct nvme_error_information_entry) * 4962868353aSJim Harris ctrlr->cdata.elpe, 4972868353aSJim Harris NVME_MAX_AER_LOG_SIZE); 4982868353aSJim Harris break; 4992868353aSJim Harris case NVME_LOG_HEALTH_INFORMATION: 5002868353aSJim Harris log_page_size = sizeof(struct nvme_health_information_page); 5012868353aSJim Harris break; 5022868353aSJim Harris case NVME_LOG_FIRMWARE_SLOT: 5032868353aSJim Harris log_page_size = sizeof(struct nvme_firmware_page); 5042868353aSJim Harris break; 5052868353aSJim Harris default: 5062868353aSJim Harris log_page_size = 0; 5072868353aSJim Harris break; 5082868353aSJim Harris } 5092868353aSJim Harris 5102868353aSJim Harris return (log_page_size); 5112868353aSJim Harris } 5122868353aSJim Harris 5132868353aSJim Harris static void 514bb2f67fdSJim Harris nvme_ctrlr_log_critical_warnings(struct nvme_controller *ctrlr, 515bb2f67fdSJim Harris union nvme_critical_warning_state state) 516bb2f67fdSJim Harris { 517bb2f67fdSJim Harris 518bb2f67fdSJim Harris if (state.bits.available_spare == 1) 519bb2f67fdSJim Harris nvme_printf(ctrlr, "available spare space below threshold\n"); 520bb2f67fdSJim Harris 521bb2f67fdSJim Harris if (state.bits.temperature == 1) 522bb2f67fdSJim Harris nvme_printf(ctrlr, "temperature above threshold\n"); 523bb2f67fdSJim Harris 524bb2f67fdSJim Harris if (state.bits.device_reliability == 1) 525bb2f67fdSJim Harris nvme_printf(ctrlr, "device reliability degraded\n"); 526bb2f67fdSJim Harris 527bb2f67fdSJim Harris if (state.bits.read_only == 1) 528bb2f67fdSJim Harris nvme_printf(ctrlr, "media placed in read only mode\n"); 529bb2f67fdSJim Harris 530bb2f67fdSJim Harris if (state.bits.volatile_memory_backup == 1) 531bb2f67fdSJim Harris nvme_printf(ctrlr, "volatile memory backup device failed\n"); 532bb2f67fdSJim Harris 533bb2f67fdSJim Harris if (state.bits.reserved != 0) 534bb2f67fdSJim Harris nvme_printf(ctrlr, 535bb2f67fdSJim Harris "unknown critical warning(s): state = 0x%02x\n", state.raw); 536bb2f67fdSJim Harris } 537bb2f67fdSJim Harris 538bb2f67fdSJim Harris static void 5392868353aSJim Harris nvme_ctrlr_async_event_log_page_cb(void *arg, const struct nvme_completion *cpl) 5402868353aSJim Harris { 5412868353aSJim Harris struct nvme_async_event_request *aer = arg; 542bb2f67fdSJim Harris struct nvme_health_information_page *health_info; 5432868353aSJim Harris 5440d7e13ecSJim Harris /* 5450d7e13ecSJim Harris * If the log page fetch for some reason completed with an error, 5460d7e13ecSJim Harris * don't pass log page data to the consumers. In practice, this case 5470d7e13ecSJim Harris * should never happen. 5480d7e13ecSJim Harris */ 5490d7e13ecSJim Harris if (nvme_completion_is_error(cpl)) 5500d7e13ecSJim Harris nvme_notify_async_consumers(aer->ctrlr, &aer->cpl, 5510d7e13ecSJim Harris aer->log_page_id, NULL, 0); 552bb2f67fdSJim Harris else { 553bb2f67fdSJim Harris if (aer->log_page_id == NVME_LOG_HEALTH_INFORMATION) { 554bb2f67fdSJim Harris health_info = (struct nvme_health_information_page *) 555bb2f67fdSJim Harris aer->log_page_buffer; 556bb2f67fdSJim Harris nvme_ctrlr_log_critical_warnings(aer->ctrlr, 557bb2f67fdSJim Harris health_info->critical_warning); 558bb2f67fdSJim Harris /* 559bb2f67fdSJim Harris * Critical warnings reported through the 560bb2f67fdSJim Harris * SMART/health log page are persistent, so 561bb2f67fdSJim Harris * clear the associated bits in the async event 562bb2f67fdSJim Harris * config so that we do not receive repeated 563bb2f67fdSJim Harris * notifications for the same event. 564bb2f67fdSJim Harris */ 565bb2f67fdSJim Harris aer->ctrlr->async_event_config.raw &= 566bb2f67fdSJim Harris ~health_info->critical_warning.raw; 567bb2f67fdSJim Harris nvme_ctrlr_cmd_set_async_event_config(aer->ctrlr, 568bb2f67fdSJim Harris aer->ctrlr->async_event_config, NULL, NULL); 569bb2f67fdSJim Harris } 570bb2f67fdSJim Harris 571bb2f67fdSJim Harris 5720d7e13ecSJim Harris /* 5730d7e13ecSJim Harris * Pass the cpl data from the original async event completion, 5740d7e13ecSJim Harris * not the log page fetch. 5750d7e13ecSJim Harris */ 5760d7e13ecSJim Harris nvme_notify_async_consumers(aer->ctrlr, &aer->cpl, 5770d7e13ecSJim Harris aer->log_page_id, aer->log_page_buffer, aer->log_page_size); 578bb2f67fdSJim Harris } 5792868353aSJim Harris 5802868353aSJim Harris /* 5812868353aSJim Harris * Repost another asynchronous event request to replace the one 5822868353aSJim Harris * that just completed. 