freebsd-skq/sys/cam/ctl/ctl_frontend_iscsi.c
Navdeep Parhar 97b84d344d Make the iSCSI parameter negotiation more flexible.
Decouple the send and receive limits on the amount of data in a single
iSCSI PDU.  MaxRecvDataSegmentLength is declarative, not negotiated, and
is direction-specific so there is no reason for both ends to limit
themselves to the same min(initiator, target) value in both directions.

Allow iSCSI drivers to report their send, receive, first burst, and max
burst limits explicitly instead of using hardcoded values or trying to
derive all of them from the receive limit (which was the only limit
reported by the drivers prior to this change).

Display the send and receive limits separately in the userspace iSCSI
utilities.

Reviewed by:	jpaetzel@ (earlier version), trasz@
Sponsored by:	Chelsio Communications
Differential Revision:	https://reviews.freebsd.org/D7279
2016-08-25 05:22:53 +00:00

2980 lines
83 KiB
C

/*-
* Copyright (c) 2012 The FreeBSD Foundation
* All rights reserved.
*
* This software was developed by Edward Tomasz Napierala under sponsorship
* from the FreeBSD Foundation.
*
* 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.
*
* $FreeBSD$
*/
/*
* CTL frontend for the iSCSI protocol.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/capsicum.h>
#include <sys/condvar.h>
#include <sys/endian.h>
#include <sys/file.h>
#include <sys/kernel.h>
#include <sys/kthread.h>
#include <sys/lock.h>
#include <sys/malloc.h>
#include <sys/module.h>
#include <sys/mutex.h>
#include <sys/queue.h>
#include <sys/sbuf.h>
#include <sys/socket.h>
#include <sys/sysctl.h>
#include <sys/systm.h>
#include <sys/uio.h>
#include <sys/unistd.h>
#include <vm/uma.h>
#include <cam/scsi/scsi_all.h>
#include <cam/scsi/scsi_da.h>
#include <cam/ctl/ctl_io.h>
#include <cam/ctl/ctl.h>
#include <cam/ctl/ctl_backend.h>
#include <cam/ctl/ctl_error.h>
#include <cam/ctl/ctl_frontend.h>
#include <cam/ctl/ctl_debug.h>
#include <cam/ctl/ctl_ha.h>
#include <cam/ctl/ctl_ioctl.h>
#include <cam/ctl/ctl_private.h>
#include <dev/iscsi/icl.h>
#include <dev/iscsi/icl_wrappers.h>
#include <dev/iscsi/iscsi_proto.h>
#include <cam/ctl/ctl_frontend_iscsi.h>
#ifdef ICL_KERNEL_PROXY
#include <sys/socketvar.h>
#endif
#ifdef ICL_KERNEL_PROXY
FEATURE(cfiscsi_kernel_proxy, "iSCSI target built with ICL_KERNEL_PROXY");
#endif
static MALLOC_DEFINE(M_CFISCSI, "cfiscsi", "Memory used for CTL iSCSI frontend");
static uma_zone_t cfiscsi_data_wait_zone;
SYSCTL_NODE(_kern_cam_ctl, OID_AUTO, iscsi, CTLFLAG_RD, 0,
"CAM Target Layer iSCSI Frontend");
static int debug = 1;
SYSCTL_INT(_kern_cam_ctl_iscsi, OID_AUTO, debug, CTLFLAG_RWTUN,
&debug, 1, "Enable debug messages");
static int ping_timeout = 5;
SYSCTL_INT(_kern_cam_ctl_iscsi, OID_AUTO, ping_timeout, CTLFLAG_RWTUN,
&ping_timeout, 5, "Interval between ping (NOP-Out) requests, in seconds");
static int login_timeout = 60;
SYSCTL_INT(_kern_cam_ctl_iscsi, OID_AUTO, login_timeout, CTLFLAG_RWTUN,
&login_timeout, 60, "Time to wait for ctld(8) to finish Login Phase, in seconds");
static int maxcmdsn_delta = 256;
SYSCTL_INT(_kern_cam_ctl_iscsi, OID_AUTO, maxcmdsn_delta, CTLFLAG_RWTUN,
&maxcmdsn_delta, 256, "Number of commands the initiator can send "
"without confirmation");
#define CFISCSI_DEBUG(X, ...) \
do { \
if (debug > 1) { \
printf("%s: " X "\n", \
__func__, ## __VA_ARGS__); \
} \
} while (0)
#define CFISCSI_WARN(X, ...) \
do { \
if (debug > 0) { \
printf("WARNING: %s: " X "\n", \
__func__, ## __VA_ARGS__); \
} \
} while (0)
#define CFISCSI_SESSION_DEBUG(S, X, ...) \
do { \
if (debug > 1) { \
printf("%s: %s (%s): " X "\n", \
__func__, S->cs_initiator_addr, \
S->cs_initiator_name, ## __VA_ARGS__); \
} \
} while (0)
#define CFISCSI_SESSION_WARN(S, X, ...) \
do { \
if (debug > 0) { \
printf("WARNING: %s (%s): " X "\n", \
S->cs_initiator_addr, \
S->cs_initiator_name, ## __VA_ARGS__); \
} \
} while (0)
#define CFISCSI_SESSION_LOCK(X) mtx_lock(&X->cs_lock)
#define CFISCSI_SESSION_UNLOCK(X) mtx_unlock(&X->cs_lock)
#define CFISCSI_SESSION_LOCK_ASSERT(X) mtx_assert(&X->cs_lock, MA_OWNED)
#define CONN_SESSION(X) ((struct cfiscsi_session *)(X)->ic_prv0)
#define PDU_SESSION(X) CONN_SESSION((X)->ip_conn)
#define PDU_EXPDATASN(X) (X)->ip_prv0
#define PDU_TOTAL_TRANSFER_LEN(X) (X)->ip_prv1
#define PDU_R2TSN(X) (X)->ip_prv2
int cfiscsi_init(void);
static void cfiscsi_online(void *arg);
static void cfiscsi_offline(void *arg);
static int cfiscsi_info(void *arg, struct sbuf *sb);
static int cfiscsi_ioctl(struct cdev *dev,
u_long cmd, caddr_t addr, int flag, struct thread *td);
static void cfiscsi_datamove(union ctl_io *io);
static void cfiscsi_datamove_in(union ctl_io *io);
static void cfiscsi_datamove_out(union ctl_io *io);
static void cfiscsi_done(union ctl_io *io);
static bool cfiscsi_pdu_update_cmdsn(const struct icl_pdu *request);
static void cfiscsi_pdu_handle_nop_out(struct icl_pdu *request);
static void cfiscsi_pdu_handle_scsi_command(struct icl_pdu *request);
static void cfiscsi_pdu_handle_task_request(struct icl_pdu *request);
static void cfiscsi_pdu_handle_data_out(struct icl_pdu *request);
static void cfiscsi_pdu_handle_logout_request(struct icl_pdu *request);
static void cfiscsi_session_terminate(struct cfiscsi_session *cs);
static struct cfiscsi_data_wait *cfiscsi_data_wait_new(
struct cfiscsi_session *cs, union ctl_io *io,
uint32_t initiator_task_tag,
uint32_t *target_transfer_tagp);
static void cfiscsi_data_wait_free(struct cfiscsi_session *cs,
struct cfiscsi_data_wait *cdw);
static struct cfiscsi_target *cfiscsi_target_find(struct cfiscsi_softc
*softc, const char *name, uint16_t tag);
static struct cfiscsi_target *cfiscsi_target_find_or_create(
struct cfiscsi_softc *softc, const char *name, const char *alias,
uint16_t tag);
static void cfiscsi_target_release(struct cfiscsi_target *ct);
static void cfiscsi_session_delete(struct cfiscsi_session *cs);
static struct cfiscsi_softc cfiscsi_softc;
static struct ctl_frontend cfiscsi_frontend =
{
.name = "iscsi",
.init = cfiscsi_init,
.ioctl = cfiscsi_ioctl,
};
CTL_FRONTEND_DECLARE(ctlcfiscsi, cfiscsi_frontend);
MODULE_DEPEND(ctlcfiscsi, icl, 1, 1, 1);
static struct icl_pdu *
cfiscsi_pdu_new_response(struct icl_pdu *request, int flags)
{
return (icl_pdu_new(request->ip_conn, flags));
}
static bool
cfiscsi_pdu_update_cmdsn(const struct icl_pdu *request)
{
const struct iscsi_bhs_scsi_command *bhssc;
struct cfiscsi_session *cs;
uint32_t cmdsn, expstatsn;
cs = PDU_SESSION(request);
/*
* Every incoming PDU - not just NOP-Out - resets the ping timer.
* The purpose of the timeout is to reset the connection when it stalls;
* we don't want this to happen when NOP-In or NOP-Out ends up delayed
* in some queue.
*
* XXX: Locking?
*/
cs->cs_timeout = 0;
/*
* Data-Out PDUs don't contain CmdSN.
*/
if ((request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_DATA_OUT)
return (false);
/*
* We're only using fields common for all the request
* (initiator -> target) PDUs.
*/
bhssc = (const struct iscsi_bhs_scsi_command *)request->ip_bhs;
cmdsn = ntohl(bhssc->bhssc_cmdsn);
expstatsn = ntohl(bhssc->bhssc_expstatsn);
CFISCSI_SESSION_LOCK(cs);
#if 0
if (expstatsn != cs->cs_statsn) {
CFISCSI_SESSION_DEBUG(cs, "received PDU with ExpStatSN %d, "
"while current StatSN is %d", expstatsn,
cs->cs_statsn);
}
#endif
if ((request->ip_bhs->bhs_opcode & ISCSI_BHS_OPCODE_IMMEDIATE) == 0) {
/*
* The target MUST silently ignore any non-immediate command
* outside of this range.
*/
if (ISCSI_SNLT(cmdsn, cs->cs_cmdsn) ||
ISCSI_SNGT(cmdsn, cs->cs_cmdsn + maxcmdsn_delta)) {
CFISCSI_SESSION_UNLOCK(cs);
CFISCSI_SESSION_WARN(cs, "received PDU with CmdSN %u, "
"while expected %u", cmdsn, cs->cs_cmdsn);
return (true);
}
/*
* We don't support multiple connections now, so any
* discontinuity in CmdSN means lost PDUs. Since we don't
* support PDU retransmission -- terminate the connection.
*/
if (cmdsn != cs->cs_cmdsn) {
CFISCSI_SESSION_UNLOCK(cs);
CFISCSI_SESSION_WARN(cs, "received PDU with CmdSN %u, "
"while expected %u; dropping connection",
cmdsn, cs->cs_cmdsn);
cfiscsi_session_terminate(cs);
return (true);
}
cs->cs_cmdsn++;
}
CFISCSI_SESSION_UNLOCK(cs);
return (false);
}
static void
cfiscsi_pdu_handle(struct icl_pdu *request)
{
struct cfiscsi_session *cs;
bool ignore;
cs = PDU_SESSION(request);
ignore = cfiscsi_pdu_update_cmdsn(request);
if (ignore) {
icl_pdu_free(request);
return;
}
/*
* Handle the PDU; this includes e.g. receiving the remaining
* part of PDU and submitting the SCSI command to CTL
* or queueing a reply. The handling routine is responsible
* for freeing the PDU when it's no longer needed.
*/
switch (request->ip_bhs->bhs_opcode &
~ISCSI_BHS_OPCODE_IMMEDIATE) {
case ISCSI_BHS_OPCODE_NOP_OUT:
cfiscsi_pdu_handle_nop_out(request);
break;
case ISCSI_BHS_OPCODE_SCSI_COMMAND:
cfiscsi_pdu_handle_scsi_command(request);
break;
case ISCSI_BHS_OPCODE_TASK_REQUEST:
cfiscsi_pdu_handle_task_request(request);
break;
case ISCSI_BHS_OPCODE_SCSI_DATA_OUT:
cfiscsi_pdu_handle_data_out(request);
break;
case ISCSI_BHS_OPCODE_LOGOUT_REQUEST:
cfiscsi_pdu_handle_logout_request(request);
break;
default:
CFISCSI_SESSION_WARN(cs, "received PDU with unsupported "
"opcode 0x%x; dropping connection",
request->ip_bhs->bhs_opcode);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
}
}
static void
cfiscsi_receive_callback(struct icl_pdu *request)
{
struct cfiscsi_session *cs;
cs = PDU_SESSION(request);
#ifdef ICL_KERNEL_PROXY
if (cs->cs_waiting_for_ctld || cs->cs_login_phase) {
if (cs->cs_login_pdu == NULL)
cs->cs_login_pdu = request;
else
icl_pdu_free(request);
cv_signal(&cs->cs_login_cv);
return;
}
#endif
cfiscsi_pdu_handle(request);
}
static void
cfiscsi_error_callback(struct icl_conn *ic)
{
struct cfiscsi_session *cs;
cs = CONN_SESSION(ic);
CFISCSI_SESSION_WARN(cs, "connection error; dropping connection");
cfiscsi_session_terminate(cs);
}
static int
cfiscsi_pdu_prepare(struct icl_pdu *response)
{
struct cfiscsi_session *cs;
struct iscsi_bhs_scsi_response *bhssr;
bool advance_statsn = true;
cs = PDU_SESSION(response);
CFISCSI_SESSION_LOCK_ASSERT(cs);
/*
* We're only using fields common for all the response
* (target -> initiator) PDUs.
