Re: [PATCH v3 3/9] maple_tree: Introduce interfaces __mt_dup() and mtree_dup()

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* Peng Zhang <zhangpeng.00@xxxxxxxxxxxxx> [231004 05:09]:
> 
> 
> 在 2023/10/4 02:45, Liam R. Howlett 写道:
> > * Peng Zhang <zhangpeng.00@xxxxxxxxxxxxx> [230924 23:58]:
> > > Introduce interfaces __mt_dup() and mtree_dup(), which are used to
> > > duplicate a maple tree. They duplicate a maple tree in Depth-First
> > > Search (DFS) pre-order traversal. It uses memcopy() to copy nodes in the
> > > source tree and allocate new child nodes in non-leaf nodes. The new node
> > > is exactly the same as the source node except for all the addresses
> > > stored in it. It will be faster than traversing all elements in the
> > > source tree and inserting them one by one into the new tree. The time
> > > complexity of these two functions is O(n).
> > > 
> > > The difference between __mt_dup() and mtree_dup() is that mtree_dup()
> > > handles locks internally.
> > > 
> > > Signed-off-by: Peng Zhang <zhangpeng.00@xxxxxxxxxxxxx>
> > > ---
> > >   include/linux/maple_tree.h |   3 +
> > >   lib/maple_tree.c           | 286 +++++++++++++++++++++++++++++++++++++
> > >   2 files changed, 289 insertions(+)
> > > 
> > > diff --git a/include/linux/maple_tree.h b/include/linux/maple_tree.h
> > > index 666a3764ed89..de5a4056503a 100644
> > > --- a/include/linux/maple_tree.h
> > > +++ b/include/linux/maple_tree.h
> > > @@ -329,6 +329,9 @@ int mtree_store(struct maple_tree *mt, unsigned long index,
> > >   		void *entry, gfp_t gfp);
> > >   void *mtree_erase(struct maple_tree *mt, unsigned long index);
> > > +int mtree_dup(struct maple_tree *mt, struct maple_tree *new, gfp_t gfp);
> > > +int __mt_dup(struct maple_tree *mt, struct maple_tree *new, gfp_t gfp);
> > > +
> > >   void mtree_destroy(struct maple_tree *mt);
> > >   void __mt_destroy(struct maple_tree *mt);
> > > diff --git a/lib/maple_tree.c b/lib/maple_tree.c
> > > index 3fe5652a8c6c..ed8847b4f1ff 100644
> > > --- a/lib/maple_tree.c
> > > +++ b/lib/maple_tree.c
> > > @@ -6370,6 +6370,292 @@ void *mtree_erase(struct maple_tree *mt, unsigned long index)
> > >   }
> > >   EXPORT_SYMBOL(mtree_erase);
> > > +/*
> > > + * mas_dup_free() - Free an incomplete duplication of a tree.
> > > + * @mas: The maple state of a incomplete tree.
> > > + *
> > > + * The parameter @mas->node passed in indicates that the allocation failed on
> > > + * this node. This function frees all nodes starting from @mas->node in the
> > > + * reverse order of mas_dup_build(). There is no need to hold the source tree
> > > + * lock at this time.
> > > + */
> > > +static void mas_dup_free(struct ma_state *mas)
> > > +{
> > > +	struct maple_node *node;
> > > +	enum maple_type type;
> > > +	void __rcu **slots;
> > > +	unsigned char count, i;
> > > +
> > > +	/* Maybe the first node allocation failed. */
> > > +	if (mas_is_none(mas))
> > > +		return;
> > > +
> > > +	while (!mte_is_root(mas->node)) {
> > > +		mas_ascend(mas);
> > > +
> > > +		if (mas->offset) {
> > > +			mas->offset--;
> > > +			do {
> > > +				mas_descend(mas);
> > > +				mas->offset = mas_data_end(mas);
> > > +			} while (!mte_is_leaf(mas->node));
> > > +
> > > +			mas_ascend(mas);
> > > +		}
> > > +
> > > +		node = mte_to_node(mas->node);
> > > +		type = mte_node_type(mas->node);
> > > +		slots = ma_slots(node, type);
