net/netfilter/nft_set_pipapo.h - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0-only

 #ifndef _NFT_SET_PIPAPO_H

 #include <linux/log2.h>
 #include <net/ipv6.h>			/* For the maximum length of a field */

 /* Count of concatenated fields depends on count of 32-bit nftables registers */
 #define NFT_PIPAPO_MAX_FIELDS		NFT_REG32_COUNT

 /* Restrict usage to multiple fields, make sure rbtree is used otherwise */
 #define NFT_PIPAPO_MIN_FIELDS		2

 /* Largest supported field size */
 #define NFT_PIPAPO_MAX_BYTES		(sizeof(struct in6_addr))
 #define NFT_PIPAPO_MAX_BITS		(NFT_PIPAPO_MAX_BYTES * BITS_PER_BYTE)

 /* Bits to be grouped together in table buckets depending on set size */
 #define NFT_PIPAPO_GROUP_BITS_INIT	NFT_PIPAPO_GROUP_BITS_SMALL_SET
 #define NFT_PIPAPO_GROUP_BITS_SMALL_SET	8
 #define NFT_PIPAPO_GROUP_BITS_LARGE_SET	4
 #define NFT_PIPAPO_GROUP_BITS_ARE_8_OR_4				\
 	BUILD_BUG_ON((NFT_PIPAPO_GROUP_BITS_SMALL_SET != 8) ||		\
 		     (NFT_PIPAPO_GROUP_BITS_LARGE_SET != 4))
 #define NFT_PIPAPO_GROUPS_PER_BYTE(f)	(BITS_PER_BYTE / (f)->bb)

 /* If a lookup table gets bigger than NFT_PIPAPO_LT_SIZE_HIGH, switch to the
  * small group width, and switch to the big group width if the table gets
  * smaller than NFT_PIPAPO_LT_SIZE_LOW.
  *
  * Picking 2MiB as threshold (for a single table) avoids as much as possible
  * crossing page boundaries on most architectures (x86-64 and MIPS huge pages,
  * ARMv7 supersections, POWER "large" pages, SPARC Level 1 regions, etc.), which
  * keeps performance nice in case kvmalloc() gives us non-contiguous areas.
  */
 #define NFT_PIPAPO_LT_SIZE_THRESHOLD	(1 << 21)
 #define NFT_PIPAPO_LT_SIZE_HYSTERESIS	(1 << 16)
 #define NFT_PIPAPO_LT_SIZE_HIGH		NFT_PIPAPO_LT_SIZE_THRESHOLD
 #define NFT_PIPAPO_LT_SIZE_LOW		NFT_PIPAPO_LT_SIZE_THRESHOLD -	\
 					NFT_PIPAPO_LT_SIZE_HYSTERESIS

 /* Fields are padded to 32 bits in input registers */
 #define NFT_PIPAPO_GROUPS_PADDED_SIZE(f)				\
 	(round_up((f)->groups / NFT_PIPAPO_GROUPS_PER_BYTE(f), sizeof(u32)))
 #define NFT_PIPAPO_GROUPS_PADDING(f)					\
 	(NFT_PIPAPO_GROUPS_PADDED_SIZE(f) - (f)->groups /		\
 					    NFT_PIPAPO_GROUPS_PER_BYTE(f))

 /* Number of buckets given by 2 ^ n, with n bucket bits */
 #define NFT_PIPAPO_BUCKETS(bb)		(1 << (bb))

 /* Each n-bit range maps to up to n * 2 rules */
 #define NFT_PIPAPO_MAP_NBITS		(const_ilog2(NFT_PIPAPO_MAX_BITS * 2))

 /* Use the rest of mapping table buckets for rule indices, but it makes no sense
  * to exceed 32 bits
  */
 #if BITS_PER_LONG == 64
 #define NFT_PIPAPO_MAP_TOBITS		32
 #else
 #define NFT_PIPAPO_MAP_TOBITS		(BITS_PER_LONG - NFT_PIPAPO_MAP_NBITS)
 #endif

 /* ...which gives us the highest allowed index for a rule */
 #define NFT_PIPAPO_RULE0_MAX		((1UL << (NFT_PIPAPO_MAP_TOBITS - 1)) \
 					- (1UL << NFT_PIPAPO_MAP_NBITS))

