#ifndef ADB_H
#define ADB_H
#include <endian.h>
#include <stdint.h>
#include <sys/types.h>
#include "apk_io.h"
struct adb;
struct adb_obj;
struct adb_trust;
struct adb_verify_ctx;
typedef uint32_t adb_val_t;
#define ADB_TYPE_SPECIAL 0x00000000
#define ADB_TYPE_INT 0x10000000
#define ADB_TYPE_INT_32 0x20000000
#define ADB_TYPE_INT_64 0x30000000
#define ADB_TYPE_BLOB_8 0x80000000
#define ADB_TYPE_BLOB_16 0x90000000
#define ADB_TYPE_BLOB_32 0xa0000000
#define ADB_TYPE_ARRAY 0xd0000000
#define ADB_TYPE_OBJECT 0xe0000000
#define ADB_TYPE_ERROR 0xf0000000
#define ADB_TYPE_MASK 0xf0000000
#define ADB_VALUE_MASK 0x0fffffff
#define ADB_VAL_TYPE(x) ((le32toh(x))&ADB_TYPE_MASK)
#define ADB_VAL_VALUE(x) ((le32toh(x))&ADB_VALUE_MASK)
#define ADB_IS_ERROR(x) (ADB_VAL_TYPE(x) == ADB_TYPE_ERROR)
#define ADB_VAL(type, val) (htole32((type) | (val)))
#define ADB_ERROR(val) ADB_VAL(ADB_TYPE_ERROR, val)
/* ADB_TYPE_SPECIAL */
#define ADB_VAL_NULL 0x00000000
#define ADB_VAL_TRUE 0x00000001
#define ADB_VAL_FALSE 0x00000002
#define ADB_NULL ADB_VAL(ADB_TYPE_SPECIAL, ADB_VAL_NULL)
/* Generic */
#define ADBI_NUM_ENTRIES 0x00
#define ADBI_FIRST 0x01
/* File Header */
#define ADB_FORMAT_MAGIC 0x2e424441 // ADB.
struct adb_header {
uint32_t magic;
uint32_t schema;
};
/* Blocks */
#define ADB_BLOCK_END -1
#define ADB_BLOCK_ADB 0
#define ADB_BLOCK_SIG 2
#define ADB_BLOCK_TYPE(b) (le32toh((b)->type_size) >> 30)
#define ADB_BLOCK_SIZE(b) (le32toh((b)->type_size) & 0x3fffffff)
struct adb_block {
uint32_t type_size;
};
struct adb_sign_hdr {
uint8_t sign_ver, hash_alg;
};
struct adb_sign_v0 {
struct adb_sign_hdr hdr;
uint8_t id[16];
uint8_t sig[0];
};
/* Hash algorithms */
#define ADB_HASH_NONE 0x00
#define ADB_HASH_SHA1 0x01
#define ADB_HASH_SHA256 0x02
#define ADB_HASH_SHA512 0x03
/* Block enumeration */
struct adb_block *adb_block_first(apk_blob_t b);
struct adb_block *adb_block_next(struct adb_block *cur, apk_blob_t b);
#define adb_foreach_block(__blk, __adb) \
for (__blk = adb_block_first(__adb); !IS_ERR_OR_NULL(__blk); __blk = adb_block_next(__blk, __adb))
/* Schema */
#define ADB_KIND_ADB 1
#define ADB_KIND_OBJECT 2
#define ADB_KIND_ARRAY 3
#define ADB_KIND_BLOB 4
#define ADB_KIND_INT 5
#define ADB_ARRAY_ITEM(_t) { { .kind = &(_t).kind } }
#define ADB_FIELD(_i, _n, _t) [(_i)-1] = { .name = _n, .kind = &(_t).kind }
struct adb_object_schema {
uint8_t kind;
uint16_t num_fields;
apk_blob_t (*tostring)(struct adb_obj *, char *, size_t);
int (*fromstring)(struct adb_obj *, apk_blob_t);
uint32_t (*get_default_int)(unsigned i);
int (*compare)(struct adb_obj *, struct adb_obj *);
void (*pre_commit)(struct adb_obj *);
struct {
const char *name;
const uint8_t *kind;
} fields[];
};
struct adb_scalar_schema {
uint8_t kind;
apk_blob_t (*tostring)(struct adb*, adb_val_t, char *, size_t);
adb_val_t (*fromstring)(struct adb*, apk_blob_t);
int (*compare)(adb_val_t, adb_val_t);
};
struct adb_adb_schema {
uint8_t kind;
uint32_t schema_id;
struct adb_object_schema *obj;
};
/* Database read interface */
struct adb_w_bucket {
struct list_head node;
struct adb_w_bucket_entry {
uint32_t hash;
uint32_t offs;
uint32_t len;
} entries[40];
};
struct adb {
apk_blob_t mmap, data, adb;
struct adb_header hdr;
size_t num_buckets;
struct list_head *bucket;
};
struct adb_obj {
struct adb *db;
const struct adb_object_schema *schema;
uint32_t num;
adb_val_t *obj;
};
/* Container read interface */
int adb_free(struct adb *);
void adb_reset(struct adb *);
int adb_m_map(struct adb *, int fd, uint32_t expected_schema, struct adb_trust *);
#define adb_w_init_alloca(db, schema, num_buckets) adb_w_init_dynamic(db, schema, alloca(sizeof(struct list_head[num_buckets])), num_buckets)
#define adb_w_init_tmp(db, size) adb_w_init_static(db, alloca(size), size)
int adb_w_init_dynamic(struct adb *db, uint32_t schema, void *buckets, size_t num_buckets);
int adb_w_init_static(struct adb *db, void *buf, size_t bufsz);
