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|
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <malloc.h>
#include <assert.h>
#include <errno.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <openssl/pem.h>
#include <openssl/err.h>
#include "adb.h"
#include "apk_blob.h"
#include "apk_trust.h"
static char padding_zeroes[ADB_BLOCK_ALIGNMENT] = {0};
/* Block enumeration */
static inline struct adb_block *adb_block_validate(struct adb_block *blk, apk_blob_t b)
{
size_t pos = (char *)blk - b.ptr;
if (pos == b.len) return NULL;
if (sizeof(struct adb_block) > b.len - pos) return ERR_PTR(-APKE_ADB_BLOCK);
if (adb_block_rawsize(blk) < sizeof(struct adb_block)) return ERR_PTR(-APKE_ADB_BLOCK);
if (adb_block_size(blk) > b.len - pos) return ERR_PTR(-APKE_ADB_BLOCK);
return blk;
}
static struct adb_block *adb_block_first(apk_blob_t b)
{
return adb_block_validate((struct adb_block*)b.ptr, b);
}
static struct adb_block *adb_block_next(struct adb_block *cur, apk_blob_t b)
{
return adb_block_validate((struct adb_block*)((char*)cur + adb_block_size(cur)), b);
}
#define adb_foreach_block(__blk, __adb) \
for (__blk = adb_block_first(__adb); !IS_ERR_OR_NULL(__blk); __blk = adb_block_next(__blk, __adb))
/* Init stuff */
int adb_free(struct adb *db)
{
if (db->is) {
// read-only adb
apk_istream_close(db->is);
} else {
// writable adb
struct adb_w_bucket *bucket, *nxt;
int i;
for (i = 0; i < db->num_buckets; i++)
list_for_each_entry_safe(bucket, nxt, &db->bucket[i], node)
free(bucket);
free(db->adb.ptr);
}
return 0;
}
void adb_reset(struct adb *db)
{
struct adb_w_bucket *bucket, *nxt;
int i;
for (i = 0; i < db->num_buckets; i++) {
list_for_each_entry_safe(bucket, nxt, &db->bucket[i], node)
free(bucket);
list_init(&db->bucket[i]);
}
db->adb.len = 0;
}
static int __adb_m_parse(struct adb *db, apk_blob_t data, struct apk_trust *t,
int (*cb)(struct adb *, struct adb_block *, struct apk_istream *))
{
struct adb_verify_ctx vfy = {};
struct adb_block *blk;
struct apk_istream is;
int r = -APKE_ADB_BLOCK;
int trusted = t ? 0 : 1;
adb_foreach_block(blk, data) {
apk_blob_t b = adb_block_blob(blk);
switch (adb_block_type(blk)) {
case ADB_BLOCK_ADB:
if (!APK_BLOB_IS_NULL(db->adb)) break;
db->adb = b;
break;
case ADB_BLOCK_SIG:
if (APK_BLOB_IS_NULL(db->adb)) break;
if (!trusted &&
adb_trust_verify_signature(t, db, &vfy, b) == 0)
trusted = 1;
break;
default:
if (APK_BLOB_IS_NULL(db->adb)) break;
break;
}
r = cb(db, blk, apk_istream_from_blob(&is, b));
if (r < 0) goto err;
}
if (IS_ERR(blk)) r = PTR_ERR(blk);
else if (!trusted) r = -APKE_SIGNATURE_UNTRUSTED;
else if (db->adb.ptr) r = 0;
if (r != 0) {
err:
db->adb = APK_BLOB_NULL;
}
return r;
}
int adb_m_blob(struct adb *db, apk_blob_t blob, struct apk_trust *t)
{
adb_init(db);
return __adb_m_parse(db, blob, t, 0);
}
static int __adb_m_mmap(struct adb *db, apk_blob_t mmap, uint32_t expected_schema, struct apk_trust *t,
int (*cb)(struct adb *, struct adb_block *, struct apk_istream *))
{
struct adb_header *hdr;
int r = -APKE_ADB_HEADER;
apk_blob_t data = mmap;
if (!(expected_schema & ADB_SCHEMA_IMPLIED)) {
if (mmap.len < sizeof *hdr) return -APKE_ADB_HEADER;
hdr = (struct adb_header *) mmap.ptr;
if (hdr->magic != htole32(ADB_FORMAT_MAGIC)) return -APKE_ADB_HEADER;
if (expected_schema && expected_schema != le32toh(hdr->schema)) return -APKE_ADB_SCHEMA;
db->hdr = *hdr;
data = APK_BLOB_PTR_LEN(mmap.ptr + sizeof *hdr, mmap.len - sizeof *hdr);
}
r = __adb_m_parse(db, data, t, cb);
if (r) goto err;
return 0;
err:
adb_free(db);
return r;
}
