#include #include #include #include #include #include #include #include #include #include #if defined(BYTE_ORDER)&&(BYTE_ORDER == BIG_ENDIAN) #define _le32toh(x) __builtin_bswap32(x) #define _htole32(x) __builtin_bswap32(x) #elif defined(BYTE_ORDER)&&(BYTE_ORDER == LITTLE_ENDIAN) #define _le32toh(x) (x) #define _htole32(x) (x) #else #error Unknown byte order #endif typedef struct { char magic[8]; int32_t num_entries; int32_t num_buckets; int8_t key_size; int8_t value_size; } __attribute__((__packed__)) HashHeader; typedef struct { char *path; void *map_addr; off_t map_length; void *buckets; int num_entries; int num_buckets; int key_size; int value_size; int bucket_size; int lower_limit; int upper_limit; int readonly; } HashIndex; #define MAGIC "ATTICIDX" #define EMPTY _htole32(0xffffffff) #define DELETED _htole32(0xfffffffe) #define MAX_BUCKET_SIZE 512 #define BUCKET_LOWER_LIMIT .25 #define BUCKET_UPPER_LIMIT .90 #define MIN_BUCKETS 1024 #define MAX(x, y) ((x) > (y) ? (x): (y)) #define BUCKET_ADDR(index, idx) (index->buckets + (idx * index->bucket_size)) #define BUCKET_IS_DELETED(index, idx) (*((uint32_t *)(BUCKET_ADDR(index, idx) + index->key_size)) == DELETED) #define BUCKET_IS_EMPTY(index, idx) (*((uint32_t *)(BUCKET_ADDR(index, idx) + index->key_size)) == EMPTY) #define BUCKET_MATCHES_KEY(index, idx, key) (memcmp(key, BUCKET_ADDR(index, idx), index->key_size) == 0) #define BUCKET_MARK_DELETED(index, idx) (*((uint32_t *)(BUCKET_ADDR(index, idx) + index->key_size)) = DELETED) #define EPRINTF(msg, ...) EPRINTF_PATH(index->path, msg, ##__VA_ARGS__) #define EPRINTF_PATH(path, msg, ...) fprintf(stderr, "hashindex: %s: " msg "\n", path, ##__VA_ARGS__) static HashIndex *hashindex_open(const char *path, int readonly); static int hashindex_close(HashIndex *index); static int hashindex_clear(HashIndex *index); static int hashindex_flush(HashIndex *index); static HashIndex *hashindex_create(const char *path, int capacity, int key_size, int value_size); static const void *hashindex_get(HashIndex *index, const void *key); static int hashindex_set(HashIndex *index, const void *key, const void *value); static int hashindex_delete(HashIndex *index, const void *key); static void *hashindex_next_key(HashIndex *index, const void *key); /* Private API */ static int hashindex_index(HashIndex *index, const void *key) { return _le32toh(*((uint32_t *)key)) % index->num_buckets; } static int hashindex_lookup(HashIndex *index, const void *key) { int didx = -1; int start = hashindex_index(index, key); int idx = start; for(;;) { if(BUCKET_IS_EMPTY(index, idx)) { return -1; } if(BUCKET_IS_DELETED(index, idx)) { if(didx == -1) { didx = idx; } } else if(BUCKET_MATCHES_KEY(index, idx, key)) { if (didx != -1 && !index->readonly) { memcpy(BUCKET_ADDR(index, didx), BUCKET_ADDR(index, idx), index->bucket_size); BUCKET_MARK_DELETED(index, idx); idx = didx; } return idx; } idx = (idx + 1) % index->num_buckets; if(idx == start) { return -1; } } } static int hashindex_resize(HashIndex *index, int capacity) { char *new_path = malloc(strlen(index->path) + 5); int ret = 0; HashIndex *new; void *key = NULL; strcpy(new_path, index->path); strcat(new_path, ".tmp"); if(!(new = hashindex_create(new_path, capacity, index->key_size, index->value_size))) { free(new_path); return 0; } while((key = hashindex_next_key(index, key))) { hashindex_set(new, key, hashindex_get(index, key)); } munmap(index->map_addr, index->map_length); index->map_addr = new->map_addr; index->map_length = new->map_length; index->num_buckets = new->num_buckets; index->lower_limit = new->lower_limit; index->upper_limit = new->upper_limit; index->buckets = new->buckets; if(unlink(index->path) < 0) { EPRINTF("unlink failed"); goto out; } if(rename(new_path, index->path) < 0) { EPRINTF_PATH(new_path, "rename failed"); goto out; } ret = 1; out: free(new_path); free(new->path); free(new); return ret; } /* Public API */ static HashIndex * hashindex_open(const char *path, int readonly) { void *addr; int fd, oflags, prot; off_t length; HashHeader *header; HashIndex *index; if(readonly) { oflags = O_RDONLY; prot = PROT_READ; } else { oflags = O_RDWR; prot = PROT_READ | PROT_WRITE; } if((fd = open(path, oflags)) < 0) { EPRINTF_PATH(path, "open failed"); fprintf(stderr, "Failed to open %s\n", path); return NULL; } if((length = lseek(fd, 0, SEEK_END)) < 0) { EPRINTF_PATH(path, "lseek failed"); if(close(fd) < 0) { EPRINTF_PATH(path, "close failed"); } return NULL; } addr = mmap(0, length, prot, MAP_SHARED, fd, 0); if(close(fd) < 0) { EPRINTF_PATH(path, "close failed"); return NULL; } if(addr == MAP_FAILED) { EPRINTF_PATH(path, "mmap failed"); return NULL; } header = (HashHeader *)addr; if(memcmp(header->magic, MAGIC, 8)) { EPRINTF_PATH(path, "Unknown file header"); return NULL; } if(length != sizeof(HashHeader) + _le32toh(header->num_buckets) * (header->key_size + header->value_size)) { EPRINTF_PATH(path, "Incorrect file length"); return NULL; } if(!