Ejemplo n.º 1
0
static void afl_pkt_from_stdin(fko_srv_options_t *opts)
{
    FILE                *fp = NULL;
    fko_ctx_t           decode_ctx = NULL;
    unsigned char       spa_pkt[AFL_MAX_PKT_SIZE] = {0};
    int                 res = 0, es = EXIT_SUCCESS;
    char                dump_buf[AFL_DUMP_CTX_SIZE];

    fp = fdopen(STDIN_FILENO, "r");
    if(fp != NULL)
    {
        if(fgets((char *)spa_pkt, AFL_MAX_PKT_SIZE, fp) == NULL)
        {
            fclose(fp);
            clean_exit(opts, NO_FW_CLEANUP, EXIT_FAILURE);
        }

        fclose(fp);

        fko_new(&decode_ctx);

        res = fko_set_encoded_data(decode_ctx, (char *) spa_pkt,
                strlen((char *)spa_pkt), 0, FKO_DIGEST_SHA256);

        if(res == FKO_SUCCESS)
            res = fko_set_spa_data(decode_ctx, (const char *) spa_pkt);
        if(res == FKO_SUCCESS)
            res = fko_decode_spa_data(decode_ctx);
        if(res == FKO_SUCCESS)
            res = dump_ctx_to_buffer(decode_ctx, dump_buf, sizeof(dump_buf));
        if(res == FKO_SUCCESS)
            log_msg(LOG_INFO, "%s", dump_buf);

        fko_destroy(decode_ctx);

        if(res == FKO_SUCCESS)
        {
            log_msg(LOG_INFO, "SPA packet decode: %s", fko_errstr(res));
            es = EXIT_SUCCESS;
        }
        else
        {
            log_msg(LOG_ERR, "Could not decode SPA packet: %s", fko_errstr(res));
            es = EXIT_FAILURE;
        }
    }
    else
        log_msg(LOG_ERR, "Could not acquire SPA packet from stdin.");

    clean_exit(opts, NO_FW_CLEANUP, es);
}
Ejemplo n.º 2
0
/* set_spa_data
*/
static PyObject *
set_spa_data(PyObject *self, PyObject *args)
{
    fko_ctx_t ctx;
    char *spa_data;
    int res;

    if(!PyArg_ParseTuple(args, "ks", &ctx, &spa_data))
        return NULL;

    res = fko_set_spa_data(ctx, spa_data);

    if(res != FKO_SUCCESS)
    {
        PyErr_SetString(FKOError, fko_errstr(res));
        return NULL;
    }

    return Py_BuildValue("", NULL);
}
Ejemplo n.º 3
0
static void
test_loop(int new_ctx_flag, int destroy_ctx_flag)
{
    fko_ctx_t  ctx = NULL, decrypt_ctx = NULL;
    int        i, j;
    char       *spa_data = NULL, encode_buf[100], decode_buf[100];

    printf("[+] test_loop(): %s, %s\n",
            new_ctx_flag == NEW_CTX ? "NEW_CTX" : "NO_NEW_CTX",
            destroy_ctx_flag == CTX_DESTROY ? "DESTROY_CTX" : "NO_DESTROY_CTX");
    printf("fko_new(): %s\n", fko_errstr(fko_new(&ctx)));
    fko_destroy(ctx);
    ctx = NULL;
    printf("fko_new(): %s\n", fko_errstr(fko_new(&ctx)));

    spa_func_getset_int(&ctx, "fko_set_spa_client_timeout",
            &fko_set_spa_client_timeout, "fko_get_spa_client_timeout",
            &fko_get_spa_client_timeout, -F_INT, F_INT, 10,
            new_ctx_flag, destroy_ctx_flag);

    spa_func_getset_short(&ctx, "fko_set_spa_message_type",
            &fko_set_spa_message_type, "fko_get_spa_message_type",
            &fko_get_spa_message_type, FKO_COMMAND_MSG-F_INT,
            FKO_LAST_MSG_TYPE+F_INT, FKO_ACCESS_MSG,
            NO_DIGEST, new_ctx_flag, destroy_ctx_flag);

    spa_func_int(&ctx, "fko_set_timestamp",
            &fko_set_timestamp, -F_INT, F_INT, 10,
            new_ctx_flag, destroy_ctx_flag);

    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_set_spa_message(1.1.1.1,tcp/22): %s\n",
                fko_errstr(fko_set_spa_message(ctx, "1.1.1.1,tcp/22")));
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_set_spa_nat_access(1.2.3.4,1234): %s\n",
                fko_errstr(fko_set_spa_nat_access(ctx, "1.2.3.4,1234")));
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_set_username(someuser): %s\n",
                fko_errstr(fko_set_username(ctx, "someuser")));
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    spa_func_getset_short(&ctx, "fko_set_spa_encryption_type",
            &fko_set_spa_encryption_type, "fko_get_spa_encryption_type",
            &fko_get_spa_encryption_type, FKO_ENCRYPTION_INVALID_DATA-F_INT,
            FKO_LAST_ENCRYPTION_TYPE+F_INT, FKO_ENCRYPTION_RIJNDAEL,
            NO_DIGEST, new_ctx_flag, destroy_ctx_flag);

    spa_func_getset_int(&ctx, "fko_set_spa_encryption_mode",
            &fko_set_spa_encryption_mode, "fko_get_spa_encryption_mode",
            &fko_get_spa_encryption_mode, FKO_ENC_MODE_UNKNOWN-F_INT,
            FKO_LAST_ENC_MODE+F_INT, FKO_ENC_MODE_CBC,
            new_ctx_flag, destroy_ctx_flag);