static int __adb_m_stream(struct adb *db, struct apk_istream *is, uint32_t expected_schema,
struct apk_trust *t, int (*cb)(struct adb *, struct adb_block *, struct apk_istream *))
{
struct adb_verify_ctx vfy = {};
struct adb_block blk;
struct apk_segment_istream seg;
void *sig;
int r, block_no = 0;
int trusted = t ? 0 : 1;
size_t sz;
if (IS_ERR(is)) return PTR_ERR(is);
if (!(expected_schema & ADB_SCHEMA_IMPLIED)) {
if ((r = apk_istream_read(is, &db->hdr, sizeof db->hdr)) != sizeof db->hdr) goto err;
if (db->hdr.magic != htole32(ADB_FORMAT_MAGIC)) {
r = -APKE_ADB_HEADER;
goto err;
}
if (expected_schema && expected_schema != le32toh(db->hdr.schema)) {
r = -APKE_ADB_SCHEMA;
goto err;
}
}
do {
r = apk_istream_read(is, &blk, sizeof blk);
if (r == 0) {
if (!trusted) r = -APKE_SIGNATURE_UNTRUSTED;
else if (!db->adb.ptr) r = -APKE_ADB_BLOCK;
goto done;
}
if (r < 0 || r != sizeof blk) goto err;
if ((block_no++ == 0) != (adb_block_type(&blk) == ADB_BLOCK_ADB))
goto bad_msg;
sz = adb_block_size(&blk) - sizeof blk;
switch (adb_block_type(&blk)) {
case ADB_BLOCK_ADB:
if (!APK_BLOB_IS_NULL(db->adb)) goto bad_msg;
db->adb.ptr = malloc(sz);
db->adb.len = adb_block_length(&blk);
if ((r = apk_istream_read(is, db->adb.ptr, sz)) != sz) goto err;
r = cb(db, &blk, apk_istream_from_blob(&seg.is, db->adb));
if (r < 0) goto err;
continue;
case ADB_BLOCK_SIG:
if (APK_BLOB_IS_NULL(db->adb)) goto bad_msg;
sig = apk_istream_peek(is, sz);
if (IS_ERR(sig)) {
r = PTR_ERR(sig);
goto err;
}
if (!trusted &&
adb_trust_verify_signature(t, db, &vfy, APK_BLOB_PTR_LEN(sig, adb_block_length(&blk))) == 0)
trusted = 1;
break;
case ADB_BLOCK_DATA:
if (APK_BLOB_IS_NULL(db->adb)) goto bad_msg;
if (!trusted) {
r = -APKE_SIGNATURE_UNTRUSTED;
goto err;
}
break;
default:
goto bad_msg;
}
apk_istream_segment(&seg, is, adb_block_size(&blk) - sizeof blk, 0);
r = cb(db, &blk, &seg.is);
if (r < 0) goto err;
r = apk_istream_close(&seg.is);
if (r < 0) goto err;
} while (1);
bad_msg:
r = -APKE_ADB_BLOCK;
err:
if (r >= 0) r = -APKE_ADB_BLOCK;
done:
apk_istream_close(is);
return r;
}
static int __adb_dummy_cb(struct adb *db, struct adb_block *b, struct apk_istream *is)
{
return 0;
}
int adb_m_process(struct adb *db, struct apk_istream *is, uint32_t expected_schema,
struct apk_trust *t, int (*cb)(struct adb *, struct adb_block *, struct apk_istream *))
{
apk_blob_t mmap = apk_istream_mmap(is);
memset(db, 0, sizeof *db);
if (expected_schema & ADB_SCHEMA_IMPLIED) {
db->hdr = (struct adb_header) {
.magic = ADB_FORMAT_MAGIC,
.schema = expected_schema & ~ADB_SCHEMA_IMPLIED,
};
}
if (!cb) cb = __adb_dummy_cb;
if (!APK_BLOB_IS_NULL(mmap)) {
db->is = is;
return __adb_m_mmap(db, mmap, expected_schema, t, cb);
}
return __adb_m_stream(db, is, expected_schema, t, cb);
}
int adb_w_init_dynamic(struct adb *db, uint32_t schema, void *buckets, size_t num_buckets)
{
size_t i;
*db = (struct adb) {
.hdr.magic = htole32(ADB_FORMAT_MAGIC),
.hdr.schema = htole32(schema),
.num_buckets = num_buckets,
.bucket = buckets,
};
if (num_buckets) {
for (i = 0; i < db->num_buckets; i++)
list_init(&db->bucket[i]);
}
return 0;
}
int adb_w_init_static(struct adb *db, void *buf, size_t bufsz)
{
*db = (struct adb) {
.hdr.magic = htole32(ADB_FORMAT_MAGIC),
.adb.ptr = buf,
.alloc_len = bufsz,
};
return 0;
}
/* Read interface */
static inline void *adb_r_deref(const struct adb *db, adb_val_t v, size_t offs, size_t s)
{
offs += ADB_VAL_VALUE(v);
if (offs + s > db->adb.len) return NULL;
return db->adb.ptr + offs;
}
adb_val_t adb_r_root(const struct adb *db)
{
if (db->adb.len < sizeof(adb_val_t)) return ADB_NULL;
