13c9168faSHans Rosenfeld /* 23c9168faSHans Rosenfeld * This file and its contents are supplied under the terms of the 33c9168faSHans Rosenfeld * Common Development and Distribution License ("CDDL"), version 1.0. 43c9168faSHans Rosenfeld * You may only use this file in accordance with the terms of version 53c9168faSHans Rosenfeld * 1.0 of the CDDL. 63c9168faSHans Rosenfeld * 73c9168faSHans Rosenfeld * A full copy of the text of the CDDL should have accompanied this 83c9168faSHans Rosenfeld * source. A copy of the CDDL is also available via the Internet at 93c9168faSHans Rosenfeld * http://www.illumos.org/license/CDDL. 103c9168faSHans Rosenfeld */ 113c9168faSHans Rosenfeld 123c9168faSHans Rosenfeld /* 131b31b305SHans Rosenfeld * Copyright 2016 Nexenta Systems, Inc. All rights reserved. 14f5b7c30aSPete Shephard * Copyright 2016 Tegile Systems, Inc. All rights reserved. 15c00ca9eeSYouzhong Yang * Copyright (c) 2016 The MathWorks, Inc. All rights reserved. 16*1188b159SRobert Mustacchi * Copyright 2018 Joyent, Inc. 173c9168faSHans Rosenfeld */ 183c9168faSHans Rosenfeld 193c9168faSHans Rosenfeld /* 203c9168faSHans Rosenfeld * blkdev driver for NVMe compliant storage devices 213c9168faSHans Rosenfeld * 222b5d67efSRobert Mustacchi * This driver was written to conform to version 1.2.1 of the NVMe 232b5d67efSRobert Mustacchi * specification. It may work with newer versions, but that is completely 242b5d67efSRobert Mustacchi * untested and disabled by default. 253c9168faSHans Rosenfeld * 263c9168faSHans Rosenfeld * The driver has only been tested on x86 systems and will not work on big- 273c9168faSHans Rosenfeld * endian systems without changes to the code accessing registers and data 283c9168faSHans Rosenfeld * structures used by the hardware. 293c9168faSHans Rosenfeld * 303c9168faSHans Rosenfeld * 313c9168faSHans Rosenfeld * Interrupt Usage: 323c9168faSHans Rosenfeld * 3334b4deadSHans Rosenfeld * The driver will use a single interrupt while configuring the device as the 3434b4deadSHans Rosenfeld * specification requires, but contrary to the specification it will try to use 3534b4deadSHans Rosenfeld * a single-message MSI(-X) or FIXED interrupt. Later in the attach process it 3634b4deadSHans Rosenfeld * will switch to multiple-message MSI(-X) if supported. The driver wants to 3734b4deadSHans Rosenfeld * have one interrupt vector per CPU, but it will work correctly if less are 3834b4deadSHans Rosenfeld * available. Interrupts can be shared by queues, the interrupt handler will 3934b4deadSHans Rosenfeld * iterate through the I/O queue array by steps of n_intr_cnt. Usually only 4034b4deadSHans Rosenfeld * the admin queue will share an interrupt with one I/O queue. The interrupt 4134b4deadSHans Rosenfeld * handler will retrieve completed commands from all queues sharing an interrupt 4234b4deadSHans Rosenfeld * vector and will post them to a taskq for completion processing. 433c9168faSHans Rosenfeld * 443c9168faSHans Rosenfeld * 453c9168faSHans Rosenfeld * Command Processing: 463c9168faSHans Rosenfeld * 47adec8d5dSHans Rosenfeld * NVMe devices can have up to 65535 I/O queue pairs, with each queue holding up 483c9168faSHans Rosenfeld * to 65536 I/O commands. The driver will configure one I/O queue pair per 493c9168faSHans Rosenfeld * available interrupt vector, with the queue length usually much smaller than 503c9168faSHans Rosenfeld * the maximum of 65536. If the hardware doesn't provide enough queues, fewer 513c9168faSHans Rosenfeld * interrupt vectors will be used. 523c9168faSHans Rosenfeld * 533c9168faSHans Rosenfeld * Additionally the hardware provides a single special admin queue pair that can 543c9168faSHans Rosenfeld * hold up to 4096 admin commands. 553c9168faSHans Rosenfeld * 563c9168faSHans Rosenfeld * From the hardware perspective both queues of a queue pair are independent, 573c9168faSHans Rosenfeld * but they share some driver state: the command array (holding pointers to 583c9168faSHans Rosenfeld * commands currently being processed by the hardware) and the active command 595e3243f0SHans Rosenfeld * counter. Access to a queue pair and the shared state is protected by 605e3243f0SHans Rosenfeld * nq_mutex. 613c9168faSHans Rosenfeld * 623c9168faSHans Rosenfeld * When a command is submitted to a queue pair the active command counter is 633c9168faSHans Rosenfeld * incremented and a pointer to the command is stored in the command array. The 643c9168faSHans Rosenfeld * array index is used as command identifier (CID) in the submission queue 653c9168faSHans Rosenfeld * entry. Some commands may take a very long time to complete, and if the queue 663c9168faSHans Rosenfeld * wraps around in that time a submission may find the next array slot to still 673c9168faSHans Rosenfeld * be used by a long-running command. In this case the array is sequentially 683c9168faSHans Rosenfeld * searched for the next free slot. The length of the command array is the same 69adec8d5dSHans Rosenfeld * as the configured queue length. Queue overrun is prevented by the semaphore, 70adec8d5dSHans Rosenfeld * so a command submission may block if the queue is full. 713c9168faSHans Rosenfeld * 723c9168faSHans Rosenfeld * 7348869394SHans Rosenfeld * Polled I/O Support: 7448869394SHans Rosenfeld * 7548869394SHans Rosenfeld * For kernel core dump support the driver can do polled I/O. As interrupts are 7648869394SHans Rosenfeld * turned off while dumping the driver will just submit a command in the regular 7748869394SHans Rosenfeld * way, and then repeatedly attempt a command retrieval until it gets the 7848869394SHans Rosenfeld * command back. 7948869394SHans Rosenfeld * 8048869394SHans Rosenfeld * 813c9168faSHans Rosenfeld * Namespace Support: 823c9168faSHans Rosenfeld * 833c9168faSHans Rosenfeld * NVMe devices can have multiple namespaces, each being a independent data 843c9168faSHans Rosenfeld * store. The driver supports multiple namespaces and creates a blkdev interface 853c9168faSHans Rosenfeld * for each namespace found. Namespaces can have various attributes to support 86bdfd5c72SHans Rosenfeld * thin provisioning and protection information. This driver does not support 87bdfd5c72SHans Rosenfeld * any of this and ignores namespaces that have these attributes. 883c9168faSHans Rosenfeld * 89b6fef107SHans Rosenfeld * As of NVMe 1.1 namespaces can have an 64bit Extended Unique Identifier 90b6fef107SHans Rosenfeld * (EUI64). This driver uses the EUI64 if present to generate the devid and 91b6fef107SHans Rosenfeld * passes it to blkdev to use it in the device node names. As this is currently 92b6fef107SHans Rosenfeld * untested namespaces with EUI64 are ignored by default. 93b6fef107SHans Rosenfeld * 94ecee5a1fSHans Rosenfeld * We currently support only (2 << NVME_MINOR_INST_SHIFT) - 2 namespaces in a 95ecee5a1fSHans Rosenfeld * single controller. This is an artificial limit imposed by the driver to be 96ecee5a1fSHans Rosenfeld * able to address a reasonable number of controllers and namespaces using a 97ecee5a1fSHans Rosenfeld * 32bit minor node number. 98ecee5a1fSHans Rosenfeld * 99ecee5a1fSHans Rosenfeld * 100ecee5a1fSHans Rosenfeld * Minor nodes: 101ecee5a1fSHans Rosenfeld * 102ecee5a1fSHans Rosenfeld * For each NVMe device the driver exposes one minor node for the controller and 103ecee5a1fSHans Rosenfeld * one minor node for each namespace. The only operations supported by those 104ecee5a1fSHans Rosenfeld * minor nodes are open(9E), close(9E), and ioctl(9E). This serves as the 105ecee5a1fSHans Rosenfeld * interface for the nvmeadm(1M) utility. 106ecee5a1fSHans Rosenfeld * 1073c9168faSHans Rosenfeld * 1083c9168faSHans Rosenfeld * Blkdev Interface: 1093c9168faSHans Rosenfeld * 1103c9168faSHans Rosenfeld * This driver uses blkdev to do all the heavy lifting involved with presenting 1113c9168faSHans Rosenfeld * a disk device to the system. As a result, the processing of I/O requests is 1123c9168faSHans Rosenfeld * relatively simple as blkdev takes care of partitioning, boundary checks, DMA 1133c9168faSHans Rosenfeld * setup, and splitting of transfers into manageable chunks. 1143c9168faSHans Rosenfeld * 1153c9168faSHans Rosenfeld * I/O requests coming in from blkdev are turned into NVM commands and posted to 1163c9168faSHans Rosenfeld * an I/O queue. The queue is selected by taking the CPU id modulo the number of 1173c9168faSHans Rosenfeld * queues. There is currently no timeout handling of I/O commands. 1183c9168faSHans Rosenfeld * 1193c9168faSHans Rosenfeld * Blkdev also supports querying device/media information and generating a 1203c9168faSHans Rosenfeld * devid. The driver reports the best block size as determined by the namespace 1213c9168faSHans Rosenfeld * format back to blkdev as physical block size to support partition and block 122b6fef107SHans Rosenfeld * alignment. The devid is either based on the namespace EUI64, if present, or 123b6fef107SHans Rosenfeld * composed using the device vendor ID, model number, serial number, and the 124b6fef107SHans Rosenfeld * namespace ID. 1253c9168faSHans Rosenfeld * 1263c9168faSHans Rosenfeld * 1273c9168faSHans Rosenfeld * Error Handling: 1283c9168faSHans Rosenfeld * 1293c9168faSHans Rosenfeld * Error handling is currently limited to detecting fatal hardware errors, 1303c9168faSHans Rosenfeld * either by asynchronous events, or synchronously through command status or 1313c9168faSHans Rosenfeld * admin command timeouts. In case of severe errors the device is fenced off, 1323c9168faSHans Rosenfeld * all further requests will return EIO. FMA is then called to fault the device. 1333c9168faSHans Rosenfeld * 1343c9168faSHans Rosenfeld * The hardware has a limit for outstanding asynchronous event requests. Before 1353c9168faSHans Rosenfeld * this limit is known the driver assumes it is at least 1 and posts a single 1363c9168faSHans Rosenfeld * asynchronous request. Later when the limit is known more asynchronous event 1373c9168faSHans Rosenfeld * requests are posted to allow quicker reception of error information. When an 1383c9168faSHans Rosenfeld * asynchronous event is posted by the hardware the driver will parse the error 1393c9168faSHans Rosenfeld * status fields and log information or fault the device, depending on the 1403c9168faSHans Rosenfeld * severity of the asynchronous event. The asynchronous event request is then 1413c9168faSHans Rosenfeld * reused and posted to the admin queue again. 1423c9168faSHans Rosenfeld * 1433c9168faSHans Rosenfeld * On command completion the command status is checked for errors. In case of 1443c9168faSHans Rosenfeld * errors indicating a driver bug the driver panics. Almost all other error 1453c9168faSHans Rosenfeld * status values just cause EIO to be returned. 1463c9168faSHans Rosenfeld * 1473c9168faSHans Rosenfeld * Command timeouts are currently detected for all admin commands except 1483c9168faSHans Rosenfeld * asynchronous event requests. If a command times out and the hardware appears 1495e3243f0SHans Rosenfeld * to be healthy the driver attempts to abort the command. The original command 1505e3243f0SHans Rosenfeld * timeout is also applied to the abort command. If the abort times out too the 1513c9168faSHans Rosenfeld * driver assumes the device to be dead, fences it off, and calls FMA to retire 1525e3243f0SHans Rosenfeld * it. In all other cases the aborted command should return immediately with a 1535e3243f0SHans Rosenfeld * status indicating it was aborted, and the driver will wait indefinitely for 1545e3243f0SHans Rosenfeld * that to happen. No timeout handling of normal I/O commands is presently done. 1553c9168faSHans Rosenfeld * 1565e3243f0SHans Rosenfeld * Any command that times out due to the controller dropping dead will be put on 1575e3243f0SHans Rosenfeld * nvme_lost_cmds list if it references DMA memory. This will prevent the DMA 1585e3243f0SHans Rosenfeld * memory being reused by the system and later be written to by a "dead" NVMe 1595e3243f0SHans Rosenfeld * controller. 1605e3243f0SHans Rosenfeld * 1615e3243f0SHans Rosenfeld * 1625e3243f0SHans Rosenfeld * Locking: 1635e3243f0SHans Rosenfeld * 1645e3243f0SHans Rosenfeld * Each queue pair has its own nq_mutex, which must be held when accessing the 1655e3243f0SHans Rosenfeld * associated queue registers or the shared state of the queue pair. Callers of 1665e3243f0SHans Rosenfeld * nvme_unqueue_cmd() must make sure that nq_mutex is held, while 1675e3243f0SHans Rosenfeld * nvme_submit_{admin,io}_cmd() and nvme_retrieve_cmd() take care of this 1685e3243f0SHans Rosenfeld * themselves. 1695e3243f0SHans Rosenfeld * 1705e3243f0SHans Rosenfeld * Each command also has its own nc_mutex, which is associated with the 1715e3243f0SHans Rosenfeld * condition variable nc_cv. It is only used on admin commands which are run 1725e3243f0SHans Rosenfeld * synchronously. In that case it must be held across calls to 1735e3243f0SHans Rosenfeld * nvme_submit_{admin,io}_cmd() and nvme_wait_cmd(), which is taken care of by 1745e3243f0SHans Rosenfeld * nvme_admin_cmd(). It must also be held whenever the completion state of the 1755e3243f0SHans Rosenfeld * command is changed or while a admin command timeout is handled. 1765e3243f0SHans Rosenfeld * 1775e3243f0SHans Rosenfeld * If both nc_mutex and nq_mutex must be held, nc_mutex must be acquired first. 1785e3243f0SHans Rosenfeld * More than one nc_mutex may only be held when aborting commands. In this case, 1795e3243f0SHans Rosenfeld * the nc_mutex of the command to be aborted must be held across the call to 1805e3243f0SHans Rosenfeld * nvme_abort_cmd() to prevent the command from completing while the abort is in 1815e3243f0SHans Rosenfeld * progress. 1825e3243f0SHans Rosenfeld * 1835e3243f0SHans Rosenfeld * Each minor node has its own nm_mutex, which protects the open count nm_ocnt 1845e3243f0SHans Rosenfeld * and exclusive-open flag nm_oexcl. 1853c9168faSHans Rosenfeld * 1863c9168faSHans Rosenfeld * 1873c9168faSHans Rosenfeld * Quiesce / Fast Reboot: 1883c9168faSHans Rosenfeld * 1893c9168faSHans Rosenfeld * The driver currently does not support fast reboot. A quiesce(9E) entry point 1903c9168faSHans Rosenfeld * is still provided which is used to send a shutdown notification to the 1913c9168faSHans Rosenfeld * device. 1923c9168faSHans Rosenfeld * 1933c9168faSHans Rosenfeld * 1943c9168faSHans Rosenfeld * Driver Configuration: 1953c9168faSHans Rosenfeld * 1963c9168faSHans Rosenfeld * The following driver properties can be changed to control some aspects of the 1973c9168faSHans Rosenfeld * drivers operation: 1983c9168faSHans Rosenfeld * - strict-version: can be set to 0 to allow devices conforming to newer 199*1188b159SRobert Mustacchi * major versions to be used 2003c9168faSHans Rosenfeld * - ignore-unknown-vendor-status: can be set to 1 to not handle any vendor 2013c9168faSHans Rosenfeld * specific command status as a fatal error leading device faulting 2023c9168faSHans Rosenfeld * - admin-queue-len: the maximum length of the admin queue (16-4096) 2033c9168faSHans Rosenfeld * - io-queue-len: the maximum length of the I/O queues (16-65536) 2043c9168faSHans Rosenfeld * - async-event-limit: the maximum number of asynchronous event requests to be 2053c9168faSHans Rosenfeld * posted by the driver 206998a9ab1SHans Rosenfeld * - volatile-write-cache-enable: can be set to 0 to disable the volatile write 207998a9ab1SHans Rosenfeld * cache 208be0a819dSHans Rosenfeld * - min-phys-block-size: the minimum physical block size to report to blkdev, 209be0a819dSHans Rosenfeld * which is among other things the basis for ZFS vdev ashift 2103c9168faSHans Rosenfeld * 2113c9168faSHans Rosenfeld * 2123c9168faSHans Rosenfeld * TODO: 2133c9168faSHans Rosenfeld * - figure out sane default for I/O queue depth reported to blkdev 2143c9168faSHans Rosenfeld * - FMA handling of media errors 2153c9168faSHans Rosenfeld * - support for devices supporting very large I/O requests using chained PRPs 2163c9168faSHans Rosenfeld * - support for configuring hardware parameters like interrupt coalescing 2173c9168faSHans Rosenfeld * - support for media formatting and hard partitioning into namespaces 2183c9168faSHans Rosenfeld * - support for big-endian systems 2193c9168faSHans Rosenfeld * - support for fast reboot 220b6fef107SHans Rosenfeld * - support for firmware updates 221b6fef107SHans Rosenfeld * - support for NVMe Subsystem Reset (1.1) 222b6fef107SHans Rosenfeld * - support for Scatter/Gather lists (1.1) 223b6fef107SHans Rosenfeld * - support for Reservations (1.1) 224b6fef107SHans Rosenfeld * - support for power management 2253c9168faSHans Rosenfeld */ 2263c9168faSHans Rosenfeld 2273c9168faSHans Rosenfeld #include <sys/byteorder.h> 2283c9168faSHans Rosenfeld #ifdef _BIG_ENDIAN 2293c9168faSHans Rosenfeld #error nvme driver needs porting for big-endian platforms 2303c9168faSHans Rosenfeld #endif 2313c9168faSHans Rosenfeld 2323c9168faSHans Rosenfeld #include <sys/modctl.h> 2333c9168faSHans Rosenfeld #include <sys/conf.h> 2343c9168faSHans Rosenfeld #include <sys/devops.h> 2353c9168faSHans Rosenfeld #include <sys/ddi.h> 2363c9168faSHans Rosenfeld #include <sys/sunddi.h> 237ecee5a1fSHans Rosenfeld #include <sys/sunndi.h> 2383c9168faSHans Rosenfeld #include <sys/bitmap.h> 2393c9168faSHans Rosenfeld #include <sys/sysmacros.h> 2403c9168faSHans Rosenfeld #include <sys/param.h> 2413c9168faSHans Rosenfeld #include <sys/varargs.h> 2423c9168faSHans Rosenfeld #include <sys/cpuvar.h> 2433c9168faSHans Rosenfeld #include <sys/disp.h> 2443c9168faSHans Rosenfeld #include <sys/blkdev.h> 2453c9168faSHans Rosenfeld #include <sys/atomic.h> 2463c9168faSHans Rosenfeld #include <sys/archsystm.h> 247510a6847SHans Rosenfeld #include <sys/sata/sata_hba.h> 248ecee5a1fSHans Rosenfeld #include <sys/stat.h> 249ecee5a1fSHans Rosenfeld #include <sys/policy.h> 2505e3243f0SHans Rosenfeld #include <sys/list.h> 251ecee5a1fSHans Rosenfeld 252ecee5a1fSHans Rosenfeld #include <sys/nvme.h> 2533c9168faSHans Rosenfeld 254f33fa084SHans Rosenfeld #ifdef __x86 255f33fa084SHans Rosenfeld #include <sys/x86_archext.h> 256f33fa084SHans Rosenfeld #endif 257f33fa084SHans Rosenfeld 2583c9168faSHans Rosenfeld #include "nvme_reg.h" 2593c9168faSHans Rosenfeld #include "nvme_var.h" 2603c9168faSHans Rosenfeld 261*1188b159SRobert Mustacchi /* 262*1188b159SRobert Mustacchi * Assertions to make sure that we've properly captured various aspects of the 263*1188b159SRobert Mustacchi * packed structures and haven't broken them during updates. 264*1188b159SRobert Mustacchi */ 265*1188b159SRobert Mustacchi CTASSERT(sizeof (nvme_identify_ctrl_t) == 0x1000); 266*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_ctrl_t, id_oacs) == 256); 267*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_ctrl_t, id_sqes) == 512); 268*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_ctrl_t, id_subnqn) == 768); 269*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_ctrl_t, id_nvmof) == 1792); 270*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_ctrl_t, id_psd) == 2048); 271*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_ctrl_t, id_vs) == 3072); 272*1188b159SRobert Mustacchi 273*1188b159SRobert Mustacchi CTASSERT(sizeof (nvme_identify_nsid_t) == 0x1000); 274*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_nsid_t, id_fpi) == 32); 275*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_nsid_t, id_nguid) == 104); 276*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_nsid_t, id_lbaf) == 128); 277*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_nsid_t, id_vs) == 384); 278*1188b159SRobert Mustacchi 279*1188b159SRobert Mustacchi CTASSERT(sizeof (nvme_identify_primary_caps_t) == 0x1000); 280*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_primary_caps_t, nipc_vqfrt) == 32); 281*1188b159SRobert Mustacchi CTASSERT(offsetof(nvme_identify_primary_caps_t, nipc_vifrt) == 64); 282*1188b159SRobert Mustacchi 2833c9168faSHans Rosenfeld 2843c9168faSHans Rosenfeld /* NVMe spec version supported */ 2853c9168faSHans Rosenfeld static const int nvme_version_major = 1; 2863c9168faSHans Rosenfeld 287fcc62af7SHans Rosenfeld /* tunable for admin command timeout in seconds, default is 1s */ 288ecee5a1fSHans Rosenfeld int nvme_admin_cmd_timeout = 1; 289ecee5a1fSHans Rosenfeld 290ecee5a1fSHans Rosenfeld /* tunable for FORMAT NVM command timeout in seconds, default is 600s */ 291ecee5a1fSHans Rosenfeld int nvme_format_cmd_timeout = 600; 292fcc62af7SHans Rosenfeld 2933c9168faSHans Rosenfeld static int nvme_attach(dev_info_t *, ddi_attach_cmd_t); 2943c9168faSHans Rosenfeld static int nvme_detach(dev_info_t *, ddi_detach_cmd_t); 2953c9168faSHans Rosenfeld static int nvme_quiesce(dev_info_t *); 2963c9168faSHans Rosenfeld static int nvme_fm_errcb(dev_info_t *, ddi_fm_error_t *, const void *); 2973c9168faSHans Rosenfeld static int nvme_setup_interrupts(nvme_t *, int, int); 2983c9168faSHans Rosenfeld static void nvme_release_interrupts(nvme_t *); 2993c9168faSHans Rosenfeld static uint_t nvme_intr(caddr_t, caddr_t); 3003c9168faSHans Rosenfeld 3013c9168faSHans Rosenfeld static void nvme_shutdown(nvme_t *, int, boolean_t); 3023c9168faSHans Rosenfeld static boolean_t nvme_reset(nvme_t *, boolean_t); 3033c9168faSHans Rosenfeld static int nvme_init(nvme_t *); 3043c9168faSHans Rosenfeld static nvme_cmd_t *nvme_alloc_cmd(nvme_t *, int); 3053c9168faSHans Rosenfeld static void nvme_free_cmd(nvme_cmd_t *); 3063c9168faSHans Rosenfeld static nvme_cmd_t *nvme_create_nvm_cmd(nvme_namespace_t *, uint8_t, 3073c9168faSHans Rosenfeld bd_xfer_t *); 3085e3243f0SHans Rosenfeld static void nvme_admin_cmd(nvme_cmd_t *, int); 309adec8d5dSHans Rosenfeld static void nvme_submit_admin_cmd(nvme_qpair_t *, nvme_cmd_t *); 310adec8d5dSHans Rosenfeld static int nvme_submit_io_cmd(nvme_qpair_t *, nvme_cmd_t *); 311adec8d5dSHans Rosenfeld static void nvme_submit_cmd_common(nvme_qpair_t *, nvme_cmd_t *); 3125e3243f0SHans Rosenfeld static nvme_cmd_t *nvme_unqueue_cmd(nvme_t *, nvme_qpair_t *, int); 3133c9168faSHans Rosenfeld static nvme_cmd_t *nvme_retrieve_cmd(nvme_t *, nvme_qpair_t *); 3145e3243f0SHans Rosenfeld static void nvme_wait_cmd(nvme_cmd_t *, uint_t); 3153c9168faSHans Rosenfeld static void nvme_wakeup_cmd(void *); 3163c9168faSHans Rosenfeld static void nvme_async_event_task(void *); 3173c9168faSHans Rosenfeld 3183c9168faSHans Rosenfeld static int nvme_check_unknown_cmd_status(nvme_cmd_t *); 3193c9168faSHans Rosenfeld static int nvme_check_vendor_cmd_status(nvme_cmd_t *); 3203c9168faSHans Rosenfeld static int nvme_check_integrity_cmd_status(nvme_cmd_t *); 3213c9168faSHans Rosenfeld static int nvme_check_specific_cmd_status(nvme_cmd_t *); 3223c9168faSHans Rosenfeld static int nvme_check_generic_cmd_status(nvme_cmd_t *); 3233c9168faSHans Rosenfeld static inline int nvme_check_cmd_status(nvme_cmd_t *); 3243c9168faSHans Rosenfeld 3255e3243f0SHans Rosenfeld static int nvme_abort_cmd(nvme_cmd_t *, uint_t); 326adec8d5dSHans Rosenfeld static void nvme_async_event(nvme_t *); 327ecee5a1fSHans Rosenfeld static int nvme_format_nvm(nvme_t *, uint32_t, uint8_t, boolean_t, uint8_t, 328ecee5a1fSHans Rosenfeld boolean_t, uint8_t); 329ecee5a1fSHans Rosenfeld static int nvme_get_logpage(nvme_t *, void **, size_t *, uint8_t, ...); 3305e3243f0SHans Rosenfeld static int nvme_identify(nvme_t *, uint32_t, void **); 3315e3243f0SHans Rosenfeld static int nvme_set_features(nvme_t *, uint32_t, uint8_t, uint32_t, 332998a9ab1SHans Rosenfeld uint32_t *); 3335e3243f0SHans Rosenfeld static int nvme_get_features(nvme_t *, uint32_t, uint8_t, uint32_t *, 334ecee5a1fSHans Rosenfeld void **, size_t *); 3355e3243f0SHans Rosenfeld static int nvme_write_cache_set(nvme_t *, boolean_t); 3365e3243f0SHans Rosenfeld static int nvme_set_nqueues(nvme_t *, uint16_t *); 3373c9168faSHans Rosenfeld 3383c9168faSHans Rosenfeld static void nvme_free_dma(nvme_dma_t *); 3393c9168faSHans Rosenfeld static int nvme_zalloc_dma(nvme_t *, size_t, uint_t, ddi_dma_attr_t *, 3403c9168faSHans Rosenfeld nvme_dma_t **); 3413c9168faSHans Rosenfeld static int nvme_zalloc_queue_dma(nvme_t *, uint32_t, uint16_t, uint_t, 3423c9168faSHans Rosenfeld nvme_dma_t **); 3433c9168faSHans Rosenfeld static void nvme_free_qpair(nvme_qpair_t *); 3443c9168faSHans Rosenfeld static int nvme_alloc_qpair(nvme_t *, uint32_t, nvme_qpair_t **, int); 3453c9168faSHans Rosenfeld static int nvme_create_io_qpair(nvme_t *, nvme_qpair_t *, uint16_t); 3463c9168faSHans Rosenfeld 3473c9168faSHans Rosenfeld static inline void nvme_put64(nvme_t *, uintptr_t, uint64_t); 3483c9168faSHans Rosenfeld static inline void nvme_put32(nvme_t *, uintptr_t, uint32_t); 3493c9168faSHans Rosenfeld static inline uint64_t nvme_get64(nvme_t *, uintptr_t); 3503c9168faSHans Rosenfeld static inline uint32_t nvme_get32(nvme_t *, uintptr_t); 3513c9168faSHans Rosenfeld 3523c9168faSHans Rosenfeld static boolean_t nvme_check_regs_hdl(nvme_t *); 3533c9168faSHans Rosenfeld static boolean_t nvme_check_dma_hdl(nvme_dma_t *); 3543c9168faSHans Rosenfeld 3553c9168faSHans Rosenfeld static int nvme_fill_prp(nvme_cmd_t *, bd_xfer_t *); 3563c9168faSHans Rosenfeld 3573c9168faSHans Rosenfeld static void nvme_bd_xfer_done(void *); 3583c9168faSHans Rosenfeld static void nvme_bd_driveinfo(void *, bd_drive_t *); 3593c9168faSHans Rosenfeld static int nvme_bd_mediainfo(void *, bd_media_t *); 3603c9168faSHans Rosenfeld static int nvme_bd_cmd(nvme_namespace_t *, bd_xfer_t *, uint8_t); 3613c9168faSHans Rosenfeld static int nvme_bd_read(void *, bd_xfer_t *); 3623c9168faSHans Rosenfeld static int nvme_bd_write(void *, bd_xfer_t *); 3633c9168faSHans Rosenfeld static int nvme_bd_sync(void *, bd_xfer_t *); 3643c9168faSHans Rosenfeld static int nvme_bd_devid(void *, dev_info_t *, ddi_devid_t *); 3653c9168faSHans Rosenfeld 366582eef8cSYouzhong Yang static int nvme_prp_dma_constructor(void *, void *, int); 367582eef8cSYouzhong Yang static void nvme_prp_dma_destructor(void *, void *); 368582eef8cSYouzhong Yang 3693c9168faSHans Rosenfeld static void nvme_prepare_devid(nvme_t *, uint32_t); 3703c9168faSHans Rosenfeld 371ecee5a1fSHans Rosenfeld static int nvme_open(dev_t *, int, int, cred_t *); 372ecee5a1fSHans Rosenfeld static int nvme_close(dev_t, int, int, cred_t *); 373ecee5a1fSHans Rosenfeld static int nvme_ioctl(dev_t, int, intptr_t, int, cred_t *, int *); 374ecee5a1fSHans Rosenfeld 375a2d52ea8SHans Rosenfeld #define NVME_MINOR_INST_SHIFT 9 376ecee5a1fSHans Rosenfeld #define NVME_MINOR(inst, nsid) (((inst) << NVME_MINOR_INST_SHIFT) | (nsid)) 377ecee5a1fSHans Rosenfeld #define NVME_MINOR_INST(minor) ((minor) >> NVME_MINOR_INST_SHIFT) 378ecee5a1fSHans Rosenfeld #define NVME_MINOR_NSID(minor) ((minor) & ((1 << NVME_MINOR_INST_SHIFT) - 1)) 379ecee5a1fSHans Rosenfeld #define NVME_MINOR_MAX (NVME_MINOR(1, 0) - 2) 380ecee5a1fSHans Rosenfeld 3813c9168faSHans Rosenfeld static void *nvme_state; 3823c9168faSHans Rosenfeld static kmem_cache_t *nvme_cmd_cache; 3833c9168faSHans Rosenfeld 3843c9168faSHans Rosenfeld /* 3853c9168faSHans Rosenfeld * DMA attributes for queue DMA memory 3863c9168faSHans Rosenfeld * 3873c9168faSHans Rosenfeld * Queue DMA memory must be page aligned. The maximum length of a queue is 3883c9168faSHans Rosenfeld * 65536 entries, and an entry can be 64 bytes long. 3893c9168faSHans Rosenfeld */ 3903c9168faSHans Rosenfeld static ddi_dma_attr_t nvme_queue_dma_attr = { 3913c9168faSHans Rosenfeld .dma_attr_version = DMA_ATTR_V0, 3923c9168faSHans Rosenfeld .dma_attr_addr_lo = 0, 3933c9168faSHans Rosenfeld .dma_attr_addr_hi = 0xffffffffffffffffULL, 394ecb43a4cSYouzhong Yang .dma_attr_count_max = (UINT16_MAX + 1) * sizeof (nvme_sqe_t) - 1, 3953c9168faSHans Rosenfeld .dma_attr_align = 0x1000, 3963c9168faSHans Rosenfeld .dma_attr_burstsizes = 0x7ff, 3973c9168faSHans Rosenfeld .dma_attr_minxfer = 0x1000, 3983c9168faSHans Rosenfeld .dma_attr_maxxfer = (UINT16_MAX + 1) * sizeof (nvme_sqe_t), 3993c9168faSHans Rosenfeld .dma_attr_seg = 0xffffffffffffffffULL, 4003c9168faSHans Rosenfeld .dma_attr_sgllen = 1, 4013c9168faSHans Rosenfeld .dma_attr_granular = 1, 4023c9168faSHans Rosenfeld .dma_attr_flags = 0, 4033c9168faSHans Rosenfeld }; 4043c9168faSHans Rosenfeld 4053c9168faSHans Rosenfeld /* 4063c9168faSHans Rosenfeld * DMA attributes for transfers using Physical Region Page (PRP) entries 4073c9168faSHans Rosenfeld * 4083c9168faSHans Rosenfeld * A PRP entry describes one page of DMA memory using the page size specified 4093c9168faSHans Rosenfeld * in the controller configuration's memory page size register (CC.MPS). It uses 4103c9168faSHans Rosenfeld * a 64bit base address aligned to this page size. There is no limitation on 4113c9168faSHans Rosenfeld * chaining PRPs together for arbitrarily large DMA transfers. 