1bb0ec6b3SJim Harris /*- 2bb0ec6b3SJim Harris * Copyright (C) 2012 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 30bb0ec6b3SJim Harris #include <sys/param.h> 31bb0ec6b3SJim Harris #include <sys/bus.h> 32bb0ec6b3SJim Harris #include <sys/conf.h> 33bb0ec6b3SJim Harris #include <sys/ioccom.h> 34bb0ec6b3SJim Harris #include <sys/smp.h> 35bb0ec6b3SJim Harris 36bb0ec6b3SJim Harris #include <dev/pci/pcireg.h> 37bb0ec6b3SJim Harris #include <dev/pci/pcivar.h> 38bb0ec6b3SJim Harris 39bb0ec6b3SJim Harris #include "nvme_private.h" 40bb0ec6b3SJim Harris 410a0b08ccSJim Harris static void nvme_ctrlr_construct_and_submit_aer(struct nvme_controller *ctrlr, 420a0b08ccSJim Harris struct nvme_async_event_request *aer); 430a0b08ccSJim Harris 44bb0ec6b3SJim Harris static void 45bb0ec6b3SJim Harris nvme_ctrlr_cb(void *arg, const struct nvme_completion *status) 46bb0ec6b3SJim Harris { 47bb0ec6b3SJim Harris struct nvme_completion *cpl = arg; 48bb0ec6b3SJim Harris struct mtx *mtx; 49bb0ec6b3SJim Harris 50bb0ec6b3SJim Harris /* 51bb0ec6b3SJim Harris * Copy status into the argument passed by the caller, so that 52bb0ec6b3SJim Harris * the caller can check the status to determine if the 53bb0ec6b3SJim Harris * the request passed or failed. 54bb0ec6b3SJim Harris */ 55bb0ec6b3SJim Harris memcpy(cpl, status, sizeof(*cpl)); 56bb0ec6b3SJim Harris mtx = mtx_pool_find(mtxpool_sleep, cpl); 57bb0ec6b3SJim Harris mtx_lock(mtx); 58bb0ec6b3SJim Harris wakeup(cpl); 59bb0ec6b3SJim Harris mtx_unlock(mtx); 60bb0ec6b3SJim Harris } 61bb0ec6b3SJim Harris 62bb0ec6b3SJim Harris static int 63bb0ec6b3SJim Harris nvme_ctrlr_allocate_bar(struct nvme_controller *ctrlr) 64bb0ec6b3SJim Harris { 65bb0ec6b3SJim Harris 66bb0ec6b3SJim Harris /* Chatham puts the NVMe MMRs behind BAR 2/3, not BAR 0/1. */ 67bb0ec6b3SJim Harris if (pci_get_devid(ctrlr->dev) == CHATHAM_PCI_ID) 68bb0ec6b3SJim Harris ctrlr->resource_id = PCIR_BAR(2); 69bb0ec6b3SJim Harris else 70bb0ec6b3SJim Harris ctrlr->resource_id = PCIR_BAR(0); 71bb0ec6b3SJim Harris 72bb0ec6b3SJim Harris ctrlr->resource = bus_alloc_resource(ctrlr->dev, SYS_RES_MEMORY, 73bb0ec6b3SJim Harris &ctrlr->resource_id, 0, ~0, 1, RF_ACTIVE); 74bb0ec6b3SJim Harris 75bb0ec6b3SJim Harris if(ctrlr->resource == NULL) { 76bb0ec6b3SJim Harris device_printf(ctrlr->dev, "unable to allocate pci resource\n"); 77bb0ec6b3SJim Harris return (ENOMEM); 78bb0ec6b3SJim Harris } 79bb0ec6b3SJim Harris 80bb0ec6b3SJim Harris ctrlr->bus_tag = rman_get_bustag(ctrlr->resource); 81bb0ec6b3SJim Harris ctrlr->bus_handle = rman_get_bushandle(ctrlr->resource); 82bb0ec6b3SJim Harris ctrlr->regs = (struct nvme_registers *)ctrlr->bus_handle; 83bb0ec6b3SJim Harris 8491fe20e3SJim Harris /* 8591fe20e3SJim Harris * The NVMe spec allows for the MSI-X table to be placed behind 8691fe20e3SJim Harris * BAR 4/5, separate from the control/doorbell registers. Always 8791fe20e3SJim Harris * try to map this bar, because it must be mapped prior to calling 8891fe20e3SJim Harris * pci_alloc_msix(). If the table isn't behind BAR 4/5, 8991fe20e3SJim Harris * bus_alloc_resource() will just return NULL which is OK. 9091fe20e3SJim Harris */ 9191fe20e3SJim Harris ctrlr->bar4_resource_id = PCIR_BAR(4); 9291fe20e3SJim Harris ctrlr->bar4_resource = bus_alloc_resource(ctrlr->dev, SYS_RES_MEMORY, 9391fe20e3SJim Harris &ctrlr->bar4_resource_id, 0, ~0, 1, RF_ACTIVE); 9491fe20e3SJim Harris 95bb0ec6b3SJim Harris return (0); 96bb0ec6b3SJim Harris } 97bb0ec6b3SJim Harris 98bb0ec6b3SJim Harris #ifdef CHATHAM2 99bb0ec6b3SJim Harris static int 100bb0ec6b3SJim Harris nvme_ctrlr_allocate_chatham_bar(struct nvme_controller *ctrlr) 101bb0ec6b3SJim Harris { 102bb0ec6b3SJim Harris 103bb0ec6b3SJim Harris ctrlr->chatham_resource_id = PCIR_BAR(CHATHAM_CONTROL_BAR); 104bb0ec6b3SJim Harris ctrlr->chatham_resource = bus_alloc_resource(ctrlr->dev, 105bb0ec6b3SJim Harris SYS_RES_MEMORY, &ctrlr->chatham_resource_id, 0, ~0, 1, 106bb0ec6b3SJim Harris RF_ACTIVE); 107bb0ec6b3SJim Harris 108bb0ec6b3SJim Harris if(ctrlr->chatham_resource == NULL) { 109bb0ec6b3SJim Harris device_printf(ctrlr->dev, "unable to alloc pci resource\n"); 110bb0ec6b3SJim Harris return (ENOMEM); 111bb0ec6b3SJim Harris } 112bb0ec6b3SJim Harris 113bb0ec6b3SJim Harris ctrlr->chatham_bus_tag = rman_get_bustag(ctrlr->chatham_resource); 114bb0ec6b3SJim Harris ctrlr->chatham_bus_handle = 115bb0ec6b3SJim Harris rman_get_bushandle(ctrlr->chatham_resource); 116bb0ec6b3SJim Harris 117bb0ec6b3SJim Harris return (0); 118bb0ec6b3SJim Harris } 119bb0ec6b3SJim Harris 120bb0ec6b3SJim Harris static void 121bb0ec6b3SJim Harris nvme_ctrlr_setup_chatham(struct nvme_controller *ctrlr) 122bb0ec6b3SJim Harris { 123bb0ec6b3SJim Harris uint64_t reg1, reg2, reg3; 124bb0ec6b3SJim Harris uint64_t temp1, temp2; 125bb0ec6b3SJim Harris uint32_t temp3; 126bb0ec6b3SJim Harris uint32_t use_flash_timings = 0; 127bb0ec6b3SJim Harris 128bb0ec6b3SJim Harris DELAY(10000); 129bb0ec6b3SJim Harris 130bb0ec6b3SJim Harris temp3 = chatham_read_4(ctrlr, 0x8080); 131bb0ec6b3SJim Harris 132bb0ec6b3SJim Harris device_printf(ctrlr->dev, "Chatham version: 0x%x\n", temp3); 133bb0ec6b3SJim Harris 134bb0ec6b3SJim Harris ctrlr->chatham_lbas = chatham_read_4(ctrlr, 0x8068) - 0x110; 135bb0ec6b3SJim Harris ctrlr->chatham_size = ctrlr->chatham_lbas * 512; 136bb0ec6b3SJim Harris 1374b52061eSDavid E. O'Brien device_printf(ctrlr->dev, "Chatham size: %jd\n", 1384b52061eSDavid E. O'Brien (intmax_t)ctrlr->chatham_size); 139bb0ec6b3SJim Harris 140bb0ec6b3SJim Harris reg1 = reg2 = reg3 = ctrlr->chatham_size - 1; 141bb0ec6b3SJim Harris 142bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.use_flash_timings", &use_flash_timings); 143bb0ec6b3SJim Harris if (use_flash_timings) { 144bb0ec6b3SJim Harris device_printf(ctrlr->dev, "Chatham: using flash timings\n"); 145bb0ec6b3SJim Harris temp1 = 0x00001b58000007d0LL; 146bb0ec6b3SJim Harris temp2 = 0x000000cb00000131LL; 147bb0ec6b3SJim Harris } else { 148bb0ec6b3SJim Harris device_printf(ctrlr->dev, "Chatham: using DDR timings\n"); 149bb0ec6b3SJim Harris temp1 = temp2 = 0x0LL; 150bb0ec6b3SJim Harris } 151bb0ec6b3SJim Harris 152bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8000, reg1); 153bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8008, reg2); 154bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8010, reg3); 155bb0ec6b3SJim Harris 156bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8020, temp1); 157bb0ec6b3SJim Harris temp3 = chatham_read_4(ctrlr, 0x8020); 158bb0ec6b3SJim Harris 159bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8028, temp2); 160bb0ec6b3SJim Harris temp3 = chatham_read_4(ctrlr, 0x8028); 161bb0ec6b3SJim Harris 162bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8030, temp1); 163bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8038, temp2); 164bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8040, temp1); 165bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8048, temp2); 166bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8050, temp1); 167bb0ec6b3SJim Harris chatham_write_8(ctrlr, 0x8058, temp2); 168bb0ec6b3SJim Harris 169bb0ec6b3SJim Harris DELAY(10000); 170bb0ec6b3SJim Harris } 171bb0ec6b3SJim Harris 172bb0ec6b3SJim Harris static void 173bb0ec6b3SJim Harris nvme_chatham_populate_cdata(struct nvme_controller *ctrlr) 174bb0ec6b3SJim Harris { 175bb0ec6b3SJim Harris struct nvme_controller_data *cdata; 176bb0ec6b3SJim Harris 177bb0ec6b3SJim Harris cdata = &ctrlr->cdata; 178bb0ec6b3SJim Harris 179bb0ec6b3SJim Harris cdata->vid = 0x8086; 180bb0ec6b3SJim Harris cdata->ssvid = 0x2011; 181bb0ec6b3SJim Harris 182bb0ec6b3SJim Harris /* 183bb0ec6b3SJim Harris * Chatham2 puts garbage data in these fields when we 184bb0ec6b3SJim Harris * invoke IDENTIFY_CONTROLLER, so we need to re-zero 185bb0ec6b3SJim Harris * the fields before calling bcopy(). 186bb0ec6b3SJim Harris */ 187bb0ec6b3SJim Harris memset(cdata->sn, 0, sizeof(cdata->sn)); 188bb0ec6b3SJim Harris memcpy(cdata->sn, "2012", strlen("2012")); 189bb0ec6b3SJim Harris memset(cdata->mn, 0, sizeof(cdata->mn)); 190bb0ec6b3SJim Harris memcpy(cdata->mn, "CHATHAM2", strlen("CHATHAM2")); 191bb0ec6b3SJim Harris memset(cdata->fr, 0, sizeof(cdata->fr)); 192bb0ec6b3SJim Harris memcpy(cdata->fr, "0", strlen("0")); 193bb0ec6b3SJim Harris cdata->rab = 8; 194bb0ec6b3SJim Harris cdata->aerl = 3; 195bb0ec6b3SJim Harris cdata->lpa.ns_smart = 1; 196bb0ec6b3SJim Harris cdata->sqes.min = 6; 197bb0ec6b3SJim Harris cdata->sqes.max = 6; 198bb0ec6b3SJim Harris cdata->sqes.min = 4; 199bb0ec6b3SJim Harris cdata->sqes.max = 4; 200bb0ec6b3SJim Harris cdata->nn = 1; 201bb0ec6b3SJim Harris 202bb0ec6b3SJim Harris /* Chatham2 doesn't support DSM command */ 203bb0ec6b3SJim Harris cdata->oncs.dsm = 0; 204bb0ec6b3SJim Harris 205bb0ec6b3SJim Harris cdata->vwc.present = 1; 206bb0ec6b3SJim Harris } 207bb0ec6b3SJim Harris #endif /* CHATHAM2 */ 208bb0ec6b3SJim Harris 209bb0ec6b3SJim Harris static void 210bb0ec6b3SJim Harris nvme_ctrlr_construct_admin_qpair(struct nvme_controller *ctrlr) 211bb0ec6b3SJim Harris { 212bb0ec6b3SJim Harris struct nvme_qpair *qpair; 213bb0ec6b3SJim Harris uint32_t num_entries; 214bb0ec6b3SJim Harris 215bb0ec6b3SJim Harris qpair = &ctrlr->adminq; 216bb0ec6b3SJim Harris 217bb0ec6b3SJim Harris num_entries = NVME_ADMIN_ENTRIES; 218bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.admin_entries", &num_entries); 219bb0ec6b3SJim Harris /* 220bb0ec6b3SJim Harris * If admin_entries was overridden to an invalid value, revert it 221bb0ec6b3SJim Harris * back to our default value. 222bb0ec6b3SJim Harris */ 223bb0ec6b3SJim Harris if (num_entries < NVME_MIN_ADMIN_ENTRIES || 224bb0ec6b3SJim Harris num_entries > NVME_MAX_ADMIN_ENTRIES) { 225bb0ec6b3SJim Harris printf("nvme: invalid hw.nvme.admin_entries=%d specified\n", 226bb0ec6b3SJim Harris num_entries); 227bb0ec6b3SJim Harris num_entries = NVME_ADMIN_ENTRIES; 228bb0ec6b3SJim Harris } 229bb0ec6b3SJim Harris 230bb0ec6b3SJim Harris /* 231bb0ec6b3SJim Harris * The admin queue's max xfer size is treated differently than the 232bb0ec6b3SJim Harris * max I/O xfer size. 16KB is sufficient here - maybe even less? 233bb0ec6b3SJim Harris */ 23421b6da58SJim Harris nvme_qpair_construct(qpair, 23521b6da58SJim Harris 0, /* qpair ID */ 23621b6da58SJim Harris 0, /* vector */ 23721b6da58SJim Harris num_entries, 23821b6da58SJim Harris NVME_ADMIN_TRACKERS, 23921b6da58SJim Harris 16*1024, /* max xfer size */ 24021b6da58SJim Harris ctrlr); 241bb0ec6b3SJim Harris } 242bb0ec6b3SJim Harris 243bb0ec6b3SJim Harris static int 244bb0ec6b3SJim Harris nvme_ctrlr_construct_io_qpairs(struct nvme_controller *ctrlr) 245bb0ec6b3SJim Harris { 246bb0ec6b3SJim Harris struct nvme_qpair *qpair; 247bb0ec6b3SJim Harris union cap_lo_register cap_lo; 24821b6da58SJim Harris int i, num_entries, num_trackers; 249bb0ec6b3SJim Harris 250bb0ec6b3SJim Harris num_entries = NVME_IO_ENTRIES; 251bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.io_entries", &num_entries); 252bb0ec6b3SJim Harris 253bb0ec6b3SJim Harris /* 254bb0ec6b3SJim Harris * NVMe spec sets a hard limit of 64K max entries, but 255bb0ec6b3SJim Harris * devices may specify a smaller limit, so we need to check 256bb0ec6b3SJim Harris * the MQES field in the capabilities register. 257bb0ec6b3SJim Harris */ 258bb0ec6b3SJim Harris cap_lo.raw = nvme_mmio_read_4(ctrlr, cap_lo); 259bb0ec6b3SJim Harris num_entries = min(num_entries, cap_lo.bits.mqes+1); 260bb0ec6b3SJim Harris 26121b6da58SJim Harris num_trackers = NVME_IO_TRACKERS; 26221b6da58SJim Harris TUNABLE_INT_FETCH("hw.nvme.io_trackers", &num_trackers); 26321b6da58SJim Harris 26421b6da58SJim Harris num_trackers = max(num_trackers, NVME_MIN_IO_TRACKERS); 26521b6da58SJim Harris num_trackers = min(num_trackers, NVME_MAX_IO_TRACKERS); 26621b6da58SJim Harris /* 26721b6da58SJim Harris * No need to have more trackers than entries in the submit queue. 26821b6da58SJim Harris * Note also that for a queue size of N, we can only have (N-1) 26921b6da58SJim Harris * commands outstanding, hence the "-1" here. 27021b6da58SJim Harris */ 27121b6da58SJim Harris num_trackers = min(num_trackers, (num_entries-1)); 27221b6da58SJim Harris 273bb0ec6b3SJim Harris ctrlr->max_xfer_size = NVME_MAX_XFER_SIZE; 274bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.max_xfer_size", &ctrlr->max_xfer_size); 275bb0ec6b3SJim Harris /* 276bb0ec6b3SJim Harris * Check that tunable doesn't specify a size greater than what our 277bb0ec6b3SJim Harris * driver supports, and is an even PAGE_SIZE multiple. 