*/
bhssr = (struct iscsi_bhs_scsi_response *)response->ip_bhs;
/*
* 10.8.3: "The StatSN for this connection is not advanced
* after this PDU is sent."
*/
if (bhssr->bhssr_opcode == ISCSI_BHS_OPCODE_R2T)
advance_statsn = false;
/*
* 10.19.2: "However, when the Initiator Task Tag is set to 0xffffffff,
* StatSN for the connection is not advanced after this PDU is sent."
*/
if (bhssr->bhssr_opcode == ISCSI_BHS_OPCODE_NOP_IN &&
bhssr->bhssr_initiator_task_tag == 0xffffffff)
advance_statsn = false;
/*
* See the comment below - StatSN is not meaningful and must
* not be advanced.
*/
if (bhssr->bhssr_opcode == ISCSI_BHS_OPCODE_SCSI_DATA_IN &&
(bhssr->bhssr_flags & BHSDI_FLAGS_S) == 0)
advance_statsn = false;
/*
* 10.7.3: "The fields StatSN, Status, and Residual Count
* only have meaningful content if the S bit is set to 1."
*/
if (bhssr->bhssr_opcode != ISCSI_BHS_OPCODE_SCSI_DATA_IN ||
(bhssr->bhssr_flags & BHSDI_FLAGS_S))
bhssr->bhssr_statsn = htonl(cs->cs_statsn);
bhssr->bhssr_expcmdsn = htonl(cs->cs_cmdsn);
bhssr->bhssr_maxcmdsn = htonl(cs->cs_cmdsn + maxcmdsn_delta);
if (advance_statsn)
cs->cs_statsn++;
return (0);
}
static void
cfiscsi_pdu_queue(struct icl_pdu *response)
{
struct cfiscsi_session *cs;
cs = PDU_SESSION(response);
CFISCSI_SESSION_LOCK(cs);
cfiscsi_pdu_prepare(response);
icl_pdu_queue(response);
CFISCSI_SESSION_UNLOCK(cs);
}
static void
cfiscsi_pdu_handle_nop_out(struct icl_pdu *request)
{
struct cfiscsi_session *cs;
struct iscsi_bhs_nop_out *bhsno;
struct iscsi_bhs_nop_in *bhsni;
struct icl_pdu *response;
void *data = NULL;
size_t datasize;
int error;
cs = PDU_SESSION(request);
bhsno = (struct iscsi_bhs_nop_out *)request->ip_bhs;
if (bhsno->bhsno_initiator_task_tag == 0xffffffff) {
/*
* Nothing to do, iscsi_pdu_update_statsn() already
* zeroed the timeout.
*/
icl_pdu_free(request);
return;
}
datasize = icl_pdu_data_segment_length(request);
if (datasize > 0) {
data = malloc(datasize, M_CFISCSI, M_NOWAIT | M_ZERO);
if (data == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to allocate memory; "
"dropping connection");
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
icl_pdu_get_data(request, 0, data, datasize);
}
response = cfiscsi_pdu_new_response(request, M_NOWAIT);
if (response == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to allocate memory; "
"droppping connection");
free(data, M_CFISCSI);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
bhsni = (struct iscsi_bhs_nop_in *)response->ip_bhs;
bhsni->bhsni_opcode = ISCSI_BHS_OPCODE_NOP_IN;
bhsni->bhsni_flags = 0x80;
bhsni->bhsni_initiator_task_tag = bhsno->bhsno_initiator_task_tag;
bhsni->bhsni_target_transfer_tag = 0xffffffff;
if (datasize > 0) {
error = icl_pdu_append_data(response, data, datasize, M_NOWAIT);
if (error != 0) {
CFISCSI_SESSION_WARN(cs, "failed to allocate memory; "
"dropping connection");
free(data, M_CFISCSI);
icl_pdu_free(request);
icl_pdu_free(response);
cfiscsi_session_terminate(cs);
return;
}
free(data, M_CFISCSI);
}
icl_pdu_free(request);
cfiscsi_pdu_queue(response);
}
static void
cfiscsi_pdu_handle_scsi_command(struct icl_pdu *request)
{
struct iscsi_bhs_scsi_command *bhssc;
struct cfiscsi_session *cs;
union ctl_io *io;
int error;
cs = PDU_SESSION(request);
bhssc = (struct iscsi_bhs_scsi_command *)request->ip_bhs;
//CFISCSI_SESSION_DEBUG(cs, "initiator task tag 0x%x",
// bhssc->bhssc_initiator_task_tag);
if (request->ip_data_len > 0 && cs->cs_immediate_data == false) {
CFISCSI_SESSION_WARN(cs, "unsolicited data with "
"ImmediateData=No; dropping connection");
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
io = ctl_alloc_io(cs->cs_target->ct_port.ctl_pool_ref);
ctl_zero_io(io);
io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr = request;
io->io_hdr.io_type = CTL_IO_SCSI;
io->io_hdr.nexus.initid = cs->cs_ctl_initid;
io->io_hdr.nexus.targ_port = cs->cs_target->ct_port.targ_port;
io->io_hdr.nexus.targ_lun = ctl_decode_lun(be64toh(bhssc->bhssc_lun));
io->scsiio.tag_num = bhssc->bhssc_initiator_task_tag;
switch ((bhssc->bhssc_flags & BHSSC_FLAGS_ATTR)) {
case BHSSC_FLAGS_ATTR_UNTAGGED:
io->scsiio.tag_type = CTL_TAG_UNTAGGED;
break;
case BHSSC_FLAGS_ATTR_SIMPLE:
io->scsiio.tag_type = CTL_TAG_SIMPLE;
break;
case BHSSC_FLAGS_ATTR_ORDERED:
io->scsiio.tag_type = CTL_TAG_ORDERED;
break;
case BHSSC_FLAGS_ATTR_HOQ:
io->scsiio.tag_type = CTL_TAG_HEAD_OF_QUEUE;
break;
case BHSSC_FLAGS_ATTR_ACA:
io->scsiio.tag_type = CTL_TAG_ACA;
break;
default:
io->scsiio.tag_type = CTL_TAG_UNTAGGED;
CFISCSI_SESSION_WARN(cs, "unhandled tag type %d",
bhssc->bhssc_flags & BHSSC_FLAGS_ATTR);
break;
}
io->scsiio.cdb_len = sizeof(bhssc->bhssc_cdb); /* Which is 16. */
memcpy(io->scsiio.cdb, bhssc->bhssc_cdb, sizeof(bhssc->bhssc_cdb));
refcount_acquire(&cs->cs_outstanding_ctl_pdus);
error = ctl_queue(io);
if (error != CTL_RETVAL_COMPLETE) {
CFISCSI_SESSION_WARN(cs, "ctl_queue() failed; error %d; "
"dropping connection", error);
ctl_free_io(io);
refcount_release(&cs->cs_outstanding_ctl_pdus);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
}
}
static void
cfiscsi_pdu_handle_task_request(struct icl_pdu *request)
{
struct iscsi_bhs_task_management_request *bhstmr;
struct iscsi_bhs_task_management_response *bhstmr2;
struct icl_pdu *response;
struct cfiscsi_session *cs;
union ctl_io *io;
int error;
cs = PDU_SESSION(request);
bhstmr = (struct iscsi_bhs_task_management_request *)request->ip_bhs;
io = ctl_alloc_io(cs->cs_target->ct_port.ctl_pool_ref);
ctl_zero_io(io);
io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr = request;
io->io_hdr.io_type = CTL_IO_TASK;
io->io_hdr.nexus.initid = cs->cs_ctl_initid;
io->io_hdr.nexus.targ_port = cs->cs_target->ct_port.targ_port;
io->io_hdr.nexus.targ_lun = ctl_decode_lun(be64toh(bhstmr->bhstmr_lun));
io->taskio.tag_type = CTL_TAG_SIMPLE; /* XXX */
switch (bhstmr->bhstmr_function & ~0x80) {
case BHSTMR_FUNCTION_ABORT_TASK:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_ABORT_TASK");
#endif
io->taskio.task_action = CTL_TASK_ABORT_TASK;
io->taskio.tag_num = bhstmr->bhstmr_referenced_task_tag;
break;
case BHSTMR_FUNCTION_ABORT_TASK_SET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_ABORT_TASK_SET");
#endif
io->taskio.task_action = CTL_TASK_ABORT_TASK_SET;
break;
case BHSTMR_FUNCTION_CLEAR_TASK_SET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_CLEAR_TASK_SET");
#endif
io->taskio.task_action = CTL_TASK_CLEAR_TASK_SET;
break;
case BHSTMR_FUNCTION_LOGICAL_UNIT_RESET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_LOGICAL_UNIT_RESET");
#endif
io->taskio.task_action = CTL_TASK_LUN_RESET;
break;
case BHSTMR_FUNCTION_TARGET_WARM_RESET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_TARGET_WARM_RESET");
#endif
io->taskio.task_action = CTL_TASK_TARGET_RESET;
break;
case BHSTMR_FUNCTION_TARGET_COLD_RESET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_TARGET_COLD_RESET");
#endif
io->taskio.task_action = CTL_TASK_TARGET_RESET;
break;
case BHSTMR_FUNCTION_QUERY_TASK:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_QUERY_TASK");
#endif
io->taskio.task_action = CTL_TASK_QUERY_TASK;
io->taskio.tag_num = bhstmr->bhstmr_referenced_task_tag;
break;
case BHSTMR_FUNCTION_QUERY_TASK_SET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_QUERY_TASK_SET");
#endif
io->taskio.task_action = CTL_TASK_QUERY_TASK_SET;
break;
case BHSTMR_FUNCTION_I_T_NEXUS_RESET:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_I_T_NEXUS_RESET");
#endif
io->taskio.task_action = CTL_TASK_I_T_NEXUS_RESET;
break;
case BHSTMR_FUNCTION_QUERY_ASYNC_EVENT:
#if 0
CFISCSI_SESSION_DEBUG(cs, "BHSTMR_FUNCTION_QUERY_ASYNC_EVENT");
#endif
io->taskio.task_action = CTL_TASK_QUERY_ASYNC_EVENT;
break;
default:
CFISCSI_SESSION_DEBUG(cs, "unsupported function 0x%x",
bhstmr->bhstmr_function & ~0x80);
ctl_free_io(io);
response = cfiscsi_pdu_new_response(request, M_NOWAIT);
if (response == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to allocate memory; "
"dropping connection");
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
bhstmr2 = (struct iscsi_bhs_task_management_response *)
response->ip_bhs;
bhstmr2->bhstmr_opcode = ISCSI_BHS_OPCODE_TASK_RESPONSE;
bhstmr2->bhstmr_flags = 0x80;
bhstmr2->bhstmr_response =
BHSTMR_RESPONSE_FUNCTION_NOT_SUPPORTED;
bhstmr2->bhstmr_initiator_task_tag =
bhstmr->bhstmr_initiator_task_tag;
icl_pdu_free(request);
cfiscsi_pdu_queue(response);
return;
}
refcount_acquire(&cs->cs_outstanding_ctl_pdus);
error = ctl_queue(io);
if (error != CTL_RETVAL_COMPLETE) {
CFISCSI_SESSION_WARN(cs, "ctl_queue() failed; error %d; "
"dropping connection", error);
ctl_free_io(io);
refcount_release(&cs->cs_outstanding_ctl_pdus);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
}
}
static bool
cfiscsi_handle_data_segment(struct icl_pdu *request, struct cfiscsi_data_wait *cdw)
{
struct iscsi_bhs_data_out *bhsdo;
struct cfiscsi_session *cs;
struct ctl_sg_entry ctl_sg_entry, *ctl_sglist;
size_t copy_len, len, off, buffer_offset;
int ctl_sg_count;
union ctl_io *io;
cs = PDU_SESSION(request);
KASSERT((request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_DATA_OUT ||
(request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_COMMAND,
("bad opcode 0x%x", request->ip_bhs->bhs_opcode));
/*
* We're only using fields common for Data-Out and SCSI Command PDUs.
*/
bhsdo = (struct iscsi_bhs_data_out *)request->ip_bhs;
io = cdw->cdw_ctl_io;
KASSERT((io->io_hdr.flags & CTL_FLAG_DATA_MASK) != CTL_FLAG_DATA_IN,
("CTL_FLAG_DATA_IN"));
#if 0
CFISCSI_SESSION_DEBUG(cs, "received %zd bytes out of %d",
request->ip_data_len, io->scsiio.kern_total_len);
#endif
if (io->scsiio.kern_sg_entries > 0) {
ctl_sglist = (struct ctl_sg_entry *)io->scsiio.kern_data_ptr;
ctl_sg_count = io->scsiio.kern_sg_entries;
} else {
ctl_sglist = &ctl_sg_entry;
ctl_sglist->addr = io->scsiio.kern_data_ptr;
ctl_sglist->len = io->scsiio.kern_data_len;
ctl_sg_count = 1;
}
if ((request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_DATA_OUT)
buffer_offset = ntohl(bhsdo->bhsdo_buffer_offset);
else
buffer_offset = 0;
len = icl_pdu_data_segment_length(request);
/*
* Make sure the offset, as sent by the initiator, matches the offset
* we're supposed to be at in the scatter-gather list.
