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14a18cca32
numam-spdk/lib/nvmf/ctrlr_bdev.c
Changpeng Liu 14a18cca32 nvmf: don't submit FLUSH command to backend which can't support it 
As for NVMeoF controller, SPDK always set volatile write cache to
present, so OS may submit FLUSH command to backend block device,
while here, return success for those block devices which can't
support FLUSH command.

Change-Id: Ib764503f1986e7e0a38a1751a91d6c11e1b78865
Signed-off-by: Changpeng Liu <changpeng.liu@intel.com>
Reviewed-on: https://review.gerrithub.io/402653
Tested-by: SPDK Automated Test System <sys_sgsw@intel.com>
Reviewed-by: Daniel Verkamp <daniel.verkamp@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
2018-03-07 10:18:19 -05:00

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/*-
* BSD LICENSE
*
* Copyright (c) Intel Corporation.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * 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.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT
* OWNER 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 "spdk/stdinc.h"
#include "nvmf_internal.h"
#include "spdk/bdev.h"
#include "spdk/endian.h"
#include "spdk/io_channel.h"
#include "spdk/likely.h"
#include "spdk/nvme.h"
#include "spdk/nvmf_spec.h"
#include "spdk/trace.h"
#include "spdk/scsi_spec.h"
#include "spdk/string.h"
#include "spdk/util.h"
#include "spdk_internal/log.h"
static bool
spdk_nvmf_subsystem_bdev_io_type_supported(struct spdk_nvmf_subsystem *subsystem,
enum spdk_bdev_io_type io_type)
{
struct spdk_nvmf_ns *ns;
for (ns = spdk_nvmf_subsystem_get_first_ns(subsystem); ns != NULL;
ns = spdk_nvmf_subsystem_get_next_ns(subsystem, ns)) {
if (ns->bdev == NULL) {
continue;
}
if (!spdk_bdev_io_type_supported(ns->bdev, io_type)) {
SPDK_DEBUGLOG(SPDK_LOG_NVMF,
"Subsystem %s namespace %u (%s) does not support io_type %d\n",
spdk_nvmf_subsystem_get_nqn(subsystem),
ns->opts.nsid, spdk_bdev_get_name(ns->bdev), (int)io_type);
return false;
}
}
SPDK_DEBUGLOG(SPDK_LOG_NVMF, "All devices in Subsystem %s support io_type %d\n",
spdk_nvmf_subsystem_get_nqn(subsystem), (int)io_type);
return true;
}
bool
spdk_nvmf_ctrlr_dsm_supported(struct spdk_nvmf_ctrlr *ctrlr)
{
return spdk_nvmf_subsystem_bdev_io_type_supported(ctrlr->subsys, SPDK_BDEV_IO_TYPE_UNMAP);
}
bool
spdk_nvmf_ctrlr_write_zeroes_supported(struct spdk_nvmf_ctrlr *ctrlr)
{
return spdk_nvmf_subsystem_bdev_io_type_supported(ctrlr->subsys, SPDK_BDEV_IO_TYPE_WRITE_ZEROES);
}
static void
nvmf_bdev_ctrlr_complete_cmd(struct spdk_bdev_io *bdev_io, bool success,
void *cb_arg)
{
struct spdk_nvmf_request *req = cb_arg;
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
int sc, sct;
spdk_bdev_io_get_nvme_status(bdev_io, &sc, &sct);
response->status.sc = sc;
response->status.sct = sct;
spdk_nvmf_request_complete(req);
spdk_bdev_free_io(bdev_io);
}
int
spdk_nvmf_bdev_ctrlr_identify_ns(struct spdk_nvmf_ns *ns, struct spdk_nvme_ns_data *nsdata)
{
struct spdk_bdev *bdev = ns->bdev;
uint64_t num_blocks;
num_blocks = spdk_bdev_get_num_blocks(bdev);
nsdata->nsze = num_blocks;
nsdata->ncap = num_blocks;
nsdata->nuse = num_blocks;
nsdata->nlbaf = 0;
nsdata->flbas.format = 0;
nsdata->lbaf[0].lbads = spdk_u32log2(spdk_bdev_get_block_size(bdev));