> > > +		count = mas_data_end(mas) + 1;
> > > +		for (i = 0; i < count; i++)
> > > +			((unsigned long *)slots)[i] &= ~MAPLE_NODE_MASK;
> > > +
> > > +		mt_free_bulk(count, slots);
> > > +	}
> > > +
> > > +	node = mte_to_node(mas->node);
> > > +	mt_free_one(node);
> > > +}
> > > +
> > > +/*
> > > + * mas_copy_node() - Copy a maple node and replace the parent.
> > > + * @mas: The maple state of source tree.
> > > + * @new_mas: The maple state of new tree.
> > > + * @parent: The parent of the new node.
> > > + *
> > > + * Copy @mas->node to @new_mas->node, set @parent to be the parent of
> > > + * @new_mas->node. If memory allocation fails, @mas is set to -ENOMEM.
> > > + */
> > > +static inline void mas_copy_node(struct ma_state *mas, struct ma_state *new_mas,
> > > +		struct maple_pnode *parent)
> > > +{
> > > +	struct maple_node *node = mte_to_node(mas->node);
> > > +	struct maple_node *new_node = mte_to_node(new_mas->node);
> > > +	unsigned long val;
> > > +
> > > +	/* Copy the node completely. */
> > > +	memcpy(new_node, node, sizeof(struct maple_node));
> > > +
> > > +	/* Update the parent node pointer. */
> > > +	val = (unsigned long)node->parent & MAPLE_NODE_MASK;
> > > +	new_node->parent = ma_parent_ptr(val | (unsigned long)parent);
> > > +}
> > > +
> > > +/*
> > > + * mas_dup_alloc() - Allocate child nodes for a maple node.
> > > + * @mas: The maple state of source tree.
> > > + * @new_mas: The maple state of new tree.
> > > + * @gfp: The GFP_FLAGS to use for allocations.
> > > + *
> > > + * This function allocates child nodes for @new_mas->node during the duplication
> > > + * process. If memory allocation fails, @mas is set to -ENOMEM.
> > > + */
> > > +static inline void mas_dup_alloc(struct ma_state *mas, struct ma_state *new_mas,
> > > +		gfp_t gfp)
> > > +{
> > > +	struct maple_node *node = mte_to_node(mas->node);
> > > +	struct maple_node *new_node = mte_to_node(new_mas->node);
> > > +	enum maple_type type;
> > > +	unsigned char request, count, i;
> > > +	void __rcu **slots;
> > > +	void __rcu **new_slots;
> > > +	unsigned long val;
> > > +
> > > +	/* Allocate memory for child nodes. */
> > > +	type = mte_node_type(mas->node);
> > > +	new_slots = ma_slots(new_node, type);
> > > +	request = mas_data_end(mas) + 1;
> > > +	count = mt_alloc_bulk(gfp, request, (void **)new_slots);
> > > +	if (unlikely(count < request)) {
> > > +		if (count) {
> > > +			mt_free_bulk(count, new_slots);
> > 
> > If you look at mm/slab.c: kmem_cache_alloc(), you will see that the
> > error path already bulk frees for you - but does not zero the array.
> > This bulk free will lead to double free, but you do need the below
> > memset().  Also, it will return !count or request. So, I think this code
> > is never executed as it is written.
> If kmem_cache_alloc() is called to allocate memory in mt_alloc_bulk(),
> then this code will not be executed because it only returns 0 or
> request. However, I am concerned that changes to mt_alloc_bulk() like
> [1] may be merged, which could potentially lead to memory leaks. To
> improve robustness, I wrote it this way.
> 
> How do you think it should be handled? Is it okay to do this like the
> code below?
> 
> if (unlikely(count < request)) {
> 	memset(new_slots, 0, request * sizeof(unsigned long));
> 	mas_set_err(mas, -ENOMEM);
> 	return;
> }
> 
> [1] https://lore.kernel.org/lkml/20230810163627.6206-13-vbabka@xxxxxxx/