*/
if (buffer_offset >
io->scsiio.kern_rel_offset + io->scsiio.ext_data_filled ||
buffer_offset + len <=
io->scsiio.kern_rel_offset + io->scsiio.ext_data_filled) {
CFISCSI_SESSION_WARN(cs, "received bad buffer offset %zd, "
"expected %zd; dropping connection", buffer_offset,
(size_t)io->scsiio.kern_rel_offset +
(size_t)io->scsiio.ext_data_filled);
ctl_set_data_phase_error(&io->scsiio);
cfiscsi_session_terminate(cs);
return (true);
}
/*
* This is the offset within the PDU data segment, as opposed
* to buffer_offset, which is the offset within the task (SCSI
* command).
*/
off = io->scsiio.kern_rel_offset + io->scsiio.ext_data_filled -
buffer_offset;
/*
* Iterate over the scatter/gather segments, filling them with data
* from the PDU data segment. Note that this can get called multiple
* times for one SCSI command; the cdw structure holds state for the
* scatter/gather list.
*/
for (;;) {
KASSERT(cdw->cdw_sg_index < ctl_sg_count,
("cdw->cdw_sg_index >= ctl_sg_count"));
if (cdw->cdw_sg_len == 0) {
cdw->cdw_sg_addr = ctl_sglist[cdw->cdw_sg_index].addr;
cdw->cdw_sg_len = ctl_sglist[cdw->cdw_sg_index].len;
}
KASSERT(off <= len, ("len > off"));
copy_len = len - off;
if (copy_len > cdw->cdw_sg_len)
copy_len = cdw->cdw_sg_len;
icl_pdu_get_data(request, off, cdw->cdw_sg_addr, copy_len);
cdw->cdw_sg_addr += copy_len;
cdw->cdw_sg_len -= copy_len;
off += copy_len;
io->scsiio.ext_data_filled += copy_len;
if (cdw->cdw_sg_len == 0) {
/*
* End of current segment.
*/
if (cdw->cdw_sg_index == ctl_sg_count - 1) {
/*
* Last segment in scatter/gather list.
*/
break;
}
cdw->cdw_sg_index++;
}
if (off == len) {
/*
* End of PDU payload.
*/
break;
}
}
if (len > off) {
/*
* In case of unsolicited data, it's possible that the buffer
* provided by CTL is smaller than negotiated FirstBurstLength.
* Just ignore the superfluous data; will ask for them with R2T
* on next call to cfiscsi_datamove().
*
* This obviously can only happen with SCSI Command PDU.
*/
if ((request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_COMMAND)
return (true);
CFISCSI_SESSION_WARN(cs, "received too much data: got %zd bytes, "
"expected %zd; dropping connection",
icl_pdu_data_segment_length(request), off);
ctl_set_data_phase_error(&io->scsiio);
cfiscsi_session_terminate(cs);
return (true);
}
if (io->scsiio.ext_data_filled == cdw->cdw_r2t_end &&
(bhsdo->bhsdo_flags & BHSDO_FLAGS_F) == 0) {
CFISCSI_SESSION_WARN(cs, "got the final packet without "
"the F flag; flags = 0x%x; dropping connection",
bhsdo->bhsdo_flags);
ctl_set_data_phase_error(&io->scsiio);
cfiscsi_session_terminate(cs);
return (true);
}
if (io->scsiio.ext_data_filled != cdw->cdw_r2t_end &&
(bhsdo->bhsdo_flags & BHSDO_FLAGS_F) != 0) {
if ((request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_DATA_OUT) {
CFISCSI_SESSION_WARN(cs, "got the final packet, but the "
"transmitted size was %zd bytes instead of %d; "
"dropping connection",
(size_t)io->scsiio.ext_data_filled,
cdw->cdw_r2t_end);
ctl_set_data_phase_error(&io->scsiio);
cfiscsi_session_terminate(cs);
return (true);
} else {
/*
* For SCSI Command PDU, this just means we need to
* solicit more data by sending R2T.
*/
return (false);
}
}
if (io->scsiio.ext_data_filled == cdw->cdw_r2t_end) {
#if 0
CFISCSI_SESSION_DEBUG(cs, "no longer expecting Data-Out with target "
"transfer tag 0x%x", cdw->cdw_target_transfer_tag);
#endif
return (true);
}
return (false);
}
static void
cfiscsi_pdu_handle_data_out(struct icl_pdu *request)
{
struct iscsi_bhs_data_out *bhsdo;
struct cfiscsi_session *cs;
struct cfiscsi_data_wait *cdw = NULL;
union ctl_io *io;
bool done;
cs = PDU_SESSION(request);
bhsdo = (struct iscsi_bhs_data_out *)request->ip_bhs;
CFISCSI_SESSION_LOCK(cs);
TAILQ_FOREACH(cdw, &cs->cs_waiting_for_data_out, cdw_next) {
#if 0
CFISCSI_SESSION_DEBUG(cs, "have ttt 0x%x, itt 0x%x; looking for "
"ttt 0x%x, itt 0x%x",
bhsdo->bhsdo_target_transfer_tag,
bhsdo->bhsdo_initiator_task_tag,
cdw->cdw_target_transfer_tag, cdw->cdw_initiator_task_tag));
#endif
if (bhsdo->bhsdo_target_transfer_tag ==
cdw->cdw_target_transfer_tag)
break;
}
CFISCSI_SESSION_UNLOCK(cs);
if (cdw == NULL) {
CFISCSI_SESSION_WARN(cs, "data transfer tag 0x%x, initiator task tag "
"0x%x, not found; dropping connection",
bhsdo->bhsdo_target_transfer_tag, bhsdo->bhsdo_initiator_task_tag);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
if (cdw->cdw_datasn != ntohl(bhsdo->bhsdo_datasn)) {
CFISCSI_SESSION_WARN(cs, "received Data-Out PDU with "
"DataSN %u, while expected %u; dropping connection",
ntohl(bhsdo->bhsdo_datasn), cdw->cdw_datasn);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
cdw->cdw_datasn++;
io = cdw->cdw_ctl_io;
KASSERT((io->io_hdr.flags & CTL_FLAG_DATA_MASK) != CTL_FLAG_DATA_IN,
("CTL_FLAG_DATA_IN"));
done = cfiscsi_handle_data_segment(request, cdw);
if (done) {
CFISCSI_SESSION_LOCK(cs);
TAILQ_REMOVE(&cs->cs_waiting_for_data_out, cdw, cdw_next);
CFISCSI_SESSION_UNLOCK(cs);
done = (io->scsiio.ext_data_filled != cdw->cdw_r2t_end ||
io->scsiio.ext_data_filled == io->scsiio.kern_data_len);
cfiscsi_data_wait_free(cs, cdw);
io->io_hdr.flags &= ~CTL_FLAG_DMA_INPROG;
if (done)
io->scsiio.be_move_done(io);
else
cfiscsi_datamove_out(io);
}
icl_pdu_free(request);
}
static void
cfiscsi_pdu_handle_logout_request(struct icl_pdu *request)
{
struct iscsi_bhs_logout_request *bhslr;
struct iscsi_bhs_logout_response *bhslr2;
struct icl_pdu *response;
struct cfiscsi_session *cs;
cs = PDU_SESSION(request);
bhslr = (struct iscsi_bhs_logout_request *)request->ip_bhs;
switch (bhslr->bhslr_reason & 0x7f) {
case BHSLR_REASON_CLOSE_SESSION:
case BHSLR_REASON_CLOSE_CONNECTION:
response = cfiscsi_pdu_new_response(request, M_NOWAIT);
if (response == NULL) {
CFISCSI_SESSION_DEBUG(cs, "failed to allocate memory");
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
bhslr2 = (struct iscsi_bhs_logout_response *)response->ip_bhs;
bhslr2->bhslr_opcode = ISCSI_BHS_OPCODE_LOGOUT_RESPONSE;
bhslr2->bhslr_flags = 0x80;
bhslr2->bhslr_response = BHSLR_RESPONSE_CLOSED_SUCCESSFULLY;
bhslr2->bhslr_initiator_task_tag =
bhslr->bhslr_initiator_task_tag;
icl_pdu_free(request);
cfiscsi_pdu_queue(response);
cfiscsi_session_terminate(cs);
break;
case BHSLR_REASON_REMOVE_FOR_RECOVERY:
response = cfiscsi_pdu_new_response(request, M_NOWAIT);
if (response == NULL) {
CFISCSI_SESSION_WARN(cs,
"failed to allocate memory; dropping connection");
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
return;
}
bhslr2 = (struct iscsi_bhs_logout_response *)response->ip_bhs;
bhslr2->bhslr_opcode = ISCSI_BHS_OPCODE_LOGOUT_RESPONSE;
bhslr2->bhslr_flags = 0x80;
bhslr2->bhslr_response = BHSLR_RESPONSE_RECOVERY_NOT_SUPPORTED;
bhslr2->bhslr_initiator_task_tag =
bhslr->bhslr_initiator_task_tag;
icl_pdu_free(request);
cfiscsi_pdu_queue(response);
break;
default:
CFISCSI_SESSION_WARN(cs, "invalid reason 0%x; dropping connection",
bhslr->bhslr_reason);
icl_pdu_free(request);
cfiscsi_session_terminate(cs);
break;
}
}
static void
cfiscsi_callout(void *context)
{
struct icl_pdu *cp;
struct iscsi_bhs_nop_in *bhsni;
struct cfiscsi_session *cs;
cs = context;
if (cs->cs_terminating)
return;
callout_schedule(&cs->cs_callout, 1 * hz);
atomic_add_int(&cs->cs_timeout, 1);
#ifdef ICL_KERNEL_PROXY
if (cs->cs_waiting_for_ctld || cs->cs_login_phase) {
if (login_timeout > 0 && cs->cs_timeout > login_timeout) {
CFISCSI_SESSION_WARN(cs, "login timed out after "
"%d seconds; dropping connection", cs->cs_timeout);
cfiscsi_session_terminate(cs);
}
return;
}
#endif
if (ping_timeout <= 0) {
/*
* Pings are disabled. Don't send NOP-In in this case;
* user might have disabled pings to work around problems
* with certain initiators that can't properly handle
* NOP-In, such as iPXE. Reset the timeout, to avoid
* triggering reconnection, should the user decide to
* reenable them.
*/
cs->cs_timeout = 0;
return;
}
if (cs->cs_timeout >= ping_timeout) {
CFISCSI_SESSION_WARN(cs, "no ping reply (NOP-Out) after %d seconds; "
"dropping connection", ping_timeout);
cfiscsi_session_terminate(cs);
return;
}
/*
* If the ping was reset less than one second ago - which means
* that we've received some PDU during the last second - assume
* the traffic flows correctly and don't bother sending a NOP-Out.
*
* (It's 2 - one for one second, and one for incrementing is_timeout
* earlier in this routine.)
*/
if (cs->cs_timeout < 2)
return;
cp = icl_pdu_new(cs->cs_conn, M_NOWAIT);
if (cp == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to allocate memory");
return;
}
bhsni = (struct iscsi_bhs_nop_in *)cp->ip_bhs;
bhsni->bhsni_opcode = ISCSI_BHS_OPCODE_NOP_IN;
bhsni->bhsni_flags = 0x80;
bhsni->bhsni_initiator_task_tag = 0xffffffff;
cfiscsi_pdu_queue(cp);
}
static struct cfiscsi_data_wait *
cfiscsi_data_wait_new(struct cfiscsi_session *cs, union ctl_io *io,
uint32_t initiator_task_tag, uint32_t *target_transfer_tagp)
{
struct cfiscsi_data_wait *cdw;
int error;
cdw = uma_zalloc(cfiscsi_data_wait_zone, M_NOWAIT | M_ZERO);
if (cdw == NULL) {
CFISCSI_SESSION_WARN(cs,
"failed to allocate %zd bytes", sizeof(*cdw));
return (NULL);
}
error = icl_conn_transfer_setup(cs->cs_conn, io, target_transfer_tagp,
&cdw->cdw_icl_prv);
if (error != 0) {
CFISCSI_SESSION_WARN(cs,
"icl_conn_transfer_setup() failed with error %d", error);
uma_zfree(cfiscsi_data_wait_zone, cdw);
return (NULL);
}
cdw->cdw_ctl_io = io;
cdw->cdw_target_transfer_tag = *target_transfer_tagp;
cdw->cdw_initiator_task_tag = initiator_task_tag;
return (cdw);
}
static void
cfiscsi_data_wait_free(struct cfiscsi_session *cs,
struct cfiscsi_data_wait *cdw)
{
icl_conn_transfer_done(cs->cs_conn, cdw->cdw_icl_prv);
uma_zfree(cfiscsi_data_wait_zone, cdw);
}
static void
cfiscsi_session_terminate_tasks(struct cfiscsi_session *cs)
{
struct cfiscsi_data_wait *cdw;
union ctl_io *io;
int error, last, wait;
if (cs->cs_target == NULL)
return; /* No target yet, so nothing to do. */
io = ctl_alloc_io(cs->cs_target->ct_port.ctl_pool_ref);
ctl_zero_io(io);
io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr = cs;
io->io_hdr.io_type = CTL_IO_TASK;
io->io_hdr.nexus.initid = cs->cs_ctl_initid;
io->io_hdr.nexus.targ_port = cs->cs_target->ct_port.targ_port;
io->io_hdr.nexus.targ_lun = 0;
io->taskio.tag_type = CTL_TAG_SIMPLE; /* XXX */
io->taskio.task_action = CTL_TASK_I_T_NEXUS_RESET;
wait = cs->cs_outstanding_ctl_pdus;
refcount_acquire(&cs->cs_outstanding_ctl_pdus);
error = ctl_queue(io);
if (error != CTL_RETVAL_COMPLETE) {
CFISCSI_SESSION_WARN(cs, "ctl_queue() failed; error %d", error);
refcount_release(&cs->cs_outstanding_ctl_pdus);
ctl_free_io(io);
}
CFISCSI_SESSION_LOCK(cs);
while ((cdw = TAILQ_FIRST(&cs->cs_waiting_for_data_out)) != NULL) {
TAILQ_REMOVE(&cs->cs_waiting_for_data_out, cdw, cdw_next);
CFISCSI_SESSION_UNLOCK(cs);
/*
* Set nonzero port status; this prevents backends from
* assuming that the data transfer actually succeeded
* and writing uninitialized data to disk.
