freebsd-nq/sys/dev/nvme/nvme_qpair.c

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This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* Copyright (C) 2012-2014 Intel Corporation
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/bus.h>
#include <sys/conf.h>
#include <sys/domainset.h>
#include <sys/proc.h>
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
#include <dev/pci/pcivar.h>
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
#include "nvme_private.h"
typedef enum error_print { ERROR_PRINT_NONE, ERROR_PRINT_NO_RETRY, ERROR_PRINT_ALL } error_print_t;
#define DO_NOT_RETRY 1
static void _nvme_qpair_submit_request(struct nvme_qpair *qpair,
struct nvme_request *req);
static void nvme_qpair_destroy(struct nvme_qpair *qpair);
struct nvme_opcode_string {
uint16_t opc;
const char * str;
};
static struct nvme_opcode_string admin_opcode[] = {
{ NVME_OPC_DELETE_IO_SQ, "DELETE IO SQ" },
{ NVME_OPC_CREATE_IO_SQ, "CREATE IO SQ" },
{ NVME_OPC_GET_LOG_PAGE, "GET LOG PAGE" },
{ NVME_OPC_DELETE_IO_CQ, "DELETE IO CQ" },
{ NVME_OPC_CREATE_IO_CQ, "CREATE IO CQ" },
{ NVME_OPC_IDENTIFY, "IDENTIFY" },
{ NVME_OPC_ABORT, "ABORT" },
{ NVME_OPC_SET_FEATURES, "SET FEATURES" },
{ NVME_OPC_GET_FEATURES, "GET FEATURES" },
{ NVME_OPC_ASYNC_EVENT_REQUEST, "ASYNC EVENT REQUEST" },
{ NVME_OPC_FIRMWARE_ACTIVATE, "FIRMWARE ACTIVATE" },
{ NVME_OPC_FIRMWARE_IMAGE_DOWNLOAD, "FIRMWARE IMAGE DOWNLOAD" },
{ NVME_OPC_DEVICE_SELF_TEST, "DEVICE SELF-TEST" },
{ NVME_OPC_NAMESPACE_ATTACHMENT, "NAMESPACE ATTACHMENT" },
{ NVME_OPC_KEEP_ALIVE, "KEEP ALIVE" },
{ NVME_OPC_DIRECTIVE_SEND, "DIRECTIVE SEND" },
{ NVME_OPC_DIRECTIVE_RECEIVE, "DIRECTIVE RECEIVE" },
{ NVME_OPC_VIRTUALIZATION_MANAGEMENT, "VIRTUALIZATION MANAGEMENT" },
{ NVME_OPC_NVME_MI_SEND, "NVME-MI SEND" },
{ NVME_OPC_NVME_MI_RECEIVE, "NVME-MI RECEIVE" },
{ NVME_OPC_DOORBELL_BUFFER_CONFIG, "DOORBELL BUFFER CONFIG" },
{ NVME_OPC_FORMAT_NVM, "FORMAT NVM" },
{ NVME_OPC_SECURITY_SEND, "SECURITY SEND" },
{ NVME_OPC_SECURITY_RECEIVE, "SECURITY RECEIVE" },
{ NVME_OPC_SANITIZE, "SANITIZE" },
{ NVME_OPC_GET_LBA_STATUS, "GET LBA STATUS" },
{ 0xFFFF, "ADMIN COMMAND" }
};
static struct nvme_opcode_string io_opcode[] = {
{ NVME_OPC_FLUSH, "FLUSH" },
{ NVME_OPC_WRITE, "WRITE" },
{ NVME_OPC_READ, "READ" },
{ NVME_OPC_WRITE_UNCORRECTABLE, "WRITE UNCORRECTABLE" },
{ NVME_OPC_COMPARE, "COMPARE" },
{ NVME_OPC_WRITE_ZEROES, "WRITE ZEROES" },
{ NVME_OPC_DATASET_MANAGEMENT, "DATASET MANAGEMENT" },
{ NVME_OPC_VERIFY, "VERIFY" },
{ NVME_OPC_RESERVATION_REGISTER, "RESERVATION REGISTER" },
{ NVME_OPC_RESERVATION_REPORT, "RESERVATION REPORT" },
{ NVME_OPC_RESERVATION_ACQUIRE, "RESERVATION ACQUIRE" },
{ NVME_OPC_RESERVATION_RELEASE, "RESERVATION RELEASE" },
{ 0xFFFF, "IO COMMAND" }
};
static const char *
get_admin_opcode_string(uint16_t opc)
{
struct nvme_opcode_string *entry;
entry = admin_opcode;
while (entry->opc != 0xFFFF) {
if (entry->opc == opc)
return (entry->str);
entry++;
}
return (entry->str);
}
static const char *
get_io_opcode_string(uint16_t opc)
{
struct nvme_opcode_string *entry;
entry = io_opcode;
while (entry->opc != 0xFFFF) {
if (entry->opc == opc)
return (entry->str);
entry++;
}
return (entry->str);
}
static void
nvme_admin_qpair_print_command(struct nvme_qpair *qpair,
struct nvme_command *cmd)
{
nvme_printf(qpair->ctrlr, "%s (%02x) sqid:%d cid:%d nsid:%x "
"cdw10:%08x cdw11:%08x\n",
get_admin_opcode_string(cmd->opc), cmd->opc, qpair->id, cmd->cid,
le32toh(cmd->nsid), le32toh(cmd->cdw10), le32toh(cmd->cdw11));
}
static void
nvme_io_qpair_print_command(struct nvme_qpair *qpair,
struct nvme_command *cmd)
{
switch (cmd->opc) {
case NVME_OPC_WRITE:
case NVME_OPC_READ:
case NVME_OPC_WRITE_UNCORRECTABLE:
case NVME_OPC_COMPARE:
case NVME_OPC_WRITE_ZEROES:
case NVME_OPC_VERIFY:
nvme_printf(qpair->ctrlr, "%s sqid:%d cid:%d nsid:%d "
"lba:%llu len:%d\n",
get_io_opcode_string(cmd->opc), qpair->id, cmd->cid, le32toh(cmd->nsid),
((unsigned long long)le32toh(cmd->cdw11) << 32) + le32toh(cmd->cdw10),
(le32toh(cmd->cdw12) & 0xFFFF) + 1);
break;
case NVME_OPC_FLUSH:
case NVME_OPC_DATASET_MANAGEMENT:
case NVME_OPC_RESERVATION_REGISTER:
case NVME_OPC_RESERVATION_REPORT:
case NVME_OPC_RESERVATION_ACQUIRE:
case NVME_OPC_RESERVATION_RELEASE:
nvme_printf(qpair->ctrlr, "%s sqid:%d cid:%d nsid:%d\n",
get_io_opcode_string(cmd->opc), qpair->id, cmd->cid, le32toh(cmd->nsid));