 /* Definitions for vectorised implementations */
 #ifdef NFT_PIPAPO_ALIGN
 #define NFT_PIPAPO_ALIGN_HEADROOM					\
 	(NFT_PIPAPO_ALIGN - ARCH_KMALLOC_MINALIGN)
 #define NFT_PIPAPO_LT_ALIGN(lt)		(PTR_ALIGN((lt), NFT_PIPAPO_ALIGN))
 #define NFT_PIPAPO_LT_ASSIGN(field, x)					\
 	do {								\
 		(field)->lt_aligned = NFT_PIPAPO_LT_ALIGN(x);		\
 		(field)->lt = (x);					\
 	} while (0)
 #else
 #define NFT_PIPAPO_ALIGN_HEADROOM	0
 #define NFT_PIPAPO_LT_ALIGN(lt)		(lt)
 #define NFT_PIPAPO_LT_ASSIGN(field, x)	((field)->lt = (x))
 #endif /* NFT_PIPAPO_ALIGN */

 #define nft_pipapo_for_each_field(field, index, match)		\
 	for ((field) = (match)->f, (index) = 0;			\
 	     (index) < (match)->field_count;			\
 	     (index)++, (field)++)

 /**
  * union nft_pipapo_map_bucket - Bucket of mapping table
  * @to:		First rule number (in next field) this rule maps to
  * @n:		Number of rules (in next field) this rule maps to
  * @e:		If there's no next field, pointer to element this rule maps to
  */
 union nft_pipapo_map_bucket {
 	struct {
 #if BITS_PER_LONG == 64
 		static_assert(NFT_PIPAPO_MAP_TOBITS <= 32);
 		u32 to;

 		static_assert(NFT_PIPAPO_MAP_NBITS <= 32);
 		u32 n;
 #else
 		unsigned long to:NFT_PIPAPO_MAP_TOBITS;
 		unsigned long  n:NFT_PIPAPO_MAP_NBITS;
 #endif
 	};
 	struct nft_pipapo_elem *e;
 };

 /**
  * struct nft_pipapo_field - Lookup, mapping tables and related data for a field
  * @groups:	Amount of bit groups
  * @rules:	Number of inserted rules
  * @bsize:	Size of each bucket in lookup table, in longs
  * @bb:		Number of bits grouped together in lookup table buckets
  * @lt:		Lookup table: 'groups' rows of buckets
  * @lt_aligned:	Version of @lt aligned to NFT_PIPAPO_ALIGN bytes
  * @mt:		Mapping table: one bucket per rule
  */
 struct nft_pipapo_field {
 	int groups;
 	unsigned long rules;
 	size_t bsize;
 	int bb;
 #ifdef NFT_PIPAPO_ALIGN
 	unsigned long *lt_aligned;
 #endif
 	unsigned long *lt;
 	union nft_pipapo_map_bucket *mt;
 };

 /**
  * struct nft_pipapo_match - Data used for lookup and matching
  * @field_count		Amount of fields in set
  * @scratch:		Preallocated per-CPU maps for partial matching results
  * @scratch_aligned:	Version of @scratch aligned to NFT_PIPAPO_ALIGN bytes
  * @bsize_max:		Maximum lookup table bucket size of all fields, in longs
  * @rcu			Matching data is swapped on commits
  * @f:			Fields, with lookup and mapping tables
  */
 struct nft_pipapo_match {
 	int field_count;
 #ifdef NFT_PIPAPO_ALIGN
 	unsigned long * __percpu *scratch_aligned;
 #endif
 	unsigned long * __percpu *scratch;
 	size_t bsize_max;
 	struct rcu_head rcu;
 	struct nft_pipapo_field f[];
 };

 /**
  * struct nft_pipapo - Representation of a set
  * @match:	Currently in-use matching data
  * @clone:	Copy where pending insertions and deletions are kept
  * @width:	Total bytes to be matched for one packet, including padding
  * @dirty:	Working copy has pending insertions or deletions
  * @last_gc:	Timestamp of last garbage collection run, jiffies
  */
 struct nft_pipapo {
 	struct nft_pipapo_match __rcu *match;
 	struct nft_pipapo_match *clone;
 	int width;
 	bool dirty;
 	unsigned long last_gc;
 };

 struct nft_pipapo_elem;