return *(adb_val_t *)(db->adb.ptr + db->adb.len - sizeof(adb_val_t));
}
uint32_t adb_r_int(const struct adb *db, adb_val_t v)
{
uint32_t *int4;
switch (ADB_VAL_TYPE(v)) {
case ADB_TYPE_INT:
return ADB_VAL_VALUE(v);
case ADB_TYPE_INT_32:
int4 = adb_r_deref(db, v, 0, sizeof int4);
if (!int4) return 0;
return le32toh(*int4);
default:
return 0;
}
}
apk_blob_t adb_r_blob(const struct adb *db, adb_val_t v)
{
void *blob;
size_t len;
switch (ADB_VAL_TYPE(v)) {
case ADB_TYPE_BLOB_8:
blob = adb_r_deref(db, v, 0, 1);
len = *(uint8_t*) blob;
return APK_BLOB_PTR_LEN(adb_r_deref(db, v, 1, len), len);
case ADB_TYPE_BLOB_16:
blob = adb_r_deref(db, v, 0, 2);
len = le16toh(*(uint16_t*) blob);
return APK_BLOB_PTR_LEN(adb_r_deref(db, v, 2, len), len);
case ADB_TYPE_BLOB_32:
blob = adb_r_deref(db, v, 0, 4);
len = le32toh(*(uint32_t*) blob);
return APK_BLOB_PTR_LEN(adb_r_deref(db, v, 4, len), len);
default:
return APK_BLOB_NULL;
}
}
struct adb_obj *adb_r_obj(struct adb *db, adb_val_t v, struct adb_obj *obj, const struct adb_object_schema *schema)
{
adb_val_t *o;
uint32_t num;
if (ADB_VAL_TYPE(v) != ADB_TYPE_ARRAY &&
ADB_VAL_TYPE(v) != ADB_TYPE_OBJECT)
goto err;
o = adb_r_deref(db, v, 0, sizeof(adb_val_t[ADBI_NUM_ENTRIES]));
if (!o) goto err;
num = le32toh(o[ADBI_NUM_ENTRIES]);
o = adb_r_deref(db, v, 0, sizeof(adb_val_t[num]));
if (!o) goto err;
*obj = (struct adb_obj) {
.schema = schema,
.db = db,
.num = num,
.obj = o,
};
return obj;
err:
*obj = (struct adb_obj) {
.schema = schema,
.db = db,
.num = 1,
.obj = 0,
};
return obj;
}
struct adb_obj *adb_r_rootobj(struct adb *db, struct adb_obj *obj, const struct adb_object_schema *schema)
{
return adb_r_obj(db, adb_r_root(db), obj, schema);
}
const uint8_t *adb_ro_kind(const struct adb_obj *o, unsigned i)
{
if (o->schema->kind == ADB_KIND_ADB ||
o->schema->kind == ADB_KIND_ARRAY)
i = 1;
return o->schema->fields[i-1].kind;
}
adb_val_t adb_ro_val(const struct adb_obj *o, unsigned i)
{
if (i >= o->num) return ADB_NULL;
return o->obj[i];
}
uint32_t adb_ro_int(const struct adb_obj *o, unsigned i)
{
adb_val_t val = adb_ro_val(o, i);
if (val == ADB_NULL && o->schema && o->schema->get_default_int)
return o->schema->get_default_int(i);
return adb_r_int(o->db, val);
}
apk_blob_t adb_ro_blob(const struct adb_obj *o, unsigned i)
{
return adb_r_blob(o->db, adb_ro_val(o, i));
}
struct adb_obj *adb_ro_obj(const struct adb_obj *o, unsigned i, struct adb_obj *no)
{
const struct adb_object_schema *schema = NULL;
if (o->schema) {
if (o->schema->kind == ADB_KIND_ARRAY)
schema = container_of(o->schema->fields[0].kind, struct adb_object_schema, kind);
else if (i > 0 && i < o->schema->num_fields)
schema = container_of(o->schema->fields[i-1].kind, struct adb_object_schema, kind);
assert(schema->kind == ADB_KIND_OBJECT || schema->kind == ADB_KIND_ARRAY);
}
return adb_r_obj(o->db, adb_ro_val(o, i), no, schema);
}
int adb_ro_cmp(const struct adb_obj *o1, const struct adb_obj *o2, unsigned i)
{
assert(o1->schema->kind == ADB_KIND_OBJECT);
assert(o1->schema == o2->schema);
assert(i > 0 && i < o1->schema->num_fields);
switch (*o1->schema->fields[i-1].kind) {
case ADB_KIND_BLOB:
case ADB_KIND_INT:
return container_of(o1->schema->fields[i-1].kind, struct adb_scalar_schema, kind)->compare(
o1->db, adb_ro_val(o1, i),
o2->db, adb_ro_val(o2, i));
case ADB_KIND_OBJECT: {
struct adb_obj so1, so2;
adb_ro_obj(o1, i, &so1);
adb_ro_obj(o2, i, &so2);
return so1.schema->compare(&so1, &so2);
}
}
assert(0);
}
static struct adb *__db1, *__db2;
static const struct adb_object_schema *__schema;
