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db_types.h
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db_types.h
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#ifndef DB_TYPES_H
#define DB_TYPES_H
// Data-level information
typedef unsigned long meta__t;
typedef unsigned long key__t;
typedef unsigned char val__t[64];
typedef unsigned long ptr__t;
#define META_SIZE sizeof(meta__t)
#define KEY_SIZE sizeof(key__t)
#define VAL_SIZE sizeof(val__t)
#define PTR_SIZE sizeof(ptr__t)
#define BLK_SIZE 512
#define BLK_SIZE_LOG 9
#define SCRATCH_SIZE 4096
#define ROOT_NODE_OFFSET 0
// Node offset "encoding"
#define FILE_MASK ((ptr__t)1 << 63)
// Node-level information
#define INTERNAL 0
#define LEAF 1
#define NODE_CAPACITY ((BLK_SIZE - 2 * META_SIZE) / (KEY_SIZE + PTR_SIZE))
#define LOG_CAPACITY ((BLK_SIZE) / (VAL_SIZE))
#define FANOUT NODE_CAPACITY
static __inline ptr__t value_base(ptr__t ptr) {
return ptr & ~(BLK_SIZE - 1);
}
static __inline ptr__t value_offset(ptr__t ptr) {
return ptr & (BLK_SIZE - 1);
}
static __inline ptr__t encode(ptr__t ptr) {
return ptr | FILE_MASK;
}
static __inline ptr__t decode(ptr__t ptr) {
return ptr & (~FILE_MASK);
}
static inline ptr__t is_file_offset(ptr__t ptr) {
return ptr & FILE_MASK;
}
typedef struct _Node {
meta__t next;
meta__t type;
key__t key[NODE_CAPACITY];
ptr__t ptr[NODE_CAPACITY];
} Node;
_Static_assert(sizeof(Node) == BLK_SIZE, "Nodes must be block sized");
typedef struct _Log {
val__t val[LOG_CAPACITY];
} Log;
/* State Flags for BPF Functions */
#define REACHED_LEAF 1
/* struct used to communicate with BPF function via scratch buffer */
struct Query {
/* everything is a long to make debugging in gdb easier */
key__t key;
long found;
long state_flags;
val__t value;
/* Used to store file offset to the value once we've located it via a leaf node */
ptr__t value_ptr;
/* Current node (possibly a leaf being used to process results) and its parent */
Node current_node;
ptr__t current_parent;
};
#define SG_KEYS 32
struct MaybeValue {
char found;
val__t value;
};
struct ScatterGatherQuery {
ptr__t root_pointer;
ptr__t value_ptr;
unsigned int state_flags;
int current_index;
int n_keys;
key__t keys[SG_KEYS];
struct MaybeValue values[SG_KEYS];
};
static inline struct ScatterGatherQuery new_sg_query(void) {
struct ScatterGatherQuery sgq = { 0 };
return sgq;
}
#define RNG_KEYS 32
#define RNG_BEGIN_EXCLUSIVE 1u
#define RNG_END_INCLUSIVE 1u << 1
/* State flags for internal use */
#define RNG_RESUME 1
#define RNG_TRAVERSE 2
#define RNG_READ_VALUE 3
#define RNG_READ_NODE 4
/* Agg operations */
#define AGG_NONE 0
#define AGG_SUM 1
struct KeyValue {
key__t key;
val__t value;
};
/**
* By default range queries are inclusive of [range_begin] and exclusive of [range_end].
*
* This can be controlled by setting the [BEGIN_EXCLUSIVE] and [END_INCLUSIVE] flags.
*/
struct RangeQuery {
key__t range_begin;
key__t range_end;
unsigned int flags;
unsigned int agg_op;
/* Number of populated values */
int len;
struct KeyValue kv[RNG_KEYS];
long agg_value;
/* Internal data: Pointer to leaf node used by the BPF to resume the query */
unsigned int _state;
ptr__t _resume_from_leaf;
unsigned int _node_key_ix;
Node _current_node;
};
static inline int empty_range(struct RangeQuery const *query) {
if (query->range_begin > query->range_end) {
return 1;
}
unsigned int begin_exclusive = query->flags & RNG_BEGIN_EXCLUSIVE;
unsigned int end_inclusive = query->flags & RNG_END_INCLUSIVE;
int equal = query->range_begin == query->range_end;
if (equal && (begin_exclusive || !end_inclusive)) {
return 1;
}
int diff_one = query->range_begin + 1 == query->range_end;
if (diff_one && (begin_exclusive && !end_inclusive)) {
return 1;
}
return 0;
}
/**
* Prepare the RangeQuery for resubmission / resumption in the kernel.
* @param query
* @return 0 if query is ready to resume, 1 if complete / empty range
*/
static inline int prep_range_resume(struct RangeQuery *query) {
query->len = 0;
query->_state = RNG_RESUME;
/* Check if there are no more keys to retrieve */
return empty_range(query);
}
/* Mark a range query complete; `empty_range` will return true after marking the query with this function */
static __inline void mark_range_query_complete(struct RangeQuery *query) {
query->range_begin = query->range_end;
query->flags |= RNG_BEGIN_EXCLUSIVE;
query->flags &= ~RNG_END_INCLUSIVE;
}
/**
* Set a new range for the query and "clear" existing data by setting len to 0.
* @param query
* @param begin
* @param end
* @param flags
*/
static inline void set_range(struct RangeQuery *query, key__t begin, key__t end, long flags) {
query->range_begin = begin;
query->range_end = end;
query->flags = flags;
query->len = 0;
query->_state = RNG_TRAVERSE;
query->_resume_from_leaf = ROOT_NODE_OFFSET;
}
_Static_assert (sizeof(struct Query) <= SCRATCH_SIZE, "struct Query too large for scratch page");
_Static_assert (sizeof(struct ScatterGatherQuery) <= SCRATCH_SIZE, "struct ScatterGatherQuery too large for scratch page");
_Static_assert (sizeof(struct RangeQuery) <= SCRATCH_SIZE, "struct RangeQuery too large for scratch page");
static inline struct Query new_query(long key) {
struct Query query = {
.key = key,
.found = 0,
.state_flags = 0,
.value = { 0 },
.value_ptr = 0,
.current_node = { 0 },
.current_parent = 0
};
return query;
}
#endif /* DB_TYPES_H */