5832868353aSJim Harris */ 5842868353aSJim Harris nvme_ctrlr_construct_and_submit_aer(aer->ctrlr, aer); 5852868353aSJim Harris } 5862868353aSJim Harris 587bb0ec6b3SJim Harris static void 5880a0b08ccSJim Harris nvme_ctrlr_async_event_cb(void *arg, const struct nvme_completion *cpl) 5890a0b08ccSJim Harris { 5900a0b08ccSJim Harris struct nvme_async_event_request *aer = arg; 5910a0b08ccSJim Harris 592ec526ea9SJim Harris if (nvme_completion_is_error(cpl)) { 5930a0b08ccSJim Harris /* 594ec526ea9SJim Harris * Do not retry failed async event requests. This avoids 595ec526ea9SJim Harris * infinite loops where a new async event request is submitted 596ec526ea9SJim Harris * to replace the one just failed, only to fail again and 597ec526ea9SJim Harris * perpetuate the loop. 5980a0b08ccSJim Harris */ 5990a0b08ccSJim Harris return; 6000a0b08ccSJim Harris } 6010a0b08ccSJim Harris 6022868353aSJim Harris /* Associated log page is in bits 23:16 of completion entry dw0. */ 6030d7e13ecSJim Harris aer->log_page_id = (cpl->cdw0 & 0xFF0000) >> 16; 6042868353aSJim Harris 605547d523eSJim Harris nvme_printf(aer->ctrlr, "async event occurred (log page id=0x%x)\n", 606547d523eSJim Harris aer->log_page_id); 607547d523eSJim Harris 6080d7e13ecSJim Harris if (is_log_page_id_valid(aer->log_page_id)) { 6092868353aSJim Harris aer->log_page_size = nvme_ctrlr_get_log_page_size(aer->ctrlr, 6100d7e13ecSJim Harris aer->log_page_id); 6112868353aSJim Harris memcpy(&aer->cpl, cpl, sizeof(*cpl)); 6120d7e13ecSJim Harris nvme_ctrlr_cmd_get_log_page(aer->ctrlr, aer->log_page_id, 6132868353aSJim Harris NVME_GLOBAL_NAMESPACE_TAG, aer->log_page_buffer, 6142868353aSJim Harris aer->log_page_size, nvme_ctrlr_async_event_log_page_cb, 6152868353aSJim Harris aer); 6162868353aSJim Harris /* Wait to notify consumers until after log page is fetched. */ 6172868353aSJim Harris } else { 6180d7e13ecSJim Harris nvme_notify_async_consumers(aer->ctrlr, cpl, aer->log_page_id, 6190d7e13ecSJim Harris NULL, 0); 620038a5ee4SJim Harris 6210a0b08ccSJim Harris /* 6222868353aSJim Harris * Repost another asynchronous event request to replace the one 6232868353aSJim Harris * that just completed. 6240a0b08ccSJim Harris */ 6250a0b08ccSJim Harris nvme_ctrlr_construct_and_submit_aer(aer->ctrlr, aer); 6260a0b08ccSJim Harris } 6272868353aSJim Harris } 6280a0b08ccSJim Harris 6290a0b08ccSJim Harris static void 6300a0b08ccSJim Harris nvme_ctrlr_construct_and_submit_aer(struct nvme_controller *ctrlr, 6310a0b08ccSJim Harris struct nvme_async_event_request *aer) 6320a0b08ccSJim Harris { 6330a0b08ccSJim Harris struct nvme_request *req; 6340a0b08ccSJim Harris 6350a0b08ccSJim Harris aer->ctrlr = ctrlr; 6361e526bc4SJim Harris req = nvme_allocate_request_null(nvme_ctrlr_async_event_cb, aer); 6370a0b08ccSJim Harris aer->req = req; 6380a0b08ccSJim Harris 6390a0b08ccSJim Harris /* 64094143332SJim Harris * Disable timeout here, since asynchronous event requests should by 64194143332SJim Harris * nature never be timed out. 6420a0b08ccSJim Harris */ 64394143332SJim Harris req->timeout = FALSE; 6440a0b08ccSJim Harris req->cmd.opc = NVME_OPC_ASYNC_EVENT_REQUEST; 6450a0b08ccSJim Harris nvme_ctrlr_submit_admin_request(ctrlr, req); 6460a0b08ccSJim Harris } 6470a0b08ccSJim Harris 6480a0b08ccSJim Harris static void 649bb0ec6b3SJim Harris nvme_ctrlr_configure_aer(struct nvme_controller *ctrlr) 650bb0ec6b3SJim Harris { 651d5fc9821SJim Harris struct nvme_completion_poll_status status; 6520a0b08ccSJim Harris struct nvme_async_event_request *aer; 6530a0b08ccSJim Harris uint32_t i; 654bb0ec6b3SJim Harris 655bb2f67fdSJim Harris ctrlr->async_event_config.raw = 0xFF; 656bb2f67fdSJim Harris ctrlr->async_event_config.bits.reserved = 0; 657d5fc9821SJim Harris 658d5fc9821SJim Harris status.done = FALSE; 659d5fc9821SJim Harris nvme_ctrlr_cmd_get_feature(ctrlr, NVME_FEAT_TEMPERATURE_THRESHOLD, 660d5fc9821SJim Harris 0, NULL, 0, nvme_completion_poll_cb, &status); 661d5fc9821SJim Harris while (status.done == FALSE) 662d5fc9821SJim Harris pause("nvme", 1); 663d5fc9821SJim Harris if (nvme_completion_is_error(&status.cpl) || 664d5fc9821SJim Harris (status.cpl.cdw0 & 0xFFFF) == 0xFFFF || 665d5fc9821SJim Harris (status.cpl.cdw0 & 0xFFFF) == 0x0000) { 666d5fc9821SJim Harris nvme_printf(ctrlr, "temperature threshold not supported\n"); 667bb2f67fdSJim Harris ctrlr->async_event_config.bits.temperature = 0; 668d5fc9821SJim Harris } 669d5fc9821SJim Harris 670bb2f67fdSJim Harris nvme_ctrlr_cmd_set_async_event_config(ctrlr, 