Re: [PATCH v1] vdpa/mlx5: Restore the hardware used index after change map

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On 2021/2/10 下午4:59, Si-Wei Liu wrote:


On 2/9/2021 7:53 PM, Jason Wang wrote:

On 2021/2/10 上午10:30, Si-Wei Liu wrote:


On 2/8/2021 10:37 PM, Jason Wang wrote:

On 2021/2/9 下午2:12, Eli Cohen wrote:
On Tue, Feb 09, 2021 at 11:20:14AM +0800, Jason Wang wrote:
On 2021/2/8 下午6:04, Eli Cohen wrote:
On Mon, Feb 08, 2021 at 05:04:27PM +0800, Jason Wang wrote:
On 2021/2/8 下午2:37, Eli Cohen wrote:
On Mon, Feb 08, 2021 at 12:27:18PM +0800, Jason Wang wrote:
On 2021/2/6 上午7:07, Si-Wei Liu wrote:
On 2/3/2021 11:36 PM, Eli Cohen wrote:
When a change of memory map occurs, the hardware resources are destroyed and then re-created again with the new memory map. In such case, we need to restore the hardware available and used indices. The driver failed to
restore the used index which is added here.

Also, since the driver also fails to reset the available and used indices upon device reset, fix this here to avoid regression caused by
the fact that used index may not be zero upon device reset.

Fixes: 1a86b377aa21 ("vdpa/mlx5: Add VDPA driver for supported mlx5
devices")
Signed-off-by: Eli Cohen<elic@xxxxxxxxxx>
---
v0 -> v1:
Clear indices upon device reset

     drivers/vdpa/mlx5/net/mlx5_vnet.c | 18 ++++++++++++++++++
     1 file changed, 18 insertions(+)

diff --git a/drivers/vdpa/mlx5/net/mlx5_vnet.c
b/drivers/vdpa/mlx5/net/mlx5_vnet.c
index 88dde3455bfd..b5fe6d2ad22f 100644
--- a/drivers/vdpa/mlx5/net/mlx5_vnet.c
+++ b/drivers/vdpa/mlx5/net/mlx5_vnet.c
@@ -87,6 +87,7 @@ struct mlx5_vq_restore_info {
         u64 device_addr;
         u64 driver_addr;
         u16 avail_index;
+    u16 used_index;
         bool ready;
         struct vdpa_callback cb;
         bool restore;
@@ -121,6 +122,7 @@ struct mlx5_vdpa_virtqueue {
         u32 virtq_id;
         struct mlx5_vdpa_net *ndev;
         u16 avail_idx;
+    u16 used_idx;
         int fw_state;
           /* keep last in the struct */
@@ -804,6 +806,7 @@ static int create_virtqueue(struct mlx5_vdpa_net
*ndev, struct mlx5_vdpa_virtque
           obj_context = MLX5_ADDR_OF(create_virtio_net_q_in, in,
obj_context);
         MLX5_SET(virtio_net_q_object, obj_context, hw_available_index,
mvq->avail_idx);
+    MLX5_SET(virtio_net_q_object, obj_context, hw_used_index,
mvq->used_idx);
         MLX5_SET(virtio_net_q_object, obj_context,
queue_feature_bit_mask_12_3,
get_features_12_3(ndev->mvdev.actual_features));
         vq_ctx = MLX5_ADDR_OF(virtio_net_q_object, obj_context,
virtio_q_context);
@@ -1022,6 +1025,7 @@ static int connect_qps(struct mlx5_vdpa_net
*ndev, struct mlx5_vdpa_virtqueue *m
     struct mlx5_virtq_attr {
         u8 state;
         u16 available_index;
+    u16 used_index;
     };
       static int query_virtqueue(struct mlx5_vdpa_net *ndev, struct
mlx5_vdpa_virtqueue *mvq,
@@ -1052,6 +1056,7 @@ static int query_virtqueue(struct
mlx5_vdpa_net *ndev, struct mlx5_vdpa_virtqueu
         memset(attr, 0, sizeof(*attr));
         attr->state = MLX5_GET(virtio_net_q_object, obj_context, state);
         attr->available_index = MLX5_GET(virtio_net_q_object,
obj_context, hw_available_index);
+    attr->used_index = MLX5_GET(virtio_net_q_object, obj_context,
hw_used_index);
         kfree(out);
         return 0;
     @@ -1535,6 +1540,16 @@ static void teardown_virtqueues(struct
mlx5_vdpa_net *ndev)
         }
     }
     +static void clear_virtqueues(struct mlx5_vdpa_net *ndev)
+{
+    int i;
+
+    for (i = ndev->mvdev.max_vqs - 1; i >= 0; i--) {
+        ndev->vqs[i].avail_idx = 0;
+        ndev->vqs[i].used_idx = 0;
+    }
+}
+
     /* TODO: cross-endian support */
     static inline bool mlx5_vdpa_is_little_endian(struct mlx5_vdpa_dev
*mvdev)
     {
@@ -1610,6 +1625,7 @@ static int save_channel_info(struct
mlx5_vdpa_net *ndev, struct mlx5_vdpa_virtqu
             return err;
           ri->avail_index = attr.available_index;
+    ri->used_index = attr.used_index;
         ri->ready = mvq->ready;
         ri->num_ent = mvq->num_ent;
         ri->desc_addr = mvq->desc_addr;
@@ -1654,6 +1670,7 @@ static void restore_channels_info(struct
mlx5_vdpa_net *ndev)
                 continue;
               mvq->avail_idx = ri->avail_index;
+        mvq->used_idx = ri->used_index;
             mvq->ready = ri->ready;
             mvq->num_ent = ri->num_ent;
             mvq->desc_addr = ri->desc_addr;
@@ -1768,6 +1785,7 @@ static void mlx5_vdpa_set_status(struct
vdpa_device *vdev, u8 status)
         if (!status) {
             mlx5_vdpa_info(mvdev, "performing device reset\n");
             teardown_driver(ndev);
+        clear_virtqueues(ndev);
The clearing looks fine at the first glance, as it aligns with the other state cleanups floating around at the same place. However, the thing is get_vq_state() is supposed to be called right after to get sync'ed with the latest internal avail_index from device while vq is stopped. The index was saved in the driver software at vq suspension, but before the virtq object is destroyed. We shouldn't clear the avail_index too early.
Good point.

