numam-spdk/lib/nvmf/session.c

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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 <arpa/inet.h>
#include <stdint.h>
#include <string.h>
#include "session.h"
#include "nvmf_internal.h"
#include "request.h"
#include "subsystem.h"
#include "transport.h"
#include "spdk/trace.h"
#include "spdk/nvme_spec.h"
#include "spdk_internal/log.h"
#define MIN_KEEP_ALIVE_TIMEOUT 10000
static void
nvmf_init_discovery_session_properties(struct spdk_nvmf_session *session)
{
session->vcdata.maxcmd = g_nvmf_tgt.max_queue_depth;
/* extended data for get log page supportted */
session->vcdata.lpa.edlp = 1;
session->vcdata.cntlid = session->cntlid;
session->vcdata.nvmf_specific.ioccsz = sizeof(struct spdk_nvme_cmd) / 16;
session->vcdata.nvmf_specific.iorcsz = sizeof(struct spdk_nvme_cpl) / 16;
session->vcdata.nvmf_specific.icdoff = 0; /* offset starts directly after SQE */
session->vcdata.nvmf_specific.ctrattr.ctrlr_model = SPDK_NVMF_CTRLR_MODEL_DYNAMIC;
session->vcdata.nvmf_specific.msdbd = 1; /* target supports single SGL in capsule */
session->vcdata.sgls.keyed_sgl = 1;
session->vcdata.sgls.sgl_offset = 1;
strncpy((char *)session->vcdata.subnqn, SPDK_NVMF_DISCOVERY_NQN, sizeof(session->vcdata.subnqn));
/* Properties */
session->vcprop.cap.raw = 0;
session->vcprop.cap.bits.cqr = 1; /* NVMF specification required */
session->vcprop.cap.bits.mqes = (session->vcdata.maxcmd - 1); /* max queue depth */
session->vcprop.cap.bits.ams = 0; /* optional arb mechanisms */
session->vcprop.cap.bits.dstrd = 0; /* fixed to 0 for NVMf */
session->vcprop.cap.bits.css_nvm = 1; /* NVM command set */
session->vcprop.cap.bits.mpsmin = 0; /* 2 ^ 12 + mpsmin == 4k */
session->vcprop.cap.bits.mpsmax = 0; /* 2 ^ 12 + mpsmax == 4k */
/* Version Supported: 1.2.1 */
session->vcprop.vs.bits.mjr = 1;
session->vcprop.vs.bits.mnr = 2;
session->vcprop.vs.bits.ter = 1;
session->vcdata.ver = session->vcprop.vs;
session->vcprop.cc.raw = 0;
session->vcprop.csts.raw = 0;
session->vcprop.csts.bits.rdy = 0; /* Init controller as not ready */
}
static void
nvmf_init_nvme_session_properties(struct spdk_nvmf_session *session)
{
assert((g_nvmf_tgt.max_io_size % 4096) == 0);
/* Init the controller details */
session->subsys->ops->ctrlr_get_data(session);
session->vcdata.aerl = 0;
session->vcdata.cntlid = session->cntlid;
session->vcdata.kas = 10;
session->vcdata.maxcmd = g_nvmf_tgt.max_queue_depth;
session->vcdata.mdts = nvmf_u32log2(g_nvmf_tgt.max_io_size / 4096);
session->vcdata.sgls.keyed_sgl = 1;
session->vcdata.sgls.sgl_offset = 1;
session->vcdata.nvmf_specific.ioccsz = sizeof(struct spdk_nvme_cmd) / 16;
session->vcdata.nvmf_specific.iorcsz = sizeof(struct spdk_nvme_cpl) / 16;
session->vcdata.nvmf_specific.icdoff = 0; /* offset starts directly after SQE */
session->vcdata.nvmf_specific.ctrattr.ctrlr_model = SPDK_NVMF_CTRLR_MODEL_DYNAMIC;
session->vcdata.nvmf_specific.msdbd = 1; /* target supports single SGL in capsule */
/* TODO: this should be set by the transport */
session->vcdata.nvmf_specific.ioccsz += g_nvmf_tgt.in_capsule_data_size / 16;
strncpy((char *)session->vcdata.subnqn, session->subsys->subnqn, sizeof(session->vcdata.subnqn));