*/
cdw->cdw_ctl_io->io_hdr.flags &= ~CTL_FLAG_DMA_INPROG;
cdw->cdw_ctl_io->scsiio.io_hdr.port_status = 42;
cdw->cdw_ctl_io->scsiio.be_move_done(cdw->cdw_ctl_io);
cfiscsi_data_wait_free(cs, cdw);
CFISCSI_SESSION_LOCK(cs);
}
CFISCSI_SESSION_UNLOCK(cs);
/*
* Wait for CTL to terminate all the tasks.
*/
if (wait > 0)
CFISCSI_SESSION_WARN(cs,
"waiting for CTL to terminate %d tasks", wait);
for (;;) {
refcount_acquire(&cs->cs_outstanding_ctl_pdus);
last = refcount_release(&cs->cs_outstanding_ctl_pdus);
if (last != 0)
break;
tsleep(__DEVOLATILE(void *, &cs->cs_outstanding_ctl_pdus),
0, "cfiscsi_terminate", hz / 100);
}
if (wait > 0)
CFISCSI_SESSION_WARN(cs, "tasks terminated");
}
static void
cfiscsi_maintenance_thread(void *arg)
{
struct cfiscsi_session *cs;
cs = arg;
for (;;) {
CFISCSI_SESSION_LOCK(cs);
if (cs->cs_terminating == false)
cv_wait(&cs->cs_maintenance_cv, &cs->cs_lock);
CFISCSI_SESSION_UNLOCK(cs);
if (cs->cs_terminating) {
/*
* We used to wait up to 30 seconds to deliver queued
* PDUs to the initiator. We also tried hard to deliver
* SCSI Responses for the aborted PDUs. We don't do
* that anymore. We might need to revisit that.
*/
callout_drain(&cs->cs_callout);
icl_conn_close(cs->cs_conn);
/*
* At this point ICL receive thread is no longer
* running; no new tasks can be queued.
*/
cfiscsi_session_terminate_tasks(cs);
cfiscsi_session_delete(cs);
kthread_exit();
return;
}
CFISCSI_SESSION_DEBUG(cs, "nothing to do");
}
}
static void
cfiscsi_session_terminate(struct cfiscsi_session *cs)
{
if (cs->cs_terminating)
return;
cs->cs_terminating = true;
cv_signal(&cs->cs_maintenance_cv);
#ifdef ICL_KERNEL_PROXY
cv_signal(&cs->cs_login_cv);
#endif
}
static int
cfiscsi_session_register_initiator(struct cfiscsi_session *cs)
{
struct cfiscsi_target *ct;
char *name;
int i;
KASSERT(cs->cs_ctl_initid == -1, ("already registered"));
ct = cs->cs_target;
name = strdup(cs->cs_initiator_id, M_CTL);
i = ctl_add_initiator(&ct->ct_port, -1, 0, name);
if (i < 0) {
CFISCSI_SESSION_WARN(cs, "ctl_add_initiator failed with error %d",
i);
cs->cs_ctl_initid = -1;
return (1);
}
cs->cs_ctl_initid = i;
#if 0
CFISCSI_SESSION_DEBUG(cs, "added initiator id %d", i);
#endif
return (0);
}
static void
cfiscsi_session_unregister_initiator(struct cfiscsi_session *cs)
{
int error;
if (cs->cs_ctl_initid == -1)
return;
error = ctl_remove_initiator(&cs->cs_target->ct_port, cs->cs_ctl_initid);
if (error != 0) {
CFISCSI_SESSION_WARN(cs, "ctl_remove_initiator failed with error %d",
error);
}
cs->cs_ctl_initid = -1;
}
static struct cfiscsi_session *
cfiscsi_session_new(struct cfiscsi_softc *softc, const char *offload)
{
struct cfiscsi_session *cs;
int error;
cs = malloc(sizeof(*cs), M_CFISCSI, M_NOWAIT | M_ZERO);
if (cs == NULL) {
CFISCSI_WARN("malloc failed");
return (NULL);
}
cs->cs_ctl_initid = -1;
refcount_init(&cs->cs_outstanding_ctl_pdus, 0);
TAILQ_INIT(&cs->cs_waiting_for_data_out);
mtx_init(&cs->cs_lock, "cfiscsi_lock", NULL, MTX_DEF);
cv_init(&cs->cs_maintenance_cv, "cfiscsi_mt");
#ifdef ICL_KERNEL_PROXY
cv_init(&cs->cs_login_cv, "cfiscsi_login");
#endif
cs->cs_conn = icl_new_conn(offload, false, "cfiscsi", &cs->cs_lock);
if (cs->cs_conn == NULL) {
free(cs, M_CFISCSI);
return (NULL);
}
cs->cs_conn->ic_receive = cfiscsi_receive_callback;
cs->cs_conn->ic_error = cfiscsi_error_callback;
cs->cs_conn->ic_prv0 = cs;
error = kthread_add(cfiscsi_maintenance_thread, cs, NULL, NULL, 0, 0, "cfiscsimt");
if (error != 0) {
CFISCSI_SESSION_WARN(cs, "kthread_add(9) failed with error %d", error);
free(cs, M_CFISCSI);
return (NULL);
}
mtx_lock(&softc->lock);
cs->cs_id = ++softc->last_session_id;
TAILQ_INSERT_TAIL(&softc->sessions, cs, cs_next);
mtx_unlock(&softc->lock);
/*
* Start pinging the initiator.
*/
callout_init(&cs->cs_callout, 1);
callout_reset(&cs->cs_callout, 1 * hz, cfiscsi_callout, cs);
return (cs);
}
static void
cfiscsi_session_delete(struct cfiscsi_session *cs)
{
struct cfiscsi_softc *softc;
softc = &cfiscsi_softc;
KASSERT(cs->cs_outstanding_ctl_pdus == 0,
("destroying session with outstanding CTL pdus"));
KASSERT(TAILQ_EMPTY(&cs->cs_waiting_for_data_out),
("destroying session with non-empty queue"));
cfiscsi_session_unregister_initiator(cs);
if (cs->cs_target != NULL)
cfiscsi_target_release(cs->cs_target);
icl_conn_close(cs->cs_conn);
icl_conn_free(cs->cs_conn);
mtx_lock(&softc->lock);
TAILQ_REMOVE(&softc->sessions, cs, cs_next);
cv_signal(&softc->sessions_cv);
mtx_unlock(&softc->lock);
free(cs, M_CFISCSI);
}
int
cfiscsi_init(void)
{
struct cfiscsi_softc *softc;
softc = &cfiscsi_softc;
bzero(softc, sizeof(*softc));
mtx_init(&softc->lock, "cfiscsi", NULL, MTX_DEF);
cv_init(&softc->sessions_cv, "cfiscsi_sessions");
#ifdef ICL_KERNEL_PROXY
cv_init(&softc->accept_cv, "cfiscsi_accept");
#endif
TAILQ_INIT(&softc->sessions);
TAILQ_INIT(&softc->targets);
cfiscsi_data_wait_zone = uma_zcreate("cfiscsi_data_wait",
sizeof(struct cfiscsi_data_wait), NULL, NULL, NULL, NULL,
UMA_ALIGN_PTR, 0);
return (0);
}
#ifdef ICL_KERNEL_PROXY
static void
cfiscsi_accept(struct socket *so, struct sockaddr *sa, int portal_id)
{
struct cfiscsi_session *cs;
cs = cfiscsi_session_new(&cfiscsi_softc, NULL);
if (cs == NULL) {
CFISCSI_WARN("failed to create session");
return;
}
icl_conn_handoff_sock(cs->cs_conn, so);
cs->cs_initiator_sa = sa;
cs->cs_portal_id = portal_id;
cs->cs_waiting_for_ctld = true;
cv_signal(&cfiscsi_softc.accept_cv);
}
#endif
static void
cfiscsi_online(void *arg)
{
struct cfiscsi_softc *softc;
struct cfiscsi_target *ct;
int online;
ct = (struct cfiscsi_target *)arg;
softc = ct->ct_softc;
mtx_lock(&softc->lock);
if (ct->ct_online) {
mtx_unlock(&softc->lock);
return;
}
ct->ct_online = 1;
online = softc->online++;
mtx_unlock(&softc->lock);
if (online > 0)
return;
#ifdef ICL_KERNEL_PROXY
if (softc->listener != NULL)
icl_listen_free(softc->listener);
softc->listener = icl_listen_new(cfiscsi_accept);
#endif
}
static void
cfiscsi_offline(void *arg)
{
struct cfiscsi_softc *softc;
struct cfiscsi_target *ct;
struct cfiscsi_session *cs;
int online;
ct = (struct cfiscsi_target *)arg;
softc = ct->ct_softc;
mtx_lock(&softc->lock);
if (!ct->ct_online) {
mtx_unlock(&softc->lock);
return;
}
ct->ct_online = 0;
online = --softc->online;
TAILQ_FOREACH(cs, &softc->sessions, cs_next) {
if (cs->cs_target == ct)
cfiscsi_session_terminate(cs);
}
do {
TAILQ_FOREACH(cs, &softc->sessions, cs_next) {
if (cs->cs_target == ct)
break;
}
if (cs != NULL)
cv_wait(&softc->sessions_cv, &softc->lock);
} while (cs != NULL && ct->ct_online == 0);
mtx_unlock(&softc->lock);
if (online > 0)
return;
#ifdef ICL_KERNEL_PROXY
icl_listen_free(softc->listener);
softc->listener = NULL;
#endif
}
static int
cfiscsi_info(void *arg, struct sbuf *sb)
{
struct cfiscsi_target *ct = (struct cfiscsi_target *)arg;
int retval;
retval = sbuf_printf(sb, "\t<cfiscsi_state>%d</cfiscsi_state>\n",
ct->ct_state);
return (retval);
}
static void
cfiscsi_ioctl_handoff(struct ctl_iscsi *ci)
{
struct cfiscsi_softc *softc;
struct cfiscsi_session *cs, *cs2;
struct cfiscsi_target *ct;
struct ctl_iscsi_handoff_params *cihp;
int error;
cihp = (struct ctl_iscsi_handoff_params *)&(ci->data);
softc = &cfiscsi_softc;
CFISCSI_DEBUG("new connection from %s (%s) to %s",
cihp->initiator_name, cihp->initiator_addr,
cihp->target_name);
ct = cfiscsi_target_find(softc, cihp->target_name,
cihp->portal_group_tag);
if (ct == NULL) {
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: target not found", __func__);
return;
}
#ifdef ICL_KERNEL_PROXY
if (cihp->socket > 0 && cihp->connection_id > 0) {
snprintf(ci->error_str, sizeof(ci->error_str),
"both socket and connection_id set");
ci->status = CTL_ISCSI_ERROR;
cfiscsi_target_release(ct);
return;
}
if (cihp->socket == 0) {
mtx_lock(&cfiscsi_softc.lock);
TAILQ_FOREACH(cs, &cfiscsi_softc.sessions, cs_next) {
if (cs->cs_id == cihp->connection_id)
break;
}
if (cs == NULL) {
mtx_unlock(&cfiscsi_softc.lock);
snprintf(ci->error_str, sizeof(ci->error_str),
"connection not found");
ci->status = CTL_ISCSI_ERROR;
cfiscsi_target_release(ct);
return;
}
mtx_unlock(&cfiscsi_softc.lock);
} else {
#endif
cs = cfiscsi_session_new(softc, cihp->offload);
if (cs == NULL) {
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: cfiscsi_session_new failed", __func__);
cfiscsi_target_release(ct);
return;
}
#ifdef ICL_KERNEL_PROXY
}
#endif
/*
* First PDU of Full Feature phase has the same CmdSN as the last
* PDU from the Login Phase received from the initiator. Thus,
* the -1 below.