 /**
  * struct nft_pipapo_elem - API-facing representation of single set element
  * @ext:	nftables API extensions
  */
 struct nft_pipapo_elem {
 	struct nft_set_ext ext;
 };

 int pipapo_refill(unsigned long *map, int len, int rules, unsigned long *dst,
 		  union nft_pipapo_map_bucket *mt, bool match_only);

 /**
  * pipapo_and_field_buckets_4bit() - Intersect 4-bit buckets
  * @f:		Field including lookup table
  * @dst:	Area to store result
  * @data:	Input data selecting table buckets
  */
 static inline void pipapo_and_field_buckets_4bit(struct nft_pipapo_field *f,
 						 unsigned long *dst,
 						 const u8 *data)
 {
 	unsigned long *lt = NFT_PIPAPO_LT_ALIGN(f->lt);
 	int group;

 	for (group = 0; group < f->groups; group += BITS_PER_BYTE / 4, data++) {
 		u8 v;

 		v = *data >> 4;
 		__bitmap_and(dst, dst, lt + v * f->bsize,
 			     f->bsize * BITS_PER_LONG);
 		lt += f->bsize * NFT_PIPAPO_BUCKETS(4);

 		v = *data & 0x0f;
 		__bitmap_and(dst, dst, lt + v * f->bsize,
 			     f->bsize * BITS_PER_LONG);
 		lt += f->bsize * NFT_PIPAPO_BUCKETS(4);
 	}
 }

 /**
  * pipapo_and_field_buckets_8bit() - Intersect 8-bit buckets
  * @f:		Field including lookup table
  * @dst:	Area to store result
  * @data:	Input data selecting table buckets
  */
 static inline void pipapo_and_field_buckets_8bit(struct nft_pipapo_field *f,
 						 unsigned long *dst,
 						 const u8 *data)
 {
 	unsigned long *lt = NFT_PIPAPO_LT_ALIGN(f->lt);
 	int group;

 	for (group = 0; group < f->groups; group++, data++) {
 		__bitmap_and(dst, dst, lt + *data * f->bsize,
 			     f->bsize * BITS_PER_LONG);
 		lt += f->bsize * NFT_PIPAPO_BUCKETS(8);
 	}
 }

 /**
  * pipapo_estimate_size() - Estimate worst-case for set size
  * @desc:	Set description, element count and field description used here
  *
  * The size for this set type can vary dramatically, as it depends on the number
  * of rules (composing netmasks) the entries expand to. We compute the worst
  * case here.
  *
  * In general, for a non-ranged entry or a single composing netmask, we need
  * one bit in each of the sixteen NFT_PIPAPO_BUCKETS, for each 4-bit group (that
  * is, each input bit needs four bits of matching data), plus a bucket in the
  * mapping table for each field.
  *
  * Return: worst-case set size in bytes, 0 on any overflow
  */
 static u64 pipapo_estimate_size(const struct nft_set_desc *desc)
 {
 	unsigned long entry_size;
 	u64 size;
 	int i;

 	for (i = 0, entry_size = 0; i < desc->field_count; i++) {
 		unsigned long rules;

 		if (desc->field_len[i] > NFT_PIPAPO_MAX_BYTES)
 			return 0;

 		/* Worst-case ranges for each concatenated field: each n-bit
 		 * field can expand to up to n * 2 rules in each bucket, and
 		 * each rule also needs a mapping bucket.
 		 */
 		rules = ilog2(desc->field_len[i] * BITS_PER_BYTE) * 2;
 		entry_size += rules *
 			      NFT_PIPAPO_BUCKETS(NFT_PIPAPO_GROUP_BITS_INIT) /
 			      BITS_PER_BYTE;
 		entry_size += rules * sizeof(union nft_pipapo_map_bucket);
 	}