break;
default:
nvme_printf(qpair->ctrlr, "%s (%02x) sqid:%d cid:%d nsid:%d\n",
get_io_opcode_string(cmd->opc), cmd->opc, qpair->id,
cmd->cid, le32toh(cmd->nsid));
break;
}
}
static void
nvme_qpair_print_command(struct nvme_qpair *qpair, struct nvme_command *cmd)
{
if (qpair->id == 0)
nvme_admin_qpair_print_command(qpair, cmd);
else
nvme_io_qpair_print_command(qpair, cmd);
if (nvme_verbose_cmd_dump) {
nvme_printf(qpair->ctrlr,
"nsid:%#x rsvd2:%#x rsvd3:%#x mptr:%#jx prp1:%#jx prp2:%#jx\n",
cmd->nsid, cmd->rsvd2, cmd->rsvd3, (uintmax_t)cmd->mptr,
(uintmax_t)cmd->prp1, (uintmax_t)cmd->prp2);
nvme_printf(qpair->ctrlr,
"cdw10: %#x cdw11:%#x cdw12:%#x cdw13:%#x cdw14:%#x cdw15:%#x\n",
cmd->cdw10, cmd->cdw11, cmd->cdw12, cmd->cdw13, cmd->cdw14,
cmd->cdw15);
}
}
struct nvme_status_string {
uint16_t sc;
const char * str;
};
static struct nvme_status_string generic_status[] = {
{ NVME_SC_SUCCESS, "SUCCESS" },
{ NVME_SC_INVALID_OPCODE, "INVALID OPCODE" },
{ NVME_SC_INVALID_FIELD, "INVALID_FIELD" },
{ NVME_SC_COMMAND_ID_CONFLICT, "COMMAND ID CONFLICT" },
{ NVME_SC_DATA_TRANSFER_ERROR, "DATA TRANSFER ERROR" },
{ NVME_SC_ABORTED_POWER_LOSS, "ABORTED - POWER LOSS" },
{ NVME_SC_INTERNAL_DEVICE_ERROR, "INTERNAL DEVICE ERROR" },
{ NVME_SC_ABORTED_BY_REQUEST, "ABORTED - BY REQUEST" },
{ NVME_SC_ABORTED_SQ_DELETION, "ABORTED - SQ DELETION" },
{ NVME_SC_ABORTED_FAILED_FUSED, "ABORTED - FAILED FUSED" },
{ NVME_SC_ABORTED_MISSING_FUSED, "ABORTED - MISSING FUSED" },
{ NVME_SC_INVALID_NAMESPACE_OR_FORMAT, "INVALID NAMESPACE OR FORMAT" },
{ NVME_SC_COMMAND_SEQUENCE_ERROR, "COMMAND SEQUENCE ERROR" },
{ NVME_SC_INVALID_SGL_SEGMENT_DESCR, "INVALID SGL SEGMENT DESCRIPTOR" },
{ NVME_SC_INVALID_NUMBER_OF_SGL_DESCR, "INVALID NUMBER OF SGL DESCRIPTORS" },
{ NVME_SC_DATA_SGL_LENGTH_INVALID, "DATA SGL LENGTH INVALID" },
{ NVME_SC_METADATA_SGL_LENGTH_INVALID, "METADATA SGL LENGTH INVALID" },
{ NVME_SC_SGL_DESCRIPTOR_TYPE_INVALID, "SGL DESCRIPTOR TYPE INVALID" },
{ NVME_SC_INVALID_USE_OF_CMB, "INVALID USE OF CONTROLLER MEMORY BUFFER" },
{ NVME_SC_PRP_OFFET_INVALID, "PRP OFFET INVALID" },
{ NVME_SC_ATOMIC_WRITE_UNIT_EXCEEDED, "ATOMIC WRITE UNIT EXCEEDED" },
{ NVME_SC_OPERATION_DENIED, "OPERATION DENIED" },
{ NVME_SC_SGL_OFFSET_INVALID, "SGL OFFSET INVALID" },
{ NVME_SC_HOST_ID_INCONSISTENT_FORMAT, "HOST IDENTIFIER INCONSISTENT FORMAT" },
{ NVME_SC_KEEP_ALIVE_TIMEOUT_EXPIRED, "KEEP ALIVE TIMEOUT EXPIRED" },
{ NVME_SC_KEEP_ALIVE_TIMEOUT_INVALID, "KEEP ALIVE TIMEOUT INVALID" },
{ NVME_SC_ABORTED_DUE_TO_PREEMPT, "COMMAND ABORTED DUE TO PREEMPT AND ABORT" },
{ NVME_SC_SANITIZE_FAILED, "SANITIZE FAILED" },
{ NVME_SC_SANITIZE_IN_PROGRESS, "SANITIZE IN PROGRESS" },
{ NVME_SC_SGL_DATA_BLOCK_GRAN_INVALID, "SGL_DATA_BLOCK_GRANULARITY_INVALID" },
{ NVME_SC_NOT_SUPPORTED_IN_CMB, "COMMAND NOT SUPPORTED FOR QUEUE IN CMB" },
{ NVME_SC_NAMESPACE_IS_WRITE_PROTECTED, "NAMESPACE IS WRITE PROTECTED" },
{ NVME_SC_COMMAND_INTERRUPTED, "COMMAND INTERRUPTED" },
{ NVME_SC_TRANSIENT_TRANSPORT_ERROR, "TRANSIENT TRANSPORT ERROR" },
{ NVME_SC_LBA_OUT_OF_RANGE, "LBA OUT OF RANGE" },
{ NVME_SC_CAPACITY_EXCEEDED, "CAPACITY EXCEEDED" },
{ NVME_SC_NAMESPACE_NOT_READY, "NAMESPACE NOT READY" },
{ NVME_SC_RESERVATION_CONFLICT, "RESERVATION CONFLICT" },
{ NVME_SC_FORMAT_IN_PROGRESS, "FORMAT IN PROGRESS" },
{ 0xFFFF, "GENERIC" }
};
static struct nvme_status_string command_specific_status[] = {
{ NVME_SC_COMPLETION_QUEUE_INVALID, "INVALID COMPLETION QUEUE" },
{ NVME_SC_INVALID_QUEUE_IDENTIFIER, "INVALID QUEUE IDENTIFIER" },
{ NVME_SC_MAXIMUM_QUEUE_SIZE_EXCEEDED, "MAX QUEUE SIZE EXCEEDED" },
{ NVME_SC_ABORT_COMMAND_LIMIT_EXCEEDED, "ABORT CMD LIMIT EXCEEDED" },
{ NVME_SC_ASYNC_EVENT_REQUEST_LIMIT_EXCEEDED, "ASYNC LIMIT EXCEEDED" },
{ NVME_SC_INVALID_FIRMWARE_SLOT, "INVALID FIRMWARE SLOT" },
{ NVME_SC_INVALID_FIRMWARE_IMAGE, "INVALID FIRMWARE IMAGE" },
{ NVME_SC_INVALID_INTERRUPT_VECTOR, "INVALID INTERRUPT VECTOR" },
{ NVME_SC_INVALID_LOG_PAGE, "INVALID LOG PAGE" },
{ NVME_SC_INVALID_FORMAT, "INVALID FORMAT" },
{ NVME_SC_FIRMWARE_REQUIRES_RESET, "FIRMWARE REQUIRES RESET" },
{ NVME_SC_INVALID_QUEUE_DELETION, "INVALID QUEUE DELETION" },
{ NVME_SC_FEATURE_NOT_SAVEABLE, "FEATURE IDENTIFIER NOT SAVEABLE" },
{ NVME_SC_FEATURE_NOT_CHANGEABLE, "FEATURE NOT CHANGEABLE" },
{ NVME_SC_FEATURE_NOT_NS_SPECIFIC, "FEATURE NOT NAMESPACE SPECIFIC" },