*/
cs->cs_cmdsn = cihp->cmdsn;
cs->cs_statsn = cihp->statsn;
cs->cs_max_recv_data_segment_length = cihp->max_recv_data_segment_length;
cs->cs_max_send_data_segment_length = cihp->max_send_data_segment_length;
cs->cs_max_burst_length = cihp->max_burst_length;
cs->cs_first_burst_length = cihp->first_burst_length;
cs->cs_immediate_data = !!cihp->immediate_data;
if (cihp->header_digest == CTL_ISCSI_DIGEST_CRC32C)
cs->cs_conn->ic_header_crc32c = true;
if (cihp->data_digest == CTL_ISCSI_DIGEST_CRC32C)
cs->cs_conn->ic_data_crc32c = true;
strlcpy(cs->cs_initiator_name,
cihp->initiator_name, sizeof(cs->cs_initiator_name));
strlcpy(cs->cs_initiator_addr,
cihp->initiator_addr, sizeof(cs->cs_initiator_addr));
strlcpy(cs->cs_initiator_alias,
cihp->initiator_alias, sizeof(cs->cs_initiator_alias));
memcpy(cs->cs_initiator_isid,
cihp->initiator_isid, sizeof(cs->cs_initiator_isid));
snprintf(cs->cs_initiator_id, sizeof(cs->cs_initiator_id),
"%s,i,0x%02x%02x%02x%02x%02x%02x", cs->cs_initiator_name,
cihp->initiator_isid[0], cihp->initiator_isid[1],
cihp->initiator_isid[2], cihp->initiator_isid[3],
cihp->initiator_isid[4], cihp->initiator_isid[5]);
mtx_lock(&softc->lock);
if (ct->ct_online == 0) {
mtx_unlock(&softc->lock);
cfiscsi_session_terminate(cs);
cfiscsi_target_release(ct);
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: port offline", __func__);
return;
}
cs->cs_target = ct;
mtx_unlock(&softc->lock);
refcount_acquire(&cs->cs_outstanding_ctl_pdus);
restart:
if (!cs->cs_terminating) {
mtx_lock(&softc->lock);
TAILQ_FOREACH(cs2, &softc->sessions, cs_next) {
if (cs2 != cs && cs2->cs_tasks_aborted == false &&
cs->cs_target == cs2->cs_target &&
strcmp(cs->cs_initiator_id, cs2->cs_initiator_id) == 0) {
if (strcmp(cs->cs_initiator_addr,
cs2->cs_initiator_addr) != 0) {
CFISCSI_SESSION_WARN(cs2,
"session reinstatement from "
"different address %s",
cs->cs_initiator_addr);
} else {
CFISCSI_SESSION_DEBUG(cs2,
"session reinstatement");
}
cfiscsi_session_terminate(cs2);
mtx_unlock(&softc->lock);
pause("cfiscsi_reinstate", 1);
goto restart;
}
}
mtx_unlock(&softc->lock);
}
/*
* Register initiator with CTL.
*/
cfiscsi_session_register_initiator(cs);
#ifdef ICL_KERNEL_PROXY
if (cihp->socket > 0) {
#endif
error = icl_conn_handoff(cs->cs_conn, cihp->socket);
if (error != 0) {
cfiscsi_session_terminate(cs);
refcount_release(&cs->cs_outstanding_ctl_pdus);
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: icl_conn_handoff failed with error %d",
__func__, error);
return;
}
#ifdef ICL_KERNEL_PROXY
}
#endif
#ifdef ICL_KERNEL_PROXY
cs->cs_login_phase = false;
/*
* First PDU of the Full Feature phase has likely already arrived.
* We have to pick it up and execute properly.
*/
if (cs->cs_login_pdu != NULL) {
CFISCSI_SESSION_DEBUG(cs, "picking up first PDU");
cfiscsi_pdu_handle(cs->cs_login_pdu);
cs->cs_login_pdu = NULL;
}
#endif
refcount_release(&cs->cs_outstanding_ctl_pdus);
ci->status = CTL_ISCSI_OK;
}
static void
cfiscsi_ioctl_list(struct ctl_iscsi *ci)
{
struct ctl_iscsi_list_params *cilp;
struct cfiscsi_session *cs;
struct cfiscsi_softc *softc;
struct sbuf *sb;
int error;
cilp = (struct ctl_iscsi_list_params *)&(ci->data);
softc = &cfiscsi_softc;
sb = sbuf_new(NULL, NULL, cilp->alloc_len, SBUF_FIXEDLEN);
if (sb == NULL) {
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"Unable to allocate %d bytes for iSCSI session list",
cilp->alloc_len);
return;
}
sbuf_printf(sb, "<ctlislist>\n");
mtx_lock(&softc->lock);
TAILQ_FOREACH(cs, &softc->sessions, cs_next) {
#ifdef ICL_KERNEL_PROXY
if (cs->cs_target == NULL)
continue;
#endif
error = sbuf_printf(sb, "<connection id=\"%d\">"
"<initiator>%s</initiator>"
"<initiator_addr>%s</initiator_addr>"
"<initiator_alias>%s</initiator_alias>"
"<target>%s</target>"
"<target_alias>%s</target_alias>"
"<target_portal_group_tag>%u</target_portal_group_tag>"
"<header_digest>%s</header_digest>"
"<data_digest>%s</data_digest>"
"<max_recv_data_segment_length>%d</max_recv_data_segment_length>"
"<max_send_data_segment_length>%d</max_send_data_segment_length>"
"<max_burst_length>%d</max_burst_length>"
"<first_burst_length>%d</first_burst_length>"
"<immediate_data>%d</immediate_data>"
"<iser>%d</iser>"
"<offload>%s</offload>"
"</connection>\n",
cs->cs_id,
cs->cs_initiator_name, cs->cs_initiator_addr, cs->cs_initiator_alias,
cs->cs_target->ct_name, cs->cs_target->ct_alias,
cs->cs_target->ct_tag,
cs->cs_conn->ic_header_crc32c ? "CRC32C" : "None",
cs->cs_conn->ic_data_crc32c ? "CRC32C" : "None",
cs->cs_max_recv_data_segment_length,
cs->cs_max_send_data_segment_length,
cs->cs_max_burst_length,
cs->cs_first_burst_length,
cs->cs_immediate_data,
cs->cs_conn->ic_iser,
cs->cs_conn->ic_offload);
if (error != 0)
break;
}
mtx_unlock(&softc->lock);
error = sbuf_printf(sb, "</ctlislist>\n");
if (error != 0) {
sbuf_delete(sb);
ci->status = CTL_ISCSI_LIST_NEED_MORE_SPACE;
snprintf(ci->error_str, sizeof(ci->error_str),
"Out of space, %d bytes is too small", cilp->alloc_len);
return;
}
sbuf_finish(sb);
error = copyout(sbuf_data(sb), cilp->conn_xml, sbuf_len(sb) + 1);
cilp->fill_len = sbuf_len(sb) + 1;
ci->status = CTL_ISCSI_OK;
sbuf_delete(sb);
}
static void
cfiscsi_ioctl_logout(struct ctl_iscsi *ci)
{
struct icl_pdu *response;
struct iscsi_bhs_asynchronous_message *bhsam;
struct ctl_iscsi_logout_params *cilp;
struct cfiscsi_session *cs;
struct cfiscsi_softc *softc;
int found = 0;
cilp = (struct ctl_iscsi_logout_params *)&(ci->data);
softc = &cfiscsi_softc;
mtx_lock(&softc->lock);
TAILQ_FOREACH(cs, &softc->sessions, cs_next) {
if (cilp->all == 0 && cs->cs_id != cilp->connection_id &&
strcmp(cs->cs_initiator_name, cilp->initiator_name) != 0 &&
strcmp(cs->cs_initiator_addr, cilp->initiator_addr) != 0)
continue;
response = icl_pdu_new(cs->cs_conn, M_NOWAIT);
if (response == NULL) {
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"Unable to allocate memory");
mtx_unlock(&softc->lock);
return;
}
bhsam =
(struct iscsi_bhs_asynchronous_message *)response->ip_bhs;
bhsam->bhsam_opcode = ISCSI_BHS_OPCODE_ASYNC_MESSAGE;
bhsam->bhsam_flags = 0x80;
bhsam->bhsam_async_event = BHSAM_EVENT_TARGET_REQUESTS_LOGOUT;
bhsam->bhsam_parameter3 = htons(10);
cfiscsi_pdu_queue(response);
found++;
}
mtx_unlock(&softc->lock);
if (found == 0) {
ci->status = CTL_ISCSI_SESSION_NOT_FOUND;
snprintf(ci->error_str, sizeof(ci->error_str),
"No matching connections found");
return;
}
ci->status = CTL_ISCSI_OK;
}
static void
cfiscsi_ioctl_terminate(struct ctl_iscsi *ci)
{
struct icl_pdu *response;
struct iscsi_bhs_asynchronous_message *bhsam;
struct ctl_iscsi_terminate_params *citp;
struct cfiscsi_session *cs;
struct cfiscsi_softc *softc;
int found = 0;
citp = (struct ctl_iscsi_terminate_params *)&(ci->data);
softc = &cfiscsi_softc;
mtx_lock(&softc->lock);
TAILQ_FOREACH(cs, &softc->sessions, cs_next) {
if (citp->all == 0 && cs->cs_id != citp->connection_id &&
strcmp(cs->cs_initiator_name, citp->initiator_name) != 0 &&
strcmp(cs->cs_initiator_addr, citp->initiator_addr) != 0)
continue;
response = icl_pdu_new(cs->cs_conn, M_NOWAIT);
if (response == NULL) {
/*
* Oh well. Just terminate the connection.
*/
} else {
bhsam = (struct iscsi_bhs_asynchronous_message *)
response->ip_bhs;
bhsam->bhsam_opcode = ISCSI_BHS_OPCODE_ASYNC_MESSAGE;
bhsam->bhsam_flags = 0x80;
bhsam->bhsam_0xffffffff = 0xffffffff;
bhsam->bhsam_async_event =
BHSAM_EVENT_TARGET_TERMINATES_SESSION;
cfiscsi_pdu_queue(response);
}
cfiscsi_session_terminate(cs);
found++;
}
mtx_unlock(&softc->lock);
if (found == 0) {
ci->status = CTL_ISCSI_SESSION_NOT_FOUND;
snprintf(ci->error_str, sizeof(ci->error_str),
"No matching connections found");
return;
}
ci->status = CTL_ISCSI_OK;
}
static void
cfiscsi_ioctl_limits(struct ctl_iscsi *ci)
{
struct ctl_iscsi_limits_params *cilp;
struct icl_drv_limits idl;
int error;
cilp = (struct ctl_iscsi_limits_params *)&(ci->data);
error = icl_limits(cilp->offload, false, &idl);
if (error != 0) {
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: icl_limits failed with error %d",
__func__, error);
return;
}
cilp->max_recv_data_segment_length =
idl.idl_max_recv_data_segment_length;
cilp->max_send_data_segment_length =
idl.idl_max_send_data_segment_length;
cilp->max_burst_length = idl.idl_max_burst_length;
cilp->first_burst_length = idl.idl_first_burst_length;
ci->status = CTL_ISCSI_OK;
}
#ifdef ICL_KERNEL_PROXY
static void
cfiscsi_ioctl_listen(struct ctl_iscsi *ci)
{
struct ctl_iscsi_listen_params *cilp;
struct sockaddr *sa;
int error;
cilp = (struct ctl_iscsi_listen_params *)&(ci->data);
if (cfiscsi_softc.listener == NULL) {
CFISCSI_DEBUG("no listener");
snprintf(ci->error_str, sizeof(ci->error_str), "no listener");
ci->status = CTL_ISCSI_ERROR;
return;
}
error = getsockaddr(&sa, (void *)cilp->addr, cilp->addrlen);
if (error != 0) {
CFISCSI_DEBUG("getsockaddr, error %d", error);
snprintf(ci->error_str, sizeof(ci->error_str), "getsockaddr failed");
ci->status = CTL_ISCSI_ERROR;
return;
}
error = icl_listen_add(cfiscsi_softc.listener, cilp->iser, cilp->domain,
cilp->socktype, cilp->protocol, sa, cilp->portal_id);
if (error != 0) {
free(sa, M_SONAME);
CFISCSI_DEBUG("icl_listen_add, error %d", error);
snprintf(ci->error_str, sizeof(ci->error_str),
"icl_listen_add failed, error %d", error);
ci->status = CTL_ISCSI_ERROR;
return;
}
ci->status = CTL_ISCSI_OK;
}
static void
cfiscsi_ioctl_accept(struct ctl_iscsi *ci)
{
struct ctl_iscsi_accept_params *ciap;
struct cfiscsi_session *cs;
int error;
ciap = (struct ctl_iscsi_accept_params *)&(ci->data);
mtx_lock(&cfiscsi_softc.lock);
for (;;) {
TAILQ_FOREACH(cs, &cfiscsi_softc.sessions, cs_next) {
if (cs->cs_waiting_for_ctld)
break;
}
if (cs != NULL)
break;
error = cv_wait_sig(&cfiscsi_softc.accept_cv, &cfiscsi_softc.lock);
if (error != 0) {
mtx_unlock(&cfiscsi_softc.lock);
snprintf(ci->error_str, sizeof(ci->error_str), "interrupted");
ci->status = CTL_ISCSI_ERROR;
return;
}
}
mtx_unlock(&cfiscsi_softc.lock);
cs->cs_waiting_for_ctld = false;
cs->cs_login_phase = true;
ciap->connection_id = cs->cs_id;
ciap->portal_id = cs->cs_portal_id;
ciap->initiator_addrlen = cs->cs_initiator_sa->sa_len;
error = copyout(cs->cs_initiator_sa, ciap->initiator_addr,
cs->cs_initiator_sa->sa_len);
if (error != 0) {
snprintf(ci->error_str, sizeof(ci->error_str),
"copyout failed with error %d", error);
ci->status = CTL_ISCSI_ERROR;
return;
}
ci->status = CTL_ISCSI_OK;
}
static void
cfiscsi_ioctl_send(struct ctl_iscsi *ci)
{
struct ctl_iscsi_send_params *cisp;
struct cfiscsi_session *cs;
struct icl_pdu *ip;
size_t datalen;
void *data;
int error;
cisp = (struct ctl_iscsi_send_params *)&(ci->data);
mtx_lock(&cfiscsi_softc.lock);
TAILQ_FOREACH(cs, &cfiscsi_softc.sessions, cs_next) {
if (cs->cs_id == cisp->connection_id)
break;
}
if (cs == NULL) {
mtx_unlock(&cfiscsi_softc.lock);
snprintf(ci->error_str, sizeof(ci->error_str), "connection not found");
ci->status = CTL_ISCSI_ERROR;
return;
}
mtx_unlock(&cfiscsi_softc.lock);
#if 0
if (cs->cs_login_phase == false)
return (EBUSY);
#endif
if (cs->cs_terminating) {
snprintf(ci->error_str, sizeof(ci->error_str), "connection is terminating");
ci->status = CTL_ISCSI_ERROR;
return;
}
datalen = cisp->data_segment_len;
/*
* XXX
*/
//if (datalen > CFISCSI_MAX_DATA_SEGMENT_LENGTH) {
if (datalen > 65535) {
snprintf(ci->error_str, sizeof(ci->error_str), "data segment too big");
ci->status = CTL_ISCSI_ERROR;
return;
}
if (datalen > 0) {
