This commit is contained in:
irungentoo 2015-04-01 19:57:31 -04:00
commit abff31d2ad
No known key found for this signature in database
GPG Key ID: 10349DC9BED89E98
3 changed files with 74 additions and 54 deletions

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@ -93,19 +93,19 @@ START_TEST(test_save_friend)
size = tox_get_savedata_size(tox3); size = tox_get_savedata_size(tox3);
uint8_t data2[size]; uint8_t data2[size];
tox_get_savedata(tox3, data2); tox_get_savedata(tox3, data2);
uint8_t key[32 + crypto_box_BEFORENMBYTES]; TOX_PASS_KEY key;
memcpy(key, salt, 32); memcpy(key.salt, salt, 32);
memcpy(key + 32, known_key2, crypto_box_BEFORENMBYTES); memcpy(key.key, known_key2, crypto_box_BEFORENMBYTES);
size2 = size + TOX_PASS_ENCRYPTION_EXTRA_LENGTH; size2 = size + TOX_PASS_ENCRYPTION_EXTRA_LENGTH;
uint8_t encdata2[size2]; uint8_t encdata2[size2];
ret = tox_pass_key_encrypt(data2, size, key, encdata2, &error1); ret = tox_pass_key_encrypt(data2, size, &key, encdata2, &error1);
ck_assert_msg(ret, "failed to key encrypt %u", error1); ck_assert_msg(ret, "failed to key encrypt %u", error1);
ck_assert_msg(tox_is_data_encrypted(encdata2), "magic number the second missing"); ck_assert_msg(tox_is_data_encrypted(encdata2), "magic number the second missing");
uint8_t out1[size], out2[size]; uint8_t out1[size], out2[size];
ret = tox_pass_decrypt(encdata2, size2, pw, pwlen, out1, &err3); ret = tox_pass_decrypt(encdata2, size2, pw, pwlen, out1, &err3);
ck_assert_msg(ret, "failed to pw decrypt %u", err3); ck_assert_msg(ret, "failed to pw decrypt %u", err3);
ret = tox_pass_key_decrypt(encdata2, size2, key, out2, &err3); ret = tox_pass_key_decrypt(encdata2, size2, &key, out2, &err3);
ck_assert_msg(ret, "failed to key decrypt %u", err3); ck_assert_msg(ret, "failed to key decrypt %u", err3);
ck_assert_msg(memcmp(out1, out2, size) == 0, "differing output data"); ck_assert_msg(memcmp(out1, out2, size) == 0, "differing output data");
@ -130,13 +130,13 @@ START_TEST(test_keys)
TOX_ERR_ENCRYPTION encerr; TOX_ERR_ENCRYPTION encerr;
TOX_ERR_DECRYPTION decerr; TOX_ERR_DECRYPTION decerr;
TOX_ERR_KEY_DERIVATION keyerr; TOX_ERR_KEY_DERIVATION keyerr;
uint8_t key[TOX_PASS_KEY_LENGTH]; TOX_PASS_KEY key;
bool ret = tox_derive_key_from_pass("123qweasdzxc", 12, key, &keyerr); bool ret = tox_derive_key_from_pass("123qweasdzxc", 12, &key, &keyerr);
ck_assert_msg(ret, "generic failure 1: %u", keyerr); ck_assert_msg(ret, "generic failure 1: %u", keyerr);
uint8_t *string = "No Patrick, mayonnaise is not an instrument."; // 44 uint8_t *string = "No Patrick, mayonnaise is not an instrument."; // 44
uint8_t encrypted[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH]; uint8_t encrypted[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH];
ret = tox_pass_key_encrypt(string, 44, key, encrypted, &encerr); ret = tox_pass_key_encrypt(string, 44, &key, encrypted, &encerr);
ck_assert_msg(ret, "generic failure 2: %u", encerr); ck_assert_msg(ret, "generic failure 2: %u", encerr);
uint8_t encrypted2[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH]; uint8_t encrypted2[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH];
@ -146,12 +146,12 @@ START_TEST(test_keys)
uint8_t out1[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH]; uint8_t out1[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH];
uint8_t out2[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH]; uint8_t out2[44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH];
ret = tox_pass_key_decrypt(encrypted, 44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH, key, out1, &decerr); ret = tox_pass_key_decrypt(encrypted, 44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH, &key, out1, &decerr);