{ NVME_SC_FW_ACT_REQUIRES_NVMS_RESET, "FIRMWARE ACTIVATION REQUIRES NVM SUBSYSTEM RESET" },
{ NVME_SC_FW_ACT_REQUIRES_RESET, "FIRMWARE ACTIVATION REQUIRES RESET" },
{ NVME_SC_FW_ACT_REQUIRES_TIME, "FIRMWARE ACTIVATION REQUIRES MAXIMUM TIME VIOLATION" },
{ NVME_SC_FW_ACT_PROHIBITED, "FIRMWARE ACTIVATION PROHIBITED" },
{ NVME_SC_OVERLAPPING_RANGE, "OVERLAPPING RANGE" },
{ NVME_SC_NS_INSUFFICIENT_CAPACITY, "NAMESPACE INSUFFICIENT CAPACITY" },
{ NVME_SC_NS_ID_UNAVAILABLE, "NAMESPACE IDENTIFIER UNAVAILABLE" },
{ NVME_SC_NS_ALREADY_ATTACHED, "NAMESPACE ALREADY ATTACHED" },
{ NVME_SC_NS_IS_PRIVATE, "NAMESPACE IS PRIVATE" },
{ NVME_SC_NS_NOT_ATTACHED, "NS NOT ATTACHED" },
{ NVME_SC_THIN_PROV_NOT_SUPPORTED, "THIN PROVISIONING NOT SUPPORTED" },
{ NVME_SC_CTRLR_LIST_INVALID, "CONTROLLER LIST INVALID" },
{ NVME_SC_SELF_TEST_IN_PROGRESS, "DEVICE SELF-TEST IN PROGRESS" },
{ NVME_SC_BOOT_PART_WRITE_PROHIB, "BOOT PARTITION WRITE PROHIBITED" },
{ NVME_SC_INVALID_CTRLR_ID, "INVALID CONTROLLER IDENTIFIER" },
{ NVME_SC_INVALID_SEC_CTRLR_STATE, "INVALID SECONDARY CONTROLLER STATE" },
{ NVME_SC_INVALID_NUM_OF_CTRLR_RESRC, "INVALID NUMBER OF CONTROLLER RESOURCES" },
{ NVME_SC_INVALID_RESOURCE_ID, "INVALID RESOURCE IDENTIFIER" },
{ NVME_SC_SANITIZE_PROHIBITED_WPMRE, "SANITIZE PROHIBITED WRITE PERSISTENT MEMORY REGION ENABLED" },
{ NVME_SC_ANA_GROUP_ID_INVALID, "ANA GROUP IDENTIFIED INVALID" },
{ NVME_SC_ANA_ATTACH_FAILED, "ANA ATTACH FAILED" },
{ NVME_SC_CONFLICTING_ATTRIBUTES, "CONFLICTING ATTRIBUTES" },
{ NVME_SC_INVALID_PROTECTION_INFO, "INVALID PROTECTION INFO" },
{ NVME_SC_ATTEMPTED_WRITE_TO_RO_PAGE, "WRITE TO RO PAGE" },
{ 0xFFFF, "COMMAND SPECIFIC" }
};
static struct nvme_status_string media_error_status[] = {
{ NVME_SC_WRITE_FAULTS, "WRITE FAULTS" },
{ NVME_SC_UNRECOVERED_READ_ERROR, "UNRECOVERED READ ERROR" },
{ NVME_SC_GUARD_CHECK_ERROR, "GUARD CHECK ERROR" },
{ NVME_SC_APPLICATION_TAG_CHECK_ERROR, "APPLICATION TAG CHECK ERROR" },
{ NVME_SC_REFERENCE_TAG_CHECK_ERROR, "REFERENCE TAG CHECK ERROR" },
{ NVME_SC_COMPARE_FAILURE, "COMPARE FAILURE" },
{ NVME_SC_ACCESS_DENIED, "ACCESS DENIED" },
{ NVME_SC_DEALLOCATED_OR_UNWRITTEN, "DEALLOCATED OR UNWRITTEN LOGICAL BLOCK" },
{ 0xFFFF, "MEDIA ERROR" }
};
static struct nvme_status_string path_related_status[] = {
{ NVME_SC_INTERNAL_PATH_ERROR, "INTERNAL PATH ERROR" },
{ NVME_SC_ASYMMETRIC_ACCESS_PERSISTENT_LOSS, "ASYMMETRIC ACCESS PERSISTENT LOSS" },
{ NVME_SC_ASYMMETRIC_ACCESS_INACCESSIBLE, "ASYMMETRIC ACCESS INACCESSIBLE" },
{ NVME_SC_ASYMMETRIC_ACCESS_TRANSITION, "ASYMMETRIC ACCESS TRANSITION" },
{ NVME_SC_CONTROLLER_PATHING_ERROR, "CONTROLLER PATHING ERROR" },
{ NVME_SC_HOST_PATHING_ERROR, "HOST PATHING ERROR" },
{ NVME_SC_COMMAND_ABOTHED_BY_HOST, "COMMAND ABOTHED BY HOST" },
{ 0xFFFF, "PATH RELATED" },
};
static const char *
get_status_string(uint16_t sct, uint16_t sc)
{
struct nvme_status_string *entry;
switch (sct) {
case NVME_SCT_GENERIC:
entry = generic_status;
break;
case NVME_SCT_COMMAND_SPECIFIC:
entry = command_specific_status;
break;
case NVME_SCT_MEDIA_ERROR:
entry = media_error_status;
break;
case NVME_SCT_PATH_RELATED:
entry = path_related_status;
break;
case NVME_SCT_VENDOR_SPECIFIC:
return ("VENDOR SPECIFIC");
default:
return ("RESERVED");
}
while (entry->sc != 0xFFFF) {
if (entry->sc == sc)
return (entry->str);
entry++;
}
return (entry->str);
}
static void
nvme_qpair_print_completion(struct nvme_qpair *qpair,
struct nvme_completion *cpl)
{
uint16_t sct, sc;
sct = NVME_STATUS_GET_SCT(cpl->status);
sc = NVME_STATUS_GET_SC(cpl->status);
nvme_printf(qpair->ctrlr, "%s (%02x/%02x) sqid:%d cid:%d cdw0:%x\n",
get_status_string(sct, sc), sct, sc, cpl->sqid, cpl->cid,
cpl->cdw0);
}
static bool
nvme_completion_is_retry(const struct nvme_completion *cpl)
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
{
uint8_t sct, sc, dnr;
sct = NVME_STATUS_GET_SCT(cpl->status);
sc = NVME_STATUS_GET_SC(cpl->status);
dnr = NVME_STATUS_GET_DNR(cpl->status); /* Do Not Retry Bit */
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
/*
* TODO: spec is not clear how commands that are aborted due
* to TLER will be marked. So for now, it seems
* NAMESPACE_NOT_READY is the only case where we should
* look at the DNR bit. Requests failed with ABORTED_BY_REQUEST
* set the DNR bit correctly since the driver controls that.