671bb2f67fdSJim Harris ctrlr->async_event_config, NULL, NULL); 672bb0ec6b3SJim Harris 673bb0ec6b3SJim Harris /* aerl is a zero-based value, so we need to add 1 here. */ 6740a0b08ccSJim Harris ctrlr->num_aers = min(NVME_MAX_ASYNC_EVENTS, (ctrlr->cdata.aerl+1)); 675bb0ec6b3SJim Harris 6760a0b08ccSJim Harris for (i = 0; i < ctrlr->num_aers; i++) { 6770a0b08ccSJim Harris aer = &ctrlr->aer[i]; 6780a0b08ccSJim Harris nvme_ctrlr_construct_and_submit_aer(ctrlr, aer); 6790a0b08ccSJim Harris } 680bb0ec6b3SJim Harris } 681bb0ec6b3SJim Harris 682bb0ec6b3SJim Harris static void 683bb0ec6b3SJim Harris nvme_ctrlr_configure_int_coalescing(struct nvme_controller *ctrlr) 684bb0ec6b3SJim Harris { 685bb0ec6b3SJim Harris 686bb0ec6b3SJim Harris ctrlr->int_coal_time = 0; 687bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.int_coal_time", 688bb0ec6b3SJim Harris &ctrlr->int_coal_time); 689bb0ec6b3SJim Harris 690bb0ec6b3SJim Harris ctrlr->int_coal_threshold = 0; 691bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.int_coal_threshold", 692bb0ec6b3SJim Harris &ctrlr->int_coal_threshold); 693bb0ec6b3SJim Harris 694bb0ec6b3SJim Harris nvme_ctrlr_cmd_set_interrupt_coalescing(ctrlr, ctrlr->int_coal_time, 695bb0ec6b3SJim Harris ctrlr->int_coal_threshold, NULL, NULL); 696bb0ec6b3SJim Harris } 697bb0ec6b3SJim Harris 698be34f216SJim Harris static void 699bb0ec6b3SJim Harris nvme_ctrlr_start(void *ctrlr_arg) 700bb0ec6b3SJim Harris { 701bb0ec6b3SJim Harris struct nvme_controller *ctrlr = ctrlr_arg; 7022b647da7SJim Harris uint32_t old_num_io_queues; 703b846efd7SJim Harris int i; 704b846efd7SJim Harris 7052b647da7SJim Harris /* 7062b647da7SJim Harris * Only reset adminq here when we are restarting the 7072b647da7SJim Harris * controller after a reset. During initialization, 7082b647da7SJim Harris * we have already submitted admin commands to get 7092b647da7SJim Harris * the number of I/O queues supported, so cannot reset 7102b647da7SJim Harris * the adminq again here. 7112b647da7SJim Harris */ 7122b647da7SJim Harris if (ctrlr->is_resetting) { 713cb5b7c13SJim Harris nvme_qpair_reset(&ctrlr->adminq); 7142b647da7SJim Harris } 7152b647da7SJim Harris 716cb5b7c13SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 717cb5b7c13SJim Harris nvme_qpair_reset(&ctrlr->ioq[i]); 718cb5b7c13SJim Harris 719b846efd7SJim Harris nvme_admin_qpair_enable(&ctrlr->adminq); 720bb0ec6b3SJim Harris 721232e2edbSJim Harris if (nvme_ctrlr_identify(ctrlr) != 0) { 722232e2edbSJim Harris nvme_ctrlr_fail(ctrlr); 723be34f216SJim Harris return; 724232e2edbSJim Harris } 725bb0ec6b3SJim Harris 7262b647da7SJim Harris /* 7272b647da7SJim Harris * The number of qpairs are determined during controller initialization, 7282b647da7SJim Harris * including using NVMe SET_FEATURES/NUMBER_OF_QUEUES to determine the 7292b647da7SJim Harris * HW limit. We call SET_FEATURES again here so that it gets called 7302b647da7SJim Harris * after any reset for controllers that depend on the driver to 7312b647da7SJim Harris * explicit specify how many queues it will use. This value should 7322b647da7SJim Harris * never change between resets, so panic if somehow that does happen. 7332b647da7SJim Harris */ 7347b036d77SJim Harris if (ctrlr->is_resetting) { 7352b647da7SJim Harris old_num_io_queues = ctrlr->num_io_queues; 736232e2edbSJim Harris if (nvme_ctrlr_set_num_qpairs(ctrlr) != 0) { 737232e2edbSJim Harris nvme_ctrlr_fail(ctrlr); 738be34f216SJim Harris return; 739232e2edbSJim Harris } 740bb0ec6b3SJim Harris 7412b647da7SJim Harris if (old_num_io_queues != ctrlr->num_io_queues) { 7427b036d77SJim Harris panic("num_io_queues changed from %u to %u", 7437b036d77SJim Harris old_num_io_queues, ctrlr->num_io_queues); 7447b036d77SJim Harris } 7452b647da7SJim Harris } 7462b647da7SJim Harris 747232e2edbSJim Harris if (nvme_ctrlr_create_qpairs(ctrlr) != 0) { 748232e2edbSJim Harris nvme_ctrlr_fail(ctrlr); 749be34f216SJim Harris return; 750232e2edbSJim Harris } 751bb0ec6b3SJim Harris 752232e2edbSJim Harris if (nvme_ctrlr_construct_namespaces(ctrlr) != 0) { 753232e2edbSJim Harris nvme_ctrlr_fail(ctrlr); 754be34f216SJim Harris return; 755232e2edbSJim Harris } 756bb0ec6b3SJim Harris 757bb0ec6b3SJim Harris nvme_ctrlr_configure_aer(ctrlr); 758bb0ec6b3SJim Harris nvme_ctrlr_configure_int_coalescing(ctrlr); 759bb0ec6b3SJim Harris 760b846efd7SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 761b846efd7SJim Harris nvme_io_qpair_enable(&ctrlr->ioq[i]); 762bb0ec6b3SJim Harris } 763bb0ec6b3SJim Harris 764be34f216SJim Harris void 765be34f216SJim Harris nvme_ctrlr_start_config_hook(void *arg) 766be34f216SJim Harris { 767be34f216SJim Harris struct nvme_controller *ctrlr = arg; 768be34f216SJim Harris 7692b647da7SJim Harris nvme_qpair_reset(&ctrlr->adminq); 7702b647da7SJim Harris nvme_admin_qpair_enable(&ctrlr->adminq); 7712b647da7SJim Harris 7722b647da7SJim Harris if (nvme_ctrlr_set_num_qpairs(ctrlr) == 0 && 7732b647da7SJim Harris nvme_ctrlr_construct_io_qpairs(ctrlr) == 0) 774be34f216SJim Harris nvme_ctrlr_start(ctrlr); 7752b647da7SJim Harris else 7762b647da7SJim Harris nvme_ctrlr_fail(ctrlr); 7772b647da7SJim Harris 7782b647da7SJim Harris nvme_sysctl_initialize_ctrlr(ctrlr); 779be34f216SJim Harris config_intrhook_disestablish(&ctrlr->config_hook); 780496a2752SJim Harris 781496a2752SJim Harris ctrlr->is_initialized = 1; 782496a2752SJim Harris nvme_notify_new_controller(ctrlr); 783b846efd7SJim Harris } 784b846efd7SJim Harris 785bb0ec6b3SJim Harris static void 78648ce3178SJim Harris nvme_ctrlr_reset_task(void *arg, int pending) 78712d191ecSJim Harris { 78812d191ecSJim Harris struct nvme_controller *ctrlr = arg; 78948ce3178SJim Harris int status; 79012d191ecSJim Harris 791547d523eSJim Harris nvme_printf(ctrlr, "resetting controller\n"); 79248ce3178SJim Harris status = nvme_ctrlr_hw_reset(ctrlr); 79348ce3178SJim Harris /* 79448ce3178SJim Harris * Use pause instead of DELAY, so that we yield to any nvme interrupt 79548ce3178SJim Harris * handlers on this CPU that were blocked on a qpair lock. We want 79648ce3178SJim Harris * all nvme interrupts completed before proceeding with restarting the 79748ce3178SJim Harris * controller. 79848ce3178SJim Harris * 79948ce3178SJim Harris * XXX - any way to guarantee the interrupt handlers have quiesced? 80048ce3178SJim Harris */ 80148ce3178SJim Harris pause("nvmereset", hz / 10); 80248ce3178SJim Harris if (status == 0) 80312d191ecSJim Harris nvme_ctrlr_start(ctrlr); 804232e2edbSJim Harris else 805232e2edbSJim Harris nvme_ctrlr_fail(ctrlr); 806f37c22a3SJim Harris 807f37c22a3SJim Harris atomic_cmpset_32(&ctrlr->is_resetting, 1, 0); 80812d191ecSJim Harris } 80912d191ecSJim Harris 810f24c011bSWarner Losh void 8114d6abcb1SJim Harris nvme_ctrlr_intx_handler(void *arg) 812bb0ec6b3SJim Harris { 813bb0ec6b3SJim Harris struct nvme_controller *ctrlr = arg; 814bb0ec6b3SJim Harris 8154d6abcb1SJim Harris nvme_mmio_write_4(ctrlr, intms, 1); 8164d6abcb1SJim Harris 817bb0ec6b3SJim Harris nvme_qpair_process_completions(&ctrlr->adminq); 818bb0ec6b3SJim Harris 819361e1fb4SJim Harris if (ctrlr->ioq && ctrlr->ioq[0].cpl) 820bb0ec6b3SJim Harris nvme_qpair_process_completions(&ctrlr->ioq[0]); 821bb0ec6b3SJim Harris 822bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, intmc, 1); 823bb0ec6b3SJim Harris } 824bb0ec6b3SJim Harris 825bb0ec6b3SJim Harris static int 826bb0ec6b3SJim Harris nvme_ctrlr_configure_intx(struct nvme_controller *ctrlr) 827bb0ec6b3SJim Harris { 828bb0ec6b3SJim Harris 829d400f790SJim Harris ctrlr->msix_enabled = 0; 830bb0ec6b3SJim Harris ctrlr->num_io_queues = 1; 8312b647da7SJim Harris ctrlr->num_cpus_per_ioq = mp_ncpus; 832bb0ec6b3SJim Harris ctrlr->rid = 0; 833bb0ec6b3SJim Harris ctrlr->res = bus_alloc_resource_any(ctrlr->dev, SYS_RES_IRQ, 834bb0ec6b3SJim Harris &ctrlr->rid, RF_SHAREABLE | RF_ACTIVE); 835bb0ec6b3SJim Harris 836bb0ec6b3SJim Harris if (ctrlr->res == NULL) { 837547d523eSJim Harris nvme_printf(ctrlr, "unable to allocate shared IRQ\n"); 838bb0ec6b3SJim Harris return (ENOMEM); 839bb0ec6b3SJim Harris } 840bb0ec6b3SJim Harris 841bb0ec6b3SJim Harris bus_setup_intr(ctrlr->dev, ctrlr->res, 842bb0ec6b3SJim Harris INTR_TYPE_MISC | INTR_MPSAFE, NULL, nvme_ctrlr_intx_handler, 843bb0ec6b3SJim Harris ctrlr, &ctrlr->tag); 844bb0ec6b3SJim Harris 845bb0ec6b3SJim Harris if (ctrlr->tag == NULL) { 846547d523eSJim Harris nvme_printf(ctrlr, "unable to setup intx handler\n"); 847bb0ec6b3SJim Harris return (ENOMEM); 848bb0ec6b3SJim Harris } 849bb0ec6b3SJim Harris 850bb0ec6b3SJim Harris return (0); 851bb0ec6b3SJim Harris } 852bb0ec6b3SJim Harris 8537c3f19d7SJim Harris static void 8547c3f19d7SJim Harris nvme_pt_done(void *arg, const struct nvme_completion *cpl) 8557c3f19d7SJim Harris { 8567c3f19d7SJim Harris struct nvme_pt_command *pt = arg; 8577c3f19d7SJim Harris 8587c3f19d7SJim Harris bzero(&pt->cpl, sizeof(pt->cpl)); 8597c3f19d7SJim Harris pt->cpl.cdw0 = cpl->cdw0; 8607c3f19d7SJim Harris pt->cpl.status = cpl->status; 