static int wacmp(const void *p1, const void *p2)
{
struct adb_obj o1, o2;
adb_r_obj(__db1, *(adb_val_t *)p1, &o1, __schema);
adb_r_obj(__db2, *(adb_val_t *)p2, &o2, __schema);
return o1.schema->compare(&o1, &o2);
}
static int wadbcmp(const void *p1, const void *p2)
{
struct adb a1, a2;
struct adb_obj o1, o2;
adb_m_blob(&a1, adb_r_blob(__db1, *(adb_val_t *)p1), 0);
adb_m_blob(&a2, adb_r_blob(__db2, *(adb_val_t *)p2), 0);
adb_r_rootobj(&a1, &o1, __schema);
adb_r_rootobj(&a2, &o2, __schema);
return __schema->compare(&o1, &o2);
}
int adb_ra_find(struct adb_obj *arr, int cur, struct adb *db, adb_val_t val)
{
adb_val_t *ndx;
__db1 = db;
__db2 = arr->db;
__schema = arr->schema;
assert(__schema->kind == ADB_KIND_ARRAY);
__schema = container_of(__schema->fields[0].kind, struct adb_object_schema, kind);
if (cur == 0) {
ndx = bsearch(&val, &arr->obj[ADBI_FIRST], adb_ra_num(arr), sizeof(arr->obj[0]), wacmp);
if (!ndx) return -1;
cur = ndx - arr->obj;
while (cur > 1 && wacmp(&val, &arr->obj[cur-1]) == 0) cur--;
} else {
cur++;
if (wacmp(&val, &arr->obj[cur]) != 0)
return -1;
}
return cur;
}
/* Write interface */
static inline size_t iovec_len(struct iovec *vec, size_t nvec)
{
size_t i, l = 0;
for (i = 0; i < nvec; i++) l += vec[i].iov_len;
return l;
}
static unsigned iovec_hash(struct iovec *vec, size_t nvec, size_t *len)
{
size_t i, l = 0;
unsigned hash = 5381;
for (i = 0; i < nvec; i++) {
hash = apk_blob_hash_seed(APK_BLOB_PTR_LEN(vec[i].iov_base, vec[i].iov_len), hash);
l += vec[i].iov_len;
}
*len = l;
return hash;
}
static unsigned iovec_memcmp(struct iovec *vec, size_t nvec, void *base)
{
uint8_t *b = (uint8_t *) base;
size_t i;
for (i = 0; i < nvec; i++) {
if (memcmp(b, vec[i].iov_base, vec[i].iov_len) != 0)
return 1;
b += vec[i].iov_len;
}
return 0;
}
static adb_val_t adb_w_error(struct adb *db, int rc)
{
assert(0);
db->hdr.magic = 0;
return ADB_ERROR(rc);
}
static size_t adb_w_raw(struct adb *db, struct iovec *vec, size_t n, size_t len, size_t alignment)
{
void *ptr;
size_t offs, i;
if ((i = ROUND_UP(db->adb.len, alignment) - db->adb.len) != 0) {
memset(&db->adb.ptr[db->adb.len], 0, i);
db->adb.len += i;
}
if (db->adb.len + len > db->alloc_len) {
assert(db->num_buckets);
if (!db->alloc_len) db->alloc_len = 8192;
while (db->adb.len + len > db->alloc_len)
db->alloc_len *= 2;
ptr = realloc(db->adb.ptr, db->alloc_len);
assert(ptr);
db->adb.ptr = ptr;
}
offs = db->adb.len;
for (i = 0; i < n; i++) {
memcpy(&db->adb.ptr[db->adb.len], vec[i].iov_base, vec[i].iov_len);
db->adb.len += vec[i].iov_len;
}
return offs;
}
static size_t adb_w_data(struct adb *db, struct iovec *vec, size_t nvec, size_t alignment)
{
size_t len, i;
unsigned hash, bucketno;
struct adb_w_bucket *bucket;
struct adb_w_bucket_entry *entry = 0;
if (!db->num_buckets) return adb_w_raw(db, vec, nvec, iovec_len(vec, nvec), alignment);
hash = iovec_hash(vec, nvec, &len);
bucketno = hash % db->num_buckets;
list_for_each_entry(bucket, &db->bucket[bucketno], node) {
for (i = 0, entry = bucket->entries; i < ARRAY_SIZE(bucket->entries); i++, entry++) {
if (entry->len == 0) goto add;
if (entry->hash != hash) continue;
if (entry->len == len && iovec_memcmp(vec, nvec, &((uint8_t*)db->adb.ptr)[entry->offs]) == 0) {
if ((entry->offs & alignment) != 0) goto add;
return entry->offs;
}
}
entry = 0;
}
bucket = calloc(1, sizeof *bucket);
list_init(&bucket->node);
list_add_tail(&bucket->node, &db->bucket[bucketno]);
entry = &bucket->entries[0];
add:
entry->hash = hash;
entry->len = len;
entry->offs = adb_w_raw(db, vec, nvec, len, alignment);
return entry->offs;
}