data = malloc(datalen, M_CFISCSI, M_WAITOK);
error = copyin(cisp->data_segment, data, datalen);
if (error != 0) {
free(data, M_CFISCSI);
snprintf(ci->error_str, sizeof(ci->error_str), "copyin error %d", error);
ci->status = CTL_ISCSI_ERROR;
return;
}
}
ip = icl_pdu_new(cs->cs_conn, M_WAITOK);
memcpy(ip->ip_bhs, cisp->bhs, sizeof(*ip->ip_bhs));
if (datalen > 0) {
icl_pdu_append_data(ip, data, datalen, M_WAITOK);
free(data, M_CFISCSI);
}
CFISCSI_SESSION_LOCK(cs);
icl_pdu_queue(ip);
CFISCSI_SESSION_UNLOCK(cs);
ci->status = CTL_ISCSI_OK;
}
static void
cfiscsi_ioctl_receive(struct ctl_iscsi *ci)
{
struct ctl_iscsi_receive_params *cirp;
struct cfiscsi_session *cs;
struct icl_pdu *ip;
void *data;
int error;
cirp = (struct ctl_iscsi_receive_params *)&(ci->data);
mtx_lock(&cfiscsi_softc.lock);
TAILQ_FOREACH(cs, &cfiscsi_softc.sessions, cs_next) {
if (cs->cs_id == cirp->connection_id)
break;
}
if (cs == NULL) {
mtx_unlock(&cfiscsi_softc.lock);
snprintf(ci->error_str, sizeof(ci->error_str),
"connection not found");
ci->status = CTL_ISCSI_ERROR;
return;
}
mtx_unlock(&cfiscsi_softc.lock);
#if 0
if (is->is_login_phase == false)
return (EBUSY);
#endif
CFISCSI_SESSION_LOCK(cs);
while (cs->cs_login_pdu == NULL && cs->cs_terminating == false) {
error = cv_wait_sig(&cs->cs_login_cv, &cs->cs_lock);
if (error != 0) {
CFISCSI_SESSION_UNLOCK(cs);
snprintf(ci->error_str, sizeof(ci->error_str),
"interrupted by signal");
ci->status = CTL_ISCSI_ERROR;
return;
}
}
if (cs->cs_terminating) {
CFISCSI_SESSION_UNLOCK(cs);
snprintf(ci->error_str, sizeof(ci->error_str),
"connection terminating");
ci->status = CTL_ISCSI_ERROR;
return;
}
ip = cs->cs_login_pdu;
cs->cs_login_pdu = NULL;
CFISCSI_SESSION_UNLOCK(cs);
if (ip->ip_data_len > cirp->data_segment_len) {
icl_pdu_free(ip);
snprintf(ci->error_str, sizeof(ci->error_str),
"data segment too big");
ci->status = CTL_ISCSI_ERROR;
return;
}
copyout(ip->ip_bhs, cirp->bhs, sizeof(*ip->ip_bhs));
if (ip->ip_data_len > 0) {
data = malloc(ip->ip_data_len, M_CFISCSI, M_WAITOK);
icl_pdu_get_data(ip, 0, data, ip->ip_data_len);
copyout(data, cirp->data_segment, ip->ip_data_len);
free(data, M_CFISCSI);
}
icl_pdu_free(ip);
ci->status = CTL_ISCSI_OK;
}
#endif /* !ICL_KERNEL_PROXY */
static void
cfiscsi_ioctl_port_create(struct ctl_req *req)
{
struct cfiscsi_target *ct;
struct ctl_port *port;
const char *target, *alias, *tags;
struct scsi_vpd_id_descriptor *desc;
ctl_options_t opts;
int retval, len, idlen;
uint16_t tag;
ctl_init_opts(&opts, req->num_args, req->kern_args);
target = ctl_get_opt(&opts, "cfiscsi_target");
alias = ctl_get_opt(&opts, "cfiscsi_target_alias");
tags = ctl_get_opt(&opts, "cfiscsi_portal_group_tag");
if (target == NULL || tags == NULL) {
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"Missing required argument");
ctl_free_opts(&opts);
return;
}
tag = strtol(tags, (char **)NULL, 10);
ct = cfiscsi_target_find_or_create(&cfiscsi_softc, target, alias, tag);
if (ct == NULL) {
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"failed to create target \"%s\"", target);
ctl_free_opts(&opts);
return;
}
if (ct->ct_state == CFISCSI_TARGET_STATE_ACTIVE) {
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"target \"%s\" already exists", target);
cfiscsi_target_release(ct);
ctl_free_opts(&opts);
return;
}
port = &ct->ct_port;
// WAT
if (ct->ct_state == CFISCSI_TARGET_STATE_DYING)
goto done;
port->frontend = &cfiscsi_frontend;
port->port_type = CTL_PORT_ISCSI;
/* XXX KDM what should the real number be here? */
port->num_requested_ctl_io = 4096;
port->port_name = "iscsi";
port->physical_port = tag;
port->virtual_port = ct->ct_target_id;
port->port_online = cfiscsi_online;
port->port_offline = cfiscsi_offline;
port->port_info = cfiscsi_info;
port->onoff_arg = ct;
port->fe_datamove = cfiscsi_datamove;
port->fe_done = cfiscsi_done;
/* XXX KDM what should we report here? */
/* XXX These should probably be fetched from CTL. */
port->max_targets = 1;
port->max_target_id = 15;
port->targ_port = -1;
port->options = opts;
STAILQ_INIT(&opts);
/* Generate Port ID. */
idlen = strlen(target) + strlen(",t,0x0001") + 1;
idlen = roundup2(idlen, 4);
len = sizeof(struct scsi_vpd_device_id) + idlen;
port->port_devid = malloc(sizeof(struct ctl_devid) + len,
M_CTL, M_WAITOK | M_ZERO);
port->port_devid->len = len;
desc = (struct scsi_vpd_id_descriptor *)port->port_devid->data;
desc->proto_codeset = (SCSI_PROTO_ISCSI << 4) | SVPD_ID_CODESET_UTF8;
desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_PORT |
SVPD_ID_TYPE_SCSI_NAME;
desc->length = idlen;
snprintf(desc->identifier, idlen, "%s,t,0x%4.4x", target, tag);
/* Generate Target ID. */
idlen = strlen(target) + 1;
idlen = roundup2(idlen, 4);
len = sizeof(struct scsi_vpd_device_id) + idlen;
port->target_devid = malloc(sizeof(struct ctl_devid) + len,
M_CTL, M_WAITOK | M_ZERO);
port->target_devid->len = len;
desc = (struct scsi_vpd_id_descriptor *)port->target_devid->data;
desc->proto_codeset = (SCSI_PROTO_ISCSI << 4) | SVPD_ID_CODESET_UTF8;
desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_TARGET |
SVPD_ID_TYPE_SCSI_NAME;
desc->length = idlen;
strlcpy(desc->identifier, target, idlen);
retval = ctl_port_register(port);
if (retval != 0) {
ctl_free_opts(&port->options);
cfiscsi_target_release(ct);
free(port->port_devid, M_CFISCSI);
free(port->target_devid, M_CFISCSI);
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"ctl_port_register() failed with error %d", retval);
return;
}
done:
ct->ct_state = CFISCSI_TARGET_STATE_ACTIVE;
req->status = CTL_LUN_OK;
memcpy(req->kern_args[0].kvalue, &port->targ_port,
sizeof(port->targ_port)); //XXX
}
static void
cfiscsi_ioctl_port_remove(struct ctl_req *req)
{
struct cfiscsi_target *ct;
const char *target, *tags;
ctl_options_t opts;
uint16_t tag;
ctl_init_opts(&opts, req->num_args, req->kern_args);
target = ctl_get_opt(&opts, "cfiscsi_target");
tags = ctl_get_opt(&opts, "cfiscsi_portal_group_tag");
if (target == NULL || tags == NULL) {
ctl_free_opts(&opts);
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"Missing required argument");
return;
}
tag = strtol(tags, (char **)NULL, 10);
ct = cfiscsi_target_find(&cfiscsi_softc, target, tag);
if (ct == NULL) {
ctl_free_opts(&opts);
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"can't find target \"%s\"", target);
return;
}
if (ct->ct_state != CFISCSI_TARGET_STATE_ACTIVE) {
ctl_free_opts(&opts);
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"target \"%s\" is already dying", target);
return;
}
ctl_free_opts(&opts);
ct->ct_state = CFISCSI_TARGET_STATE_DYING;
ctl_port_offline(&ct->ct_port);
cfiscsi_target_release(ct);
cfiscsi_target_release(ct);
req->status = CTL_LUN_OK;
}
static int
cfiscsi_ioctl(struct cdev *dev,
u_long cmd, caddr_t addr, int flag, struct thread *td)
{
struct ctl_iscsi *ci;
struct ctl_req *req;
if (cmd == CTL_PORT_REQ) {
req = (struct ctl_req *)addr;
switch (req->reqtype) {
case CTL_REQ_CREATE:
cfiscsi_ioctl_port_create(req);
break;
case CTL_REQ_REMOVE:
cfiscsi_ioctl_port_remove(req);
break;
default:
req->status = CTL_LUN_ERROR;
snprintf(req->error_str, sizeof(req->error_str),
"Unsupported request type %d", req->reqtype);
}
return (0);
}
if (cmd != CTL_ISCSI)
return (ENOTTY);
ci = (struct ctl_iscsi *)addr;
switch (ci->type) {
case CTL_ISCSI_HANDOFF:
cfiscsi_ioctl_handoff(ci);
break;
case CTL_ISCSI_LIST:
cfiscsi_ioctl_list(ci);
break;
case CTL_ISCSI_LOGOUT:
cfiscsi_ioctl_logout(ci);
break;
case CTL_ISCSI_TERMINATE:
cfiscsi_ioctl_terminate(ci);
break;
case CTL_ISCSI_LIMITS:
cfiscsi_ioctl_limits(ci);
break;
#ifdef ICL_KERNEL_PROXY
case CTL_ISCSI_LISTEN:
cfiscsi_ioctl_listen(ci);
break;
case CTL_ISCSI_ACCEPT:
cfiscsi_ioctl_accept(ci);
break;
case CTL_ISCSI_SEND:
cfiscsi_ioctl_send(ci);
break;
case CTL_ISCSI_RECEIVE:
cfiscsi_ioctl_receive(ci);
break;
#else
case CTL_ISCSI_LISTEN:
case CTL_ISCSI_ACCEPT:
case CTL_ISCSI_SEND:
case CTL_ISCSI_RECEIVE:
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: CTL compiled without ICL_KERNEL_PROXY",
__func__);
break;
#endif /* !ICL_KERNEL_PROXY */
default:
ci->status = CTL_ISCSI_ERROR;
snprintf(ci->error_str, sizeof(ci->error_str),
"%s: invalid iSCSI request type %d", __func__, ci->type);
break;
}
return (0);
}
static void
cfiscsi_target_hold(struct cfiscsi_target *ct)
{
refcount_acquire(&ct->ct_refcount);
}
static void
cfiscsi_target_release(struct cfiscsi_target *ct)
{
struct cfiscsi_softc *softc;
softc = ct->ct_softc;
mtx_lock(&softc->lock);
if (refcount_release(&ct->ct_refcount)) {
TAILQ_REMOVE(&softc->targets, ct, ct_next);
mtx_unlock(&softc->lock);
if (ct->ct_state != CFISCSI_TARGET_STATE_INVALID) {
ct->ct_state = CFISCSI_TARGET_STATE_INVALID;
if (ctl_port_deregister(&ct->ct_port) != 0)
printf("%s: ctl_port_deregister() failed\n",
__func__);
}
free(ct, M_CFISCSI);
return;
}
mtx_unlock(&softc->lock);
}
static struct cfiscsi_target *
cfiscsi_target_find(struct cfiscsi_softc *softc, const char *name, uint16_t tag)
{
struct cfiscsi_target *ct;
mtx_lock(&softc->lock);
TAILQ_FOREACH(ct, &softc->targets, ct_next) {
if (ct->ct_tag != tag ||
strcmp(name, ct->ct_name) != 0 ||
ct->ct_state != CFISCSI_TARGET_STATE_ACTIVE)
continue;
cfiscsi_target_hold(ct);
mtx_unlock(&softc->lock);
return (ct);
}
mtx_unlock(&softc->lock);
return (NULL);
}
static struct cfiscsi_target *
cfiscsi_target_find_or_create(struct cfiscsi_softc *softc, const char *name,
const char *alias, uint16_t tag)
{
struct cfiscsi_target *ct, *newct;
if (name[0] == '\0' || strlen(name) >= CTL_ISCSI_NAME_LEN)
return (NULL);
newct = malloc(sizeof(*newct), M_CFISCSI, M_WAITOK | M_ZERO);
mtx_lock(&softc->lock);
TAILQ_FOREACH(ct, &softc->targets, ct_next) {
if (ct->ct_tag != tag ||
strcmp(name, ct->ct_name) != 0 ||
ct->ct_state == CFISCSI_TARGET_STATE_INVALID)
continue;
cfiscsi_target_hold(ct);
mtx_unlock(&softc->lock);
free(newct, M_CFISCSI);
return (ct);
}
strlcpy(newct->ct_name, name, sizeof(newct->ct_name));
if (alias != NULL)
strlcpy(newct->ct_alias, alias, sizeof(newct->ct_alias));
newct->ct_tag = tag;
refcount_init(&newct->ct_refcount, 1);
newct->ct_softc = softc;
if (TAILQ_EMPTY(&softc->targets))
softc->last_target_id = 0;
newct->ct_target_id = ++softc->last_target_id;
TAILQ_INSERT_TAIL(&softc->targets, newct, ct_next);
mtx_unlock(&softc->lock);
return (newct);
}
static void
cfiscsi_datamove_in(union ctl_io *io)
{
struct cfiscsi_session *cs;
struct icl_pdu *request, *response;
const struct iscsi_bhs_scsi_command *bhssc;
struct iscsi_bhs_data_in *bhsdi;
struct ctl_sg_entry ctl_sg_entry, *ctl_sglist;
size_t len, expected_len, sg_len, buffer_offset;
const char *sg_addr;
int ctl_sg_count, error, i;
request = io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr;
cs = PDU_SESSION(request);
bhssc = (const struct iscsi_bhs_scsi_command *)request->ip_bhs;
KASSERT((bhssc->bhssc_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_COMMAND,
("bhssc->bhssc_opcode != ISCSI_BHS_OPCODE_SCSI_COMMAND"));
if (io->scsiio.kern_sg_entries > 0) {
ctl_sglist = (struct ctl_sg_entry *)io->scsiio.kern_data_ptr;
ctl_sg_count = io->scsiio.kern_sg_entries;
} else {
ctl_sglist = &ctl_sg_entry;
ctl_sglist->addr = io->scsiio.kern_data_ptr;
ctl_sglist->len = io->scsiio.kern_data_len;
ctl_sg_count = 1;
}
/*
* This is the total amount of data to be transferred within the current
* SCSI command. We need to record it so that we can properly report
* underflow/underflow.