(index = malloc(sizeof(HashIndex)))) { EPRINTF_PATH(path, "malloc failed"); return NULL; } index->readonly = readonly; index->map_addr = addr; index->map_length = length; index->num_entries = _le32toh(header->num_entries); index->num_buckets = _le32toh(header->num_buckets); index->key_size = header->key_size; index->value_size = header->value_size; index->bucket_size = index->key_size + index->value_size; index->buckets = (addr + sizeof(HashHeader)); index->lower_limit = index->num_buckets > MIN_BUCKETS ? ((int)(index->num_buckets * BUCKET_LOWER_LIMIT)) : 0; index->upper_limit = (int)(index->num_buckets * BUCKET_UPPER_LIMIT); if(!(index->path = strdup(path))) { EPRINTF_PATH(path, "strdup failed"); free(index); return NULL; } return index; } static HashIndex * hashindex_create(const char *path, int capacity, int key_size, int value_size) { FILE *fd; char bucket[MAX_BUCKET_SIZE] = {}; int i, bucket_size; HashHeader header = { .magic = MAGIC, .num_entries = 0, .key_size = key_size, .value_size = value_size }; capacity = MAX(MIN_BUCKETS, capacity); header.num_buckets = _htole32(capacity); if(!(fd = fopen(path, "w"))) { EPRINTF_PATH(path, "fopen failed"); return NULL; } bucket_size = key_size + value_size; if(fwrite(&header, 1, sizeof(header), fd) != sizeof(header)) { goto error; } *((uint32_t *)(bucket + key_size)) = EMPTY; for(i = 0; i < capacity; i++) { if(fwrite(bucket, 1, bucket_size, fd) != bucket_size) { goto error; } } if(fclose(fd) < 0) { EPRINTF_PATH(path, "fclose failed"); if(unlink(path) < 0) { EPRINTF_PATH(path, "unlink failed"); } return NULL; } return hashindex_open(path, 0); error: if(unlink(path) < 0) { EPRINTF_PATH(path, "unlink failed"); } EPRINTF_PATH(path, "fwrite failed"); if(fclose(fd) < 0) { EPRINTF_PATH(path, "fclose failed"); } return NULL; } static int hashindex_clear(HashIndex *index) { int i; for(i = 0; i < index->num_buckets; i++) { BUCKET_MARK_DELETED(index, i); } index->num_entries = 0; return hashindex_resize(index, MIN_BUCKETS); } static int hashindex_flush(HashIndex *index) { if(index->readonly) { return 1; } *((uint32_t *)(index->map_addr + 8)) = _htole32(index->num_entries); *((uint32_t *)(index->map_addr + 12)) = _htole32(index->num_buckets); if(msync(index->map_addr, index->map_length, MS_SYNC) < 0) { EPRINTF("msync failed"); return 0; } return 1; } static int hashindex_close(HashIndex *index) { int rv = 1; if(hashindex_flush(index) < 0) { rv = 0; } if(munmap(index->map_addr, index->map_length) < 0) { EPRINTF("munmap failed"); rv = 0; } free(index->path); free(index); return rv; } static const void * hashindex_get(HashIndex *index, const void *key) { int idx = hashindex_lookup(index, key); if(idx < 0) { return NULL; } return BUCKET_ADDR(index, idx) + index->key_size; } static int hashindex_set(HashIndex *index, const void *key, const void *value) { int idx = hashindex_lookup(index, key); uint8_t *ptr; if(idx < 0) { if(index->num_entries > index->upper_limit) { if(!hashindex_resize(index, index->num_buckets * 2)) { return 0; } } idx = hashindex_index(index, key); while(!BUCKET_IS_EMPTY(index, idx) && !BUCKET_IS_DELETED(index, idx)) { idx = (idx + 1) % index->num_buckets; } ptr = BUCKET_ADDR(index, idx); memcpy(ptr, key, index->key_size); memcpy(ptr + index->key_size, value, index->value_size); index->num_entries += 1; } else { memcpy(BUCKET_ADDR(index, idx) + index->key_size, value, index->value_size); } return 1; } static int hashindex_delete(HashIndex *index, const void *key) { int idx = hashindex_lookup(index, key); if (idx < 0) { return 1; } BUCKET_MARK_DELETED(index, idx); index->num_entries -= 1; if(index->num_entries < index->lower_limit) { if(!hashindex_resize(index, index->num_buckets / 2)) { return 0; } } return 1; } static void * hashindex_next_key(HashIndex *index, const void *key) { int idx = 0; if(key) { idx = 1 + (key - index->buckets) / index->bucket_size; } if (idx == index->num_buckets) { return NULL; } while(BUCKET_IS_EMPTY(index, idx) || BUCKET_IS_DELETED(index, idx)) { idx ++; if (idx == index->num_buckets) { return NULL; } } return BUCKET_ADDR(index, idx); } static int hashindex_get_size(HashIndex *index) { return index->num_entries; } static void hashindex_summarize(HashIndex *index, long long *total_size, long long *total_csize, long long *total_unique_size, long long *total_unique_csize) { int64_t size = 0, csize = 0, unique_size = 0, unique_csize = 0; const int32_t *values; void *key = NULL; while((key = hashindex_next_key(index, key))) { values = key + 32; unique_size += values[1]; unique_csize += values[2]; size += values[0] * values[1]; csize += values[0] * values[2]; } *total_size = size; *total_csize = csize; *total_unique_size = unique_size; *total_unique_csize = unique_csize; }