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
*/
switch (sct) {
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
case NVME_SCT_GENERIC:
switch (sc) {
case NVME_SC_ABORTED_BY_REQUEST:
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
case NVME_SC_NAMESPACE_NOT_READY:
if (dnr)
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
return (0);
else
return (1);
case NVME_SC_INVALID_OPCODE:
case NVME_SC_INVALID_FIELD:
case NVME_SC_COMMAND_ID_CONFLICT:
case NVME_SC_DATA_TRANSFER_ERROR:
case NVME_SC_ABORTED_POWER_LOSS:
case NVME_SC_INTERNAL_DEVICE_ERROR:
case NVME_SC_ABORTED_SQ_DELETION:
case NVME_SC_ABORTED_FAILED_FUSED:
case NVME_SC_ABORTED_MISSING_FUSED:
case NVME_SC_INVALID_NAMESPACE_OR_FORMAT:
case NVME_SC_COMMAND_SEQUENCE_ERROR:
case NVME_SC_LBA_OUT_OF_RANGE:
case NVME_SC_CAPACITY_EXCEEDED:
default:
return (0);
}
case NVME_SCT_COMMAND_SPECIFIC:
case NVME_SCT_MEDIA_ERROR:
return (0);
case NVME_SCT_PATH_RELATED:
switch (sc) {
case NVME_SC_INTERNAL_PATH_ERROR:
if (dnr)
return (0);
else
return (1);
default:
return (0);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
case NVME_SCT_VENDOR_SPECIFIC:
default:
return (0);
}
}
static void
nvme_qpair_complete_tracker(struct nvme_tracker *tr,
struct nvme_completion *cpl, error_print_t print_on_error)
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
{
struct nvme_qpair * qpair = tr->qpair;
struct nvme_request *req;
bool retry, error, retriable;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
req = tr->req;
error = nvme_completion_is_error(cpl);
retriable = nvme_completion_is_retry(cpl);
retry = error && retriable && req->retries < nvme_retry_count;
if (retry)
qpair->num_retries++;
if (error && req->retries >= nvme_retry_count && retriable)
qpair->num_failures++;
if (error && (print_on_error == ERROR_PRINT_ALL ||
(!retry && print_on_error == ERROR_PRINT_NO_RETRY))) {
nvme_qpair_print_command(qpair, &req->cmd);
nvme_qpair_print_completion(qpair, cpl);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->act_tr[cpl->cid] = NULL;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
KASSERT(cpl->cid == req->cmd.cid, ("cpl cid does not match cmd cid\n"));
if (!retry) {
if (req->type != NVME_REQUEST_NULL) {
bus_dmamap_sync(qpair->dma_tag_payload,
tr->payload_dma_map,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
}
if (req->cb_fn)
req->cb_fn(req->cb_arg, cpl);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
mtx_lock(&qpair->lock);
callout_stop(&tr->timer);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
if (retry) {
req->retries++;
nvme_qpair_submit_tracker(qpair, tr);
} else {
if (req->type != NVME_REQUEST_NULL) {
bus_dmamap_unload(qpair->dma_tag_payload,
tr->payload_dma_map);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
nvme_free_request(req);
tr->req = NULL;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
TAILQ_REMOVE(&qpair->outstanding_tr, tr, tailq);
TAILQ_INSERT_HEAD(&qpair->free_tr, tr, tailq);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
/*
* If the controller is in the middle of resetting, don't
* try to submit queued requests here - let the reset logic
* handle that instead.
*/
if (!STAILQ_EMPTY(&qpair->queued_req) &&
!qpair->ctrlr->is_resetting) {
req = STAILQ_FIRST(&qpair->queued_req);
STAILQ_REMOVE_HEAD(&qpair->queued_req, stailq);
_nvme_qpair_submit_request(qpair, req);
}
}
mtx_unlock(&qpair->lock);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
static void
nvme_qpair_manual_complete_tracker(
struct nvme_tracker *tr, uint32_t sct, uint32_t sc, uint32_t dnr,
error_print_t print_on_error)
{
struct nvme_completion cpl;
memset(&cpl, 0, sizeof(cpl));
struct nvme_qpair * qpair = tr->qpair;
cpl.sqid = qpair->id;
cpl.cid = tr->cid;
cpl.status |= (sct & NVME_STATUS_SCT_MASK) << NVME_STATUS_SCT_SHIFT;
cpl.status |= (sc & NVME_STATUS_SC_MASK) << NVME_STATUS_SC_SHIFT;
cpl.status |= (dnr & NVME_STATUS_DNR_MASK) << NVME_STATUS_DNR_SHIFT;
nvme_qpair_complete_tracker(tr, &cpl, print_on_error);
}
void
nvme_qpair_manual_complete_request(struct nvme_qpair *qpair,
struct nvme_request *req, uint32_t sct, uint32_t sc)
{
struct nvme_completion cpl;
bool error;
memset(&cpl, 0, sizeof(cpl));
cpl.sqid = qpair->id;
cpl.status |= (sct & NVME_STATUS_SCT_MASK) << NVME_STATUS_SCT_SHIFT;
cpl.status |= (sc & NVME_STATUS_SC_MASK) << NVME_STATUS_SC_SHIFT;
error = nvme_completion_is_error(&cpl);
if (error) {
nvme_qpair_print_command(qpair, &req->cmd);
nvme_qpair_print_completion(qpair, &cpl);
}
if (req->cb_fn)
req->cb_fn(req->cb_arg, &cpl);
nvme_free_request(req);
}
bool
nvme_qpair_process_completions(struct nvme_qpair *qpair)
{
struct nvme_tracker *tr;
struct nvme_completion cpl;
int done = 0;
bool in_panic = dumping || SCHEDULER_STOPPED();
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->num_intr_handler_calls++;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
/*
* qpair is not enabled, likely because a controller reset is is in
* progress. Ignore the interrupt - any I/O that was associated with
* this interrupt will get retried when the reset is complete.
*/
if (!qpair->is_enabled)
return (false);
bus_dmamap_sync(qpair->dma_tag, qpair->queuemem_map,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
/*
* A panic can stop the CPU this routine is running on at any point. If
* we're called during a panic, complete the sq_head wrap protocol for
* the case where we are interrupted just after the increment at 1
* below, but before we can reset cq_head to zero at 2. Also cope with
* the case where we do the zero at 2, but may or may not have done the
* phase adjustment at step 3. The panic machinery flushes all pending
* memory writes, so we can make these strong ordering assumptions
* that would otherwise be unwise if we were racing in real time.