4123c9168faSHans Rosenfeld */ 4133c9168faSHans Rosenfeld static ddi_dma_attr_t nvme_prp_dma_attr = { 4143c9168faSHans Rosenfeld .dma_attr_version = DMA_ATTR_V0, 4153c9168faSHans Rosenfeld .dma_attr_addr_lo = 0, 4163c9168faSHans Rosenfeld .dma_attr_addr_hi = 0xffffffffffffffffULL, 4173c9168faSHans Rosenfeld .dma_attr_count_max = 0xfff, 4183c9168faSHans Rosenfeld .dma_attr_align = 0x1000, 4193c9168faSHans Rosenfeld .dma_attr_burstsizes = 0x7ff, 4203c9168faSHans Rosenfeld .dma_attr_minxfer = 0x1000, 4213c9168faSHans Rosenfeld .dma_attr_maxxfer = 0x1000, 422c00ca9eeSYouzhong Yang .dma_attr_seg = 0xfff, 4233c9168faSHans Rosenfeld .dma_attr_sgllen = -1, 4243c9168faSHans Rosenfeld .dma_attr_granular = 1, 4253c9168faSHans Rosenfeld .dma_attr_flags = 0, 4263c9168faSHans Rosenfeld }; 4273c9168faSHans Rosenfeld 4283c9168faSHans Rosenfeld /* 4293c9168faSHans Rosenfeld * DMA attributes for transfers using scatter/gather lists 4303c9168faSHans Rosenfeld * 4313c9168faSHans Rosenfeld * A SGL entry describes a chunk of DMA memory using a 64bit base address and a 4323c9168faSHans Rosenfeld * 32bit length field. SGL Segment and SGL Last Segment entries require the 4333c9168faSHans Rosenfeld * length to be a multiple of 16 bytes. 4343c9168faSHans Rosenfeld */ 4353c9168faSHans Rosenfeld static ddi_dma_attr_t nvme_sgl_dma_attr = { 4363c9168faSHans Rosenfeld .dma_attr_version = DMA_ATTR_V0, 4373c9168faSHans Rosenfeld .dma_attr_addr_lo = 0, 4383c9168faSHans Rosenfeld .dma_attr_addr_hi = 0xffffffffffffffffULL, 4393c9168faSHans Rosenfeld .dma_attr_count_max = 0xffffffffUL, 4403c9168faSHans Rosenfeld .dma_attr_align = 1, 4413c9168faSHans Rosenfeld .dma_attr_burstsizes = 0x7ff, 4423c9168faSHans Rosenfeld .dma_attr_minxfer = 0x10, 4433c9168faSHans Rosenfeld .dma_attr_maxxfer = 0xfffffffffULL, 4443c9168faSHans Rosenfeld .dma_attr_seg = 0xffffffffffffffffULL, 4453c9168faSHans Rosenfeld .dma_attr_sgllen = -1, 4463c9168faSHans Rosenfeld .dma_attr_granular = 0x10, 4473c9168faSHans Rosenfeld .dma_attr_flags = 0 4483c9168faSHans Rosenfeld }; 4493c9168faSHans Rosenfeld 4503c9168faSHans Rosenfeld static ddi_device_acc_attr_t nvme_reg_acc_attr = { 4513c9168faSHans Rosenfeld .devacc_attr_version = DDI_DEVICE_ATTR_V0, 4523c9168faSHans Rosenfeld .devacc_attr_endian_flags = DDI_STRUCTURE_LE_ACC, 4533c9168faSHans Rosenfeld .devacc_attr_dataorder = DDI_STRICTORDER_ACC 4543c9168faSHans Rosenfeld }; 4553c9168faSHans Rosenfeld 456ecee5a1fSHans Rosenfeld static struct cb_ops nvme_cb_ops = { 457ecee5a1fSHans Rosenfeld .cb_open = nvme_open, 458ecee5a1fSHans Rosenfeld .cb_close = nvme_close, 459ecee5a1fSHans Rosenfeld .cb_strategy = nodev, 460ecee5a1fSHans Rosenfeld .cb_print = nodev, 461ecee5a1fSHans Rosenfeld .cb_dump = nodev, 462ecee5a1fSHans Rosenfeld .cb_read = nodev, 463ecee5a1fSHans Rosenfeld .cb_write = nodev, 464ecee5a1fSHans Rosenfeld .cb_ioctl = nvme_ioctl, 465ecee5a1fSHans Rosenfeld .cb_devmap = nodev, 466ecee5a1fSHans Rosenfeld .cb_mmap = nodev, 467ecee5a1fSHans Rosenfeld .cb_segmap = nodev, 468ecee5a1fSHans Rosenfeld .cb_chpoll = nochpoll, 469ecee5a1fSHans Rosenfeld .cb_prop_op = ddi_prop_op, 470ecee5a1fSHans Rosenfeld .cb_str = 0, 471ecee5a1fSHans Rosenfeld .cb_flag = D_NEW | D_MP, 472ecee5a1fSHans Rosenfeld .cb_rev = CB_REV, 473ecee5a1fSHans Rosenfeld .cb_aread = nodev, 474ecee5a1fSHans Rosenfeld .cb_awrite = nodev 475ecee5a1fSHans Rosenfeld }; 476ecee5a1fSHans Rosenfeld 4773c9168faSHans Rosenfeld static struct dev_ops nvme_dev_ops = { 4783c9168faSHans Rosenfeld .devo_rev = DEVO_REV, 4793c9168faSHans Rosenfeld .devo_refcnt = 0, 4803c9168faSHans Rosenfeld .devo_getinfo = ddi_no_info, 4813c9168faSHans Rosenfeld .devo_identify = nulldev, 4823c9168faSHans Rosenfeld .devo_probe = nulldev, 4833c9168faSHans Rosenfeld .devo_attach = nvme_attach, 4843c9168faSHans Rosenfeld .devo_detach = nvme_detach, 4853c9168faSHans Rosenfeld .devo_reset = nodev, 486ecee5a1fSHans Rosenfeld .devo_cb_ops = &nvme_cb_ops, 4873c9168faSHans Rosenfeld .devo_bus_ops = NULL, 4883c9168faSHans Rosenfeld .devo_power = NULL, 4893c9168faSHans Rosenfeld .devo_quiesce = nvme_quiesce, 4903c9168faSHans Rosenfeld }; 4913c9168faSHans Rosenfeld 4923c9168faSHans Rosenfeld static struct modldrv nvme_modldrv = { 4933c9168faSHans Rosenfeld .drv_modops = &mod_driverops, 494b6fef107SHans Rosenfeld .drv_linkinfo = "NVMe v1.1b", 4953c9168faSHans Rosenfeld .drv_dev_ops = &nvme_dev_ops 4963c9168faSHans Rosenfeld }; 4973c9168faSHans Rosenfeld 4983c9168faSHans Rosenfeld static struct modlinkage nvme_modlinkage = { 4993c9168faSHans Rosenfeld .ml_rev = MODREV_1, 5003c9168faSHans Rosenfeld .ml_linkage = { &nvme_modldrv, NULL } 5013c9168faSHans Rosenfeld }; 5023c9168faSHans Rosenfeld 5033c9168faSHans Rosenfeld static bd_ops_t nvme_bd_ops = { 5043c9168faSHans Rosenfeld .o_version = BD_OPS_VERSION_0, 5053c9168faSHans Rosenfeld .o_drive_info = nvme_bd_driveinfo, 5063c9168faSHans Rosenfeld .o_media_info = nvme_bd_mediainfo, 5073c9168faSHans Rosenfeld .o_devid_init = nvme_bd_devid, 5083c9168faSHans Rosenfeld .o_sync_cache = nvme_bd_sync, 5093c9168faSHans Rosenfeld .o_read = nvme_bd_read, 5103c9168faSHans Rosenfeld .o_write = nvme_bd_write, 5113c9168faSHans Rosenfeld }; 5123c9168faSHans Rosenfeld 5135e3243f0SHans Rosenfeld /* 5145e3243f0SHans Rosenfeld * This list will hold commands that have timed out and couldn't be aborted. 5155e3243f0SHans Rosenfeld * As we don't know what the hardware may still do with the DMA memory we can't 5165e3243f0SHans Rosenfeld * free them, so we'll keep them forever on this list where we can easily look 5175e3243f0SHans Rosenfeld * at them with mdb. 5185e3243f0SHans Rosenfeld */ 5195e3243f0SHans Rosenfeld static struct list nvme_lost_cmds; 5205e3243f0SHans Rosenfeld static kmutex_t nvme_lc_mutex; 5215e3243f0SHans Rosenfeld 5223c9168faSHans Rosenfeld int 5233c9168faSHans Rosenfeld _init(void) 5243c9168faSHans Rosenfeld { 5253c9168faSHans Rosenfeld int error; 5263c9168faSHans Rosenfeld 5273c9168faSHans Rosenfeld error = ddi_soft_state_init(&nvme_state, sizeof (nvme_t), 1); 5283c9168faSHans Rosenfeld if (error != DDI_SUCCESS) 5293c9168faSHans Rosenfeld return (error); 5303c9168faSHans Rosenfeld 5313c9168faSHans Rosenfeld nvme_cmd_cache = kmem_cache_create("nvme_cmd_cache", 5323c9168faSHans Rosenfeld sizeof (nvme_cmd_t), 64, NULL, NULL, NULL, NULL, NULL, 0); 5333c9168faSHans Rosenfeld 5345e3243f0SHans Rosenfeld mutex_init(&nvme_lc_mutex, NULL, MUTEX_DRIVER, NULL); 5355e3243f0SHans Rosenfeld list_create(&nvme_lost_cmds, sizeof (nvme_cmd_t), 5365e3243f0SHans Rosenfeld offsetof(nvme_cmd_t, nc_list)); 5375e3243f0SHans Rosenfeld 5383c9168faSHans Rosenfeld bd_mod_init(&nvme_dev_ops); 5393c9168faSHans Rosenfeld 5403c9168faSHans Rosenfeld error = mod_install(&nvme_modlinkage); 5413c9168faSHans Rosenfeld if (error != DDI_SUCCESS) { 5423c9168faSHans Rosenfeld ddi_soft_state_fini(&nvme_state); 5435e3243f0SHans Rosenfeld mutex_destroy(&nvme_lc_mutex); 5445e3243f0SHans Rosenfeld list_destroy(&nvme_lost_cmds); 5453c9168faSHans Rosenfeld bd_mod_fini(&nvme_dev_ops); 5463c9168faSHans Rosenfeld } 5473c9168faSHans Rosenfeld 5483c9168faSHans Rosenfeld return (error); 5493c9168faSHans Rosenfeld } 5503c9168faSHans Rosenfeld 5513c9168faSHans Rosenfeld int 5523c9168faSHans Rosenfeld _fini(void) 5533c9168faSHans Rosenfeld { 5543c9168faSHans Rosenfeld int error; 5553c9168faSHans Rosenfeld 5565e3243f0SHans Rosenfeld if (!list_is_empty(&nvme_lost_cmds)) 5575e3243f0SHans Rosenfeld return (DDI_FAILURE); 5585e3243f0SHans Rosenfeld 5593c9168faSHans Rosenfeld error = mod_remove(&nvme_modlinkage); 5603c9168faSHans Rosenfeld if (error == DDI_SUCCESS) { 5613c9168faSHans Rosenfeld ddi_soft_state_fini(&nvme_state); 5623c9168faSHans Rosenfeld kmem_cache_destroy(nvme_cmd_cache); 5635e3243f0SHans Rosenfeld mutex_destroy(&nvme_lc_mutex); 5645e3243f0SHans Rosenfeld list_destroy(&nvme_lost_cmds); 5653c9168faSHans Rosenfeld bd_mod_fini(&nvme_dev_ops); 5663c9168faSHans Rosenfeld } 5673c9168faSHans Rosenfeld 5683c9168faSHans Rosenfeld return (error); 5693c9168faSHans Rosenfeld } 5703c9168faSHans Rosenfeld 5713c9168faSHans Rosenfeld int 5723c9168faSHans Rosenfeld _info(struct modinfo *modinfop) 5733c9168faSHans Rosenfeld { 5743c9168faSHans Rosenfeld return (mod_info(&nvme_modlinkage, modinfop)); 5753c9168faSHans Rosenfeld } 5763c9168faSHans Rosenfeld 5773c9168faSHans Rosenfeld static inline void 5783c9168faSHans Rosenfeld nvme_put64(nvme_t *nvme, uintptr_t reg, uint64_t val) 5793c9168faSHans Rosenfeld { 5803c9168faSHans Rosenfeld ASSERT(((uintptr_t)(nvme->n_regs + reg) & 0x7) == 0); 5813c9168faSHans Rosenfeld 5823c9168faSHans Rosenfeld /*LINTED: E_BAD_PTR_CAST_ALIGN*/ 5833c9168faSHans Rosenfeld ddi_put64(nvme->n_regh, (uint64_t *)(nvme->n_regs + reg), val); 5843c9168faSHans Rosenfeld } 5853c9168faSHans Rosenfeld 5863c9168faSHans Rosenfeld static inline void 5873c9168faSHans Rosenfeld nvme_put32(nvme_t *nvme, uintptr_t reg, uint32_t val) 5883c9168faSHans Rosenfeld { 5893c9168faSHans Rosenfeld ASSERT(((uintptr_t)(nvme->n_regs + reg) & 0x3) == 0); 5903c9168faSHans Rosenfeld 5913c9168faSHans Rosenfeld /*LINTED: E_BAD_PTR_CAST_ALIGN*/ 5923c9168faSHans Rosenfeld ddi_put32(nvme->n_regh, (uint32_t *)(nvme->n_regs + reg), val); 5933c9168faSHans Rosenfeld } 5943c9168faSHans Rosenfeld 5953c9168faSHans Rosenfeld static inline uint64_t 5963c9168faSHans Rosenfeld nvme_get64(nvme_t *nvme, uintptr_t reg) 5973c9168faSHans Rosenfeld { 5983c9168faSHans Rosenfeld uint64_t val; 5993c9168faSHans Rosenfeld 6003c9168faSHans Rosenfeld ASSERT(((uintptr_t)(nvme->n_regs + reg) & 0x7) == 0); 6013c9168faSHans Rosenfeld 6023c9168faSHans Rosenfeld /*LINTED: E_BAD_PTR_CAST_ALIGN*/ 6033c9168faSHans Rosenfeld val = ddi_get64(nvme->n_regh, (uint64_t *)(nvme->n_regs + reg)); 6043c9168faSHans Rosenfeld 6053c9168faSHans Rosenfeld return (val); 6063c9168faSHans Rosenfeld } 6073c9168faSHans Rosenfeld 6083c9168faSHans Rosenfeld static inline uint32_t 6093c9168faSHans Rosenfeld nvme_get32(nvme_t *nvme, uintptr_t reg) 6103c9168faSHans Rosenfeld { 6113c9168faSHans Rosenfeld uint32_t val; 6123c9168faSHans Rosenfeld 6133c9168faSHans Rosenfeld ASSERT(((uintptr_t)(nvme->n_regs + reg) & 0x3) == 0); 6143c9168faSHans Rosenfeld 6153c9168faSHans Rosenfeld /*LINTED: E_BAD_PTR_CAST_ALIGN*/ 6163c9168faSHans Rosenfeld val = ddi_get32(nvme->n_regh, (uint32_t *)(nvme->n_regs + reg)); 6173c9168faSHans Rosenfeld 6183c9168faSHans Rosenfeld return (val); 6193c9168faSHans Rosenfeld } 6203c9168faSHans Rosenfeld 6213c9168faSHans Rosenfeld static boolean_t 6223c9168faSHans Rosenfeld nvme_check_regs_hdl(nvme_t *nvme) 6233c9168faSHans Rosenfeld { 6243c9168faSHans Rosenfeld ddi_fm_error_t error; 6253c9168faSHans Rosenfeld 6263c9168faSHans Rosenfeld ddi_fm_acc_err_get(nvme->n_regh, &error, DDI_FME_VERSION); 6273c9168faSHans Rosenfeld 6283c9168faSHans Rosenfeld if (error.fme_status != DDI_FM_OK) 6293c9168faSHans Rosenfeld return (B_TRUE); 6303c9168faSHans Rosenfeld 6313c9168faSHans Rosenfeld return (B_FALSE); 6323c9168faSHans Rosenfeld } 6333c9168faSHans Rosenfeld 6343c9168faSHans Rosenfeld static boolean_t 6353c9168faSHans Rosenfeld nvme_check_dma_hdl(nvme_dma_t *dma) 6363c9168faSHans Rosenfeld { 6373c9168faSHans Rosenfeld ddi_fm_error_t error; 6383c9168faSHans Rosenfeld 6393c9168faSHans Rosenfeld if (dma == NULL) 6403c9168faSHans Rosenfeld return (B_FALSE); 6413c9168faSHans Rosenfeld 6423c9168faSHans Rosenfeld ddi_fm_dma_err_get(dma->nd_dmah, &error, DDI_FME_VERSION); 6433c9168faSHans Rosenfeld 6443c9168faSHans Rosenfeld if (error.fme_status != DDI_FM_OK) 6453c9168faSHans Rosenfeld return (B_TRUE); 6463c9168faSHans Rosenfeld 6473c9168faSHans Rosenfeld return (B_FALSE); 6483c9168faSHans Rosenfeld } 6493c9168faSHans Rosenfeld 6503c9168faSHans Rosenfeld static void 651582eef8cSYouzhong Yang nvme_free_dma_common(nvme_dma_t *dma) 6523c9168faSHans Rosenfeld { 6533c9168faSHans Rosenfeld if (dma->nd_dmah != NULL) 6543c9168faSHans Rosenfeld (void) ddi_dma_unbind_handle(dma->nd_dmah); 6553c9168faSHans Rosenfeld if (dma->nd_acch != NULL) 6563c9168faSHans Rosenfeld ddi_dma_mem_free(&dma->nd_acch); 6573c9168faSHans Rosenfeld if (dma->nd_dmah != NULL) 6583c9168faSHans Rosenfeld ddi_dma_free_handle(&dma->nd_dmah); 659582eef8cSYouzhong Yang } 660582eef8cSYouzhong Yang 661582eef8cSYouzhong Yang static void 662582eef8cSYouzhong Yang nvme_free_dma(nvme_dma_t *dma) 663582eef8cSYouzhong Yang { 664582eef8cSYouzhong Yang nvme_free_dma_common(dma); 665582eef8cSYouzhong Yang kmem_free(dma, sizeof (*dma)); 666582eef8cSYouzhong Yang } 667582eef8cSYouzhong Yang 668bc1763ebSDan McDonald /* ARGSUSED */ 669582eef8cSYouzhong Yang static void 670582eef8cSYouzhong Yang nvme_prp_dma_destructor(void *buf, void *private) 671582eef8cSYouzhong Yang { 672582eef8cSYouzhong Yang nvme_dma_t *dma = (nvme_dma_t *)buf; 673582eef8cSYouzhong Yang 674582eef8cSYouzhong Yang nvme_free_dma_common(dma); 6753c9168faSHans Rosenfeld } 6763c9168faSHans Rosenfeld 6773c9168faSHans Rosenfeld static int 678582eef8cSYouzhong Yang nvme_alloc_dma_common(nvme_t *nvme, nvme_dma_t *dma, 679582eef8cSYouzhong Yang size_t len, uint_t flags, ddi_dma_attr_t *dma_attr) 6803c9168faSHans Rosenfeld { 6813c9168faSHans Rosenfeld if (ddi_dma_alloc_handle(nvme->n_dip, dma_attr, DDI_DMA_SLEEP, NULL, 6823c9168faSHans Rosenfeld &dma->nd_dmah) != DDI_SUCCESS) { 6833c9168faSHans Rosenfeld /* 6843c9168faSHans Rosenfeld * Due to DDI_DMA_SLEEP this can't be DDI_DMA_NORESOURCES, and 6853c9168faSHans Rosenfeld * the only other possible error is DDI_DMA_BADATTR which 6863c9168faSHans Rosenfeld * indicates a driver bug which should cause a panic. 6873c9168faSHans Rosenfeld */ 6883c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_PANIC, 6893c9168faSHans Rosenfeld "!failed to get DMA handle, check DMA attributes"); 6903c9168faSHans Rosenfeld return (DDI_FAILURE); 6913c9168faSHans Rosenfeld } 6923c9168faSHans Rosenfeld 6933c9168faSHans Rosenfeld /* 6943c9168faSHans Rosenfeld * ddi_dma_mem_alloc() can only fail when DDI_DMA_NOSLEEP is specified 6953c9168faSHans Rosenfeld * or the flags are conflicting, which isn't the case here. 6963c9168faSHans Rosenfeld */ 6973c9168faSHans Rosenfeld (void) ddi_dma_mem_alloc(dma->nd_dmah, len, &nvme->n_reg_acc_attr, 6983c9168faSHans Rosenfeld DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, NULL, &dma->nd_memp, 6993c9168faSHans Rosenfeld &dma->nd_len, &dma->nd_acch); 7003c9168faSHans Rosenfeld 7013c9168faSHans Rosenfeld if (ddi_dma_addr_bind_handle(dma->nd_dmah, NULL, dma->nd_memp, 7023c9168faSHans Rosenfeld dma->nd_len, flags | DDI_DMA_CONSISTENT, DDI_DMA_SLEEP, NULL, 7033c9168faSHans Rosenfeld &dma->nd_cookie, &dma->nd_ncookie) != DDI_DMA_MAPPED) { 7043c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 7053c9168faSHans Rosenfeld "!failed to bind DMA memory"); 7063c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_dma_bind_err); 707582eef8cSYouzhong Yang nvme_free_dma_common(dma); 708582eef8cSYouzhong Yang return (DDI_FAILURE); 709582eef8cSYouzhong Yang } 710582eef8cSYouzhong Yang 711582eef8cSYouzhong Yang return (DDI_SUCCESS); 712582eef8cSYouzhong Yang } 713582eef8cSYouzhong Yang 714582eef8cSYouzhong Yang static int 715582eef8cSYouzhong Yang nvme_zalloc_dma(nvme_t *nvme, size_t len, uint_t flags, 716582eef8cSYouzhong Yang ddi_dma_attr_t *dma_attr, nvme_dma_t **ret) 717582eef8cSYouzhong Yang { 718582eef8cSYouzhong Yang nvme_dma_t *dma = kmem_zalloc(sizeof (nvme_dma_t), KM_SLEEP); 719582eef8cSYouzhong Yang 720582eef8cSYouzhong Yang if (nvme_alloc_dma_common(nvme, dma, len, flags, dma_attr) != 721582eef8cSYouzhong Yang DDI_SUCCESS) { 7223c9168faSHans Rosenfeld *ret = NULL; 723582eef8cSYouzhong Yang kmem_free(dma, sizeof (nvme_dma_t)); 7243c9168faSHans Rosenfeld return (DDI_FAILURE); 7253c9168faSHans Rosenfeld } 7263c9168faSHans Rosenfeld 7273c9168faSHans Rosenfeld bzero(dma->nd_memp, dma->nd_len); 7283c9168faSHans Rosenfeld 7293c9168faSHans Rosenfeld *ret = dma; 7303c9168faSHans Rosenfeld return (DDI_SUCCESS); 7313c9168faSHans Rosenfeld } 7323c9168faSHans Rosenfeld 733bc1763ebSDan McDonald /* ARGSUSED */ 7343c9168faSHans Rosenfeld static int 735582eef8cSYouzhong Yang nvme_prp_dma_constructor(void *buf, void *private, int flags) 736582eef8cSYouzhong Yang { 737582eef8cSYouzhong Yang nvme_dma_t *dma = (nvme_dma_t *)buf; 738582eef8cSYouzhong Yang nvme_t *nvme = (nvme_t *)private; 739582eef8cSYouzhong Yang 740582eef8cSYouzhong Yang dma->nd_dmah = NULL; 741582eef8cSYouzhong Yang dma->nd_acch = NULL; 742582eef8cSYouzhong Yang 743582eef8cSYouzhong Yang if (nvme_alloc_dma_common(nvme, dma, nvme->n_pagesize, 744582eef8cSYouzhong Yang DDI_DMA_READ, &nvme->n_prp_dma_attr) != DDI_SUCCESS) { 745582eef8cSYouzhong Yang return (-1); 746582eef8cSYouzhong Yang } 747582eef8cSYouzhong Yang 748582eef8cSYouzhong Yang ASSERT(dma->nd_ncookie == 1); 749582eef8cSYouzhong Yang 750582eef8cSYouzhong Yang dma->nd_cached = B_TRUE; 751582eef8cSYouzhong Yang 752582eef8cSYouzhong Yang return (0); 753582eef8cSYouzhong Yang } 754582eef8cSYouzhong Yang 755582eef8cSYouzhong Yang static int 7563c9168faSHans Rosenfeld nvme_zalloc_queue_dma(nvme_t *nvme, uint32_t nentry, uint16_t qe_len, 7573c9168faSHans Rosenfeld uint_t flags, nvme_dma_t **dma) 7583c9168faSHans Rosenfeld { 7593c9168faSHans Rosenfeld uint32_t len = nentry * qe_len; 7603c9168faSHans Rosenfeld ddi_dma_attr_t q_dma_attr = nvme->n_queue_dma_attr; 7613c9168faSHans Rosenfeld 7623c9168faSHans Rosenfeld len = roundup(len, nvme->n_pagesize); 7633c9168faSHans Rosenfeld 7643c9168faSHans Rosenfeld q_dma_attr.dma_attr_minxfer = len; 7653c9168faSHans Rosenfeld 7663c9168faSHans Rosenfeld if (nvme_zalloc_dma(nvme, len, flags, &q_dma_attr, dma) 7673c9168faSHans Rosenfeld != DDI_SUCCESS) { 7683c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 7693c9168faSHans Rosenfeld "!failed to get DMA memory for queue"); 7703c9168faSHans Rosenfeld goto fail; 7713c9168faSHans Rosenfeld } 7723c9168faSHans Rosenfeld 7733c9168faSHans Rosenfeld if ((*dma)->nd_ncookie != 1) { 7743c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 7753c9168faSHans Rosenfeld "!got too many cookies for queue DMA"); 7763c9168faSHans Rosenfeld goto fail; 7773c9168faSHans Rosenfeld } 7783c9168faSHans Rosenfeld 7793c9168faSHans Rosenfeld return (DDI_SUCCESS); 7803c9168faSHans Rosenfeld 7813c9168faSHans Rosenfeld fail: 7823c9168faSHans Rosenfeld if (*dma) { 7833c9168faSHans Rosenfeld nvme_free_dma(*dma); 7843c9168faSHans Rosenfeld *dma = NULL; 7853c9168faSHans Rosenfeld } 7863c9168faSHans Rosenfeld 7873c9168faSHans Rosenfeld return (DDI_FAILURE); 7883c9168faSHans Rosenfeld } 7893c9168faSHans Rosenfeld 7903c9168faSHans Rosenfeld static void 7913c9168faSHans Rosenfeld nvme_free_qpair(nvme_qpair_t *qp) 7923c9168faSHans Rosenfeld { 7933c9168faSHans Rosenfeld int i; 7943c9168faSHans Rosenfeld 7953c9168faSHans Rosenfeld mutex_destroy(&qp->nq_mutex); 796adec8d5dSHans Rosenfeld sema_destroy(&qp->nq_sema); 7973c9168faSHans Rosenfeld 7983c9168faSHans Rosenfeld if (qp->nq_sqdma != NULL) 7993c9168faSHans Rosenfeld nvme_free_dma(qp->nq_sqdma); 8003c9168faSHans Rosenfeld if (qp->nq_cqdma != NULL) 8013c9168faSHans Rosenfeld nvme_free_dma(qp->nq_cqdma); 8023c9168faSHans Rosenfeld 8033c9168faSHans Rosenfeld if (qp->nq_active_cmds > 0) 8043c9168faSHans Rosenfeld for (i = 0; i != qp->nq_nentry; i++) 8053c9168faSHans Rosenfeld if (qp->nq_cmd[i] != NULL) 8063c9168faSHans Rosenfeld nvme_free_cmd(qp->nq_cmd[i]); 8073c9168faSHans Rosenfeld 8083c9168faSHans Rosenfeld if (qp->nq_cmd != NULL) 8093c9168faSHans Rosenfeld kmem_free(qp->nq_cmd, sizeof (nvme_cmd_t *) * qp->nq_nentry); 8103c9168faSHans Rosenfeld 8113c9168faSHans Rosenfeld kmem_free(qp, sizeof (nvme_qpair_t)); 8123c9168faSHans Rosenfeld } 8133c9168faSHans Rosenfeld 8143c9168faSHans Rosenfeld static int 8153c9168faSHans Rosenfeld nvme_alloc_qpair(nvme_t *nvme, uint32_t nentry, nvme_qpair_t **nqp, 8163c9168faSHans Rosenfeld int idx) 8173c9168faSHans Rosenfeld { 8183c9168faSHans Rosenfeld nvme_qpair_t *qp = kmem_zalloc(sizeof (*qp), KM_SLEEP); 8193c9168faSHans Rosenfeld 8203c9168faSHans Rosenfeld mutex_init(&qp->nq_mutex, NULL, MUTEX_DRIVER, 8213c9168faSHans Rosenfeld DDI_INTR_PRI(nvme->n_intr_pri)); 822adec8d5dSHans Rosenfeld sema_init(&qp->nq_sema, nentry, NULL, SEMA_DRIVER, NULL); 8233c9168faSHans Rosenfeld 8243c9168faSHans Rosenfeld if (nvme_zalloc_queue_dma(nvme, nentry, sizeof (nvme_sqe_t), 8253c9168faSHans Rosenfeld DDI_DMA_WRITE, &qp->nq_sqdma) != DDI_SUCCESS) 8263c9168faSHans Rosenfeld goto fail; 8273c9168faSHans Rosenfeld 8283c9168faSHans Rosenfeld if (nvme_zalloc_queue_dma(nvme, nentry, sizeof (nvme_cqe_t), 8293c9168faSHans Rosenfeld DDI_DMA_READ, &qp->nq_cqdma) != DDI_SUCCESS) 8303c9168faSHans Rosenfeld goto fail; 8313c9168faSHans Rosenfeld 8323c9168faSHans Rosenfeld qp->nq_sq = (nvme_sqe_t *)qp->nq_sqdma->nd_memp; 8333c9168faSHans Rosenfeld qp->nq_cq = (nvme_cqe_t *)qp->nq_cqdma->nd_memp; 8343c9168faSHans Rosenfeld qp->nq_nentry = nentry; 8353c9168faSHans Rosenfeld 8363c9168faSHans Rosenfeld qp->nq_sqtdbl = NVME_REG_SQTDBL(nvme, idx); 8373c9168faSHans Rosenfeld qp->nq_cqhdbl = NVME_REG_CQHDBL(nvme, idx); 8383c9168faSHans Rosenfeld 8393c9168faSHans Rosenfeld qp->nq_cmd = kmem_zalloc(sizeof (nvme_cmd_t *) * nentry, KM_SLEEP); 8403c9168faSHans Rosenfeld qp->nq_next_cmd = 0; 8413c9168faSHans Rosenfeld 8423c9168faSHans Rosenfeld *nqp = qp; 8433c9168faSHans Rosenfeld return (DDI_SUCCESS); 8443c9168faSHans Rosenfeld 8453c9168faSHans Rosenfeld fail: 8463c9168faSHans Rosenfeld nvme_free_qpair(qp); 8473c9168faSHans Rosenfeld *nqp = NULL; 8483c9168faSHans Rosenfeld 8493c9168faSHans Rosenfeld return (DDI_FAILURE); 8503c9168faSHans Rosenfeld } 8513c9168faSHans Rosenfeld 8523c9168faSHans Rosenfeld static nvme_cmd_t * 8533c9168faSHans Rosenfeld nvme_alloc_cmd(nvme_t *nvme, int kmflag) 8543c9168faSHans Rosenfeld { 8553c9168faSHans Rosenfeld nvme_cmd_t *cmd = kmem_cache_alloc(nvme_cmd_cache, kmflag); 8563c9168faSHans Rosenfeld 8573c9168faSHans Rosenfeld if (cmd == NULL) 8583c9168faSHans Rosenfeld return (cmd); 8593c9168faSHans Rosenfeld 8603c9168faSHans Rosenfeld bzero(cmd, sizeof (nvme_cmd_t)); 8613c9168faSHans Rosenfeld 8623c9168faSHans Rosenfeld cmd->nc_nvme = nvme; 8633c9168faSHans Rosenfeld 8643c9168faSHans Rosenfeld mutex_init(&cmd->nc_mutex, NULL, MUTEX_DRIVER, 8653c9168faSHans Rosenfeld DDI_INTR_PRI(nvme->n_intr_pri)); 8663c9168faSHans Rosenfeld cv_init(&cmd->nc_cv, NULL, CV_DRIVER, NULL); 8673c9168faSHans Rosenfeld 8683c9168faSHans Rosenfeld return (cmd); 8693c9168faSHans Rosenfeld } 8703c9168faSHans Rosenfeld 8713c9168faSHans Rosenfeld static void 8723c9168faSHans Rosenfeld nvme_free_cmd(nvme_cmd_t *cmd) 8733c9168faSHans Rosenfeld { 8745e3243f0SHans Rosenfeld /* Don't free commands on the lost commands list. */ 8755e3243f0SHans Rosenfeld if (list_link_active(&cmd->nc_list)) 8765e3243f0SHans Rosenfeld return; 8775e3243f0SHans Rosenfeld 8783c9168faSHans Rosenfeld if (cmd->nc_dma) { 879582eef8cSYouzhong Yang if (cmd->nc_dma->nd_cached) 880582eef8cSYouzhong Yang kmem_cache_free(cmd->nc_nvme->n_prp_cache, 881582eef8cSYouzhong Yang cmd->nc_dma); 882582eef8cSYouzhong Yang else 8833c9168faSHans Rosenfeld nvme_free_dma(cmd->nc_dma); 8843c9168faSHans Rosenfeld cmd->nc_dma = NULL; 8853c9168faSHans Rosenfeld } 8863c9168faSHans Rosenfeld 8873c9168faSHans Rosenfeld cv_destroy(&cmd->nc_cv); 8883c9168faSHans Rosenfeld mutex_destroy(&cmd->nc_mutex); 8893c9168faSHans Rosenfeld 8903c9168faSHans Rosenfeld kmem_cache_free(nvme_cmd_cache, cmd); 8913c9168faSHans Rosenfeld } 8923c9168faSHans Rosenfeld 893adec8d5dSHans Rosenfeld static void 894adec8d5dSHans Rosenfeld nvme_submit_admin_cmd(nvme_qpair_t *qp, nvme_cmd_t *cmd) 895adec8d5dSHans Rosenfeld { 896adec8d5dSHans Rosenfeld sema_p(&qp->nq_sema); 897adec8d5dSHans Rosenfeld nvme_submit_cmd_common(qp, cmd); 898adec8d5dSHans Rosenfeld } 899adec8d5dSHans Rosenfeld 9003c9168faSHans Rosenfeld static int 901adec8d5dSHans Rosenfeld nvme_submit_io_cmd(nvme_qpair_t *qp, nvme_cmd_t *cmd) 902adec8d5dSHans Rosenfeld { 903adec8d5dSHans Rosenfeld if (sema_tryp(&qp->nq_sema) == 0) 904adec8d5dSHans Rosenfeld return (EAGAIN); 905adec8d5dSHans Rosenfeld 906adec8d5dSHans Rosenfeld nvme_submit_cmd_common(qp, cmd); 907adec8d5dSHans Rosenfeld return (0); 908adec8d5dSHans Rosenfeld } 909adec8d5dSHans Rosenfeld 910adec8d5dSHans Rosenfeld static void 911adec8d5dSHans Rosenfeld nvme_submit_cmd_common(nvme_qpair_t *qp, nvme_cmd_t *cmd) 9123c9168faSHans Rosenfeld { 9133c9168faSHans Rosenfeld nvme_reg_sqtdbl_t tail = { 0 }; 9143c9168faSHans Rosenfeld 9153c9168faSHans Rosenfeld mutex_enter(&qp->nq_mutex); 9163c9168faSHans Rosenfeld cmd->nc_completed = B_FALSE; 9173c9168faSHans Rosenfeld 9183c9168faSHans Rosenfeld /* 9193c9168faSHans Rosenfeld * Try to insert the cmd into the active cmd array at the nq_next_cmd 9203c9168faSHans Rosenfeld * slot. If the slot is already occupied advance to the next slot and 9213c9168faSHans Rosenfeld * try again. This can happen for long running commands like async event 9223c9168faSHans Rosenfeld * requests. 