8617c3f19d7SJim Harris pt->cpl.status.p = 0; 8627c3f19d7SJim Harris 8637c3f19d7SJim Harris mtx_lock(pt->driver_lock); 8647c3f19d7SJim Harris wakeup(pt); 8657c3f19d7SJim Harris mtx_unlock(pt->driver_lock); 8667c3f19d7SJim Harris } 8677c3f19d7SJim Harris 8687c3f19d7SJim Harris int 8697c3f19d7SJim Harris nvme_ctrlr_passthrough_cmd(struct nvme_controller *ctrlr, 8707c3f19d7SJim Harris struct nvme_pt_command *pt, uint32_t nsid, int is_user_buffer, 8717c3f19d7SJim Harris int is_admin_cmd) 8727c3f19d7SJim Harris { 8737c3f19d7SJim Harris struct nvme_request *req; 8747c3f19d7SJim Harris struct mtx *mtx; 8757c3f19d7SJim Harris struct buf *buf = NULL; 8767c3f19d7SJim Harris int ret = 0; 8777c3f19d7SJim Harris 8787b68ae1eSJim Harris if (pt->len > 0) { 8797b68ae1eSJim Harris if (pt->len > ctrlr->max_xfer_size) { 8807b68ae1eSJim Harris nvme_printf(ctrlr, "pt->len (%d) " 8817b68ae1eSJim Harris "exceeds max_xfer_size (%d)\n", pt->len, 8827b68ae1eSJim Harris ctrlr->max_xfer_size); 8837b68ae1eSJim Harris return EIO; 8847b68ae1eSJim Harris } 8857c3f19d7SJim Harris if (is_user_buffer) { 8867c3f19d7SJim Harris /* 8877c3f19d7SJim Harris * Ensure the user buffer is wired for the duration of 8887c3f19d7SJim Harris * this passthrough command. 8897c3f19d7SJim Harris */ 8907c3f19d7SJim Harris PHOLD(curproc); 8917c3f19d7SJim Harris buf = getpbuf(NULL); 8927c3f19d7SJim Harris buf->b_data = pt->buf; 8937c3f19d7SJim Harris buf->b_bufsize = pt->len; 8947c3f19d7SJim Harris buf->b_iocmd = pt->is_read ? BIO_READ : BIO_WRITE; 8957c3f19d7SJim Harris #ifdef NVME_UNMAPPED_BIO_SUPPORT 8967c3f19d7SJim Harris if (vmapbuf(buf, 1) < 0) { 8977c3f19d7SJim Harris #else 8987c3f19d7SJim Harris if (vmapbuf(buf) < 0) { 8997c3f19d7SJim Harris #endif 9007c3f19d7SJim Harris ret = EFAULT; 9017c3f19d7SJim Harris goto err; 9027c3f19d7SJim Harris } 9037c3f19d7SJim Harris req = nvme_allocate_request_vaddr(buf->b_data, pt->len, 9047c3f19d7SJim Harris nvme_pt_done, pt); 9057c3f19d7SJim Harris } else 9067c3f19d7SJim Harris req = nvme_allocate_request_vaddr(pt->buf, pt->len, 9077c3f19d7SJim Harris nvme_pt_done, pt); 9087b68ae1eSJim Harris } else 9097c3f19d7SJim Harris req = nvme_allocate_request_null(nvme_pt_done, pt); 9107c3f19d7SJim Harris 9117c3f19d7SJim Harris req->cmd.opc = pt->cmd.opc; 9127c3f19d7SJim Harris req->cmd.cdw10 = pt->cmd.cdw10; 9137c3f19d7SJim Harris req->cmd.cdw11 = pt->cmd.cdw11; 9147c3f19d7SJim Harris req->cmd.cdw12 = pt->cmd.cdw12; 9157c3f19d7SJim Harris req->cmd.cdw13 = pt->cmd.cdw13; 9167c3f19d7SJim Harris req->cmd.cdw14 = pt->cmd.cdw14; 9177c3f19d7SJim Harris req->cmd.cdw15 = pt->cmd.cdw15; 9187c3f19d7SJim Harris 9197c3f19d7SJim Harris req->cmd.nsid = nsid; 9207c3f19d7SJim Harris 9217c3f19d7SJim Harris if (is_admin_cmd) 9227c3f19d7SJim Harris mtx = &ctrlr->lock; 9237c3f19d7SJim Harris else 9247c3f19d7SJim Harris mtx = &ctrlr->ns[nsid-1].lock; 9257c3f19d7SJim Harris 9267c3f19d7SJim Harris mtx_lock(mtx); 9277c3f19d7SJim Harris pt->driver_lock = mtx; 9287c3f19d7SJim Harris 9297c3f19d7SJim Harris if (is_admin_cmd) 9307c3f19d7SJim Harris nvme_ctrlr_submit_admin_request(ctrlr, req); 9317c3f19d7SJim Harris else 9327c3f19d7SJim Harris nvme_ctrlr_submit_io_request(ctrlr, req); 9337c3f19d7SJim Harris 9347c3f19d7SJim Harris mtx_sleep(pt, mtx, PRIBIO, "nvme_pt", 0); 9357c3f19d7SJim Harris mtx_unlock(mtx); 9367c3f19d7SJim Harris 9377c3f19d7SJim Harris pt->driver_lock = NULL; 9387c3f19d7SJim Harris 9397c3f19d7SJim Harris err: 9407c3f19d7SJim Harris if (buf != NULL) { 9417c3f19d7SJim Harris relpbuf(buf, NULL); 9427c3f19d7SJim Harris PRELE(curproc); 9437c3f19d7SJim Harris } 9447c3f19d7SJim Harris 9457c3f19d7SJim Harris return (ret); 9467c3f19d7SJim Harris } 9477c3f19d7SJim Harris 948bb0ec6b3SJim Harris static int 949bb0ec6b3SJim Harris nvme_ctrlr_ioctl(struct cdev *cdev, u_long cmd, caddr_t arg, int flag, 950bb0ec6b3SJim Harris struct thread *td) 951bb0ec6b3SJim Harris { 952bb0ec6b3SJim Harris struct nvme_controller *ctrlr; 9537c3f19d7SJim Harris struct nvme_pt_command *pt; 954bb0ec6b3SJim Harris 955bb0ec6b3SJim Harris ctrlr = cdev->si_drv1; 956bb0ec6b3SJim Harris 957bb0ec6b3SJim Harris switch (cmd) { 958b846efd7SJim Harris case NVME_RESET_CONTROLLER: 959b846efd7SJim Harris nvme_ctrlr_reset(ctrlr); 960b846efd7SJim Harris break; 9617c3f19d7SJim Harris case NVME_PASSTHROUGH_CMD: 9627c3f19d7SJim Harris pt = (struct nvme_pt_command *)arg; 9637c3f19d7SJim Harris return (nvme_ctrlr_passthrough_cmd(ctrlr, pt, pt->cmd.nsid, 