*/
if (__predict_false(in_panic)) {
if (qpair->cq_head == qpair->num_entries) {
/*
* Here we know that we need to zero cq_head and then negate
* the phase, which hasn't been assigned if cq_head isn't
* zero due to the atomic_store_rel.
*/
qpair->cq_head = 0;
qpair->phase = !qpair->phase;
} else if (qpair->cq_head == 0) {
/*
* In this case, we know that the assignment at 2
* happened below, but we don't know if it 3 happened or
* not. To do this, we look at the last completion
* entry and set the phase to the opposite phase
* that it has. This gets us back in sync
*/
cpl = qpair->cpl[qpair->num_entries - 1];
nvme_completion_swapbytes(&cpl);
qpair->phase = !NVME_STATUS_GET_P(cpl.status);
}
}
while (1) {
cpl = qpair->cpl[qpair->cq_head];
/* Convert to host endian */
nvme_completion_swapbytes(&cpl);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
if (NVME_STATUS_GET_P(cpl.status) != qpair->phase)
break;
tr = qpair->act_tr[cpl.cid];
if (tr != NULL) {
nvme_qpair_complete_tracker(tr, &cpl, ERROR_PRINT_ALL);
qpair->sq_head = cpl.sqhd;
done++;
} else if (!in_panic) {
/*
* A missing tracker is normally an error. However, a
* panic can stop the CPU this routine is running on
* after completing an I/O but before updating
* qpair->cq_head at 1 below. Later, we re-enter this
* routine to poll I/O associated with the kernel
* dump. We find that the tr has been set to null before
* calling the completion routine. If it hasn't
* completed (or it triggers a panic), then '1' below
* won't have updated cq_head. Rather than panic again,
* ignore this condition because it's not unexpected.
*/
nvme_printf(qpair->ctrlr,
"cpl does not map to outstanding cmd\n");
/* nvme_dump_completion expects device endianess */
nvme_dump_completion(&qpair->cpl[qpair->cq_head]);
KASSERT(0, ("received completion for unknown cmd"));
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
/*
* There's a number of races with the following (see above) when
* the system panics. We compensate for each one of them by
* using the atomic store to force strong ordering (at least when
* viewed in the aftermath of a panic).
*/
if (++qpair->cq_head == qpair->num_entries) { /* 1 */
atomic_store_rel_int(&qpair->cq_head, 0); /* 2 */
qpair->phase = !qpair->phase; /* 3 */
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
bus_space_write_4(qpair->ctrlr->bus_tag, qpair->ctrlr->bus_handle,
qpair->cq_hdbl_off, qpair->cq_head);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
return (done != 0);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
static void
nvme_qpair_msix_handler(void *arg)
{
struct nvme_qpair *qpair = arg;
nvme_qpair_process_completions(qpair);
}
int
nvme_qpair_construct(struct nvme_qpair *qpair,
uint32_t num_entries, uint32_t num_trackers,
struct nvme_controller *ctrlr)
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
{
struct nvme_tracker *tr;
size_t cmdsz, cplsz, prpsz, allocsz, prpmemsz;
uint64_t queuemem_phys, prpmem_phys, list_phys;
uint8_t *queuemem, *prpmem, *prp_list;
int i, err;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->vector = ctrlr->msix_enabled ? qpair->id : 0;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->num_entries = num_entries;
qpair->num_trackers = num_trackers;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->ctrlr = ctrlr;
if (ctrlr->msix_enabled) {
/*
* MSI-X vector resource IDs start at 1, so we add one to
* the queue's vector to get the corresponding rid to use.
*/
qpair->rid = qpair->vector + 1;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->res = bus_alloc_resource_any(ctrlr->dev, SYS_RES_IRQ,
&qpair->rid, RF_ACTIVE);
if (bus_setup_intr(ctrlr->dev, qpair->res,
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
INTR_TYPE_MISC | INTR_MPSAFE, NULL,
nvme_qpair_msix_handler, qpair, &qpair->tag) != 0) {
nvme_printf(ctrlr, "unable to setup intx handler\n");
goto out;
}
if (qpair->id == 0) {
bus_describe_intr(ctrlr->dev, qpair->res, qpair->tag,
"admin");
} else {
bus_describe_intr(ctrlr->dev, qpair->res, qpair->tag,
"io%d", qpair->id - 1);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
mtx_init(&qpair->lock, "nvme qpair lock", NULL, MTX_DEF);
/* Note: NVMe PRP format is restricted to 4-byte alignment. */
err = bus_dma_tag_create(bus_get_dma_tag(ctrlr->dev),
4, PAGE_SIZE, BUS_SPACE_MAXADDR,
BUS_SPACE_MAXADDR, NULL, NULL, ctrlr->max_xfer_size,
btoc(ctrlr->max_xfer_size) + 1, PAGE_SIZE, 0,
NULL, NULL, &qpair->dma_tag_payload);
if (err != 0) {
nvme_printf(ctrlr, "payload tag create failed %d\n", err);
goto out;
}
/*
* Each component must be page aligned, and individual PRP lists
* cannot cross a page boundary.
*/
cmdsz = qpair->num_entries * sizeof(struct nvme_command);
cmdsz = roundup2(cmdsz, PAGE_SIZE);
cplsz = qpair->num_entries * sizeof(struct nvme_completion);
cplsz = roundup2(cplsz, PAGE_SIZE);
/*
* For commands requiring more than 2 PRP entries, one PRP will be
* embedded in the command (prp1), and the rest of the PRP entries
* will be in a list pointed to by the command (prp2).
*/
prpsz = sizeof(uint64_t) * btoc(ctrlr->max_xfer_size);
prpmemsz = qpair->num_trackers * prpsz;
allocsz = cmdsz + cplsz + prpmemsz;
err = bus_dma_tag_create(bus_get_dma_tag(ctrlr->dev),
PAGE_SIZE, 0, BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL,
allocsz, 1, allocsz, 0, NULL, NULL, &qpair->dma_tag);
if (err != 0) {
nvme_printf(ctrlr, "tag create failed %d\n", err);
goto out;
}
bus_dma_tag_set_domain(qpair->dma_tag, qpair->domain);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
if (bus_dmamem_alloc(qpair->dma_tag, (void **)&queuemem,
BUS_DMA_COHERENT | BUS_DMA_NOWAIT, &qpair->queuemem_map)) {
nvme_printf(ctrlr, "failed to alloc qpair memory\n");
goto out;
}
if (bus_dmamap_load(qpair->dma_tag, qpair->queuemem_map,
queuemem, allocsz, nvme_single_map, &queuemem_phys, 0) != 0) {
nvme_printf(ctrlr, "failed to load qpair memory\n");
bus_dmamem_free(qpair->dma_tag, qpair->cmd,
qpair->queuemem_map);
goto out;
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->num_cmds = 0;
qpair->num_intr_handler_calls = 0;
qpair->num_retries = 0;
qpair->num_failures = 0;
qpair->cmd = (struct nvme_command *)queuemem;
qpair->cpl = (struct nvme_completion *)(queuemem + cmdsz);
prpmem = (uint8_t *)(queuemem + cmdsz + cplsz);
qpair->cmd_bus_addr = queuemem_phys;
qpair->cpl_bus_addr = queuemem_phys + cmdsz;
prpmem_phys = queuemem_phys + cmdsz + cplsz;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
/*
* Calcuate the stride of the doorbell register. Many emulators set this
* value to correspond to a cache line. However, some hardware has set
* it to various small values.