9233c9168faSHans Rosenfeld */ 9243c9168faSHans Rosenfeld while (qp->nq_cmd[qp->nq_next_cmd] != NULL) 9253c9168faSHans Rosenfeld qp->nq_next_cmd = (qp->nq_next_cmd + 1) % qp->nq_nentry; 9263c9168faSHans Rosenfeld qp->nq_cmd[qp->nq_next_cmd] = cmd; 9273c9168faSHans Rosenfeld 9283c9168faSHans Rosenfeld qp->nq_active_cmds++; 9293c9168faSHans Rosenfeld 9303c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cid = qp->nq_next_cmd; 9313c9168faSHans Rosenfeld bcopy(&cmd->nc_sqe, &qp->nq_sq[qp->nq_sqtail], sizeof (nvme_sqe_t)); 9323c9168faSHans Rosenfeld (void) ddi_dma_sync(qp->nq_sqdma->nd_dmah, 9333c9168faSHans Rosenfeld sizeof (nvme_sqe_t) * qp->nq_sqtail, 9343c9168faSHans Rosenfeld sizeof (nvme_sqe_t), DDI_DMA_SYNC_FORDEV); 9353c9168faSHans Rosenfeld qp->nq_next_cmd = (qp->nq_next_cmd + 1) % qp->nq_nentry; 9363c9168faSHans Rosenfeld 9373c9168faSHans Rosenfeld tail.b.sqtdbl_sqt = qp->nq_sqtail = (qp->nq_sqtail + 1) % qp->nq_nentry; 9383c9168faSHans Rosenfeld nvme_put32(cmd->nc_nvme, qp->nq_sqtdbl, tail.r); 9393c9168faSHans Rosenfeld 9403c9168faSHans Rosenfeld mutex_exit(&qp->nq_mutex); 9413c9168faSHans Rosenfeld } 9423c9168faSHans Rosenfeld 9433c9168faSHans Rosenfeld static nvme_cmd_t * 9445e3243f0SHans Rosenfeld nvme_unqueue_cmd(nvme_t *nvme, nvme_qpair_t *qp, int cid) 9455e3243f0SHans Rosenfeld { 9465e3243f0SHans Rosenfeld nvme_cmd_t *cmd; 9475e3243f0SHans Rosenfeld 9485e3243f0SHans Rosenfeld ASSERT(mutex_owned(&qp->nq_mutex)); 9495e3243f0SHans Rosenfeld ASSERT3S(cid, <, qp->nq_nentry); 9505e3243f0SHans Rosenfeld 9515e3243f0SHans Rosenfeld cmd = qp->nq_cmd[cid]; 9525e3243f0SHans Rosenfeld qp->nq_cmd[cid] = NULL; 9535e3243f0SHans Rosenfeld ASSERT3U(qp->nq_active_cmds, >, 0); 9545e3243f0SHans Rosenfeld qp->nq_active_cmds--; 9555e3243f0SHans Rosenfeld sema_v(&qp->nq_sema); 9565e3243f0SHans Rosenfeld 9575e3243f0SHans Rosenfeld ASSERT3P(cmd, !=, NULL); 9585e3243f0SHans Rosenfeld ASSERT3P(cmd->nc_nvme, ==, nvme); 9595e3243f0SHans Rosenfeld ASSERT3S(cmd->nc_sqe.sqe_cid, ==, cid); 9605e3243f0SHans Rosenfeld 9615e3243f0SHans Rosenfeld return (cmd); 9625e3243f0SHans Rosenfeld } 9635e3243f0SHans Rosenfeld 9645e3243f0SHans Rosenfeld static nvme_cmd_t * 9653c9168faSHans Rosenfeld nvme_retrieve_cmd(nvme_t *nvme, nvme_qpair_t *qp) 9663c9168faSHans Rosenfeld { 9673c9168faSHans Rosenfeld nvme_reg_cqhdbl_t head = { 0 }; 9683c9168faSHans Rosenfeld 9693c9168faSHans Rosenfeld nvme_cqe_t *cqe; 9703c9168faSHans Rosenfeld nvme_cmd_t *cmd; 9713c9168faSHans Rosenfeld 9723c9168faSHans Rosenfeld (void) ddi_dma_sync(qp->nq_cqdma->nd_dmah, 0, 9733c9168faSHans Rosenfeld sizeof (nvme_cqe_t) * qp->nq_nentry, DDI_DMA_SYNC_FORKERNEL); 9743c9168faSHans Rosenfeld 97548869394SHans Rosenfeld mutex_enter(&qp->nq_mutex); 9763c9168faSHans Rosenfeld cqe = &qp->nq_cq[qp->nq_cqhead]; 9773c9168faSHans Rosenfeld 9783c9168faSHans Rosenfeld /* Check phase tag of CQE. Hardware inverts it for new entries. */ 97948869394SHans Rosenfeld if (cqe->cqe_sf.sf_p == qp->nq_phase) { 98048869394SHans Rosenfeld mutex_exit(&qp->nq_mutex); 9813c9168faSHans Rosenfeld return (NULL); 98248869394SHans Rosenfeld } 9833c9168faSHans Rosenfeld 9843c9168faSHans Rosenfeld ASSERT(nvme->n_ioq[cqe->cqe_sqid] == qp); 9853c9168faSHans Rosenfeld 9865e3243f0SHans Rosenfeld cmd = nvme_unqueue_cmd(nvme, qp, cqe->cqe_cid); 9873c9168faSHans Rosenfeld 9883c9168faSHans Rosenfeld ASSERT(cmd->nc_sqid == cqe->cqe_sqid); 9893c9168faSHans Rosenfeld bcopy(cqe, &cmd->nc_cqe, sizeof (nvme_cqe_t)); 9903c9168faSHans Rosenfeld 9913c9168faSHans Rosenfeld qp->nq_sqhead = cqe->cqe_sqhd; 9923c9168faSHans Rosenfeld 9933c9168faSHans Rosenfeld head.b.cqhdbl_cqh = qp->nq_cqhead = (qp->nq_cqhead + 1) % qp->nq_nentry; 9943c9168faSHans Rosenfeld 9953c9168faSHans Rosenfeld /* Toggle phase on wrap-around. */ 9963c9168faSHans Rosenfeld if (qp->nq_cqhead == 0) 9973c9168faSHans Rosenfeld qp->nq_phase = qp->nq_phase ? 0 : 1; 9983c9168faSHans Rosenfeld 9993c9168faSHans Rosenfeld nvme_put32(cmd->nc_nvme, qp->nq_cqhdbl, head.r); 100048869394SHans Rosenfeld mutex_exit(&qp->nq_mutex); 10013c9168faSHans Rosenfeld 10023c9168faSHans Rosenfeld return (cmd); 10033c9168faSHans Rosenfeld } 10043c9168faSHans Rosenfeld 10053c9168faSHans Rosenfeld static int 10063c9168faSHans Rosenfeld nvme_check_unknown_cmd_status(nvme_cmd_t *cmd) 10073c9168faSHans Rosenfeld { 10083c9168faSHans Rosenfeld nvme_cqe_t *cqe = &cmd->nc_cqe; 10093c9168faSHans Rosenfeld 10103c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_WARN, 10113c9168faSHans Rosenfeld "!unknown command status received: opc = %x, sqid = %d, cid = %d, " 10123c9168faSHans Rosenfeld "sc = %x, sct = %x, dnr = %d, m = %d", cmd->nc_sqe.sqe_opc, 10133c9168faSHans Rosenfeld cqe->cqe_sqid, cqe->cqe_cid, cqe->cqe_sf.sf_sc, cqe->cqe_sf.sf_sct, 10143c9168faSHans Rosenfeld cqe->cqe_sf.sf_dnr, cqe->cqe_sf.sf_m); 10153c9168faSHans Rosenfeld 1016ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1017bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_ILLRQ); 1018bef9e21aSHans Rosenfeld 10193c9168faSHans Rosenfeld if (cmd->nc_nvme->n_strict_version) { 10203c9168faSHans Rosenfeld cmd->nc_nvme->n_dead = B_TRUE; 10213c9168faSHans Rosenfeld ddi_fm_service_impact(cmd->nc_nvme->n_dip, DDI_SERVICE_LOST); 10223c9168faSHans Rosenfeld } 10233c9168faSHans Rosenfeld 10243c9168faSHans Rosenfeld return (EIO); 10253c9168faSHans Rosenfeld } 10263c9168faSHans Rosenfeld 10273c9168faSHans Rosenfeld static int 10283c9168faSHans Rosenfeld nvme_check_vendor_cmd_status(nvme_cmd_t *cmd) 10293c9168faSHans Rosenfeld { 10303c9168faSHans Rosenfeld nvme_cqe_t *cqe = &cmd->nc_cqe; 10313c9168faSHans Rosenfeld 10323c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_WARN, 10333c9168faSHans Rosenfeld "!unknown command status received: opc = %x, sqid = %d, cid = %d, " 10343c9168faSHans Rosenfeld "sc = %x, sct = %x, dnr = %d, m = %d", cmd->nc_sqe.sqe_opc, 10353c9168faSHans Rosenfeld cqe->cqe_sqid, cqe->cqe_cid, cqe->cqe_sf.sf_sc, cqe->cqe_sf.sf_sct, 10363c9168faSHans Rosenfeld cqe->cqe_sf.sf_dnr, cqe->cqe_sf.sf_m); 1037f5b7c30aSPete Shephard if (!cmd->nc_nvme->n_ignore_unknown_vendor_status) { 10383c9168faSHans Rosenfeld cmd->nc_nvme->n_dead = B_TRUE; 10393c9168faSHans Rosenfeld ddi_fm_service_impact(cmd->nc_nvme->n_dip, DDI_SERVICE_LOST); 10403c9168faSHans Rosenfeld } 10413c9168faSHans Rosenfeld 10423c9168faSHans Rosenfeld return (EIO); 10433c9168faSHans Rosenfeld } 10443c9168faSHans Rosenfeld 10453c9168faSHans Rosenfeld static int 10463c9168faSHans Rosenfeld nvme_check_integrity_cmd_status(nvme_cmd_t *cmd) 10473c9168faSHans Rosenfeld { 10483c9168faSHans Rosenfeld nvme_cqe_t *cqe = &cmd->nc_cqe; 10493c9168faSHans Rosenfeld 10503c9168faSHans Rosenfeld switch (cqe->cqe_sf.sf_sc) { 10513c9168faSHans Rosenfeld case NVME_CQE_SC_INT_NVM_WRITE: 10523c9168faSHans Rosenfeld /* write fail */ 10533c9168faSHans Rosenfeld /* TODO: post ereport */ 1054ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1055bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_MEDIA); 10563c9168faSHans Rosenfeld return (EIO); 10573c9168faSHans Rosenfeld 10583c9168faSHans Rosenfeld case NVME_CQE_SC_INT_NVM_READ: 10593c9168faSHans Rosenfeld /* read fail */ 10603c9168faSHans Rosenfeld /* TODO: post ereport */ 1061ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1062bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_MEDIA); 10633c9168faSHans Rosenfeld return (EIO); 10643c9168faSHans Rosenfeld 10653c9168faSHans Rosenfeld default: 10663c9168faSHans Rosenfeld return (nvme_check_unknown_cmd_status(cmd)); 10673c9168faSHans Rosenfeld } 10683c9168faSHans Rosenfeld } 10693c9168faSHans Rosenfeld 10703c9168faSHans Rosenfeld static int 10713c9168faSHans Rosenfeld nvme_check_generic_cmd_status(nvme_cmd_t *cmd) 10723c9168faSHans Rosenfeld { 10733c9168faSHans Rosenfeld nvme_cqe_t *cqe = &cmd->nc_cqe; 10743c9168faSHans Rosenfeld 10753c9168faSHans Rosenfeld switch (cqe->cqe_sf.sf_sc) { 10763c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_SUCCESS: 10773c9168faSHans Rosenfeld return (0); 10783c9168faSHans Rosenfeld 10793c9168faSHans Rosenfeld /* 10803c9168faSHans Rosenfeld * Errors indicating a bug in the driver should cause a panic. 10813c9168faSHans Rosenfeld */ 10823c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_INV_OPC: 10833c9168faSHans Rosenfeld /* Invalid Command Opcode */ 10843c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, "programming error: " 10853c9168faSHans Rosenfeld "invalid opcode in cmd %p", (void *)cmd); 10863c9168faSHans Rosenfeld return (0); 10873c9168faSHans Rosenfeld 10883c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_INV_FLD: 10893c9168faSHans Rosenfeld /* Invalid Field in Command */ 1090ecee5a1fSHans Rosenfeld if (!cmd->nc_dontpanic) 1091ecee5a1fSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, 1092ecee5a1fSHans Rosenfeld "programming error: invalid field in cmd %p", 1093ecee5a1fSHans Rosenfeld (void *)cmd); 1094ecee5a1fSHans Rosenfeld return (EIO); 10953c9168faSHans Rosenfeld 10963c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_ID_CNFL: 10973c9168faSHans Rosenfeld /* Command ID Conflict */ 10983c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, "programming error: " 10993c9168faSHans Rosenfeld "cmd ID conflict in cmd %p", (void *)cmd); 11003c9168faSHans Rosenfeld return (0); 11013c9168faSHans Rosenfeld 11023c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_INV_NS: 11033c9168faSHans Rosenfeld /* Invalid Namespace or Format */ 1104ecee5a1fSHans Rosenfeld if (!cmd->nc_dontpanic) 1105ecee5a1fSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, 1106ecee5a1fSHans Rosenfeld "programming error: " "invalid NS/format in cmd %p", 1107ecee5a1fSHans Rosenfeld (void *)cmd); 1108ecee5a1fSHans Rosenfeld return (EINVAL); 11093c9168faSHans Rosenfeld 11103c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_NVM_LBA_RANGE: 11113c9168faSHans Rosenfeld /* LBA Out Of Range */ 11123c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, "programming error: " 11133c9168faSHans Rosenfeld "LBA out of range in cmd %p", (void *)cmd); 11143c9168faSHans Rosenfeld return (0); 11153c9168faSHans Rosenfeld 11163c9168faSHans Rosenfeld /* 11173c9168faSHans Rosenfeld * Non-fatal errors, handle gracefully. 11183c9168faSHans Rosenfeld */ 11193c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_DATA_XFR_ERR: 11203c9168faSHans Rosenfeld /* Data Transfer Error (DMA) */ 11213c9168faSHans Rosenfeld /* TODO: post ereport */ 11223c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_data_xfr_err); 1123ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1124bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_NTRDY); 11253c9168faSHans Rosenfeld return (EIO); 11263c9168faSHans Rosenfeld 11273c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_INTERNAL_ERR: 11283c9168faSHans Rosenfeld /* 11293c9168faSHans Rosenfeld * Internal Error. The spec (v1.0, section 4.5.1.2) says 11303c9168faSHans Rosenfeld * detailed error information is returned as async event, 11313c9168faSHans Rosenfeld * so we pretty much ignore the error here and handle it 11323c9168faSHans Rosenfeld * in the async event handler. 11333c9168faSHans Rosenfeld */ 11343c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_internal_err); 1135ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1136bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_NTRDY); 11373c9168faSHans Rosenfeld return (EIO); 11383c9168faSHans Rosenfeld 11393c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_ABORT_REQUEST: 11403c9168faSHans Rosenfeld /* 11413c9168faSHans Rosenfeld * Command Abort Requested. This normally happens only when a 11423c9168faSHans Rosenfeld * command times out. 11433c9168faSHans Rosenfeld */ 11443c9168faSHans Rosenfeld /* TODO: post ereport or change blkdev to handle this? */ 11453c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_abort_rq_err); 11463c9168faSHans Rosenfeld return (ECANCELED); 11473c9168faSHans Rosenfeld 11483c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_ABORT_PWRLOSS: 11493c9168faSHans Rosenfeld /* Command Aborted due to Power Loss Notification */ 11503c9168faSHans Rosenfeld ddi_fm_service_impact(cmd->nc_nvme->n_dip, DDI_SERVICE_LOST); 11513c9168faSHans Rosenfeld cmd->nc_nvme->n_dead = B_TRUE; 11523c9168faSHans Rosenfeld return (EIO); 11533c9168faSHans Rosenfeld 11543c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_ABORT_SQ_DEL: 11553c9168faSHans Rosenfeld /* Command Aborted due to SQ Deletion */ 11563c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_abort_sq_del); 11573c9168faSHans Rosenfeld return (EIO); 11583c9168faSHans Rosenfeld 11593c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_NVM_CAP_EXC: 11603c9168faSHans Rosenfeld /* Capacity Exceeded */ 11613c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_nvm_cap_exc); 1162ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1163bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_MEDIA); 11643c9168faSHans Rosenfeld return (EIO); 11653c9168faSHans Rosenfeld 11663c9168faSHans Rosenfeld case NVME_CQE_SC_GEN_NVM_NS_NOTRDY: 11673c9168faSHans Rosenfeld /* Namespace Not Ready */ 11683c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_nvm_ns_notrdy); 1169ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1170bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_NTRDY); 11713c9168faSHans Rosenfeld return (EIO); 11723c9168faSHans Rosenfeld 11733c9168faSHans Rosenfeld default: 11743c9168faSHans Rosenfeld return (nvme_check_unknown_cmd_status(cmd)); 11753c9168faSHans Rosenfeld } 11763c9168faSHans Rosenfeld } 11773c9168faSHans Rosenfeld 11783c9168faSHans Rosenfeld static int 11793c9168faSHans Rosenfeld nvme_check_specific_cmd_status(nvme_cmd_t *cmd) 11803c9168faSHans Rosenfeld { 11813c9168faSHans Rosenfeld nvme_cqe_t *cqe = &cmd->nc_cqe; 11823c9168faSHans Rosenfeld 11833c9168faSHans Rosenfeld switch (cqe->cqe_sf.sf_sc) { 11843c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_INV_CQ: 11853c9168faSHans Rosenfeld /* Completion Queue Invalid */ 11863c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_CREATE_SQUEUE); 11873c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_cq_err); 11883c9168faSHans Rosenfeld return (EINVAL); 11893c9168faSHans Rosenfeld 11903c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_INV_QID: 11913c9168faSHans Rosenfeld /* Invalid Queue Identifier */ 11923c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_CREATE_SQUEUE || 11933c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_DELETE_SQUEUE || 11943c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_CREATE_CQUEUE || 11953c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_DELETE_CQUEUE); 11963c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_qid_err); 11973c9168faSHans Rosenfeld return (EINVAL); 11983c9168faSHans Rosenfeld 11993c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_MAX_QSZ_EXC: 12003c9168faSHans Rosenfeld /* Max Queue Size Exceeded */ 12013c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_CREATE_SQUEUE || 12023c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_CREATE_CQUEUE); 12033c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_max_qsz_exc); 12043c9168faSHans Rosenfeld return (EINVAL); 12053c9168faSHans Rosenfeld 12063c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_ABRT_CMD_EXC: 12073c9168faSHans Rosenfeld /* Abort Command Limit Exceeded */ 12083c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_ABORT); 12093c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, "programming error: " 12103c9168faSHans Rosenfeld "abort command limit exceeded in cmd %p", (void *)cmd); 12113c9168faSHans Rosenfeld return (0); 12123c9168faSHans Rosenfeld 12133c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_ASYNC_EVREQ_EXC: 12143c9168faSHans Rosenfeld /* Async Event Request Limit Exceeded */ 12153c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_ASYNC_EVENT); 12163c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_PANIC, "programming error: " 12173c9168faSHans Rosenfeld "async event request limit exceeded in cmd %p", 12183c9168faSHans Rosenfeld (void *)cmd); 12193c9168faSHans Rosenfeld return (0); 12203c9168faSHans Rosenfeld 12213c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_INV_INT_VECT: 12223c9168faSHans Rosenfeld /* Invalid Interrupt Vector */ 12233c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_CREATE_CQUEUE); 12243c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_int_vect); 12253c9168faSHans Rosenfeld return (EINVAL); 12263c9168faSHans Rosenfeld 12273c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_INV_LOG_PAGE: 12283c9168faSHans Rosenfeld /* Invalid Log Page */ 12293c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_GET_LOG_PAGE); 12303c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_log_page); 12313c9168faSHans Rosenfeld return (EINVAL); 12323c9168faSHans Rosenfeld 12333c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_INV_FORMAT: 12343c9168faSHans Rosenfeld /* Invalid Format */ 12353c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_FORMAT); 12363c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_format); 1237ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1238bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_ILLRQ); 12393c9168faSHans Rosenfeld return (EINVAL); 12403c9168faSHans Rosenfeld 12413c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_INV_Q_DEL: 12423c9168faSHans Rosenfeld /* Invalid Queue Deletion */ 12433c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_DELETE_CQUEUE); 12443c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_q_del); 12453c9168faSHans Rosenfeld return (EINVAL); 12463c9168faSHans Rosenfeld 12473c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_NVM_CNFL_ATTR: 12483c9168faSHans Rosenfeld /* Conflicting Attributes */ 12493c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_DSET_MGMT || 12503c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_READ || 12513c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_WRITE); 12523c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_cnfl_attr); 1253ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1254bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_ILLRQ); 12553c9168faSHans Rosenfeld return (EINVAL); 12563c9168faSHans Rosenfeld 12573c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_NVM_INV_PROT: 12583c9168faSHans Rosenfeld /* Invalid Protection Information */ 12593c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_COMPARE || 12603c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_READ || 12613c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_WRITE); 12623c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_inv_prot); 1263ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1264bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_ILLRQ); 12653c9168faSHans Rosenfeld return (EINVAL); 12663c9168faSHans Rosenfeld 12673c9168faSHans Rosenfeld case NVME_CQE_SC_SPC_NVM_READONLY: 12683c9168faSHans Rosenfeld /* Write to Read Only Range */ 12693c9168faSHans Rosenfeld ASSERT(cmd->nc_sqe.sqe_opc == NVME_OPC_NVM_WRITE); 12703c9168faSHans Rosenfeld atomic_inc_32(&cmd->nc_nvme->n_readonly); 1271ecee5a1fSHans Rosenfeld if (cmd->nc_xfer != NULL) 1272bef9e21aSHans Rosenfeld bd_error(cmd->nc_xfer, BD_ERR_ILLRQ); 12733c9168faSHans Rosenfeld return (EROFS); 12743c9168faSHans Rosenfeld 12753c9168faSHans Rosenfeld default: 12763c9168faSHans Rosenfeld return (nvme_check_unknown_cmd_status(cmd)); 12773c9168faSHans Rosenfeld } 12783c9168faSHans Rosenfeld } 12793c9168faSHans Rosenfeld 12803c9168faSHans Rosenfeld static inline int 12813c9168faSHans Rosenfeld nvme_check_cmd_status(nvme_cmd_t *cmd) 12823c9168faSHans Rosenfeld { 12833c9168faSHans Rosenfeld nvme_cqe_t *cqe = &cmd->nc_cqe; 12843c9168faSHans Rosenfeld 12855e3243f0SHans Rosenfeld /* 12865e3243f0SHans Rosenfeld * Take a shortcut if the controller is dead, or if 12875e3243f0SHans Rosenfeld * command status indicates no error. 12885e3243f0SHans Rosenfeld */ 12895e3243f0SHans Rosenfeld if (cmd->nc_nvme->n_dead) 12905e3243f0SHans Rosenfeld return (EIO); 12915e3243f0SHans Rosenfeld 12923c9168faSHans Rosenfeld if (cqe->cqe_sf.sf_sct == NVME_CQE_SCT_GENERIC && 12933c9168faSHans Rosenfeld cqe->cqe_sf.sf_sc == NVME_CQE_SC_GEN_SUCCESS) 12943c9168faSHans Rosenfeld return (0); 12953c9168faSHans Rosenfeld 12963c9168faSHans Rosenfeld if (cqe->cqe_sf.sf_sct == NVME_CQE_SCT_GENERIC) 12973c9168faSHans Rosenfeld return (nvme_check_generic_cmd_status(cmd)); 12983c9168faSHans Rosenfeld else if (cqe->cqe_sf.sf_sct == NVME_CQE_SCT_SPECIFIC) 12993c9168faSHans Rosenfeld return (nvme_check_specific_cmd_status(cmd)); 13003c9168faSHans Rosenfeld else if (cqe->cqe_sf.sf_sct == NVME_CQE_SCT_INTEGRITY) 13013c9168faSHans Rosenfeld return (nvme_check_integrity_cmd_status(cmd)); 13023c9168faSHans Rosenfeld else if (cqe->cqe_sf.sf_sct == NVME_CQE_SCT_VENDOR) 13033c9168faSHans Rosenfeld return (nvme_check_vendor_cmd_status(cmd)); 13043c9168faSHans Rosenfeld 13053c9168faSHans Rosenfeld return (nvme_check_unknown_cmd_status(cmd)); 13063c9168faSHans Rosenfeld } 13073c9168faSHans Rosenfeld 13085e3243f0SHans Rosenfeld static int 13095e3243f0SHans Rosenfeld nvme_abort_cmd(nvme_cmd_t *abort_cmd, uint_t sec) 13103c9168faSHans Rosenfeld { 13113c9168faSHans Rosenfeld nvme_t *nvme = abort_cmd->nc_nvme; 13123c9168faSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 13133c9168faSHans Rosenfeld nvme_abort_cmd_t ac = { 0 }; 13145e3243f0SHans Rosenfeld int ret = 0; 13153c9168faSHans Rosenfeld 13163c9168faSHans Rosenfeld sema_p(&nvme->n_abort_sema); 13173c9168faSHans Rosenfeld 13183c9168faSHans Rosenfeld ac.b.ac_cid = abort_cmd->nc_sqe.sqe_cid; 13193c9168faSHans Rosenfeld ac.b.ac_sqid = abort_cmd->nc_sqid; 13203c9168faSHans Rosenfeld 13213c9168faSHans Rosenfeld cmd->nc_sqid = 0; 13223c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_ABORT; 13233c9168faSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 13243c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = ac.r; 13253c9168faSHans Rosenfeld 13263c9168faSHans Rosenfeld /* 13273c9168faSHans Rosenfeld * Send the ABORT to the hardware. The ABORT command will return _after_ 13285e3243f0SHans Rosenfeld * the aborted command has completed (aborted or otherwise), but since 13295e3243f0SHans Rosenfeld * we still hold the aborted command's mutex its callback hasn't been 13305e3243f0SHans Rosenfeld * processed yet. 13313c9168faSHans Rosenfeld */ 13325e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, sec); 13333c9168faSHans Rosenfeld sema_v(&nvme->n_abort_sema); 13343c9168faSHans Rosenfeld 13355e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 13363c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 13373c9168faSHans Rosenfeld "!ABORT failed with sct = %x, sc = %x", 13383c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct, cmd->nc_cqe.cqe_sf.sf_sc); 13393c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_abort_failed); 13403c9168faSHans Rosenfeld } else { 13415e3243f0SHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 13425e3243f0SHans Rosenfeld "!ABORT of command %d/%d %ssuccessful", 13435e3243f0SHans Rosenfeld abort_cmd->nc_sqe.sqe_cid, abort_cmd->nc_sqid, 13445e3243f0SHans Rosenfeld cmd->nc_cqe.cqe_dw0 & 1 ? "un" : ""); 13455e3243f0SHans Rosenfeld if ((cmd->nc_cqe.cqe_dw0 & 1) == 0) 13463c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_cmd_aborted); 13473c9168faSHans Rosenfeld } 13483c9168faSHans Rosenfeld 13493c9168faSHans Rosenfeld nvme_free_cmd(cmd); 13505e3243f0SHans Rosenfeld return (ret); 13513c9168faSHans Rosenfeld } 13523c9168faSHans Rosenfeld 13533c9168faSHans Rosenfeld /* 13543c9168faSHans Rosenfeld * nvme_wait_cmd -- wait for command completion or timeout 13553c9168faSHans Rosenfeld * 13563c9168faSHans Rosenfeld * In case of a serious error or a timeout of the abort command the hardware 13573c9168faSHans Rosenfeld * will be declared dead and FMA will be notified. 13583c9168faSHans Rosenfeld */ 13595e3243f0SHans Rosenfeld static void 1360fcc62af7SHans Rosenfeld nvme_wait_cmd(nvme_cmd_t *cmd, uint_t sec) 13613c9168faSHans Rosenfeld { 1362fcc62af7SHans Rosenfeld clock_t timeout = ddi_get_lbolt() + drv_usectohz(sec * MICROSEC); 13633c9168faSHans Rosenfeld nvme_t *nvme = cmd->nc_nvme; 13643c9168faSHans Rosenfeld nvme_reg_csts_t csts; 13655e3243f0SHans Rosenfeld nvme_qpair_t *qp; 13663c9168faSHans Rosenfeld 13673c9168faSHans Rosenfeld ASSERT(mutex_owned(&cmd->nc_mutex)); 13683c9168faSHans Rosenfeld 13693c9168faSHans Rosenfeld while (!cmd->nc_completed) { 13703c9168faSHans Rosenfeld if (cv_timedwait(&cmd->nc_cv, &cmd->nc_mutex, timeout) == -1) 13713c9168faSHans Rosenfeld break; 13723c9168faSHans Rosenfeld } 13733c9168faSHans Rosenfeld 13743c9168faSHans Rosenfeld if (cmd->nc_completed) 13755e3243f0SHans Rosenfeld return; 13763c9168faSHans Rosenfeld 13773c9168faSHans Rosenfeld /* 13785e3243f0SHans Rosenfeld * The command timed out. 13795e3243f0SHans Rosenfeld * 13803c9168faSHans Rosenfeld * Check controller for fatal status, any errors associated with the 13813c9168faSHans Rosenfeld * register or DMA handle, or for a double timeout (abort command timed 13823c9168faSHans Rosenfeld * out). If necessary log a warning and call FMA. 13833c9168faSHans Rosenfeld */ 13843c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 13855e3243f0SHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!command %d/%d timeout, " 13865e3243f0SHans Rosenfeld "OPC = %x, CFS = %d", cmd->nc_sqe.sqe_cid, cmd->nc_sqid, 13875e3243f0SHans Rosenfeld cmd->nc_sqe.sqe_opc, csts.b.csts_cfs); 13883c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_cmd_timeout); 13893c9168faSHans Rosenfeld 13903c9168faSHans Rosenfeld if (csts.b.csts_cfs || 13913c9168faSHans Rosenfeld nvme_check_regs_hdl(nvme) || 13923c9168faSHans Rosenfeld nvme_check_dma_hdl(cmd->nc_dma) || 13933c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc == NVME_OPC_ABORT) { 13943c9168faSHans Rosenfeld ddi_fm_service_impact(nvme->n_dip, DDI_SERVICE_LOST); 13953c9168faSHans Rosenfeld nvme->n_dead = B_TRUE; 13965e3243f0SHans Rosenfeld } else if (nvme_abort_cmd(cmd, sec) == 0) { 13973c9168faSHans Rosenfeld /* 13985e3243f0SHans Rosenfeld * If the abort succeeded the command should complete 13995e3243f0SHans Rosenfeld * immediately with an appropriate status. 