from pycryptopp.hash.sha256 import SHA256
import os

# Various crypto values are this size: hash outputs (from SHA-256),
# randomly-generated secrets such as the lease secret, and symmetric encryption
# keys.  In the near future we will add DSA private keys, and salts of various
# kinds.
CRYPTO_VAL_SIZE=32

class IntegrityCheckError(Exception):
    pass

def netstring(s):
    assert isinstance(s, str), s
    return "%d:%s," % (len(s), s,)

def tagged_hash(tag, val):
    s = SHA256()
    s.update(netstring(tag))
    s.update(val)
    return s.digest()

def tagged_pair_hash(tag, val1, val2):
    s = SHA256()
    s.update(netstring(tag))
    s.update(netstring(val1))
    s.update(netstring(val2))
    return s.digest()

# specific hash tags that we use

def tagged_hasher(tag):
    return SHA256(netstring(tag))

def storage_index_chk_hash(data):
    # storage index is truncated to 128 bits (16 bytes). We're only hashing a
    # 16-byte value to get it, so there's no point in using a larger value.
    return tagged_hash("allmydata_CHK_storage_index_v1", data)[:16]

def block_hash(data):
    return tagged_hash("allmydata_encoded_subshare_v1", data)
def block_hasher():
    return tagged_hasher("allmydata_encoded_subshare_v1")

def uri_extension_hash(data):
    return tagged_hash("allmydata_uri_extension_v1", data)
def uri_extension_hasher():
    return tagged_hasher("allmydata_uri_extension_v1")

def plaintext_hash(data):
    return tagged_hash("allmydata_plaintext_hash_v1", data)
def plaintext_hasher():
    return tagged_hasher("allmydata_plaintext_hash_v1")

def crypttext_hash(data):
    return tagged_hash("allmydata_crypttext_hash_v1", data)
def crypttext_hasher():
    return tagged_hasher("allmydata_crypttext_hash_v1")

def crypttext_segment_hash(data):
    return tagged_hash("allmydata_crypttext_segment_v1", data)
def crypttext_segment_hasher():
    return tagged_hasher("allmydata_crypttext_segment_v1")

def plaintext_segment_hash(data):
    return tagged_hash("allmydata_plaintext_segment_v1", data)
def plaintext_segment_hasher():
    return tagged_hasher("allmydata_plaintext_segment_v1")

def key_hash(data):
    return tagged_hash("allmydata_encryption_key_v1", data)
def key_hasher():
    return tagged_hasher("allmydata_encryption_key_v1")

KEYLEN = 16
def random_key():
    return os.urandom(KEYLEN)

def my_renewal_secret_hash(my_secret):
    return tagged_hash(my_secret, "bucket_renewal_secret")
def my_cancel_secret_hash(my_secret):
    return tagged_hash(my_secret, "bucket_cancel_secret")

def file_renewal_secret_hash(client_renewal_secret, storage_index):
    return tagged_pair_hash("file_renewal_secret",
                            client_renewal_secret, storage_index)

def file_cancel_secret_hash(client_cancel_secret, storage_index):
    return tagged_pair_hash("file_cancel_secret",
                            client_cancel_secret, storage_index)

def bucket_renewal_secret_hash(file_renewal_secret, peerid):
    assert len(peerid) == 20, "%s: %r" % (len(peerid), peerid) # binary!
    return tagged_pair_hash("bucket_renewal_secret",
                            file_renewal_secret, peerid)

def bucket_cancel_secret_hash(file_cancel_secret, peerid):
    assert len(peerid) == 20, "%s: %r" % (len(peerid), peerid) # binary!
    return tagged_pair_hash("bucket_cancel_secret",
                            file_cancel_secret, peerid)

def dir_write_enabler_hash(write_key):
    return tagged_hash("allmydata_dir_write_enabler_v1", write_key)
def dir_read_key_hash(write_key):
    return tagged_hash("allmydata_dir_read_key_v1", write_key)[:KEYLEN]
def dir_index_hash(read_key):
    return tagged_hash("allmydata_dir_index_v1", read_key)
def dir_name_hash(readkey, name):
    return tagged_pair_hash("allmydata_dir_name_v1", readkey, name)

def generate_dirnode_keys_from_writekey(write_key):
    readkey = dir_read_key_hash(write_key)
    write_enabler = dir_write_enabler_hash(write_key)
    index = dir_index_hash(readkey)
    return write_key, write_enabler, readkey, index

def generate_dirnode_keys_from_readkey(read_key):
    index = dir_index_hash(read_key)
    return None, None, read_key, index

def _xor(a, b):
    return "".join([chr(ord(c) ^ ord(b)) for c in a])

def hmac(tag, data):
    ikey = _xor(tag, "\x36")
    okey = _xor(tag, "\x5c")
    h1 = SHA256(ikey + data).digest()
    h2 = SHA256(okey + h1).digest()
    return h2

def mutable_rwcap_key_hash(iv, writekey):
    return tagged_pair_hash("allmydata_mutable_rwcap_key_v1", iv, writekey)[:16]
def ssk_writekey_hash(privkey):
    return tagged_hash("allmydata_mutable_writekey_v1", privkey)[:16]
def ssk_write_enabler_master_hash(writekey):
    return tagged_hash("allmydata_mutable_write_enabler_master_v1", writekey)
def ssk_write_enabler_hash(writekey, peerid):
    assert len(peerid) == 20, "%s: %r" % (len(peerid), peerid) # binary!
    wem = ssk_write_enabler_master_hash(writekey)
    return tagged_pair_hash("allmydata_mutable_write_enabler_v1", wem, peerid)

def ssk_pubkey_fingerprint_hash(pubkey):
    return tagged_hash("allmydata_mutable_pubkey_v1", pubkey)

def ssk_readkey_hash(writekey):
    return tagged_hash("allmydata_mutable_readkey_v1", writekey)[:16]
def ssk_readkey_data_hash(IV, readkey):
    return tagged_pair_hash("allmydata_mutable_readkey_data_v1", IV, readkey)[:16]
def ssk_storage_index_hash(readkey):
    return tagged_hash("allmydata_mutable_storage_index_v1", readkey)[:16]