ib_srpt Test Procedure
======================

At least the following tests must be run before releasing a new SRPT version:

* Make sure that SRPT compiles and installs without triggering any
  compiler warning. Use the following command to compile and install SRPT:

  for d in scst srpt; do make -sC $d clean && make -sC $d install; done

* Verify the output of run-regression-tests for kernel versions starting at
  2.6.27 up to and including the latest released kernel.

* Verify that SRPT compiles, installs and works fine when following the
  instructions in README.ofed for the latest released OFED distribution and
  with the latest released CentOS, Ubuntu and openSUSE distributions.

* Verify that module loading and unloading works fine.

* Verify that rejecting logins does not trigger a memory leak, e.g. as follows:
  * Run the following command on the target system:
      ${SCST_TRUNK}/scripts/monitor-memory-usage | tee memlog.txt
  * Run the following command on the initiator system:
      target_id="$(/usr/sbin/ibsrpdm -c -d /dev/infiniband/umad0 | head -n1)"
      for ((i=0;i<100000;i++)); do
        echo "$target_id" >/sys/class/infiniband_srp/srp-mlx4_0-1/add_target
      done

* Verify that the following I/O stress test does not report any errors even
  when left running for several hours:

    dev=...
    umount /mnt
    mkfs.ext4 -O ^has_journal $dev
    while \
      mount $dev /mnt && \
      rm -rf /mnt/test* && \
      fio --verify=md5 -rw=randwrite --size=10m --bs=4k \
        --loops=1000000 --iodepth=64 --group_reporting --sync=1 --direct=1 \
        --norandommap --ioengine=aio --directory=/mnt --name=test --thread \
        --numjobs=80 --runtime=30 && \
      fsck -N $dev
    do
      true
    done

* Repeat the above test with SCST_MAX_TGT_DEV_COMMANDS set to 48 and after
  having applied the patch below on ib_srpt.c. The expected result is that no
  data corruption occurs but that on the target error messages are logged
  about a negative req_lim value. The lowest expected value for req_lim is -15.

Index: srpt/src/ib_srpt.c
===================================================================
--- srpt/src/ib_srpt.c  (revision 2412)
+++ srpt/src/ib_srpt.c  (working copy)
@@ -2705,7 +2705,7 @@
 	ch->max_ti_iu_len = it_iu_len;
 	rsp->buf_fmt = cpu_to_be16(SRP_BUF_FORMAT_DIRECT |
 				   SRP_BUF_FORMAT_INDIRECT);
-	rsp->req_lim_delta = cpu_to_be32(ch->rq_size);
+	rsp->req_lim_delta = cpu_to_be32(ch->rq_size + 16);
 	ch->req_lim = ch->rq_size;
 	ch->req_lim_delta = 0;
 
* Verify that a SCSI reset works properly by running the following command
  on an initiator system (note: with kernel version 2.6.37 and before the
  command below triggers a bug in the Linux SRP initiator -- see also
  https://bugzilla.kernel.org/show_bug.cgi?id=13893):

  (target)
    echo add debug > /sys/kernel/scst_tgt/targets/ib_srpt/trace_level

  (initiator)
    sg_reset -d ${initiator_device}

  Verify that the target logged that it has processed a SRP_TSK_LUN_RESET
  message.

* Run the following command on a target system:

    while true; do                                                     \
      /etc/init.d/scst stop; sleep 3; /etc/init.d/scst start; sleep 5; \
    done

  and the following commands on an initiator system:

    target_id="$(/usr/sbin/ibsrpdm -c -d /dev/infiniband/umad0)"
    while true; do date; rmmod ib_srp; modprobe ib_srp; echo "${target_id}" \
    > /sys/class/infiniband_srp/srp-mlx4_0-1/add_target; sleep 2; done

  and verify that nothing unexpected happens.

* Log in twice from an initiator system, and verify that the first session
  receives a DREQ upon the second login:

    target_id="$(/usr/sbin/ibsrpdm -c -d /dev/infiniband/umad0 | head -n1)"
    dmesg -c
    echo "${target_id}" > /sys/class/infiniband_srp/srp-mlx4_0-1/add_target
    dmesg -c
    echo "${target_id}" > /sys/class/infiniband_srp/srp-mlx4_0-1/add_target
    dmesg -c
    echo "${target_id}" > /sys/class/infiniband_srp/srp-mlx4_0-1/add_target

* Test low memory conditions: load SRPT, reduce the amount of available
  memory by creating a large file on a tmpfs file system and run a stress test
  on an initiator system.