14003c9168faSHans Rosenfeld */ 14015e3243f0SHans Rosenfeld while (!cmd->nc_completed) 14025e3243f0SHans Rosenfeld cv_wait(&cmd->nc_cv, &cmd->nc_mutex); 14035e3243f0SHans Rosenfeld 14045e3243f0SHans Rosenfeld return; 14053c9168faSHans Rosenfeld } 14063c9168faSHans Rosenfeld 14075e3243f0SHans Rosenfeld qp = nvme->n_ioq[cmd->nc_sqid]; 14085e3243f0SHans Rosenfeld 14095e3243f0SHans Rosenfeld mutex_enter(&qp->nq_mutex); 14105e3243f0SHans Rosenfeld (void) nvme_unqueue_cmd(nvme, qp, cmd->nc_sqe.sqe_cid); 14115e3243f0SHans Rosenfeld mutex_exit(&qp->nq_mutex); 14125e3243f0SHans Rosenfeld 14135e3243f0SHans Rosenfeld /* 14145e3243f0SHans Rosenfeld * As we don't know what the presumed dead hardware might still do with 14155e3243f0SHans Rosenfeld * the DMA memory, we'll put the command on the lost commands list if it 14165e3243f0SHans Rosenfeld * has any DMA memory. 14175e3243f0SHans Rosenfeld */ 14185e3243f0SHans Rosenfeld if (cmd->nc_dma != NULL) { 14195e3243f0SHans Rosenfeld mutex_enter(&nvme_lc_mutex); 14205e3243f0SHans Rosenfeld list_insert_head(&nvme_lost_cmds, cmd); 14215e3243f0SHans Rosenfeld mutex_exit(&nvme_lc_mutex); 14225e3243f0SHans Rosenfeld } 14233c9168faSHans Rosenfeld } 14243c9168faSHans Rosenfeld 14253c9168faSHans Rosenfeld static void 14263c9168faSHans Rosenfeld nvme_wakeup_cmd(void *arg) 14273c9168faSHans Rosenfeld { 14283c9168faSHans Rosenfeld nvme_cmd_t *cmd = arg; 14293c9168faSHans Rosenfeld 14303c9168faSHans Rosenfeld mutex_enter(&cmd->nc_mutex); 14313c9168faSHans Rosenfeld cmd->nc_completed = B_TRUE; 14323c9168faSHans Rosenfeld cv_signal(&cmd->nc_cv); 14333c9168faSHans Rosenfeld mutex_exit(&cmd->nc_mutex); 14343c9168faSHans Rosenfeld } 14353c9168faSHans Rosenfeld 14363c9168faSHans Rosenfeld static void 14373c9168faSHans Rosenfeld nvme_async_event_task(void *arg) 14383c9168faSHans Rosenfeld { 14393c9168faSHans Rosenfeld nvme_cmd_t *cmd = arg; 14403c9168faSHans Rosenfeld nvme_t *nvme = cmd->nc_nvme; 14413c9168faSHans Rosenfeld nvme_error_log_entry_t *error_log = NULL; 14423c9168faSHans Rosenfeld nvme_health_log_t *health_log = NULL; 1443ecee5a1fSHans Rosenfeld size_t logsize = 0; 14443c9168faSHans Rosenfeld nvme_async_event_t event; 14453c9168faSHans Rosenfeld 14463c9168faSHans Rosenfeld /* 14473c9168faSHans Rosenfeld * Check for errors associated with the async request itself. The only 14483c9168faSHans Rosenfeld * command-specific error is "async event limit exceeded", which 14493c9168faSHans Rosenfeld * indicates a programming error in the driver and causes a panic in 14503c9168faSHans Rosenfeld * nvme_check_cmd_status(). 14513c9168faSHans Rosenfeld * 14523c9168faSHans Rosenfeld * Other possible errors are various scenarios where the async request 14533c9168faSHans Rosenfeld * was aborted, or internal errors in the device. Internal errors are 14543c9168faSHans Rosenfeld * reported to FMA, the command aborts need no special handling here. 14553c9168faSHans Rosenfeld */ 14565e3243f0SHans Rosenfeld if (nvme_check_cmd_status(cmd) != 0) { 14573c9168faSHans Rosenfeld dev_err(cmd->nc_nvme->n_dip, CE_WARN, 14583c9168faSHans Rosenfeld "!async event request returned failure, sct = %x, " 14593c9168faSHans Rosenfeld "sc = %x, dnr = %d, m = %d", cmd->nc_cqe.cqe_sf.sf_sct, 14603c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sc, cmd->nc_cqe.cqe_sf.sf_dnr, 14613c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_m); 14623c9168faSHans Rosenfeld 14633c9168faSHans Rosenfeld if (cmd->nc_cqe.cqe_sf.sf_sct == NVME_CQE_SCT_GENERIC && 14643c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sc == NVME_CQE_SC_GEN_INTERNAL_ERR) { 14653c9168faSHans Rosenfeld cmd->nc_nvme->n_dead = B_TRUE; 14663c9168faSHans Rosenfeld ddi_fm_service_impact(cmd->nc_nvme->n_dip, 14673c9168faSHans Rosenfeld DDI_SERVICE_LOST); 14683c9168faSHans Rosenfeld } 14693c9168faSHans Rosenfeld nvme_free_cmd(cmd); 14703c9168faSHans Rosenfeld return; 14713c9168faSHans Rosenfeld } 14723c9168faSHans Rosenfeld 14733c9168faSHans Rosenfeld 14743c9168faSHans Rosenfeld event.r = cmd->nc_cqe.cqe_dw0; 14753c9168faSHans Rosenfeld 14763c9168faSHans Rosenfeld /* Clear CQE and re-submit the async request. */ 14773c9168faSHans Rosenfeld bzero(&cmd->nc_cqe, sizeof (nvme_cqe_t)); 1478adec8d5dSHans Rosenfeld nvme_submit_admin_cmd(nvme->n_adminq, cmd); 14793c9168faSHans Rosenfeld 14803c9168faSHans Rosenfeld switch (event.b.ae_type) { 14813c9168faSHans Rosenfeld case NVME_ASYNC_TYPE_ERROR: 14823c9168faSHans Rosenfeld if (event.b.ae_logpage == NVME_LOGPAGE_ERROR) { 1483ecee5a1fSHans Rosenfeld (void) nvme_get_logpage(nvme, (void **)&error_log, 1484ecee5a1fSHans Rosenfeld &logsize, event.b.ae_logpage); 14853c9168faSHans Rosenfeld } else { 14863c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!wrong logpage in " 14873c9168faSHans Rosenfeld "async event reply: %d", event.b.ae_logpage); 14883c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_wrong_logpage); 14893c9168faSHans Rosenfeld } 14903c9168faSHans Rosenfeld 14913c9168faSHans Rosenfeld switch (event.b.ae_info) { 14923c9168faSHans Rosenfeld case NVME_ASYNC_ERROR_INV_SQ: 14933c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_PANIC, "programming error: " 14943c9168faSHans Rosenfeld "invalid submission queue"); 14953c9168faSHans Rosenfeld return; 14963c9168faSHans Rosenfeld 14973c9168faSHans Rosenfeld case NVME_ASYNC_ERROR_INV_DBL: 14983c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_PANIC, "programming error: " 14993c9168faSHans Rosenfeld "invalid doorbell write value"); 15003c9168faSHans Rosenfeld return; 15013c9168faSHans Rosenfeld 15023c9168faSHans Rosenfeld case NVME_ASYNC_ERROR_DIAGFAIL: 15033c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!diagnostic failure"); 15043c9168faSHans Rosenfeld ddi_fm_service_impact(nvme->n_dip, DDI_SERVICE_LOST); 15053c9168faSHans Rosenfeld nvme->n_dead = B_TRUE; 15063c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_diagfail_event); 15073c9168faSHans Rosenfeld break; 15083c9168faSHans Rosenfeld 15093c9168faSHans Rosenfeld case NVME_ASYNC_ERROR_PERSISTENT: 15103c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!persistent internal " 15113c9168faSHans Rosenfeld "device error"); 15123c9168faSHans Rosenfeld ddi_fm_service_impact(nvme->n_dip, DDI_SERVICE_LOST); 15133c9168faSHans Rosenfeld nvme->n_dead = B_TRUE; 15143c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_persistent_event); 15153c9168faSHans Rosenfeld break; 15163c9168faSHans Rosenfeld 15173c9168faSHans Rosenfeld case NVME_ASYNC_ERROR_TRANSIENT: 15183c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!transient internal " 15193c9168faSHans Rosenfeld "device error"); 15203c9168faSHans Rosenfeld /* TODO: send ereport */ 15213c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_transient_event); 15223c9168faSHans Rosenfeld break; 15233c9168faSHans Rosenfeld 15243c9168faSHans Rosenfeld case NVME_ASYNC_ERROR_FW_LOAD: 15253c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 15263c9168faSHans Rosenfeld "!firmware image load error"); 15273c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_fw_load_event); 15283c9168faSHans Rosenfeld break; 15293c9168faSHans Rosenfeld } 15303c9168faSHans Rosenfeld break; 15313c9168faSHans Rosenfeld 15323c9168faSHans Rosenfeld case NVME_ASYNC_TYPE_HEALTH: 15333c9168faSHans Rosenfeld if (event.b.ae_logpage == NVME_LOGPAGE_HEALTH) { 1534ecee5a1fSHans Rosenfeld (void) nvme_get_logpage(nvme, (void **)&health_log, 1535ecee5a1fSHans Rosenfeld &logsize, event.b.ae_logpage, -1); 15363c9168faSHans Rosenfeld } else { 15373c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!wrong logpage in " 15383c9168faSHans Rosenfeld "async event reply: %d", event.b.ae_logpage); 15393c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_wrong_logpage); 15403c9168faSHans Rosenfeld } 15413c9168faSHans Rosenfeld 15423c9168faSHans Rosenfeld switch (event.b.ae_info) { 15433c9168faSHans Rosenfeld case NVME_ASYNC_HEALTH_RELIABILITY: 15443c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 15453c9168faSHans Rosenfeld "!device reliability compromised"); 15463c9168faSHans Rosenfeld /* TODO: send ereport */ 15473c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_reliability_event); 15483c9168faSHans Rosenfeld break; 15493c9168faSHans Rosenfeld 15503c9168faSHans Rosenfeld case NVME_ASYNC_HEALTH_TEMPERATURE: 15513c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 15523c9168faSHans Rosenfeld "!temperature above threshold"); 15533c9168faSHans Rosenfeld /* TODO: send ereport */ 15543c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_temperature_event); 15553c9168faSHans Rosenfeld break; 15563c9168faSHans Rosenfeld 15573c9168faSHans Rosenfeld case NVME_ASYNC_HEALTH_SPARE: 15583c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 15593c9168faSHans Rosenfeld "!spare space below threshold"); 15603c9168faSHans Rosenfeld /* TODO: send ereport */ 15613c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_spare_event); 15623c9168faSHans Rosenfeld break; 15633c9168faSHans Rosenfeld } 15643c9168faSHans Rosenfeld break; 15653c9168faSHans Rosenfeld 15663c9168faSHans Rosenfeld case NVME_ASYNC_TYPE_VENDOR: 15673c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!vendor specific async event " 15683c9168faSHans Rosenfeld "received, info = %x, logpage = %x", event.b.ae_info, 15693c9168faSHans Rosenfeld event.b.ae_logpage); 15703c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_vendor_event); 15713c9168faSHans Rosenfeld break; 15723c9168faSHans Rosenfeld 15733c9168faSHans Rosenfeld default: 15743c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!unknown async event received, " 15753c9168faSHans Rosenfeld "type = %x, info = %x, logpage = %x", event.b.ae_type, 15763c9168faSHans Rosenfeld event.b.ae_info, event.b.ae_logpage); 15773c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_unknown_event); 15783c9168faSHans Rosenfeld break; 15793c9168faSHans Rosenfeld } 15803c9168faSHans Rosenfeld 15813c9168faSHans Rosenfeld if (error_log) 1582ecee5a1fSHans Rosenfeld kmem_free(error_log, logsize); 15833c9168faSHans Rosenfeld 15843c9168faSHans Rosenfeld if (health_log) 1585ecee5a1fSHans Rosenfeld kmem_free(health_log, logsize); 15863c9168faSHans Rosenfeld } 15873c9168faSHans Rosenfeld 15885e3243f0SHans Rosenfeld static void 1589fcc62af7SHans Rosenfeld nvme_admin_cmd(nvme_cmd_t *cmd, int sec) 15903c9168faSHans Rosenfeld { 15913c9168faSHans Rosenfeld mutex_enter(&cmd->nc_mutex); 1592adec8d5dSHans Rosenfeld nvme_submit_admin_cmd(cmd->nc_nvme->n_adminq, cmd); 15935e3243f0SHans Rosenfeld nvme_wait_cmd(cmd, sec); 15943c9168faSHans Rosenfeld mutex_exit(&cmd->nc_mutex); 15953c9168faSHans Rosenfeld } 15963c9168faSHans Rosenfeld 1597adec8d5dSHans Rosenfeld static void 15983c9168faSHans Rosenfeld nvme_async_event(nvme_t *nvme) 15993c9168faSHans Rosenfeld { 16003c9168faSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 16013c9168faSHans Rosenfeld 16023c9168faSHans Rosenfeld cmd->nc_sqid = 0; 16033c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_ASYNC_EVENT; 16043c9168faSHans Rosenfeld cmd->nc_callback = nvme_async_event_task; 16053c9168faSHans Rosenfeld 1606adec8d5dSHans Rosenfeld nvme_submit_admin_cmd(nvme->n_adminq, cmd); 16073c9168faSHans Rosenfeld } 16083c9168faSHans Rosenfeld 1609ecee5a1fSHans Rosenfeld static int 1610ecee5a1fSHans Rosenfeld nvme_format_nvm(nvme_t *nvme, uint32_t nsid, uint8_t lbaf, boolean_t ms, 1611ecee5a1fSHans Rosenfeld uint8_t pi, boolean_t pil, uint8_t ses) 16123c9168faSHans Rosenfeld { 16133c9168faSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 1614ecee5a1fSHans Rosenfeld nvme_format_nvm_t format_nvm = { 0 }; 1615ecee5a1fSHans Rosenfeld int ret; 1616ecee5a1fSHans Rosenfeld 1617ecee5a1fSHans Rosenfeld format_nvm.b.fm_lbaf = lbaf & 0xf; 1618ecee5a1fSHans Rosenfeld format_nvm.b.fm_ms = ms ? 1 : 0; 1619ecee5a1fSHans Rosenfeld format_nvm.b.fm_pi = pi & 0x7; 1620ecee5a1fSHans Rosenfeld format_nvm.b.fm_pil = pil ? 1 : 0; 1621ecee5a1fSHans Rosenfeld format_nvm.b.fm_ses = ses & 0x7; 1622ecee5a1fSHans Rosenfeld 1623ecee5a1fSHans Rosenfeld cmd->nc_sqid = 0; 1624ecee5a1fSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 1625ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_nsid = nsid; 1626ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_NVM_FORMAT; 1627ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = format_nvm.r; 1628ecee5a1fSHans Rosenfeld 1629ecee5a1fSHans Rosenfeld /* 1630ecee5a1fSHans Rosenfeld * Some devices like Samsung SM951 don't allow formatting of all 1631ecee5a1fSHans Rosenfeld * namespaces in one command. Handle that gracefully. 1632ecee5a1fSHans Rosenfeld */ 1633ecee5a1fSHans Rosenfeld if (nsid == (uint32_t)-1) 1634ecee5a1fSHans Rosenfeld cmd->nc_dontpanic = B_TRUE; 1635ecee5a1fSHans Rosenfeld 16365e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_format_cmd_timeout); 1637ecee5a1fSHans Rosenfeld 1638ecee5a1fSHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 1639ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 1640ecee5a1fSHans Rosenfeld "!FORMAT failed with sct = %x, sc = %x", 1641ecee5a1fSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct, cmd->nc_cqe.cqe_sf.sf_sc); 1642ecee5a1fSHans Rosenfeld } 1643ecee5a1fSHans Rosenfeld 1644ecee5a1fSHans Rosenfeld nvme_free_cmd(cmd); 1645ecee5a1fSHans Rosenfeld return (ret); 1646ecee5a1fSHans Rosenfeld } 1647ecee5a1fSHans Rosenfeld 1648ecee5a1fSHans Rosenfeld static int 1649ecee5a1fSHans Rosenfeld nvme_get_logpage(nvme_t *nvme, void **buf, size_t *bufsize, uint8_t logpage, 1650ecee5a1fSHans Rosenfeld ...) 1651ecee5a1fSHans Rosenfeld { 1652ecee5a1fSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 1653f5b7c30aSPete Shephard nvme_getlogpage_t getlogpage = { 0 }; 16543c9168faSHans Rosenfeld va_list ap; 16555e3243f0SHans Rosenfeld int ret; 16563c9168faSHans Rosenfeld 16573c9168faSHans Rosenfeld va_start(ap, logpage); 16583c9168faSHans Rosenfeld 16593c9168faSHans Rosenfeld cmd->nc_sqid = 0; 16603c9168faSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 16613c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_GET_LOG_PAGE; 16623c9168faSHans Rosenfeld 16633c9168faSHans Rosenfeld getlogpage.b.lp_lid = logpage; 16643c9168faSHans Rosenfeld 16653c9168faSHans Rosenfeld switch (logpage) { 16663c9168faSHans Rosenfeld case NVME_LOGPAGE_ERROR: 16673c9168faSHans Rosenfeld cmd->nc_sqe.sqe_nsid = (uint32_t)-1; 1668ecee5a1fSHans Rosenfeld /* 1669ecee5a1fSHans Rosenfeld * The GET LOG PAGE command can use at most 2 pages to return 1670ecee5a1fSHans Rosenfeld * data, PRP lists are not supported. 1671ecee5a1fSHans Rosenfeld */ 1672ecee5a1fSHans Rosenfeld *bufsize = MIN(2 * nvme->n_pagesize, 1673ecee5a1fSHans Rosenfeld nvme->n_error_log_len * sizeof (nvme_error_log_entry_t)); 16743c9168faSHans Rosenfeld break; 16753c9168faSHans Rosenfeld 16763c9168faSHans Rosenfeld case NVME_LOGPAGE_HEALTH: 16773c9168faSHans Rosenfeld cmd->nc_sqe.sqe_nsid = va_arg(ap, uint32_t); 1678ecee5a1fSHans Rosenfeld *bufsize = sizeof (nvme_health_log_t); 16793c9168faSHans Rosenfeld break; 16803c9168faSHans Rosenfeld 16813c9168faSHans Rosenfeld case NVME_LOGPAGE_FWSLOT: 16823c9168faSHans Rosenfeld cmd->nc_sqe.sqe_nsid = (uint32_t)-1; 1683ecee5a1fSHans Rosenfeld *bufsize = sizeof (nvme_fwslot_log_t); 16843c9168faSHans Rosenfeld break; 16853c9168faSHans Rosenfeld 16863c9168faSHans Rosenfeld default: 16873c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!unknown log page requested: %d", 16883c9168faSHans Rosenfeld logpage); 16893c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_unknown_logpage); 16905e3243f0SHans Rosenfeld ret = EINVAL; 16913c9168faSHans Rosenfeld goto fail; 16923c9168faSHans Rosenfeld } 16933c9168faSHans Rosenfeld 16943c9168faSHans Rosenfeld va_end(ap); 16953c9168faSHans Rosenfeld 1696ecee5a1fSHans Rosenfeld getlogpage.b.lp_numd = *bufsize / sizeof (uint32_t) - 1; 16973c9168faSHans Rosenfeld 16983c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = getlogpage.r; 16993c9168faSHans Rosenfeld 17003c9168faSHans Rosenfeld if (nvme_zalloc_dma(nvme, getlogpage.b.lp_numd * sizeof (uint32_t), 17013c9168faSHans Rosenfeld DDI_DMA_READ, &nvme->n_prp_dma_attr, &cmd->nc_dma) != DDI_SUCCESS) { 17023c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 17033c9168faSHans Rosenfeld "!nvme_zalloc_dma failed for GET LOG PAGE"); 17045e3243f0SHans Rosenfeld ret = ENOMEM; 17053c9168faSHans Rosenfeld goto fail; 17063c9168faSHans Rosenfeld } 17073c9168faSHans Rosenfeld 17083c9168faSHans Rosenfeld if (cmd->nc_dma->nd_ncookie > 2) { 17093c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 17103c9168faSHans Rosenfeld "!too many DMA cookies for GET LOG PAGE"); 17113c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_too_many_cookies); 17125e3243f0SHans Rosenfeld ret = ENOMEM; 17133c9168faSHans Rosenfeld goto fail; 17143c9168faSHans Rosenfeld } 17153c9168faSHans Rosenfeld 17163c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[0] = cmd->nc_dma->nd_cookie.dmac_laddress; 17173c9168faSHans Rosenfeld if (cmd->nc_dma->nd_ncookie > 1) { 17183c9168faSHans Rosenfeld ddi_dma_nextcookie(cmd->nc_dma->nd_dmah, 17193c9168faSHans Rosenfeld &cmd->nc_dma->nd_cookie); 17203c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[1] = 17213c9168faSHans Rosenfeld cmd->nc_dma->nd_cookie.dmac_laddress; 17223c9168faSHans Rosenfeld } 17233c9168faSHans Rosenfeld 17245e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_admin_cmd_timeout); 17253c9168faSHans Rosenfeld 17265e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 17273c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 17283c9168faSHans Rosenfeld "!GET LOG PAGE failed with sct = %x, sc = %x", 17293c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct, cmd->nc_cqe.cqe_sf.sf_sc); 17303c9168faSHans Rosenfeld goto fail; 17313c9168faSHans Rosenfeld } 17323c9168faSHans Rosenfeld 1733ecee5a1fSHans Rosenfeld *buf = kmem_alloc(*bufsize, KM_SLEEP); 1734ecee5a1fSHans Rosenfeld bcopy(cmd->nc_dma->nd_memp, *buf, *bufsize); 1735ecee5a1fSHans Rosenfeld 17363c9168faSHans Rosenfeld fail: 17373c9168faSHans Rosenfeld nvme_free_cmd(cmd); 17383c9168faSHans Rosenfeld 1739ecee5a1fSHans Rosenfeld return (ret); 17403c9168faSHans Rosenfeld } 17413c9168faSHans Rosenfeld 17425e3243f0SHans Rosenfeld static int 17435e3243f0SHans Rosenfeld nvme_identify(nvme_t *nvme, uint32_t nsid, void **buf) 17443c9168faSHans Rosenfeld { 17453c9168faSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 17465e3243f0SHans Rosenfeld int ret; 17475e3243f0SHans Rosenfeld 17485e3243f0SHans Rosenfeld if (buf == NULL) 17495e3243f0SHans Rosenfeld return (EINVAL); 17503c9168faSHans Rosenfeld 17513c9168faSHans Rosenfeld cmd->nc_sqid = 0; 17523c9168faSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 17533c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_IDENTIFY; 17543c9168faSHans Rosenfeld cmd->nc_sqe.sqe_nsid = nsid; 17553c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = nsid ? NVME_IDENTIFY_NSID : NVME_IDENTIFY_CTRL; 17563c9168faSHans Rosenfeld 17573c9168faSHans Rosenfeld if (nvme_zalloc_dma(nvme, NVME_IDENTIFY_BUFSIZE, DDI_DMA_READ, 17583c9168faSHans Rosenfeld &nvme->n_prp_dma_attr, &cmd->nc_dma) != DDI_SUCCESS) { 17593c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 17603c9168faSHans Rosenfeld "!nvme_zalloc_dma failed for IDENTIFY"); 17615e3243f0SHans Rosenfeld ret = ENOMEM; 17623c9168faSHans Rosenfeld goto fail; 17633c9168faSHans Rosenfeld } 17643c9168faSHans Rosenfeld 17653c9168faSHans Rosenfeld if (cmd->nc_dma->nd_ncookie > 2) { 17663c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 17673c9168faSHans Rosenfeld "!too many DMA cookies for IDENTIFY"); 17683c9168faSHans Rosenfeld atomic_inc_32(&nvme->n_too_many_cookies); 17695e3243f0SHans Rosenfeld ret = ENOMEM; 17703c9168faSHans Rosenfeld goto fail; 17713c9168faSHans Rosenfeld } 17723c9168faSHans Rosenfeld 17733c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[0] = cmd->nc_dma->nd_cookie.dmac_laddress; 17743c9168faSHans Rosenfeld if (cmd->nc_dma->nd_ncookie > 1) { 17753c9168faSHans Rosenfeld ddi_dma_nextcookie(cmd->nc_dma->nd_dmah, 17763c9168faSHans Rosenfeld &cmd->nc_dma->nd_cookie); 17773c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[1] = 17783c9168faSHans Rosenfeld cmd->nc_dma->nd_cookie.dmac_laddress; 17793c9168faSHans Rosenfeld } 17803c9168faSHans Rosenfeld 17815e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_admin_cmd_timeout); 17823c9168faSHans Rosenfeld 17835e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 17843c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 17853c9168faSHans Rosenfeld "!IDENTIFY failed with sct = %x, sc = %x", 17863c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct, cmd->nc_cqe.cqe_sf.sf_sc); 17873c9168faSHans Rosenfeld goto fail; 17883c9168faSHans Rosenfeld } 17893c9168faSHans Rosenfeld 17905e3243f0SHans Rosenfeld *buf = kmem_alloc(NVME_IDENTIFY_BUFSIZE, KM_SLEEP); 17915e3243f0SHans Rosenfeld bcopy(cmd->nc_dma->nd_memp, *buf, NVME_IDENTIFY_BUFSIZE); 17923c9168faSHans Rosenfeld 17933c9168faSHans Rosenfeld fail: 17943c9168faSHans Rosenfeld nvme_free_cmd(cmd); 17953c9168faSHans Rosenfeld 17965e3243f0SHans Rosenfeld return (ret); 17973c9168faSHans Rosenfeld } 17983c9168faSHans Rosenfeld 17995e3243f0SHans Rosenfeld static int 1800998a9ab1SHans Rosenfeld nvme_set_features(nvme_t *nvme, uint32_t nsid, uint8_t feature, uint32_t val, 1801998a9ab1SHans Rosenfeld uint32_t *res) 18023c9168faSHans Rosenfeld { 1803998a9ab1SHans Rosenfeld _NOTE(ARGUNUSED(nsid)); 18043c9168faSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 18055e3243f0SHans Rosenfeld int ret = EINVAL; 18063c9168faSHans Rosenfeld 1807998a9ab1SHans Rosenfeld ASSERT(res != NULL); 18083c9168faSHans Rosenfeld 18093c9168faSHans Rosenfeld cmd->nc_sqid = 0; 18103c9168faSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 18113c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_SET_FEATURES; 1812998a9ab1SHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = feature; 1813998a9ab1SHans Rosenfeld cmd->nc_sqe.sqe_cdw11 = val; 1814998a9ab1SHans Rosenfeld 1815998a9ab1SHans Rosenfeld switch (feature) { 1816998a9ab1SHans Rosenfeld case NVME_FEAT_WRITE_CACHE: 1817998a9ab1SHans Rosenfeld if (!nvme->n_write_cache_present) 1818998a9ab1SHans Rosenfeld goto fail; 1819998a9ab1SHans Rosenfeld break; 1820998a9ab1SHans Rosenfeld 1821998a9ab1SHans Rosenfeld case NVME_FEAT_NQUEUES: 1822998a9ab1SHans Rosenfeld break; 1823998a9ab1SHans Rosenfeld 1824998a9ab1SHans Rosenfeld default: 1825998a9ab1SHans Rosenfeld goto fail; 1826998a9ab1SHans Rosenfeld } 18273c9168faSHans Rosenfeld 18285e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_admin_cmd_timeout); 18293c9168faSHans Rosenfeld 18305e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 18313c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 1832998a9ab1SHans Rosenfeld "!SET FEATURES %d failed with sct = %x, sc = %x", 1833998a9ab1SHans Rosenfeld feature, cmd->nc_cqe.cqe_sf.sf_sct, 1834998a9ab1SHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sc); 1835998a9ab1SHans Rosenfeld goto fail; 18363c9168faSHans Rosenfeld } 18373c9168faSHans Rosenfeld 1838998a9ab1SHans Rosenfeld *res = cmd->nc_cqe.cqe_dw0; 1839998a9ab1SHans Rosenfeld 1840998a9ab1SHans Rosenfeld fail: 18413c9168faSHans Rosenfeld nvme_free_cmd(cmd); 1842998a9ab1SHans Rosenfeld return (ret); 1843998a9ab1SHans Rosenfeld } 1844998a9ab1SHans Rosenfeld 18455e3243f0SHans Rosenfeld static int 1846ecee5a1fSHans Rosenfeld nvme_get_features(nvme_t *nvme, uint32_t nsid, uint8_t feature, uint32_t *res, 1847ecee5a1fSHans Rosenfeld void **buf, size_t *bufsize) 1848ecee5a1fSHans Rosenfeld { 1849ecee5a1fSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 18505e3243f0SHans Rosenfeld int ret = EINVAL; 1851ecee5a1fSHans Rosenfeld 1852ecee5a1fSHans Rosenfeld ASSERT(res != NULL); 1853ecee5a1fSHans Rosenfeld 1854ecee5a1fSHans Rosenfeld if (bufsize != NULL) 1855ecee5a1fSHans Rosenfeld *bufsize = 0; 1856ecee5a1fSHans Rosenfeld 1857ecee5a1fSHans Rosenfeld cmd->nc_sqid = 0; 1858ecee5a1fSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 1859ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_GET_FEATURES; 1860ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = feature; 1861ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_cdw11 = *res; 1862ecee5a1fSHans Rosenfeld 1863ecee5a1fSHans Rosenfeld switch (feature) { 1864ecee5a1fSHans Rosenfeld case NVME_FEAT_ARBITRATION: 1865ecee5a1fSHans Rosenfeld case NVME_FEAT_POWER_MGMT: 1866ecee5a1fSHans Rosenfeld case NVME_FEAT_TEMPERATURE: 1867ecee5a1fSHans Rosenfeld case NVME_FEAT_ERROR: 1868ecee5a1fSHans Rosenfeld case NVME_FEAT_NQUEUES: 1869ecee5a1fSHans Rosenfeld case NVME_FEAT_INTR_COAL: 1870ecee5a1fSHans Rosenfeld case NVME_FEAT_INTR_VECT: 1871ecee5a1fSHans Rosenfeld case NVME_FEAT_WRITE_ATOM: 1872ecee5a1fSHans Rosenfeld case NVME_FEAT_ASYNC_EVENT: 1873ecee5a1fSHans Rosenfeld case NVME_FEAT_PROGRESS: 1874ecee5a1fSHans Rosenfeld break; 1875ecee5a1fSHans Rosenfeld 1876ecee5a1fSHans Rosenfeld case NVME_FEAT_WRITE_CACHE: 1877ecee5a1fSHans Rosenfeld if (!nvme->n_write_cache_present) 1878ecee5a1fSHans Rosenfeld goto fail; 1879ecee5a1fSHans Rosenfeld break; 1880ecee5a1fSHans Rosenfeld 1881ecee5a1fSHans Rosenfeld case NVME_FEAT_LBA_RANGE: 1882ecee5a1fSHans Rosenfeld if (!nvme->n_lba_range_supported) 1883ecee5a1fSHans Rosenfeld goto fail; 1884ecee5a1fSHans Rosenfeld 1885ecee5a1fSHans Rosenfeld /* 1886ecee5a1fSHans Rosenfeld * The LBA Range Type feature is optional. There doesn't seem 1887ecee5a1fSHans Rosenfeld * be a method of detecting whether it is supported other than 1888ecee5a1fSHans Rosenfeld * using it. This will cause a "invalid field in command" error, 1889ecee5a1fSHans Rosenfeld * which is normally considered a programming error and causes 1890ecee5a1fSHans Rosenfeld * panic in nvme_check_generic_cmd_status(). 