There's a limitation on the virtio spec and vDPA framework that we can not
simply differ device suspending from device reset.

Are you talking about live migration where you reset the device but still want to know how far it progressed in order to continue from the
same place in the new VM?
Yes. So if we want to support live migration at we need:

in src node:
1) suspend the device
2) get last_avail_idx via get_vq_state()

in the dst node:
3) set last_avail_idx via set_vq_state()
4) resume the device

So you can see, step 2 requires the device/driver not to forget the
last_avail_idx.

Just to be sure, what really matters here is the used index. Becuase the vriqtueue itself is copied from the src VM to the dest VM. The available
index is alreay there and we know the hardware reads it from there.

So for "last_avail_idx" I meant the hardware internal avail index. It's not stored in the virtqueue so we must migrate it from src to dest and set them through set_vq_state(). Then in the destination, the virtqueue can be
restarted from that index.

Consider this case: driver posted buffers till avail index becomes the value 50. Hardware is executing but made it till 20 when virtqueue was
suspended due to live migration - this is indicated by hardware used
index equal 20.


So in this case the used index in the virtqueue should be 20? Otherwise we need not sync used index itself but all the used entries that is not committed to the used ring.

In other word, for mlx5 vdpa there's no such internal last_avail_idx stuff maintained by the hardware, right?


For each device it should have one otherwise it won't work correctly during stop/resume. See the codes mlx5_vdpa_get_vq_state() which calls query_virtqueue() that build commands to query "last_avail_idx" from the hardware:

    MLX5_SET(general_obj_in_cmd_hdr, cmd_hdr, opcode, MLX5_CMD_OP_QUERY_GENERAL_OBJECT);     MLX5_SET(general_obj_in_cmd_hdr, cmd_hdr, obj_type, MLX5_OBJ_TYPE_VIRTIO_NET_Q);
    MLX5_SET(general_obj_in_cmd_hdr, cmd_hdr, obj_id, mvq->virtq_id);
    MLX5_SET(general_obj_in_cmd_hdr, cmd_hdr, uid, ndev->mvdev.res.uid);
    err = mlx5_cmd_exec(ndev->mvdev.mdev, in, sizeof(in), out, outlen);
    if (err)
        goto err_cmd;

    obj_context = MLX5_ADDR_OF(query_virtio_net_q_out, out, obj_context);
    memset(attr, 0, sizeof(*attr));
    attr->state = MLX5_GET(virtio_net_q_object, obj_context, state);
    attr->available_index = MLX5_GET(virtio_net_q_object, obj_context, hw_available_index);

Eli should be able to correct me, but this hw_available_index might just be a cached value of virtqueue avail_index in the memory from the most recent sync.


It should not, otherwise it will be a bug.


I doubt it's the one you talked about in software implementation.


Actually not, it's a virtio general issue:

Consider there's not indices wrap. And:
- used_idx is the used index in the virtqueue
- last_used_idx is the used index maintained by the device, it points to the location where to put the next done requests to the used_ring
- avail_idx is the available index in the virtqueue
- last_avail_idx is the index maintained by the device, it points to the location where device need to read from the available.

So bascially, from device POV, it only cares the buffer that belong to itself which are [used_idx, avail_idx). So we have:

[used_idx, last_used_idx) The requests that have been completed by the device but not completed to the used ring (or at least used_idx is not updated). [last_used_idx, last_avail_idx) The requests that are being processed by the device. [last_avail_idx, avail_idx) The requests that are made available by the driver but not processed by the device.

During device stop/suspend, the device should:

- stop reading new request from available ring (or read until the end of descriptor chain) - sync used_idx with last_used_idx. Otherwise we need a complicated but not necessary API to sync last_used_idx and the indices that are not committed to used ring (since device may complete the request out of order)

So we know used_idx == last_used_idx in this case, so we have:

[used_idx/last_used_idx, last_avail_idx) The requests that are being processed. [last_avail_idx, avail_idx) The requests that are available for the driver but not yet processed.