static size_t adb_w_data1(struct adb *db, void *ptr, size_t len, size_t alignment)
{
struct iovec vec[] = {
{ .iov_base = ptr, .iov_len = len },
};
if (!ptr) return ADB_NULL;
return adb_w_data(db, vec, ARRAY_SIZE(vec), alignment);
}
void adb_w_root(struct adb *db, adb_val_t root_val)
{
struct iovec vec = {
.iov_base = &root_val, .iov_len = sizeof(adb_val_t),
};
adb_w_raw(db, &vec, 1, vec.iov_len, sizeof root_val);
}
void adb_w_rootobj(struct adb_obj *obj)
{
adb_w_root(obj->db, adb_w_obj(obj));
}
adb_val_t adb_w_blob(struct adb *db, apk_blob_t b)
{
union {
uint32_t u32;
uint16_t u16;
uint8_t u8;
} val;
uint32_t n = b.len;
struct iovec vec[2] = {
{ .iov_base = &val, .iov_len = sizeof val },
{ .iov_base = (void *) b.ptr, .iov_len = n },
};
adb_val_t o;
if (n > 0xffff) {
val.u32 = htole32(n);
vec[0].iov_len = sizeof val.u32;
o = ADB_TYPE_BLOB_32;
} else if (n > 0xff) {
val.u16 = htole16(n);
vec[0].iov_len = sizeof val.u16;
o = ADB_TYPE_BLOB_16;
} else if (n > 0) {
val.u8 = n;
vec[0].iov_len = sizeof val.u8;
o = ADB_TYPE_BLOB_8;
} else {
return ADB_VAL_NULL;
}
return ADB_VAL(o, adb_w_data(db, vec, ARRAY_SIZE(vec), vec[0].iov_len));
}
adb_val_t adb_w_int(struct adb *db, uint32_t val)
{
if (val >= 0x10000000)
return ADB_VAL(ADB_TYPE_INT_32, adb_w_data1(db, &val, sizeof val, sizeof val));
return ADB_VAL(ADB_TYPE_INT, val);
}
adb_val_t adb_w_copy(struct adb *db, struct adb *srcdb, adb_val_t v)
{
void *ptr;
size_t sz, align = 1;
if (db == srcdb) return v;
switch (ADB_VAL_TYPE(v)) {
case ADB_TYPE_SPECIAL:
case ADB_TYPE_INT:
return v;
case ADB_TYPE_INT_32:
sz = align = sizeof(uint32_t);
goto copy;
case ADB_TYPE_BLOB_8:
ptr = adb_r_deref(srcdb, v, 0, 1);
sz = 1UL + *(uint8_t*) ptr;
goto copy;
case ADB_TYPE_BLOB_16:
ptr = adb_r_deref(srcdb, v, 0, 2);
sz = 1UL + *(uint16_t*) ptr;
goto copy;
case ADB_TYPE_OBJECT:
case ADB_TYPE_ARRAY: {
adb_val_t cpy[512];
struct adb_obj obj;
adb_r_obj(srcdb, v, &obj, NULL);
sz = adb_ro_num(&obj);
if (sz > ARRAY_SIZE(cpy)) return adb_w_error(db, E2BIG);
cpy[ADBI_NUM_ENTRIES] = obj.obj[ADBI_NUM_ENTRIES];
for (int i = ADBI_FIRST; i < sz; i++) cpy[i] = adb_w_copy(db, srcdb, adb_ro_val(&obj, i));
return ADB_VAL(ADB_VAL_TYPE(v), adb_w_data1(db, cpy, sizeof(adb_val_t[sz]), sizeof(adb_val_t)));
}
case ADB_TYPE_INT_64:
case ADB_TYPE_BLOB_32:
default:
return adb_w_error(db, ENOSYS);
}
copy:
ptr = adb_r_deref(srcdb, v, 0, sz);
return ADB_VAL(ADB_VAL_TYPE(v), adb_w_data1(db, ptr, sz, align));
}
adb_val_t adb_w_adb(struct adb *db, struct adb *valdb)
{
uint32_t bsz;
struct adb_block blk = adb_block_init(ADB_BLOCK_ADB, valdb->adb.len);
struct iovec vec[] = {
{ .iov_base = &bsz, .iov_len = sizeof bsz },
{ .iov_base = &blk, .iov_len = sizeof blk },
{ .iov_base = valdb->adb.ptr, .iov_len = valdb->adb.len },
{ .iov_base = padding_zeroes, .iov_len = adb_block_padding(&blk) },
};
if (valdb->adb.len <= 4) return ADB_NULL;
bsz = htole32(iovec_len(vec, ARRAY_SIZE(vec)) - sizeof bsz);
return ADB_VAL(ADB_TYPE_BLOB_32, adb_w_raw(db, vec, ARRAY_SIZE(vec), iovec_len(vec, ARRAY_SIZE(vec)), sizeof(uint32_t)));
}
adb_val_t adb_w_fromstring(struct adb *db, const uint8_t *kind, apk_blob_t val)
{
int r;
switch (*kind) {
case ADB_KIND_BLOB:
case ADB_KIND_INT:
return container_of(kind, struct adb_scalar_schema, kind)->fromstring(db, val);
case ADB_KIND_OBJECT:
case ADB_KIND_ARRAY:; {
struct adb_obj obj;
struct adb_object_schema *schema = container_of(kind, struct adb_object_schema, kind);
adb_wo_alloca(&obj, schema, db);
if (!schema->fromstring) return ADB_ERROR(APKE_ADB_NO_FROMSTRING);
r = schema->fromstring(&obj, val);