 	/* Rules in lookup and mapping tables are needed for each entry */
 	size = desc->size * entry_size;
 	if (size && div_u64(size, desc->size) != entry_size)
 		return 0;

 	size += sizeof(struct nft_pipapo) + sizeof(struct nft_pipapo_match) * 2;

 	size += sizeof(struct nft_pipapo_field) * desc->field_count;

 	return size;
 }

 #endif /* _NFT_SET_PIPAPO_H */
	// SPDX-License-Identifier: GPL-2.0-only

	#ifndef _NFT_SET_PIPAPO_H

	#include <linux/log2.h>
	#include <net/ipv6.h> /* For the maximum length of a field */

	/* Count of concatenated fields depends on count of 32-bit nftables registers */
	#define NFT_PIPAPO_MAX_FIELDS NFT_REG32_COUNT

	/* Restrict usage to multiple fields, make sure rbtree is used otherwise */
	#define NFT_PIPAPO_MIN_FIELDS 2

	/* Largest supported field size */
	#define NFT_PIPAPO_MAX_BYTES (sizeof(struct in6_addr))
	#define NFT_PIPAPO_MAX_BITS (NFT_PIPAPO_MAX_BYTES * BITS_PER_BYTE)

	/* Bits to be grouped together in table buckets depending on set size */
	#define NFT_PIPAPO_GROUP_BITS_INIT NFT_PIPAPO_GROUP_BITS_SMALL_SET
	#define NFT_PIPAPO_GROUP_BITS_SMALL_SET 8
	#define NFT_PIPAPO_GROUP_BITS_LARGE_SET 4
	#define NFT_PIPAPO_GROUP_BITS_ARE_8_OR_4 \
	BUILD_BUG_ON((NFT_PIPAPO_GROUP_BITS_SMALL_SET != 8) \|\| \
	(NFT_PIPAPO_GROUP_BITS_LARGE_SET != 4))
	#define NFT_PIPAPO_GROUPS_PER_BYTE(f) (BITS_PER_BYTE / (f)->bb)

	/* If a lookup table gets bigger than NFT_PIPAPO_LT_SIZE_HIGH, switch to the
	* small group width, and switch to the big group width if the table gets
	* smaller than NFT_PIPAPO_LT_SIZE_LOW.
	*
	* Picking 2MiB as threshold (for a single table) avoids as much as possible
	* crossing page boundaries on most architectures (x86-64 and MIPS huge pages,
	* ARMv7 supersections, POWER "large" pages, SPARC Level 1 regions, etc.), which
	* keeps performance nice in case kvmalloc() gives us non-contiguous areas.
	*/
	#define NFT_PIPAPO_LT_SIZE_THRESHOLD (1 << 21)
	#define NFT_PIPAPO_LT_SIZE_HYSTERESIS (1 << 16)
	#define NFT_PIPAPO_LT_SIZE_HIGH NFT_PIPAPO_LT_SIZE_THRESHOLD
	#define NFT_PIPAPO_LT_SIZE_LOW NFT_PIPAPO_LT_SIZE_THRESHOLD - \
	NFT_PIPAPO_LT_SIZE_HYSTERESIS

	/* Fields are padded to 32 bits in input registers */
	#define NFT_PIPAPO_GROUPS_PADDED_SIZE(f) \
	(round_up((f)->groups / NFT_PIPAPO_GROUPS_PER_BYTE(f), sizeof(u32)))
	#define NFT_PIPAPO_GROUPS_PADDING(f) \
	(NFT_PIPAPO_GROUPS_PADDED_SIZE(f) - (f)->groups / \
	NFT_PIPAPO_GROUPS_PER_BYTE(f))

	/* Number of buckets given by 2 ^ n, with n bucket bits */
	#define NFT_PIPAPO_BUCKETS(bb) (1 << (bb))

	/* Each n-bit range maps to up to n * 2 rules */
	#define NFT_PIPAPO_MAP_NBITS (const_ilog2(NFT_PIPAPO_MAX_BITS * 2))

	/* Use the rest of mapping table buckets for rule indices, but it makes no sense
	* to exceed 32 bits
	*/
	#if BITS_PER_LONG == 64
	#define NFT_PIPAPO_MAP_TOBITS 32
	#else
	#define NFT_PIPAPO_MAP_TOBITS (BITS_PER_LONG - NFT_PIPAPO_MAP_NBITS)
	#endif