278bb0ec6b3SJim Harris */ 279bb0ec6b3SJim Harris if (ctrlr->max_xfer_size > NVME_MAX_XFER_SIZE || 280bb0ec6b3SJim Harris ctrlr->max_xfer_size % PAGE_SIZE) 281bb0ec6b3SJim Harris ctrlr->max_xfer_size = NVME_MAX_XFER_SIZE; 282bb0ec6b3SJim Harris 283bb0ec6b3SJim Harris ctrlr->ioq = malloc(ctrlr->num_io_queues * sizeof(struct nvme_qpair), 284bb0ec6b3SJim Harris M_NVME, M_ZERO | M_NOWAIT); 285bb0ec6b3SJim Harris 286bb0ec6b3SJim Harris if (ctrlr->ioq == NULL) 287bb0ec6b3SJim Harris return (ENOMEM); 288bb0ec6b3SJim Harris 289bb0ec6b3SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) { 290bb0ec6b3SJim Harris qpair = &ctrlr->ioq[i]; 291bb0ec6b3SJim Harris 292bb0ec6b3SJim Harris /* 293bb0ec6b3SJim Harris * Admin queue has ID=0. IO queues start at ID=1 - 294bb0ec6b3SJim Harris * hence the 'i+1' here. 295bb0ec6b3SJim Harris * 296bb0ec6b3SJim Harris * For I/O queues, use the controller-wide max_xfer_size 297bb0ec6b3SJim Harris * calculated in nvme_attach(). 298bb0ec6b3SJim Harris */ 299bb0ec6b3SJim Harris nvme_qpair_construct(qpair, 300bb0ec6b3SJim Harris i+1, /* qpair ID */ 301bb0ec6b3SJim Harris ctrlr->msix_enabled ? i+1 : 0, /* vector */ 302bb0ec6b3SJim Harris num_entries, 30321b6da58SJim Harris num_trackers, 304bb0ec6b3SJim Harris ctrlr->max_xfer_size, 305bb0ec6b3SJim Harris ctrlr); 306bb0ec6b3SJim Harris 307bb0ec6b3SJim Harris if (ctrlr->per_cpu_io_queues) 308bb0ec6b3SJim Harris bus_bind_intr(ctrlr->dev, qpair->res, i); 309bb0ec6b3SJim Harris } 310bb0ec6b3SJim Harris 311bb0ec6b3SJim Harris return (0); 312bb0ec6b3SJim Harris } 313bb0ec6b3SJim Harris 314bb0ec6b3SJim Harris static int 315bb0ec6b3SJim Harris nvme_ctrlr_wait_for_ready(struct nvme_controller *ctrlr) 316bb0ec6b3SJim Harris { 317bb0ec6b3SJim Harris int ms_waited; 318bb0ec6b3SJim Harris union cc_register cc; 319bb0ec6b3SJim Harris union csts_register csts; 320bb0ec6b3SJim Harris 321bb0ec6b3SJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 322bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 323bb0ec6b3SJim Harris 324bb0ec6b3SJim Harris if (!cc.bits.en) { 325bb0ec6b3SJim Harris device_printf(ctrlr->dev, "%s called with cc.en = 0\n", 326bb0ec6b3SJim Harris __func__); 327bb0ec6b3SJim Harris return (ENXIO); 328bb0ec6b3SJim Harris } 329bb0ec6b3SJim Harris 330bb0ec6b3SJim Harris ms_waited = 0; 331bb0ec6b3SJim Harris 332bb0ec6b3SJim Harris while (!csts.bits.rdy) { 333bb0ec6b3SJim Harris DELAY(1000); 334bb0ec6b3SJim Harris if (ms_waited++ > ctrlr->ready_timeout_in_ms) { 335bb0ec6b3SJim Harris device_printf(ctrlr->dev, "controller did not become " 336bb0ec6b3SJim Harris "ready within %d ms\n", ctrlr->ready_timeout_in_ms); 337bb0ec6b3SJim Harris return (ENXIO); 338bb0ec6b3SJim Harris } 339bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 340bb0ec6b3SJim Harris } 341bb0ec6b3SJim Harris 342bb0ec6b3SJim Harris return (0); 343bb0ec6b3SJim Harris } 344bb0ec6b3SJim Harris 345bb0ec6b3SJim Harris static void 346bb0ec6b3SJim Harris nvme_ctrlr_disable(struct nvme_controller *ctrlr) 347bb0ec6b3SJim Harris { 348bb0ec6b3SJim Harris union cc_register cc; 349bb0ec6b3SJim Harris union csts_register csts; 350bb0ec6b3SJim Harris 351bb0ec6b3SJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 352bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 353bb0ec6b3SJim Harris 354bb0ec6b3SJim Harris if (cc.bits.en == 1 && csts.bits.rdy == 0) 355bb0ec6b3SJim Harris nvme_ctrlr_wait_for_ready(ctrlr); 356bb0ec6b3SJim Harris 357bb0ec6b3SJim Harris cc.bits.en = 0; 358bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, cc, cc.raw); 359bb0ec6b3SJim Harris DELAY(5000); 360bb0ec6b3SJim Harris } 361bb0ec6b3SJim Harris 362bb0ec6b3SJim Harris static int 363bb0ec6b3SJim Harris nvme_ctrlr_enable(struct nvme_controller *ctrlr) 364bb0ec6b3SJim Harris { 365bb0ec6b3SJim Harris union cc_register cc; 366bb0ec6b3SJim Harris union csts_register csts; 367bb0ec6b3SJim Harris union aqa_register aqa; 368bb0ec6b3SJim Harris 369bb0ec6b3SJim Harris cc.raw = nvme_mmio_read_4(ctrlr, cc); 370bb0ec6b3SJim Harris csts.raw = nvme_mmio_read_4(ctrlr, csts); 371bb0ec6b3SJim Harris 372bb0ec6b3SJim Harris if (cc.bits.en == 1) { 373bb0ec6b3SJim Harris if (csts.bits.rdy == 1) 374bb0ec6b3SJim Harris return (0); 375bb0ec6b3SJim Harris else 376bb0ec6b3SJim Harris return (nvme_ctrlr_wait_for_ready(ctrlr)); 377bb0ec6b3SJim Harris } 378bb0ec6b3SJim Harris 379bb0ec6b3SJim Harris nvme_mmio_write_8(ctrlr, asq, ctrlr->adminq.cmd_bus_addr); 380bb0ec6b3SJim Harris DELAY(5000); 381bb0ec6b3SJim Harris nvme_mmio_write_8(ctrlr, acq, ctrlr->adminq.cpl_bus_addr); 382bb0ec6b3SJim Harris DELAY(5000); 383bb0ec6b3SJim Harris 384bb0ec6b3SJim Harris aqa.raw = 0; 385bb0ec6b3SJim Harris /* acqs and asqs are 0-based. */ 386bb0ec6b3SJim Harris aqa.bits.acqs = ctrlr->adminq.num_entries-1; 387bb0ec6b3SJim Harris aqa.bits.asqs = ctrlr->adminq.num_entries-1; 388bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, aqa, aqa.raw); 389bb0ec6b3SJim Harris DELAY(5000); 390bb0ec6b3SJim Harris 391bb0ec6b3SJim Harris cc.bits.en = 1; 392bb0ec6b3SJim Harris cc.bits.css = 0; 393bb0ec6b3SJim Harris cc.bits.ams = 0; 394bb0ec6b3SJim Harris cc.bits.shn = 0; 395bb0ec6b3SJim Harris cc.bits.iosqes = 6; /* SQ entry size == 64 == 2^6 */ 396bb0ec6b3SJim Harris cc.bits.iocqes = 4; /* CQ entry size == 16 == 2^4 */ 397bb0ec6b3SJim Harris 398bb0ec6b3SJim Harris /* This evaluates to 0, which is according to spec. */ 399bb0ec6b3SJim Harris cc.bits.mps = (PAGE_SIZE >> 13); 400bb0ec6b3SJim Harris 401bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, cc, cc.raw); 402bb0ec6b3SJim Harris DELAY(5000); 403bb0ec6b3SJim Harris 404bb0ec6b3SJim Harris return (nvme_ctrlr_wait_for_ready(ctrlr)); 405bb0ec6b3SJim Harris } 406bb0ec6b3SJim Harris 407bb0ec6b3SJim Harris int 408b846efd7SJim Harris nvme_ctrlr_hw_reset(struct nvme_controller *ctrlr) 409bb0ec6b3SJim Harris { 410b846efd7SJim Harris int i; 411b846efd7SJim Harris 412b846efd7SJim Harris nvme_admin_qpair_disable(&ctrlr->adminq); 413b846efd7SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 