SPDK_TRACELOG(SPDK_TRACE_NVMF, " ctrlr data: maxcmd %x\n",
session->vcdata.maxcmd);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " ext ctrlr data: ioccsz %x\n",
session->vcdata.nvmf_specific.ioccsz);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " ext ctrlr data: iorcsz %x\n",
session->vcdata.nvmf_specific.iorcsz);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " ext ctrlr data: icdoff %x\n",
session->vcdata.nvmf_specific.icdoff);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " ext ctrlr data: ctrattr %x\n",
*(uint8_t *)&session->vcdata.nvmf_specific.ctrattr);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " ext ctrlr data: msdbd %x\n",
session->vcdata.nvmf_specific.msdbd);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " sgls data: 0x%x\n",
*(uint32_t *)&session->vcdata.sgls);
session->vcprop.cap.raw = 0;
session->vcprop.cap.bits.cqr = 1;
session->vcprop.cap.bits.mqes = (session->vcdata.maxcmd - 1); /* max queue depth */
session->vcprop.cap.bits.ams = 0; /* optional arb mechanisms */
session->vcprop.cap.bits.to = 1; /* ready timeout - 500 msec units */
session->vcprop.cap.bits.dstrd = 0; /* fixed to 0 for NVMf */
session->vcprop.cap.bits.css_nvm = 1; /* NVM command set */
session->vcprop.cap.bits.mpsmin = 0; /* 2 ^ 12 + mpsmin == 4k */
session->vcprop.cap.bits.mpsmax = 0; /* 2 ^ 12 + mpsmax == 4k */
/* Report at least version 1.2.1 */
if (session->vcprop.vs.raw < SPDK_NVME_VERSION(1, 2, 1)) {
session->vcprop.vs.bits.mjr = 1;
session->vcprop.vs.bits.mnr = 2;
session->vcprop.vs.bits.ter = 1;
session->vcdata.ver = session->vcprop.vs;
}
session->vcprop.cc.raw = 0;
session->vcprop.cc.bits.en = 0; /* Init controller disabled */
session->vcprop.csts.raw = 0;
session->vcprop.csts.bits.rdy = 0; /* Init controller as not ready */
SPDK_TRACELOG(SPDK_TRACE_NVMF, " cap %" PRIx64 "\n",
session->vcprop.cap.raw);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " vs %x\n", session->vcprop.vs.raw);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " cc %x\n", session->vcprop.cc.raw);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " csts %x\n",
session->vcprop.csts.raw);
}
static void session_destruct(struct spdk_nvmf_session *session)
{
TAILQ_REMOVE(&session->subsys->sessions, session, link);
session->transport->session_fini(session);
}
void
spdk_nvmf_session_destruct(struct spdk_nvmf_session *session)
{
while (!TAILQ_EMPTY(&session->connections)) {
struct spdk_nvmf_conn *conn = TAILQ_FIRST(&session->connections);
TAILQ_REMOVE(&session->connections, conn, link);
session->num_connections--;
conn->transport->conn_fini(conn);
}
session_destruct(session);
}
static void
invalid_connect_response(struct spdk_nvmf_fabric_connect_rsp *rsp, uint8_t iattr, uint16_t ipo)
{
rsp->status.sct = SPDK_NVME_SCT_COMMAND_SPECIFIC;
rsp->status.sc = SPDK_NVMF_FABRIC_SC_INVALID_PARAM;
rsp->status_code_specific.invalid.iattr = iattr;
rsp->status_code_specific.invalid.ipo = ipo;
}
static uint16_t
spdk_nvmf_session_gen_cntlid(void)
{
static uint16_t cntlid = 0; /* cntlid is static, so its value is preserved */
struct spdk_nvmf_subsystem *subsystem;
uint16_t count;
count = UINT16_MAX - 1;
do {
/* cntlid is an unsigned 16-bit integer, so let it overflow
* back to 0 if necessary.