ck_assert_msg(ret, "generic failure 4: %u", decerr); ck_assert_msg(ret, "generic failure 4: %u", decerr);
ck_assert_msg(memcmp(out1, string, 44) == 0, "decryption 1 failed"); ck_assert_msg(memcmp(out1, string, 44) == 0, "decryption 1 failed");
ret = tox_pass_decrypt(encrypted2, 44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH, "123qweasdzxc", 12, out2, &decerr); ret = tox_pass_decrypt(encrypted2, 44 + TOX_PASS_ENCRYPTION_EXTRA_LENGTH, "123qweasdzxc", 12, out2, &decerr);
ck_assert_msg(ret, "generic failure 5: %u", &decerr); ck_assert_msg(ret, "generic failure 5: %u", decerr);
ck_assert_msg(memcmp(out2, string, 44) == 0, "decryption 2 failed"); ck_assert_msg(memcmp(out2, string, 44) == 0, "decryption 2 failed");
// test that pass_decrypt can decrypt things from pass_key_encrypt // test that pass_decrypt can decrypt things from pass_key_encrypt
@ -161,10 +161,10 @@ START_TEST(test_keys)
uint8_t salt[TOX_PASS_SALT_LENGTH]; uint8_t salt[TOX_PASS_SALT_LENGTH];
ck_assert_msg(tox_get_salt(encrypted, salt), "couldn't get salt"); ck_assert_msg(tox_get_salt(encrypted, salt), "couldn't get salt");
uint8_t key2[TOX_PASS_KEY_LENGTH]; TOX_PASS_KEY key2;
ret = tox_derive_key_with_salt("123qweasdzxc", 12, salt, key2, &keyerr); ret = tox_derive_key_with_salt("123qweasdzxc", 12, salt, &key2, &keyerr);
ck_assert_msg(ret, "generic failure 7: %u", keyerr); ck_assert_msg(ret, "generic failure 7: %u", keyerr);
ck_assert_msg(0 == memcmp(key, key2, TOX_PASS_KEY_LENGTH), "salt comparison failed"); ck_assert_msg(0 == memcmp(&key, &key2, sizeof(TOX_PASS_KEY)), "salt comparison failed");
} }
END_TEST END_TEST

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@ -28,7 +28,6 @@
#include "toxencryptsave.h" #include "toxencryptsave.h"
#include "defines.h" #include "defines.h"
#include "../toxcore/crypto_core.h" #include "../toxcore/crypto_core.h"
#include "../toxcore/tox.h"
#define SET_ERROR_PARAMETER(param, x) {if(param) {*param = x;}} #define SET_ERROR_PARAMETER(param, x) {if(param) {*param = x;}}
#ifdef VANILLA_NACL #ifdef VANILLA_NACL
@ -41,8 +40,8 @@
#error TOX_PASS_SALT_LENGTH is assumed to be equal to crypto_pwhash_scryptsalsa208sha256_SALTBYTES #error TOX_PASS_SALT_LENGTH is assumed to be equal to crypto_pwhash_scryptsalsa208sha256_SALTBYTES
#endif #endif
#if TOX_PASS_KEY_LENGTH != (crypto_pwhash_scryptsalsa208sha256_SALTBYTES + crypto_box_KEYBYTES) #if TOX_PASS_KEY_LENGTH != crypto_box_KEYBYTES
#error TOX_PASS_KEY_LENGTH is assumed to be equal to (crypto_pwhash_scryptsalsa208sha256_SALTBYTES + crypto_box_KEYBYTES) #error TOX_PASS_KEY_LENGTH is assumed to be equal to crypto_box_KEYBYTES
#endif #endif
#if TOX_PASS_ENCRYPTION_EXTRA_LENGTH != (crypto_box_MACBYTES + crypto_box_NONCEBYTES + crypto_pwhash_scryptsalsa208sha256_SALTBYTES + TOX_ENC_SAVE_MAGIC_LENGTH) #if TOX_PASS_ENCRYPTION_EXTRA_LENGTH != (crypto_box_MACBYTES + crypto_box_NONCEBYTES + crypto_pwhash_scryptsalsa208sha256_SALTBYTES + TOX_ENC_SAVE_MAGIC_LENGTH)
@ -83,7 +82,8 @@ bool tox_get_salt(const uint8_t *data, uint8_t *salt)
* *
* returns true on success * returns true on success
*/ */
bool tox_derive_key_from_pass(uint8_t *passphrase, size_t pplength, uint8_t *out_key, TOX_ERR_KEY_DERIVATION *error) bool tox_derive_key_from_pass(uint8_t *passphrase, size_t pplength, TOX_PASS_KEY *out_key,
TOX_ERR_KEY_DERIVATION *error)
{ {
uint8_t salt[crypto_pwhash_scryptsalsa208sha256_SALTBYTES]; uint8_t salt[crypto_pwhash_scryptsalsa208sha256_SALTBYTES];
randombytes(salt, sizeof salt); randombytes(salt, sizeof salt);
@ -91,9 +91,9 @@ bool tox_derive_key_from_pass(uint8_t *passphrase, size_t pplength, uint8_t *out
} }
/* Same as above, except with use the given salt for deterministic key derivation. /* Same as above, except with use the given salt for deterministic key derivation.