if (r) return ADB_ERROR(r);
return adb_w_obj(&obj);
}
default:
return ADB_ERROR(APKE_ADB_NO_FROMSTRING);
}
}
struct adb_obj *adb_wo_init(struct adb_obj *o, adb_val_t *p, const struct adb_object_schema *schema, struct adb *db)
{
memset(p, 0, sizeof(adb_val_t[schema->num_fields]));
/* Use the backing num entries index as the 'maximum' allocated space
* information while building the object/array. */
p[ADBI_NUM_ENTRIES] = schema->num_fields;
*o = (struct adb_obj) {
.schema = schema,
.db = db,
.obj = p,
.num = 1,
};
return o;
}
struct adb_obj *adb_wo_init_val(struct adb_obj *o, adb_val_t *p, const struct adb_obj *parent, unsigned i)
{
const uint8_t *kind = adb_ro_kind(parent, i);
const struct adb_object_schema *schema = 0;
switch (*kind) {
case ADB_KIND_OBJECT:
case ADB_KIND_ARRAY:
schema = container_of(kind, struct adb_object_schema, kind);
break;
case ADB_KIND_ADB:
schema = container_of(kind, struct adb_adb_schema, kind)->schema;
break;
default:
assert(1);
}
return adb_wo_init(o, p, schema, parent->db);
}
void adb_wo_reset(struct adb_obj *o)
{
uint32_t max = o->obj[ADBI_NUM_ENTRIES];
memset(o->obj, 0, sizeof(adb_val_t[o->num]));
o->obj[ADBI_NUM_ENTRIES] = max;
o->num = 1;
}
void adb_wo_resetdb(struct adb_obj *o)
{
adb_wo_reset(o);
adb_reset(o->db);
}
static adb_val_t __adb_w_obj(struct adb_obj *o, uint32_t type)
{
uint32_t n, max = o->obj[ADBI_NUM_ENTRIES];
adb_val_t *obj = o->obj, val = ADB_NULL;
if (o->schema && o->schema->pre_commit) o->schema->pre_commit(o);
for (n = o->num; n > 1 && obj[n-1] == ADB_NULL; n--)
;
if (n > 1) {
obj[ADBI_NUM_ENTRIES] = htole32(n);
val = ADB_VAL(type, adb_w_data1(o->db, obj, sizeof(adb_val_t[n]), sizeof(adb_val_t)));
}
adb_wo_reset(o);
o->obj[ADBI_NUM_ENTRIES] = max;
return val;
}
adb_val_t adb_w_obj(struct adb_obj *o)
{
return __adb_w_obj(o, ADB_TYPE_OBJECT);
}
adb_val_t adb_w_arr(struct adb_obj *o)
{
return __adb_w_obj(o, ADB_TYPE_ARRAY);
}
adb_val_t adb_wo_fromstring(struct adb_obj *o, apk_blob_t val)
{
adb_wo_reset(o);
return o->schema->fromstring(o, val);
}
adb_val_t adb_wo_val(struct adb_obj *o, unsigned i, adb_val_t v)
{
if (i >= o->obj[ADBI_NUM_ENTRIES]) return adb_w_error(o->db, E2BIG);
if (ADB_IS_ERROR(v)) return adb_w_error(o->db, ADB_VAL_VALUE(v));
if (v != ADB_NULL && i >= o->num) o->num = i + 1;
return o->obj[i] = v;
}
adb_val_t adb_wo_val_fromstring(struct adb_obj *o, unsigned i, apk_blob_t val)
{
if (i >= o->obj[ADBI_NUM_ENTRIES]) return adb_w_error(o->db, E2BIG);
if (i >= o->num) o->num = i + 1;
return o->obj[i] = adb_w_fromstring(o->db, o->schema->fields[i-1].kind, val);
}
adb_val_t adb_wo_int(struct adb_obj *o, unsigned i, uint32_t v)
{
if (o->schema && o->schema->get_default_int &&
v == o->schema->get_default_int(i))
return ADB_NULL;
return adb_wo_val(o, i, adb_w_int(o->db, v));
}
adb_val_t adb_wo_blob(struct adb_obj *o, unsigned i, apk_blob_t b)
{
assert(o->schema->kind == ADB_KIND_OBJECT);
return adb_wo_val(o, i, adb_w_blob(o->db, b));
}
adb_val_t adb_wo_obj(struct adb_obj *o, unsigned i, struct adb_obj *no)
{
assert(o->schema->kind == ADB_KIND_OBJECT);
assert(o->db == no->db);
return adb_wo_val(o, i, adb_w_obj(no));
}
adb_val_t adb_wo_arr(struct adb_obj *o, unsigned i, struct adb_obj *no)
{
assert(o->schema->kind == ADB_KIND_OBJECT || o->schema->kind == ADB_KIND_ARRAY);
assert(o->db == no->db);
return adb_wo_val(o, i, adb_w_arr(no));
}
adb_val_t adb_wa_append(struct adb_obj *o, adb_val_t v)
{
assert(o->schema->kind == ADB_KIND_ARRAY);
if (o->num >= o->obj[ADBI_NUM_ENTRIES]) return adb_w_error(o->db, E2BIG);