/* Primitive read */
adb_val_t adb_r_root(const struct adb *);
struct adb_obj *adb_r_rootobj(struct adb *a, struct adb_obj *o, const struct adb_object_schema *);
uint32_t adb_r_int(const struct adb *, adb_val_t);
apk_blob_t adb_r_blob(const struct adb *, adb_val_t);
struct adb_obj *adb_r_obj(struct adb *, adb_val_t, struct adb_obj *o, const struct adb_object_schema *);
/* Object read */
static inline uint32_t adb_ro_num(const struct adb_obj *o) { return o->num; }
static inline uint32_t adb_ra_num(const struct adb_obj *o) { return (o->num ?: 1) - 1; }
adb_val_t adb_ro_val(const struct adb_obj *o, unsigned i);
uint32_t adb_ro_int(const struct adb_obj *o, unsigned i);
apk_blob_t adb_ro_blob(const struct adb_obj *o, unsigned i);
struct adb_obj *adb_ro_obj(const struct adb_obj *o, unsigned i, struct adb_obj *);
int adb_ra_find(struct adb_obj *arr, int cur, struct adb *db, adb_val_t val);
/* Primitive write */
void adb_w_root(struct adb *, adb_val_t);
void adb_w_rootobj(struct adb_obj *);
adb_val_t adb_w_blob(struct adb *, apk_blob_t);
adb_val_t adb_w_int(struct adb *, uint32_t);
adb_val_t adb_w_copy(struct adb *, struct adb *, adb_val_t);
adb_val_t adb_w_adb(struct adb *, struct adb *);
adb_val_t adb_w_fromstring(struct adb *, const uint8_t *kind, apk_blob_t);
/* Object write */
#define adb_wo_alloca(o, schema, db) adb_wo_init(o, alloca(sizeof(adb_val_t[(schema)->num_fields])), schema, db)
struct adb_obj *adb_wo_init(struct adb_obj *, adb_val_t *, const struct adb_object_schema *, struct adb *);
void adb_wo_reset(struct adb_obj *);
void adb_wo_resetdb(struct adb_obj *);
adb_val_t adb_w_obj(struct adb_obj *);
adb_val_t adb_w_arr(struct adb_obj *);
adb_val_t adb_wo_fromstring(struct adb_obj *o, apk_blob_t);
adb_val_t adb_wo_val(struct adb_obj *o, unsigned i, adb_val_t);
adb_val_t adb_wo_val_fromstring(struct adb_obj *o, unsigned i, apk_blob_t);
adb_val_t adb_wo_int(struct adb_obj *o, unsigned i, uint32_t);
adb_val_t adb_wo_blob(struct adb_obj *o, unsigned i, apk_blob_t);
adb_val_t adb_wo_obj(struct adb_obj *o, unsigned i, struct adb_obj *);
adb_val_t adb_wo_arr(struct adb_obj *o, unsigned i, struct adb_obj *);
adb_val_t adb_wa_append(struct adb_obj *o, adb_val_t);
adb_val_t adb_wa_append_obj(struct adb_obj *o, struct adb_obj *);
adb_val_t adb_wa_append_fromstring(struct adb_obj *o, apk_blob_t);
void adb_wa_sort(struct adb_obj *);
void adb_wa_sort_unique(struct adb_obj *);
/* Schema helpers */
int adb_s_field_by_name(const struct adb_object_schema *, const char *);
/* Creation */
int adb_c_header(struct apk_ostream *os, struct adb *db);
int adb_c_block(struct apk_ostream *os, uint32_t type, apk_blob_t);
int adb_c_block_copy(struct apk_ostream *os, struct adb_block *b, struct apk_istream *is, struct adb_verify_ctx *);
int adb_c_create(struct apk_ostream *os, struct adb *db, struct adb_trust *t);
/* Trust */
#include <openssl/evp.h>
struct adb_pkey {
uint8_t id[16];
EVP_PKEY *key;
};
int adb_pkey_init(struct adb_pkey *pkey, EVP_PKEY *key);
void adb_pkey_free(struct adb_pkey *pkey);
int adb_pkey_load(struct adb_pkey *pkey, int dirfd, const char *fn);
struct adb_trust {
EVP_MD_CTX *mdctx;
struct list_head trusted_key_list;
struct list_head private_key_list;
};
struct adb_verify_ctx {
uint32_t calc;
uint8_t sha512[64];
};
int adb_trust_init(struct adb_trust *trust, int keysfd, struct apk_string_array *);
void adb_trust_free(struct adb_trust *trust);
int adb_trust_write_signatures(struct adb_trust *trust, struct adb *db, struct adb_verify_ctx *vfy, struct apk_ostream *os);
int adb_trust_verify_signature(struct adb_trust *trust, struct adb *db, struct adb_verify_ctx *vfy, apk_blob_t sigb);
/* Transform existing file */
struct adb_xfrm {
struct apk_istream *is;
struct apk_ostream *os;
struct adb db;
struct adb_verify_ctx vfy;
};
int adb_c_xfrm(struct adb_xfrm *, int (*cb)(struct adb_xfrm *, struct adb_block *, struct apk_istream *));
#endif