414b846efd7SJim Harris nvme_io_qpair_disable(&ctrlr->ioq[i]); 415b846efd7SJim Harris 416b846efd7SJim Harris DELAY(100*1000); 417bb0ec6b3SJim Harris 418bb0ec6b3SJim Harris nvme_ctrlr_disable(ctrlr); 419bb0ec6b3SJim Harris return (nvme_ctrlr_enable(ctrlr)); 420bb0ec6b3SJim Harris } 421bb0ec6b3SJim Harris 422b846efd7SJim Harris void 423b846efd7SJim Harris nvme_ctrlr_reset(struct nvme_controller *ctrlr) 424b846efd7SJim Harris { 425f37c22a3SJim Harris int cmpset; 426f37c22a3SJim Harris 427f37c22a3SJim Harris cmpset = atomic_cmpset_32(&ctrlr->is_resetting, 0, 1); 428f37c22a3SJim Harris 429f37c22a3SJim Harris if (cmpset == 0) 430f37c22a3SJim Harris /* Controller is already resetting. */ 431f37c22a3SJim Harris return; 432b846efd7SJim Harris 43348ce3178SJim Harris taskqueue_enqueue(ctrlr->taskqueue, &ctrlr->reset_task); 434b846efd7SJim Harris } 435b846efd7SJim Harris 436bb0ec6b3SJim Harris static int 437bb0ec6b3SJim Harris nvme_ctrlr_identify(struct nvme_controller *ctrlr) 438bb0ec6b3SJim Harris { 439bb0ec6b3SJim Harris struct mtx *mtx; 440bb0ec6b3SJim Harris struct nvme_completion cpl; 441bb0ec6b3SJim Harris int status; 442bb0ec6b3SJim Harris 443bb0ec6b3SJim Harris mtx = mtx_pool_find(mtxpool_sleep, &cpl); 444bb0ec6b3SJim Harris 445bb0ec6b3SJim Harris mtx_lock(mtx); 446bb0ec6b3SJim Harris nvme_ctrlr_cmd_identify_controller(ctrlr, &ctrlr->cdata, 447bb0ec6b3SJim Harris nvme_ctrlr_cb, &cpl); 448bb0ec6b3SJim Harris status = msleep(&cpl, mtx, PRIBIO, "nvme_start", hz*5); 449bb0ec6b3SJim Harris mtx_unlock(mtx); 450cf81529cSJim Harris if ((status != 0) || nvme_completion_is_error(&cpl)) { 451bb0ec6b3SJim Harris printf("nvme_identify_controller failed!\n"); 452bb0ec6b3SJim Harris return (ENXIO); 453bb0ec6b3SJim Harris } 454bb0ec6b3SJim Harris 455bb0ec6b3SJim Harris #ifdef CHATHAM2 456bb0ec6b3SJim Harris if (pci_get_devid(ctrlr->dev) == CHATHAM_PCI_ID) 457bb0ec6b3SJim Harris nvme_chatham_populate_cdata(ctrlr); 458bb0ec6b3SJim Harris #endif 459bb0ec6b3SJim Harris 460bb0ec6b3SJim Harris return (0); 461bb0ec6b3SJim Harris } 462bb0ec6b3SJim Harris 463bb0ec6b3SJim Harris static int 464bb0ec6b3SJim Harris nvme_ctrlr_set_num_qpairs(struct nvme_controller *ctrlr) 465bb0ec6b3SJim Harris { 466bb0ec6b3SJim Harris struct mtx *mtx; 467bb0ec6b3SJim Harris struct nvme_completion cpl; 468bb0ec6b3SJim Harris int cq_allocated, sq_allocated, status; 469bb0ec6b3SJim Harris 470bb0ec6b3SJim Harris mtx = mtx_pool_find(mtxpool_sleep, &cpl); 471bb0ec6b3SJim Harris 472bb0ec6b3SJim Harris mtx_lock(mtx); 473bb0ec6b3SJim Harris nvme_ctrlr_cmd_set_num_queues(ctrlr, ctrlr->num_io_queues, 474bb0ec6b3SJim Harris nvme_ctrlr_cb, &cpl); 475bb0ec6b3SJim Harris status = msleep(&cpl, mtx, PRIBIO, "nvme_start", hz*5); 476bb0ec6b3SJim Harris mtx_unlock(mtx); 477cf81529cSJim Harris if ((status != 0) || nvme_completion_is_error(&cpl)) { 478bb0ec6b3SJim Harris printf("nvme_set_num_queues failed!\n"); 479bb0ec6b3SJim Harris return (ENXIO); 480bb0ec6b3SJim Harris } 481bb0ec6b3SJim Harris 482bb0ec6b3SJim Harris /* 483bb0ec6b3SJim Harris * Data in cdw0 is 0-based. 484bb0ec6b3SJim Harris * Lower 16-bits indicate number of submission queues allocated. 485bb0ec6b3SJim Harris * Upper 16-bits indicate number of completion queues allocated. 486bb0ec6b3SJim Harris */ 487bb0ec6b3SJim Harris sq_allocated = (cpl.cdw0 & 0xFFFF) + 1; 488bb0ec6b3SJim Harris cq_allocated = (cpl.cdw0 >> 16) + 1; 489bb0ec6b3SJim Harris 490bb0ec6b3SJim Harris /* 491bb0ec6b3SJim Harris * Check that the controller was able to allocate the number of 492bb0ec6b3SJim Harris * queues we requested. If not, revert to one IO queue. 493bb0ec6b3SJim Harris */ 494bb0ec6b3SJim Harris if (sq_allocated < ctrlr->num_io_queues || 495bb0ec6b3SJim Harris cq_allocated < ctrlr->num_io_queues) { 496bb0ec6b3SJim Harris ctrlr->num_io_queues = 1; 497bb0ec6b3SJim Harris ctrlr->per_cpu_io_queues = 0; 498bb0ec6b3SJim Harris 499bb0ec6b3SJim Harris /* TODO: destroy extra queues that were created 500bb0ec6b3SJim Harris * previously but now found to be not needed. 501bb0ec6b3SJim Harris */ 502bb0ec6b3SJim Harris } 503bb0ec6b3SJim Harris 504bb0ec6b3SJim Harris return (0); 505bb0ec6b3SJim Harris } 506bb0ec6b3SJim Harris 507bb0ec6b3SJim Harris static int 508bb0ec6b3SJim Harris nvme_ctrlr_create_qpairs(struct nvme_controller *ctrlr) 509bb0ec6b3SJim Harris { 510bb0ec6b3SJim Harris struct mtx *mtx; 511bb0ec6b3SJim Harris struct nvme_qpair *qpair; 512bb0ec6b3SJim Harris struct nvme_completion cpl; 513bb0ec6b3SJim Harris int i, status; 514bb0ec6b3SJim Harris 515bb0ec6b3SJim Harris mtx = mtx_pool_find(mtxpool_sleep, &cpl); 516bb0ec6b3SJim Harris 517bb0ec6b3SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) { 518bb0ec6b3SJim Harris qpair = &ctrlr->ioq[i]; 519bb0ec6b3SJim Harris 520bb0ec6b3SJim Harris mtx_lock(mtx); 521bb0ec6b3SJim Harris nvme_ctrlr_cmd_create_io_cq(ctrlr, qpair, qpair->vector, 522bb0ec6b3SJim Harris nvme_ctrlr_cb, &cpl); 523bb0ec6b3SJim Harris status = msleep(&cpl, mtx, PRIBIO, "nvme_start", hz*5); 524bb0ec6b3SJim Harris mtx_unlock(mtx); 525cf81529cSJim Harris if ((status != 0) || nvme_completion_is_error(&cpl)) { 526bb0ec6b3SJim Harris printf("nvme_create_io_cq failed!\n"); 527bb0ec6b3SJim Harris return (ENXIO); 528bb0ec6b3SJim Harris } 529bb0ec6b3SJim Harris 530bb0ec6b3SJim Harris mtx_lock(mtx); 531bb0ec6b3SJim Harris nvme_ctrlr_cmd_create_io_sq(qpair->ctrlr, qpair, 532bb0ec6b3SJim Harris nvme_ctrlr_cb, &cpl); 533bb0ec6b3SJim Harris status = msleep(&cpl, mtx, PRIBIO, "nvme_start", hz*5); 534bb0ec6b3SJim Harris mtx_unlock(mtx); 535cf81529cSJim Harris if ((status != 0) || nvme_completion_is_error(&cpl)) { 536bb0ec6b3SJim Harris printf("nvme_create_io_sq failed!