	/* ...which gives us the highest allowed index for a rule */
	#define NFT_PIPAPO_RULE0_MAX ((1UL << (NFT_PIPAPO_MAP_TOBITS - 1)) \
	- (1UL << NFT_PIPAPO_MAP_NBITS))

	/* Definitions for vectorised implementations */
	#ifdef NFT_PIPAPO_ALIGN
	#define NFT_PIPAPO_ALIGN_HEADROOM \
	(NFT_PIPAPO_ALIGN - ARCH_KMALLOC_MINALIGN)
	#define NFT_PIPAPO_LT_ALIGN(lt) (PTR_ALIGN((lt), NFT_PIPAPO_ALIGN))
	#define NFT_PIPAPO_LT_ASSIGN(field, x) \
	do { \
	(field)->lt_aligned = NFT_PIPAPO_LT_ALIGN(x); \
	(field)->lt = (x); \
	} while (0)
	#else
	#define NFT_PIPAPO_ALIGN_HEADROOM 0
	#define NFT_PIPAPO_LT_ALIGN(lt) (lt)
	#define NFT_PIPAPO_LT_ASSIGN(field, x) ((field)->lt = (x))
	#endif /* NFT_PIPAPO_ALIGN */

	#define nft_pipapo_for_each_field(field, index, match) \
	for ((field) = (match)->f, (index) = 0; \
	(index) < (match)->field_count; \
	(index)++, (field)++)

	/**
	* union nft_pipapo_map_bucket - Bucket of mapping table
	* @to: First rule number (in next field) this rule maps to
	* @n: Number of rules (in next field) this rule maps to
	* @e: If there's no next field, pointer to element this rule maps to
	*/
	union nft_pipapo_map_bucket {
	struct {
	#if BITS_PER_LONG == 64
	static_assert(NFT_PIPAPO_MAP_TOBITS <= 32);
	u32 to;

	static_assert(NFT_PIPAPO_MAP_NBITS <= 32);
	u32 n;
	#else
	unsigned long to:NFT_PIPAPO_MAP_TOBITS;
	unsigned long n:NFT_PIPAPO_MAP_NBITS;
	#endif
	};
	struct nft_pipapo_elem *e;
	};

	/**
	* struct nft_pipapo_field - Lookup, mapping tables and related data for a field
	* @groups: Amount of bit groups
	* @rules: Number of inserted rules
	* @bsize: Size of each bucket in lookup table, in longs
	* @bb: Number of bits grouped together in lookup table buckets
	* @lt: Lookup table: 'groups' rows of buckets
	* @lt_aligned: Version of @lt aligned to NFT_PIPAPO_ALIGN bytes
	* @mt: Mapping table: one bucket per rule
	*/
	struct nft_pipapo_field {
	int groups;
	unsigned long rules;
	size_t bsize;
	int bb;
	#ifdef NFT_PIPAPO_ALIGN
	unsigned long *lt_aligned;
	#endif
	unsigned long *lt;
	union nft_pipapo_map_bucket *mt;
	};

	/**
	* struct nft_pipapo_match - Data used for lookup and matching
	* @field_count Amount of fields in set
	* @scratch: Preallocated per-CPU maps for partial matching results
	* @scratch_aligned: Version of @scratch aligned to NFT_PIPAPO_ALIGN bytes
	* @bsize_max: Maximum lookup table bucket size of all fields, in longs
	* @rcu Matching data is swapped on commits
	* @f: Fields, with lookup and mapping tables
	*/
	struct nft_pipapo_match {
	int field_count;
	#ifdef NFT_PIPAPO_ALIGN
	unsigned long * __percpu *scratch_aligned;
	#endif
	unsigned long * __percpu *scratch;
	size_t bsize_max;
	struct rcu_head rcu;
	struct nft_pipapo_field f[];
	};

	/**
	* struct nft_pipapo - Representation of a set
	* @match: Currently in-use matching data
	* @clone: Copy where pending insertions and deletions are kept
	* @width: Total bytes to be matched for one packet, including padding
	* @dirty: Working copy has pending insertions or deletions
	* @last_gc: Timestamp of last garbage collection run, jiffies
	*/
	struct nft_pipapo {
	struct nft_pipapo_match __rcu *match;
	struct nft_pipapo_match *clone;
	int width;
	bool dirty;
	unsigned long last_gc;
	};

	struct nft_pipapo_elem;