nsdata->noiob = spdk_bdev_get_optimal_io_boundary(bdev);
SPDK_STATIC_ASSERT(sizeof(nsdata->nguid) == sizeof(ns->opts.nguid), "size mismatch");
memcpy(nsdata->nguid, ns->opts.nguid, sizeof(nsdata->nguid));
SPDK_STATIC_ASSERT(sizeof(nsdata->eui64) == sizeof(ns->opts.eui64), "size mismatch");
memcpy(&nsdata->eui64, ns->opts.eui64, sizeof(nsdata->eui64));
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
static void
nvmf_bdev_ctrlr_get_rw_params(const struct spdk_nvme_cmd *cmd, uint64_t *start_lba,
uint64_t *num_blocks)
{
/* SLBA: CDW10 and CDW11 */
*start_lba = from_le64(&cmd->cdw10);
/* NLB: CDW12 bits 15:00, 0's based */
*num_blocks = (from_le32(&cmd->cdw12) & 0xFFFFu) + 1;
}
static bool
nvmf_bdev_ctrlr_lba_in_range(uint64_t bdev_num_blocks, uint64_t io_start_lba,
uint64_t io_num_blocks)
{
if (io_start_lba + io_num_blocks > bdev_num_blocks ||
io_start_lba + io_num_blocks < io_start_lba) {
return false;
}
return true;
}
static int
nvmf_bdev_ctrlr_read_cmd(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, struct spdk_nvmf_request *req)
{
uint64_t bdev_num_blocks = spdk_bdev_get_num_blocks(bdev);
uint32_t block_size = spdk_bdev_get_block_size(bdev);
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
uint64_t start_lba;
uint64_t num_blocks;
nvmf_bdev_ctrlr_get_rw_params(cmd, &start_lba, &num_blocks);
if (spdk_unlikely(!nvmf_bdev_ctrlr_lba_in_range(bdev_num_blocks, start_lba, num_blocks))) {
SPDK_ERRLOG("end of media\n");
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_LBA_OUT_OF_RANGE;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
if (spdk_unlikely(num_blocks * block_size > req->length)) {
SPDK_ERRLOG("Read NLB %" PRIu64 " * block size %" PRIu32 " > SGL length %" PRIu32 "\n",
num_blocks, block_size, req->length);
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_DATA_SGL_LENGTH_INVALID;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
spdk_trace_record(TRACE_NVMF_LIB_READ_START, 0, 0, (uint64_t)req, 0);
if (spdk_unlikely(spdk_bdev_read_blocks(desc, ch, req->data, start_lba, num_blocks,
nvmf_bdev_ctrlr_complete_cmd, req))) {
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_ASYNCHRONOUS;
}
static int
nvmf_bdev_ctrlr_write_cmd(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, struct spdk_nvmf_request *req)
{
uint64_t bdev_num_blocks = spdk_bdev_get_num_blocks(bdev);
uint32_t block_size = spdk_bdev_get_block_size(bdev);
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
uint64_t start_lba;
uint64_t num_blocks;
nvmf_bdev_ctrlr_get_rw_params(cmd, &start_lba, &num_blocks);
if (spdk_unlikely(!nvmf_bdev_ctrlr_lba_in_range(bdev_num_blocks, start_lba, num_blocks))) {
SPDK_ERRLOG("end of media\n");
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_LBA_OUT_OF_RANGE;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
if (spdk_unlikely(num_blocks * block_size > req->length)) {
SPDK_ERRLOG("Write NLB %" PRIu64 " * block size %" PRIu32 " > SGL length %" PRIu32 "\n",
num_blocks, block_size, req->length);
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_DATA_SGL_LENGTH_INVALID;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
spdk_trace_record(TRACE_NVMF_LIB_WRITE_START, 0, 0, (uint64_t)req, 0);