* The salt must be tox_salt_length() bytes in length. * The salt must be TOX_PASS_SALT_LENGTH bytes in length.
*/ */
bool tox_derive_key_with_salt(uint8_t *passphrase, size_t pplength, uint8_t *salt, uint8_t *out_key, bool tox_derive_key_with_salt(uint8_t *passphrase, size_t pplength, uint8_t *salt, TOX_PASS_KEY *out_key,
TOX_ERR_KEY_DERIVATION *error) TOX_ERR_KEY_DERIVATION *error)
{ {
if (pplength == 0 || !passphrase || !salt || !out_key) { if (pplength == 0 || !passphrase || !salt || !out_key) {
@ -120,8 +120,8 @@ bool tox_derive_key_with_salt(uint8_t *passphrase, size_t pplength, uint8_t *sal
} }
sodium_memzero(passkey, crypto_hash_sha256_BYTES); /* wipe plaintext pw */ sodium_memzero(passkey, crypto_hash_sha256_BYTES); /* wipe plaintext pw */
memcpy(out_key, salt, crypto_pwhash_scryptsalsa208sha256_SALTBYTES); memcpy(out_key->salt, salt, crypto_pwhash_scryptsalsa208sha256_SALTBYTES);
memcpy(out_key + crypto_pwhash_scryptsalsa208sha256_SALTBYTES, key, crypto_box_KEYBYTES); memcpy(out_key->key, key, crypto_box_KEYBYTES);
SET_ERROR_PARAMETER(error, TOX_ERR_KEY_DERIVATION_OK); SET_ERROR_PARAMETER(error, TOX_ERR_KEY_DERIVATION_OK);
return 1; return 1;
} }
@ -134,7 +134,7 @@ bool tox_derive_key_with_salt(uint8_t *passphrase, size_t pplength, uint8_t *sal
* *
* returns true on success * returns true on success
*/ */
bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const uint8_t *key, uint8_t *out, bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const TOX_PASS_KEY *key, uint8_t *out,
TOX_ERR_ENCRYPTION *error) TOX_ERR_ENCRYPTION *error)
{ {
if (data_len == 0 || !data || !key || !out) { if (data_len == 0 || !data || !key || !out) {
@ -155,8 +155,7 @@ bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const uint8_t *k
out += TOX_ENC_SAVE_MAGIC_LENGTH; out += TOX_ENC_SAVE_MAGIC_LENGTH;
/* then add the rest prefix */ /* then add the rest prefix */
memcpy(out, key, crypto_pwhash_scryptsalsa208sha256_SALTBYTES); memcpy(out, key->salt, crypto_pwhash_scryptsalsa208sha256_SALTBYTES);
key += crypto_pwhash_scryptsalsa208sha256_SALTBYTES;
out += crypto_pwhash_scryptsalsa208sha256_SALTBYTES; out += crypto_pwhash_scryptsalsa208sha256_SALTBYTES;
uint8_t nonce[crypto_box_NONCEBYTES]; uint8_t nonce[crypto_box_NONCEBYTES];
@ -165,7 +164,7 @@ bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const uint8_t *k
out += crypto_box_NONCEBYTES; out += crypto_box_NONCEBYTES;
/* now encrypt */ /* now encrypt */
if (encrypt_data_symmetric(key, nonce, data, data_len, out) if (encrypt_data_symmetric(key->key, nonce, data, data_len, out)
!= data_len + crypto_box_MACBYTES) { != data_len + crypto_box_MACBYTES) {
SET_ERROR_PARAMETER(error, TOX_ERR_ENCRYPTION_FAILED); SET_ERROR_PARAMETER(error, TOX_ERR_ENCRYPTION_FAILED);
return 0; return 0;
@ -184,10 +183,10 @@ bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const uint8_t *k
bool tox_pass_encrypt(const uint8_t *data, size_t data_len, uint8_t *passphrase, size_t pplength, uint8_t *out, bool tox_pass_encrypt(const uint8_t *data, size_t data_len, uint8_t *passphrase, size_t pplength, uint8_t *out,
TOX_ERR_ENCRYPTION *error) TOX_ERR_ENCRYPTION *error)
{ {
uint8_t key[TOX_PASS_KEY_LENGTH]; TOX_PASS_KEY key;
