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/**
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* (C) 2007-20 - ntop.org and contributors
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not see see <http://www.gnu.org/licenses/>
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*
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*/
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#include "n2n.h"
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#define N2N_SPECK_IVEC_SIZE 16
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#define SPECK_KEY_BYTES (256/8)
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/* Speck plaintext preamble */
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#define TRANSOP_SPECK_PREAMBLE_SIZE (N2N_SPECK_IVEC_SIZE)
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typedef unsigned char n2n_speck_ivec_t[N2N_SPECK_IVEC_SIZE];
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typedef struct transop_speck {
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speck_context_t ctx; /* the round keys for payload encryption & decryption */
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} transop_speck_t;
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/* ****************************************************** */
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static int transop_deinit_speck(n2n_trans_op_t *arg) {
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transop_speck_t *priv = (transop_speck_t *)arg->priv;
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if(priv)
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#if defined (SPECK_ALIGNED_CTX)
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_mm_free (priv);
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#else
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free (priv);
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#endif
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return 0;
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}
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/* ****************************************************** */
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static void set_speck_iv(transop_speck_t *priv, n2n_speck_ivec_t ivec) {
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// keep in mind the following condition: N2N_SPECK_IVEC_SIZE % sizeof(rand_value) == 0 !
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uint64_t rand_value;
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uint8_t i;
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for (i = 0; i < N2N_SPECK_IVEC_SIZE; i += sizeof(rand_value)) {
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rand_value = n2n_rand();
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memcpy(ivec + i, &rand_value, sizeof(rand_value));
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}
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}
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/* ****************************************************** */
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/** The Speck packet format consists of:
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*
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* - a 128-bit random IV
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* - encrypted payload.
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*
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* [IIII|DDDDDDDDDDDDDDDDDDDDD]
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* |<---- encrypted ---->|
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*/
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static int transop_encode_speck(n2n_trans_op_t * arg,
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uint8_t * outbuf,
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size_t out_len,
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const uint8_t * inbuf,
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size_t in_len,
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const uint8_t * peer_mac) {
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int len=-1;
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transop_speck_t * priv = (transop_speck_t *)arg->priv;
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if(in_len <= N2N_PKT_BUF_SIZE) {
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if((in_len + TRANSOP_SPECK_PREAMBLE_SIZE) <= out_len) {
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size_t idx=0;
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n2n_speck_ivec_t enc_ivec = {0};
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traceEvent(TRACE_DEBUG, "encode_speck %lu bytes", in_len);
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/* Generate and encode the IV. */
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set_speck_iv(priv, enc_ivec);
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encode_buf(outbuf, &idx, &enc_ivec, N2N_SPECK_IVEC_SIZE);
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/* Encrypt the payload and write the ciphertext after the iv. */
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/* len is set to the length of the cipher plain text to be encrpyted
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which is (in this case) identical to original packet lentgh */
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len = in_len;
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speck_ctr (outbuf + TRANSOP_SPECK_PREAMBLE_SIZE, inbuf, in_len, enc_ivec,
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#if defined (SPECK_CTX_BYVAL)
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(priv->ctx));
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#else
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&(priv->ctx));
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#endif
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traceEvent(TRACE_DEBUG, "encode_speck: encrypted %u bytes.\n", in_len);
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len += TRANSOP_SPECK_PREAMBLE_SIZE; /* size of data carried in UDP. */
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} else
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traceEvent(TRACE_ERROR, "encode_speck outbuf too small.");
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} else
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traceEvent(TRACE_ERROR, "encode_speck inbuf too big to encrypt.");
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return len;
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}
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/* ****************************************************** */
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/* See transop_encode_speck for packet format */
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static int transop_decode_speck(n2n_trans_op_t * arg,
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uint8_t * outbuf,
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size_t out_len,
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const uint8_t * inbuf,
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size_t in_len,
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const uint8_t * peer_mac) {
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int len=0;
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transop_speck_t * priv = (transop_speck_t *)arg->priv;
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if(((in_len - TRANSOP_SPECK_PREAMBLE_SIZE) <= N2N_PKT_BUF_SIZE) /* Cipher text fits in buffer */
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&& (in_len >= TRANSOP_SPECK_PREAMBLE_SIZE) /* Has at least iv */
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)
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{
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size_t rem=in_len;
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size_t idx=0;
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n2n_speck_ivec_t dec_ivec = {0};
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traceEvent(TRACE_DEBUG, "decode_speck %lu bytes", in_len);
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len = (in_len - TRANSOP_SPECK_PREAMBLE_SIZE);
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/* Get the IV */
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decode_buf((uint8_t *)&dec_ivec, N2N_SPECK_IVEC_SIZE, inbuf, &rem, &idx);
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speck_ctr (outbuf, inbuf + TRANSOP_SPECK_PREAMBLE_SIZE, len, dec_ivec,
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#if defined (SPECK_CTX_BYVAL)
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(priv->ctx));
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#else
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&(priv->ctx));
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#endif
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traceEvent(TRACE_DEBUG, "decode_speck: decrypted %u bytes.\n", len);
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} else
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traceEvent(TRACE_ERROR, "decode_speck inbuf wrong size (%ul) to decrypt.", in_len);
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return len;
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}
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/* ****************************************************** */
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static int setup_speck_key(transop_speck_t *priv, const uint8_t *key, ssize_t key_size) {
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uint8_t key_mat_buf[32] = { 0x00 };
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/* Clear out any old possibly longer key matter. */
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memset(&(priv->ctx), 0, sizeof(speck_context_t) );
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/* the input key always gets hashed to make a more unpredictable and more complete use of the key space */
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pearson_hash_256 (key_mat_buf, key, key_size);
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/* expand the key material to the context (= round keys) */
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speck_expand_key (key_mat_buf, &(priv->ctx));
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traceEvent(TRACE_DEBUG, "Speck key setup completed\n");
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return(0);
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}
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/* ****************************************************** */
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static void transop_tick_speck(n2n_trans_op_t * arg, time_t now) { ; }
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/* ****************************************************** */
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/* Speck initialization function */
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int n2n_transop_speck_init(const n2n_edge_conf_t *conf, n2n_trans_op_t *ttt) {
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transop_speck_t *priv;
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const u_char *encrypt_key = (const u_char *)conf->encrypt_key;
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size_t encrypt_key_len = strlen(conf->encrypt_key);
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memset(ttt, 0, sizeof(*ttt));
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ttt->transform_id = N2N_TRANSFORM_ID_SPECK;
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ttt->tick = transop_tick_speck;
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ttt->deinit = transop_deinit_speck;
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ttt->fwd = transop_encode_speck;
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ttt->rev = transop_decode_speck;
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#if defined (SPECK_ALIGNED_CTX)
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priv = (transop_speck_t*) _mm_malloc (sizeof(transop_speck_t), SPECK_ALIGNED_CTX);
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#else
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priv = (transop_speck_t*) calloc (1, sizeof(transop_speck_t));
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#endif
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if(!priv) {
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traceEvent(TRACE_ERROR, "cannot allocate transop_speck_t memory");
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return(-1);
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}
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ttt->priv = priv;
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/* Setup the cipher and key */
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return(setup_speck_key(priv, encrypt_key, encrypt_key_len));
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}
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