*/
qpair->sq_tdbl_off = nvme_mmio_offsetof(doorbell[0]) +
(qpair->id << (ctrlr->dstrd + 1));
qpair->cq_hdbl_off = nvme_mmio_offsetof(doorbell[0]) +
(qpair->id << (ctrlr->dstrd + 1)) + (1 << ctrlr->dstrd);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
TAILQ_INIT(&qpair->free_tr);
TAILQ_INIT(&qpair->outstanding_tr);
STAILQ_INIT(&qpair->queued_req);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
list_phys = prpmem_phys;
prp_list = prpmem;
for (i = 0; i < qpair->num_trackers; i++) {
if (list_phys + prpsz > prpmem_phys + prpmemsz) {
qpair->num_trackers = i;
break;
}
/*
* Make sure that the PRP list for this tracker doesn't
* overflow to another page.
*/
if (trunc_page(list_phys) !=
trunc_page(list_phys + prpsz - 1)) {
list_phys = roundup2(list_phys, PAGE_SIZE);
prp_list =
(uint8_t *)roundup2((uintptr_t)prp_list, PAGE_SIZE);
}
tr = malloc_domainset(sizeof(*tr), M_NVME,
DOMAINSET_PREF(qpair->domain), M_ZERO | M_WAITOK);
bus_dmamap_create(qpair->dma_tag_payload, 0,
&tr->payload_dma_map);
callout_init(&tr->timer, 1);
tr->cid = i;
tr->qpair = qpair;
tr->prp = (uint64_t *)prp_list;
tr->prp_bus_addr = list_phys;
TAILQ_INSERT_HEAD(&qpair->free_tr, tr, tailq);
list_phys += prpsz;
prp_list += prpsz;
}
if (qpair->num_trackers == 0) {
nvme_printf(ctrlr, "failed to allocate enough trackers\n");
goto out;
}
qpair->act_tr = malloc_domainset(sizeof(struct nvme_tracker *) *
qpair->num_entries, M_NVME, DOMAINSET_PREF(qpair->domain),
M_ZERO | M_WAITOK);
return (0);
out:
nvme_qpair_destroy(qpair);
return (ENOMEM);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
static void
nvme_qpair_destroy(struct nvme_qpair *qpair)
{
struct nvme_tracker *tr;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
if (qpair->tag) {
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
bus_teardown_intr(qpair->ctrlr->dev, qpair->res, qpair->tag);
qpair->tag = NULL;
}
if (qpair->act_tr) {
free(qpair->act_tr, M_NVME);
qpair->act_tr = NULL;
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
while (!TAILQ_EMPTY(&qpair->free_tr)) {
tr = TAILQ_FIRST(&qpair->free_tr);
TAILQ_REMOVE(&qpair->free_tr, tr, tailq);
bus_dmamap_destroy(qpair->dma_tag_payload,
tr->payload_dma_map);
free(tr, M_NVME);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
if (qpair->cmd != NULL) {
bus_dmamap_unload(qpair->dma_tag, qpair->queuemem_map);
bus_dmamem_free(qpair->dma_tag, qpair->cmd,
qpair->queuemem_map);
qpair->cmd = NULL;
}
if (qpair->dma_tag) {
bus_dma_tag_destroy(qpair->dma_tag);
qpair->dma_tag = NULL;
}
if (qpair->dma_tag_payload) {
bus_dma_tag_destroy(qpair->dma_tag_payload);
qpair->dma_tag_payload = NULL;
}
if (mtx_initialized(&qpair->lock))
mtx_destroy(&qpair->lock);
if (qpair->res) {
bus_release_resource(qpair->ctrlr->dev, SYS_RES_IRQ,
rman_get_rid(qpair->res), qpair->res);
qpair->res = NULL;
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
static void
nvme_admin_qpair_abort_aers(struct nvme_qpair *qpair)
{
struct nvme_tracker *tr;
tr = TAILQ_FIRST(&qpair->outstanding_tr);
while (tr != NULL) {
if (tr->req->cmd.opc == NVME_OPC_ASYNC_EVENT_REQUEST) {
nvme_qpair_manual_complete_tracker(tr,
NVME_SCT_GENERIC, NVME_SC_ABORTED_SQ_DELETION, 0,
ERROR_PRINT_NONE);
tr = TAILQ_FIRST(&qpair->outstanding_tr);
} else {
tr = TAILQ_NEXT(tr, tailq);
}
}
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
void
nvme_admin_qpair_destroy(struct nvme_qpair *qpair)
{
nvme_admin_qpair_abort_aers(qpair);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
nvme_qpair_destroy(qpair);
}
void
nvme_io_qpair_destroy(struct nvme_qpair *qpair)
{
nvme_qpair_destroy(qpair);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
static void
nvme_abort_complete(void *arg, const struct nvme_completion *status)
{
struct nvme_tracker *tr = arg;
/*
* If cdw0 == 1, the controller was not able to abort the command
* we requested. We still need to check the active tracker array,
* to cover race where I/O timed out at same time controller was
* completing the I/O.
*/
if (status->cdw0 == 1 && tr->qpair->act_tr[tr->cid] != NULL) {
/*
* An I/O has timed out, and the controller was unable to
* abort it for some reason. Construct a fake completion
* status, and then complete the I/O's tracker manually.
*/
nvme_printf(tr->qpair->ctrlr,
"abort command failed, aborting command manually\n");
nvme_qpair_manual_complete_tracker(tr,
NVME_SCT_GENERIC, NVME_SC_ABORTED_BY_REQUEST, 0, ERROR_PRINT_ALL);
}
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
static void
nvme_timeout(void *arg)
{
struct nvme_tracker *tr = arg;
struct nvme_qpair *qpair = tr->qpair;
struct nvme_controller *ctrlr = qpair->ctrlr;
uint32_t csts;
uint8_t cfs;
/*
* Read csts to get value of cfs - controller fatal status.
* If no fatal status, try to call the completion routine, and
* if completes transactions, report a missed interrupt and
* return (this may need to be rate limited). Otherwise, if
* aborts are enabled and the controller is not reporting
* fatal status, abort the command. Otherwise, just reset the
* controller and hope for the best.