Ah, I see.

We should keep the same functionality as before.  The code you are
referencing is an RFC and won't be merged as-is.  We should be sure to
keep an eye on this happening.

I think the code you have there is correct.

> > 
> > I don't think this will show up in your testcases because the test code
> > doesn't leave dangling pointers and simply returns 0 if there isn't
> > enough nodes.
> Yes, no testing here.

Yeah :/  I think we should update the test code at some point to behave
the same as the real code.  Don't worry about it here though.

> > 
> > > +			memset(new_slots, 0, count * sizeof(unsigned long));
> > > +		}
> > > +		mas_set_err(mas, -ENOMEM);
> > > +		return;
> > > +	}
> > > +
> > > +	/* Restore node type information in slots. */
> > > +	slots = ma_slots(node, type);
> > > +	for (i = 0; i < count; i++) {
> > > +		val = (unsigned long)mt_slot_locked(mas->tree, slots, i);
> > > +		val &= MAPLE_NODE_MASK;
> > > +		((unsigned long *)new_slots)[i] |= val;
> > > +	}
> > > +}
> > > +
> > > +/*
> > > + * mas_dup_build() - Build a new maple tree from a source tree
> > > + * @mas: The maple state of source tree.
> > > + * @new_mas: The maple state of new tree.
> > > + * @gfp: The GFP_FLAGS to use for allocations.
> > > + *
> > > + * This function builds a new tree in DFS preorder. If the memory allocation
> > > + * fails, the error code -ENOMEM will be set in @mas, and @new_mas points to the
> > > + * last node. mas_dup_free() will free the incomplete duplication of a tree.
> > > + *
> > > + * Note that the attributes of the two trees need to be exactly the same, and the
> > > + * new tree needs to be empty, otherwise -EINVAL will be set in @mas.
> > > + */
> > > +static inline void mas_dup_build(struct ma_state *mas, struct ma_state *new_mas,
> > > +		gfp_t gfp)
> > > +{
> > > +	struct maple_node *node;
> > > +	struct maple_pnode *parent = NULL;
> > > +	struct maple_enode *root;
> > > +	enum maple_type type;
> > > +
> > > +	if (unlikely(mt_attr(mas->tree) != mt_attr(new_mas->tree)) ||
> > > +	    unlikely(!mtree_empty(new_mas->tree))) {
> > 
> > Would it be worth checking mas_is_start() for both mas and new_mas here?
> > Otherwise mas_start() will not do what you want below.  I think it is
> > implied that both are at MAS_START but never checked?
> This function is an internal function and is currently only called by
> {mtree,__mt}_dup(). It is ensured that both 'mas' and 'new_mas' are
> MAS_START when called. Do you think we really need to check it? Maybe we
> just need to explain it in the comments?

Yes, just document that it is expected to be MAS_START.

