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-rw-r--r--android/olm-sdk/src/main/jni/olm_pk.cpp55
-rw-r--r--include/olm/pk.h32
-rw-r--r--javascript/olm_pk.js10
-rw-r--r--javascript/test/pk.spec.js8
-rw-r--r--src/pk.cpp58
5 files changed, 106 insertions, 57 deletions
diff --git a/android/olm-sdk/src/main/jni/olm_pk.cpp b/android/olm-sdk/src/main/jni/olm_pk.cpp
index 2e936c6..5457419 100644
--- a/android/olm-sdk/src/main/jni/olm_pk.cpp
+++ b/android/olm-sdk/src/main/jni/olm_pk.cpp
@@ -29,7 +29,10 @@ OlmPkEncryption * initializePkEncryptionMemory()
{
// init encryption object
encryptionPtr = olm_pk_encryption(encryptionPtr);
- LOGD("## initializePkEncryptionMemory(): success - OLM encryption size=%lu",static_cast<long unsigned int>(encryptionSize));
+ LOGD(
+ "## initializePkEncryptionMemory(): success - OLM encryption size=%lu",
+ static_cast<long unsigned int>(encryptionSize)
+ );
}
else
{
@@ -53,7 +56,10 @@ JNIEXPORT jlong OLM_PK_ENCRYPTION_FUNC_DEF(createNewPkEncryptionJni)(JNIEnv *env
else
{
LOGD("## createNewPkEncryptionJni(): success - OLM encryption created");
- LOGD("## createNewPkEncryptionJni(): encryptionPtr=%p (jlong)(intptr_t)encryptionPtr=%lld", encryptionPtr, (jlong)(intptr_t)encryptionPtr);
+ LOGD(
+ "## createNewPkEncryptionJni(): encryptionPtr=%p (jlong)(intptr_t)encryptionPtr=%lld",
+ encryptionPtr, (jlong)(intptr_t)encryptionPtr
+ );
}
if (errorMessage)
@@ -93,8 +99,9 @@ JNIEXPORT void OLM_PK_ENCRYPTION_FUNC_DEF(releasePkEncryptionJni)(JNIEnv *env, j
}
}
-JNIEXPORT void OLM_PK_ENCRYPTION_FUNC_DEF(setRecipientKeyJni)(JNIEnv *env, jobject thiz, jbyteArray aKeyBuffer)
-{
+JNIEXPORT void OLM_PK_ENCRYPTION_FUNC_DEF(setRecipientKeyJni)(
+ JNIEnv *env, jobject thiz, jbyteArray aKeyBuffer
+) {
const char *errorMessage = NULL;
jbyte *keyPtr = NULL;
@@ -116,10 +123,13 @@ JNIEXPORT void OLM_PK_ENCRYPTION_FUNC_DEF(setRecipientKeyJni)(JNIEnv *env, jobje
}
else
{
- if(olm_pk_encryption_set_recipient_key(encryptionPtr, keyPtr, (size_t)env->GetArrayLength(aKeyBuffer)) == olm_error())
+ if (olm_pk_encryption_set_recipient_key(encryptionPtr, keyPtr, (size_t)env->GetArrayLength(aKeyBuffer)) == olm_error())
{
errorMessage = olm_pk_encryption_last_error(encryptionPtr);
- LOGE(" ## pkSetRecipientKeyJni(): failure - olm_pk_encryption_set_recipient_key Msg=%s", errorMessage);
+ LOGE(
+ " ## pkSetRecipientKeyJni(): failure - olm_pk_encryption_set_recipient_key Msg=%s",
+ errorMessage
+ );
}
}
@@ -134,8 +144,9 @@ JNIEXPORT void OLM_PK_ENCRYPTION_FUNC_DEF(setRecipientKeyJni)(JNIEnv *env, jobje
}
}
-JNIEXPORT jbyteArray OLM_PK_ENCRYPTION_FUNC_DEF(encryptJni)(JNIEnv *env, jobject thiz, jbyteArray aPlaintextBuffer, jobject aEncryptedMsg)
-{
+JNIEXPORT jbyteArray OLM_PK_ENCRYPTION_FUNC_DEF(encryptJni)(
+ JNIEnv *env, jobject thiz, jbyteArray aPlaintextBuffer, jobject aEncryptedMsg
+) {
jbyteArray encryptedMsgRet = 0;
const char* errorMessage = NULL;
jbyte *plaintextPtr = NULL;
@@ -161,8 +172,8 @@ JNIEXPORT jbyteArray OLM_PK_ENCRYPTION_FUNC_DEF(encryptJni)(JNIEnv *env, jobject
}
else if (!(encryptedMsgJClass = env->GetObjectClass(aEncryptedMsg)))
{
- LOGE(" ## pkEncryptJni(): failure - unable to get crypted message class");
- errorMessage = "unable to get crypted message class";