if (spdk_unlikely(spdk_bdev_write_blocks(desc, ch, req->data, start_lba, num_blocks,
nvmf_bdev_ctrlr_complete_cmd, req))) {
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_ASYNCHRONOUS;
}
static int
nvmf_bdev_ctrlr_write_zeroes_cmd(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, struct spdk_nvmf_request *req)
{
uint64_t bdev_num_blocks = spdk_bdev_get_num_blocks(bdev);
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
uint64_t start_lba;
uint64_t num_blocks;
nvmf_bdev_ctrlr_get_rw_params(cmd, &start_lba, &num_blocks);
if (spdk_unlikely(!nvmf_bdev_ctrlr_lba_in_range(bdev_num_blocks, start_lba, num_blocks))) {
SPDK_ERRLOG("end of media\n");
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_LBA_OUT_OF_RANGE;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
spdk_trace_record(TRACE_NVMF_LIB_WRITE_START, 0, 0, (uint64_t)req, 0);
if (spdk_unlikely(spdk_bdev_write_zeroes_blocks(desc, ch, start_lba, num_blocks,
nvmf_bdev_ctrlr_complete_cmd, req))) {
rsp->status.sct = SPDK_NVME_SCT_GENERIC;
rsp->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_ASYNCHRONOUS;
}
static int
nvmf_bdev_ctrlr_flush_cmd(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, struct spdk_nvmf_request *req)
{
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
/* As for NVMeoF controller, SPDK always set volatile write
* cache bit to 1, return success for those block devices
* which can't support FLUSH command.
*/
if (!spdk_bdev_io_type_supported(bdev, SPDK_BDEV_IO_TYPE_FLUSH)) {
response->status.sct = SPDK_NVME_SCT_GENERIC;
response->status.sc = SPDK_NVME_SC_SUCCESS;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
if (spdk_bdev_flush_blocks(desc, ch, 0, spdk_bdev_get_num_blocks(bdev),
nvmf_bdev_ctrlr_complete_cmd, req)) {
response->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_ASYNCHRONOUS;
}
struct nvmf_virtual_ctrlr_unmap {
struct spdk_nvmf_request *req;
uint32_t count;
};
static void
nvmf_virtual_ctrlr_dsm_cpl(struct spdk_bdev_io *bdev_io, bool success,
void *cb_arg)
{
struct nvmf_virtual_ctrlr_unmap *unmap_ctx = cb_arg;
struct spdk_nvmf_request *req = unmap_ctx->req;
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
int sc, sct;
unmap_ctx->count--;
if (response->status.sct == SPDK_NVME_SCT_GENERIC &&
response->status.sc == SPDK_NVME_SC_SUCCESS) {
spdk_bdev_io_get_nvme_status(bdev_io, &sc, &sct);
response->status.sc = sc;
response->status.sct = sct;
}
if (unmap_ctx->count == 0) {
spdk_nvmf_request_complete(req);
spdk_bdev_free_io(bdev_io);
free(unmap_ctx);
}
}
static int
nvmf_bdev_ctrlr_dsm_cmd(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, struct spdk_nvmf_request *req)
{
uint32_t attribute;
uint16_t nr, i;
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
nr = ((cmd->cdw10 & 0x000000ff) + 1);
if (nr * sizeof(struct spdk_nvme_dsm_range) > req->length) {
SPDK_ERRLOG("Dataset Management number of ranges > SGL length\n");
response->status.sc = SPDK_NVME_SC_DATA_SGL_LENGTH_INVALID;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
attribute = cmd->cdw11 & 0x00000007;
if (attribute & SPDK_NVME_DSM_ATTR_DEALLOCATE) {
struct nvmf_virtual_ctrlr_unmap *unmap_ctx;
struct spdk_nvme_dsm_range *dsm_range;
uint64_t lba;
uint32_t lba_count;
unmap_ctx = calloc(1, sizeof(*unmap_ctx));