For networking device, it's sufficient to think the requests are completed when TX/RX DMA are finished. So there's no requests that are being processed after the stop. In this case we had: used_idx == last_used_idx == last_avail_idx. Then we only had:

[used_idx/last_used_idx/last_avail_idx, avail_idx] The requests that are made available by the driver but not processed by the device. That's why you may think only used_idx matters here.

For block device, the completion of the request might require the communication with the remote backend, so we can't assume last_used_idx is equal to the last_avail_idx. Whether or not to wait for the drain the request is still being discussed[1].

So you can see, for all the cases, what really matters is the last_avail_idx. The device should know where it need to start reading for the next request, and it is not necessarily equal to last_used_idx or used_idx. What makes things a little bit easier is the networking device whose last_used_idx is equal to last_avail_idx.


If I understand Eli correctly, hardware will always reload the latest avail_index from memory whenever it's being sync'ed again.

<quote>
The hardware always goes to read the available index from memory. The requirement to configure it when creating a new object is still a requirement defined by the interface so I must not violate interface requirments.
</quote>

If the hardware does everything perfectly that is able to flush pending requests, update descriptors, rings plus used indices all at once before the suspension, there's no need for hardware to maintain a separate internal index than the h/w used_index. The hardware can get started from the saved used_index upon resuming. I view this is of (hardware) implementation choices and thought it does not violate the virtio spec?


Yes, but as you said, it has a lot of assumptions which may not work for other type of devices. So what I refer "last_avail_idx" is probably the "used_idx" in your description here. It might be the same in this case for networking device.







And the used_idx in the virtqueue is always in sync with the hardware used_index, and hardware is supposed to commit pending used buffers to the ring while bumping up the hardware used_index (and also committed to memory) altogether prior to suspension, is my understanding correct here? Double checking if this is the expected semantics of what modify_virtqueue(MLX5_VIRTIO_NET_Q_OBJECT_STATE_SUSPEND) should achieve.

If the above is true, then it looks to me for mlx5 vdpa we should really return h/w used_idx rather than the last_avail_idx through get_vq_state(), in order to reconstruct the virt queue state post live migration. For the set_map case, the internal last_avail_idx really doesn't matter, although both indices are saved and restored transparently as-is.


Right, a subtle thing here is that: for the device that might have can't not complete all virtqueue requests during vq suspending, the "last_avail_idx" might not be equal to the hardware used_idx. Thing might be true for the storage devices that needs to connect to a remote backend. But this is not the case of networking device, so last_avail_idx should be equal to hardware used_idx here.
Eli, since it's your hardware, does it work this way? i.e. does the firmware interface see a case where virtqueue requests can't be completed before suspending vq?


For storage device, I think it can happen.



But using the "last_avail_idx" or hardware avail_idx should always be better in this case since it's guaranteed to correct and will have less confusion. We use this convention in other types of vhost backends (vhost-kernel, vhost-user).

So looking at mlx5_set_vq_state(), it probably won't work since it doesn't not set either hardware avail_idx or hardware used_idx:
The saved mvq->avail_idx will be used to recreate hardware virtq object and the used index in create_virtqueue(), once status DRIVER_OK is set. I suspect we should pass the index to mvq->used_idx in mlx5_vdpa_set_vq_state() below instead.


It depends on what did mvq->used_idx meant? If it's last_used_idx, it should be the same with mvq->avail_idx for networking device.

Thanks



Thanks,
-Siwei

static int mlx5_vdpa_set_vq_state(struct vdpa_device *vdev, u16 idx,
                  const struct vdpa_vq_state *state)
{
    struct mlx5_vdpa_dev *mvdev = to_mvdev(vdev);
    struct mlx5_vdpa_net *ndev = to_mlx5_vdpa_ndev(mvdev);
    struct mlx5_vdpa_virtqueue *mvq = &ndev->vqs[idx];

    if (mvq->fw_state == MLX5_VIRTIO_NET_Q_OBJECT_STATE_RDY) {
        mlx5_vdpa_warn(mvdev, "can't modify available index\n");
        return -EINVAL;
    }

    mvq->avail_idx = state->avail_index;
    return 0;
}

Depends on the hardware, we should either set hardware used_idx or hardware avail_idx here.

I think we need to clarify how device is supposed to work in the virtio spec.

Thanks



-Siwei



Now the vritqueue is copied to the new VM and the
hardware now has to continue execution from index 20. We need to tell
the hardware via configuring the last used_index.


If the hardware can not sync the index from the virtqueue, the driver can do the synchronization by make the last_used_idx equals to used index in the virtqueue.

Thanks


  So why don't we
restore the used index?

So it puzzles me why is set_vq_state() we do not communicate the saved
used index.

We don't do that since:

1) if the hardware can sync its internal used index from the virtqueue
during device, then we don't need it
2) if the hardware can not sync its internal used index, the driver (e.g as
you did here) can do that.

But there's no way for the hardware to deduce the internal avail index from
the virtqueue, that's why avail index is sycned.

Thanks







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