+ LOGE(" ## pkEncryptJni(): failure - unable to get encrypted message class");
+ errorMessage = "unable to get encrypted message class";
}
else if (!(macFieldId = env->GetFieldID(encryptedMsgJClass, "mMac", "Ljava/lang/String;")))
{
@@ -226,7 +237,9 @@ JNIEXPORT jbyteArray OLM_PK_ENCRYPTION_FUNC_DEF(encryptJni)(JNIEnv *env, jobject
else
{
encryptedMsgRet = env->NewByteArray(ciphertextLength);
- env->SetByteArrayRegion(encryptedMsgRet, 0, ciphertextLength, (jbyte*)ciphertextPtr);
+ env->SetByteArrayRegion(
+ encryptedMsgRet, 0, ciphertextLength, (jbyte*)ciphertextPtr
+ );
jstring macStr = env->NewStringUTF((char*)macPtr);
env->SetObjectField(aEncryptedMsg, macFieldId, macStr);
@@ -276,7 +289,10 @@ OlmPkDecryption * initializePkDecryptionMemory()
{
// init decryption object
decryptionPtr = olm_pk_decryption(decryptionPtr);
- LOGD("## initializePkDecryptionMemory(): success - OLM decryption size=%lu",static_cast<long unsigned int>(decryptionSize));
+ LOGD(
+ "## initializePkDecryptionMemory(): success - OLM decryption size=%lu",
+ static_cast<long unsigned int>(decryptionSize)
+ );
}
else
{
@@ -300,7 +316,10 @@ JNIEXPORT jlong OLM_PK_DECRYPTION_FUNC_DEF(createNewPkDecryptionJni)(JNIEnv *env
else
{
LOGD("## createNewPkDecryptionJni(): success - OLM decryption created");
- LOGD("## createNewPkDecryptionJni(): decryptionPtr=%p (jlong)(intptr_t)decryptionPtr=%lld", decryptionPtr, (jlong)(intptr_t)decryptionPtr);
+ LOGD(
+ "## createNewPkDecryptionJni(): decryptionPtr=%p (jlong)(intptr_t)decryptionPtr=%lld",
+ decryptionPtr, (jlong)(intptr_t)decryptionPtr
+ );
}
if (errorMessage)
@@ -402,8 +421,9 @@ JNIEXPORT jbyteArray OLM_PK_DECRYPTION_FUNC_DEF(generateKeyJni)(JNIEnv *env, job
return publicKeyRet;
}
-JNIEXPORT jbyteArray OLM_PK_DECRYPTION_FUNC_DEF(decryptJni)(JNIEnv *env, jobject thiz, jobject aEncryptedMsg)
-{
+JNIEXPORT jbyteArray OLM_PK_DECRYPTION_FUNC_DEF(decryptJni)(
+ JNIEnv *env, jobject thiz, jobject aEncryptedMsg
+) {
const char* errorMessage = NULL;
OlmPkDecryption *decryptionPtr = getPkDecryptionInstanceId(env, thiz);
@@ -528,7 +548,10 @@ JNIEXPORT jbyteArray OLM_PK_DECRYPTION_FUNC_DEF(decryptJni)(JNIEnv *env, jobject
{
decryptedMsgRet = env->NewByteArray(plaintextLength);
env->SetByteArrayRegion(decryptedMsgRet, 0, plaintextLength, (jbyte*)plaintextPtr);
- LOGD("## pkDecryptJni(): success returnedLg=%lu OK", static_cast<long unsigned int>(plaintextLength));
+ LOGD(
+ "## pkDecryptJni(): success returnedLg=%lu OK",
+ static_cast<long unsigned int>(plaintextLength)
+ );
}
}
diff --git a/include/olm/pk.h b/include/olm/pk.h
index 1f3f9ff..8804d1f 100644
--- a/include/olm/pk.h
+++ b/include/olm/pk.h
@@ -72,11 +72,15 @@ size_t olm_pk_encrypt_random_length(
);
/** Encrypt a plaintext for the recipient set using
- * olm_pk_encryption_set_recipient_key. Returns olm_error() on failure. If the
- * ciphertext, mac, or ephemeral_key buffers were too small then
- * olm_pk_encryption_last_error() will be "OUTPUT_BUFFER_TOO_SMALL". If there
- * weren't enough random bytes then olm_pk_encryption_last_error() will be
- * "NOT_ENOUGH_RANDOM". */
+ * olm_pk_encryption_set_recipient_key. Writes to the ciphertext, mac, and
+ * ephemeral_key buffers, whose values should be sent to the recipient. mac is
+ * a Message Authentication Code to ensure that the data is received and