*/
csts = nvme_mmio_read_4(ctrlr, csts);
cfs = (csts >> NVME_CSTS_REG_CFS_SHIFT) & NVME_CSTS_REG_CFS_MASK;
if (cfs == 0 && nvme_qpair_process_completions(qpair)) {
nvme_printf(ctrlr, "Missing interrupt\n");
return;
}
if (ctrlr->enable_aborts && cfs == 0) {
nvme_printf(ctrlr, "Aborting command due to a timeout.\n");
nvme_ctrlr_cmd_abort(ctrlr, tr->cid, qpair->id,
nvme_abort_complete, tr);
} else {
nvme_printf(ctrlr, "Resetting controller due to a timeout%s.\n",
(csts == NVME_GONE) ? " and possible hot unplug" :
(cfs ? " and fatal error status" : ""));
nvme_ctrlr_reset(ctrlr);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
}
void
nvme_qpair_submit_tracker(struct nvme_qpair *qpair, struct nvme_tracker *tr)
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
{
struct nvme_request *req;
struct nvme_controller *ctrlr;
int timeout;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
mtx_assert(&qpair->lock, MA_OWNED);
req = tr->req;
req->cmd.cid = tr->cid;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->act_tr[tr->cid] = tr;
ctrlr = qpair->ctrlr;
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
if (req->timeout) {
if (req->cb_fn == nvme_completion_poll_cb)
timeout = hz;
else
timeout = ctrlr->timeout_period * hz;
callout_reset_on(&tr->timer, timeout, nvme_timeout, tr,
qpair->cpu);
}
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
/* Copy the command from the tracker to the submission queue. */
memcpy(&qpair->cmd[qpair->sq_tail], &req->cmd, sizeof(req->cmd));
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
if (++qpair->sq_tail == qpair->num_entries)
qpair->sq_tail = 0;
bus_dmamap_sync(qpair->dma_tag, qpair->queuemem_map,
BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
bus_space_write_4(qpair->ctrlr->bus_tag, qpair->ctrlr->bus_handle,
qpair->sq_tdbl_off, qpair->sq_tail);
This is the first of several commits which will add NVM Express (NVMe) support to FreeBSD. A full description of the overall functionality being added is below. nvmexpress.org defines NVM Express as "an optimized register interface, command set and feature set fo PCI Express (PCIe)-based Solid-State Drives (SSDs)." This commit adds nvme(4) and nvd(4) driver source code and Makefiles to the tree. Full NVMe functionality description: Add nvme(4) and nvd(4) drivers and nvmecontrol(8) for NVM Express (NVMe) device support. There will continue to be ongoing work on NVM Express support, but there is more than enough to allow for evaluation of pre-production NVM Express devices as well as soliciting feedback. Questions and feedback are welcome. nvme(4) implements NVMe hardware abstraction and is a provider of NVMe namespaces. The closest equivalent of an NVMe namespace is a SCSI LUN. nvd(4) is an NVMe consumer, surfacing NVMe namespaces as GEOM disks. nvmecontrol(8) is used for NVMe configuration and management. The following are currently supported: nvme(4) - full mandatory NVM command set support - per-CPU IO queues (enabled by default but configurable) - per-queue sysctls for statistics and full command/completion queue dumps for debugging - registration API for NVMe namespace consumers - I/O error handling (except for timeoutsee below) - compilation switches for support back to stable-7 nvd(4) - BIO_DELETE and BIO_FLUSH (if supported by controller) - proper BIO_ORDERED handling nvmecontrol(8) - devlist: list NVMe controllers and their namespaces - identify: display controller or namespace identify data in human-readable or hex format - perftest: quick and dirty performance test to measure raw performance of NVMe device without userspace/physio/GEOM overhead The following are still work in progress and will be completed over the next 3-6 months in rough priority order: - complete man pages - firmware download and activation - asynchronous error requests - command timeout error handling - controller resets - nvmecontrol(8) log page retrieval This has been primarily tested on amd64, with light testing on i386. I would be happy to provide assistance to anyone interested in porting this to other architectures, but am not currently planning to do this work myself. Big-endian and dmamap sync for command/completion queues are the main areas that would need to be addressed. The nvme(4) driver currently has references to Chatham, which is an Intel-developed prototype board which is not fully spec compliant. These references will all be removed over time. Sponsored by: Intel Contributions from: Joe Golio/EMC <joseph dot golio at emc dot com>
2012-09-17 19:23:01 +00:00
qpair->num_cmds++;
}
static void
nvme_payload_map(void *arg, bus_dma_segment_t *seg, int nseg, int error)
{
struct nvme_tracker *tr = arg;
uint32_t cur_nseg;
/*
* If the mapping operation failed, return immediately. The caller
* is responsible for detecting the error status and failing the
* tracker manually.
*/
if (error != 0) {
nvme_printf(tr->qpair->ctrlr,
"nvme_payload_map err %d\n", error);
return;
}
/*
* Note that we specified PAGE_SIZE for alignment and max
* segment size when creating the bus dma tags. So here
* we can safely just transfer each segment to its
* associated PRP entry.
*/
tr->req->cmd.prp1 = htole64(seg[0].ds_addr);
if (nseg == 2) {
tr->req->cmd.prp2 = htole64(seg[1].ds_addr);
} else if (nseg > 2) {
cur_nseg = 1;
tr->req->cmd.prp2 = htole64((uint64_t)tr->prp_bus_addr);
while (cur_nseg < nseg) {
tr->prp[cur_nseg-1] =
htole64((uint64_t)seg[cur_nseg].ds_addr);
cur_nseg++;
}
} else {
/*
* prp2 should not be used by the controller
* since there is only one segment, but set
* to 0 just to be safe.
*/
tr->req->cmd.prp2 = 0;
}
bus_dmamap_sync(tr->qpair->dma_tag_payload, tr->payload_dma_map,
BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
nvme_qpair_submit_tracker(tr->qpair, tr);
}
static void
_nvme_qpair_submit_request(struct nvme_qpair *qpair, struct nvme_request *req)
{
struct nvme_tracker *tr;
int err = 0;
mtx_assert(&qpair->lock, MA_OWNED);
tr = TAILQ_FIRST(&qpair->free_tr);
req->qpair = qpair;
if (tr == NULL || !qpair->is_enabled) {
/*
* No tracker is available, or the qpair is disabled due to
* an in-progress controller-level reset or controller
* failure.
*/
if (qpair->ctrlr->is_failed) {
/*
* The controller has failed. Post the request to a
* task where it will be aborted, so that we do not
* invoke the request's callback in the context
* of the submission.
*/
nvme_ctrlr_post_failed_request(qpair->ctrlr, req);
} else {
/*
* Put the request on the qpair's request queue to be
* processed when a tracker frees up via a command
* completion or when the controller reset is
* completed.