9647c3f19d7SJim Harris 1 /* is_user_buffer */, 1 /* is_admin_cmd */)); 965bb0ec6b3SJim Harris default: 966bb0ec6b3SJim Harris return (ENOTTY); 967bb0ec6b3SJim Harris } 968bb0ec6b3SJim Harris 969bb0ec6b3SJim Harris return (0); 970bb0ec6b3SJim Harris } 971bb0ec6b3SJim Harris 972bb0ec6b3SJim Harris static struct cdevsw nvme_ctrlr_cdevsw = { 973bb0ec6b3SJim Harris .d_version = D_VERSION, 974bb0ec6b3SJim Harris .d_flags = 0, 975bb0ec6b3SJim Harris .d_ioctl = nvme_ctrlr_ioctl 976bb0ec6b3SJim Harris }; 977bb0ec6b3SJim Harris 978d400f790SJim Harris static void 979d400f790SJim Harris nvme_ctrlr_setup_interrupts(struct nvme_controller *ctrlr) 980d400f790SJim Harris { 981d400f790SJim Harris device_t dev; 982d400f790SJim Harris int per_cpu_io_queues; 98350dea2daSJim Harris int min_cpus_per_ioq; 984d400f790SJim Harris int num_vectors_requested, num_vectors_allocated; 9852b647da7SJim Harris int num_vectors_available; 986d400f790SJim Harris 987d400f790SJim Harris dev = ctrlr->dev; 98850dea2daSJim Harris min_cpus_per_ioq = 1; 98950dea2daSJim Harris TUNABLE_INT_FETCH("hw.nvme.min_cpus_per_ioq", &min_cpus_per_ioq); 99050dea2daSJim Harris 99150dea2daSJim Harris if (min_cpus_per_ioq < 1) { 99250dea2daSJim Harris min_cpus_per_ioq = 1; 99350dea2daSJim Harris } else if (min_cpus_per_ioq > mp_ncpus) { 99450dea2daSJim Harris min_cpus_per_ioq = mp_ncpus; 99550dea2daSJim Harris } 99650dea2daSJim Harris 997d400f790SJim Harris per_cpu_io_queues = 1; 998d400f790SJim Harris TUNABLE_INT_FETCH("hw.nvme.per_cpu_io_queues", &per_cpu_io_queues); 999d400f790SJim Harris 100050dea2daSJim Harris if (per_cpu_io_queues == 0) { 100150dea2daSJim Harris min_cpus_per_ioq = mp_ncpus; 100250dea2daSJim Harris } 100350dea2daSJim Harris 1004d400f790SJim Harris ctrlr->force_intx = 0; 1005d400f790SJim Harris TUNABLE_INT_FETCH("hw.nvme.force_intx", &ctrlr->force_intx); 1006d400f790SJim Harris 10072b647da7SJim Harris /* 10082b647da7SJim Harris * FreeBSD currently cannot allocate more than about 190 vectors at 10092b647da7SJim Harris * boot, meaning that systems with high core count and many devices 10102b647da7SJim Harris * requesting per-CPU interrupt vectors will not get their full 10112b647da7SJim Harris * allotment. So first, try to allocate as many as we may need to 10122b647da7SJim Harris * understand what is available, then immediately release them. 10132b647da7SJim Harris * Then figure out how many of those we will actually use, based on 10142b647da7SJim Harris * assigning an equal number of cores to each I/O queue. 10152b647da7SJim Harris */ 10162b647da7SJim Harris 10172b647da7SJim Harris /* One vector for per core I/O queue, plus one vector for admin queue. */ 10182b647da7SJim Harris num_vectors_available = min(pci_msix_count(dev), mp_ncpus + 1); 10192b647da7SJim Harris if (pci_alloc_msix(dev, &num_vectors_available) != 0) { 10202b647da7SJim Harris num_vectors_available = 0; 10212b647da7SJim Harris } 10222b647da7SJim Harris pci_release_msi(dev); 10232b647da7SJim Harris 10242b647da7SJim Harris if (ctrlr->force_intx || num_vectors_available < 2) { 1025d400f790SJim Harris nvme_ctrlr_configure_intx(ctrlr); 1026d400f790SJim Harris return; 1027d400f790SJim Harris } 1028d400f790SJim Harris 102950dea2daSJim Harris /* 103050dea2daSJim Harris * Do not use all vectors for I/O queues - one must be saved for the 103150dea2daSJim Harris * admin queue. 103250dea2daSJim Harris */ 103350dea2daSJim Harris ctrlr->num_cpus_per_ioq = max(min_cpus_per_ioq, 10349c6b5d40SJim Harris howmany(mp_ncpus, num_vectors_available - 1)); 1035d400f790SJim Harris 10369c6b5d40SJim Harris ctrlr->num_io_queues = howmany(mp_ncpus, ctrlr->num_cpus_per_ioq); 1037d400f790SJim Harris num_vectors_requested = ctrlr->num_io_queues + 1; 1038d400f790SJim Harris num_vectors_allocated = num_vectors_requested; 10392b647da7SJim Harris 10402b647da7SJim Harris /* 10412b647da7SJim Harris * Now just allocate the number of vectors we need. This should 10422b647da7SJim Harris * succeed, since we previously called pci_alloc_msix() 10432b647da7SJim Harris * successfully returning at least this many vectors, but just to 10442b647da7SJim Harris * be safe, if something goes wrong just revert to INTx. 10452b647da7SJim Harris */ 1046d400f790SJim Harris if (pci_alloc_msix(dev, &num_vectors_allocated) != 0) { 1047d400f790SJim Harris nvme_ctrlr_configure_intx(ctrlr); 1048d400f790SJim Harris return; 1049d400f790SJim Harris } 1050d400f790SJim Harris 1051d400f790SJim