+ * decrypted properly. ephemeral_key is the public part of the ephemeral key
+ * used (together with the recipient's key) to generate a symmetric encryption
+ * key. Returns olm_error() on failure. If the ciphertext, mac, or
+ * ephemeral_key buffers were too small then olm_pk_encryption_last_error()
+ * will be "OUTPUT_BUFFER_TOO_SMALL". If there weren't enough random bytes then
+ * olm_pk_encryption_last_error() will be "NOT_ENOUGH_RANDOM". */
size_t olm_pk_encrypt(
OlmPkEncryption *encryption,
void const * plaintext, size_t plaintext_length,
@@ -111,9 +115,10 @@ size_t olm_clear_pk_decryption(
/** The number of random bytes needed to generate a new key. */
size_t olm_pk_generate_key_random_length(void);
-/** Generate a new key to use for decrypting messages. The associated public
- * key will be written to the pubkey buffer. Returns olm_error() on failure. If
- * the pubkey buffer is too small then olm_pk_decryption_last_error() will be
+/** Generate a new key pair to use for decrypting messages. The private key is
+ * stored in the decryption object, and the associated public key will be
+ * written to the pubkey buffer. Returns olm_error() on failure. If the pubkey
+ * buffer is too small then olm_pk_decryption_last_error() will be
* "OUTPUT_BUFFER_TOO_SMALL". If there weren't enough random bytes then
* olm_pk_decryption_last_error() will be "NOT_ENOUGH_RANDOM". */
size_t olm_pk_generate_key(
@@ -159,12 +164,13 @@ size_t olm_pk_max_plaintext_length(
size_t ciphertext_length
);
-/** Decrypt a ciphertext. The input ciphertext buffer is destroyed. Returns
- * the length of the plaintext on success. Returns olm_error() on failure. If
- * the plaintext buffer is too small then olm_pk_encryption_last_error() will
- * be "OUTPUT_BUFFER_TOO_SMALL". */
+/** Decrypt a ciphertext. The input ciphertext buffer is destroyed. See the
+ * olm_pk_encrypt function for descriptions of the ephemeral_key and mac
+ * arguments. Returns the length of the plaintext on success. Returns
+ * olm_error() on failure. If the plaintext buffer is too small then
+ * olm_pk_encryption_last_error() will be "OUTPUT_BUFFER_TOO_SMALL". */
size_t olm_pk_decrypt(
- OlmPkDecryption * decrytion,
+ OlmPkDecryption * decryption,
void const * ephemeral_key, size_t ephemeral_key_length,
void const * mac, size_t mac_length,
void * ciphertext, size_t ciphertext_length,
diff --git a/javascript/olm_pk.js b/javascript/olm_pk.js
index 25e0fee..5a2c7dc 100644
--- a/javascript/olm_pk.js
+++ b/javascript/olm_pk.js
@@ -51,7 +51,7 @@ PkEncryption.prototype['encrypt'] = restore_stack(function(
)(this.ptr);
var mac_buffer = stack(mac_length + NULL_BYTE_PADDING_LENGTH);
setValue(
- mac_buffer+mac_length,
+ mac_buffer + mac_length,
0, "i8"
);
var ephemeral_length = pk_encryption_method(
@@ -59,7 +59,7 @@ PkEncryption.prototype['encrypt'] = restore_stack(function(
)();
var ephemeral_buffer = stack(ephemeral_length + NULL_BYTE_PADDING_LENGTH);
setValue(
- ephemeral_buffer+ephemeral_length,
+ ephemeral_buffer + ephemeral_length,
0, "i8"
);
pk_encryption_method(Module['_olm_pk_encrypt'])(
@@ -73,7 +73,7 @@ PkEncryption.prototype['encrypt'] = restore_stack(function(
// UTF8ToString requires a null-terminated argument, so add the
// null terminator.
