Re: [PoC] Improve dead tuple storage for lazy vacuum

Andres Freund <andres@anarazel.de>

From: Andres Freund <andres@anarazel.de>
To: Masahiko Sawada <sawada.mshk@gmail.com>
Cc: John Naylor <john.naylor@enterprisedb.com>, Matthias van de Meent <boekewurm+postgres@gmail.com>, Yura Sokolov <y.sokolov@postgrespro.ru>, PostgreSQL-development <pgsql-hackers@postgresql.org>
Date: 2022-07-04T21:18:22Z
Lists: pgsql-hackers
Hi,

On 2022-06-16 13:56:55 +0900, Masahiko Sawada wrote:
> diff --git a/src/backend/lib/radixtree.c b/src/backend/lib/radixtree.c
> new file mode 100644
> index 0000000000..bf87f932fd
> --- /dev/null
> +++ b/src/backend/lib/radixtree.c
> @@ -0,0 +1,1763 @@
> +/*-------------------------------------------------------------------------
> + *
> + * radixtree.c
> + *		Implementation for adaptive radix tree.
> + *
> + * This module employs the idea from the paper "The Adaptive Radix Tree: ARTful
> + * Indexing for Main-Memory Databases" by Viktor Leis, Alfons Kemper, and Thomas
> + * Neumann, 2013.
> + *
> + * There are some differences from the proposed implementation.  For instance,
> + * this radix tree module utilizes AVX2 instruction, enabling us to use 256-bit
> + * width SIMD vector, whereas 128-bit width SIMD vector is used in the paper.
> + * Also, there is no support for path compression and lazy path expansion. The
> + * radix tree supports fixed length of the key so we don't expect the tree level
> + * wouldn't be high.

I think we're going to need path compression at some point, fwiw. I'd bet on
it being beneficial even for the tid case.


> + * The key is a 64-bit unsigned integer and the value is a Datum.

I don't think it's a good idea to define the value type to be a datum.


> +/*
> + * As we descend a radix tree, we push the node to the stack. The stack is used
> + * at deletion.
> + */
> +typedef struct radix_tree_stack_data
> +{
> +	radix_tree_node *node;
> +	struct radix_tree_stack_data *parent;
> +} radix_tree_stack_data;
> +typedef radix_tree_stack_data *radix_tree_stack;

I think it's a very bad idea for traversal to need allocations. I really want
to eventually use this for shared structures (eventually with lock-free
searches at least), and needing to do allocations while traversing the tree is
a no-go for that.

Particularly given that the tree currently has a fixed depth, can't you just
allocate this on the stack once?

> +/*
> + * Allocate a new node with the given node kind.
> + */
> +static radix_tree_node *
> +radix_tree_alloc_node(radix_tree *tree, radix_tree_node_kind kind)
> +{
> +	radix_tree_node *newnode;
> +
> +	newnode = (radix_tree_node *) MemoryContextAllocZero(tree->slabs[kind],
> +														 radix_tree_node_info[kind].size);
> +	newnode->kind = kind;
> +
> +	/* update the statistics */
> +	tree->mem_used += GetMemoryChunkSpace(newnode);
> +	tree->cnt[kind]++;
> +
> +	return newnode;
> +}

Why are you tracking the memory usage at this level of detail? It's *much*
cheaper to track memory usage via the memory contexts? Since they're dedicated
for the radix tree, that ought to be sufficient?


> +					else if (idx != n4->n.count)
> +					{
> +						/*
> +						 * the key needs to be inserted in the middle of the
> +						 * array, make space for the new key.
> +						 */
> +						memmove(&(n4->chunks[idx + 1]), &(n4->chunks[idx]),
> +								sizeof(uint8) * (n4->n.count - idx));
> +						memmove(&(n4->slots[idx + 1]), &(n4->slots[idx]),
> +								sizeof(radix_tree_node *) * (n4->n.count - idx));
> +					}

Maybe we could add a static inline helper for these memmoves? Both because
it's repetitive (for different node types) and because the last time I looked
gcc was generating quite bad code for this. And having to put workarounds into
multiple places is obviously worse than having to do it in one place.


> +/*
> + * Insert the key with the val.
> + *
> + * found_p is set to true if the key already present, otherwise false, if
> + * it's not NULL.
> + *
> + * XXX: do we need to support update_if_exists behavior?
> + */

Yes, I think that's needed - hence using bfm_set() instead of insert() in the
prototype.


> +void
> +radix_tree_insert(radix_tree *tree, uint64 key, Datum val, bool *found_p)
> +{
> +	int			shift;
> +	bool		replaced;
> +	radix_tree_node *node;
> +	radix_tree_node *parent = tree->root;
> +
> +	/* Empty tree, create the root */
> +	if (!tree->root)
> +		radix_tree_new_root(tree, key, val);
> +
> +	/* Extend the tree if necessary */
> +	if (key > tree->max_val)
> +		radix_tree_extend(tree, key);

FWIW, the reason I used separate functions for these in the prototype is that
it turns out to generate a lot better code, because it allows non-inlined
function calls to be sibling calls - thereby avoiding the need for a dedicated
stack frame. That's not possible once you need a palloc or such, so splitting
off those call paths into dedicated functions is useful.


Greetings,

Andres Freund



Commits

  1. radixtree: Fix SIGSEGV at update of embeddable value to non-embeddable.

  2. Get rid of anonymous struct

  3. Teach radix tree to embed values at runtime

  4. Teach TID store to skip bitmap for small numbers of offsets

  5. Use bump context for TID bitmaps stored by vacuum

  6. Fix alignment of stack variable

  7. Use TidStore for dead tuple TIDs storage during lazy vacuum.

  8. Rethink create and attach APIs of shared TidStore.

  9. Fix inconsistent function prototypes with function definitions.

  10. Fix a calculation in TidStoreCreate().

  11. Fix potential integer handling issue in radixtree.h.

  12. Add TIDStore, to store sets of TIDs (ItemPointerData) efficiently.

  13. Fix link error for test_radixtree module on Windows

  14. Blind attempt to fix ODR violations

  15. Fix incorrect format specifier for int64

  16. Fix redefinition of typedefs

  17. Add template for adaptive radix tree

  18. Fix signedness error in 9f225e992 for gcc

  19. Introduce helper SIMD functions for small byte arrays

  20. Optimize vacuuming of relations with no indexes.

  21. Add bound check before bsearch() for performance

  22. Allocate consecutive blocks during parallel seqscans