*/
cntlid++;
if (cntlid == 0) {
/* 0 is not a valid cntlid because it is the reserved value in the RDMA
* private data for cntlid. This is the value sent by pre-NVMe-oF 1.1
* initiators.
*/
cntlid++;
}
/* Check if a subsystem with this cntlid currently exists. This could
* happen for a very long-lived session on a target with many short-lived
* sessions, where cntlid wraps around.
*/
subsystem = spdk_nvmf_find_subsystem_with_cntlid(cntlid);
count--;
} while (subsystem != NULL && count > 0);
if (count == 0) {
return 0;
}
return cntlid;
}
void
spdk_nvmf_session_connect(struct spdk_nvmf_conn *conn,
struct spdk_nvmf_fabric_connect_cmd *cmd,
struct spdk_nvmf_fabric_connect_data *data,
struct spdk_nvmf_fabric_connect_rsp *rsp)
{
struct spdk_nvmf_session *session;
struct spdk_nvmf_subsystem *subsystem;
#define INVALID_CONNECT_CMD(field) invalid_connect_response(rsp, 0, offsetof(struct spdk_nvmf_fabric_connect_cmd, field))
#define INVALID_CONNECT_DATA(field) invalid_connect_response(rsp, 1, offsetof(struct spdk_nvmf_fabric_connect_data, field))
SPDK_TRACELOG(SPDK_TRACE_NVMF, "recfmt 0x%x qid %u sqsize %u\n",
cmd->recfmt, cmd->qid, cmd->sqsize);
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Connect data:\n");
SPDK_TRACELOG(SPDK_TRACE_NVMF, " cntlid: 0x%04x\n", data->cntlid);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " hostid: %08x-%04x-%04x-%02x%02x-%04x%08x ***\n",
ntohl(*(uint32_t *)&data->hostid[0]),
ntohs(*(uint16_t *)&data->hostid[4]),
ntohs(*(uint16_t *)&data->hostid[6]),
data->hostid[8],
data->hostid[9],
ntohs(*(uint16_t *)&data->hostid[10]),
ntohl(*(uint32_t *)&data->hostid[12]));
SPDK_TRACELOG(SPDK_TRACE_NVMF, " subnqn: \"%s\"\n", data->subnqn);
SPDK_TRACELOG(SPDK_TRACE_NVMF, " hostnqn: \"%s\"\n", data->hostnqn);
subsystem = nvmf_find_subsystem(data->subnqn);
if (subsystem == NULL) {
SPDK_ERRLOG("Could not find subsystem '%s'\n", data->subnqn);
INVALID_CONNECT_DATA(subnqn);
return;
}
/*
* SQSIZE is a 0-based value, so it must be at least 1 (minimum queue depth is 2) and
* strictly less than max_queue_depth.