if (ADB_IS_ERROR(v)) return adb_w_error(o->db, ADB_VAL_VALUE(v));
if (v != ADB_VAL_NULL) o->obj[o->num++] = v;
return v;
}
adb_val_t adb_wa_append_obj(struct adb_obj *o, struct adb_obj *no)
{
assert(o->schema->kind == ADB_KIND_ARRAY);
assert(o->db == no->db);
return adb_wa_append(o, adb_w_obj(no));
}
adb_val_t adb_wa_append_fromstring(struct adb_obj *o, apk_blob_t b)
{
assert(o->schema->kind == ADB_KIND_ARRAY);
return adb_wa_append(o, adb_w_fromstring(o->db, o->schema->fields[0].kind, b));
}
void adb_wa_sort(struct adb_obj *arr)
{
assert(arr->schema->kind == ADB_KIND_ARRAY);
__db1 = __db2 = arr->db;
switch (*arr->schema->fields[0].kind) {
case ADB_KIND_OBJECT:
__schema = container_of(arr->schema->fields[0].kind, struct adb_object_schema, kind);
qsort(&arr->obj[ADBI_FIRST], adb_ra_num(arr), sizeof(arr->obj[0]), wacmp);
break;
case ADB_KIND_ADB:
__schema = container_of(arr->schema->fields[0].kind, struct adb_adb_schema, kind)->schema;
qsort(&arr->obj[ADBI_FIRST], adb_ra_num(arr), sizeof(arr->obj[0]), wadbcmp);
break;
default:
assert(1);
}
}
void adb_wa_sort_unique(struct adb_obj *arr)
{
int i, j, num;
adb_wa_sort(arr);
num = adb_ra_num(arr);
if (num >= 2) {
for (i = 2, j = 2; i <= num; i++) {
if (arr->obj[i] == arr->obj[i-1]) continue;
arr->obj[j++] = arr->obj[i];
}
arr->num = j;
}
}
/* Schema helpers */
int adb_s_field_by_name_blob(const struct adb_object_schema *schema, apk_blob_t blob)
{
for (int i = 0; i < schema->num_fields-1 && schema->fields[i].name; i++)
if (apk_blob_compare(APK_BLOB_STR(schema->fields[i].name), blob) == 0)
return i + 1;
return 0;
}
int adb_s_field_by_name(const struct adb_object_schema *schema, const char *name)
{
for (int i = 0; i < schema->num_fields-1 && schema->fields[i].name; i++)
if (strcmp(schema->fields[i].name, name) == 0)
return i + 1;
return 0;
}
/* Container creation */
int adb_c_header(struct apk_ostream *os, struct adb *db)
{
return apk_ostream_write(os, &db->hdr, sizeof db->hdr);
}
int adb_c_block(struct apk_ostream *os, uint32_t type, apk_blob_t val)
{
struct adb_block blk = adb_block_init(type, val.len);
size_t padding = adb_block_padding(&blk);
int r;
r = apk_ostream_write(os, &blk, sizeof blk);
if (r < 0) return r;
r = apk_ostream_write(os, val.ptr, val.len);
if (r < 0) return r;
if (padding) {
r = apk_ostream_write(os, padding_zeroes, padding);
if (r < 0) return r;
}
return 0;
}
int adb_c_block_data(struct apk_ostream *os, apk_blob_t hdr, uint32_t size, struct apk_istream *is)
{
struct adb_block blk = adb_block_init(ADB_BLOCK_DATA, size + hdr.len);
size_t padding = adb_block_padding(&blk);
int r;
if (IS_ERR(os)) return PTR_ERR(os);
if (IS_ERR(is)) return apk_ostream_cancel(os, PTR_ERR(is));
r = apk_ostream_write(os, &blk, sizeof blk);
if (r < 0) return r;
r = apk_ostream_write(os, hdr.ptr, hdr.len);
if (r < 0) return r;
r = apk_stream_copy(is, os, size, 0, 0, 0);
if (r < 0) return r;
if (padding) {
r = apk_ostream_write(os, padding_zeroes, padding);
if (r < 0) return r;
}
apk_istream_close(is);
return 0;
}
int adb_c_block_copy(struct apk_ostream *os, struct adb_block *b, struct apk_istream *is, struct adb_verify_ctx *vfy)
{
size_t blk_sz = adb_block_length(b);
size_t padding = adb_block_padding(b);
int r;
r = apk_ostream_write(os, b, sizeof *b);
if (r < 0) return r;
if (vfy) {
struct apk_digest_ctx dctx;
const uint8_t alg = APK_DIGEST_SHA512;
apk_digest_ctx_init(&dctx, alg);
r = apk_stream_copy(is, os, blk_sz, 0, 0, &dctx);
apk_digest_ctx_final(&dctx, &vfy->sha512);
vfy->calc |= (1 << alg);
apk_digest_ctx_free(&dctx);
} else {
r = apk_stream_copy(is, os, blk_sz, 0, 0, 0);
