load_32_be
return (ptr == NULL) ? 0 : load_32_be(ptr);
return ((uint64_t)load_32_be(p) << 32) | load_32_be(p+4);
kvno = load_32_be(pa->contents + 4);
token_ts = load_32_be(token->data);
token_kvno = load_32_be(token->data + 4);
if (load_32_be(buf->data) != 0)
size = load_32_be(buf->data);
conn->msglen = load_32_be(p);
ocipherl = load_32_be(ip);
ocipherr = load_32_be(ip + 4);
cipherl = left = load_32_be(block);
cipherr = right = load_32_be(block + 4);
left = load_32_be(ip);
right = load_32_be(ip + 4);
left ^= load_32_be(block);
right ^= load_32_be(block + 4);
cipherl = left = load_32_be(block);
cipherr = right = load_32_be(block + 4);
left = load_32_be(ip);
right = load_32_be(ip + 4);
left ^= load_32_be(block);
right ^= load_32_be(block + 4);
left = load_32_be(ip);
right = load_32_be(ip + 4);
left ^= load_32_be(block);
right ^= load_32_be(block + 4);
ocipherl = load_32_be(ip);
ocipherr = load_32_be(ip + 4);
tmp = load_32_be(k), k += 4;
tmp = load_32_be(k), k += 4;
#define GET_HALF_BLOCK(lr, ip) ((lr) = load_32_be(ip), (ip) += 4)
*lp++ = load_32_be(buffer);
*lp++ = load_32_be(buffer);
*lp++ = load_32_be(buffer);
iter_count = load_32_be(p);
len = load_32_be(token->value);
len = load_32_be(token->value);
*out = (version < 3) ? load_32_n(bytes) : load_32_be(bytes);
len = load_32_be(lenbytes);
code = load_32_be(codebytes);
*time_offset = load_32_be(payload);
*usec_offset = load_32_be((char *)payload + 4);
*version = load_32_be(payload);
len = load_32_be(payload + 4);
policy.min_length_password = load_32_be(p);
policy.password_history = load_32_be(p);
policy.password_properties = load_32_be(p);
*intp = load_32_be(*bufp);
unsigned long len = load_32_be(in->bufsizebytes);
load_32_be(pm->kerb_message.data) != pm->kerb_message.length - 4) {
*timestamp1_out = load_32_be(buf + TAG_LEN);
*timestamp2_out = load_32_be(buf + RECORD_LEN + TAG_LEN);
#define UNSTORE32_INT(ptr, val) (val = load_32_be(ptr))
ts = load_32_be(er->data);
*intp = load_32_be(*bufpp);
assert(load_32_be(buf+2) == 0x02030405);