*/
if (cmd->sqsize == 0 || cmd->sqsize >= g_nvmf_tgt.max_queue_depth) {
SPDK_ERRLOG("Invalid SQSIZE %u (min 1, max %u)\n",
cmd->sqsize, g_nvmf_tgt.max_queue_depth - 1);
INVALID_CONNECT_CMD(sqsize);
return;
}
conn->sq_head_max = cmd->sqsize;
if (cmd->qid == 0) {
conn->type = CONN_TYPE_AQ;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Connect Admin Queue for controller ID 0x%x\n", data->cntlid);
if (data->cntlid != 0xFFFF) {
/* This NVMf target only supports dynamic mode. */
SPDK_ERRLOG("The NVMf target only supports dynamic mode (CNTLID = 0x%x).\n", data->cntlid);
INVALID_CONNECT_DATA(cntlid);
return;
}
/* Establish a new session */
session = conn->transport->session_init();
if (session == NULL) {
SPDK_ERRLOG("Memory allocation failure\n");
rsp->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return;
}
TAILQ_INIT(&session->connections);
session->cntlid = spdk_nvmf_session_gen_cntlid();
if (session->cntlid == 0) {
/* Unable to get a cntlid */
SPDK_ERRLOG("Reached max simultaneous sessions\n");
rsp->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
return;
}
session->kato = cmd->kato;
session->async_event_config.raw = 0;
session->num_connections = 0;
session->subsys = subsystem;
session->max_connections_allowed = g_nvmf_tgt.max_queues_per_session;
memcpy(session->hostid, data->hostid, sizeof(session->hostid));
if (conn->transport->session_add_conn(session, conn)) {
rsp->status.sc = SPDK_NVME_SC_INTERNAL_DEVICE_ERROR;
conn->transport->session_fini(session);
free(session);
return;
}
if (subsystem->subtype == SPDK_NVMF_SUBTYPE_NVME) {
nvmf_init_nvme_session_properties(session);
} else {
nvmf_init_discovery_session_properties(session);
}
TAILQ_INSERT_TAIL(&subsystem->sessions, session, link);
} else {
struct spdk_nvmf_session *tmp;
conn->type = CONN_TYPE_IOQ;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Connect I/O Queue for controller id 0x%x\n", data->cntlid);
session = NULL;
TAILQ_FOREACH(tmp, &subsystem->sessions, link) {
if (tmp->cntlid == data->cntlid) {
session = tmp;
break;
}
}
if (session == NULL) {
SPDK_ERRLOG("Unknown controller ID 0x%x\n", data->cntlid);
INVALID_CONNECT_DATA(cntlid);
return;
}
if (!session->vcprop.cc.bits.en) {
SPDK_ERRLOG("Got I/O connect before ctrlr was enabled\n");
INVALID_CONNECT_CMD(qid);
return;
}
if (1u << session->vcprop.cc.bits.iosqes != sizeof(struct spdk_nvme_cmd)) {
SPDK_ERRLOG("Got I/O connect with invalid IOSQES %u\n",
session->vcprop.cc.bits.iosqes);
INVALID_CONNECT_CMD(qid);
return;
}
if (1u << session->vcprop.cc.bits.iocqes != sizeof(struct spdk_nvme_cpl)) {
SPDK_ERRLOG("Got I/O connect with invalid IOCQES %u\n",
session->vcprop.cc.bits.iocqes);
INVALID_CONNECT_CMD(qid);
return;
}
/* check if we would exceed session connection limit */
if (session->num_connections >= session->max_connections_allowed) {
SPDK_ERRLOG("connection limit %d\n", session->num_connections);
rsp->status.sct = SPDK_NVME_SCT_COMMAND_SPECIFIC;
rsp->status.sc = SPDK_NVMF_FABRIC_SC_CONTROLLER_BUSY;
return;
}
if (conn->transport->session_add_conn(session, conn)) {
INVALID_CONNECT_CMD(qid);
return;
}
}
session->num_connections++;
TAILQ_INSERT_HEAD(&session->connections, conn, link);
conn->sess = session;
rsp->status.sc = SPDK_NVME_SC_SUCCESS;
rsp->status_code_specific.success.cntlid = session->vcdata.cntlid;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "connect capsule response: cntlid = 0x%04x\n",
rsp->status_code_specific.success.cntlid);
}
void
spdk_nvmf_session_disconnect(struct spdk_nvmf_conn *conn)
{
struct spdk_nvmf_session *session = conn->sess;
assert(session != NULL);
session->num_connections--;
TAILQ_REMOVE(&session->connections, conn, link);
conn->transport->session_remove_conn(session, conn);
conn->transport->conn_fini(conn);
if (session->num_connections == 0) {
session_destruct(session);
}
}
static uint64_t
nvmf_prop_get_cap(struct spdk_nvmf_session *session)
{
return session->vcprop.cap.raw;
}
static uint64_t
nvmf_prop_get_vs(struct spdk_nvmf_session *session)
{
return session->vcprop.vs.raw;
}
static uint64_t
nvmf_prop_get_cc(struct spdk_nvmf_session *session)
{
return session->vcprop.cc.raw;
}
static bool
nvmf_prop_set_cc(struct spdk_nvmf_session *session, uint64_t value)
{
union spdk_nvme_cc_register cc, diff;
cc.raw = (uint32_t)value;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "cur CC: 0x%08x\n", session->vcprop.cc.raw);
SPDK_TRACELOG(SPDK_TRACE_NVMF, "new CC: 0x%08x\n", cc.raw);
/*
* Calculate which bits changed between the current and new CC.