}
if (padding) {
r = apk_ostream_write(os, padding_zeroes, padding);
if (r < 0) return r;
}
return r;
}
int adb_c_adb(struct apk_ostream *os, struct adb *db, struct apk_trust *t)
{
if (IS_ERR(os))
return apk_ostream_cancel(os, PTR_ERR(os));
if (db->hdr.magic != htole32(ADB_FORMAT_MAGIC))
return apk_ostream_cancel(os, -APKE_ADB_HEADER);
adb_c_header(os, db);
adb_c_block(os, ADB_BLOCK_ADB, db->adb);
adb_trust_write_signatures(t, db, NULL, os);
return apk_ostream_error(os);
}
int adb_c_create(struct apk_ostream *os, struct adb *db, struct apk_trust *t)
{
adb_c_adb(os, db, t);
return apk_ostream_close(os);
}
/* Signatures */
static int adb_digest_adb(struct adb_verify_ctx *vfy, unsigned int hash_alg, apk_blob_t data, apk_blob_t *pmd)
{
struct apk_digest *d;
int r;
switch (hash_alg) {
case APK_DIGEST_SHA512:
d = &vfy->sha512;
break;
default:
return -APKE_CRYPTO_NOT_SUPPORTED;
}
if (!(vfy->calc & (1 << hash_alg))) {
if (APK_BLOB_IS_NULL(data)) return -APKE_ADB_BLOCK;
r = apk_digest_calc(d, hash_alg, data.ptr, data.len);
if (r != 0) return r;
vfy->calc |= (1 << hash_alg);
}
*pmd = APK_DIGEST_BLOB(*d);
return 0;
}
static int adb_digest_v0_signature(struct apk_digest_ctx *dctx, struct adb_header *hdr, struct adb_sign_v0 *sig0, apk_blob_t md)
{
int r;
if ((r = apk_digest_ctx_update(dctx, hdr, sizeof *hdr)) != 0 ||
(r = apk_digest_ctx_update(dctx, sig0, sizeof *sig0)) != 0 ||
(r = apk_digest_ctx_update(dctx, md.ptr, md.len)) != 0)
return r;
return 0;
}
int adb_trust_write_signatures(struct apk_trust *trust, struct adb *db, struct adb_verify_ctx *vfy, struct apk_ostream *os)
{
union {
struct adb_sign_hdr hdr;
struct adb_sign_v0 v0;
unsigned char buf[ADB_MAX_SIGNATURE_LEN];
} sig;
struct apk_trust_key *tkey;
apk_blob_t md;
size_t siglen;
int r;
if (IS_ERR_OR_NULL(trust)) return PTR_ERR(trust);
if (!vfy) {
vfy = alloca(sizeof *vfy);
memset(vfy, 0, sizeof *vfy);
}
r = adb_digest_adb(vfy, APK_DIGEST_SHA512, db->adb, &md);
if (r) return r;
list_for_each_entry(tkey, &trust->private_key_list, key_node) {
sig.v0 = (struct adb_sign_v0) {
.hdr.sign_ver = 0,
.hdr.hash_alg = APK_DIGEST_SHA512,
};
memcpy(sig.v0.id, tkey->key.id, sizeof(sig.v0.id));
siglen = sizeof sig.buf - sizeof sig.v0;
if ((r = apk_sign_start(&trust->dctx, &tkey->key)) != 0 ||
(r = adb_digest_v0_signature(&trust->dctx, &db->hdr, &sig.v0, md)) != 0 ||
(r = apk_sign(&trust->dctx, sig.v0.sig, &siglen)) != 0)
goto err;
r = adb_c_block(os, ADB_BLOCK_SIG, APK_BLOB_PTR_LEN((char*) &sig, sizeof(sig.v0) + siglen));
if (r < 0) goto err;
}
return 0;
err:
apk_ostream_cancel(os, r);
return r;
}
int adb_trust_verify_signature(struct apk_trust *trust, struct adb *db, struct adb_verify_ctx *vfy, apk_blob_t sigb)
{
struct apk_trust_key *tkey;
struct adb_sign_hdr *sig;
struct adb_sign_v0 *sig0;
apk_blob_t md;
if (APK_BLOB_IS_NULL(db->adb)) return -APKE_ADB_BLOCK;
if (sigb.len < sizeof(struct adb_sign_hdr)) return -APKE_ADB_SIGNATURE;
sig = (struct adb_sign_hdr *) sigb.ptr;
sig0 = (struct adb_sign_v0 *) sigb.ptr;
if (sig->sign_ver != 0) return -APKE_ADB_SIGNATURE;
list_for_each_entry(tkey, &trust->trusted_key_list, key_node) {
if (memcmp(sig0->id, tkey->key.id, sizeof sig0->id) != 0) continue;
if (adb_digest_adb(vfy, sig->hash_alg, db->adb, &md) != 0) continue;
if (apk_verify_start(&trust->dctx, &tkey->key) != 0 ||
adb_digest_v0_signature(&trust->dctx, &db->hdr, sig0, md) != 0 ||
apk_verify(&trust->dctx, sig0->sig, sigb.len - sizeof *sig0) != 0)
continue;
return 0;
}
return -APKE_SIGNATURE_UNTRUSTED;
}
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