\n"); 537bb0ec6b3SJim Harris return (ENXIO); 538bb0ec6b3SJim Harris } 539bb0ec6b3SJim Harris } 540bb0ec6b3SJim Harris 541bb0ec6b3SJim Harris return (0); 542bb0ec6b3SJim Harris } 543bb0ec6b3SJim Harris 544bb0ec6b3SJim Harris static int 545bb0ec6b3SJim Harris nvme_ctrlr_construct_namespaces(struct nvme_controller *ctrlr) 546bb0ec6b3SJim Harris { 547bb0ec6b3SJim Harris struct nvme_namespace *ns; 548bb0ec6b3SJim Harris int i, status; 549bb0ec6b3SJim Harris 550bb0ec6b3SJim Harris for (i = 0; i < ctrlr->cdata.nn; i++) { 551bb0ec6b3SJim Harris ns = &ctrlr->ns[i]; 552bb0ec6b3SJim Harris status = nvme_ns_construct(ns, i+1, ctrlr); 553bb0ec6b3SJim Harris if (status != 0) 554bb0ec6b3SJim Harris return (status); 555bb0ec6b3SJim Harris } 556bb0ec6b3SJim Harris 557bb0ec6b3SJim Harris return (0); 558bb0ec6b3SJim Harris } 559bb0ec6b3SJim Harris 5602868353aSJim Harris static boolean_t 5612868353aSJim Harris is_log_page_id_valid(uint8_t page_id) 5622868353aSJim Harris { 5632868353aSJim Harris 5642868353aSJim Harris switch (page_id) { 5652868353aSJim Harris case NVME_LOG_ERROR: 5662868353aSJim Harris case NVME_LOG_HEALTH_INFORMATION: 5672868353aSJim Harris case NVME_LOG_FIRMWARE_SLOT: 5682868353aSJim Harris return (TRUE); 5692868353aSJim Harris } 5702868353aSJim Harris 5712868353aSJim Harris return (FALSE); 5722868353aSJim Harris } 5732868353aSJim Harris 5742868353aSJim Harris static uint32_t 5752868353aSJim Harris nvme_ctrlr_get_log_page_size(struct nvme_controller *ctrlr, uint8_t page_id) 5762868353aSJim Harris { 5772868353aSJim Harris uint32_t log_page_size; 5782868353aSJim Harris 5792868353aSJim Harris switch (page_id) { 5802868353aSJim Harris case NVME_LOG_ERROR: 5812868353aSJim Harris log_page_size = min( 5822868353aSJim Harris sizeof(struct nvme_error_information_entry) * 5832868353aSJim Harris ctrlr->cdata.elpe, 5842868353aSJim Harris NVME_MAX_AER_LOG_SIZE); 5852868353aSJim Harris break; 5862868353aSJim Harris case NVME_LOG_HEALTH_INFORMATION: 5872868353aSJim Harris log_page_size = sizeof(struct nvme_health_information_page); 5882868353aSJim Harris break; 5892868353aSJim Harris case NVME_LOG_FIRMWARE_SLOT: 5902868353aSJim Harris log_page_size = sizeof(struct nvme_firmware_page); 5912868353aSJim Harris break; 5922868353aSJim Harris default: 5932868353aSJim Harris log_page_size = 0; 5942868353aSJim Harris break; 5952868353aSJim Harris } 5962868353aSJim Harris 5972868353aSJim Harris return (log_page_size); 5982868353aSJim Harris } 5992868353aSJim Harris 6002868353aSJim Harris static void 6012868353aSJim Harris nvme_ctrlr_async_event_log_page_cb(void *arg, const struct nvme_completion *cpl) 6022868353aSJim Harris { 6032868353aSJim Harris struct nvme_async_event_request *aer = arg; 6042868353aSJim Harris 6050d7e13ecSJim Harris /* 6060d7e13ecSJim Harris * If the log page fetch for some reason completed with an error, 6070d7e13ecSJim Harris * don't pass log page data to the consumers. In practice, this case 6080d7e13ecSJim Harris * should never happen. 6090d7e13ecSJim Harris */ 6100d7e13ecSJim Harris if (nvme_completion_is_error(cpl)) 6110d7e13ecSJim Harris nvme_notify_async_consumers(aer->ctrlr, &aer->cpl, 6120d7e13ecSJim Harris aer->log_page_id, NULL, 0); 6130d7e13ecSJim Harris else 6140d7e13ecSJim Harris /* 6150d7e13ecSJim Harris * Pass the cpl data from the original async event completion, 6160d7e13ecSJim Harris * not the log page fetch. 6170d7e13ecSJim Harris */ 6180d7e13ecSJim Harris nvme_notify_async_consumers(aer->ctrlr, &aer->cpl, 6190d7e13ecSJim Harris aer->log_page_id, aer->log_page_buffer, aer->log_page_size); 6202868353aSJim Harris 6212868353aSJim Harris /* 6222868353aSJim Harris * Repost another asynchronous event request to replace the one 6232868353aSJim Harris * that just completed. 6242868353aSJim Harris */ 6252868353aSJim Harris nvme_ctrlr_construct_and_submit_aer(aer->ctrlr, aer); 6262868353aSJim Harris } 6272868353aSJim Harris 628bb0ec6b3SJim Harris static void 6290a0b08ccSJim Harris nvme_ctrlr_async_event_cb(void *arg, const struct nvme_completion *cpl) 6300a0b08ccSJim Harris { 6310a0b08ccSJim Harris struct nvme_async_event_request *aer = arg; 6320a0b08ccSJim Harris 633cf81529cSJim Harris if (cpl->status.sc == NVME_SC_ABORTED_SQ_DELETION) { 6340a0b08ccSJim Harris /* 6350a0b08ccSJim Harris * This is simulated when controller is being shut down, to 6360a0b08ccSJim Harris * effectively abort outstanding asynchronous event requests 6370a0b08ccSJim Harris * and make sure all memory is freed. Do not repost the 6380a0b08ccSJim Harris * request in this case. 6390a0b08ccSJim Harris */ 6400a0b08ccSJim Harris return; 6410a0b08ccSJim Harris } 6420a0b08ccSJim Harris 6432868353aSJim Harris printf("Asynchronous event occurred.\n"); 6442868353aSJim Harris 6452868353aSJim Harris /* Associated log page is in bits 23:16 of completion entry dw0. */ 6460d7e13ecSJim Harris aer->log_page_id = (cpl->cdw0 & 0xFF0000) >> 16; 6472868353aSJim Harris 6480d7e13ecSJim Harris if (is_log_page_id_valid(aer->log_page_id)) { 6492868353aSJim Harris aer->log_page_size = nvme_ctrlr_get_log_page_size(aer->ctrlr, 6500d7e13ecSJim Harris aer->log_page_id); 6512868353aSJim Harris memcpy(&aer->cpl, cpl, sizeof(*cpl)); 6520d7e13ecSJim Harris nvme_ctrlr_cmd_get_log_page(aer->ctrlr, aer->log_page_id, 6532868353aSJim Harris NVME_GLOBAL_NAMESPACE_TAG, aer->log_page_buffer, 6542868353aSJim Harris aer->log_page_size, nvme_ctrlr_async_event_log_page_cb, 6552868353aSJim Harris aer); 6562868353aSJim Harris /* Wait to notify consumers until after log page is fetched. */ 6572868353aSJim Harris } else { 6580d7e13ecSJim Harris nvme_notify_async_consumers(aer->ctrlr, cpl, aer->log_page_id, 6590d7e13ecSJim Harris NULL, 0); 660038a5ee4SJim Harris 6610a0b08ccSJim Harris /* 6622868353aSJim Harris * Repost another asynchronous event request to replace the one 6632868353aSJim Harris * that just completed. 