* Mark each bit as 0 once it is handled to determine if any unhandled bits were changed.
*/
diff.raw = cc.raw ^ session->vcprop.cc.raw;
if (diff.bits.en) {
if (cc.bits.en) {
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Property Set CC Enable!\n");
session->vcprop.cc.bits.en = 1;
session->vcprop.csts.bits.rdy = 1;
} else {
SPDK_ERRLOG("CC.EN transition from 1 to 0 (reset) not implemented!\n");
}
diff.bits.en = 0;
}
if (diff.bits.shn) {
if (cc.bits.shn == SPDK_NVME_SHN_NORMAL ||
cc.bits.shn == SPDK_NVME_SHN_ABRUPT) {
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Property Set CC Shutdown %u%ub!\n",
cc.bits.shn >> 1, cc.bits.shn & 1);
session->vcprop.cc.bits.shn = cc.bits.shn;
session->vcprop.cc.bits.en = 0;
session->vcprop.csts.bits.rdy = 0;
session->vcprop.csts.bits.shst = SPDK_NVME_SHST_COMPLETE;
} else if (cc.bits.shn == 0) {
session->vcprop.cc.bits.shn = 0;
} else {
SPDK_ERRLOG("Prop Set CC: Invalid SHN value %u%ub\n",
cc.bits.shn >> 1, cc.bits.shn & 1);
return false;
}
diff.bits.shn = 0;
}
if (diff.bits.iosqes) {
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Prop Set IOSQES = %u (%u bytes)\n",
cc.bits.iosqes, 1u << cc.bits.iosqes);
session->vcprop.cc.bits.iosqes = cc.bits.iosqes;
diff.bits.iosqes = 0;
}
if (diff.bits.iocqes) {
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Prop Set IOCQES = %u (%u bytes)\n",
cc.bits.iocqes, 1u << cc.bits.iocqes);
session->vcprop.cc.bits.iocqes = cc.bits.iocqes;
diff.bits.iocqes = 0;
}
if (diff.raw != 0) {
SPDK_ERRLOG("Prop Set CC toggled reserved bits 0x%x!\n", diff.raw);
return false;
}
return true;
}
static uint64_t
nvmf_prop_get_csts(struct spdk_nvmf_session *session)
{
return session->vcprop.csts.raw;
}
struct nvmf_prop {
uint32_t ofst;
uint8_t size;
char name[11];
uint64_t (*get_cb)(struct spdk_nvmf_session *session);
bool (*set_cb)(struct spdk_nvmf_session *session, uint64_t value);
};
#define PROP(field, size, get_cb, set_cb) \
{ \
offsetof(struct spdk_nvme_registers, field), \
SPDK_NVMF_PROP_SIZE_##size, \
#field, \
get_cb, set_cb \
}
static const struct nvmf_prop nvmf_props[] = {
PROP(cap, 8, nvmf_prop_get_cap, NULL),
PROP(vs, 4, nvmf_prop_get_vs, NULL),
PROP(cc, 4, nvmf_prop_get_cc, nvmf_prop_set_cc),
PROP(csts, 4, nvmf_prop_get_csts, NULL),
};
static const struct nvmf_prop *
find_prop(uint32_t ofst)
{
size_t i;
for (i = 0; i < sizeof(nvmf_props) / sizeof(*nvmf_props); i++) {
const struct nvmf_prop *prop = &nvmf_props[i];
if (prop->ofst == ofst) {
return prop;
}
}
return NULL;
}
void
spdk_nvmf_property_get(struct spdk_nvmf_session *session,
struct spdk_nvmf_fabric_prop_get_cmd *cmd,
struct spdk_nvmf_fabric_prop_get_rsp *response)
{
const struct nvmf_prop *prop;
response->status.sc = 0;
response->value.u64 = 0;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "size %d, offset 0x%x\n",
cmd->attrib.size, cmd->ofst);