> > 
> > > +		mas_set_err(mas, -EINVAL);
> > > +		return;
> > > +	}
> > > +
> > > +	mas_start(mas);
> > > +	if (mas_is_ptr(mas) || mas_is_none(mas)) {
> > > +		root = mt_root_locked(mas->tree);
> > > +		goto set_new_tree;
> > > +	}
> > > +
> > > +	node = mt_alloc_one(gfp);
> > > +	if (!node) {
> > > +		new_mas->node = MAS_NONE;
> > > +		mas_set_err(mas, -ENOMEM);
> > > +		return;
> > > +	}
> > > +
> > > +	type = mte_node_type(mas->node);
> > > +	root = mt_mk_node(node, type);
> > > +	new_mas->node = root;
> > > +	new_mas->min = 0;
> > > +	new_mas->max = ULONG_MAX;
> > > +	root = mte_mk_root(root);
> > > +
> > > +	while (1) {
> > > +		mas_copy_node(mas, new_mas, parent);
> > > +
> > > +		if (!mte_is_leaf(mas->node)) {
> > > +			/* Only allocate child nodes for non-leaf nodes. */
> > > +			mas_dup_alloc(mas, new_mas, gfp);
> > > +			if (unlikely(mas_is_err(mas)))
> > > +				return;
> > > +		} else {
> > > +			/*
> > > +			 * This is the last leaf node and duplication is
> > > +			 * completed.
> > > +			 */
> > > +			if (mas->max == ULONG_MAX)
> > > +				goto done;
> > > +
> > > +			/* This is not the last leaf node and needs to go up. */
> > > +			do {
> > > +				mas_ascend(mas);
> > > +				mas_ascend(new_mas);
> > > +			} while (mas->offset == mas_data_end(mas));
> > > +
> > > +			/* Move to the next subtree. */
> > > +			mas->offset++;
> > > +			new_mas->offset++;
> > > +		}
> > > +
> > > +		mas_descend(mas);
> > > +		parent = ma_parent_ptr(mte_to_node(new_mas->node));
> > > +		mas_descend(new_mas);
> > > +		mas->offset = 0;
> > > +		new_mas->offset = 0;
> > > +	}
> > > +done:
> > > +	/* Specially handle the parent of the root node. */
> > > +	mte_to_node(root)->parent = ma_parent_ptr(mas_tree_parent(new_mas));
> > > +set_new_tree:
> > > +	/* Make them the same height */
> > > +	new_mas->tree->ma_flags = mas->tree->ma_flags;
> > > +	rcu_assign_pointer(new_mas->tree->ma_root, root);
> > > +}
> > > +
> > > +/**
> > > + * __mt_dup(): Duplicate a maple tree
> > > + * @mt: The source maple tree
> > > + * @new: The new maple tree
> > > + * @gfp: The GFP_FLAGS to use for allocations
> > > + *
> > > + * This function duplicates a maple tree in Depth-First Search (DFS) pre-order
> > > + * traversal. It uses memcopy() to copy nodes in the source tree and allocate
> > > + * new child nodes in non-leaf nodes. The new node is exactly the same as the
> > > + * source node except for all the addresses stored in it. It will be faster than
> > > + * traversing all elements in the source tree and inserting them one by one into
> > > + * the new tree.
> > > + * The user needs to ensure that the attributes of the source tree and the new
> > > + * tree are the same, and the new tree needs to be an empty tree, otherwise
> > > + * -EINVAL will be returned.
> > > + * Note that the user needs to manually lock the source tree and the new tree.
> > > + *
> > > + * Return: 0 on success, -ENOMEM if memory could not be allocated, -EINVAL If
> > > + * the attributes of the two trees are different or the new tree is not an empty
> > > + * tree.
> > > + */
> > > +int __mt_dup(struct maple_tree *mt, struct maple_tree *new, gfp_t gfp)
> > > +{
> > > +	int ret = 0;
> > > +	MA_STATE(mas, mt, 0, 0);
> > > +	MA_STATE(new_mas, new, 0, 0);
> > > +
> > > +	mas_dup_build(&mas, &new_mas, gfp);
> > > +
> > > +	if (unlikely(mas_is_err(&mas))) {
> > > +		ret = xa_err(mas.node);
> > > +		if (ret == -ENOMEM)
> > > +			mas_dup_free(&new_mas);
> > > +	}
> > > +
> > > +	return ret;
> > > +}
> > > +EXPORT_SYMBOL(__mt_dup);
> > > +
> > > +/**
> > > + * mtree_dup(): Duplicate a maple tree
> > > + * @mt: The source maple tree
> > > + * @new: The new maple tree
> > > + * @gfp: The GFP_FLAGS to use for allocations
> > > + *
> > > + * This function duplicates a maple tree in Depth-First Search (DFS) pre-order
> > > + * traversal. It uses memcopy() to copy nodes in the source tree and allocate
> > > + * new child nodes in non-leaf nodes. The new node is exactly the same as the
> > > + * source node except for all the addresses stored in it. It will be faster than
> > > + * traversing all elements in the source tree and inserting them one by one into
> > > + * the new tree.
> > > + * The user needs to ensure that the attributes of the source tree and the new
> > > + * tree are the same, and the new tree needs to be an empty tree, otherwise
> > > + * -EINVAL will be returned.
> > 
> > The requirement to duplicate the entire tree should be mentioned and
> > maybe the mas_is_start() requirement (as I asked about above?)
> Okay, I will add a comment saying 'This duplicates the entire tree'. But
> 'mas_is_start()' is not a requirement for calling this function because
> the function's parameter is 'maple_tree', not 'ma_state'. I think
> 'mas_is_start()' should be added to the comment for 'mas_dup_build()'.

Oh right, thanks.

> > 
> > I can see someone thinking they are going to make a super fast sub-tree
> > of existing data using this - which won't (always?) work.
> > 
> > > + *
> > > + * Return: 0 on success, -ENOMEM if memory could not be allocated, -EINVAL If
> > > + * the attributes of the two trees are different or the new tree is not an empty
> > > + * tree.
> > > + */
> > > +int mtree_dup(struct maple_tree *mt, struct maple_tree *new, gfp_t gfp)
> > > +{
> > > +	int ret = 0;
> > > +	MA_STATE(mas, mt, 0, 0);
> > > +	MA_STATE(new_mas, new, 0, 0);
> > > +
> > > +	mas_lock(&new_mas);
> > > +	mas_lock_nested(&mas, SINGLE_DEPTH_NESTING);
> > > +
> > > +	mas_dup_build(&mas, &new_mas, gfp);
> > > +	mas_unlock(&mas);
> > > +
> > > +	if (unlikely(mas_is_err(&mas))) {
> > > +		ret = xa_err(mas.node);
> > > +		if (ret == -ENOMEM)
> > > +			mas_dup_free(&new_mas);
> > > +	}
> > > +
> > > +	mas_unlock(&new_mas);
> > > +
> > > +	return ret;
> > > +}
> > > +EXPORT_SYMBOL(mtree_dup);
> > > +
> > >   /**
> > >    * __mt_destroy() - Walk and free all nodes of a locked maple tree.
> > >    * @mt: The maple tree
> > > -- 
> > > 2.20.1
> > > 
> > 




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