1891ecee5a1fSHans Rosenfeld */ 1892ecee5a1fSHans Rosenfeld cmd->nc_dontpanic = B_TRUE; 1893ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_nsid = nsid; 1894ecee5a1fSHans Rosenfeld ASSERT(bufsize != NULL); 1895ecee5a1fSHans Rosenfeld *bufsize = NVME_LBA_RANGE_BUFSIZE; 1896ecee5a1fSHans Rosenfeld 1897ecee5a1fSHans Rosenfeld break; 1898ecee5a1fSHans Rosenfeld 1899ecee5a1fSHans Rosenfeld case NVME_FEAT_AUTO_PST: 1900ecee5a1fSHans Rosenfeld if (!nvme->n_auto_pst_supported) 1901ecee5a1fSHans Rosenfeld goto fail; 1902ecee5a1fSHans Rosenfeld 1903ecee5a1fSHans Rosenfeld ASSERT(bufsize != NULL); 1904ecee5a1fSHans Rosenfeld *bufsize = NVME_AUTO_PST_BUFSIZE; 1905ecee5a1fSHans Rosenfeld break; 1906ecee5a1fSHans Rosenfeld 1907ecee5a1fSHans Rosenfeld default: 1908ecee5a1fSHans Rosenfeld goto fail; 1909ecee5a1fSHans Rosenfeld } 1910ecee5a1fSHans Rosenfeld 1911ecee5a1fSHans Rosenfeld if (bufsize != NULL && *bufsize != 0) { 1912ecee5a1fSHans Rosenfeld if (nvme_zalloc_dma(nvme, *bufsize, DDI_DMA_READ, 1913ecee5a1fSHans Rosenfeld &nvme->n_prp_dma_attr, &cmd->nc_dma) != DDI_SUCCESS) { 1914ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 1915ecee5a1fSHans Rosenfeld "!nvme_zalloc_dma failed for GET FEATURES"); 19165e3243f0SHans Rosenfeld ret = ENOMEM; 1917ecee5a1fSHans Rosenfeld goto fail; 1918ecee5a1fSHans Rosenfeld } 1919ecee5a1fSHans Rosenfeld 1920ecee5a1fSHans Rosenfeld if (cmd->nc_dma->nd_ncookie > 2) { 1921ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 1922ecee5a1fSHans Rosenfeld "!too many DMA cookies for GET FEATURES"); 1923ecee5a1fSHans Rosenfeld atomic_inc_32(&nvme->n_too_many_cookies); 19245e3243f0SHans Rosenfeld ret = ENOMEM; 1925ecee5a1fSHans Rosenfeld goto fail; 1926ecee5a1fSHans Rosenfeld } 1927ecee5a1fSHans Rosenfeld 1928ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[0] = 1929ecee5a1fSHans Rosenfeld cmd->nc_dma->nd_cookie.dmac_laddress; 1930ecee5a1fSHans Rosenfeld if (cmd->nc_dma->nd_ncookie > 1) { 1931ecee5a1fSHans Rosenfeld ddi_dma_nextcookie(cmd->nc_dma->nd_dmah, 1932ecee5a1fSHans Rosenfeld &cmd->nc_dma->nd_cookie); 1933ecee5a1fSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[1] = 1934ecee5a1fSHans Rosenfeld cmd->nc_dma->nd_cookie.dmac_laddress; 1935ecee5a1fSHans Rosenfeld } 1936ecee5a1fSHans Rosenfeld } 1937ecee5a1fSHans Rosenfeld 19385e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_admin_cmd_timeout); 1939ecee5a1fSHans Rosenfeld 19405e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 1941ecee5a1fSHans Rosenfeld if (feature == NVME_FEAT_LBA_RANGE && 1942ecee5a1fSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct == NVME_CQE_SCT_GENERIC && 1943ecee5a1fSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sc == NVME_CQE_SC_GEN_INV_FLD) 1944ecee5a1fSHans Rosenfeld nvme->n_lba_range_supported = B_FALSE; 1945ecee5a1fSHans Rosenfeld else 1946ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 1947ecee5a1fSHans Rosenfeld "!GET FEATURES %d failed with sct = %x, sc = %x", 1948ecee5a1fSHans Rosenfeld feature, cmd->nc_cqe.cqe_sf.sf_sct, 1949ecee5a1fSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sc); 1950ecee5a1fSHans Rosenfeld goto fail; 1951ecee5a1fSHans Rosenfeld } 1952ecee5a1fSHans Rosenfeld 1953ecee5a1fSHans Rosenfeld if (bufsize != NULL && *bufsize != 0) { 1954ecee5a1fSHans Rosenfeld ASSERT(buf != NULL); 1955ecee5a1fSHans Rosenfeld *buf = kmem_alloc(*bufsize, KM_SLEEP); 1956ecee5a1fSHans Rosenfeld bcopy(cmd->nc_dma->nd_memp, *buf, *bufsize); 1957ecee5a1fSHans Rosenfeld } 1958ecee5a1fSHans Rosenfeld 1959ecee5a1fSHans Rosenfeld *res = cmd->nc_cqe.cqe_dw0; 1960ecee5a1fSHans Rosenfeld 1961ecee5a1fSHans Rosenfeld fail: 1962ecee5a1fSHans Rosenfeld nvme_free_cmd(cmd); 1963ecee5a1fSHans Rosenfeld return (ret); 1964ecee5a1fSHans Rosenfeld } 1965ecee5a1fSHans Rosenfeld 19665e3243f0SHans Rosenfeld static int 1967998a9ab1SHans Rosenfeld nvme_write_cache_set(nvme_t *nvme, boolean_t enable) 1968998a9ab1SHans Rosenfeld { 1969998a9ab1SHans Rosenfeld nvme_write_cache_t nwc = { 0 }; 1970998a9ab1SHans Rosenfeld 1971998a9ab1SHans Rosenfeld if (enable) 1972998a9ab1SHans Rosenfeld nwc.b.wc_wce = 1; 1973998a9ab1SHans Rosenfeld 19745e3243f0SHans Rosenfeld return (nvme_set_features(nvme, 0, NVME_FEAT_WRITE_CACHE, nwc.r, 19755e3243f0SHans Rosenfeld &nwc.r)); 1976998a9ab1SHans Rosenfeld } 1977998a9ab1SHans Rosenfeld 1978998a9ab1SHans Rosenfeld static int 19795e3243f0SHans Rosenfeld nvme_set_nqueues(nvme_t *nvme, uint16_t *nqueues) 1980998a9ab1SHans Rosenfeld { 1981ecee5a1fSHans Rosenfeld nvme_nqueues_t nq = { 0 }; 19825e3243f0SHans Rosenfeld int ret; 1983998a9ab1SHans Rosenfeld 19845e3243f0SHans Rosenfeld nq.b.nq_nsq = nq.b.nq_ncq = *nqueues - 1; 1985998a9ab1SHans Rosenfeld 19865e3243f0SHans Rosenfeld ret = nvme_set_features(nvme, 0, NVME_FEAT_NQUEUES, nq.r, &nq.r); 19875e3243f0SHans Rosenfeld 19885e3243f0SHans Rosenfeld if (ret == 0) { 19895e3243f0SHans Rosenfeld /* 19905e3243f0SHans Rosenfeld * Always use the same number of submission and completion 19915e3243f0SHans Rosenfeld * queues, and never use more than the requested number of 19925e3243f0SHans Rosenfeld * queues. 19935e3243f0SHans Rosenfeld */ 19945e3243f0SHans Rosenfeld *nqueues = MIN(*nqueues, MIN(nq.b.nq_nsq, nq.b.nq_ncq) + 1); 1995998a9ab1SHans Rosenfeld } 19963c9168faSHans Rosenfeld 19975e3243f0SHans Rosenfeld return (ret); 19983c9168faSHans Rosenfeld } 19993c9168faSHans Rosenfeld 20003c9168faSHans Rosenfeld static int 20013c9168faSHans Rosenfeld nvme_create_io_qpair(nvme_t *nvme, nvme_qpair_t *qp, uint16_t idx) 20023c9168faSHans Rosenfeld { 20033c9168faSHans Rosenfeld nvme_cmd_t *cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 20043c9168faSHans Rosenfeld nvme_create_queue_dw10_t dw10 = { 0 }; 20053c9168faSHans Rosenfeld nvme_create_cq_dw11_t c_dw11 = { 0 }; 20063c9168faSHans Rosenfeld nvme_create_sq_dw11_t s_dw11 = { 0 }; 20075e3243f0SHans Rosenfeld int ret; 20083c9168faSHans Rosenfeld 20093c9168faSHans Rosenfeld dw10.b.q_qid = idx; 20103c9168faSHans Rosenfeld dw10.b.q_qsize = qp->nq_nentry - 1; 20113c9168faSHans Rosenfeld 20123c9168faSHans Rosenfeld c_dw11.b.cq_pc = 1; 20133c9168faSHans Rosenfeld c_dw11.b.cq_ien = 1; 20143c9168faSHans Rosenfeld c_dw11.b.cq_iv = idx % nvme->n_intr_cnt; 20153c9168faSHans Rosenfeld 20163c9168faSHans Rosenfeld cmd->nc_sqid = 0; 20173c9168faSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 20183c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_CREATE_CQUEUE; 20193c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = dw10.r; 20203c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw11 = c_dw11.r; 20213c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[0] = qp->nq_cqdma->nd_cookie.dmac_laddress; 20223c9168faSHans Rosenfeld 20235e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_admin_cmd_timeout); 20243c9168faSHans Rosenfeld 20255e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 20263c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 20273c9168faSHans Rosenfeld "!CREATE CQUEUE failed with sct = %x, sc = %x", 20283c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct, cmd->nc_cqe.cqe_sf.sf_sc); 20295e3243f0SHans Rosenfeld goto fail; 20303c9168faSHans Rosenfeld } 20313c9168faSHans Rosenfeld 20323c9168faSHans Rosenfeld nvme_free_cmd(cmd); 20333c9168faSHans Rosenfeld 20343c9168faSHans Rosenfeld s_dw11.b.sq_pc = 1; 20353c9168faSHans Rosenfeld s_dw11.b.sq_cqid = idx; 20363c9168faSHans Rosenfeld 20373c9168faSHans Rosenfeld cmd = nvme_alloc_cmd(nvme, KM_SLEEP); 20383c9168faSHans Rosenfeld cmd->nc_sqid = 0; 20393c9168faSHans Rosenfeld cmd->nc_callback = nvme_wakeup_cmd; 20403c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = NVME_OPC_CREATE_SQUEUE; 20413c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = dw10.r; 20423c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw11 = s_dw11.r; 20433c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[0] = qp->nq_sqdma->nd_cookie.dmac_laddress; 20443c9168faSHans Rosenfeld 20455e3243f0SHans Rosenfeld nvme_admin_cmd(cmd, nvme_admin_cmd_timeout); 20463c9168faSHans Rosenfeld 20475e3243f0SHans Rosenfeld if ((ret = nvme_check_cmd_status(cmd)) != 0) { 20483c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 20493c9168faSHans Rosenfeld "!CREATE SQUEUE failed with sct = %x, sc = %x", 20503c9168faSHans Rosenfeld cmd->nc_cqe.cqe_sf.sf_sct, cmd->nc_cqe.cqe_sf.sf_sc); 20515e3243f0SHans Rosenfeld goto fail; 20523c9168faSHans Rosenfeld } 20533c9168faSHans Rosenfeld 20545e3243f0SHans Rosenfeld fail: 20553c9168faSHans Rosenfeld nvme_free_cmd(cmd); 20563c9168faSHans Rosenfeld 20575e3243f0SHans Rosenfeld return (ret); 20583c9168faSHans Rosenfeld } 20593c9168faSHans Rosenfeld 20603c9168faSHans Rosenfeld static boolean_t 20613c9168faSHans Rosenfeld nvme_reset(nvme_t *nvme, boolean_t quiesce) 20623c9168faSHans Rosenfeld { 20633c9168faSHans Rosenfeld nvme_reg_csts_t csts; 20643c9168faSHans Rosenfeld int i; 20653c9168faSHans Rosenfeld 20663c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_CC, 0); 20673c9168faSHans Rosenfeld 20683c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 20693c9168faSHans Rosenfeld if (csts.b.csts_rdy == 1) { 20703c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_CC, 0); 20713c9168faSHans Rosenfeld for (i = 0; i != nvme->n_timeout * 10; i++) { 20723c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 20733c9168faSHans Rosenfeld if (csts.b.csts_rdy == 0) 20743c9168faSHans Rosenfeld break; 20753c9168faSHans Rosenfeld 20763c9168faSHans Rosenfeld if (quiesce) 20773c9168faSHans Rosenfeld drv_usecwait(50000); 20783c9168faSHans Rosenfeld else 20793c9168faSHans Rosenfeld delay(drv_usectohz(50000)); 20803c9168faSHans Rosenfeld } 20813c9168faSHans Rosenfeld } 20823c9168faSHans Rosenfeld 20833c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_AQA, 0); 20843c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_ASQ, 0); 20853c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_ACQ, 0); 20863c9168faSHans Rosenfeld 20873c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 20883c9168faSHans Rosenfeld return (csts.b.csts_rdy == 0 ? B_TRUE : B_FALSE); 20893c9168faSHans Rosenfeld } 20903c9168faSHans Rosenfeld 20913c9168faSHans Rosenfeld static void 20923c9168faSHans Rosenfeld nvme_shutdown(nvme_t *nvme, int mode, boolean_t quiesce) 20933c9168faSHans Rosenfeld { 20943c9168faSHans Rosenfeld nvme_reg_cc_t cc; 20953c9168faSHans Rosenfeld nvme_reg_csts_t csts; 20963c9168faSHans Rosenfeld int i; 20973c9168faSHans Rosenfeld 20983c9168faSHans Rosenfeld ASSERT(mode == NVME_CC_SHN_NORMAL || mode == NVME_CC_SHN_ABRUPT); 20993c9168faSHans Rosenfeld 21003c9168faSHans Rosenfeld cc.r = nvme_get32(nvme, NVME_REG_CC); 21013c9168faSHans Rosenfeld cc.b.cc_shn = mode & 0x3; 21023c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_CC, cc.r); 21033c9168faSHans Rosenfeld 21043c9168faSHans Rosenfeld for (i = 0; i != 10; i++) { 21053c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 21063c9168faSHans Rosenfeld if (csts.b.csts_shst == NVME_CSTS_SHN_COMPLETE) 21073c9168faSHans Rosenfeld break; 21083c9168faSHans Rosenfeld 21093c9168faSHans Rosenfeld if (quiesce) 21103c9168faSHans Rosenfeld drv_usecwait(100000); 21113c9168faSHans Rosenfeld else 21123c9168faSHans Rosenfeld delay(drv_usectohz(100000)); 21133c9168faSHans Rosenfeld } 21143c9168faSHans Rosenfeld } 21153c9168faSHans Rosenfeld 21163c9168faSHans Rosenfeld 21173c9168faSHans Rosenfeld static void 21183c9168faSHans Rosenfeld nvme_prepare_devid(nvme_t *nvme, uint32_t nsid) 21193c9168faSHans Rosenfeld { 2120b6fef107SHans Rosenfeld /* 2121b6fef107SHans Rosenfeld * Section 7.7 of the spec describes how to get a unique ID for 2122b6fef107SHans Rosenfeld * the controller: the vendor ID, the model name and the serial 2123b6fef107SHans Rosenfeld * number shall be unique when combined. 2124b6fef107SHans Rosenfeld * 2125b6fef107SHans Rosenfeld * If a namespace has no EUI64 we use the above and add the hex 2126b6fef107SHans Rosenfeld * namespace ID to get a unique ID for the namespace. 2127b6fef107SHans Rosenfeld */ 21283c9168faSHans Rosenfeld char model[sizeof (nvme->n_idctl->id_model) + 1]; 21293c9168faSHans Rosenfeld char serial[sizeof (nvme->n_idctl->id_serial) + 1]; 21303c9168faSHans Rosenfeld 21313c9168faSHans Rosenfeld bcopy(nvme->n_idctl->id_model, model, sizeof (nvme->n_idctl->id_model)); 21323c9168faSHans Rosenfeld bcopy(nvme->n_idctl->id_serial, serial, 21333c9168faSHans Rosenfeld sizeof (nvme->n_idctl->id_serial)); 21343c9168faSHans Rosenfeld 21353c9168faSHans Rosenfeld model[sizeof (nvme->n_idctl->id_model)] = '\0'; 21363c9168faSHans Rosenfeld serial[sizeof (nvme->n_idctl->id_serial)] = '\0'; 21373c9168faSHans Rosenfeld 2138b6fef107SHans Rosenfeld nvme->n_ns[nsid - 1].ns_devid = kmem_asprintf("%4X-%s-%s-%X", 21393c9168faSHans Rosenfeld nvme->n_idctl->id_vid, model, serial, nsid); 21403c9168faSHans Rosenfeld } 21413c9168faSHans Rosenfeld 21423c9168faSHans Rosenfeld static int 2143ecee5a1fSHans Rosenfeld nvme_init_ns(nvme_t *nvme, int nsid) 2144ecee5a1fSHans Rosenfeld { 2145ecee5a1fSHans Rosenfeld nvme_namespace_t *ns = &nvme->n_ns[nsid - 1]; 2146ecee5a1fSHans Rosenfeld nvme_identify_nsid_t *idns; 2147ecee5a1fSHans Rosenfeld int last_rp; 2148ecee5a1fSHans Rosenfeld 2149ecee5a1fSHans Rosenfeld ns->ns_nvme = nvme; 2150ecee5a1fSHans Rosenfeld 21515e3243f0SHans Rosenfeld if (nvme_identify(nvme, nsid, (void **)&idns) != 0) { 2152ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2153ecee5a1fSHans Rosenfeld "!failed to identify namespace %d", nsid); 2154ecee5a1fSHans Rosenfeld return (DDI_FAILURE); 2155ecee5a1fSHans Rosenfeld } 2156ecee5a1fSHans Rosenfeld 2157ecee5a1fSHans Rosenfeld ns->ns_idns = idns; 2158ecee5a1fSHans Rosenfeld ns->ns_id = nsid; 2159ecee5a1fSHans Rosenfeld ns->ns_block_count = idns->id_nsize; 2160ecee5a1fSHans Rosenfeld ns->ns_block_size = 2161ecee5a1fSHans Rosenfeld 1 << idns->id_lbaf[idns->id_flbas.lba_format].lbaf_lbads; 2162ecee5a1fSHans Rosenfeld ns->ns_best_block_size = ns->ns_block_size; 2163ecee5a1fSHans Rosenfeld 2164ecee5a1fSHans Rosenfeld /* 2165ecee5a1fSHans Rosenfeld * Get the EUI64 if present. Use it for devid and device node names. 2166ecee5a1fSHans Rosenfeld */ 2167ecee5a1fSHans Rosenfeld if (NVME_VERSION_ATLEAST(&nvme->n_version, 1, 1)) 2168ecee5a1fSHans Rosenfeld bcopy(idns->id_eui64, ns->ns_eui64, sizeof (ns->ns_eui64)); 2169ecee5a1fSHans Rosenfeld 2170ecee5a1fSHans Rosenfeld /*LINTED: E_BAD_PTR_CAST_ALIGN*/ 2171ecee5a1fSHans Rosenfeld if (*(uint64_t *)ns->ns_eui64 != 0) { 2172ecee5a1fSHans Rosenfeld uint8_t *eui64 = ns->ns_eui64; 2173ecee5a1fSHans Rosenfeld 2174ecee5a1fSHans Rosenfeld (void) snprintf(ns->ns_name, sizeof (ns->ns_name), 2175ecee5a1fSHans Rosenfeld "%02x%02x%02x%02x%02x%02x%02x%02x", 2176ecee5a1fSHans Rosenfeld eui64[0], eui64[1], eui64[2], eui64[3], 2177ecee5a1fSHans Rosenfeld eui64[4], eui64[5], eui64[6], eui64[7]); 2178ecee5a1fSHans Rosenfeld } else { 2179ecee5a1fSHans Rosenfeld (void) snprintf(ns->ns_name, sizeof (ns->ns_name), "%d", 2180ecee5a1fSHans Rosenfeld ns->ns_id); 2181ecee5a1fSHans Rosenfeld 2182ecee5a1fSHans Rosenfeld nvme_prepare_devid(nvme, ns->ns_id); 2183ecee5a1fSHans Rosenfeld } 2184ecee5a1fSHans Rosenfeld 2185ecee5a1fSHans Rosenfeld /* 2186ecee5a1fSHans Rosenfeld * Find the LBA format with no metadata and the best relative 2187ecee5a1fSHans Rosenfeld * performance. A value of 3 means "degraded", 0 is best. 2188ecee5a1fSHans Rosenfeld */ 2189ecee5a1fSHans Rosenfeld last_rp = 3; 2190ecee5a1fSHans Rosenfeld for (int j = 0; j <= idns->id_nlbaf; j++) { 2191ecee5a1fSHans Rosenfeld if (idns->id_lbaf[j].lbaf_lbads == 0) 2192ecee5a1fSHans Rosenfeld break; 2193ecee5a1fSHans Rosenfeld if (idns->id_lbaf[j].lbaf_ms != 0) 2194ecee5a1fSHans Rosenfeld continue; 2195ecee5a1fSHans Rosenfeld if (idns->id_lbaf[j].lbaf_rp >= last_rp) 2196ecee5a1fSHans Rosenfeld continue; 2197ecee5a1fSHans Rosenfeld last_rp = idns->id_lbaf[j].lbaf_rp; 2198ecee5a1fSHans Rosenfeld ns->ns_best_block_size = 2199ecee5a1fSHans Rosenfeld 1 << idns->id_lbaf[j].lbaf_lbads; 2200ecee5a1fSHans Rosenfeld } 2201ecee5a1fSHans Rosenfeld 2202ecee5a1fSHans Rosenfeld if (ns->ns_best_block_size < nvme->n_min_block_size) 2203ecee5a1fSHans Rosenfeld ns->ns_best_block_size = nvme->n_min_block_size; 2204ecee5a1fSHans Rosenfeld 2205ecee5a1fSHans Rosenfeld /* 2206ecee5a1fSHans Rosenfeld * We currently don't support namespaces that use either: 2207ecee5a1fSHans Rosenfeld * - thin provisioning 2208ecee5a1fSHans Rosenfeld * - protection information 2209a7a0977cSHans Rosenfeld * - illegal block size (< 512) 2210ecee5a1fSHans Rosenfeld */ 2211ecee5a1fSHans Rosenfeld if (idns->id_nsfeat.f_thin || 2212ecee5a1fSHans Rosenfeld idns->id_dps.dp_pinfo) { 2213ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2214ecee5a1fSHans Rosenfeld "!ignoring namespace %d, unsupported features: " 2215ecee5a1fSHans Rosenfeld "thin = %d, pinfo = %d", nsid, 2216ecee5a1fSHans Rosenfeld idns->id_nsfeat.f_thin, idns->id_dps.dp_pinfo); 2217ecee5a1fSHans Rosenfeld ns->ns_ignore = B_TRUE; 2218a7a0977cSHans Rosenfeld } else if (ns->ns_block_size < 512) { 2219a7a0977cSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2220a7a0977cSHans Rosenfeld "!ignoring namespace %d, unsupported block size %"PRIu64, 2221a7a0977cSHans Rosenfeld nsid, (uint64_t)ns->ns_block_size); 22229e9b16eeSHans Rosenfeld ns->ns_ignore = B_TRUE; 2223ecee5a1fSHans Rosenfeld } else { 2224ecee5a1fSHans Rosenfeld ns->ns_ignore = B_FALSE; 2225ecee5a1fSHans Rosenfeld } 2226ecee5a1fSHans Rosenfeld 2227ecee5a1fSHans Rosenfeld return (DDI_SUCCESS); 2228ecee5a1fSHans Rosenfeld } 2229ecee5a1fSHans Rosenfeld 2230ecee5a1fSHans Rosenfeld static int 22313c9168faSHans Rosenfeld nvme_init(nvme_t *nvme) 22323c9168faSHans Rosenfeld { 22333c9168faSHans Rosenfeld nvme_reg_cc_t cc = { 0 }; 22343c9168faSHans Rosenfeld nvme_reg_aqa_t aqa = { 0 }; 22353c9168faSHans Rosenfeld nvme_reg_asq_t asq = { 0 }; 22363c9168faSHans Rosenfeld nvme_reg_acq_t acq = { 0 }; 22373c9168faSHans Rosenfeld nvme_reg_cap_t cap; 22383c9168faSHans Rosenfeld nvme_reg_vs_t vs; 22393c9168faSHans Rosenfeld nvme_reg_csts_t csts; 22403c9168faSHans Rosenfeld int i = 0; 22415e3243f0SHans Rosenfeld uint16_t nqueues; 2242510a6847SHans Rosenfeld char model[sizeof (nvme->n_idctl->id_model) + 1]; 2243510a6847SHans Rosenfeld char *vendor, *product; 22443c9168faSHans Rosenfeld 22453c9168faSHans Rosenfeld /* Check controller version */ 22463c9168faSHans Rosenfeld vs.r = nvme_get32(nvme, NVME_REG_VS); 2247b6fef107SHans Rosenfeld nvme->n_version.v_major = vs.b.vs_mjr; 2248b6fef107SHans Rosenfeld nvme->n_version.v_minor = vs.b.vs_mnr; 22493c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_CONT, "?NVMe spec version %d.%d", 2250b6fef107SHans Rosenfeld nvme->n_version.v_major, nvme->n_version.v_minor); 22513c9168faSHans Rosenfeld 2252*1188b159SRobert Mustacchi if (nvme->n_version.v_major > nvme_version_major) { 2253*1188b159SRobert Mustacchi dev_err(nvme->n_dip, CE_WARN, "!no support for version > %d.x", 2254*1188b159SRobert Mustacchi nvme_version_major); 22553c9168faSHans Rosenfeld if (nvme->n_strict_version) 22563c9168faSHans Rosenfeld goto fail; 22573c9168faSHans Rosenfeld } 22583c9168faSHans Rosenfeld 22593c9168faSHans Rosenfeld /* retrieve controller configuration */ 22603c9168faSHans Rosenfeld cap.r = nvme_get64(nvme, NVME_REG_CAP); 22613c9168faSHans Rosenfeld 22623c9168faSHans Rosenfeld if ((cap.b.cap_css & NVME_CAP_CSS_NVM) == 0) { 22633c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 22643c9168faSHans Rosenfeld "!NVM command set not supported by hardware"); 22653c9168faSHans Rosenfeld goto fail; 22663c9168faSHans Rosenfeld } 22673c9168faSHans Rosenfeld 22683c9168faSHans Rosenfeld nvme->n_nssr_supported = cap.b.cap_nssrs; 22693c9168faSHans Rosenfeld nvme->n_doorbell_stride = 4 << cap.b.cap_dstrd; 22703c9168faSHans Rosenfeld nvme->n_timeout = cap.b.cap_to; 22713c9168faSHans Rosenfeld nvme->n_arbitration_mechanisms = cap.b.cap_ams; 22723c9168faSHans Rosenfeld nvme->n_cont_queues_reqd = cap.b.cap_cqr; 22733c9168faSHans Rosenfeld nvme->n_max_queue_entries = cap.b.cap_mqes + 1; 22743c9168faSHans Rosenfeld 22753c9168faSHans Rosenfeld /* 22763c9168faSHans Rosenfeld * The MPSMIN and MPSMAX fields in the CAP register use 0 to specify 22773c9168faSHans Rosenfeld * the base page size of 4k (1<<12), so add 12 here to get the real 22783c9168faSHans Rosenfeld * page size value. 22793c9168faSHans Rosenfeld */ 22803c9168faSHans Rosenfeld nvme->n_pageshift = MIN(MAX(cap.b.cap_mpsmin + 12, PAGESHIFT), 22813c9168faSHans Rosenfeld cap.b.cap_mpsmax + 12); 22823c9168faSHans Rosenfeld nvme->n_pagesize = 1UL << (nvme->n_pageshift); 22833c9168faSHans Rosenfeld 22843c9168faSHans Rosenfeld /* 22853c9168faSHans Rosenfeld * Set up Queue DMA to transfer at least 1 page-aligned page at a time. 22863c9168faSHans Rosenfeld */ 22873c9168faSHans Rosenfeld nvme->n_queue_dma_attr.dma_attr_align = nvme->n_pagesize; 22883c9168faSHans Rosenfeld nvme->n_queue_dma_attr.dma_attr_minxfer = nvme->n_pagesize; 22893c9168faSHans Rosenfeld 22903c9168faSHans Rosenfeld /* 22913c9168faSHans Rosenfeld * Set up PRP DMA to transfer 1 page-aligned page at a time. 22923c9168faSHans Rosenfeld * Maxxfer may be increased after we identified the controller limits. 22933c9168faSHans Rosenfeld */ 22943c9168faSHans Rosenfeld nvme->n_prp_dma_attr.dma_attr_maxxfer = nvme->n_pagesize; 22953c9168faSHans Rosenfeld nvme->n_prp_dma_attr.dma_attr_minxfer = nvme->n_pagesize; 22963c9168faSHans Rosenfeld nvme->n_prp_dma_attr.dma_attr_align = nvme->n_pagesize; 2297c00ca9eeSYouzhong Yang nvme->n_prp_dma_attr.dma_attr_seg = nvme->n_pagesize - 1; 22983c9168faSHans Rosenfeld 22993c9168faSHans Rosenfeld /* 23003c9168faSHans Rosenfeld * Reset controller if it's still in ready state. 23013c9168faSHans Rosenfeld */ 23023c9168faSHans Rosenfeld if (nvme_reset(nvme, B_FALSE) == B_FALSE) { 23033c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!unable to reset controller"); 23043c9168faSHans Rosenfeld ddi_fm_service_impact(nvme->n_dip, DDI_SERVICE_LOST); 23053c9168faSHans Rosenfeld nvme->n_dead = B_TRUE; 23063c9168faSHans Rosenfeld goto fail; 23073c9168faSHans Rosenfeld } 23083c9168faSHans Rosenfeld 23093c9168faSHans Rosenfeld /* 23103c9168faSHans Rosenfeld * Create the admin queue pair. 23113c9168faSHans Rosenfeld */ 23123c9168faSHans Rosenfeld if (nvme_alloc_qpair(nvme, nvme->n_admin_queue_len, &nvme->n_adminq, 0) 23133c9168faSHans Rosenfeld != DDI_SUCCESS) { 23143c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 23153c9168faSHans Rosenfeld "!unable to allocate admin qpair"); 23163c9168faSHans Rosenfeld goto fail; 23173c9168faSHans Rosenfeld } 23183c9168faSHans Rosenfeld nvme->n_ioq = kmem_alloc(sizeof (nvme_qpair_t *), KM_SLEEP); 23193c9168faSHans Rosenfeld nvme->n_ioq[0] = nvme->n_adminq; 23203c9168faSHans Rosenfeld 23213c9168faSHans Rosenfeld nvme->n_progress |= NVME_ADMIN_QUEUE; 23223c9168faSHans Rosenfeld 23233c9168faSHans Rosenfeld (void) ddi_prop_update_int(DDI_DEV_T_NONE, nvme->n_dip, 23243c9168faSHans Rosenfeld "admin-queue-len", nvme->n_admin_queue_len); 23253c9168faSHans Rosenfeld 23263c9168faSHans Rosenfeld aqa.b.aqa_asqs = aqa.b.aqa_acqs = nvme->n_admin_queue_len - 1; 23273c9168faSHans Rosenfeld asq = nvme->n_adminq->nq_sqdma->nd_cookie.dmac_laddress; 23283c9168faSHans Rosenfeld acq = nvme->n_adminq->nq_cqdma->nd_cookie.dmac_laddress; 23293c9168faSHans Rosenfeld 23303c9168faSHans Rosenfeld ASSERT((asq & (nvme->n_pagesize - 1)) == 0); 23313c9168faSHans Rosenfeld ASSERT((acq & (nvme->n_pagesize - 1)) == 0); 23323c9168faSHans Rosenfeld 23333c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_AQA, aqa.r); 23343c9168faSHans Rosenfeld nvme_put64(nvme, NVME_REG_ASQ, asq); 23353c9168faSHans Rosenfeld nvme_put64(nvme, NVME_REG_ACQ, acq); 23363c9168faSHans Rosenfeld 23373c9168faSHans Rosenfeld cc.b.cc_ams = 0; /* use Round-Robin arbitration */ 23383c9168faSHans Rosenfeld cc.b.cc_css = 0; /* use NVM command set */ 23393c9168faSHans Rosenfeld cc.b.cc_mps = nvme->n_pageshift - 12; 23403c9168faSHans Rosenfeld cc.b.cc_shn = 0; /* no shutdown in progress */ 23413c9168faSHans Rosenfeld cc.b.cc_en = 1; /* enable controller */ 2342f5b7c30aSPete Shephard cc.b.cc_iosqes = 6; /* submission queue entry is 2^6 bytes long */ 2343f5b7c30aSPete Shephard cc.b.cc_iocqes = 4; /* completion queue entry is 2^4 bytes long */ 23443c9168faSHans Rosenfeld 23453c9168faSHans Rosenfeld nvme_put32(nvme, NVME_REG_CC, cc.r); 23463c9168faSHans Rosenfeld 23473c9168faSHans Rosenfeld /* 23483c9168faSHans Rosenfeld * Wait for the controller to become ready. 23493c9168faSHans Rosenfeld */ 23503c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 23513c9168faSHans Rosenfeld if (csts.b.csts_rdy == 0) { 23523c9168faSHans Rosenfeld for (i = 0; i != nvme->n_timeout * 10; i++) { 23533c9168faSHans Rosenfeld delay(drv_usectohz(50000)); 23543c9168faSHans Rosenfeld csts.r = nvme_get32(nvme, NVME_REG_CSTS); 23553c9168faSHans Rosenfeld 23563c9168faSHans Rosenfeld if (csts.b.csts_cfs == 1) { 23573c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 23583c9168faSHans Rosenfeld "!controller fatal status at init"); 23593c9168faSHans Rosenfeld ddi_fm_service_impact(nvme->n_dip, 23603c9168faSHans Rosenfeld DDI_SERVICE_LOST); 23613c9168faSHans Rosenfeld nvme->n_dead = B_TRUE; 23623c9168faSHans Rosenfeld goto fail; 23633c9168faSHans Rosenfeld } 23643c9168faSHans Rosenfeld 23653c9168faSHans Rosenfeld if (csts.b.csts_rdy == 1) 23663c9168faSHans Rosenfeld break; 23673c9168faSHans Rosenfeld } 23683c9168faSHans Rosenfeld } 23693c9168faSHans Rosenfeld 23703c9168faSHans Rosenfeld if (csts.b.csts_rdy == 0) { 23713c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!controller not ready"); 23723c9168faSHans Rosenfeld ddi_fm_service_impact(nvme->n_dip, DDI_SERVICE_LOST); 23733c9168faSHans Rosenfeld nvme->n_dead = B_TRUE; 23743c9168faSHans Rosenfeld goto fail; 23753c9168faSHans Rosenfeld } 23763c9168faSHans Rosenfeld 23773c9168faSHans Rosenfeld /* 23783c9168faSHans Rosenfeld * Assume an abort command limit of 1. We'll destroy and re-init 23793c9168faSHans Rosenfeld * that later when we know the true abort command limit. 