if (cmd->attrib.size != SPDK_NVMF_PROP_SIZE_4 &&
cmd->attrib.size != SPDK_NVMF_PROP_SIZE_8) {
SPDK_ERRLOG("Invalid size value %d\n", cmd->attrib.size);
response->status.sc = SPDK_NVMF_FABRIC_SC_INVALID_PARAM;
return;
}
prop = find_prop(cmd->ofst);
if (prop == NULL || prop->get_cb == NULL) {
/* Reserved properties return 0 when read */
return;
}
SPDK_TRACELOG(SPDK_TRACE_NVMF, "name: %s\n", prop->name);
if (cmd->attrib.size != prop->size) {
SPDK_ERRLOG("offset 0x%x size mismatch: cmd %u, prop %u\n",
cmd->ofst, cmd->attrib.size, prop->size);
response->status.sc = SPDK_NVMF_FABRIC_SC_INVALID_PARAM;
return;
}
response->value.u64 = prop->get_cb(session);
SPDK_TRACELOG(SPDK_TRACE_NVMF, "response value: 0x%" PRIx64 "\n", response->value.u64);
}
void
spdk_nvmf_property_set(struct spdk_nvmf_session *session,
struct spdk_nvmf_fabric_prop_set_cmd *cmd,
struct spdk_nvme_cpl *response)
{
const struct nvmf_prop *prop;
uint64_t value;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "size %d, offset 0x%x, value 0x%" PRIx64 "\n",
cmd->attrib.size, cmd->ofst, cmd->value.u64);
prop = find_prop(cmd->ofst);
if (prop == NULL || prop->set_cb == NULL) {
SPDK_ERRLOG("Invalid offset 0x%x\n", cmd->ofst);
response->status.sc = SPDK_NVMF_FABRIC_SC_INVALID_PARAM;
return;
}
SPDK_TRACELOG(SPDK_TRACE_NVMF, "name: %s\n", prop->name);
if (cmd->attrib.size != prop->size) {
SPDK_ERRLOG("offset 0x%x size mismatch: cmd %u, prop %u\n",
cmd->ofst, cmd->attrib.size, prop->size);
response->status.sc = SPDK_NVMF_FABRIC_SC_INVALID_PARAM;
return;
}
value = cmd->value.u64;
if (prop->size == SPDK_NVMF_PROP_SIZE_4) {
value = (uint32_t)value;
}
if (!prop->set_cb(session, value)) {
SPDK_ERRLOG("prop set_cb failed\n");
response->status.sc = SPDK_NVMF_FABRIC_SC_INVALID_PARAM;
return;
}
}
int
spdk_nvmf_session_poll(struct spdk_nvmf_session *session)
{
struct spdk_nvmf_conn *conn, *tmp;
TAILQ_FOREACH_SAFE(conn, &session->connections, link, tmp) {
if (conn->transport->conn_poll(conn) < 0) {
SPDK_ERRLOG("Transport poll failed for conn %p; closing connection\n", conn);
spdk_nvmf_session_disconnect(conn);
}
}
return 0;
}
int
spdk_nvmf_session_set_features_host_identifier(struct spdk_nvmf_request *req)
{
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
SPDK_ERRLOG("Set Features - Host Identifier not allowed\n");
response->status.sc = SPDK_NVME_SC_COMMAND_SEQUENCE_ERROR;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
int
spdk_nvmf_session_get_features_host_identifier(struct spdk_nvmf_request *req)
{
struct spdk_nvmf_session *session = req->conn->sess;
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *response = &req->rsp->nvme_cpl;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Get Features - Host Identifier\n");
if (!(cmd->cdw11 & 1)) {
/* NVMe over Fabrics requires EXHID=1 (128-bit/16-byte host ID) */