TOX_ERR_KEY_DERIVATION _error; TOX_ERR_KEY_DERIVATION _error;
if (!tox_derive_key_from_pass(passphrase, pplength, key, &_error)) { if (!tox_derive_key_from_pass(passphrase, pplength, &key, &_error)) {
if (_error == TOX_ERR_KEY_DERIVATION_NULL) { if (_error == TOX_ERR_KEY_DERIVATION_NULL) {
SET_ERROR_PARAMETER(error, TOX_ERR_ENCRYPTION_NULL); SET_ERROR_PARAMETER(error, TOX_ERR_ENCRYPTION_NULL);
} else if (_error == TOX_ERR_KEY_DERIVATION_FAILED) { } else if (_error == TOX_ERR_KEY_DERIVATION_FAILED) {
@ -197,7 +196,7 @@ bool tox_pass_encrypt(const uint8_t *data, size_t data_len, uint8_t *passphrase,
return 0; return 0;
} }
return tox_pass_key_encrypt(data, data_len, key, out, error); return tox_pass_key_encrypt(data, data_len, &key, out, error);
} }
/* This is the inverse of tox_pass_key_encrypt, also using only keys produced by /* This is the inverse of tox_pass_key_encrypt, also using only keys produced by
@ -207,7 +206,7 @@ bool tox_pass_encrypt(const uint8_t *data, size_t data_len, uint8_t *passphrase,
* *
* returns true on success * returns true on success
*/ */
bool tox_pass_key_decrypt(const uint8_t *data, size_t length, const uint8_t *key, uint8_t *out, bool tox_pass_key_decrypt(const uint8_t *data, size_t length, const TOX_PASS_KEY *key, uint8_t *out,
TOX_ERR_DECRYPTION *error) TOX_ERR_DECRYPTION *error)
{ {
if (length <= TOX_PASS_ENCRYPTION_EXTRA_LENGTH) { if (length <= TOX_PASS_ENCRYPTION_EXTRA_LENGTH) {
@ -215,25 +214,27 @@ bool tox_pass_key_decrypt(const uint8_t *data, size_t length, const uint8_t *key
return 0; return 0;
} }
if (!data || !key || !out) {
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_NULL);
return 0;
}
if (memcmp(data, TOX_ENC_SAVE_MAGIC_NUMBER, TOX_ENC_SAVE_MAGIC_LENGTH) != 0) { if (memcmp(data, TOX_ENC_SAVE_MAGIC_NUMBER, TOX_ENC_SAVE_MAGIC_LENGTH) != 0) {
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_BAD_FORMAT); SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_BAD_FORMAT);
return 0; return 0;
} }
data += TOX_ENC_SAVE_MAGIC_LENGTH; data += TOX_ENC_SAVE_MAGIC_LENGTH;
data += crypto_pwhash_scryptsalsa208sha256_SALTBYTES; // salt only affects key derivation
size_t decrypt_length = length - TOX_PASS_ENCRYPTION_EXTRA_LENGTH; size_t decrypt_length = length - TOX_PASS_ENCRYPTION_EXTRA_LENGTH;
//uint8_t salt[crypto_pwhash_scryptsalsa208sha256_SALTBYTES];
uint8_t nonce[crypto_box_NONCEBYTES];
//memcpy(salt, data, crypto_pwhash_scryptsalsa208sha256_SALTBYTES); uint8_t nonce[crypto_box_NONCEBYTES];
key += crypto_pwhash_scryptsalsa208sha256_SALTBYTES; // ignore the salt, which is only needed for kdf
data += crypto_pwhash_scryptsalsa208sha256_SALTBYTES;
memcpy(nonce, data, crypto_box_NONCEBYTES); memcpy(nonce, data, crypto_box_NONCEBYTES);
data += crypto_box_NONCEBYTES; data += crypto_box_NONCEBYTES;
/* decrypt the data */ /* decrypt the data */
if (decrypt_data_symmetric(key, nonce, data, decrypt_length + crypto_box_MACBYTES, out) if (decrypt_data_symmetric(key->key, nonce, data, decrypt_length + crypto_box_MACBYTES, out)
!= decrypt_length) { != decrypt_length) {
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_FAILED); SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_FAILED);