setValue(
- ciphertext_buffer+ciphertext_length,
+ ciphertext_buffer + ciphertext_length,
0, "i8"
);
return {
@@ -123,7 +123,7 @@ PkDecryption.prototype['generate_key'] = restore_stack(function () {
Module['_olm_pk_generate_key_random_length']
)();
var random_buffer = random_stack(random_length);
- var pubkey_length = pk_encryption_method(
+ var pubkey_length = pk_decryption_method(
Module['_olm_pk_key_length']
)();
var pubkey_buffer = stack(pubkey_length + NULL_BYTE_PADDING_LENGTH);
@@ -191,7 +191,7 @@ PkDecryption.prototype['decrypt'] = restore_stack(function (
// UTF8ToString requires a null-terminated argument, so add the
// null terminator.
setValue(
- plaintext_buffer+plaintext_length,
+ plaintext_buffer + plaintext_length,
0, "i8"
);
return UTF8ToString(plaintext_buffer);
diff --git a/javascript/test/pk.spec.js b/javascript/test/pk.spec.js
index 007882f..34f7be5 100644
--- a/javascript/test/pk.spec.js
+++ b/javascript/test/pk.spec.js
@@ -18,14 +18,6 @@ limitations under the License.
var Olm = require('../olm');
-if (!Object.keys) {
- Object.keys = function(o) {
- var k=[], p;
- for (p in o) if (Object.prototype.hasOwnProperty.call(o,p)) k.push(p);
- return k;
- }
-}
-
describe("pk", function() {
var encryption, decryption;
diff --git a/src/pk.cpp b/src/pk.cpp
index e646dc4..4c5f50e 100644
--- a/src/pk.cpp
+++ b/src/pk.cpp
@@ -22,15 +22,15 @@
#include "olm/pickle_encoding.h"
#include "olm/pickle.hh"
-extern "C" {
-
static const std::size_t MAC_LENGTH = 8;
- const struct _olm_cipher_aes_sha_256 olm_pk_cipher_aes_sha256 =
+const struct _olm_cipher_aes_sha_256 olm_pk_cipher_aes_sha256 =
OLM_CIPHER_INIT_AES_SHA_256("");
const struct _olm_cipher *olm_pk_cipher =
OLM_CIPHER_BASE(&olm_pk_cipher_aes_sha256);
+extern "C" {
+
struct OlmPkEncryption {
OlmErrorCode last_error;
_olm_curve25519_public_key recipient_key;
@@ -73,7 +73,11 @@ size_t olm_pk_encryption_set_recipient_key (
OlmErrorCode::OLM_OUTPUT_BUFFER_TOO_SMALL; // FIXME:
return std::size_t(-1);
}
- olm::decode_base64((const uint8_t*)key, olm_pk_key_length(), (uint8_t *)encryption->recipient_key.public_key);
+ olm::decode_base64(
+ (const uint8_t*)key,
+ olm_pk_key_length(),
+ (uint8_t *)encryption->recipient_key.public_key
+ );
return 0;
}
@@ -81,7 +85,9 @@ size_t olm_pk_ciphertext_length(
OlmPkEncryption *encryption,
size_t plaintext_length
) {
- return olm::encode_base64_length(_olm_cipher_aes_sha_256_ops.encrypt_ciphertext_length(olm_pk_cipher, plaintext_length));
+ return olm::encode_base64_length(
+ _olm_cipher_aes_sha_256_ops.encrypt_ciphertext_length(olm_pk_cipher, plaintext_length)
+ );
}
size_t olm_pk_mac_length(
@@ -106,9 +112,9 @@ size_t olm_pk_encrypt(
) {
if (ciphertext_length
< olm_pk_ciphertext_length(encryption, plaintext_length)
- || mac_length
+ || mac_length
< _olm_cipher_aes_sha_256_ops.mac_length(olm_pk_cipher)
- || ephemeral_key_size
+ || ephemeral_key_size
< olm_pk_key_length()) {
encryption->last_error =
OlmErrorCode::OLM_OUTPUT_BUFFER_TOO_SMALL;
@@ -122,11 +128,16 @@ size_t olm_pk_encrypt(
_olm_curve25519_key_pair ephemeral_keypair;
_olm_crypto_curve25519_generate_key((uint8_t *) random, &ephemeral_keypair);
- olm::encode_base64((const uint8_t *)ephemeral_keypair.public_key.public_key, CURVE25519_KEY_LENGTH, (uint8_t *)ephemeral_key);