Harris if (num_vectors_allocated < num_vectors_requested) { 1052d400f790SJim Harris pci_release_msi(dev); 1053d400f790SJim Harris nvme_ctrlr_configure_intx(ctrlr); 1054d400f790SJim Harris return; 1055d400f790SJim Harris } 1056d400f790SJim Harris 10572b647da7SJim Harris ctrlr->msix_enabled = 1; 1058d400f790SJim Harris } 1059d400f790SJim Harris 1060bb0ec6b3SJim Harris int 1061bb0ec6b3SJim Harris nvme_ctrlr_construct(struct nvme_controller *ctrlr, device_t dev) 1062bb0ec6b3SJim Harris { 1063bb0ec6b3SJim Harris union cap_lo_register cap_lo; 1064bb0ec6b3SJim Harris union cap_hi_register cap_hi; 1065f42ca756SJim Harris int status, timeout_period; 1066bb0ec6b3SJim Harris 1067bb0ec6b3SJim Harris ctrlr->dev = dev; 1068bb0ec6b3SJim Harris 1069a90b8104SJim Harris mtx_init(&ctrlr->lock, "nvme ctrlr lock", NULL, MTX_DEF); 1070a90b8104SJim Harris 1071bb0ec6b3SJim Harris status = nvme_ctrlr_allocate_bar(ctrlr); 1072bb0ec6b3SJim Harris 1073bb0ec6b3SJim Harris if (status != 0) 1074bb0ec6b3SJim Harris return (status); 1075bb0ec6b3SJim Harris 1076bb0ec6b3SJim Harris /* 1077bb0ec6b3SJim Harris * Software emulators may set the doorbell stride to something 1078bb0ec6b3SJim Harris * other than zero, but this driver is not set up to handle that. 1079bb0ec6b3SJim Harris */ 1080bb0ec6b3SJim Harris cap_hi.raw = nvme_mmio_read_4(ctrlr, cap_hi); 1081bb0ec6b3SJim Harris if (cap_hi.bits.dstrd != 0) 1082bb0ec6b3SJim Harris return (ENXIO); 1083bb0ec6b3SJim Harris 108402e33484SJim Harris ctrlr->min_page_size = 1 << (12 + cap_hi.bits.mpsmin); 108502e33484SJim Harris 1086bb0ec6b3SJim Harris /* Get ready timeout value from controller, in units of 500ms. */ 1087bb0ec6b3SJim Harris cap_lo.raw = nvme_mmio_read_4(ctrlr, cap_lo); 1088bb0ec6b3SJim Harris ctrlr->ready_timeout_in_ms = cap_lo.bits.to * 500; 1089bb0ec6b3SJim Harris 109094143332SJim Harris timeout_period = NVME_DEFAULT_TIMEOUT_PERIOD; 109194143332SJim Harris TUNABLE_INT_FETCH("hw.nvme.timeout_period", &timeout_period); 109294143332SJim Harris timeout_period = min(timeout_period, NVME_MAX_TIMEOUT_PERIOD); 109394143332SJim Harris timeout_period = max(timeout_period, NVME_MIN_TIMEOUT_PERIOD); 109494143332SJim Harris ctrlr->timeout_period = timeout_period; 109594143332SJim Harris 1096cb5b7c13SJim Harris nvme_retry_count = NVME_DEFAULT_RETRY_COUNT; 1097cb5b7c13SJim Harris TUNABLE_INT_FETCH("hw.nvme.retry_count", &nvme_retry_count); 1098cb5b7c13SJim Harris 109948ce3178SJim Harris ctrlr->enable_aborts = 0; 110048ce3178SJim Harris TUNABLE_INT_FETCH("hw.nvme.enable_aborts", &ctrlr->enable_aborts); 110148ce3178SJim Harris 1102d400f790SJim Harris nvme_ctrlr_setup_interrupts(ctrlr); 1103bb0ec6b3SJim Harris 11048d09e3c4SJim Harris ctrlr->max_xfer_size = NVME_MAX_XFER_SIZE; 1105*a965389bSScott Long if (nvme_ctrlr_construct_admin_qpair(ctrlr) != 0) 1106*a965389bSScott Long return (ENXIO); 1107bb0ec6b3SJim Harris 1108d603c3d7SJim Harris ctrlr->cdev = make_dev(&nvme_ctrlr_cdevsw, device_get_unit(dev), 1109d603c3d7SJim Harris UID_ROOT, GID_WHEEL, 0600, "nvme%d", device_get_unit(dev)); 1110bb0ec6b3SJim Harris 1111bb0ec6b3SJim Harris if (ctrlr->cdev == NULL) 1112bb0ec6b3SJim Harris return (ENXIO); 1113bb0ec6b3SJim Harris 1114bb0ec6b3SJim Harris ctrlr->cdev->si_drv1 = (void *)ctrlr; 1115bb0ec6b3SJim Harris 111612d191ecSJim Harris ctrlr->taskqueue = taskqueue_create("nvme_taskq", M_WAITOK, 111712d191ecSJim Harris taskqueue_thread_enqueue, &ctrlr->taskqueue); 111812d191ecSJim Harris taskqueue_start_threads(&ctrlr->taskqueue, 1, PI_DISK, "nvme taskq"); 111912d191ecSJim Harris 1120f37c22a3SJim Harris ctrlr->is_resetting = 0; 1121496a2752SJim Harris ctrlr->is_initialized = 0; 1122496a2752SJim Harris ctrlr->notification_sent = 0; 1123232e2edbSJim Harris TASK_INIT(&ctrlr->reset_task, 0, nvme_ctrlr_reset_task, ctrlr); 1124232e2edbSJim Harris 1125232e2edbSJim Harris TASK_INIT(&ctrlr->fail_req_task, 0, nvme_ctrlr_fail_req_task, ctrlr); 1126232e2edbSJim Harris STAILQ_INIT(&ctrlr->fail_req); 1127232e2edbSJim Harris ctrlr->is_failed = FALSE; 1128f37c22a3SJim Harris 1129bb0ec6b3SJim Harris return (0); 1130bb0ec6b3SJim Harris } 1131d281e8fbSJim Harris 1132d281e8fbSJim Harris void 1133990e741cSJim Harris nvme_ctrlr_destruct(struct nvme_controller *ctrlr, device_t dev) 1134990e741cSJim Harris { 1135990e741cSJim Harris int i; 1136990e741cSJim Harris 113756183abcSJim Harris /* 113856183abcSJim Harris * Notify the controller of a shutdown, even though this is due to 113956183abcSJim Harris * a driver unload, not a system shutdown (this path is not invoked 114056183abcSJim Harris * during shutdown). This ensures the controller receives a 114156183abcSJim Harris * shutdown notification in case the system is shutdown before 114256183abcSJim Harris * reloading the driver. 