23803c9168faSHans Rosenfeld */ 23813c9168faSHans Rosenfeld sema_init(&nvme->n_abort_sema, 1, NULL, SEMA_DRIVER, NULL); 23823c9168faSHans Rosenfeld 23833c9168faSHans Rosenfeld /* 2384bc49f412SHans Rosenfeld * Setup initial interrupt for admin queue. 2385bc49f412SHans Rosenfeld */ 2386bc49f412SHans Rosenfeld if ((nvme_setup_interrupts(nvme, DDI_INTR_TYPE_MSIX, 1) 2387bc49f412SHans Rosenfeld != DDI_SUCCESS) && 2388bc49f412SHans Rosenfeld (nvme_setup_interrupts(nvme, DDI_INTR_TYPE_MSI, 1) 2389bc49f412SHans Rosenfeld != DDI_SUCCESS) && 2390bc49f412SHans Rosenfeld (nvme_setup_interrupts(nvme, DDI_INTR_TYPE_FIXED, 1) 2391bc49f412SHans Rosenfeld != DDI_SUCCESS)) { 2392bc49f412SHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2393bc49f412SHans Rosenfeld "!failed to setup initial interrupt"); 2394bc49f412SHans Rosenfeld goto fail; 2395bc49f412SHans Rosenfeld } 2396bc49f412SHans Rosenfeld 2397bc49f412SHans Rosenfeld /* 23983c9168faSHans Rosenfeld * Post an asynchronous event command to catch errors. 23993c9168faSHans Rosenfeld */ 2400adec8d5dSHans Rosenfeld nvme_async_event(nvme); 24013c9168faSHans Rosenfeld 24023c9168faSHans Rosenfeld /* 24033c9168faSHans Rosenfeld * Identify Controller 24043c9168faSHans Rosenfeld */ 24055e3243f0SHans Rosenfeld if (nvme_identify(nvme, 0, (void **)&nvme->n_idctl) != 0) { 24063c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 24073c9168faSHans Rosenfeld "!failed to identify controller"); 24083c9168faSHans Rosenfeld goto fail; 24093c9168faSHans Rosenfeld } 24103c9168faSHans Rosenfeld 24113c9168faSHans Rosenfeld /* 2412510a6847SHans Rosenfeld * Get Vendor & Product ID 2413510a6847SHans Rosenfeld */ 2414510a6847SHans Rosenfeld bcopy(nvme->n_idctl->id_model, model, sizeof (nvme->n_idctl->id_model)); 2415510a6847SHans Rosenfeld model[sizeof (nvme->n_idctl->id_model)] = '\0'; 2416510a6847SHans Rosenfeld sata_split_model(model, &vendor, &product); 2417510a6847SHans Rosenfeld 2418510a6847SHans Rosenfeld if (vendor == NULL) 2419510a6847SHans Rosenfeld nvme->n_vendor = strdup("NVMe"); 2420510a6847SHans Rosenfeld else 2421510a6847SHans Rosenfeld nvme->n_vendor = strdup(vendor); 2422510a6847SHans Rosenfeld 2423510a6847SHans Rosenfeld nvme->n_product = strdup(product); 2424510a6847SHans Rosenfeld 2425510a6847SHans Rosenfeld /* 24263c9168faSHans Rosenfeld * Get controller limits. 24273c9168faSHans Rosenfeld */ 24283c9168faSHans Rosenfeld nvme->n_async_event_limit = MAX(NVME_MIN_ASYNC_EVENT_LIMIT, 24293c9168faSHans Rosenfeld MIN(nvme->n_admin_queue_len / 10, 24303c9168faSHans Rosenfeld MIN(nvme->n_idctl->id_aerl + 1, nvme->n_async_event_limit))); 24313c9168faSHans Rosenfeld 24323c9168faSHans Rosenfeld (void) ddi_prop_update_int(DDI_DEV_T_NONE, nvme->n_dip, 24333c9168faSHans Rosenfeld "async-event-limit", nvme->n_async_event_limit); 24343c9168faSHans Rosenfeld 24353c9168faSHans Rosenfeld nvme->n_abort_command_limit = nvme->n_idctl->id_acl + 1; 24363c9168faSHans Rosenfeld 24371b31b305SHans Rosenfeld /* 24381b31b305SHans Rosenfeld * Reinitialize the semaphore with the true abort command limit 24391b31b305SHans Rosenfeld * supported by the hardware. It's not necessary to disable interrupts 24401b31b305SHans Rosenfeld * as only command aborts use the semaphore, and no commands are 24411b31b305SHans Rosenfeld * executed or aborted while we're here. 24421b31b305SHans Rosenfeld */ 24433c9168faSHans Rosenfeld sema_destroy(&nvme->n_abort_sema); 24443c9168faSHans Rosenfeld sema_init(&nvme->n_abort_sema, nvme->n_abort_command_limit - 1, NULL, 24453c9168faSHans Rosenfeld SEMA_DRIVER, NULL); 24463c9168faSHans Rosenfeld 24473c9168faSHans Rosenfeld nvme->n_progress |= NVME_CTRL_LIMITS; 24483c9168faSHans Rosenfeld 24493c9168faSHans Rosenfeld if (nvme->n_idctl->id_mdts == 0) 24503c9168faSHans Rosenfeld nvme->n_max_data_transfer_size = nvme->n_pagesize * 65536; 24513c9168faSHans Rosenfeld else 24523c9168faSHans Rosenfeld nvme->n_max_data_transfer_size = 24533c9168faSHans Rosenfeld 1ull << (nvme->n_pageshift + nvme->n_idctl->id_mdts); 24543c9168faSHans Rosenfeld 24553c9168faSHans Rosenfeld nvme->n_error_log_len = nvme->n_idctl->id_elpe + 1; 24563c9168faSHans Rosenfeld 24573c9168faSHans Rosenfeld /* 24583c9168faSHans Rosenfeld * Limit n_max_data_transfer_size to what we can handle in one PRP. 24593c9168faSHans Rosenfeld * Chained PRPs are currently unsupported. 24603c9168faSHans Rosenfeld * 24613c9168faSHans Rosenfeld * This is a no-op on hardware which doesn't support a transfer size 24623c9168faSHans Rosenfeld * big enough to require chained PRPs. 24633c9168faSHans Rosenfeld */ 24643c9168faSHans Rosenfeld nvme->n_max_data_transfer_size = MIN(nvme->n_max_data_transfer_size, 24653c9168faSHans Rosenfeld (nvme->n_pagesize / sizeof (uint64_t) * nvme->n_pagesize)); 24663c9168faSHans Rosenfeld 24673c9168faSHans Rosenfeld nvme->n_prp_dma_attr.dma_attr_maxxfer = nvme->n_max_data_transfer_size; 24683c9168faSHans Rosenfeld 24693c9168faSHans Rosenfeld /* 24703c9168faSHans Rosenfeld * Make sure the minimum/maximum queue entry sizes are not 24713c9168faSHans Rosenfeld * larger/smaller than the default. 24723c9168faSHans Rosenfeld */ 24733c9168faSHans Rosenfeld 24743c9168faSHans Rosenfeld if (((1 << nvme->n_idctl->id_sqes.qes_min) > sizeof (nvme_sqe_t)) || 24753c9168faSHans Rosenfeld ((1 << nvme->n_idctl->id_sqes.qes_max) < sizeof (nvme_sqe_t)) || 24763c9168faSHans Rosenfeld ((1 << nvme->n_idctl->id_cqes.qes_min) > sizeof (nvme_cqe_t)) || 24773c9168faSHans Rosenfeld ((1 << nvme->n_idctl->id_cqes.qes_max) < sizeof (nvme_cqe_t))) 24783c9168faSHans Rosenfeld goto fail; 24793c9168faSHans Rosenfeld 24803c9168faSHans Rosenfeld /* 24813c9168faSHans Rosenfeld * Check for the presence of a Volatile Write Cache. If present, 2482998a9ab1SHans Rosenfeld * enable or disable based on the value of the property 2483998a9ab1SHans Rosenfeld * volatile-write-cache-enable (default is enabled). 24843c9168faSHans Rosenfeld */ 2485998a9ab1SHans Rosenfeld nvme->n_write_cache_present = 2486998a9ab1SHans Rosenfeld nvme->n_idctl->id_vwc.vwc_present == 0 ? B_FALSE : B_TRUE; 2487998a9ab1SHans Rosenfeld 2488998a9ab1SHans Rosenfeld (void) ddi_prop_update_int(DDI_DEV_T_NONE, nvme->n_dip, 2489998a9ab1SHans Rosenfeld "volatile-write-cache-present", 2490998a9ab1SHans Rosenfeld nvme->n_write_cache_present ? 1 : 0); 2491998a9ab1SHans Rosenfeld 2492998a9ab1SHans Rosenfeld if (!nvme->n_write_cache_present) { 2493998a9ab1SHans Rosenfeld nvme->n_write_cache_enabled = B_FALSE; 24945e3243f0SHans Rosenfeld } else if (nvme_write_cache_set(nvme, nvme->n_write_cache_enabled) 24955e3243f0SHans Rosenfeld != 0) { 2496998a9ab1SHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2497998a9ab1SHans Rosenfeld "!failed to %sable volatile write cache", 2498998a9ab1SHans Rosenfeld nvme->n_write_cache_enabled ? "en" : "dis"); 24993c9168faSHans Rosenfeld /* 2500998a9ab1SHans Rosenfeld * Assume the cache is (still) enabled. 25013c9168faSHans Rosenfeld */ 2502998a9ab1SHans Rosenfeld nvme->n_write_cache_enabled = B_TRUE; 25033c9168faSHans Rosenfeld } 25043c9168faSHans Rosenfeld 2505998a9ab1SHans Rosenfeld (void) ddi_prop_update_int(DDI_DEV_T_NONE, nvme->n_dip, 2506998a9ab1SHans Rosenfeld "volatile-write-cache-enable", 2507998a9ab1SHans Rosenfeld nvme->n_write_cache_enabled ? 1 : 0); 2508998a9ab1SHans Rosenfeld 25093c9168faSHans Rosenfeld /* 2510ecee5a1fSHans Rosenfeld * Assume LBA Range Type feature is supported. If it isn't this 2511ecee5a1fSHans Rosenfeld * will be set to B_FALSE by nvme_get_features(). 25123c9168faSHans Rosenfeld */ 2513ecee5a1fSHans Rosenfeld nvme->n_lba_range_supported = B_TRUE; 2514ecee5a1fSHans Rosenfeld 2515ecee5a1fSHans Rosenfeld /* 2516ecee5a1fSHans Rosenfeld * Check support for Autonomous Power State Transition. 2517ecee5a1fSHans Rosenfeld */ 2518ecee5a1fSHans Rosenfeld if (NVME_VERSION_ATLEAST(&nvme->n_version, 1, 1)) 2519ecee5a1fSHans Rosenfeld nvme->n_auto_pst_supported = 2520ecee5a1fSHans Rosenfeld nvme->n_idctl->id_apsta.ap_sup == 0 ? B_FALSE : B_TRUE; 25213c9168faSHans Rosenfeld 25223c9168faSHans Rosenfeld /* 25233c9168faSHans Rosenfeld * Identify Namespaces 25243c9168faSHans Rosenfeld */ 25253c9168faSHans Rosenfeld nvme->n_namespace_count = nvme->n_idctl->id_nn; 2526ecee5a1fSHans Rosenfeld if (nvme->n_namespace_count > NVME_MINOR_MAX) { 2527ecee5a1fSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2528ecee5a1fSHans Rosenfeld "!too many namespaces: %d, limiting to %d\n", 2529ecee5a1fSHans Rosenfeld nvme->n_namespace_count, NVME_MINOR_MAX); 2530ecee5a1fSHans Rosenfeld nvme->n_namespace_count = NVME_MINOR_MAX; 2531ecee5a1fSHans Rosenfeld } 2532ecee5a1fSHans Rosenfeld 25333c9168faSHans Rosenfeld nvme->n_ns = kmem_zalloc(sizeof (nvme_namespace_t) * 25343c9168faSHans Rosenfeld nvme->n_namespace_count, KM_SLEEP); 25353c9168faSHans Rosenfeld 25363c9168faSHans Rosenfeld for (i = 0; i != nvme->n_namespace_count; i++) { 2537ecee5a1fSHans Rosenfeld mutex_init(&nvme->n_ns[i].ns_minor.nm_mutex, NULL, MUTEX_DRIVER, 2538ecee5a1fSHans Rosenfeld NULL); 2539ecee5a1fSHans Rosenfeld if (nvme_init_ns(nvme, i + 1) != DDI_SUCCESS) 25403c9168faSHans Rosenfeld goto fail; 25413c9168faSHans Rosenfeld } 25423c9168faSHans Rosenfeld 25433c9168faSHans Rosenfeld /* 25443c9168faSHans Rosenfeld * Try to set up MSI/MSI-X interrupts. 25453c9168faSHans Rosenfeld */ 25463c9168faSHans Rosenfeld if ((nvme->n_intr_types & (DDI_INTR_TYPE_MSI | DDI_INTR_TYPE_MSIX)) 25473c9168faSHans Rosenfeld != 0) { 25483c9168faSHans Rosenfeld nvme_release_interrupts(nvme); 25493c9168faSHans Rosenfeld 25503c9168faSHans Rosenfeld nqueues = MIN(UINT16_MAX, ncpus); 25513c9168faSHans Rosenfeld 25523c9168faSHans Rosenfeld if ((nvme_setup_interrupts(nvme, DDI_INTR_TYPE_MSIX, 25533c9168faSHans Rosenfeld nqueues) != DDI_SUCCESS) && 25543c9168faSHans Rosenfeld (nvme_setup_interrupts(nvme, DDI_INTR_TYPE_MSI, 25553c9168faSHans Rosenfeld nqueues) != DDI_SUCCESS)) { 25563c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 25573c9168faSHans Rosenfeld "!failed to setup MSI/MSI-X interrupts"); 25583c9168faSHans Rosenfeld goto fail; 25593c9168faSHans Rosenfeld } 25603c9168faSHans Rosenfeld } 25613c9168faSHans Rosenfeld 25623c9168faSHans Rosenfeld nqueues = nvme->n_intr_cnt; 25633c9168faSHans Rosenfeld 25643c9168faSHans Rosenfeld /* 25653c9168faSHans Rosenfeld * Create I/O queue pairs. 25663c9168faSHans Rosenfeld */ 25675e3243f0SHans Rosenfeld 25685e3243f0SHans Rosenfeld if (nvme_set_nqueues(nvme, &nqueues) != 0) { 25693c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 25705e3243f0SHans Rosenfeld "!failed to set number of I/O queues to %d", 25715e3243f0SHans Rosenfeld nvme->n_intr_cnt); 25723c9168faSHans Rosenfeld goto fail; 25733c9168faSHans Rosenfeld } 25743c9168faSHans Rosenfeld 25753c9168faSHans Rosenfeld /* 25763c9168faSHans Rosenfeld * Reallocate I/O queue array 25773c9168faSHans Rosenfeld */ 25783c9168faSHans Rosenfeld kmem_free(nvme->n_ioq, sizeof (nvme_qpair_t *)); 25793c9168faSHans Rosenfeld nvme->n_ioq = kmem_zalloc(sizeof (nvme_qpair_t *) * 25805e3243f0SHans Rosenfeld (nqueues + 1), KM_SLEEP); 25813c9168faSHans Rosenfeld nvme->n_ioq[0] = nvme->n_adminq; 25823c9168faSHans Rosenfeld 25835e3243f0SHans Rosenfeld nvme->n_ioq_count = nqueues; 25845e3243f0SHans Rosenfeld 25853c9168faSHans Rosenfeld /* 25863c9168faSHans Rosenfeld * If we got less queues than we asked for we might as well give 25873c9168faSHans Rosenfeld * some of the interrupt vectors back to the system. 25883c9168faSHans Rosenfeld */ 25895e3243f0SHans Rosenfeld if (nvme->n_ioq_count < nvme->n_intr_cnt) { 25903c9168faSHans Rosenfeld nvme_release_interrupts(nvme); 25913c9168faSHans Rosenfeld 2592f5b7c30aSPete Shephard if (nvme_setup_interrupts(nvme, nvme->n_intr_type, 2593f5b7c30aSPete Shephard nvme->n_ioq_count) != DDI_SUCCESS) { 25943c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 25953c9168faSHans Rosenfeld "!failed to reduce number of interrupts"); 25963c9168faSHans Rosenfeld goto fail; 25973c9168faSHans Rosenfeld } 25983c9168faSHans Rosenfeld } 25993c9168faSHans Rosenfeld 26003c9168faSHans Rosenfeld /* 26013c9168faSHans Rosenfeld * Alloc & register I/O queue pairs 26023c9168faSHans Rosenfeld */ 26033c9168faSHans Rosenfeld nvme->n_io_queue_len = 26043c9168faSHans Rosenfeld MIN(nvme->n_io_queue_len, nvme->n_max_queue_entries); 26053c9168faSHans Rosenfeld (void) ddi_prop_update_int(DDI_DEV_T_NONE, nvme->n_dip, "io-queue-len", 26063c9168faSHans Rosenfeld nvme->n_io_queue_len); 26073c9168faSHans Rosenfeld 26083c9168faSHans Rosenfeld for (i = 1; i != nvme->n_ioq_count + 1; i++) { 26093c9168faSHans Rosenfeld if (nvme_alloc_qpair(nvme, nvme->n_io_queue_len, 26103c9168faSHans Rosenfeld &nvme->n_ioq[i], i) != DDI_SUCCESS) { 26113c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 26123c9168faSHans Rosenfeld "!unable to allocate I/O qpair %d", i); 26133c9168faSHans Rosenfeld goto fail; 26143c9168faSHans Rosenfeld } 26153c9168faSHans Rosenfeld 26165e3243f0SHans Rosenfeld if (nvme_create_io_qpair(nvme, nvme->n_ioq[i], i) != 0) { 26173c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 26183c9168faSHans Rosenfeld "!unable to create I/O qpair %d", i); 26193c9168faSHans Rosenfeld goto fail; 26203c9168faSHans Rosenfeld } 26213c9168faSHans Rosenfeld } 26223c9168faSHans Rosenfeld 26233c9168faSHans Rosenfeld /* 26243c9168faSHans Rosenfeld * Post more asynchronous events commands to reduce event reporting 26253c9168faSHans Rosenfeld * latency as suggested by the spec. 26263c9168faSHans Rosenfeld */ 2627adec8d5dSHans Rosenfeld for (i = 1; i != nvme->n_async_event_limit; i++) 2628adec8d5dSHans Rosenfeld nvme_async_event(nvme); 26293c9168faSHans Rosenfeld 26303c9168faSHans Rosenfeld return (DDI_SUCCESS); 26313c9168faSHans Rosenfeld 26323c9168faSHans Rosenfeld fail: 26333c9168faSHans Rosenfeld (void) nvme_reset(nvme, B_FALSE); 26343c9168faSHans Rosenfeld return (DDI_FAILURE); 26353c9168faSHans Rosenfeld } 26363c9168faSHans Rosenfeld 26373c9168faSHans Rosenfeld static uint_t 26383c9168faSHans Rosenfeld nvme_intr(caddr_t arg1, caddr_t arg2) 26393c9168faSHans Rosenfeld { 26403c9168faSHans Rosenfeld /*LINTED: E_PTR_BAD_CAST_ALIGN*/ 26413c9168faSHans Rosenfeld nvme_t *nvme = (nvme_t *)arg1; 26423c9168faSHans Rosenfeld int inum = (int)(uintptr_t)arg2; 2643bc49f412SHans Rosenfeld int ccnt = 0; 26443c9168faSHans Rosenfeld int qnum; 26453c9168faSHans Rosenfeld nvme_cmd_t *cmd; 26463c9168faSHans Rosenfeld 26473c9168faSHans Rosenfeld if (inum >= nvme->n_intr_cnt) 26483c9168faSHans Rosenfeld return (DDI_INTR_UNCLAIMED); 26493c9168faSHans Rosenfeld 26505e3243f0SHans Rosenfeld if (nvme->n_dead) 26515e3243f0SHans Rosenfeld return (nvme->n_intr_type == DDI_INTR_TYPE_FIXED ? 26525e3243f0SHans Rosenfeld DDI_INTR_UNCLAIMED : DDI_INTR_CLAIMED); 26535e3243f0SHans Rosenfeld 26543c9168faSHans Rosenfeld /* 26553c9168faSHans Rosenfeld * The interrupt vector a queue uses is calculated as queue_idx % 26563c9168faSHans Rosenfeld * intr_cnt in nvme_create_io_qpair(). Iterate through the queue array 26573c9168faSHans Rosenfeld * in steps of n_intr_cnt to process all queues using this vector. 26583c9168faSHans Rosenfeld */ 26593c9168faSHans Rosenfeld for (qnum = inum; 26603c9168faSHans Rosenfeld qnum < nvme->n_ioq_count + 1 && nvme->n_ioq[qnum] != NULL; 26613c9168faSHans Rosenfeld qnum += nvme->n_intr_cnt) { 26623c9168faSHans Rosenfeld while ((cmd = nvme_retrieve_cmd(nvme, nvme->n_ioq[qnum]))) { 26633c9168faSHans Rosenfeld taskq_dispatch_ent((taskq_t *)cmd->nc_nvme->n_cmd_taskq, 26643c9168faSHans Rosenfeld cmd->nc_callback, cmd, TQ_NOSLEEP, &cmd->nc_tqent); 2665bc49f412SHans Rosenfeld ccnt++; 26663c9168faSHans Rosenfeld } 26673c9168faSHans Rosenfeld } 26683c9168faSHans Rosenfeld 2669bc49f412SHans Rosenfeld return (ccnt > 0 ? DDI_INTR_CLAIMED : DDI_INTR_UNCLAIMED); 26703c9168faSHans Rosenfeld } 26713c9168faSHans Rosenfeld 26723c9168faSHans Rosenfeld static void 26731b31b305SHans Rosenfeld nvme_release_interrupts(nvme_t *nvme) 26743c9168faSHans Rosenfeld { 26753c9168faSHans Rosenfeld int i; 26763c9168faSHans Rosenfeld 26773c9168faSHans Rosenfeld for (i = 0; i < nvme->n_intr_cnt; i++) { 26783c9168faSHans Rosenfeld if (nvme->n_inth[i] == NULL) 26793c9168faSHans Rosenfeld break; 26803c9168faSHans Rosenfeld 26813c9168faSHans Rosenfeld if (nvme->n_intr_cap & DDI_INTR_FLAG_BLOCK) 26823c9168faSHans Rosenfeld (void) ddi_intr_block_disable(&nvme->n_inth[i], 1); 26833c9168faSHans Rosenfeld else 26843c9168faSHans Rosenfeld (void) ddi_intr_disable(nvme->n_inth[i]); 26853c9168faSHans Rosenfeld 26863c9168faSHans Rosenfeld (void) ddi_intr_remove_handler(nvme->n_inth[i]); 26873c9168faSHans Rosenfeld (void) ddi_intr_free(nvme->n_inth[i]); 26883c9168faSHans Rosenfeld } 26893c9168faSHans Rosenfeld 26903c9168faSHans Rosenfeld kmem_free(nvme->n_inth, nvme->n_inth_sz); 26913c9168faSHans Rosenfeld nvme->n_inth = NULL; 26923c9168faSHans Rosenfeld nvme->n_inth_sz = 0; 26933c9168faSHans Rosenfeld 26943c9168faSHans Rosenfeld nvme->n_progress &= ~NVME_INTERRUPTS; 26953c9168faSHans Rosenfeld } 26963c9168faSHans Rosenfeld 26973c9168faSHans Rosenfeld static int 26983c9168faSHans Rosenfeld nvme_setup_interrupts(nvme_t *nvme, int intr_type, int nqpairs) 26993c9168faSHans Rosenfeld { 27003c9168faSHans Rosenfeld int nintrs, navail, count; 27013c9168faSHans Rosenfeld int ret; 27023c9168faSHans Rosenfeld int i; 27033c9168faSHans Rosenfeld 27043c9168faSHans Rosenfeld if (nvme->n_intr_types == 0) { 27053c9168faSHans Rosenfeld ret = ddi_intr_get_supported_types(nvme->n_dip, 27063c9168faSHans Rosenfeld &nvme->n_intr_types); 27073c9168faSHans Rosenfeld if (ret != DDI_SUCCESS) { 27083c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 27093c9168faSHans Rosenfeld "!%s: ddi_intr_get_supported types failed", 27103c9168faSHans Rosenfeld __func__); 27113c9168faSHans Rosenfeld return (ret); 27123c9168faSHans Rosenfeld } 2713f33fa084SHans Rosenfeld #ifdef __x86 2714f33fa084SHans Rosenfeld if (get_hwenv() == HW_VMWARE) 2715f33fa084SHans Rosenfeld nvme->n_intr_types &= ~DDI_INTR_TYPE_MSIX; 2716f33fa084SHans Rosenfeld #endif 27173c9168faSHans Rosenfeld } 27183c9168faSHans Rosenfeld 27193c9168faSHans Rosenfeld if ((nvme->n_intr_types & intr_type) == 0) 27203c9168faSHans Rosenfeld return (DDI_FAILURE); 27213c9168faSHans Rosenfeld 27223c9168faSHans Rosenfeld ret = ddi_intr_get_nintrs(nvme->n_dip, intr_type, &nintrs); 27233c9168faSHans Rosenfeld if (ret != DDI_SUCCESS) { 27243c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!%s: ddi_intr_get_nintrs failed", 27253c9168faSHans Rosenfeld __func__); 27263c9168faSHans Rosenfeld return (ret); 27273c9168faSHans Rosenfeld } 27283c9168faSHans Rosenfeld 27293c9168faSHans Rosenfeld ret = ddi_intr_get_navail(nvme->n_dip, intr_type, &navail); 27303c9168faSHans Rosenfeld if (ret != DDI_SUCCESS) { 27313c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!%s: ddi_intr_get_navail failed", 27323c9168faSHans Rosenfeld __func__); 27333c9168faSHans Rosenfeld return (ret); 27343c9168faSHans Rosenfeld } 27353c9168faSHans Rosenfeld 27363c9168faSHans Rosenfeld /* We want at most one interrupt per queue pair. */ 27373c9168faSHans Rosenfeld if (navail > nqpairs) 27383c9168faSHans Rosenfeld navail = nqpairs; 27393c9168faSHans Rosenfeld 27403c9168faSHans Rosenfeld nvme->n_inth_sz = sizeof (ddi_intr_handle_t) * navail; 27413c9168faSHans Rosenfeld nvme->n_inth = kmem_zalloc(nvme->n_inth_sz, KM_SLEEP); 27423c9168faSHans Rosenfeld 27433c9168faSHans Rosenfeld ret = ddi_intr_alloc(nvme->n_dip, nvme->n_inth, intr_type, 0, navail, 27443c9168faSHans Rosenfeld &count, 0); 27453c9168faSHans Rosenfeld if (ret != DDI_SUCCESS) { 27463c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!%s: ddi_intr_alloc failed", 27473c9168faSHans Rosenfeld __func__); 27483c9168faSHans Rosenfeld goto fail; 27493c9168faSHans Rosenfeld } 27503c9168faSHans Rosenfeld 27513c9168faSHans Rosenfeld nvme->n_intr_cnt = count; 27523c9168faSHans Rosenfeld 27533c9168faSHans Rosenfeld ret = ddi_intr_get_pri(nvme->n_inth[0], &nvme->n_intr_pri); 27543c9168faSHans Rosenfeld if (ret != DDI_SUCCESS) { 27553c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, "!%s: ddi_intr_get_pri failed", 27563c9168faSHans Rosenfeld __func__); 27573c9168faSHans Rosenfeld goto fail; 27583c9168faSHans Rosenfeld } 27593c9168faSHans Rosenfeld 27603c9168faSHans Rosenfeld for (i = 0; i < count; i++) { 27613c9168faSHans Rosenfeld ret = ddi_intr_add_handler(nvme->n_inth[i], nvme_intr, 27623c9168faSHans Rosenfeld (void *)nvme, (void *)(uintptr_t)i); 27633c9168faSHans Rosenfeld if (ret != DDI_SUCCESS) { 27643c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 27653c9168faSHans Rosenfeld "!%s: ddi_intr_add_handler failed", __func__); 27663c9168faSHans Rosenfeld goto fail; 27673c9168faSHans Rosenfeld } 27683c9168faSHans Rosenfeld } 27693c9168faSHans Rosenfeld 27703c9168faSHans Rosenfeld (void) ddi_intr_get_cap(nvme->n_inth[0], &nvme->n_intr_cap); 27713c9168faSHans Rosenfeld 27721b31b305SHans Rosenfeld for (i = 0; i < count; i++) { 2773f2bfd4e7SHans Rosenfeld if (nvme->n_intr_cap & DDI_INTR_FLAG_BLOCK) 2774f2bfd4e7SHans Rosenfeld ret = ddi_intr_block_enable(&nvme->n_inth[i], 1); 2775f2bfd4e7SHans Rosenfeld else 2776f2bfd4e7SHans Rosenfeld ret = ddi_intr_enable(nvme->n_inth[i]); 27773c9168faSHans Rosenfeld 2778f2bfd4e7SHans Rosenfeld if (ret != DDI_SUCCESS) { 27793c9168faSHans Rosenfeld dev_err(nvme->n_dip, CE_WARN, 2780f2bfd4e7SHans Rosenfeld "!%s: enabling interrupt %d failed", __func__, i); 27813c9168faSHans Rosenfeld goto fail; 27823c9168faSHans Rosenfeld } 2783f2bfd4e7SHans Rosenfeld } 27843c9168faSHans Rosenfeld 27853c9168faSHans Rosenfeld nvme->n_intr_type = intr_type; 27863c9168faSHans Rosenfeld 27873c9168faSHans Rosenfeld nvme->n_progress |= NVME_INTERRUPTS; 27883c9168faSHans Rosenfeld 27893c9168faSHans Rosenfeld return (DDI_SUCCESS); 27903c9168faSHans Rosenfeld 27913c9168faSHans Rosenfeld fail: 27923c9168faSHans Rosenfeld nvme_release_interrupts(nvme); 27933c9168faSHans Rosenfeld 27943c9168faSHans Rosenfeld return (ret); 27953c9168faSHans Rosenfeld } 27963c9168faSHans Rosenfeld 27973c9168faSHans Rosenfeld static int 27983c9168faSHans Rosenfeld nvme_fm_errcb(dev_info_t *dip, ddi_fm_error_t *fm_error, const void *arg) 27993c9168faSHans Rosenfeld { 28003c9168faSHans Rosenfeld _NOTE(ARGUNUSED(arg)); 28013c9168faSHans Rosenfeld 28023c9168faSHans Rosenfeld pci_ereport_post(dip, fm_error, NULL); 28033c9168faSHans Rosenfeld return (fm_error->fme_status); 28043c9168faSHans Rosenfeld } 28053c9168faSHans Rosenfeld 28063c9168faSHans Rosenfeld static int 28073c9168faSHans Rosenfeld nvme_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) 28083c9168faSHans Rosenfeld { 28093c9168faSHans Rosenfeld nvme_t *nvme; 28103c9168faSHans Rosenfeld int instance; 28113c9168faSHans Rosenfeld int nregs; 28123c9168faSHans Rosenfeld off_t regsize; 28133c9168faSHans Rosenfeld int i; 28143c9168faSHans Rosenfeld char name[32]; 28153c9168faSHans Rosenfeld 28163c9168faSHans Rosenfeld if (cmd != DDI_ATTACH) 28173c9168faSHans Rosenfeld return (DDI_FAILURE); 28183c9168faSHans Rosenfeld 28193c9168faSHans Rosenfeld instance = ddi_get_instance(dip); 28203c9168faSHans Rosenfeld 28213c9168faSHans Rosenfeld if (ddi_soft_state_zalloc(nvme_state, instance) != DDI_SUCCESS) 28223c9168faSHans Rosenfeld return (DDI_FAILURE); 28233c9168faSHans Rosenfeld 28243c9168faSHans Rosenfeld nvme = ddi_get_soft_state(nvme_state, instance); 28253c9168faSHans Rosenfeld ddi_set_driver_private(dip, nvme); 28263c9168faSHans Rosenfeld nvme->n_dip = dip; 28273c9168faSHans Rosenfeld 2828ecee5a1fSHans Rosenfeld mutex_init(&nvme->n_minor.nm_mutex, NULL, MUTEX_DRIVER, NULL); 2829ecee5a1fSHans Rosenfeld 28303c9168faSHans Rosenfeld nvme->n_strict_version = ddi_prop_get_int(DDI_DEV_T_ANY, dip, 28313c9168faSHans Rosenfeld DDI_PROP_DONTPASS, "strict-version", 1) == 1 ? B_TRUE : B_FALSE; 28323c9168faSHans Rosenfeld nvme->n_ignore_unknown_vendor_status = ddi_prop_get_int(DDI_DEV_T_ANY, 28333c9168faSHans Rosenfeld dip, DDI_PROP_DONTPASS, "ignore-unknown-vendor-status", 0) == 1 ? 28343c9168faSHans Rosenfeld B_TRUE : B_FALSE; 28353c9168faSHans Rosenfeld nvme->n_admin_queue_len = ddi_prop_get_int(DDI_DEV_T_ANY, dip, 28363c9168faSHans Rosenfeld DDI_PROP_DONTPASS, "admin-queue-len", NVME_DEFAULT_ADMIN_QUEUE_LEN); 28373c9168faSHans Rosenfeld nvme->n_io_queue_len = ddi_prop_get_int(DDI_DEV_T_ANY, dip, 28383c9168faSHans Rosenfeld DDI_PROP_DONTPASS, "io-queue-len", NVME_DEFAULT_IO_QUEUE_LEN); 28393c9168faSHans Rosenfeld nvme->n_async_event_limit = ddi_prop_get_int(DDI_DEV_T_ANY, dip, 28403c9168faSHans Rosenfeld DDI_PROP_DONTPASS, "async-event-limit", 28413c9168faSHans Rosenfeld NVME_DEFAULT_ASYNC_EVENT_LIMIT); 2842998a9ab1SHans Rosenfeld nvme->n_write_cache_enabled = ddi_prop_get_int(DDI_DEV_T_ANY, dip, 2843998a9ab1SHans Rosenfeld DDI_PROP_DONTPASS, "volatile-write-cache-enable", 1) != 0 ? 2844998a9ab1SHans Rosenfeld B_TRUE : B_FALSE; 2845be0a819dSHans Rosenfeld nvme->n_min_block_size = ddi_prop_get_int(DDI_DEV_T_ANY, dip, 2846be0a819dSHans Rosenfeld DDI_PROP_DONTPASS, "min-phys-block-size", 2847be0a819dSHans Rosenfeld NVME_DEFAULT_MIN_BLOCK_SIZE); 2848be0a819dSHans Rosenfeld 2849be0a819dSHans Rosenfeld if (!ISP2(nvme->n_min_block_size) || 2850be0a819dSHans Rosenfeld (nvme->n_min_block_size < NVME_DEFAULT_MIN_BLOCK_SIZE)) { 2851be0a819dSHans Rosenfeld dev_err(dip, CE_WARN, "!min-phys-block-size %s, " 2852be0a819dSHans Rosenfeld "using default %d", ISP2(nvme->n_min_block_size) ? 