*/
PDU_TOTAL_TRANSFER_LEN(request) = io->scsiio.kern_total_len;
/*
* This is the offset within the current SCSI command; for the first
* call to cfiscsi_datamove() it will be 0, and for subsequent ones
* it will be the sum of lengths of previous ones.
*/
buffer_offset = io->scsiio.kern_rel_offset;
/*
* This is the transfer length expected by the initiator. In theory,
* it could be different from the correct amount of data from the SCSI
* point of view, even if that doesn't make any sense.
*/
expected_len = ntohl(bhssc->bhssc_expected_data_transfer_length);
#if 0
if (expected_len != io->scsiio.kern_total_len) {
CFISCSI_SESSION_DEBUG(cs, "expected transfer length %zd, "
"actual length %zd", expected_len,
(size_t)io->scsiio.kern_total_len);
}
#endif
if (buffer_offset >= expected_len) {
#if 0
CFISCSI_SESSION_DEBUG(cs, "buffer_offset = %zd, "
"already sent the expected len", buffer_offset);
#endif
io->scsiio.be_move_done(io);
return;
}
i = 0;
sg_addr = NULL;
sg_len = 0;
response = NULL;
bhsdi = NULL;
for (;;) {
if (response == NULL) {
response = cfiscsi_pdu_new_response(request, M_NOWAIT);
if (response == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to "
"allocate memory; dropping connection");
ctl_set_busy(&io->scsiio);
io->scsiio.be_move_done(io);
cfiscsi_session_terminate(cs);
return;
}
bhsdi = (struct iscsi_bhs_data_in *)response->ip_bhs;
bhsdi->bhsdi_opcode = ISCSI_BHS_OPCODE_SCSI_DATA_IN;
bhsdi->bhsdi_initiator_task_tag =
bhssc->bhssc_initiator_task_tag;
bhsdi->bhsdi_target_transfer_tag = 0xffffffff;
bhsdi->bhsdi_datasn = htonl(PDU_EXPDATASN(request));
PDU_EXPDATASN(request)++;
bhsdi->bhsdi_buffer_offset = htonl(buffer_offset);
}
KASSERT(i < ctl_sg_count, ("i >= ctl_sg_count"));
if (sg_len == 0) {
sg_addr = ctl_sglist[i].addr;
sg_len = ctl_sglist[i].len;
KASSERT(sg_len > 0, ("sg_len <= 0"));
}
len = sg_len;
/*
* Truncate to maximum data segment length.
*/
KASSERT(response->ip_data_len < cs->cs_max_send_data_segment_length,
("ip_data_len %zd >= max_send_data_segment_length %d",
response->ip_data_len, cs->cs_max_send_data_segment_length));
if (response->ip_data_len + len >
cs->cs_max_send_data_segment_length) {
len = cs->cs_max_send_data_segment_length -
response->ip_data_len;
KASSERT(len <= sg_len, ("len %zd > sg_len %zd",
len, sg_len));
}
/*
* Truncate to expected data transfer length.
*/
KASSERT(buffer_offset + response->ip_data_len < expected_len,
("buffer_offset %zd + ip_data_len %zd >= expected_len %zd",
buffer_offset, response->ip_data_len, expected_len));
if (buffer_offset + response->ip_data_len + len > expected_len) {
CFISCSI_SESSION_DEBUG(cs, "truncating from %zd "
"to expected data transfer length %zd",
buffer_offset + response->ip_data_len + len, expected_len);
len = expected_len - (buffer_offset + response->ip_data_len);
KASSERT(len <= sg_len, ("len %zd > sg_len %zd",
len, sg_len));
}
error = icl_pdu_append_data(response, sg_addr, len, M_NOWAIT);
if (error != 0) {
CFISCSI_SESSION_WARN(cs, "failed to "
"allocate memory; dropping connection");
icl_pdu_free(response);
ctl_set_busy(&io->scsiio);
io->scsiio.be_move_done(io);
cfiscsi_session_terminate(cs);
return;
}
sg_addr += len;
sg_len -= len;
KASSERT(buffer_offset + response->ip_data_len <= expected_len,
("buffer_offset %zd + ip_data_len %zd > expected_len %zd",
buffer_offset, response->ip_data_len, expected_len));
if (buffer_offset + response->ip_data_len == expected_len) {
/*
* Already have the amount of data the initiator wanted.
*/
break;
}
if (sg_len == 0) {
/*
* End of scatter-gather segment;
* proceed to the next one...
*/
if (i == ctl_sg_count - 1) {
/*
* ... unless this was the last one.
*/
break;
}
i++;
}
if (response->ip_data_len == cs->cs_max_send_data_segment_length) {
/*
* Can't stuff more data into the current PDU;
* queue it. Note that's not enough to check
* for kern_data_resid == 0 instead; there
* may be several Data-In PDUs for the final
* call to cfiscsi_datamove(), and we want
* to set the F flag only on the last of them.
*/
buffer_offset += response->ip_data_len;
if (buffer_offset == io->scsiio.kern_total_len ||
buffer_offset == expected_len) {
buffer_offset -= response->ip_data_len;
break;
}
cfiscsi_pdu_queue(response);
response = NULL;
bhsdi = NULL;
}
}
if (response != NULL) {
buffer_offset += response->ip_data_len;
if (buffer_offset == io->scsiio.kern_total_len ||
buffer_offset == expected_len) {
bhsdi->bhsdi_flags |= BHSDI_FLAGS_F;
if (io->io_hdr.status == CTL_SUCCESS) {
bhsdi->bhsdi_flags |= BHSDI_FLAGS_S;
if (PDU_TOTAL_TRANSFER_LEN(request) <
ntohl(bhssc->bhssc_expected_data_transfer_length)) {
bhsdi->bhsdi_flags |= BHSSR_FLAGS_RESIDUAL_UNDERFLOW;
bhsdi->bhsdi_residual_count =
htonl(ntohl(bhssc->bhssc_expected_data_transfer_length) -
PDU_TOTAL_TRANSFER_LEN(request));
} else if (PDU_TOTAL_TRANSFER_LEN(request) >
ntohl(bhssc->bhssc_expected_data_transfer_length)) {
bhsdi->bhsdi_flags |= BHSSR_FLAGS_RESIDUAL_OVERFLOW;
bhsdi->bhsdi_residual_count =
htonl(PDU_TOTAL_TRANSFER_LEN(request) -
ntohl(bhssc->bhssc_expected_data_transfer_length));
}
bhsdi->bhsdi_status = io->scsiio.scsi_status;
io->io_hdr.flags |= CTL_FLAG_STATUS_SENT;
}
}
KASSERT(response->ip_data_len > 0, ("sending empty Data-In"));
cfiscsi_pdu_queue(response);
}
io->scsiio.be_move_done(io);
}
static void
cfiscsi_datamove_out(union ctl_io *io)
{
struct cfiscsi_session *cs;
struct icl_pdu *request, *response;
const struct iscsi_bhs_scsi_command *bhssc;
struct iscsi_bhs_r2t *bhsr2t;
struct cfiscsi_data_wait *cdw;
struct ctl_sg_entry ctl_sg_entry, *ctl_sglist;
uint32_t expected_len, r2t_off, r2t_len;
uint32_t target_transfer_tag;
bool done;
request = io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr;
cs = PDU_SESSION(request);
bhssc = (const struct iscsi_bhs_scsi_command *)request->ip_bhs;
KASSERT((bhssc->bhssc_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_COMMAND,
("bhssc->bhssc_opcode != ISCSI_BHS_OPCODE_SCSI_COMMAND"));
/*
* We need to record it so that we can properly report
* underflow/underflow.
*/
PDU_TOTAL_TRANSFER_LEN(request) = io->scsiio.kern_total_len;
/*
* Report write underflow as error since CTL and backends don't
* really support it, and SCSI does not tell how to do it right.
*/
expected_len = ntohl(bhssc->bhssc_expected_data_transfer_length);
if (io->scsiio.kern_rel_offset + io->scsiio.kern_data_len >
expected_len) {
io->scsiio.io_hdr.port_status = 43;
io->scsiio.be_move_done(io);
return;
}
target_transfer_tag =
atomic_fetchadd_32(&cs->cs_target_transfer_tag, 1);
cdw = cfiscsi_data_wait_new(cs, io, bhssc->bhssc_initiator_task_tag,
&target_transfer_tag);
if (cdw == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to "
"allocate memory; dropping connection");
ctl_set_busy(&io->scsiio);
io->scsiio.be_move_done(io);
cfiscsi_session_terminate(cs);
return;
}
#if 0
CFISCSI_SESSION_DEBUG(cs, "expecting Data-Out with initiator "
"task tag 0x%x, target transfer tag 0x%x",
bhssc->bhssc_initiator_task_tag, target_transfer_tag);
#endif
cdw->cdw_ctl_io = io;
cdw->cdw_target_transfer_tag = target_transfer_tag;
cdw->cdw_initiator_task_tag = bhssc->bhssc_initiator_task_tag;
cdw->cdw_r2t_end = io->scsiio.kern_data_len;
cdw->cdw_datasn = 0;
/* Set initial data pointer for the CDW respecting ext_data_filled. */
if (io->scsiio.kern_sg_entries > 0) {
ctl_sglist = (struct ctl_sg_entry *)io->scsiio.kern_data_ptr;
} else {
ctl_sglist = &ctl_sg_entry;
ctl_sglist->addr = io->scsiio.kern_data_ptr;
ctl_sglist->len = io->scsiio.kern_data_len;
}
cdw->cdw_sg_index = 0;
cdw->cdw_sg_addr = ctl_sglist[cdw->cdw_sg_index].addr;
cdw->cdw_sg_len = ctl_sglist[cdw->cdw_sg_index].len;
r2t_off = io->scsiio.ext_data_filled;
while (r2t_off > 0) {
if (r2t_off >= cdw->cdw_sg_len) {
r2t_off -= cdw->cdw_sg_len;
cdw->cdw_sg_index++;
cdw->cdw_sg_addr = ctl_sglist[cdw->cdw_sg_index].addr;
cdw->cdw_sg_len = ctl_sglist[cdw->cdw_sg_index].len;
continue;
}
cdw->cdw_sg_addr += r2t_off;
cdw->cdw_sg_len -= r2t_off;
r2t_off = 0;
}
if (cs->cs_immediate_data &&
io->scsiio.kern_rel_offset + io->scsiio.ext_data_filled <
icl_pdu_data_segment_length(request)) {
done = cfiscsi_handle_data_segment(request, cdw);
if (done) {
cfiscsi_data_wait_free(cs, cdw);
io->scsiio.be_move_done(io);
return;
}
}
r2t_off = io->scsiio.kern_rel_offset + io->scsiio.ext_data_filled;
r2t_len = MIN(io->scsiio.kern_data_len - io->scsiio.ext_data_filled,
cs->cs_max_burst_length);
cdw->cdw_r2t_end = io->scsiio.ext_data_filled + r2t_len;
CFISCSI_SESSION_LOCK(cs);
TAILQ_INSERT_TAIL(&cs->cs_waiting_for_data_out, cdw, cdw_next);
CFISCSI_SESSION_UNLOCK(cs);
/*
* XXX: We should limit the number of outstanding R2T PDUs
* per task to MaxOutstandingR2T.