return 0; return 0;
@ -254,33 +255,34 @@ bool tox_pass_key_decrypt(const uint8_t *data, size_t length, const uint8_t *key
bool tox_pass_decrypt(const uint8_t *data, size_t length, uint8_t *passphrase, size_t pplength, uint8_t *out, bool tox_pass_decrypt(const uint8_t *data, size_t length, uint8_t *passphrase, size_t pplength, uint8_t *out,
TOX_ERR_DECRYPTION *error) TOX_ERR_DECRYPTION *error)
{ {
if (length <= TOX_PASS_ENCRYPTION_EXTRA_LENGTH || pplength == 0) {
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_INVALID_LENGTH);
return 0;
}
if (!data || !passphrase || !out) {
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_NULL);
return 0;
}
if (memcmp(data, TOX_ENC_SAVE_MAGIC_NUMBER, TOX_ENC_SAVE_MAGIC_LENGTH) != 0) { if (memcmp(data, TOX_ENC_SAVE_MAGIC_NUMBER, TOX_ENC_SAVE_MAGIC_LENGTH) != 0) {
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_BAD_FORMAT); SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_BAD_FORMAT);
return 0; return 0;
} }
uint8_t passkey[crypto_hash_sha256_BYTES];
crypto_hash_sha256(passkey, passphrase, pplength);
uint8_t salt[crypto_pwhash_scryptsalsa208sha256_SALTBYTES]; uint8_t salt[crypto_pwhash_scryptsalsa208sha256_SALTBYTES];
memcpy(salt, data + TOX_ENC_SAVE_MAGIC_LENGTH, crypto_pwhash_scryptsalsa208sha256_SALTBYTES); memcpy(salt, data + TOX_ENC_SAVE_MAGIC_LENGTH, crypto_pwhash_scryptsalsa208sha256_SALTBYTES);
/* derive the key */ /* derive the key */
uint8_t key[crypto_box_KEYBYTES + crypto_pwhash_scryptsalsa208sha256_SALTBYTES]; TOX_PASS_KEY key;
if (crypto_pwhash_scryptsalsa208sha256( if (!tox_derive_key_with_salt(passphrase, pplength, salt, &key, NULL)) {
key + crypto_pwhash_scryptsalsa208sha256_SALTBYTES,
crypto_box_KEYBYTES, (char *)passkey, sizeof(passkey), salt,
crypto_pwhash_scryptsalsa208sha256_OPSLIMIT_INTERACTIVE * 2, /* slightly stronger */
crypto_pwhash_scryptsalsa208sha256_MEMLIMIT_INTERACTIVE) != 0) {
/* out of memory most likely */ /* out of memory most likely */
SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_KEY_DERIVATION_FAILED); SET_ERROR_PARAMETER(error, TOX_ERR_DECRYPTION_KEY_DERIVATION_FAILED);
return 0; return 0;
} }
sodium_memzero(passkey, crypto_hash_sha256_BYTES); /* wipe plaintext pw */ return tox_pass_key_decrypt(data, length, &key, out, error);
return tox_pass_key_decrypt(data, length, key, out, error);
} }
/* Determines whether or not the given data is encrypted (by checking the magic number) /* Determines whether or not the given data is encrypted (by checking the magic number)

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@ -39,7 +39,7 @@ struct Tox_Options;
#endif #endif
#define TOX_PASS_SALT_LENGTH 32 #define TOX_PASS_SALT_LENGTH 32
#define TOX_PASS_KEY_LENGTH 64 #define TOX_PASS_KEY_LENGTH 32
#define TOX_PASS_ENCRYPTION_EXTRA_LENGTH 80 #define TOX_PASS_ENCRYPTION_EXTRA_LENGTH 80
/* This module is conceptually organized into two parts. The first part are the functions /* This module is conceptually organized into two parts. The first part are the functions
@ -60,6 +60,15 @@ struct Tox_Options;
* Ditto if they forget their password, there is no way to recover the data. * Ditto if they forget their password, there is no way to recover the data.