2853be0a819dSHans Rosenfeld "too low" : "not a power of 2", 2854be0a819dSHans Rosenfeld NVME_DEFAULT_MIN_BLOCK_SIZE); 2855be0a819dSHans Rosenfeld nvme->n_min_block_size = NVME_DEFAULT_MIN_BLOCK_SIZE; 2856be0a819dSHans Rosenfeld } 28573c9168faSHans Rosenfeld 28583c9168faSHans Rosenfeld if (nvme->n_admin_queue_len < NVME_MIN_ADMIN_QUEUE_LEN) 28593c9168faSHans Rosenfeld nvme->n_admin_queue_len = NVME_MIN_ADMIN_QUEUE_LEN; 28603c9168faSHans Rosenfeld else if (nvme->n_admin_queue_len > NVME_MAX_ADMIN_QUEUE_LEN) 28613c9168faSHans Rosenfeld nvme->n_admin_queue_len = NVME_MAX_ADMIN_QUEUE_LEN; 28623c9168faSHans Rosenfeld 28633c9168faSHans Rosenfeld if (nvme->n_io_queue_len < NVME_MIN_IO_QUEUE_LEN) 28643c9168faSHans Rosenfeld nvme->n_io_queue_len = NVME_MIN_IO_QUEUE_LEN; 28653c9168faSHans Rosenfeld 28663c9168faSHans Rosenfeld if (nvme->n_async_event_limit < 1) 28673c9168faSHans Rosenfeld nvme->n_async_event_limit = NVME_DEFAULT_ASYNC_EVENT_LIMIT; 28683c9168faSHans Rosenfeld 28693c9168faSHans Rosenfeld nvme->n_reg_acc_attr = nvme_reg_acc_attr; 28703c9168faSHans Rosenfeld nvme->n_queue_dma_attr = nvme_queue_dma_attr; 28713c9168faSHans Rosenfeld nvme->n_prp_dma_attr = nvme_prp_dma_attr; 28723c9168faSHans Rosenfeld nvme->n_sgl_dma_attr = nvme_sgl_dma_attr; 28733c9168faSHans Rosenfeld 28743c9168faSHans Rosenfeld /* 28753c9168faSHans Rosenfeld * Setup FMA support. 28763c9168faSHans Rosenfeld */ 28773c9168faSHans Rosenfeld nvme->n_fm_cap = ddi_getprop(DDI_DEV_T_ANY, dip, 28783c9168faSHans Rosenfeld DDI_PROP_CANSLEEP | DDI_PROP_DONTPASS, "fm-capable", 28793c9168faSHans Rosenfeld DDI_FM_EREPORT_CAPABLE | DDI_FM_ACCCHK_CAPABLE | 28803c9168faSHans Rosenfeld DDI_FM_DMACHK_CAPABLE | DDI_FM_ERRCB_CAPABLE); 28813c9168faSHans Rosenfeld 28823c9168faSHans Rosenfeld ddi_fm_init(dip, &nvme->n_fm_cap, &nvme->n_fm_ibc); 28833c9168faSHans Rosenfeld 28843c9168faSHans Rosenfeld if (nvme->n_fm_cap) { 28853c9168faSHans Rosenfeld if (nvme->n_fm_cap & DDI_FM_ACCCHK_CAPABLE) 28863c9168faSHans Rosenfeld nvme->n_reg_acc_attr.devacc_attr_access = 28873c9168faSHans Rosenfeld DDI_FLAGERR_ACC; 28883c9168faSHans Rosenfeld 28893c9168faSHans Rosenfeld if (nvme->n_fm_cap & DDI_FM_DMACHK_CAPABLE) { 28903c9168faSHans Rosenfeld nvme->n_prp_dma_attr.dma_attr_flags |= DDI_DMA_FLAGERR; 28913c9168faSHans Rosenfeld nvme->n_sgl_dma_attr.dma_attr_flags |= DDI_DMA_FLAGERR; 28923c9168faSHans Rosenfeld } 28933c9168faSHans Rosenfeld 28943c9168faSHans Rosenfeld if (DDI_FM_EREPORT_CAP(nvme->n_fm_cap) || 28953c9168faSHans Rosenfeld DDI_FM_ERRCB_CAP(nvme->n_fm_cap)) 28963c9168faSHans Rosenfeld pci_ereport_setup(dip); 28973c9168faSHans Rosenfeld 28983c9168faSHans Rosenfeld if (DDI_FM_ERRCB_CAP(nvme->n_fm_cap)) 28993c9168faSHans Rosenfeld ddi_fm_handler_register(dip, nvme_fm_errcb, 29003c9168faSHans Rosenfeld (void *)nvme); 29013c9168faSHans Rosenfeld } 29023c9168faSHans Rosenfeld 29033c9168faSHans Rosenfeld nvme->n_progress |= NVME_FMA_INIT; 29043c9168faSHans Rosenfeld 29053c9168faSHans Rosenfeld /* 29063c9168faSHans Rosenfeld * The spec defines several register sets. Only the controller 29073c9168faSHans Rosenfeld * registers (set 1) are currently used. 29083c9168faSHans Rosenfeld */ 29093c9168faSHans Rosenfeld if (ddi_dev_nregs(dip, &nregs) == DDI_FAILURE || 29103c9168faSHans Rosenfeld nregs < 2 || 29113c9168faSHans Rosenfeld ddi_dev_regsize(dip, 1, ®size) == DDI_FAILURE) 29123c9168faSHans Rosenfeld goto fail; 29133c9168faSHans Rosenfeld 29143c9168faSHans Rosenfeld if (ddi_regs_map_setup(dip, 1, &nvme->n_regs, 0, regsize, 29153c9168faSHans Rosenfeld &nvme->n_reg_acc_attr, &nvme->n_regh) != DDI_SUCCESS) { 29163c9168faSHans Rosenfeld dev_err(dip, CE_WARN, "!failed to map regset 1"); 29173c9168faSHans Rosenfeld goto fail; 29183c9168faSHans Rosenfeld } 29193c9168faSHans Rosenfeld 29203c9168faSHans Rosenfeld nvme->n_progress |= NVME_REGS_MAPPED; 29213c9168faSHans Rosenfeld 29223c9168faSHans Rosenfeld /* 29233c9168faSHans Rosenfeld * Create taskq for command completion. 29243c9168faSHans Rosenfeld */ 29253c9168faSHans Rosenfeld (void) snprintf(name, sizeof (name), "%s%d_cmd_taskq", 29263c9168faSHans Rosenfeld ddi_driver_name(dip), ddi_get_instance(dip)); 29273c9168faSHans Rosenfeld nvme->n_cmd_taskq = ddi_taskq_create(dip, name, MIN(UINT16_MAX, ncpus), 29283c9168faSHans Rosenfeld TASKQ_DEFAULTPRI, 0); 29293c9168faSHans Rosenfeld if (nvme->n_cmd_taskq == NULL) { 29303c9168faSHans Rosenfeld dev_err(dip, CE_WARN, "!failed to create cmd taskq"); 29313c9168faSHans Rosenfeld goto fail; 29323c9168faSHans Rosenfeld } 29333c9168faSHans Rosenfeld 2934582eef8cSYouzhong Yang /* 2935582eef8cSYouzhong Yang * Create PRP DMA cache 2936582eef8cSYouzhong Yang */ 2937582eef8cSYouzhong Yang (void) snprintf(name, sizeof (name), "%s%d_prp_cache", 2938582eef8cSYouzhong Yang ddi_driver_name(dip), ddi_get_instance(dip)); 2939582eef8cSYouzhong Yang nvme->n_prp_cache = kmem_cache_create(name, sizeof (nvme_dma_t), 2940582eef8cSYouzhong Yang 0, nvme_prp_dma_constructor, nvme_prp_dma_destructor, 2941582eef8cSYouzhong Yang NULL, (void *)nvme, NULL, 0); 29423c9168faSHans Rosenfeld 29433c9168faSHans Rosenfeld if (nvme_init(nvme) != DDI_SUCCESS) 29443c9168faSHans Rosenfeld goto fail; 29453c9168faSHans Rosenfeld 29463c9168faSHans Rosenfeld /* 29473c9168faSHans Rosenfeld * Attach the blkdev driver for each namespace. 29483c9168faSHans Rosenfeld */ 29493c9168faSHans Rosenfeld for (i = 0; i != nvme->n_namespace_count; i++) { 2950ecee5a1fSHans Rosenfeld if (ddi_create_minor_node(nvme->n_dip, nvme->n_ns[i].ns_name, 2951ecee5a1fSHans Rosenfeld S_IFCHR, NVME_MINOR(ddi_get_instance(nvme->n_dip), i + 1), 2952ecee5a1fSHans Rosenfeld DDI_NT_NVME_ATTACHMENT_POINT, 0) != DDI_SUCCESS) { 2953ecee5a1fSHans Rosenfeld dev_err(dip, CE_WARN, 2954ecee5a1fSHans Rosenfeld "!failed to create minor node for namespace %d", i); 2955ecee5a1fSHans Rosenfeld goto fail; 2956ecee5a1fSHans Rosenfeld } 2957ecee5a1fSHans Rosenfeld 29583c9168faSHans Rosenfeld if (nvme->n_ns[i].ns_ignore) 29593c9168faSHans Rosenfeld continue; 29603c9168faSHans Rosenfeld 29613c9168faSHans Rosenfeld nvme->n_ns[i].ns_bd_hdl = bd_alloc_handle(&nvme->n_ns[i], 29623c9168faSHans Rosenfeld &nvme_bd_ops, &nvme->n_prp_dma_attr, KM_SLEEP); 29633c9168faSHans Rosenfeld 29643c9168faSHans Rosenfeld if (nvme->n_ns[i].ns_bd_hdl == NULL) { 29653c9168faSHans Rosenfeld dev_err(dip, CE_WARN, 29663c9168faSHans Rosenfeld "!failed to get blkdev handle for namespace %d", i); 29673c9168faSHans Rosenfeld goto fail; 29683c9168faSHans Rosenfeld } 29693c9168faSHans Rosenfeld 29703c9168faSHans Rosenfeld if (bd_attach_handle(dip, nvme->n_ns[i].ns_bd_hdl) 29713c9168faSHans Rosenfeld != DDI_SUCCESS) { 29723c9168faSHans Rosenfeld dev_err(dip, CE_WARN, 29733c9168faSHans Rosenfeld "!failed to attach blkdev handle for namespace %d", 29743c9168faSHans Rosenfeld i); 29753c9168faSHans Rosenfeld goto fail; 29763c9168faSHans Rosenfeld } 29773c9168faSHans Rosenfeld } 29783c9168faSHans Rosenfeld 2979ecee5a1fSHans Rosenfeld if (ddi_create_minor_node(dip, "devctl", S_IFCHR, 2980ecee5a1fSHans Rosenfeld NVME_MINOR(ddi_get_instance(dip), 0), DDI_NT_NVME_NEXUS, 0) 2981ecee5a1fSHans Rosenfeld != DDI_SUCCESS) { 2982ecee5a1fSHans Rosenfeld dev_err(dip, CE_WARN, "nvme_attach: " 2983ecee5a1fSHans Rosenfeld "cannot create devctl minor node"); 2984ecee5a1fSHans Rosenfeld goto fail; 2985ecee5a1fSHans Rosenfeld } 2986ecee5a1fSHans Rosenfeld 29873c9168faSHans Rosenfeld return (DDI_SUCCESS); 29883c9168faSHans Rosenfeld 29893c9168faSHans Rosenfeld fail: 29903c9168faSHans Rosenfeld /* attach successful anyway so that FMA can retire the device */ 29913c9168faSHans Rosenfeld if (nvme->n_dead) 29923c9168faSHans Rosenfeld return (DDI_SUCCESS); 29933c9168faSHans Rosenfeld 29943c9168faSHans Rosenfeld (void) nvme_detach(dip, DDI_DETACH); 29953c9168faSHans Rosenfeld 29963c9168faSHans Rosenfeld return (DDI_FAILURE); 29973c9168faSHans Rosenfeld } 29983c9168faSHans Rosenfeld 29993c9168faSHans Rosenfeld static int 30003c9168faSHans Rosenfeld nvme_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) 30013c9168faSHans Rosenfeld { 30023c9168faSHans Rosenfeld int instance, i; 30033c9168faSHans Rosenfeld nvme_t *nvme; 30043c9168faSHans Rosenfeld 30053c9168faSHans Rosenfeld if (cmd != DDI_DETACH) 30063c9168faSHans Rosenfeld return (DDI_FAILURE); 30073c9168faSHans Rosenfeld 30083c9168faSHans Rosenfeld instance = ddi_get_instance(dip); 30093c9168faSHans Rosenfeld 30103c9168faSHans Rosenfeld nvme = ddi_get_soft_state(nvme_state, instance); 30113c9168faSHans Rosenfeld 30123c9168faSHans Rosenfeld if (nvme == NULL) 30133c9168faSHans Rosenfeld return (DDI_FAILURE); 30143c9168faSHans Rosenfeld 3015ecee5a1fSHans Rosenfeld ddi_remove_minor_node(dip, "devctl"); 3016ecee5a1fSHans Rosenfeld mutex_destroy(&nvme->n_minor.nm_mutex); 3017ecee5a1fSHans Rosenfeld 30183c9168faSHans Rosenfeld if (nvme->n_ns) { 30193c9168faSHans Rosenfeld for (i = 0; i != nvme->n_namespace_count; i++) { 3020ecee5a1fSHans Rosenfeld ddi_remove_minor_node(dip, nvme->n_ns[i].ns_name); 3021ecee5a1fSHans Rosenfeld mutex_destroy(&nvme->n_ns[i].ns_minor.nm_mutex); 3022ecee5a1fSHans Rosenfeld 30233c9168faSHans Rosenfeld if (nvme->n_ns[i].ns_bd_hdl) { 30243c9168faSHans Rosenfeld (void) bd_detach_handle( 30253c9168faSHans Rosenfeld nvme->n_ns[i].ns_bd_hdl); 30263c9168faSHans Rosenfeld bd_free_handle(nvme->n_ns[i].ns_bd_hdl); 30273c9168faSHans Rosenfeld } 30283c9168faSHans Rosenfeld 30293c9168faSHans Rosenfeld if (nvme->n_ns[i].ns_idns) 30303c9168faSHans Rosenfeld kmem_free(nvme->n_ns[i].ns_idns, 30313c9168faSHans Rosenfeld sizeof (nvme_identify_nsid_t)); 3032b6fef107SHans Rosenfeld if (nvme->n_ns[i].ns_devid) 3033b6fef107SHans Rosenfeld strfree(nvme->n_ns[i].ns_devid); 30343c9168faSHans Rosenfeld } 30353c9168faSHans Rosenfeld 30363c9168faSHans Rosenfeld kmem_free(nvme->n_ns, sizeof (nvme_namespace_t) * 30373c9168faSHans Rosenfeld nvme->n_namespace_count); 30383c9168faSHans Rosenfeld } 30393c9168faSHans Rosenfeld 30403c9168faSHans Rosenfeld if (nvme->n_progress & NVME_INTERRUPTS) 30413c9168faSHans Rosenfeld nvme_release_interrupts(nvme); 30423c9168faSHans Rosenfeld 30433c9168faSHans Rosenfeld if (nvme->n_cmd_taskq) 30443c9168faSHans Rosenfeld ddi_taskq_wait(nvme->n_cmd_taskq); 30453c9168faSHans Rosenfeld 30463c9168faSHans Rosenfeld if (nvme->n_ioq_count > 0) { 30473c9168faSHans Rosenfeld for (i = 1; i != nvme->n_ioq_count + 1; i++) { 30483c9168faSHans Rosenfeld if (nvme->n_ioq[i] != NULL) { 30493c9168faSHans Rosenfeld /* TODO: send destroy queue commands */ 30503c9168faSHans Rosenfeld nvme_free_qpair(nvme->n_ioq[i]); 30513c9168faSHans Rosenfeld } 30523c9168faSHans Rosenfeld } 30533c9168faSHans Rosenfeld 30543c9168faSHans Rosenfeld kmem_free(nvme->n_ioq, sizeof (nvme_qpair_t *) * 30553c9168faSHans Rosenfeld (nvme->n_ioq_count + 1)); 30563c9168faSHans Rosenfeld } 30573c9168faSHans Rosenfeld 3058582eef8cSYouzhong Yang if (nvme->n_prp_cache != NULL) { 3059582eef8cSYouzhong Yang kmem_cache_destroy(nvme->n_prp_cache); 3060582eef8cSYouzhong Yang } 3061582eef8cSYouzhong Yang 30623c9168faSHans Rosenfeld if (nvme->n_progress & NVME_REGS_MAPPED) { 30633c9168faSHans Rosenfeld nvme_shutdown(nvme, NVME_CC_SHN_NORMAL, B_FALSE); 30643c9168faSHans Rosenfeld (void) nvme_reset(nvme, B_FALSE); 30653c9168faSHans Rosenfeld } 30663c9168faSHans Rosenfeld 30673c9168faSHans Rosenfeld if (nvme->n_cmd_taskq) 30683c9168faSHans Rosenfeld ddi_taskq_destroy(nvme->n_cmd_taskq); 30693c9168faSHans Rosenfeld 30703c9168faSHans Rosenfeld if (nvme->n_progress & NVME_CTRL_LIMITS) 30713c9168faSHans Rosenfeld sema_destroy(&nvme->n_abort_sema); 30723c9168faSHans Rosenfeld 30733c9168faSHans Rosenfeld if (nvme->n_progress & NVME_ADMIN_QUEUE) 30743c9168faSHans Rosenfeld nvme_free_qpair(nvme->n_adminq); 30753c9168faSHans Rosenfeld 30763c9168faSHans Rosenfeld if (nvme->n_idctl) 3077ecee5a1fSHans Rosenfeld kmem_free(nvme->n_idctl, NVME_IDENTIFY_BUFSIZE); 30783c9168faSHans Rosenfeld 30793c9168faSHans Rosenfeld if (nvme->n_progress & NVME_REGS_MAPPED) 30803c9168faSHans Rosenfeld ddi_regs_map_free(&nvme->n_regh); 30813c9168faSHans Rosenfeld 30823c9168faSHans Rosenfeld if (nvme->n_progress & NVME_FMA_INIT) { 30833c9168faSHans Rosenfeld if (DDI_FM_ERRCB_CAP(nvme->n_fm_cap)) 30843c9168faSHans Rosenfeld ddi_fm_handler_unregister(nvme->n_dip); 30853c9168faSHans Rosenfeld 30863c9168faSHans Rosenfeld if (DDI_FM_EREPORT_CAP(nvme->n_fm_cap) || 30873c9168faSHans Rosenfeld DDI_FM_ERRCB_CAP(nvme->n_fm_cap)) 30883c9168faSHans Rosenfeld pci_ereport_teardown(nvme->n_dip); 30893c9168faSHans Rosenfeld 30903c9168faSHans Rosenfeld ddi_fm_fini(nvme->n_dip); 30913c9168faSHans Rosenfeld } 30923c9168faSHans Rosenfeld 3093510a6847SHans Rosenfeld if (nvme->n_vendor != NULL) 3094510a6847SHans Rosenfeld strfree(nvme->n_vendor); 3095510a6847SHans Rosenfeld 3096510a6847SHans Rosenfeld if (nvme->n_product != NULL) 3097510a6847SHans Rosenfeld strfree(nvme->n_product); 3098510a6847SHans Rosenfeld 30993c9168faSHans Rosenfeld ddi_soft_state_free(nvme_state, instance); 31003c9168faSHans Rosenfeld 31013c9168faSHans Rosenfeld return (DDI_SUCCESS); 31023c9168faSHans Rosenfeld } 31033c9168faSHans Rosenfeld 31043c9168faSHans Rosenfeld static int 31053c9168faSHans Rosenfeld nvme_quiesce(dev_info_t *dip) 31063c9168faSHans Rosenfeld { 31073c9168faSHans Rosenfeld int instance; 31083c9168faSHans Rosenfeld nvme_t *nvme; 31093c9168faSHans Rosenfeld 31103c9168faSHans Rosenfeld instance = ddi_get_instance(dip); 31113c9168faSHans Rosenfeld 31123c9168faSHans Rosenfeld nvme = ddi_get_soft_state(nvme_state, instance); 31133c9168faSHans Rosenfeld 31143c9168faSHans Rosenfeld if (nvme == NULL) 31153c9168faSHans Rosenfeld return (DDI_FAILURE); 31163c9168faSHans Rosenfeld 31173c9168faSHans Rosenfeld nvme_shutdown(nvme, NVME_CC_SHN_ABRUPT, B_TRUE); 31183c9168faSHans Rosenfeld 31193c9168faSHans Rosenfeld (void) nvme_reset(nvme, B_TRUE); 31203c9168faSHans Rosenfeld 31213c9168faSHans Rosenfeld return (DDI_FAILURE); 31223c9168faSHans Rosenfeld } 31233c9168faSHans Rosenfeld 31243c9168faSHans Rosenfeld static int 31253c9168faSHans Rosenfeld nvme_fill_prp(nvme_cmd_t *cmd, bd_xfer_t *xfer) 31263c9168faSHans Rosenfeld { 31273c9168faSHans Rosenfeld nvme_t *nvme = cmd->nc_nvme; 31283c9168faSHans Rosenfeld int nprp_page, nprp; 31293c9168faSHans Rosenfeld uint64_t *prp; 31303c9168faSHans Rosenfeld 31313c9168faSHans Rosenfeld if (xfer->x_ndmac == 0) 31323c9168faSHans Rosenfeld return (DDI_FAILURE); 31333c9168faSHans Rosenfeld 31343c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[0] = xfer->x_dmac.dmac_laddress; 31353c9168faSHans Rosenfeld ddi_dma_nextcookie(xfer->x_dmah, &xfer->x_dmac); 31363c9168faSHans Rosenfeld 31373c9168faSHans Rosenfeld if (xfer->x_ndmac == 1) { 31383c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[1] = 0; 31393c9168faSHans Rosenfeld return (DDI_SUCCESS); 31403c9168faSHans Rosenfeld } else if (xfer->x_ndmac == 2) { 31413c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[1] = xfer->x_dmac.dmac_laddress; 31423c9168faSHans Rosenfeld return (DDI_SUCCESS); 31433c9168faSHans Rosenfeld } 31443c9168faSHans Rosenfeld 31453c9168faSHans Rosenfeld xfer->x_ndmac--; 31463c9168faSHans Rosenfeld 31473c9168faSHans Rosenfeld nprp_page = nvme->n_pagesize / sizeof (uint64_t) - 1; 31483c9168faSHans Rosenfeld ASSERT(nprp_page > 0); 31493c9168faSHans Rosenfeld nprp = (xfer->x_ndmac + nprp_page - 1) / nprp_page; 31503c9168faSHans Rosenfeld 31513c9168faSHans Rosenfeld /* 31523c9168faSHans Rosenfeld * We currently don't support chained PRPs and set up our DMA 31533c9168faSHans Rosenfeld * attributes to reflect that. If we still get an I/O request 31543c9168faSHans Rosenfeld * that needs a chained PRP something is very wrong. 31553c9168faSHans Rosenfeld */ 31563c9168faSHans Rosenfeld VERIFY(nprp == 1); 31573c9168faSHans Rosenfeld 3158582eef8cSYouzhong Yang cmd->nc_dma = kmem_cache_alloc(nvme->n_prp_cache, KM_SLEEP); 3159582eef8cSYouzhong Yang bzero(cmd->nc_dma->nd_memp, cmd->nc_dma->nd_len); 31603c9168faSHans Rosenfeld 31613c9168faSHans Rosenfeld cmd->nc_sqe.sqe_dptr.d_prp[1] = cmd->nc_dma->nd_cookie.dmac_laddress; 31623c9168faSHans Rosenfeld 31633c9168faSHans Rosenfeld /*LINTED: E_PTR_BAD_CAST_ALIGN*/ 31643c9168faSHans Rosenfeld for (prp = (uint64_t *)cmd->nc_dma->nd_memp; 31653c9168faSHans Rosenfeld xfer->x_ndmac > 0; 31663c9168faSHans Rosenfeld prp++, xfer->x_ndmac--) { 31673c9168faSHans Rosenfeld *prp = xfer->x_dmac.dmac_laddress; 31683c9168faSHans Rosenfeld ddi_dma_nextcookie(xfer->x_dmah, &xfer->x_dmac); 31693c9168faSHans Rosenfeld } 31703c9168faSHans Rosenfeld 31713c9168faSHans Rosenfeld (void) ddi_dma_sync(cmd->nc_dma->nd_dmah, 0, cmd->nc_dma->nd_len, 31723c9168faSHans Rosenfeld DDI_DMA_SYNC_FORDEV); 31733c9168faSHans Rosenfeld return (DDI_SUCCESS); 31743c9168faSHans Rosenfeld } 31753c9168faSHans Rosenfeld 31763c9168faSHans Rosenfeld static nvme_cmd_t * 31773c9168faSHans Rosenfeld nvme_create_nvm_cmd(nvme_namespace_t *ns, uint8_t opc, bd_xfer_t *xfer) 31783c9168faSHans Rosenfeld { 31793c9168faSHans Rosenfeld nvme_t *nvme = ns->ns_nvme; 31803c9168faSHans Rosenfeld nvme_cmd_t *cmd; 31813c9168faSHans Rosenfeld 31823c9168faSHans Rosenfeld /* 31833c9168faSHans Rosenfeld * Blkdev only sets BD_XFER_POLL when dumping, so don't sleep. 31843c9168faSHans Rosenfeld */ 31853c9168faSHans Rosenfeld cmd = nvme_alloc_cmd(nvme, (xfer->x_flags & BD_XFER_POLL) ? 31863c9168faSHans Rosenfeld KM_NOSLEEP : KM_SLEEP); 31873c9168faSHans Rosenfeld 31883c9168faSHans Rosenfeld if (cmd == NULL) 31893c9168faSHans Rosenfeld return (NULL); 31903c9168faSHans Rosenfeld 31913c9168faSHans Rosenfeld cmd->nc_sqe.sqe_opc = opc; 31923c9168faSHans Rosenfeld cmd->nc_callback = nvme_bd_xfer_done; 31933c9168faSHans Rosenfeld cmd->nc_xfer = xfer; 31943c9168faSHans Rosenfeld 31953c9168faSHans Rosenfeld switch (opc) { 31963c9168faSHans Rosenfeld case NVME_OPC_NVM_WRITE: 31973c9168faSHans Rosenfeld case NVME_OPC_NVM_READ: 31983c9168faSHans Rosenfeld VERIFY(xfer->x_nblks <= 0x10000); 31993c9168faSHans Rosenfeld 32003c9168faSHans Rosenfeld cmd->nc_sqe.sqe_nsid = ns->ns_id; 32013c9168faSHans Rosenfeld 32023c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw10 = xfer->x_blkno & 0xffffffffu; 32033c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw11 = (xfer->x_blkno >> 32); 32043c9168faSHans Rosenfeld cmd->nc_sqe.sqe_cdw12 = (uint16_t)(xfer->x_nblks - 1); 32053c9168faSHans Rosenfeld 32063c9168faSHans Rosenfeld if (nvme_fill_prp(cmd, xfer) != DDI_SUCCESS) 32073c9168faSHans Rosenfeld goto fail; 32083c9168faSHans Rosenfeld break; 32093c9168faSHans Rosenfeld 32103c9168faSHans Rosenfeld case NVME_OPC_NVM_FLUSH: 32113c9168faSHans Rosenfeld cmd->nc_sqe.sqe_nsid = ns->ns_id; 32123c9168faSHans Rosenfeld break; 32133c9168faSHans Rosenfeld 32143c9168faSHans Rosenfeld default: 32153c9168faSHans Rosenfeld goto fail; 32163c9168faSHans Rosenfeld } 32173c9168faSHans Rosenfeld 32183c9168faSHans Rosenfeld return (cmd); 32193c9168faSHans Rosenfeld 32203c9168faSHans Rosenfeld fail: 32213c9168faSHans Rosenfeld nvme_free_cmd(cmd); 32223c9168faSHans Rosenfeld return (NULL); 32233c9168faSHans Rosenfeld } 32243c9168faSHans Rosenfeld 32253c9168faSHans Rosenfeld static void 32263c9168faSHans Rosenfeld nvme_bd_xfer_done(void *arg) 32273c9168faSHans Rosenfeld { 32283c9168faSHans Rosenfeld nvme_cmd_t *cmd = arg; 32293c9168faSHans Rosenfeld bd_xfer_t *xfer = cmd->nc_xfer; 32303c9168faSHans Rosenfeld int error = 0; 32313c9168faSHans Rosenfeld 32323c9168faSHans Rosenfeld error = nvme_check_cmd_status(cmd); 32333c9168faSHans Rosenfeld nvme_free_cmd(cmd); 32343c9168faSHans Rosenfeld 32353c9168faSHans Rosenfeld bd_xfer_done(xfer, error); 32363c9168faSHans Rosenfeld } 32373c9168faSHans Rosenfeld 32383c9168faSHans Rosenfeld static void 32393c9168faSHans Rosenfeld nvme_bd_driveinfo(void *arg, bd_drive_t *drive) 32403c9168faSHans Rosenfeld { 32413c9168faSHans Rosenfeld nvme_namespace_t *ns = arg; 32423c9168faSHans Rosenfeld nvme_t *nvme = ns->ns_nvme; 32433c9168faSHans Rosenfeld 32443c9168faSHans Rosenfeld /* 32453c9168faSHans Rosenfeld * blkdev maintains one queue size per instance (namespace), 32463c9168faSHans Rosenfeld * but all namespace share the I/O queues. 32473c9168faSHans Rosenfeld * TODO: need to figure out a sane default, or use per-NS I/O queues, 32483c9168faSHans Rosenfeld * or change blkdev to handle EAGAIN 32493c9168faSHans Rosenfeld */ 32503c9168faSHans Rosenfeld drive->d_qsize = nvme->n_ioq_count * nvme->n_io_queue_len 32513c9168faSHans Rosenfeld / nvme->n_namespace_count; 32523c9168faSHans Rosenfeld 32533c9168faSHans Rosenfeld /* 32543c9168faSHans Rosenfeld * d_maxxfer is not set, which means the value is taken from the DMA 32553c9168faSHans Rosenfeld * attributes specified to bd_alloc_handle. 32563c9168faSHans Rosenfeld */ 32573c9168faSHans Rosenfeld 32583c9168faSHans Rosenfeld drive->d_removable = B_FALSE; 32593c9168faSHans Rosenfeld drive->d_hotpluggable = B_FALSE; 32603c9168faSHans Rosenfeld 3261b6fef107SHans Rosenfeld bcopy(ns->ns_eui64, drive->d_eui64, sizeof (drive->d_eui64)); 32623c9168faSHans Rosenfeld drive->d_target = ns->ns_id; 32633c9168faSHans Rosenfeld drive->d_lun = 0; 3264510a6847SHans Rosenfeld 3265bef9e21aSHans Rosenfeld drive->d_model = nvme->n_idctl->id_model; 3266bef9e21aSHans Rosenfeld drive->d_model_len = sizeof (nvme->n_idctl->id_model); 3267510a6847SHans Rosenfeld drive->d_vendor = nvme->n_vendor; 3268510a6847SHans Rosenfeld drive->d_vendor_len = strlen(nvme->n_vendor); 3269510a6847SHans Rosenfeld drive->d_product = nvme->n_product; 3270510a6847SHans Rosenfeld drive->d_product_len = strlen(nvme->n_product); 3271510a6847SHans Rosenfeld drive->d_serial = nvme->n_idctl->id_serial; 3272510a6847SHans Rosenfeld drive->d_serial_len = sizeof (nvme->n_idctl->id_serial); 3273510a6847SHans Rosenfeld drive->d_revision = nvme->n_idctl->id_fwrev; 3274510a6847SHans Rosenfeld drive->d_revision_len = sizeof (nvme->n_idctl->id_fwrev); 32753c9168faSHans Rosenfeld } 32763c9168faSHans Rosenfeld 32773c9168faSHans Rosenfeld static int 32783c9168faSHans Rosenfeld nvme_bd_mediainfo(void *arg, bd_media_t *media) 32793c9168faSHans Rosenfeld { 32803c9168faSHans Rosenfeld nvme_namespace_t *ns = arg; 32813c9168faSHans Rosenfeld 32823c9168faSHans Rosenfeld media->m_nblks = ns->ns_block_count; 32833c9168faSHans Rosenfeld media->m_blksize = ns->ns_block_size; 32843c9168faSHans Rosenfeld media->m_readonly = B_FALSE; 32853c9168faSHans Rosenfeld media->m_solidstate = B_TRUE; 32863c9168faSHans Rosenfeld 32873c9168faSHans Rosenfeld media->m_pblksize = ns->ns_best_block_size; 32883c9168faSHans Rosenfeld 32893c9168faSHans Rosenfeld return (0); 32903c9168faSHans Rosenfeld } 32913c9168faSHans Rosenfeld 32923c9168faSHans Rosenfeld static int 32933c9168faSHans Rosenfeld nvme_bd_cmd(nvme_namespace_t *ns, bd_xfer_t *xfer, uint8_t opc) 32943c9168faSHans Rosenfeld { 32953c9168faSHans Rosenfeld nvme_t *nvme = ns->ns_nvme; 3296adec8d5dSHans Rosenfeld nvme_cmd_t *cmd; 329748869394SHans Rosenfeld nvme_qpair_t *ioq; 329848869394SHans Rosenfeld boolean_t poll; 3299adec8d5dSHans Rosenfeld int ret; 33003c9168faSHans Rosenfeld 33013c9168faSHans Rosenfeld if (nvme->n_dead) 33023c9168faSHans Rosenfeld return (EIO); 33033c9168faSHans Rosenfeld 33043c9168faSHans Rosenfeld cmd = nvme_create_nvm_cmd(ns, opc, xfer); 33053c9168faSHans Rosenfeld if (cmd == NULL) 33063c9168faSHans Rosenfeld return (ENOMEM); 33073c9168faSHans Rosenfeld 33083c9168faSHans Rosenfeld cmd->nc_sqid = (CPU->cpu_id % nvme->n_ioq_count) + 1; 33093c9168faSHans Rosenfeld ASSERT(cmd->nc_sqid <= nvme->n_ioq_count); 331048869394SHans Rosenfeld ioq = nvme->n_ioq[cmd->nc_sqid]; 33113c9168faSHans Rosenfeld 331248869394SHans Rosenfeld /* 331348869394SHans Rosenfeld * Get the polling flag before submitting the command. The command may 331448869394SHans Rosenfeld * complete immediately after it was submitted, which means we must 331548869394SHans Rosenfeld * treat both cmd and xfer as if they have been freed already. 