	/**
	* struct nft_pipapo_elem - API-facing representation of single set element
	* @ext: nftables API extensions
	*/
	struct nft_pipapo_elem {
	struct nft_set_ext ext;
	};

	int pipapo_refill(unsigned long map, int len, int rules, unsigned long dst,
	union nft_pipapo_map_bucket *mt, bool match_only);

	/**
	* pipapo_and_field_buckets_4bit() - Intersect 4-bit buckets
	* @f: Field including lookup table
	* @dst: Area to store result
	* @data: Input data selecting table buckets
	*/
	static inline void pipapo_and_field_buckets_4bit(struct nft_pipapo_field *f,
	unsigned long *dst,
	const u8 *data)
	{
	unsigned long *lt = NFT_PIPAPO_LT_ALIGN(f->lt);
	int group;

	for (group = 0; group < f->groups; group += BITS_PER_BYTE / 4, data++) {
	u8 v;

	v = *data >> 4;
	__bitmap_and(dst, dst, lt + v * f->bsize,
	f->bsize * BITS_PER_LONG);
	lt += f->bsize * NFT_PIPAPO_BUCKETS(4);

	v = *data & 0x0f;
	__bitmap_and(dst, dst, lt + v * f->bsize,
	f->bsize * BITS_PER_LONG);
	lt += f->bsize * NFT_PIPAPO_BUCKETS(4);
	}
	}

	/**
	* pipapo_and_field_buckets_8bit() - Intersect 8-bit buckets
	* @f: Field including lookup table
	* @dst: Area to store result
	* @data: Input data selecting table buckets
	*/
	static inline void pipapo_and_field_buckets_8bit(struct nft_pipapo_field *f,
	unsigned long *dst,
	const u8 *data)
	{
	unsigned long *lt = NFT_PIPAPO_LT_ALIGN(f->lt);
	int group;

	for (group = 0; group < f->groups; group++, data++) {
	__bitmap_and(dst, dst, lt + data f->bsize,
	f->bsize * BITS_PER_LONG);
	lt += f->bsize * NFT_PIPAPO_BUCKETS(8);
	}
	}

	/**
	* pipapo_estimate_size() - Estimate worst-case for set size
	* @desc: Set description, element count and field description used here
	*
	* The size for this set type can vary dramatically, as it depends on the number
	* of rules (composing netmasks) the entries expand to. We compute the worst
	* case here.
	*
	* In general, for a non-ranged entry or a single composing netmask, we need
	* one bit in each of the sixteen NFT_PIPAPO_BUCKETS, for each 4-bit group (that
	* is, each input bit needs four bits of matching data), plus a bucket in the
	* mapping table for each field.
	*
	* Return: worst-case set size in bytes, 0 on any overflow
	*/
	static u64 pipapo_estimate_size(const struct nft_set_desc *desc)
	{
	unsigned long entry_size;
	u64 size;
	int i;

	for (i = 0, entry_size = 0; i < desc->field_count; i++) {
	unsigned long rules;

	if (desc->field_len[i] > NFT_PIPAPO_MAX_BYTES)
	return 0;

	/* Worst-case ranges for each concatenated field: each n-bit
	* field can expand to up to n * 2 rules in each bucket, and
	* each rule also needs a mapping bucket.
	*/
	rules = ilog2(desc->field_len[i] * BITS_PER_BYTE) * 2;
	entry_size += rules *
	NFT_PIPAPO_BUCKETS(NFT_PIPAPO_GROUP_BITS_INIT) /
	BITS_PER_BYTE;
	entry_size += rules * sizeof(union nft_pipapo_map_bucket);
	}

	/* Rules in lookup and mapping tables are needed for each entry */
	size = desc->size * entry_size;
	if (size && div_u64(size, desc->size) != entry_size)
	return 0;

	size += sizeof(struct nft_pipapo) + sizeof(struct nft_pipapo_match) * 2;

	size += sizeof(struct nft_pipapo_field) * desc->field_count;

	return size;
	}

	#endif /* _NFT_SET_PIPAPO_H */