*/ */
/* Since apparently no one actually bothered to learn about the module previously,
* the recently removed functions tox_encrypted_new and tox_get_encrypted_savedata
* may be trivially replaced by calls to tox_pass_decrypt -> tox_new or
* tox_get_savedata -> tox_pass_encrypt as appropriate. The removed functions
* were never more than 5 line wrappers of the other public API functions anyways.
* (As has always been, tox_pass_decrypt and tox_pass_encrypt are interchangeable
* with tox_pass_key_decrypt and tox_pass_key_encrypt, as the client program requires.)
*/
typedef enum TOX_ERR_KEY_DERIVATION { typedef enum TOX_ERR_KEY_DERIVATION {
TOX_ERR_KEY_DERIVATION_OK, TOX_ERR_KEY_DERIVATION_OK,
/** /**
@ -155,6 +164,14 @@ bool tox_pass_decrypt(const uint8_t *data, size_t length, uint8_t *passphrase, s
* intensive than part one. The first 3 functions are for key handling. * intensive than part one. The first 3 functions are for key handling.
*/ */
/* This key structure's internals should not be used by any client program, even
* if they are straightforward here.
*/
typedef struct {
uint8_t salt[TOX_PASS_SALT_LENGTH];
uint8_t key[TOX_PASS_KEY_LENGTH];
} TOX_PASS_KEY;
/* Generates a secret symmetric key from the given passphrase. out_key must be at least /* Generates a secret symmetric key from the given passphrase. out_key must be at least
* TOX_PASS_KEY_LENGTH bytes long. * TOX_PASS_KEY_LENGTH bytes long.
* Be sure to not compromise the key! Only keep it in memory, do not write to disk. * Be sure to not compromise the key! Only keep it in memory, do not write to disk.
@ -166,12 +183,13 @@ bool tox_pass_decrypt(const uint8_t *data, size_t length, uint8_t *passphrase, s
* *
* returns true on success * returns true on success
*/ */
bool tox_derive_key_from_pass(uint8_t *passphrase, size_t pplength, uint8_t *out_key, TOX_ERR_KEY_DERIVATION *error); bool tox_derive_key_from_pass(uint8_t *passphrase, size_t pplength, TOX_PASS_KEY *out_key,
TOX_ERR_KEY_DERIVATION *error);
/* Same as above, except with use the given salt for deterministic key derivation. /* Same as above, except use the given salt for deterministic key derivation.
* The salt must be tox_salt_length() bytes in length. * The salt must be TOX_PASS_SALT_LENGTH bytes in length.
*/ */
bool tox_derive_key_with_salt(uint8_t *passphrase, size_t pplength, uint8_t *salt, uint8_t *out_key, bool tox_derive_key_with_salt(uint8_t *passphrase, size_t pplength, uint8_t *salt, TOX_PASS_KEY *out_key,
TOX_ERR_KEY_DERIVATION *error); TOX_ERR_KEY_DERIVATION *error);
/* This retrieves the salt used to encrypt the given data, which can then be passed to /* This retrieves the salt used to encrypt the given data, which can then be passed to
@ -194,7 +212,7 @@ bool tox_get_salt(const uint8_t *data, uint8_t *salt);
* *
* returns true on success * returns true on success
*/ */
bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const uint8_t *key, uint8_t *out, bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const TOX_PASS_KEY *key, uint8_t *out,
TOX_ERR_ENCRYPTION *error); TOX_ERR_ENCRYPTION *error);
/* This is the inverse of tox_pass_key_encrypt, also using only keys produced by /* This is the inverse of tox_pass_key_encrypt, also using only keys produced by
@ -204,7 +222,7 @@ bool tox_pass_key_encrypt(const uint8_t *data, size_t data_len, const uint8_t *k
* *
* returns true on success * returns true on success
*/ */
bool tox_pass_key_decrypt(const uint8_t *data, size_t length, const uint8_t *key, uint8_t *out, bool tox_pass_key_decrypt(const uint8_t *data, size_t length, const TOX_PASS_KEY *key, uint8_t *out,
TOX_ERR_DECRYPTION *error); TOX_ERR_DECRYPTION *error);
/* Determines whether or not the given data is encrypted (by checking the magic number) /* Determines whether or not the given data is encrypted (by checking the magic number)