331648869394SHans Rosenfeld */ 331748869394SHans Rosenfeld poll = (xfer->x_flags & BD_XFER_POLL) != 0; 331848869394SHans Rosenfeld 3319adec8d5dSHans Rosenfeld ret = nvme_submit_io_cmd(ioq, cmd); 3320adec8d5dSHans Rosenfeld 3321adec8d5dSHans Rosenfeld if (ret != 0) 3322adec8d5dSHans Rosenfeld return (ret); 33233c9168faSHans Rosenfeld 332448869394SHans Rosenfeld if (!poll) 332548869394SHans Rosenfeld return (0); 332648869394SHans Rosenfeld 332748869394SHans Rosenfeld do { 3328adec8d5dSHans Rosenfeld cmd = nvme_retrieve_cmd(nvme, ioq); 3329adec8d5dSHans Rosenfeld if (cmd != NULL) 3330adec8d5dSHans Rosenfeld nvme_bd_xfer_done(cmd); 333148869394SHans Rosenfeld else 333248869394SHans Rosenfeld drv_usecwait(10); 333348869394SHans Rosenfeld } while (ioq->nq_active_cmds != 0); 333448869394SHans Rosenfeld 33353c9168faSHans Rosenfeld return (0); 33363c9168faSHans Rosenfeld } 33373c9168faSHans Rosenfeld 33383c9168faSHans Rosenfeld static int 33393c9168faSHans Rosenfeld nvme_bd_read(void *arg, bd_xfer_t *xfer) 33403c9168faSHans Rosenfeld { 33413c9168faSHans Rosenfeld nvme_namespace_t *ns = arg; 33423c9168faSHans Rosenfeld 33433c9168faSHans Rosenfeld return (nvme_bd_cmd(ns, xfer, NVME_OPC_NVM_READ)); 33443c9168faSHans Rosenfeld } 33453c9168faSHans Rosenfeld 33463c9168faSHans Rosenfeld static int 33473c9168faSHans Rosenfeld nvme_bd_write(void *arg, bd_xfer_t *xfer) 33483c9168faSHans Rosenfeld { 33493c9168faSHans Rosenfeld nvme_namespace_t *ns = arg; 33503c9168faSHans Rosenfeld 33513c9168faSHans Rosenfeld return (nvme_bd_cmd(ns, xfer, NVME_OPC_NVM_WRITE)); 33523c9168faSHans Rosenfeld } 33533c9168faSHans Rosenfeld 33543c9168faSHans Rosenfeld static int 33553c9168faSHans Rosenfeld nvme_bd_sync(void *arg, bd_xfer_t *xfer) 33563c9168faSHans Rosenfeld { 33573c9168faSHans Rosenfeld nvme_namespace_t *ns = arg; 33583c9168faSHans Rosenfeld 33593c9168faSHans Rosenfeld if (ns->ns_nvme->n_dead) 33603c9168faSHans Rosenfeld return (EIO); 33613c9168faSHans Rosenfeld 33623c9168faSHans Rosenfeld /* 3363998a9ab1SHans Rosenfeld * If the volatile write cache is not present or not enabled the FLUSH 3364998a9ab1SHans Rosenfeld * command is a no-op, so we can take a shortcut here. 33653c9168faSHans Rosenfeld */ 3366998a9ab1SHans Rosenfeld if (!ns->ns_nvme->n_write_cache_present) { 33673c9168faSHans Rosenfeld bd_xfer_done(xfer, ENOTSUP); 33683c9168faSHans Rosenfeld return (0); 33693c9168faSHans Rosenfeld } 33703c9168faSHans Rosenfeld 3371998a9ab1SHans Rosenfeld if (!ns->ns_nvme->n_write_cache_enabled) { 3372998a9ab1SHans Rosenfeld bd_xfer_done(xfer, 0); 3373998a9ab1SHans Rosenfeld return (0); 3374998a9ab1SHans Rosenfeld } 3375998a9ab1SHans Rosenfeld 33763c9168faSHans Rosenfeld return (nvme_bd_cmd(ns, xfer, NVME_OPC_NVM_FLUSH)); 33773c9168faSHans Rosenfeld } 33783c9168faSHans Rosenfeld 33793c9168faSHans Rosenfeld static int 33803c9168faSHans Rosenfeld nvme_bd_devid(void *arg, dev_info_t *devinfo, ddi_devid_t *devid) 33813c9168faSHans Rosenfeld { 33823c9168faSHans Rosenfeld nvme_namespace_t *ns = arg; 33833c9168faSHans Rosenfeld 3384b6fef107SHans Rosenfeld /*LINTED: E_BAD_PTR_CAST_ALIGN*/ 3385b6fef107SHans Rosenfeld if (*(uint64_t *)ns->ns_eui64 != 0) { 3386b6fef107SHans Rosenfeld return (ddi_devid_init(devinfo, DEVID_SCSI3_WWN, 3387b6fef107SHans Rosenfeld sizeof (ns->ns_eui64), ns->ns_eui64, devid)); 3388b6fef107SHans Rosenfeld } else { 3389b6fef107SHans Rosenfeld return (ddi_devid_init(devinfo, DEVID_ENCAP, 3390b6fef107SHans Rosenfeld strlen(ns->ns_devid), ns->ns_devid, devid)); 3391b6fef107SHans Rosenfeld } 33923c9168faSHans Rosenfeld } 3393ecee5a1fSHans Rosenfeld 3394ecee5a1fSHans Rosenfeld static int 3395ecee5a1fSHans Rosenfeld nvme_open(dev_t *devp, int flag, int otyp, cred_t *cred_p) 3396ecee5a1fSHans Rosenfeld { 3397ecee5a1fSHans Rosenfeld #ifndef __lock_lint 3398ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(cred_p)); 3399ecee5a1fSHans Rosenfeld #endif 3400ecee5a1fSHans Rosenfeld minor_t minor = getminor(*devp); 3401ecee5a1fSHans Rosenfeld nvme_t *nvme = ddi_get_soft_state(nvme_state, NVME_MINOR_INST(minor)); 3402ecee5a1fSHans Rosenfeld int nsid = NVME_MINOR_NSID(minor); 3403ecee5a1fSHans Rosenfeld nvme_minor_state_t *nm; 3404ecee5a1fSHans Rosenfeld int rv = 0; 3405ecee5a1fSHans Rosenfeld 3406ecee5a1fSHans Rosenfeld if (otyp != OTYP_CHR) 3407ecee5a1fSHans Rosenfeld return (EINVAL); 3408ecee5a1fSHans Rosenfeld 3409ecee5a1fSHans Rosenfeld if (nvme == NULL) 3410ecee5a1fSHans Rosenfeld return (ENXIO); 3411ecee5a1fSHans Rosenfeld 3412ecee5a1fSHans Rosenfeld if (nsid > nvme->n_namespace_count) 3413ecee5a1fSHans Rosenfeld return (ENXIO); 3414ecee5a1fSHans Rosenfeld 34155e3243f0SHans Rosenfeld if (nvme->n_dead) 34165e3243f0SHans Rosenfeld return (EIO); 34175e3243f0SHans Rosenfeld 3418ecee5a1fSHans Rosenfeld nm = nsid == 0 ? &nvme->n_minor : &nvme->n_ns[nsid - 1].ns_minor; 3419ecee5a1fSHans Rosenfeld 3420ecee5a1fSHans Rosenfeld mutex_enter(&nm->nm_mutex); 3421ecee5a1fSHans Rosenfeld if (nm->nm_oexcl) { 3422ecee5a1fSHans Rosenfeld rv = EBUSY; 3423ecee5a1fSHans Rosenfeld goto out; 3424ecee5a1fSHans Rosenfeld } 3425ecee5a1fSHans Rosenfeld 3426ecee5a1fSHans Rosenfeld if (flag & FEXCL) { 3427ecee5a1fSHans Rosenfeld if (nm->nm_ocnt != 0) { 3428ecee5a1fSHans Rosenfeld rv = EBUSY; 3429ecee5a1fSHans Rosenfeld goto out; 3430ecee5a1fSHans Rosenfeld } 3431ecee5a1fSHans Rosenfeld nm->nm_oexcl = B_TRUE; 3432ecee5a1fSHans Rosenfeld } 3433ecee5a1fSHans Rosenfeld 3434ecee5a1fSHans Rosenfeld nm->nm_ocnt++; 3435ecee5a1fSHans Rosenfeld 3436ecee5a1fSHans Rosenfeld out: 3437ecee5a1fSHans Rosenfeld mutex_exit(&nm->nm_mutex); 3438ecee5a1fSHans Rosenfeld return (rv); 3439ecee5a1fSHans Rosenfeld 3440ecee5a1fSHans Rosenfeld } 3441ecee5a1fSHans Rosenfeld 3442ecee5a1fSHans Rosenfeld static int 3443ecee5a1fSHans Rosenfeld nvme_close(dev_t dev, int flag, int otyp, cred_t *cred_p) 3444ecee5a1fSHans Rosenfeld { 3445ecee5a1fSHans Rosenfeld #ifndef __lock_lint 3446ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(cred_p)); 3447ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(flag)); 3448ecee5a1fSHans Rosenfeld #endif 3449ecee5a1fSHans Rosenfeld minor_t minor = getminor(dev); 3450ecee5a1fSHans Rosenfeld nvme_t *nvme = ddi_get_soft_state(nvme_state, NVME_MINOR_INST(minor)); 3451ecee5a1fSHans Rosenfeld int nsid = NVME_MINOR_NSID(minor); 3452ecee5a1fSHans Rosenfeld nvme_minor_state_t *nm; 3453ecee5a1fSHans Rosenfeld 3454ecee5a1fSHans Rosenfeld if (otyp != OTYP_CHR) 3455ecee5a1fSHans Rosenfeld return (ENXIO); 3456ecee5a1fSHans Rosenfeld 3457ecee5a1fSHans Rosenfeld if (nvme == NULL) 3458ecee5a1fSHans Rosenfeld return (ENXIO); 3459ecee5a1fSHans Rosenfeld 3460ecee5a1fSHans Rosenfeld if (nsid > nvme->n_namespace_count) 3461ecee5a1fSHans Rosenfeld return (ENXIO); 3462ecee5a1fSHans Rosenfeld 3463ecee5a1fSHans Rosenfeld nm = nsid == 0 ? &nvme->n_minor : &nvme->n_ns[nsid - 1].ns_minor; 3464ecee5a1fSHans Rosenfeld 3465ecee5a1fSHans Rosenfeld mutex_enter(&nm->nm_mutex); 3466ecee5a1fSHans Rosenfeld if (nm->nm_oexcl) 3467ecee5a1fSHans Rosenfeld nm->nm_oexcl = B_FALSE; 3468ecee5a1fSHans Rosenfeld 3469ecee5a1fSHans Rosenfeld ASSERT(nm->nm_ocnt > 0); 3470ecee5a1fSHans Rosenfeld nm->nm_ocnt--; 3471ecee5a1fSHans Rosenfeld mutex_exit(&nm->nm_mutex); 3472ecee5a1fSHans Rosenfeld 3473ecee5a1fSHans Rosenfeld return (0); 3474ecee5a1fSHans Rosenfeld } 3475ecee5a1fSHans Rosenfeld 3476ecee5a1fSHans Rosenfeld static int 3477ecee5a1fSHans Rosenfeld nvme_ioctl_identify(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, int mode, 3478ecee5a1fSHans Rosenfeld cred_t *cred_p) 3479ecee5a1fSHans Rosenfeld { 3480ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(cred_p)); 3481ecee5a1fSHans Rosenfeld int rv = 0; 3482ecee5a1fSHans Rosenfeld void *idctl; 3483ecee5a1fSHans Rosenfeld 3484ecee5a1fSHans Rosenfeld if ((mode & FREAD) == 0) 3485ecee5a1fSHans Rosenfeld return (EPERM); 3486ecee5a1fSHans Rosenfeld 3487ecee5a1fSHans Rosenfeld if (nioc->n_len < NVME_IDENTIFY_BUFSIZE) 3488ecee5a1fSHans Rosenfeld return (EINVAL); 3489ecee5a1fSHans Rosenfeld 34905e3243f0SHans Rosenfeld if ((rv = nvme_identify(nvme, nsid, (void **)&idctl)) != 0) 34915e3243f0SHans Rosenfeld return (rv); 3492ecee5a1fSHans Rosenfeld 3493ecee5a1fSHans Rosenfeld if (ddi_copyout(idctl, (void *)nioc->n_buf, NVME_IDENTIFY_BUFSIZE, mode) 3494ecee5a1fSHans Rosenfeld != 0) 3495ecee5a1fSHans Rosenfeld rv = EFAULT; 3496ecee5a1fSHans Rosenfeld 3497ecee5a1fSHans Rosenfeld kmem_free(idctl, NVME_IDENTIFY_BUFSIZE); 3498ecee5a1fSHans Rosenfeld 3499ecee5a1fSHans Rosenfeld return (rv); 3500ecee5a1fSHans Rosenfeld } 3501ecee5a1fSHans Rosenfeld 3502ecee5a1fSHans Rosenfeld static int 3503ecee5a1fSHans Rosenfeld nvme_ioctl_capabilities(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, 3504ecee5a1fSHans Rosenfeld int mode, cred_t *cred_p) 3505ecee5a1fSHans Rosenfeld { 3506ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(nsid, cred_p)); 3507ecee5a1fSHans Rosenfeld int rv = 0; 3508ecee5a1fSHans Rosenfeld nvme_reg_cap_t cap = { 0 }; 3509ecee5a1fSHans Rosenfeld nvme_capabilities_t nc; 3510ecee5a1fSHans Rosenfeld 3511ecee5a1fSHans Rosenfeld if ((mode & FREAD) == 0) 3512ecee5a1fSHans Rosenfeld return (EPERM); 3513ecee5a1fSHans Rosenfeld 3514ecee5a1fSHans Rosenfeld if (nioc->n_len < sizeof (nc)) 3515ecee5a1fSHans Rosenfeld return (EINVAL); 3516ecee5a1fSHans Rosenfeld 3517ecee5a1fSHans Rosenfeld cap.r = nvme_get64(nvme, NVME_REG_CAP); 3518ecee5a1fSHans Rosenfeld 3519ecee5a1fSHans Rosenfeld /* 3520ecee5a1fSHans Rosenfeld * The MPSMIN and MPSMAX fields in the CAP register use 0 to 3521ecee5a1fSHans Rosenfeld * specify the base page size of 4k (1<<12), so add 12 here to 3522ecee5a1fSHans Rosenfeld * get the real page size value. 3523ecee5a1fSHans Rosenfeld */ 3524ecee5a1fSHans Rosenfeld nc.mpsmax = 1 << (12 + cap.b.cap_mpsmax); 3525ecee5a1fSHans Rosenfeld nc.mpsmin = 1 << (12 + cap.b.cap_mpsmin); 3526ecee5a1fSHans Rosenfeld 3527ecee5a1fSHans Rosenfeld if (ddi_copyout(&nc, (void *)nioc->n_buf, sizeof (nc), mode) != 0) 3528ecee5a1fSHans Rosenfeld rv = EFAULT; 3529ecee5a1fSHans Rosenfeld 3530ecee5a1fSHans Rosenfeld return (rv); 3531ecee5a1fSHans Rosenfeld } 3532ecee5a1fSHans Rosenfeld 3533ecee5a1fSHans Rosenfeld static int 3534ecee5a1fSHans Rosenfeld nvme_ioctl_get_logpage(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, 3535ecee5a1fSHans Rosenfeld int mode, cred_t *cred_p) 3536ecee5a1fSHans Rosenfeld { 3537ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(cred_p)); 3538ecee5a1fSHans Rosenfeld void *log = NULL; 3539ecee5a1fSHans Rosenfeld size_t bufsize = 0; 3540ecee5a1fSHans Rosenfeld int rv = 0; 3541ecee5a1fSHans Rosenfeld 3542ecee5a1fSHans Rosenfeld if ((mode & FREAD) == 0) 3543ecee5a1fSHans Rosenfeld return (EPERM); 3544ecee5a1fSHans Rosenfeld 3545ecee5a1fSHans Rosenfeld switch (nioc->n_arg) { 3546ecee5a1fSHans Rosenfeld case NVME_LOGPAGE_ERROR: 3547ecee5a1fSHans Rosenfeld if (nsid != 0) 3548ecee5a1fSHans Rosenfeld return (EINVAL); 3549ecee5a1fSHans Rosenfeld break; 3550ecee5a1fSHans Rosenfeld case NVME_LOGPAGE_HEALTH: 3551ecee5a1fSHans Rosenfeld if (nsid != 0 && nvme->n_idctl->id_lpa.lp_smart == 0) 3552ecee5a1fSHans Rosenfeld return (EINVAL); 3553ecee5a1fSHans Rosenfeld 3554ecee5a1fSHans Rosenfeld if (nsid == 0) 3555ecee5a1fSHans Rosenfeld nsid = (uint32_t)-1; 3556ecee5a1fSHans Rosenfeld 3557ecee5a1fSHans Rosenfeld break; 3558ecee5a1fSHans Rosenfeld case NVME_LOGPAGE_FWSLOT: 3559ecee5a1fSHans Rosenfeld if (nsid != 0) 3560ecee5a1fSHans Rosenfeld return (EINVAL); 3561ecee5a1fSHans Rosenfeld break; 3562ecee5a1fSHans Rosenfeld default: 3563ecee5a1fSHans Rosenfeld return (EINVAL); 3564ecee5a1fSHans Rosenfeld } 3565ecee5a1fSHans Rosenfeld 3566ecee5a1fSHans Rosenfeld if (nvme_get_logpage(nvme, &log, &bufsize, nioc->n_arg, nsid) 3567ecee5a1fSHans Rosenfeld != DDI_SUCCESS) 3568ecee5a1fSHans Rosenfeld return (EIO); 3569ecee5a1fSHans Rosenfeld 3570ecee5a1fSHans Rosenfeld if (nioc->n_len < bufsize) { 3571ecee5a1fSHans Rosenfeld kmem_free(log, bufsize); 3572ecee5a1fSHans Rosenfeld return (EINVAL); 3573ecee5a1fSHans Rosenfeld } 3574ecee5a1fSHans Rosenfeld 3575ecee5a1fSHans Rosenfeld if (ddi_copyout(log, (void *)nioc->n_buf, bufsize, mode) != 0) 3576ecee5a1fSHans Rosenfeld rv = EFAULT; 3577ecee5a1fSHans Rosenfeld 3578ecee5a1fSHans Rosenfeld nioc->n_len = bufsize; 3579ecee5a1fSHans Rosenfeld kmem_free(log, bufsize); 3580ecee5a1fSHans Rosenfeld 3581ecee5a1fSHans Rosenfeld return (rv); 3582ecee5a1fSHans Rosenfeld } 3583ecee5a1fSHans Rosenfeld 3584ecee5a1fSHans Rosenfeld static int 3585ecee5a1fSHans Rosenfeld nvme_ioctl_get_features(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, 3586ecee5a1fSHans Rosenfeld int mode, cred_t *cred_p) 3587ecee5a1fSHans Rosenfeld { 3588ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(cred_p)); 3589ecee5a1fSHans Rosenfeld void *buf = NULL; 3590ecee5a1fSHans Rosenfeld size_t bufsize = 0; 3591ecee5a1fSHans Rosenfeld uint32_t res = 0; 3592ecee5a1fSHans Rosenfeld uint8_t feature; 3593ecee5a1fSHans Rosenfeld int rv = 0; 3594ecee5a1fSHans Rosenfeld 3595ecee5a1fSHans Rosenfeld if ((mode & FREAD) == 0) 3596ecee5a1fSHans Rosenfeld return (EPERM); 3597ecee5a1fSHans Rosenfeld 3598ecee5a1fSHans Rosenfeld if ((nioc->n_arg >> 32) > 0xff) 3599ecee5a1fSHans Rosenfeld return (EINVAL); 3600ecee5a1fSHans Rosenfeld 3601ecee5a1fSHans Rosenfeld feature = (uint8_t)(nioc->n_arg >> 32); 3602ecee5a1fSHans Rosenfeld 3603ecee5a1fSHans Rosenfeld switch (feature) { 3604ecee5a1fSHans Rosenfeld case NVME_FEAT_ARBITRATION: 3605ecee5a1fSHans Rosenfeld case NVME_FEAT_POWER_MGMT: 3606ecee5a1fSHans Rosenfeld case NVME_FEAT_TEMPERATURE: 3607ecee5a1fSHans Rosenfeld case NVME_FEAT_ERROR: 3608ecee5a1fSHans Rosenfeld case NVME_FEAT_NQUEUES: 3609ecee5a1fSHans Rosenfeld case NVME_FEAT_INTR_COAL: 3610ecee5a1fSHans Rosenfeld case NVME_FEAT_WRITE_ATOM: 3611ecee5a1fSHans Rosenfeld case NVME_FEAT_ASYNC_EVENT: 3612ecee5a1fSHans Rosenfeld case NVME_FEAT_PROGRESS: 3613ecee5a1fSHans Rosenfeld if (nsid != 0) 3614ecee5a1fSHans Rosenfeld return (EINVAL); 3615ecee5a1fSHans Rosenfeld break; 3616ecee5a1fSHans Rosenfeld 3617ecee5a1fSHans Rosenfeld case NVME_FEAT_INTR_VECT: 3618ecee5a1fSHans Rosenfeld if (nsid != 0) 3619ecee5a1fSHans Rosenfeld return (EINVAL); 3620ecee5a1fSHans Rosenfeld 3621ecee5a1fSHans Rosenfeld res = nioc->n_arg & 0xffffffffUL; 3622ecee5a1fSHans Rosenfeld if (res >= nvme->n_intr_cnt) 3623ecee5a1fSHans Rosenfeld return (EINVAL); 3624ecee5a1fSHans Rosenfeld break; 3625ecee5a1fSHans Rosenfeld 3626ecee5a1fSHans Rosenfeld case NVME_FEAT_LBA_RANGE: 3627ecee5a1fSHans Rosenfeld if (nvme->n_lba_range_supported == B_FALSE) 3628ecee5a1fSHans Rosenfeld return (EINVAL); 3629ecee5a1fSHans Rosenfeld 3630ecee5a1fSHans Rosenfeld if (nsid == 0 || 3631ecee5a1fSHans Rosenfeld nsid > nvme->n_namespace_count) 3632ecee5a1fSHans Rosenfeld return (EINVAL); 3633ecee5a1fSHans Rosenfeld 3634ecee5a1fSHans Rosenfeld break; 3635ecee5a1fSHans Rosenfeld 3636ecee5a1fSHans Rosenfeld case NVME_FEAT_WRITE_CACHE: 3637ecee5a1fSHans Rosenfeld if (nsid != 0) 3638ecee5a1fSHans Rosenfeld return (EINVAL); 3639ecee5a1fSHans Rosenfeld 3640ecee5a1fSHans Rosenfeld if (!nvme->n_write_cache_present) 3641ecee5a1fSHans Rosenfeld return (EINVAL); 3642ecee5a1fSHans Rosenfeld 3643ecee5a1fSHans Rosenfeld break; 3644ecee5a1fSHans Rosenfeld 3645ecee5a1fSHans Rosenfeld case NVME_FEAT_AUTO_PST: 3646ecee5a1fSHans Rosenfeld if (nsid != 0) 3647ecee5a1fSHans Rosenfeld return (EINVAL); 3648ecee5a1fSHans Rosenfeld 3649ecee5a1fSHans Rosenfeld if (!nvme->n_auto_pst_supported) 3650ecee5a1fSHans Rosenfeld return (EINVAL); 3651ecee5a1fSHans Rosenfeld 3652ecee5a1fSHans Rosenfeld break; 3653ecee5a1fSHans Rosenfeld 3654ecee5a1fSHans Rosenfeld default: 3655ecee5a1fSHans Rosenfeld return (EINVAL); 3656ecee5a1fSHans Rosenfeld } 3657ecee5a1fSHans Rosenfeld 36585e3243f0SHans Rosenfeld rv = nvme_get_features(nvme, nsid, feature, &res, &buf, &bufsize); 36595e3243f0SHans Rosenfeld if (rv != 0) 36605e3243f0SHans Rosenfeld return (rv); 3661ecee5a1fSHans Rosenfeld 3662ecee5a1fSHans Rosenfeld if (nioc->n_len < bufsize) { 3663ecee5a1fSHans Rosenfeld kmem_free(buf, bufsize); 3664ecee5a1fSHans Rosenfeld return (EINVAL); 3665ecee5a1fSHans Rosenfeld } 3666ecee5a1fSHans Rosenfeld 3667ecee5a1fSHans Rosenfeld if (buf && ddi_copyout(buf, (void*)nioc->n_buf, bufsize, mode) != 0) 3668ecee5a1fSHans Rosenfeld rv = EFAULT; 3669ecee5a1fSHans Rosenfeld 3670ecee5a1fSHans Rosenfeld kmem_free(buf, bufsize); 3671ecee5a1fSHans Rosenfeld nioc->n_arg = res; 3672ecee5a1fSHans Rosenfeld nioc->n_len = bufsize; 3673ecee5a1fSHans Rosenfeld 3674ecee5a1fSHans Rosenfeld return (rv); 3675ecee5a1fSHans Rosenfeld } 3676ecee5a1fSHans Rosenfeld 3677ecee5a1fSHans Rosenfeld static int 3678ecee5a1fSHans Rosenfeld nvme_ioctl_intr_cnt(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, int mode, 3679ecee5a1fSHans Rosenfeld cred_t *cred_p) 3680ecee5a1fSHans Rosenfeld { 3681ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(nsid, mode, cred_p)); 3682ecee5a1fSHans Rosenfeld 3683ecee5a1fSHans Rosenfeld if ((mode & FREAD) == 0) 3684ecee5a1fSHans Rosenfeld return (EPERM); 3685ecee5a1fSHans Rosenfeld 3686ecee5a1fSHans Rosenfeld nioc->n_arg = nvme->n_intr_cnt; 3687ecee5a1fSHans Rosenfeld return (0); 3688ecee5a1fSHans Rosenfeld } 3689ecee5a1fSHans Rosenfeld 3690ecee5a1fSHans Rosenfeld static int 3691ecee5a1fSHans Rosenfeld nvme_ioctl_version(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, int mode, 3692ecee5a1fSHans Rosenfeld cred_t *cred_p) 3693ecee5a1fSHans Rosenfeld { 3694ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(nsid, cred_p)); 3695ecee5a1fSHans Rosenfeld int rv = 0; 3696ecee5a1fSHans Rosenfeld 3697ecee5a1fSHans Rosenfeld if ((mode & FREAD) == 0) 3698ecee5a1fSHans Rosenfeld return (EPERM); 3699ecee5a1fSHans Rosenfeld 3700ecee5a1fSHans Rosenfeld if (nioc->n_len < sizeof (nvme->n_version)) 3701ecee5a1fSHans Rosenfeld return (ENOMEM); 3702ecee5a1fSHans Rosenfeld 3703ecee5a1fSHans Rosenfeld if (ddi_copyout(&nvme->n_version, (void *)nioc->n_buf, 3704ecee5a1fSHans Rosenfeld sizeof (nvme->n_version), mode) != 0) 3705ecee5a1fSHans Rosenfeld rv = EFAULT; 3706ecee5a1fSHans Rosenfeld 3707ecee5a1fSHans Rosenfeld return (rv); 3708ecee5a1fSHans Rosenfeld } 3709ecee5a1fSHans Rosenfeld 3710ecee5a1fSHans Rosenfeld static int 3711ecee5a1fSHans Rosenfeld nvme_ioctl_format(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, int mode, 3712ecee5a1fSHans Rosenfeld cred_t *cred_p) 3713ecee5a1fSHans Rosenfeld { 3714ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(mode)); 3715ecee5a1fSHans Rosenfeld nvme_format_nvm_t frmt = { 0 }; 3716ecee5a1fSHans Rosenfeld int c_nsid = nsid != 0 ? nsid - 1 : 0; 3717ecee5a1fSHans Rosenfeld 3718ecee5a1fSHans Rosenfeld if ((mode & FWRITE) == 0 || secpolicy_sys_config(cred_p, B_FALSE) != 0) 3719ecee5a1fSHans Rosenfeld return (EPERM); 3720ecee5a1fSHans Rosenfeld 3721ecee5a1fSHans Rosenfeld frmt.r = nioc->n_arg & 0xffffffff; 3722ecee5a1fSHans Rosenfeld 3723ecee5a1fSHans Rosenfeld /* 3724ecee5a1fSHans Rosenfeld * Check whether the FORMAT NVM command is supported. 3725ecee5a1fSHans Rosenfeld */ 3726ecee5a1fSHans Rosenfeld if (nvme->n_idctl->id_oacs.oa_format == 0) 3727ecee5a1fSHans Rosenfeld return (EINVAL); 3728ecee5a1fSHans Rosenfeld 3729ecee5a1fSHans Rosenfeld /* 3730ecee5a1fSHans Rosenfeld * Don't allow format or secure erase of individual namespace if that 3731ecee5a1fSHans Rosenfeld * would cause a format or secure erase of all namespaces. 3732ecee5a1fSHans Rosenfeld */ 3733ecee5a1fSHans Rosenfeld if (nsid != 0 && nvme->n_idctl->id_fna.fn_format != 0) 3734ecee5a1fSHans Rosenfeld return (EINVAL); 3735ecee5a1fSHans Rosenfeld 3736ecee5a1fSHans Rosenfeld if (nsid != 0 && frmt.b.fm_ses != NVME_FRMT_SES_NONE && 3737ecee5a1fSHans Rosenfeld nvme->n_idctl->id_fna.fn_sec_erase != 0) 3738ecee5a1fSHans Rosenfeld return (EINVAL); 3739ecee5a1fSHans Rosenfeld 3740ecee5a1fSHans Rosenfeld /* 3741ecee5a1fSHans Rosenfeld * Don't allow formatting with Protection Information. 3742ecee5a1fSHans Rosenfeld */ 3743ecee5a1fSHans Rosenfeld if (frmt.b.fm_pi != 0 || frmt.b.fm_pil != 0 || frmt.b.fm_ms != 0) 3744ecee5a1fSHans Rosenfeld return (EINVAL); 3745ecee5a1fSHans Rosenfeld 3746ecee5a1fSHans Rosenfeld /* 3747ecee5a1fSHans Rosenfeld * Don't allow formatting using an illegal LBA format, or any LBA format 3748ecee5a1fSHans Rosenfeld * that uses metadata. 3749ecee5a1fSHans Rosenfeld */ 3750ecee5a1fSHans Rosenfeld if (frmt.b.fm_lbaf > nvme->n_ns[c_nsid].ns_idns->id_nlbaf || 3751ecee5a1fSHans Rosenfeld nvme->n_ns[c_nsid].ns_idns->id_lbaf[frmt.b.fm_lbaf].lbaf_ms != 0) 3752ecee5a1fSHans Rosenfeld return (EINVAL); 3753ecee5a1fSHans Rosenfeld 3754ecee5a1fSHans Rosenfeld /* 3755ecee5a1fSHans Rosenfeld * Don't allow formatting using an illegal Secure Erase setting. 3756ecee5a1fSHans Rosenfeld */ 3757ecee5a1fSHans Rosenfeld if (frmt.b.fm_ses > NVME_FRMT_MAX_SES || 3758ecee5a1fSHans Rosenfeld (frmt.b.fm_ses == NVME_FRMT_SES_CRYPTO && 3759ecee5a1fSHans Rosenfeld nvme->n_idctl->id_fna.fn_crypt_erase == 0)) 3760ecee5a1fSHans Rosenfeld return (EINVAL); 3761ecee5a1fSHans Rosenfeld 3762ecee5a1fSHans Rosenfeld if (nsid == 0) 3763ecee5a1fSHans Rosenfeld nsid = (uint32_t)-1; 3764ecee5a1fSHans Rosenfeld 3765ecee5a1fSHans Rosenfeld return (nvme_format_nvm(nvme, nsid, frmt.b.fm_lbaf, B_FALSE, 0, B_FALSE, 3766ecee5a1fSHans Rosenfeld frmt.b.fm_ses)); 3767ecee5a1fSHans Rosenfeld } 3768ecee5a1fSHans Rosenfeld 3769ecee5a1fSHans Rosenfeld static int 3770ecee5a1fSHans Rosenfeld nvme_ioctl_detach(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, int mode, 3771ecee5a1fSHans Rosenfeld cred_t *cred_p) 3772ecee5a1fSHans Rosenfeld { 3773ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(nioc, mode)); 3774ecee5a1fSHans Rosenfeld int rv = 0; 3775ecee5a1fSHans Rosenfeld 3776ecee5a1fSHans Rosenfeld if ((mode & FWRITE) == 0 || secpolicy_sys_config(cred_p, B_FALSE) != 0) 3777ecee5a1fSHans Rosenfeld return (EPERM); 3778ecee5a1fSHans Rosenfeld 3779ecee5a1fSHans Rosenfeld if (nsid == 0) 3780ecee5a1fSHans Rosenfeld return (EINVAL); 3781ecee5a1fSHans Rosenfeld 3782ecee5a1fSHans Rosenfeld rv = bd_detach_handle(nvme->n_ns[nsid - 1].ns_bd_hdl); 3783ecee5a1fSHans Rosenfeld if (rv != DDI_SUCCESS) 3784ecee5a1fSHans Rosenfeld rv = EBUSY; 3785ecee5a1fSHans Rosenfeld 3786ecee5a1fSHans Rosenfeld return (rv); 3787ecee5a1fSHans Rosenfeld } 3788ecee5a1fSHans Rosenfeld 3789ecee5a1fSHans Rosenfeld static int 3790ecee5a1fSHans Rosenfeld nvme_ioctl_attach(nvme_t *nvme, int nsid, nvme_ioctl_t *nioc, int mode, 3791ecee5a1fSHans Rosenfeld cred_t *cred_p) 3792ecee5a1fSHans Rosenfeld { 3793ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(nioc, mode)); 3794ecee5a1fSHans Rosenfeld nvme_identify_nsid_t *idns; 3795ecee5a1fSHans Rosenfeld int rv = 0; 3796ecee5a1fSHans Rosenfeld 3797ecee5a1fSHans Rosenfeld if ((mode & FWRITE) == 0 || secpolicy_sys_config(cred_p, B_FALSE) != 0) 3798ecee5a1fSHans Rosenfeld return (EPERM); 3799ecee5a1fSHans Rosenfeld 3800ecee5a1fSHans Rosenfeld if (nsid == 0) 3801ecee5a1fSHans Rosenfeld return (EINVAL); 3802ecee5a1fSHans Rosenfeld 3803ecee5a1fSHans Rosenfeld /* 3804ecee5a1fSHans Rosenfeld * Identify namespace again, free old identify data. 3805ecee5a1fSHans Rosenfeld */ 3806ecee5a1fSHans Rosenfeld idns = nvme->n_ns[nsid - 1].ns_idns; 3807ecee5a1fSHans Rosenfeld if (nvme_init_ns(nvme, nsid) != DDI_SUCCESS) 3808ecee5a1fSHans Rosenfeld return (EIO); 3809ecee5a1fSHans Rosenfeld 3810ecee5a1fSHans Rosenfeld kmem_free(idns, sizeof (nvme_identify_nsid_t)); 3811ecee5a1fSHans Rosenfeld 3812ecee5a1fSHans Rosenfeld rv = bd_attach_handle(nvme->n_dip, nvme->n_ns[nsid - 1].ns_bd_hdl); 3813ecee5a1fSHans Rosenfeld if (rv != DDI_SUCCESS) 3814ecee5a1fSHans Rosenfeld rv = EBUSY; 3815ecee5a1fSHans Rosenfeld 3816ecee5a1fSHans Rosenfeld return (rv); 3817ecee5a1fSHans Rosenfeld } 3818ecee5a1fSHans Rosenfeld 3819ecee5a1fSHans Rosenfeld static int 3820ecee5a1fSHans Rosenfeld nvme_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cred_p, 3821ecee5a1fSHans Rosenfeld int *rval_p) 3822ecee5a1fSHans Rosenfeld { 3823ecee5a1fSHans Rosenfeld #ifndef __lock_lint 3824ecee5a1fSHans Rosenfeld _NOTE(ARGUNUSED(rval_p)); 3825ecee5a1fSHans Rosenfeld #endif 3826ecee5a1fSHans Rosenfeld minor_t minor = getminor(dev); 3827ecee5a1fSHans Rosenfeld nvme_t *nvme = ddi_get_soft_state(nvme_state, NVME_MINOR_INST(minor)); 3828ecee5a1fSHans Rosenfeld int nsid = NVME_MINOR_NSID(minor); 3829ecee5a1fSHans Rosenfeld int rv = 0; 3830ecee5a1fSHans Rosenfeld nvme_ioctl_t nioc; 3831ecee5a1fSHans Rosenfeld 3832ecee5a1fSHans Rosenfeld int (*nvme_ioctl[])(nvme_t *, int, nvme_ioctl_t *, int, cred_t *) = { 3833ecee5a1fSHans Rosenfeld NULL, 3834ecee5a1fSHans Rosenfeld nvme_ioctl_identify, 3835ecee5a1fSHans Rosenfeld nvme_ioctl_identify, 3836ecee5a1fSHans Rosenfeld nvme_ioctl_capabilities, 3837ecee5a1fSHans Rosenfeld nvme_ioctl_get_logpage, 3838ecee5a1fSHans Rosenfeld nvme_ioctl_get_features, 3839ecee5a1fSHans Rosenfeld nvme_ioctl_intr_cnt, 3840ecee5a1fSHans Rosenfeld nvme_ioctl_version, 3841ecee5a1fSHans Rosenfeld nvme_ioctl_format, 3842ecee5a1fSHans Rosenfeld nvme_ioctl_detach, 3843ecee5a1fSHans Rosenfeld nvme_ioctl_attach 3844ecee5a1fSHans Rosenfeld }; 3845ecee5a1fSHans Rosenfeld 3846ecee5a1fSHans Rosenfeld if (nvme == NULL) 3847ecee5a1fSHans Rosenfeld return (ENXIO); 3848ecee5a1fSHans Rosenfeld 3849ecee5a1fSHans Rosenfeld if (nsid > nvme->n_namespace_count) 3850ecee5a1fSHans Rosenfeld return (ENXIO); 3851ecee5a1fSHans Rosenfeld 3852ecee5a1fSHans Rosenfeld if (IS_DEVCTL(cmd)) 3853ecee5a1fSHans Rosenfeld return (ndi_devctl_ioctl(nvme->n_dip, cmd, arg, mode, 0)); 3854ecee5a1fSHans Rosenfeld 3855ecee5a1fSHans Rosenfeld #ifdef _MULTI_DATAMODEL 3856ecee5a1fSHans Rosenfeld switch (ddi_model_convert_from(mode & FMODELS)) { 3857ecee5a1fSHans Rosenfeld case DDI_MODEL_ILP32: { 3858ecee5a1fSHans Rosenfeld nvme_ioctl32_t nioc32; 3859ecee5a1fSHans Rosenfeld if (ddi_copyin((void*)arg, &nioc32, sizeof (nvme_ioctl32_t), 3860ecee5a1fSHans Rosenfeld mode) != 0) 3861ecee5a1fSHans Rosenfeld return (EFAULT); 3862ecee5a1fSHans Rosenfeld nioc.n_len = nioc32.n_len; 3863ecee5a1fSHans Rosenfeld nioc.n_buf = nioc32.n_buf; 3864ecee5a1fSHans Rosenfeld nioc.n_arg = nioc32.n_arg; 3865ecee5a1fSHans Rosenfeld break; 3866ecee5a1fSHans Rosenfeld } 3867ecee5a1fSHans Rosenfeld case DDI_MODEL_NONE: 3868ecee5a1fSHans Rosenfeld #endif 3869ecee5a1fSHans Rosenfeld if (ddi_copyin((void*)arg, &nioc, sizeof (nvme_ioctl_t), mode) 3870ecee5a1fSHans Rosenfeld != 0) 3871ecee5a1fSHans Rosenfeld return (EFAULT); 3872ecee5a1fSHans Rosenfeld #ifdef _MULTI_DATAMODEL 3873ecee5a1fSHans Rosenfeld break; 3874ecee5a1fSHans Rosenfeld } 3875ecee5a1fSHans Rosenfeld #endif 3876ecee5a1fSHans Rosenfeld 38775e3243f0SHans Rosenfeld if (nvme->n_dead && cmd != NVME_IOC_DETACH) 38785e3243f0SHans Rosenfeld return (EIO); 38795e3243f0SHans Rosenfeld 38805e3243f0SHans Rosenfeld 3881ecee5a1fSHans Rosenfeld if (cmd == NVME_IOC_IDENTIFY_CTRL) { 3882ecee5a1fSHans Rosenfeld /* 3883ecee5a1fSHans Rosenfeld * This makes NVME_IOC_IDENTIFY_CTRL work the same on devctl and 3884ecee5a1fSHans Rosenfeld * attachment point nodes. 3885ecee5a1fSHans Rosenfeld */ 3886ecee5a1fSHans Rosenfeld nsid = 0; 3887ecee5a1fSHans Rosenfeld } else if (cmd == NVME_IOC_IDENTIFY_NSID && nsid == 0) { 3888ecee5a1fSHans Rosenfeld /* 3889ecee5a1fSHans Rosenfeld * This makes NVME_IOC_IDENTIFY_NSID work on a devctl node, it 3890ecee5a1fSHans Rosenfeld * will always return identify data for namespace 1. 3891ecee5a1fSHans Rosenfeld */ 3892ecee5a1fSHans Rosenfeld nsid = 1; 3893ecee5a1fSHans Rosenfeld } 3894ecee5a1fSHans Rosenfeld 3895ecee5a1fSHans Rosenfeld if (IS_NVME_IOC(cmd) && nvme_ioctl[NVME_IOC_CMD(cmd)] != NULL) 3896ecee5a1fSHans Rosenfeld rv = nvme_ioctl[NVME_IOC_CMD(cmd)](nvme, nsid, &nioc, mode, 3897ecee5a1fSHans Rosenfeld cred_p); 3898ecee5a1fSHans Rosenfeld else 3899ecee5a1fSHans Rosenfeld rv = EINVAL; 3900ecee5a1fSHans Rosenfeld 3901ecee5a1fSHans Rosenfeld #ifdef _MULTI_DATAMODEL 3902ecee5a1fSHans Rosenfeld switch (ddi_model_convert_from(mode & FMODELS)) { 3903ecee5a1fSHans Rosenfeld case DDI_MODEL_ILP32: { 3904ecee5a1fSHans Rosenfeld nvme_ioctl32_t nioc32; 3905ecee5a1fSHans Rosenfeld 3906ecee5a1fSHans Rosenfeld nioc32.n_len = (size32_t)nioc.n_len; 3907ecee5a1fSHans Rosenfeld nioc32.n_buf = (uintptr32_t)nioc.n_buf; 3908ecee5a1fSHans Rosenfeld nioc32.n_arg = nioc.n_arg; 3909ecee5a1fSHans Rosenfeld 3910ecee5a1fSHans Rosenfeld if (ddi_copyout(&nioc32, (void *)arg, sizeof (nvme_ioctl32_t), 3911ecee5a1fSHans Rosenfeld mode) != 0) 3912ecee5a1fSHans Rosenfeld return (EFAULT); 3913ecee5a1fSHans Rosenfeld break; 3914ecee5a1fSHans Rosenfeld } 3915ecee5a1fSHans Rosenfeld case DDI_MODEL_NONE: 3916ecee5a1fSHans Rosenfeld #endif 3917ecee5a1fSHans Rosenfeld if (ddi_copyout(&nioc, (void *)arg, sizeof (nvme_ioctl_t), mode) 3918ecee5a1fSHans Rosenfeld != 0) 3919ecee5a1fSHans Rosenfeld return (EFAULT); 3920ecee5a1fSHans Rosenfeld #ifdef _MULTI_DATAMODEL 3921ecee5a1fSHans Rosenfeld break; 3922ecee5a1fSHans Rosenfeld } 3923ecee5a1fSHans Rosenfeld #endif 3924ecee5a1fSHans Rosenfeld 3925ecee5a1fSHans Rosenfeld return (rv); 3926ecee5a1fSHans Rosenfeld } 3927