forked from Minki/linux
RDMA/odp: Lift umem_mutex out of ib_umem_odp_unmap_dma_pages()
This fixes a race of the form:
CPU0 CPU1
mlx5_ib_invalidate_range() mlx5_ib_invalidate_range()
// This one actually makes npages == 0
ib_umem_odp_unmap_dma_pages()
if (npages == 0 && !dying)
// This one does nothing
ib_umem_odp_unmap_dma_pages()
if (npages == 0 && !dying)
dying = 1;
dying = 1;
schedule_work(&umem_odp->work);
// Double schedule of the same work
schedule_work(&umem_odp->work); // BOOM
npages and dying must be read and written under the umem_mutex lock.
Since whenever ib_umem_odp_unmap_dma_pages() is called mlx5 must also call
mlx5_ib_update_xlt, and both need to be done in the same locking region,
hoist the lock out of unmap.
This avoids an expensive double critical section in
mlx5_ib_invalidate_range().
Fixes: 81713d3788
("IB/mlx5: Add implicit MR support")
Link: https://lore.kernel.org/r/20191001153821.23621-4-jgg@ziepe.ca
Reviewed-by: Artemy Kovalyov <artemyko@mellanox.com>
Signed-off-by: Jason Gunthorpe <jgg@mellanox.com>
This commit is contained in:
parent
f28b1932ea
commit
9dc775e7f5
@ -451,8 +451,10 @@ void ib_umem_odp_release(struct ib_umem_odp *umem_odp)
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* that the hardware will not attempt to access the MR any more.
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*/
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if (!umem_odp->is_implicit_odp) {
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mutex_lock(&umem_odp->umem_mutex);
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ib_umem_odp_unmap_dma_pages(umem_odp, ib_umem_start(umem_odp),
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ib_umem_end(umem_odp));
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mutex_unlock(&umem_odp->umem_mutex);
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kvfree(umem_odp->dma_list);
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kvfree(umem_odp->page_list);
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}
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@ -719,6 +721,8 @@ void ib_umem_odp_unmap_dma_pages(struct ib_umem_odp *umem_odp, u64 virt,
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u64 addr;
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struct ib_device *dev = umem_odp->umem.ibdev;
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lockdep_assert_held(&umem_odp->umem_mutex);
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virt = max_t(u64, virt, ib_umem_start(umem_odp));
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bound = min_t(u64, bound, ib_umem_end(umem_odp));
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/* Note that during the run of this function, the
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@ -726,7 +730,6 @@ void ib_umem_odp_unmap_dma_pages(struct ib_umem_odp *umem_odp, u64 virt,
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* faults from completion. We might be racing with other
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* invalidations, so we must make sure we free each page only
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* once. */
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mutex_lock(&umem_odp->umem_mutex);
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for (addr = virt; addr < bound; addr += BIT(umem_odp->page_shift)) {
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idx = (addr - ib_umem_start(umem_odp)) >> umem_odp->page_shift;
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if (umem_odp->page_list[idx]) {
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@ -757,7 +760,6 @@ void ib_umem_odp_unmap_dma_pages(struct ib_umem_odp *umem_odp, u64 virt,
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umem_odp->npages--;
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}
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}
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mutex_unlock(&umem_odp->umem_mutex);
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}
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EXPORT_SYMBOL(ib_umem_odp_unmap_dma_pages);
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@ -308,7 +308,6 @@ void mlx5_ib_invalidate_range(struct ib_umem_odp *umem_odp, unsigned long start,
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idx - blk_start_idx + 1, 0,
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MLX5_IB_UPD_XLT_ZAP |
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MLX5_IB_UPD_XLT_ATOMIC);
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mutex_unlock(&umem_odp->umem_mutex);
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/*
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* We are now sure that the device will not access the
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* memory. We can safely unmap it, and mark it as dirty if
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@ -319,10 +318,11 @@ void mlx5_ib_invalidate_range(struct ib_umem_odp *umem_odp, unsigned long start,
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if (unlikely(!umem_odp->npages && mr->parent &&
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!umem_odp->dying)) {
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WRITE_ONCE(umem_odp->dying, 1);
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umem_odp->dying = 1;
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atomic_inc(&mr->parent->num_leaf_free);
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schedule_work(&umem_odp->work);
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}
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mutex_unlock(&umem_odp->umem_mutex);
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}
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void mlx5_ib_internal_fill_odp_caps(struct mlx5_ib_dev *dev)
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@ -585,15 +585,19 @@ void mlx5_ib_free_implicit_mr(struct mlx5_ib_mr *imr)
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if (mr->parent != imr)
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continue;
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mutex_lock(&umem_odp->umem_mutex);
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ib_umem_odp_unmap_dma_pages(umem_odp, ib_umem_start(umem_odp),
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ib_umem_end(umem_odp));
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if (umem_odp->dying)
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if (umem_odp->dying) {
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mutex_unlock(&umem_odp->umem_mutex);
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continue;
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}
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WRITE_ONCE(umem_odp->dying, 1);
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umem_odp->dying = 1;
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atomic_inc(&imr->num_leaf_free);
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schedule_work(&umem_odp->work);
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mutex_unlock(&umem_odp->umem_mutex);
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}
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up_read(&per_mm->umem_rwsem);
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