SPDK_ERRLOG("Get Features - Host Identifier with EXHID=0 not allowed\n");
response->status.sc = SPDK_NVME_SC_INVALID_FIELD;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
if (req->data == NULL || req->length < sizeof(session->hostid)) {
SPDK_ERRLOG("Invalid data buffer for Get Features - Host Identifier\n");
response->status.sc = SPDK_NVME_SC_INVALID_FIELD;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
memcpy(req->data, session->hostid, sizeof(session->hostid));
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
int
spdk_nvmf_session_set_features_keep_alive_timer(struct spdk_nvmf_request *req)
{
struct spdk_nvmf_session *session = req->conn->sess;
struct spdk_nvme_cmd *cmd = &req->cmd->nvme_cmd;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Set Features - Keep Alive Timer (%u ms)\n", cmd->cdw11);
if (cmd->cdw11 == 0) {
rsp->status.sc = SPDK_NVME_SC_KEEP_ALIVE_INVALID;
} else if (cmd->cdw11 < MIN_KEEP_ALIVE_TIMEOUT) {
session->kato = MIN_KEEP_ALIVE_TIMEOUT;
} else {
session->kato = cmd->cdw11;
}
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Set Features - Keep Alive Timer set to %u ms\n", session->kato);
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
int
spdk_nvmf_session_get_features_keep_alive_timer(struct spdk_nvmf_request *req)
{
struct spdk_nvmf_session *session = req->conn->sess;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Get Features - Keep Alive Timer\n");
rsp->cdw0 = session->kato;
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
int
spdk_nvmf_session_set_features_number_of_queues(struct spdk_nvmf_request *req)
{
struct spdk_nvmf_session *session = req->conn->sess;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
uint32_t nr_io_queues;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Set Features - Number of Queues, cdw11 0x%x\n",
req->cmd->nvme_cmd.cdw11);
/* Extra 1 connection for Admin queue */
nr_io_queues = session->max_connections_allowed - 1;
/* verify that the contoller is ready to process commands */
if (session->num_connections > 1) {
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Queue pairs already active!\n");
rsp->status.sc = SPDK_NVME_SC_COMMAND_SEQUENCE_ERROR;
} else {
/* Number of IO queues has a zero based value */
rsp->cdw0 = ((nr_io_queues - 1) << 16) |
(nr_io_queues - 1);
}
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}
int
spdk_nvmf_session_get_features_number_of_queues(struct spdk_nvmf_request *req)
{
struct spdk_nvmf_session *session = req->conn->sess;
struct spdk_nvme_cpl *rsp = &req->rsp->nvme_cpl;
uint32_t nr_io_queues;
SPDK_TRACELOG(SPDK_TRACE_NVMF, "Get Features - Number of Queues\n");
nr_io_queues = session->max_connections_allowed - 1;
/* Number of IO queues has a zero based value */
rsp->cdw0 = ((nr_io_queues - 1) << 16) |
(nr_io_queues - 1);
return SPDK_NVMF_REQUEST_EXEC_STATUS_COMPLETE;
}