6640a0b08ccSJim Harris */ 6650a0b08ccSJim Harris nvme_ctrlr_construct_and_submit_aer(aer->ctrlr, aer); 6660a0b08ccSJim Harris } 6672868353aSJim Harris } 6680a0b08ccSJim Harris 6690a0b08ccSJim Harris static void 6700a0b08ccSJim Harris nvme_ctrlr_construct_and_submit_aer(struct nvme_controller *ctrlr, 6710a0b08ccSJim Harris struct nvme_async_event_request *aer) 6720a0b08ccSJim Harris { 6730a0b08ccSJim Harris struct nvme_request *req; 6740a0b08ccSJim Harris 6750a0b08ccSJim Harris aer->ctrlr = ctrlr; 6760a0b08ccSJim Harris req = nvme_allocate_request(NULL, 0, nvme_ctrlr_async_event_cb, aer); 6770a0b08ccSJim Harris aer->req = req; 6780a0b08ccSJim Harris 6790a0b08ccSJim Harris /* 68094143332SJim Harris * Disable timeout here, since asynchronous event requests should by 68194143332SJim Harris * nature never be timed out. 6820a0b08ccSJim Harris */ 68394143332SJim Harris req->timeout = FALSE; 6840a0b08ccSJim Harris req->cmd.opc = NVME_OPC_ASYNC_EVENT_REQUEST; 6850a0b08ccSJim Harris nvme_ctrlr_submit_admin_request(ctrlr, req); 6860a0b08ccSJim Harris } 6870a0b08ccSJim Harris 6880a0b08ccSJim Harris static void 689bb0ec6b3SJim Harris nvme_ctrlr_configure_aer(struct nvme_controller *ctrlr) 690bb0ec6b3SJim Harris { 691bb0ec6b3SJim Harris union nvme_critical_warning_state state; 6920a0b08ccSJim Harris struct nvme_async_event_request *aer; 6930a0b08ccSJim Harris uint32_t i; 694bb0ec6b3SJim Harris 695bb0ec6b3SJim Harris state.raw = 0xFF; 696bb0ec6b3SJim Harris state.bits.reserved = 0; 6970a0b08ccSJim Harris nvme_ctrlr_cmd_set_async_event_config(ctrlr, state, NULL, NULL); 698bb0ec6b3SJim Harris 699bb0ec6b3SJim Harris /* aerl is a zero-based value, so we need to add 1 here. */ 7000a0b08ccSJim Harris ctrlr->num_aers = min(NVME_MAX_ASYNC_EVENTS, (ctrlr->cdata.aerl+1)); 701bb0ec6b3SJim Harris 7020a0b08ccSJim Harris /* Chatham doesn't support AERs. */ 7030a0b08ccSJim Harris if (pci_get_devid(ctrlr->dev) == CHATHAM_PCI_ID) 7040a0b08ccSJim Harris ctrlr->num_aers = 0; 7050a0b08ccSJim Harris 7060a0b08ccSJim Harris for (i = 0; i < ctrlr->num_aers; i++) { 7070a0b08ccSJim Harris aer = &ctrlr->aer[i]; 7080a0b08ccSJim Harris nvme_ctrlr_construct_and_submit_aer(ctrlr, aer); 7090a0b08ccSJim Harris } 710bb0ec6b3SJim Harris } 711bb0ec6b3SJim Harris 712bb0ec6b3SJim Harris static void 713bb0ec6b3SJim Harris nvme_ctrlr_configure_int_coalescing(struct nvme_controller *ctrlr) 714bb0ec6b3SJim Harris { 715bb0ec6b3SJim Harris 716bb0ec6b3SJim Harris ctrlr->int_coal_time = 0; 717bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.int_coal_time", 718bb0ec6b3SJim Harris &ctrlr->int_coal_time); 719bb0ec6b3SJim Harris 720bb0ec6b3SJim Harris ctrlr->int_coal_threshold = 0; 721bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.int_coal_threshold", 722bb0ec6b3SJim Harris &ctrlr->int_coal_threshold); 723bb0ec6b3SJim Harris 724bb0ec6b3SJim Harris nvme_ctrlr_cmd_set_interrupt_coalescing(ctrlr, ctrlr->int_coal_time, 725bb0ec6b3SJim Harris ctrlr->int_coal_threshold, NULL, NULL); 726bb0ec6b3SJim Harris } 727bb0ec6b3SJim Harris 728bb0ec6b3SJim Harris void 729bb0ec6b3SJim Harris nvme_ctrlr_start(void *ctrlr_arg) 730bb0ec6b3SJim Harris { 731bb0ec6b3SJim Harris struct nvme_controller *ctrlr = ctrlr_arg; 732b846efd7SJim Harris int i; 733b846efd7SJim Harris 734*cb5b7c13SJim Harris nvme_qpair_reset(&ctrlr->adminq); 735*cb5b7c13SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 736*cb5b7c13SJim Harris nvme_qpair_reset(&ctrlr->ioq[i]); 737*cb5b7c13SJim Harris 738b846efd7SJim Harris nvme_admin_qpair_enable(&ctrlr->adminq); 739bb0ec6b3SJim Harris 740bb0ec6b3SJim Harris if (nvme_ctrlr_identify(ctrlr) != 0) 741bb0ec6b3SJim Harris goto err; 742bb0ec6b3SJim Harris 743bb0ec6b3SJim Harris if (nvme_ctrlr_set_num_qpairs(ctrlr) != 0) 744bb0ec6b3SJim Harris goto err; 745bb0ec6b3SJim Harris 746bb0ec6b3SJim Harris if (nvme_ctrlr_create_qpairs(ctrlr) != 0) 747bb0ec6b3SJim Harris goto err; 748bb0ec6b3SJim Harris 749bb0ec6b3SJim Harris if (nvme_ctrlr_construct_namespaces(ctrlr) != 0) 750bb0ec6b3SJim Harris goto err; 751bb0ec6b3SJim Harris 752bb0ec6b3SJim Harris nvme_ctrlr_configure_aer(ctrlr); 753bb0ec6b3SJim Harris nvme_ctrlr_configure_int_coalescing(ctrlr); 754bb0ec6b3SJim Harris 755b846efd7SJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) 756b846efd7SJim Harris nvme_io_qpair_enable(&ctrlr->ioq[i]); 757b846efd7SJim Harris 758bb0ec6b3SJim Harris ctrlr->is_started = TRUE; 759bb0ec6b3SJim Harris 760bb0ec6b3SJim Harris err: 761bb0ec6b3SJim Harris 762b846efd7SJim Harris if (ctrlr->num_start_attempts == 0) { 763bb0ec6b3SJim Harris /* 764bb0ec6b3SJim Harris * Initialize sysctls, even if controller failed to start, to 765b846efd7SJim Harris * assist with debugging admin queue pair. Only run this 766b846efd7SJim Harris * code on the initial start attempt though, and not 767b846efd7SJim Harris * subsequent start attempts due to controller-level resets. 768b846efd7SJim Harris * 769bb0ec6b3SJim Harris */ 770bb0ec6b3SJim Harris nvme_sysctl_initialize_ctrlr(ctrlr); 771bb0ec6b3SJim Harris config_intrhook_disestablish(&ctrlr->config_hook); 772bb0ec6b3SJim Harris } 773bb0ec6b3SJim Harris 774b846efd7SJim Harris ctrlr->num_start_attempts++; 775b846efd7SJim Harris } 776b846efd7SJim Harris 777bb0ec6b3SJim Harris static void 77848ce3178SJim Harris nvme_ctrlr_reset_task(void *arg, int pending) 77912d191ecSJim Harris { 78012d191ecSJim Harris struct nvme_controller *ctrlr = arg; 78148ce3178SJim Harris int status; 78212d191ecSJim Harris 78348ce3178SJim Harris device_printf(ctrlr->dev, "resetting controller"); 78448ce3178SJim Harris status = nvme_ctrlr_hw_reset(ctrlr); 78548ce3178SJim Harris /* 78648ce3178SJim Harris * Use pause instead of DELAY, so that we yield to any nvme interrupt 78748ce3178SJim Harris * handlers on this CPU that were blocked on a qpair lock. We want 78848ce3178SJim Harris * all nvme interrupts completed before proceeding with restarting the 78948ce3178SJim Harris * controller. 79048ce3178SJim Harris * 79148ce3178SJim Harris * XXX - any way to guarantee the interrupt handlers have quiesced? 