* Test the state machine for SCST commands in SRPT by using SCST's error
  injection mechanism. Add the following to scst/src/Makefile, log in from
  an initiator system and trigger SRP I/O:
    EXTRA_CFLAGS += -DCONFIG_SCST_DEBUG -g
    EXTRA_CFLAGS += -DCONFIG_SCST_DEBUG_TM -DCONFIG_SCST_TM_DBG_GO_OFFLINE

* Test with multiple values of ib_srp_tablesize in the range 1..128.

* Verify that the initiator does not lock up while running the command below
  (see also http://bugzilla.kernel.org/show_bug.cgi?id=14235):

    dev=...
    fio --bs=512 --buffered=0 --ioengine=libaio --rw=read --invalidate=1 \
        --thread --numjobs=8 --loops=10 --gtod_reduce=1 --group_reporting \
        --name=$dev --filename=$dev

* Test whether queue overflow recovery works correctly as follows:
  - On the target, reload ib_srpt with srpt_sq_size set to 64. Add e.g. the
    following in /etc/modprobe.d/ib_srpt.conf:
      options ib_srpt srpt_sq_size=64
  - On the initiator, run a direct I/O test with large block sizes, e.g.
      dev=/dev/sd...
      scripts/blockdev-perftest -f -d -j -m 12 -M 24 $dev
  - On the initiator, run the following two commands in parallel:
      scripts/blockdev-perftest -r -d -j -m 12 -M 24 $dev
      fio --verify=md5 -rw=randwrite --size=10m --bs=4k \
        --loops=1000000 --iodepth=64 --group_reporting --sync=1 --direct=1 \
        --norandommap --ioengine=aio --directory=/mnt --name=test --thread \
        --numjobs=80 --runtime=30

* Test whether aborting multipart RDMA transfers works correctly as follows:
  - On the target, reload ib_srpt with srpt_sq_size set to 64.
  - On the initiator, run a direct I/O test with large block sizes, e.g. 128 KB.
  - Verify that on the target kernel messages similar to the following are
    logged frequently:
    ib_srpt: ***ERROR***: srpt_perform_rdmas[2966]: ib_post_send() returned
    -12 for 1/2
  - On the target, unload and reload the ib_srpt kernel module.
  - Verify that no kernel crash occurs on the target.
  - Repeat the above a few times.

* Test whether the code for rejecting a login after the completion thread has
  been created works fine. Do that as follows:
  - Insert "ret = -ENOMEM;" after the srpt_ch_qp_rtr() call.
  - Rebuild, reinstall and restart SCST and ib_srpt on a system running a
    debug kernel.
  - Log in a few times from another system.
  - Verify on the initiator system that each login attempt results in
    "write error: Connection reset by peer".
  - Verify on the target that no error messages have been logged in the kernel
    log, that no completion threads remain (output of "ps aux | grep srpt" must
    not list any kernel threads) and that no sessions remain
    (output of "ls /sys/kernel/scst_tgt/targets/ib_srpt/*/sessions" must be
    empty) and that the amount of free memory remains the same.

* Run this script on the target to verify that active sessions are closed
  properly when a target is disabled:
    e=1
    while true; do
      echo $e
      for f in /sys/kernel/scst_tgt/targets/ib_srpt/*/enabled; do
        echo $e > $f
      done
      e=$((1-e))
      sleep 10
    done
  While this script is running, repeatedly try to log in from another system.

* Test as follows that module removal with active sessions works fine (this
  test uses the loopback capability of an IB HCA):

  for ((i=0;i<1;i++)); do
    /etc/init.d/scst restart
    while [ -e /sys/module/ib_srp ]; do
      rmmod ib_srp >/dev/null 2>&1 || sleep 1
    done
    modprobe ib_srp
    cat /sys/kernel/scst_tgt/targets/ib_srpt/*/login_info |
      sed 's/^t//' |
      while read target_info; do
        echo "${target_info}"
        for dev in /sys/class/infiniband_srp/srp-*; do
          echo -n "${target_info}" > $dev/add_target &
        done
        wait
      done
    (cd /sys/class/srp_host && ls)
    sleep 1
  done