*/
STAILQ_INSERT_TAIL(&qpair->queued_req, req, stailq);
}
return;
}
TAILQ_REMOVE(&qpair->free_tr, tr, tailq);
TAILQ_INSERT_TAIL(&qpair->outstanding_tr, tr, tailq);
tr->req = req;
switch (req->type) {
case NVME_REQUEST_VADDR:
KASSERT(req->payload_size <= qpair->ctrlr->max_xfer_size,
("payload_size (%d) exceeds max_xfer_size (%d)\n",
req->payload_size, qpair->ctrlr->max_xfer_size));
err = bus_dmamap_load(tr->qpair->dma_tag_payload,
tr->payload_dma_map, req->u.payload, req->payload_size,
nvme_payload_map, tr, 0);
if (err != 0)
nvme_printf(qpair->ctrlr,
"bus_dmamap_load returned 0x%x!\n", err);
break;
case NVME_REQUEST_NULL:
nvme_qpair_submit_tracker(tr->qpair, tr);
break;
case NVME_REQUEST_BIO:
KASSERT(req->u.bio->bio_bcount <= qpair->ctrlr->max_xfer_size,
("bio->bio_bcount (%jd) exceeds max_xfer_size (%d)\n",
(intmax_t)req->u.bio->bio_bcount,
qpair->ctrlr->max_xfer_size));
err = bus_dmamap_load_bio(tr->qpair->dma_tag_payload,
tr->payload_dma_map, req->u.bio, nvme_payload_map, tr, 0);
if (err != 0)
nvme_printf(qpair->ctrlr,
"bus_dmamap_load_bio returned 0x%x!\n", err);
break;
case NVME_REQUEST_CCB:
err = bus_dmamap_load_ccb(tr->qpair->dma_tag_payload,
tr->payload_dma_map, req->u.payload,
nvme_payload_map, tr, 0);
if (err != 0)
nvme_printf(qpair->ctrlr,
"bus_dmamap_load_ccb returned 0x%x!\n", err);
break;
default:
panic("unknown nvme request type 0x%x\n", req->type);
break;
}
if (err != 0) {
/*
* The dmamap operation failed, so we manually fail the
* tracker here with DATA_TRANSFER_ERROR status.
*
* nvme_qpair_manual_complete_tracker must not be called
* with the qpair lock held.
*/
mtx_unlock(&qpair->lock);
nvme_qpair_manual_complete_tracker(tr, NVME_SCT_GENERIC,
NVME_SC_DATA_TRANSFER_ERROR, DO_NOT_RETRY, ERROR_PRINT_ALL);
mtx_lock(&qpair->lock);
}
}
void
nvme_qpair_submit_request(struct nvme_qpair *qpair, struct nvme_request *req)
{
mtx_lock(&qpair->lock);
_nvme_qpair_submit_request(qpair, req);
mtx_unlock(&qpair->lock);
}
static void
nvme_qpair_enable(struct nvme_qpair *qpair)
{
qpair->is_enabled = true;
}
void
nvme_qpair_reset(struct nvme_qpair *qpair)
{
qpair->sq_head = qpair->sq_tail = qpair->cq_head = 0;
/*
* First time through the completion queue, HW will set phase
* bit on completions to 1. So set this to 1 here, indicating
* we're looking for a 1 to know which entries have completed.
* we'll toggle the bit each time when the completion queue
* rolls over.
*/
qpair->phase = 1;
memset(qpair->cmd, 0,
qpair->num_entries * sizeof(struct nvme_command));
memset(qpair->cpl, 0,
qpair->num_entries * sizeof(struct nvme_completion));
}
void
nvme_admin_qpair_enable(struct nvme_qpair *qpair)
{
struct nvme_tracker *tr;
struct nvme_tracker *tr_temp;
/*
* Manually abort each outstanding admin command. Do not retry
* admin commands found here, since they will be left over from
* a controller reset and its likely the context in which the
* command was issued no longer applies.
*/
TAILQ_FOREACH_SAFE(tr, &qpair->outstanding_tr, tailq, tr_temp) {
nvme_printf(qpair->ctrlr,
"aborting outstanding admin command\n");
nvme_qpair_manual_complete_tracker(tr, NVME_SCT_GENERIC,
NVME_SC_ABORTED_BY_REQUEST, DO_NOT_RETRY, ERROR_PRINT_ALL);
}
nvme_qpair_enable(qpair);
}
void
nvme_io_qpair_enable(struct nvme_qpair *qpair)
{
STAILQ_HEAD(, nvme_request) temp;
struct nvme_tracker *tr;
struct nvme_tracker *tr_temp;
struct nvme_request *req;
/*
* Manually abort each outstanding I/O. This normally results in a
* retry, unless the retry count on the associated request has
* reached its limit.
*/
TAILQ_FOREACH_SAFE(tr, &qpair->outstanding_tr, tailq, tr_temp) {
nvme_printf(qpair->ctrlr, "aborting outstanding i/o\n");
nvme_qpair_manual_complete_tracker(tr, NVME_SCT_GENERIC,
NVME_SC_ABORTED_BY_REQUEST, 0, ERROR_PRINT_NO_RETRY);
}
mtx_lock(&qpair->lock);
nvme_qpair_enable(qpair);
STAILQ_INIT(&temp);
STAILQ_SWAP(&qpair->queued_req, &temp, nvme_request);
while (!STAILQ_EMPTY(&temp)) {
req = STAILQ_FIRST(&temp);
STAILQ_REMOVE_HEAD(&temp, stailq);
nvme_printf(qpair->ctrlr, "resubmitting queued i/o\n");
nvme_qpair_print_command(qpair, &req->cmd);
_nvme_qpair_submit_request(qpair, req);
}
mtx_unlock(&qpair->lock);
}
static void
nvme_qpair_disable(struct nvme_qpair *qpair)
{
struct nvme_tracker *tr;
qpair->is_enabled = false;
mtx_lock(&qpair->lock);
TAILQ_FOREACH(tr, &qpair->outstanding_tr, tailq)
callout_stop(&tr->timer);
mtx_unlock(&qpair->lock);
}
void
nvme_admin_qpair_disable(struct nvme_qpair *qpair)
{
nvme_qpair_disable(qpair);
nvme_admin_qpair_abort_aers(qpair);
}
void
nvme_io_qpair_disable(struct nvme_qpair *qpair)
{
nvme_qpair_disable(qpair);
}
void
nvme_qpair_fail(struct nvme_qpair *qpair)
{
struct nvme_tracker *tr;
struct nvme_request *req;
if (!mtx_initialized(&qpair->lock))
return;
mtx_lock(&qpair->lock);
while (!STAILQ_EMPTY(&qpair->queued_req)) {
req = STAILQ_FIRST(&qpair->queued_req);
STAILQ_REMOVE_HEAD(&qpair->queued_req, stailq);
nvme_printf(qpair->ctrlr, "failing queued i/o\n");
mtx_unlock(&qpair->lock);
nvme_qpair_manual_complete_request(qpair, req, NVME_SCT_GENERIC,
NVME_SC_ABORTED_BY_REQUEST);
mtx_lock(&qpair->lock);
}
/* Manually abort each outstanding I/O. */
while (!TAILQ_EMPTY(&qpair->outstanding_tr)) {
tr = TAILQ_FIRST(&qpair->outstanding_tr);
/*
* Do not remove the tracker. The abort_tracker path will
* do that for us.
*/
nvme_printf(qpair->ctrlr, "failing outstanding i/o\n");
mtx_unlock(&qpair->lock);
nvme_qpair_manual_complete_tracker(tr, NVME_SCT_GENERIC,
NVME_SC_ABORTED_BY_REQUEST, DO_NOT_RETRY, ERROR_PRINT_ALL);
mtx_lock(&qpair->lock);
}
mtx_unlock(&qpair->lock);
}