if (!unmap_ctx) {
response->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
unmap_ctx->req = req;
response->status.sct = SPDK_NVME_SCT_GENERIC;
response->status.sc = SPDK_NVME_SC_SUCCESS;
dsm_range = (struct spdk_nvme_dsm_range *)req->data;
for (i = 0; i < nr; i++) {
lba = dsm_range[i].starting_lba;
lba_count = dsm_range[i].length;
unmap_ctx->count++;
if (spdk_bdev_unmap_blocks(desc, ch, lba, lba_count,
nvmf_virtual_ctrlr_dsm_cpl, unmap_ctx)) {
response->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
unmap_ctx->count--;
/* We can't return here - we may have to wait for any other
* unmaps already sent to complete */
break;
}
}
if (unmap_ctx->count == 0) {
free(unmap_ctx);
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_ASYNCHRONOUS;
}
response->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
static int
nvmf_bdev_ctrlr_nvme_passthru_io(struct spdk_bdev *bdev, struct spdk_bdev_desc *desc,
struct spdk_io_channel *ch, struct spdk_nvmf_request *req)
{
if (spdk_bdev_nvme_io_passthru(desc, ch, &req->cmd->nvme_cmd, req->data, req->length,
nvmf_bdev_ctrlr_complete_cmd, req)) {
req->rsp->nvme_cpl.status.sct = SPDK_NVME_SCT_GENERIC;
req->rsp->nvme_cpl.status.sc = SPDK_NVME_SC_INVALID_OPCODE;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_ASYNCHRONOUS;
}
int
spdk_nvmf_ctrlr_process_io_cmd(struct spdk_nvmf_request *req)
{
uint32_t nsid;
struct spdk_nvmf_ns *ns;
struct spdk_bdev *bdev;
struct spdk_bdev_desc *desc;
struct spdk_io_channel *ch;
struct spdk_nvmf_poll_group *group = req->qpair->group;
struct spdk_nvmf_ctrlr *ctrlr = req->qpair->ctrlr;
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
/* pre-set response details for this command */
response->status.sc = SPDK_NVME_SC_SUCCESS;
nsid = cmd->nsid;
if (spdk_unlikely(ctrlr == NULL)) {
SPDK_ERRLOG("I/O command sent before CONNECT\n");
response->status.sct = SPDK_NVME_SCT_GENERIC;
response->status.sc = SPDK_NVME_SC_COMMAND_SEQUENCE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
if (spdk_unlikely(ctrlr->vcprop.cc.bits.en != 1)) {
SPDK_ERRLOG("I/O command sent to disabled controller\n");
response->status.sct = SPDK_NVME_SCT_GENERIC;
response->status.sc = SPDK_NVME_SC_COMMAND_SEQUENCE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
ns = _spdk_nvmf_subsystem_get_ns(ctrlr->subsys, nsid);
if (ns == NULL || ns->bdev == NULL) {
SPDK_ERRLOG("Unsuccessful query for nsid %u\n", cmd->nsid);
response->status.sc = SPDK_NVME_SC_INVALID_NAMESPACE_OR_FORMAT;
response->status.dnr = 1;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
bdev = ns->bdev;
desc = ns->desc;
ch = group->sgroups[ctrlr->subsys->id].channels[nsid - 1];
switch (cmd->opc) {
case SPDK_NVME_OPC_READ:
return nvmf_bdev_ctrlr_read_cmd(bdev, desc, ch, req);
case SPDK_NVME_OPC_WRITE:
return nvmf_bdev_ctrlr_write_cmd(bdev, desc, ch, req);
case SPDK_NVME_OPC_WRITE_ZEROES:
return nvmf_bdev_ctrlr_write_zeroes_cmd(bdev, desc, ch, req);
case SPDK_NVME_OPC_FLUSH:
return nvmf_bdev_ctrlr_flush_cmd(bdev, desc, ch, req);
case SPDK_NVME_OPC_DATASET_MANAGEMENT:
return nvmf_bdev_ctrlr_dsm_cmd(bdev, desc, ch, req);
default:
return nvmf_bdev_ctrlr_nvme_passthru_io(bdev, desc, ch, req);
}
}
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