79248ce3178SJim Harris */ 79348ce3178SJim Harris pause("nvmereset", hz / 10); 79448ce3178SJim Harris if (status == 0) 79512d191ecSJim Harris nvme_ctrlr_start(ctrlr); 796f37c22a3SJim Harris 797f37c22a3SJim Harris atomic_cmpset_32(&ctrlr->is_resetting, 1, 0); 79812d191ecSJim Harris } 79912d191ecSJim Harris 80012d191ecSJim Harris static void 8014d6abcb1SJim Harris nvme_ctrlr_intx_handler(void *arg) 802bb0ec6b3SJim Harris { 803bb0ec6b3SJim Harris struct nvme_controller *ctrlr = arg; 804bb0ec6b3SJim Harris 8054d6abcb1SJim Harris nvme_mmio_write_4(ctrlr, intms, 1); 8064d6abcb1SJim Harris 807bb0ec6b3SJim Harris nvme_qpair_process_completions(&ctrlr->adminq); 808bb0ec6b3SJim Harris 809bb0ec6b3SJim Harris if (ctrlr->ioq[0].cpl) 810bb0ec6b3SJim Harris nvme_qpair_process_completions(&ctrlr->ioq[0]); 811bb0ec6b3SJim Harris 812bb0ec6b3SJim Harris nvme_mmio_write_4(ctrlr, intmc, 1); 813bb0ec6b3SJim Harris } 814bb0ec6b3SJim Harris 815bb0ec6b3SJim Harris static int 816bb0ec6b3SJim Harris nvme_ctrlr_configure_intx(struct nvme_controller *ctrlr) 817bb0ec6b3SJim Harris { 818bb0ec6b3SJim Harris 819bb0ec6b3SJim Harris ctrlr->num_io_queues = 1; 820bb0ec6b3SJim Harris ctrlr->per_cpu_io_queues = 0; 821bb0ec6b3SJim Harris ctrlr->rid = 0; 822bb0ec6b3SJim Harris ctrlr->res = bus_alloc_resource_any(ctrlr->dev, SYS_RES_IRQ, 823bb0ec6b3SJim Harris &ctrlr->rid, RF_SHAREABLE | RF_ACTIVE); 824bb0ec6b3SJim Harris 825bb0ec6b3SJim Harris if (ctrlr->res == NULL) { 826bb0ec6b3SJim Harris device_printf(ctrlr->dev, "unable to allocate shared IRQ\n"); 827bb0ec6b3SJim Harris return (ENOMEM); 828bb0ec6b3SJim Harris } 829bb0ec6b3SJim Harris 830bb0ec6b3SJim Harris bus_setup_intr(ctrlr->dev, ctrlr->res, 831bb0ec6b3SJim Harris INTR_TYPE_MISC | INTR_MPSAFE, NULL, nvme_ctrlr_intx_handler, 832bb0ec6b3SJim Harris ctrlr, &ctrlr->tag); 833bb0ec6b3SJim Harris 834bb0ec6b3SJim Harris if (ctrlr->tag == NULL) { 835bb0ec6b3SJim Harris device_printf(ctrlr->dev, 836bb0ec6b3SJim Harris "unable to setup legacy interrupt handler\n"); 837bb0ec6b3SJim Harris return (ENOMEM); 838bb0ec6b3SJim Harris } 839bb0ec6b3SJim Harris 840bb0ec6b3SJim Harris return (0); 841bb0ec6b3SJim Harris } 842bb0ec6b3SJim Harris 843bb0ec6b3SJim Harris static int 844bb0ec6b3SJim Harris nvme_ctrlr_ioctl(struct cdev *cdev, u_long cmd, caddr_t arg, int flag, 845bb0ec6b3SJim Harris struct thread *td) 846bb0ec6b3SJim Harris { 847bb0ec6b3SJim Harris struct nvme_controller *ctrlr; 848bb0ec6b3SJim Harris struct nvme_completion cpl; 849bb0ec6b3SJim Harris struct mtx *mtx; 850bb0ec6b3SJim Harris 851bb0ec6b3SJim Harris ctrlr = cdev->si_drv1; 852bb0ec6b3SJim Harris 853bb0ec6b3SJim Harris switch (cmd) { 854bb0ec6b3SJim Harris case NVME_IDENTIFY_CONTROLLER: 855bb0ec6b3SJim Harris #ifdef CHATHAM2 856bb0ec6b3SJim Harris /* 857bb0ec6b3SJim Harris * Don't refresh data on Chatham, since Chatham returns 858bb0ec6b3SJim Harris * garbage on IDENTIFY anyways. 859bb0ec6b3SJim Harris */ 860bb0ec6b3SJim Harris if (pci_get_devid(ctrlr->dev) == CHATHAM_PCI_ID) { 861bb0ec6b3SJim Harris memcpy(arg, &ctrlr->cdata, sizeof(ctrlr->cdata)); 862bb0ec6b3SJim Harris break; 863bb0ec6b3SJim Harris } 864bb0ec6b3SJim Harris #endif 865bb0ec6b3SJim Harris /* Refresh data before returning to user. */ 866bb0ec6b3SJim Harris mtx = mtx_pool_find(mtxpool_sleep, &cpl); 867bb0ec6b3SJim Harris mtx_lock(mtx); 868bb0ec6b3SJim Harris nvme_ctrlr_cmd_identify_controller(ctrlr, &ctrlr->cdata, 869bb0ec6b3SJim Harris nvme_ctrlr_cb, &cpl); 870bb0ec6b3SJim Harris msleep(&cpl, mtx, PRIBIO, "nvme_ioctl", 0); 871bb0ec6b3SJim Harris mtx_unlock(mtx); 872cf81529cSJim Harris if (nvme_completion_is_error(&cpl)) 873bb0ec6b3SJim Harris return (ENXIO); 874bb0ec6b3SJim Harris memcpy(arg, &ctrlr->cdata, sizeof(ctrlr->cdata)); 875bb0ec6b3SJim Harris break; 876b846efd7SJim Harris case NVME_RESET_CONTROLLER: 877b846efd7SJim Harris nvme_ctrlr_reset(ctrlr); 878b846efd7SJim Harris break; 879bb0ec6b3SJim Harris default: 880bb0ec6b3SJim Harris return (ENOTTY); 881bb0ec6b3SJim Harris } 882bb0ec6b3SJim Harris 883bb0ec6b3SJim Harris return (0); 884bb0ec6b3SJim Harris } 885bb0ec6b3SJim Harris 886bb0ec6b3SJim Harris static struct cdevsw nvme_ctrlr_cdevsw = { 887bb0ec6b3SJim Harris .d_version = D_VERSION, 888bb0ec6b3SJim Harris .d_flags = 0, 889bb0ec6b3SJim Harris .d_ioctl = nvme_ctrlr_ioctl 890bb0ec6b3SJim Harris }; 891bb0ec6b3SJim Harris 892bb0ec6b3SJim Harris int 893bb0ec6b3SJim Harris nvme_ctrlr_construct(struct nvme_controller *ctrlr, device_t dev) 894bb0ec6b3SJim Harris { 895bb0ec6b3SJim Harris union cap_lo_register cap_lo; 896bb0ec6b3SJim Harris union cap_hi_register cap_hi; 897bb0ec6b3SJim Harris int num_vectors, per_cpu_io_queues, status = 0; 89894143332SJim Harris int timeout_period; 899bb0ec6b3SJim Harris 900bb0ec6b3SJim Harris ctrlr->dev = dev; 901bb0ec6b3SJim Harris ctrlr->is_started = FALSE; 902b846efd7SJim Harris ctrlr->num_start_attempts = 0; 903bb0ec6b3SJim Harris 904bb0ec6b3SJim Harris status = nvme_ctrlr_allocate_bar(ctrlr); 905bb0ec6b3SJim Harris 906bb0ec6b3SJim Harris if (status != 0) 907bb0ec6b3SJim Harris return (status); 908bb0ec6b3SJim Harris 909bb0ec6b3SJim Harris #ifdef CHATHAM2 910bb0ec6b3SJim Harris if (pci_get_devid(dev) == CHATHAM_PCI_ID) { 911bb0ec6b3SJim Harris status = nvme_ctrlr_allocate_chatham_bar(ctrlr); 912bb0ec6b3SJim Harris if (status != 0) 913bb0ec6b3SJim Harris return (status); 914bb0ec6b3SJim Harris nvme_ctrlr_setup_chatham(ctrlr); 915bb0ec6b3SJim Harris } 916bb0ec6b3SJim Harris #endif 917bb0ec6b3SJim Harris 918bb0ec6b3SJim Harris /* 919bb0ec6b3SJim Harris * Software emulators may set the doorbell stride to something 920bb0ec6b3SJim Harris * other than zero, but this driver is not set up to handle that. 921bb0ec6b3SJim Harris */ 922bb0ec6b3SJim Harris cap_hi.raw = nvme_mmio_read_4(ctrlr, cap_hi); 923bb0ec6b3SJim Harris if (cap_hi.bits.dstrd != 0) 924bb0ec6b3SJim Harris return (ENXIO); 925bb0ec6b3SJim Harris 926bb0ec6b3SJim Harris /* Get ready timeout value from controller, in units of 500ms. */ 927bb0ec6b3SJim Harris cap_lo.raw = nvme_mmio_read_4(ctrlr, cap_lo); 928bb0ec6b3SJim Harris ctrlr->ready_timeout_in_ms = cap_lo.bits.to * 500; 929bb0ec6b3SJim Harris 93094143332SJim Harris timeout_period = NVME_DEFAULT_TIMEOUT_PERIOD; 93194143332SJim Harris TUNABLE_INT_FETCH("hw.nvme.timeout_period", &timeout_period); 93294143332SJim Harris timeout_period = min(timeout_period, NVME_MAX_TIMEOUT_PERIOD); 93394143332SJim Harris timeout_period = max(timeout_period, NVME_MIN_TIMEOUT_PERIOD); 93494143332SJim Harris ctrlr->timeout_period = timeout_period; 93594143332SJim Harris 936*cb5b7c13SJim Harris nvme_retry_count = NVME_DEFAULT_RETRY_COUNT; 937*cb5b7c13SJim Harris TUNABLE_INT_FETCH("hw.nvme.retry_count", &nvme_retry_count); 938*cb5b7c13SJim Harris 939bb0ec6b3SJim Harris per_cpu_io_queues = 1; 940bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.per_cpu_io_queues", &per_cpu_io_queues); 941bb0ec6b3SJim Harris ctrlr->per_cpu_io_queues = per_cpu_io_queues ? TRUE : FALSE; 942bb0ec6b3SJim Harris 943bb0ec6b3SJim Harris if (ctrlr->per_cpu_io_queues) 944bb0ec6b3SJim Harris ctrlr->num_io_queues = mp_ncpus; 945bb0ec6b3SJim Harris else 946bb0ec6b3SJim Harris ctrlr->num_io_queues = 1; 947bb0ec6b3SJim Harris 948bb0ec6b3SJim Harris ctrlr->force_intx = 0; 949bb0ec6b3SJim Harris TUNABLE_INT_FETCH("hw.nvme.force_intx", &ctrlr->force_intx); 950bb0ec6b3SJim Harris 95148ce3178SJim Harris ctrlr->enable_aborts = 0; 95248ce3178SJim Harris TUNABLE_INT_FETCH("hw.nvme.enable_aborts", &ctrlr->enable_aborts); 95348ce3178SJim Harris 954bb0ec6b3SJim Harris ctrlr->msix_enabled = 1; 955bb0ec6b3SJim Harris 956bb0ec6b3SJim Harris if (ctrlr->force_intx) { 957bb0ec6b3SJim Harris ctrlr->msix_enabled = 0; 958bb0ec6b3SJim Harris goto intx; 959bb0ec6b3SJim Harris } 960bb0ec6b3SJim Harris 961bb0ec6b3SJim Harris /* One vector per IO queue, plus one vector for admin queue. */ 962bb0ec6b3SJim Harris num_vectors = ctrlr->num_io_queues + 1; 963bb0ec6b3SJim Harris 964bb0ec6b3SJim Harris if (pci_msix_count(dev) < num_vectors) { 965bb0ec6b3SJim Harris ctrlr->msix_enabled = 0; 966bb0ec6b3SJim Harris goto intx; 967bb0ec6b3SJim Harris } 968bb0ec6b3SJim Harris 969bb0ec6b3SJim Harris if (pci_alloc_msix(dev, &num_vectors) != 0) 970bb0ec6b3SJim Harris ctrlr->msix_enabled = 0; 971bb0ec6b3SJim Harris 972bb0ec6b3SJim Harris intx: 973bb0ec6b3SJim Harris 974bb0ec6b3SJim Harris if (!ctrlr->msix_enabled) 975bb0ec6b3SJim Harris nvme_ctrlr_configure_intx(ctrlr); 976bb0ec6b3SJim Harris 977bb0ec6b3SJim Harris nvme_ctrlr_construct_admin_qpair(ctrlr); 978bb0ec6b3SJim Harris 979bb0ec6b3SJim Harris status = nvme_ctrlr_construct_io_qpairs(ctrlr); 980bb0ec6b3SJim Harris 981bb0ec6b3SJim Harris if (status != 0) 982bb0ec6b3SJim Harris return (status); 983bb0ec6b3SJim Harris 984bb0ec6b3SJim Harris ctrlr->cdev = make_dev(&nvme_ctrlr_cdevsw, 0, UID_ROOT, GID_WHEEL, 0600, 985bb0ec6b3SJim Harris "nvme%d", device_get_unit(dev)); 986bb0ec6b3SJim Harris 987bb0ec6b3SJim Harris if (ctrlr->cdev == NULL) 988bb0ec6b3SJim Harris return (ENXIO); 989bb0ec6b3SJim Harris 990bb0ec6b3SJim Harris ctrlr->cdev->si_drv1 = (void *)ctrlr; 991bb0ec6b3SJim Harris 99248ce3178SJim Harris TASK_INIT(&ctrlr->reset_task, 0, nvme_ctrlr_reset_task, ctrlr); 99312d191ecSJim Harris ctrlr->taskqueue = taskqueue_create("nvme_taskq", M_WAITOK, 99412d191ecSJim Harris taskqueue_thread_enqueue, &ctrlr->taskqueue); 99512d191ecSJim Harris taskqueue_start_threads(&ctrlr->taskqueue, 1, PI_DISK, "nvme taskq"); 99612d191ecSJim Harris 997f37c22a3SJim Harris ctrlr->is_resetting = 0; 998f37c22a3SJim Harris 999bb0ec6b3SJim Harris return (0); 1000bb0ec6b3SJim Harris } 1001d281e8fbSJim Harris 1002d281e8fbSJim Harris void 1003990e741cSJim Harris nvme_ctrlr_destruct(struct nvme_controller *ctrlr, device_t dev) 1004990e741cSJim Harris { 1005990e741cSJim Harris int i; 1006990e741cSJim Harris 100712d191ecSJim Harris taskqueue_free(ctrlr->taskqueue); 100812d191ecSJim Harris 1009b846efd7SJim Harris for (i = 0; i < NVME_MAX_NAMESPACES; i++) 1010b846efd7SJim Harris nvme_ns_destruct(&ctrlr->ns[i]); 1011990e741cSJim Harris 1012990e741cSJim Harris if (ctrlr->cdev) 1013990e741cSJim Harris destroy_dev(ctrlr->cdev); 1014990e741cSJim Harris 1015990e741cSJim Harris for (i = 0; i < ctrlr->num_io_queues; i++) { 1016990e741cSJim Harris nvme_io_qpair_destroy(&ctrlr->ioq[i]); 1017990e741cSJim Harris } 1018990e741cSJim Harris 1019990e741cSJim Harris free(ctrlr->ioq, M_NVME); 1020990e741cSJim Harris 1021990e741cSJim Harris nvme_admin_qpair_destroy(&ctrlr->adminq); 1022990e741cSJim Harris 1023990e741cSJim Harris if (ctrlr->resource != NULL) { 1024990e741cSJim Harris bus_release_resource(dev, SYS_RES_MEMORY, 1025990e741cSJim Harris ctrlr->resource_id, ctrlr->resource); 1026990e741cSJim Harris } 1027990e741cSJim Harris 1028990e741cSJim Harris if (ctrlr->bar4_resource != NULL) { 1029990e741cSJim Harris bus_release_resource(dev, SYS_RES_MEMORY, 1030990e741cSJim Harris ctrlr->bar4_resource_id, ctrlr->bar4_resource); 1031990e741cSJim Harris } 1032990e741cSJim Harris 1033990e741cSJim Harris #ifdef CHATHAM2 1034990e741cSJim Harris if (ctrlr->chatham_resource != NULL) { 1035990e741cSJim Harris bus_release_resource(dev, SYS_RES_MEMORY, 1036990e741cSJim Harris ctrlr->chatham_resource_id, ctrlr->chatham_resource); 1037990e741cSJim Harris } 1038990e741cSJim Harris #endif 1039990e741cSJim Harris 1040990e741cSJim Harris if (ctrlr->tag) 1041990e741cSJim Harris bus_teardown_intr(ctrlr->dev, ctrlr->res, ctrlr->tag); 1042990e741cSJim Harris 1043990e741cSJim Harris if (ctrlr->res) 1044990e741cSJim Harris bus_release_resource(ctrlr->dev, SYS_RES_IRQ, 1045990e741cSJim Harris rman_get_rid(ctrlr->res), ctrlr->res); 1046990e741cSJim Harris 1047990e741cSJim Harris if (ctrlr->msix_enabled) 1048990e741cSJim Harris pci_release_msi(dev); 1049990e741cSJim Harris } 1050990e741cSJim Harris 1051990e741cSJim Harris void 1052d281e8fbSJim Harris nvme_ctrlr_submit_admin_request(struct nvme_controller *ctrlr, 1053d281e8fbSJim Harris struct nvme_request *req) 1054d281e8fbSJim Harris { 1055d281e8fbSJim Harris 10565ae9ed68SJim Harris nvme_qpair_submit_request(&ctrlr->adminq, req); 1057d281e8fbSJim Harris } 1058d281e8fbSJim Harris 1059d281e8fbSJim Harris void 1060d281e8fbSJim Harris nvme_ctrlr_submit_io_request(struct nvme_controller *ctrlr, 1061d281e8fbSJim Harris struct nvme_request *req) 1062d281e8fbSJim Harris { 1063d281e8fbSJim Harris struct nvme_qpair *qpair; 1064d281e8fbSJim Harris 1065d281e8fbSJim Harris if (ctrlr->per_cpu_io_queues) 1066d281e8fbSJim Harris qpair = &ctrlr->ioq[curcpu]; 1067d281e8fbSJim Harris else 1068d281e8fbSJim Harris qpair = &ctrlr->ioq[0]; 1069d281e8fbSJim Harris 10705ae9ed68SJim Harris nvme_qpair_submit_request(qpair, req); 1071d281e8fbSJim Harris } 1072038a5ee4SJim Harris 1073038a5ee4SJim Harris device_t 1074038a5ee4SJim Harris nvme_ctrlr_get_device(struct nvme_controller *ctrlr) 1075038a5ee4SJim Harris { 1076038a5ee4SJim Harris 1077038a5ee4SJim Harris return (ctrlr->dev); 1078038a5ee4SJim Harris } 1079dbba7442SJim Harris 1080dbba7442SJim Harris const struct nvme_controller_data * 1081dbba7442SJim Harris nvme_ctrlr_get_data(struct nvme_controller *ctrlr) 1082dbba7442SJim Harris { 1083dbba7442SJim Harris 1084dbba7442SJim Harris return (&ctrlr->cdata); 1085dbba7442SJim Harris } 1086