114356183abcSJim Harris */ 114456183abcSJim Harris nvme_ctrlr_shutdown(ctrlr); 114556183abcSJim Harris 11463d7eb41cSJim Harris nvme_ctrlr_disable(ctrlr); 114712d191ecSJim Harris taskqueue_free(ctrlr->taskqueue); 114812d191ecSJim Harris 1149b846efd7SJim Harris for (i = 0; i < NVME_MAX_NAMESPACES; i++) 1150b846efd7SJim Harris nvme_ns_destruct(&ctrlr->ns[i]); 1151990e741cSJim Harris 1152990e741cSJim Harris if (ctrlr->cdev) 1153990e741cSJim Harris destroy_dev(ctrlr->cdev); 1154990e741cSJim Harris 1155990e741cSJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) { 1156990e741cSJim Harris nvme_io_qpair_destroy(&ctrlr->ioq[i]); 1157990e741cSJim Harris } 1158990e741cSJim Harris 1159990e741cSJim Harris free(ctrlr->ioq, M_NVME); 1160990e741cSJim Harris 1161990e741cSJim Harris nvme_admin_qpair_destroy(&ctrlr->adminq); 1162990e741cSJim Harris 1163990e741cSJim Harris if (ctrlr->resource != NULL) { 1164990e741cSJim Harris bus_release_resource(dev, SYS_RES_MEMORY, 1165990e741cSJim Harris ctrlr->resource_id, ctrlr->resource); 1166990e741cSJim Harris } 1167990e741cSJim Harris 1168990e741cSJim Harris if (ctrlr->bar4_resource != NULL) { 1169990e741cSJim Harris bus_release_resource(dev, SYS_RES_MEMORY, 1170990e741cSJim Harris ctrlr->bar4_resource_id, ctrlr->bar4_resource); 1171990e741cSJim Harris } 1172990e741cSJim Harris 1173990e741cSJim Harris if (ctrlr->tag) 1174990e741cSJim Harris bus_teardown_intr(ctrlr->dev, ctrlr->res, ctrlr->tag); 1175990e741cSJim Harris 1176990e741cSJim Harris if (ctrlr->res) 1177990e741cSJim Harris bus_release_resource(ctrlr->dev, SYS_RES_IRQ, 1178990e741cSJim Harris rman_get_rid(ctrlr->res), ctrlr->res); 1179990e741cSJim Harris 1180990e741cSJim Harris if (ctrlr->msix_enabled) 1181990e741cSJim Harris pci_release_msi(dev); 1182990e741cSJim Harris } 1183990e741cSJim Harris 1184990e741cSJim Harris void 118556183abcSJim Harris nvme_ctrlr_shutdown(struct nvme_controller *ctrlr) 118656183abcSJim Harris { 118756183abcSJim Harris union cc_register cc; 118856183abcSJim Harris union csts_register csts; 118956183abcSJim Harris int ticks = 0; 119056183abcSJim Harris 119156183abcSJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 119256183abcSJim Harris cc.bits.shn = NVME_SHN_NORMAL; 119356183abcSJim Harris nvme_mmio_write_4(ctrlr, cc, cc.raw); 119456183abcSJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 119556183abcSJim Harris while ((csts.bits.shst != NVME_SHST_COMPLETE) && (ticks++ < 5*hz)) { 119656183abcSJim Harris pause("nvme shn", 1); 119756183abcSJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 119856183abcSJim Harris } 119956183abcSJim Harris if (csts.bits.shst != NVME_SHST_COMPLETE) 120056183abcSJim Harris nvme_printf(ctrlr, "did not complete shutdown within 5 seconds " 120156183abcSJim Harris "of notification\n"); 120256183abcSJim Harris } 120356183abcSJim Harris 120456183abcSJim Harris void 1205d281e8fbSJim Harris nvme_ctrlr_submit_admin_request(struct nvme_controller *ctrlr, 1206d281e8fbSJim Harris struct nvme_request *req) 1207d281e8fbSJim Harris { 1208d281e8fbSJim Harris 12095ae9ed68SJim Harris nvme_qpair_submit_request(&ctrlr->adminq, req); 1210d281e8fbSJim Harris } 1211d281e8fbSJim Harris 1212d281e8fbSJim Harris void 1213d281e8fbSJim Harris nvme_ctrlr_submit_io_request(struct nvme_controller *ctrlr, 1214d281e8fbSJim Harris struct nvme_request *req) 1215d281e8fbSJim Harris { 1216d281e8fbSJim Harris struct nvme_qpair *qpair; 1217d281e8fbSJim Harris 12182b647da7SJim Harris qpair = &ctrlr->ioq[curcpu / ctrlr->num_cpus_per_ioq]; 12195ae9ed68SJim Harris nvme_qpair_submit_request(qpair, req); 1220d281e8fbSJim Harris } 1221038a5ee4SJim Harris 1222038a5ee4SJim Harris device_t 1223038a5ee4SJim Harris nvme_ctrlr_get_device(struct nvme_controller *ctrlr) 1224038a5ee4SJim Harris { 1225038a5ee4SJim Harris 1226038a5ee4SJim Harris return (ctrlr->dev); 1227038a5ee4SJim Harris } 1228dbba7442SJim Harris 1229dbba7442SJim Harris const struct nvme_controller_data * 1230dbba7442SJim Harris nvme_ctrlr_get_data(struct nvme_controller *ctrlr) 1231dbba7442SJim Harris { 1232dbba7442SJim Harris 1233dbba7442SJim Harris return (&ctrlr->cdata); 1234dbba7442SJim Harris } 1235