Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message
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793b9b910a
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08a7e44a96
3 changed files with 40 additions and 22 deletions
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@ -129,9 +129,9 @@ struct Ratchet {
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std::uint8_t * input, std::size_t input_length
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);
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/** The maximum number of bytes of output the encrypt method will write for
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/** The number of bytes of output the encrypt method will write for
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* a given message length. */
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std::size_t encrypt_max_output_length(
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std::size_t encrypt_output_length(
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std::size_t plaintext_length
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);
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@ -154,7 +154,7 @@ struct Ratchet {
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/** An upper bound on the number of bytes of plain-text the decrypt method
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* will write for a given input message length. */
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std::size_t decrypt_max_plaintext_length(
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std::size_t input_length
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std::uint8_t const * input, std::size_t input_length
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);
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/** Decrypt a message. Returns the length of the decrypted plain-text or
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@ -348,7 +348,7 @@ std::size_t axolotl::Ratchet::unpickle(
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}
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std::size_t axolotl::Ratchet::encrypt_max_output_length(
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std::size_t axolotl::Ratchet::encrypt_output_length(
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std::size_t plaintext_length
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) {
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std::size_t counter = 0;
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@ -374,7 +374,7 @@ std::size_t axolotl::Ratchet::encrypt(
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std::uint8_t const * random, std::size_t random_length,
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std::uint8_t * output, std::size_t max_output_length
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) {
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std::size_t output_length = encrypt_max_output_length(plaintext_length);
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std::size_t output_length = encrypt_output_length(plaintext_length);
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if (random_length < encrypt_random_length()) {
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last_error = axolotl::ErrorCode::NOT_ENOUGH_RANDOM;
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@ -428,9 +428,19 @@ std::size_t axolotl::Ratchet::encrypt(
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std::size_t axolotl::Ratchet::decrypt_max_plaintext_length(
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std::size_t input_length
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std::uint8_t const * input, std::size_t input_length
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) {
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return input_length;
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axolotl::MessageReader reader;
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axolotl::decode_message(
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reader, input, input_length, ratchet_cipher.mac_length()
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);
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if (!reader.ciphertext) {
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last_error = axolotl::ErrorCode::BAD_MESSAGE_FORMAT;
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return std::size_t(-1);
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}
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return ratchet_cipher.decrypt_max_plaintext_length(reader.ciphertext_length);
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}
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@ -438,11 +448,6 @@ std::size_t axolotl::Ratchet::decrypt(
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std::uint8_t const * input, std::size_t input_length,
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std::uint8_t * plaintext, std::size_t max_plaintext_length
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) {
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if (max_plaintext_length < decrypt_max_plaintext_length(input_length)) {
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last_error = axolotl::ErrorCode::OUTPUT_BUFFER_TOO_SMALL;
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return std::size_t(-1);
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}
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axolotl::MessageReader reader;
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axolotl::decode_message(
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reader, input, input_length, ratchet_cipher.mac_length()
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@ -458,6 +463,15 @@ std::size_t axolotl::Ratchet::decrypt(
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return std::size_t(-1);
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}
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std::size_t max_length = ratchet_cipher.decrypt_max_plaintext_length(
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reader.ciphertext_length
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);
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if (max_plaintext_length < max_length) {
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last_error = axolotl::ErrorCode::OUTPUT_BUFFER_TOO_SMALL;
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return std::size_t(-1);
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}
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if (reader.ratchet_key_length != KEY_LENGTH) {
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last_error = axolotl::ErrorCode::BAD_MESSAGE_FORMAT;
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return std::size_t(-1);
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@ -54,13 +54,11 @@ std::size_t message_length, random_length, output_length;
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std::size_t encrypt_length, decrypt_length;
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{
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/* Bob sends Alice a message */
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message_length = bob.encrypt_max_output_length(plaintext_length);
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message_length = bob.encrypt_output_length(plaintext_length);
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random_length = bob.encrypt_random_length();
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assert_equals(std::size_t(0), random_length);
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output_length = alice.decrypt_max_plaintext_length(message_length);
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std::uint8_t message[message_length];
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std::uint8_t output[output_length];
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encrypt_length = bob.encrypt(
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plaintext, plaintext_length,
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@ -69,6 +67,8 @@ std::size_t encrypt_length, decrypt_length;
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);
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assert_equals(message_length, encrypt_length);
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output_length = alice.decrypt_max_plaintext_length(message, message_length);
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std::uint8_t output[output_length];
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decrypt_length = alice.decrypt(
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message, message_length,
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output, output_length
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@ -80,13 +80,11 @@ std::size_t encrypt_length, decrypt_length;
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{
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/* Alice sends Bob a message */
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message_length = alice.encrypt_max_output_length(plaintext_length);
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message_length = alice.encrypt_output_length(plaintext_length);
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random_length = alice.encrypt_random_length();
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assert_equals(std::size_t(32), random_length);
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output_length = bob.decrypt_max_plaintext_length(message_length);
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std::uint8_t message[message_length];
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std::uint8_t output[output_length];
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std::uint8_t random[] = "This is a random 32 byte string.";
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encrypt_length = alice.encrypt(
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@ -96,6 +94,8 @@ std::size_t encrypt_length, decrypt_length;
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);
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assert_equals(message_length, encrypt_length);
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output_length = bob.decrypt_max_plaintext_length(message, message_length);
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std::uint8_t output[output_length];
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decrypt_length = bob.decrypt(
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message, message_length,
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output, output_length
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@ -127,7 +127,7 @@ std::size_t encrypt_length, decrypt_length;
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{
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/* Alice sends Bob two messages and they arrive out of order */
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message_1_length = alice.encrypt_max_output_length(plaintext_1_length);
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message_1_length = alice.encrypt_output_length(plaintext_1_length);
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random_length = alice.encrypt_random_length();
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assert_equals(std::size_t(32), random_length);
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@ -140,7 +140,7 @@ std::size_t encrypt_length, decrypt_length;
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);
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assert_equals(message_1_length, encrypt_length);
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message_2_length = alice.encrypt_max_output_length(plaintext_2_length);
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message_2_length = alice.encrypt_output_length(plaintext_2_length);
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random_length = alice.encrypt_random_length();
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assert_equals(std::size_t(0), random_length);
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@ -152,7 +152,9 @@ std::size_t encrypt_length, decrypt_length;
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);
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assert_equals(message_2_length, encrypt_length);
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output_length = bob.decrypt_max_plaintext_length(message_2_length);
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output_length = bob.decrypt_max_plaintext_length(
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message_2, message_2_length
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);
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std::uint8_t output_1[output_length];
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decrypt_length = bob.decrypt(
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message_2, message_2_length,
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@ -161,7 +163,9 @@ std::size_t encrypt_length, decrypt_length;
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assert_equals(plaintext_2_length, decrypt_length);
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assert_equals(plaintext_2, output_1, decrypt_length);
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output_length = bob.decrypt_max_plaintext_length(message_1_length);
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output_length = bob.decrypt_max_plaintext_length(
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message_1, message_1_length
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);
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std::uint8_t output_2[output_length];
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decrypt_length = bob.decrypt(
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message_1, message_1_length,
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