+ olm::encode_base64(
+ (const uint8_t *)ephemeral_keypair.public_key.public_key,
+ CURVE25519_KEY_LENGTH,
+ (uint8_t *)ephemeral_key
+ );
olm::SharedKey secret;
_olm_crypto_curve25519_shared_secret(&ephemeral_keypair, &encryption->recipient_key, secret);
- size_t raw_ciphertext_length = _olm_cipher_aes_sha_256_ops.encrypt_ciphertext_length(olm_pk_cipher, plaintext_length);
+ size_t raw_ciphertext_length =
+ _olm_cipher_aes_sha_256_ops.encrypt_ciphertext_length(olm_pk_cipher, plaintext_length);
uint8_t *ciphertext_pos = (uint8_t *) ciphertext + ciphertext_length - raw_ciphertext_length;
uint8_t raw_mac[MAC_LENGTH];
size_t result = _olm_cipher_aes_sha_256_ops.encrypt(
@@ -201,7 +212,11 @@ size_t olm_pk_generate_key(
}
_olm_crypto_curve25519_generate_key((uint8_t *) random, &decryption->key_pair);
- olm::encode_base64((const uint8_t *)decryption->key_pair.public_key.public_key, CURVE25519_KEY_LENGTH, (uint8_t *)pubkey);
+ olm::encode_base64(
+ (const uint8_t *)decryption->key_pair.public_key.public_key,
+ CURVE25519_KEY_LENGTH,
+ (uint8_t *)pubkey
+ );
return 0;
}
@@ -267,7 +282,10 @@ size_t olm_pickle_pk_decryption(
return std::size_t(-1);
}
pickle(_olm_enc_output_pos(reinterpret_cast<std::uint8_t *>(pickled), raw_length), object);
- return _olm_enc_output(reinterpret_cast<std::uint8_t const *>(key), key_length, reinterpret_cast<std::uint8_t *>(pickled), raw_length);
+ return _olm_enc_output(
+ reinterpret_cast<std::uint8_t const *>(key), key_length,
+ reinterpret_cast<std::uint8_t *>(pickled), raw_length
+ );
}
size_t olm_unpickle_pk_decryption(
@@ -283,7 +301,8 @@ size_t olm_unpickle_pk_decryption(
}
std::uint8_t * const pos = reinterpret_cast<std::uint8_t *>(pickled);
std::size_t raw_length = _olm_enc_input(
- reinterpret_cast<std::uint8_t const *>(key), key_length, pos, pickled_length, &object.last_error
+ reinterpret_cast<std::uint8_t const *>(key), key_length,
+ pos, pickled_length, &object.last_error
);
if (raw_length == std::size_t(-1)) {
return std::size_t(-1);
@@ -300,7 +319,11 @@ size_t olm_unpickle_pk_decryption(
return std::size_t(-1);
}
if (pubkey != NULL) {
- olm::encode_base64((const uint8_t *)object.key_pair.public_key.public_key, CURVE25519_KEY_LENGTH, (uint8_t *)pubkey);
+ olm::encode_base64(
+ (const uint8_t *)object.key_pair.public_key.public_key,
+ CURVE25519_KEY_LENGTH,
+ (uint8_t *)pubkey
+ );
}
return pickled_length;
}
@@ -309,7 +332,9 @@ size_t olm_pk_max_plaintext_length(
OlmPkDecryption * decryption,
size_t ciphertext_length
) {
- return _olm_cipher_aes_sha_256_ops.decrypt_max_plaintext_length(olm_pk_cipher, olm::decode_base64_length(ciphertext_length));
+ return _olm_cipher_aes_sha_256_ops.decrypt_max_plaintext_length(
+ olm_pk_cipher, olm::decode_base64_length(ciphertext_length)
+ );
}
size_t olm_pk_decrypt(
@@ -327,7 +352,10 @@ size_t olm_pk_decrypt(
}
struct _olm_curve25519_public_key ephemeral;
- olm::decode_base64((const uint8_t*)ephemeral_key, ephemeral_key_length, (uint8_t *)ephemeral.public_key);
+ olm::decode_base64(
+ (const uint8_t*)ephemeral_key, ephemeral_key_length,
+ (uint8_t *)ephemeral.public_key
+ );
olm::SharedKey secret;
_olm_crypto_curve25519_shared_secret(&decryption->key_pair, &ephemeral, secret);
uint8_t raw_mac[MAC_LENGTH];