*/
response = cfiscsi_pdu_new_response(request, M_NOWAIT);
if (response == NULL) {
CFISCSI_SESSION_WARN(cs, "failed to "
"allocate memory; dropping connection");
ctl_set_busy(&io->scsiio);
io->scsiio.be_move_done(io);
cfiscsi_session_terminate(cs);
return;
}
io->io_hdr.flags |= CTL_FLAG_DMA_INPROG;
bhsr2t = (struct iscsi_bhs_r2t *)response->ip_bhs;
bhsr2t->bhsr2t_opcode = ISCSI_BHS_OPCODE_R2T;
bhsr2t->bhsr2t_flags = 0x80;
bhsr2t->bhsr2t_lun = bhssc->bhssc_lun;
bhsr2t->bhsr2t_initiator_task_tag = bhssc->bhssc_initiator_task_tag;
bhsr2t->bhsr2t_target_transfer_tag = target_transfer_tag;
/*
* XXX: Here we assume that cfiscsi_datamove() won't ever
* be running concurrently on several CPUs for a given
* command.
*/
bhsr2t->bhsr2t_r2tsn = htonl(PDU_R2TSN(request));
PDU_R2TSN(request)++;
/*
* This is the offset within the current SCSI command;
* i.e. for the first call of datamove(), it will be 0,
* and for subsequent ones it will be the sum of lengths
* of previous ones.
*
* The ext_data_filled is to account for unsolicited
* (immediate) data that might have already arrived.
*/
bhsr2t->bhsr2t_buffer_offset = htonl(r2t_off);
/*
* This is the total length (sum of S/G lengths) this call
* to cfiscsi_datamove() is supposed to handle, limited by
* MaxBurstLength.
*/
bhsr2t->bhsr2t_desired_data_transfer_length = htonl(r2t_len);
cfiscsi_pdu_queue(response);
}
static void
cfiscsi_datamove(union ctl_io *io)
{
if ((io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_IN)
cfiscsi_datamove_in(io);
else {
/* We hadn't received anything during this datamove yet. */
io->scsiio.ext_data_filled = 0;
cfiscsi_datamove_out(io);
}
}
static void
cfiscsi_scsi_command_done(union ctl_io *io)
{
struct icl_pdu *request, *response;
struct iscsi_bhs_scsi_command *bhssc;
struct iscsi_bhs_scsi_response *bhssr;
#ifdef DIAGNOSTIC
struct cfiscsi_data_wait *cdw;
#endif
struct cfiscsi_session *cs;
uint16_t sense_length;
request = io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr;
cs = PDU_SESSION(request);
bhssc = (struct iscsi_bhs_scsi_command *)request->ip_bhs;
KASSERT((bhssc->bhssc_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_SCSI_COMMAND,
("replying to wrong opcode 0x%x", bhssc->bhssc_opcode));
//CFISCSI_SESSION_DEBUG(cs, "initiator task tag 0x%x",
// bhssc->bhssc_initiator_task_tag);
#ifdef DIAGNOSTIC
CFISCSI_SESSION_LOCK(cs);
TAILQ_FOREACH(cdw, &cs->cs_waiting_for_data_out, cdw_next)
KASSERT(bhssc->bhssc_initiator_task_tag !=
cdw->cdw_initiator_task_tag, ("dangling cdw"));
CFISCSI_SESSION_UNLOCK(cs);
#endif
/*
* Do not return status for aborted commands.
* There are exceptions, but none supported by CTL yet.
*/
if (((io->io_hdr.flags & CTL_FLAG_ABORT) &&
(io->io_hdr.flags & CTL_FLAG_ABORT_STATUS) == 0) ||
(io->io_hdr.flags & CTL_FLAG_STATUS_SENT)) {
ctl_free_io(io);
icl_pdu_free(request);
return;
}
response = cfiscsi_pdu_new_response(request, M_WAITOK);
bhssr = (struct iscsi_bhs_scsi_response *)response->ip_bhs;
bhssr->bhssr_opcode = ISCSI_BHS_OPCODE_SCSI_RESPONSE;
bhssr->bhssr_flags = 0x80;
/*
* XXX: We don't deal with bidirectional under/overflows;
* does anything actually support those?
*/
if (PDU_TOTAL_TRANSFER_LEN(request) <
ntohl(bhssc->bhssc_expected_data_transfer_length)) {
bhssr->bhssr_flags |= BHSSR_FLAGS_RESIDUAL_UNDERFLOW;
bhssr->bhssr_residual_count =
htonl(ntohl(bhssc->bhssc_expected_data_transfer_length) -
PDU_TOTAL_TRANSFER_LEN(request));
//CFISCSI_SESSION_DEBUG(cs, "underflow; residual count %d",
// ntohl(bhssr->bhssr_residual_count));
} else if (PDU_TOTAL_TRANSFER_LEN(request) >
ntohl(bhssc->bhssc_expected_data_transfer_length)) {
bhssr->bhssr_flags |= BHSSR_FLAGS_RESIDUAL_OVERFLOW;
bhssr->bhssr_residual_count =
htonl(PDU_TOTAL_TRANSFER_LEN(request) -
ntohl(bhssc->bhssc_expected_data_transfer_length));
//CFISCSI_SESSION_DEBUG(cs, "overflow; residual count %d",
// ntohl(bhssr->bhssr_residual_count));
}
bhssr->bhssr_response = BHSSR_RESPONSE_COMMAND_COMPLETED;
bhssr->bhssr_status = io->scsiio.scsi_status;
bhssr->bhssr_initiator_task_tag = bhssc->bhssc_initiator_task_tag;
bhssr->bhssr_expdatasn = htonl(PDU_EXPDATASN(request));
if (io->scsiio.sense_len > 0) {
#if 0
CFISCSI_SESSION_DEBUG(cs, "returning %d bytes of sense data",
io->scsiio.sense_len);
#endif
sense_length = htons(io->scsiio.sense_len);
icl_pdu_append_data(response,
&sense_length, sizeof(sense_length), M_WAITOK);
icl_pdu_append_data(response,
&io->scsiio.sense_data, io->scsiio.sense_len, M_WAITOK);
}
ctl_free_io(io);
icl_pdu_free(request);
cfiscsi_pdu_queue(response);
}
static void
cfiscsi_task_management_done(union ctl_io *io)
{
struct icl_pdu *request, *response;
struct iscsi_bhs_task_management_request *bhstmr;
struct iscsi_bhs_task_management_response *bhstmr2;
struct cfiscsi_data_wait *cdw, *tmpcdw;
struct cfiscsi_session *cs, *tcs;
struct cfiscsi_softc *softc;
int cold_reset = 0;
request = io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr;
cs = PDU_SESSION(request);
bhstmr = (struct iscsi_bhs_task_management_request *)request->ip_bhs;
KASSERT((bhstmr->bhstmr_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) ==
ISCSI_BHS_OPCODE_TASK_REQUEST,
("replying to wrong opcode 0x%x", bhstmr->bhstmr_opcode));
#if 0
CFISCSI_SESSION_DEBUG(cs, "initiator task tag 0x%x; referenced task tag 0x%x",
bhstmr->bhstmr_initiator_task_tag,
bhstmr->bhstmr_referenced_task_tag);
#endif
if ((bhstmr->bhstmr_function & ~0x80) ==
BHSTMR_FUNCTION_ABORT_TASK) {
/*
* Make sure we no longer wait for Data-Out for this command.
*/
CFISCSI_SESSION_LOCK(cs);
TAILQ_FOREACH_SAFE(cdw,
&cs->cs_waiting_for_data_out, cdw_next, tmpcdw) {
if (bhstmr->bhstmr_referenced_task_tag !=
cdw->cdw_initiator_task_tag)
continue;
#if 0
CFISCSI_SESSION_DEBUG(cs, "removing csw for initiator task "
"tag 0x%x", bhstmr->bhstmr_initiator_task_tag);
#endif
TAILQ_REMOVE(&cs->cs_waiting_for_data_out,
cdw, cdw_next);
io->io_hdr.flags &= ~CTL_FLAG_DMA_INPROG;
cdw->cdw_ctl_io->scsiio.io_hdr.port_status = 43;
cdw->cdw_ctl_io->scsiio.be_move_done(cdw->cdw_ctl_io);
cfiscsi_data_wait_free(cs, cdw);
}
CFISCSI_SESSION_UNLOCK(cs);
}
if ((bhstmr->bhstmr_function & ~0x80) ==
BHSTMR_FUNCTION_TARGET_COLD_RESET &&
io->io_hdr.status == CTL_SUCCESS)
cold_reset = 1;
response = cfiscsi_pdu_new_response(request, M_WAITOK);
bhstmr2 = (struct iscsi_bhs_task_management_response *)
response->ip_bhs;
bhstmr2->bhstmr_opcode = ISCSI_BHS_OPCODE_TASK_RESPONSE;
bhstmr2->bhstmr_flags = 0x80;
switch (io->taskio.task_status) {
case CTL_TASK_FUNCTION_COMPLETE:
bhstmr2->bhstmr_response = BHSTMR_RESPONSE_FUNCTION_COMPLETE;
break;
case CTL_TASK_FUNCTION_SUCCEEDED:
bhstmr2->bhstmr_response = BHSTMR_RESPONSE_FUNCTION_SUCCEEDED;
break;
case CTL_TASK_LUN_DOES_NOT_EXIST:
bhstmr2->bhstmr_response = BHSTMR_RESPONSE_LUN_DOES_NOT_EXIST;
break;
case CTL_TASK_FUNCTION_NOT_SUPPORTED:
default:
bhstmr2->bhstmr_response = BHSTMR_RESPONSE_FUNCTION_NOT_SUPPORTED;
break;
}
memcpy(bhstmr2->bhstmr_additional_reponse_information,
io->taskio.task_resp, sizeof(io->taskio.task_resp));
bhstmr2->bhstmr_initiator_task_tag = bhstmr->bhstmr_initiator_task_tag;
ctl_free_io(io);
icl_pdu_free(request);
cfiscsi_pdu_queue(response);
if (cold_reset) {
softc = cs->cs_target->ct_softc;
mtx_lock(&softc->lock);
TAILQ_FOREACH(tcs, &softc->sessions, cs_next) {
if (tcs->cs_target == cs->cs_target)
cfiscsi_session_terminate(tcs);
}
mtx_unlock(&softc->lock);
}
}
static void
cfiscsi_done(union ctl_io *io)
{
struct icl_pdu *request;
struct cfiscsi_session *cs;
KASSERT(((io->io_hdr.status & CTL_STATUS_MASK) != CTL_STATUS_NONE),
("invalid CTL status %#x", io->io_hdr.status));
if (io->io_hdr.io_type == CTL_IO_TASK &&
io->taskio.task_action == CTL_TASK_I_T_NEXUS_RESET) {
/*
* Implicit task termination has just completed; nothing to do.
*/
cs = io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr;
cs->cs_tasks_aborted = true;
refcount_release(&cs->cs_outstanding_ctl_pdus);
wakeup(__DEVOLATILE(void *, &cs->cs_outstanding_ctl_pdus));
ctl_free_io(io);
return;
}
request = io->io_hdr.ctl_private[CTL_PRIV_FRONTEND].ptr;
cs = PDU_SESSION(request);
refcount_release(&cs->cs_outstanding_ctl_pdus);
switch (request->ip_bhs->bhs_opcode & ~ISCSI_BHS_OPCODE_IMMEDIATE) {
case ISCSI_BHS_OPCODE_SCSI_COMMAND:
cfiscsi_scsi_command_done(io);
break;
case ISCSI_BHS_OPCODE_TASK_REQUEST:
cfiscsi_task_management_done(io);
break;
default:
panic("cfiscsi_done called with wrong opcode 0x%x",
request->ip_bhs->bhs_opcode);
}
}