    if (ENABLE_GPG_TESTS) {
        for (i=0; i<FCN_CALLS; i++) {
            printf("fko_set_spa_encryption_type(FKO_ENCRYPTION_GPG): %s\n",
                    fko_errstr(fko_set_spa_encryption_type(ctx, FKO_ENCRYPTION_GPG)));
            ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
        }

        for (i=0; i<FCN_CALLS; i++) {
            printf("fko_set_gpg_home_dir(/home/mbr/.gnupg): %s\n",
                    fko_errstr(fko_set_gpg_home_dir(ctx, "/home/mbr/.gnupg")));
            ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
        }

        for (i=0; i<FCN_CALLS; i++) {
            printf("fko_set_gpg_recipient(1234asdf): %s\n",
                fko_errstr(fko_set_gpg_recipient(ctx, "1234asdf")));
            ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
        }
    }

    spa_func_getset_short(&ctx, "fko_set_spa_digest_type",
            &fko_set_spa_digest_type, "fko_get_spa_digest_type",
            &fko_get_spa_digest_type, FKO_DIGEST_INVALID_DATA-F_INT,
            FKO_LAST_DIGEST_TYPE+F_INT, FKO_DEFAULT_DIGEST,
            DO_DIGEST, new_ctx_flag, destroy_ctx_flag);

    spa_func_getset_short(&ctx, "fko_set_raw_spa_digest_type",
            &fko_set_spa_digest_type, "fko_get_raw_spa_digest_type",
            &fko_get_spa_digest_type, FKO_DIGEST_INVALID_DATA-F_INT,
            FKO_LAST_DIGEST_TYPE+F_INT, FKO_DEFAULT_DIGEST,
            RAW_DIGEST, new_ctx_flag, destroy_ctx_flag);

    spa_func_getset_short(&ctx, "fko_set_spa_hmac_type",
            &fko_set_spa_hmac_type, "fko_get_spa_hmac_type",
            &fko_get_spa_hmac_type, FKO_HMAC_INVALID_DATA-F_INT,
            FKO_LAST_HMAC_MODE+F_INT, FKO_HMAC_SHA256,
            NO_DIGEST, new_ctx_flag, destroy_ctx_flag);

    printf("Trying encrypt / authenticate step with bogus key lengths...\n");
    for (i=-100; i < 200; i += 10) {
        for (j=-100; j < 200; j += 10) {
            fko_spa_data_final(ctx, ENC_KEY, i, HMAC_KEY, j);
            fko_spa_data_final(ctx, NULL, i, HMAC_KEY, j);
            fko_spa_data_final(ctx, ENC_KEY, i, NULL, j);
            fko_spa_data_final(ctx, NULL, i, NULL, j);
            ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, NO_PRINT);
            spa_calls += 4;
        }
    }

    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_spa_data_final(ENC_KEY, 16, HMAC_KEY, 16): %s\n",
                fko_errstr(fko_spa_data_final(ctx, ENC_KEY, 16, HMAC_KEY, 16)));
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_get_spa_data(): %s\n",
                fko_errstr(fko_get_spa_data(ctx, &spa_data)));
        printf("    SPA DATA: %s\n", spa_data == NULL ? "<NULL>" : spa_data);
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    printf("fko_new_with_data(): %s (data: %s)\n",
        fko_errstr(fko_new_with_data(&decrypt_ctx, spa_data, NULL,
        0, FKO_ENC_MODE_CBC, NULL, 0, FKO_HMAC_SHA256)), spa_data);

    /* verify hmac, decrypt, and display ctx all together*/
    for (i=0; i<FCN_CALLS; i++) {
        display_ctx(decrypt_ctx);
        printf("fko_verify_hmac() (1): %s\n",
            fko_errstr(fko_verify_hmac(decrypt_ctx, HMAC_KEY, 16)));

        printf("fko_decrypt_spa_data() (1): %s\n",
            fko_errstr(fko_decrypt_spa_data(decrypt_ctx, ENC_KEY, 16)));

        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    /* now, separately verify hmac, decrypt, and display ctx */
    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_verify_hmac() (2): %s\n",
            fko_errstr(fko_verify_hmac(decrypt_ctx, HMAC_KEY, 16)));
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    /* now decrypt */
    for (i=0; i<FCN_CALLS; i++) {
        printf("fko_decrypt_spa_data() (2): %s\n",
            fko_errstr(fko_decrypt_spa_data(decrypt_ctx, ENC_KEY, 16)));
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    for (i=0; i<FCN_CALLS; i++) {
        display_ctx(decrypt_ctx);
        ctx_update(&ctx, new_ctx_flag, destroy_ctx_flag, DO_PRINT);
    }

    /* NULL tests */
    fko_set_rand_value(ctx, NULL);
    fko_set_rand_value(ctx, NULL);
    fko_set_username(ctx, NULL);
    fko_set_username(ctx, NULL);
    fko_set_spa_message(ctx, NULL);
    fko_set_spa_message(ctx, NULL);
    fko_set_spa_nat_access(ctx, NULL);
    fko_set_spa_nat_access(ctx, NULL);
    fko_set_spa_server_auth(ctx, NULL);
    fko_set_spa_server_auth(ctx, NULL);
    fko_set_spa_data(ctx, NULL);
    fko_set_spa_data(ctx, NULL);
    spa_calls += 12;

    for (i=0; i<FCN_CALLS; i++) {
        fko_destroy(ctx);
        ctx = NULL;
    }

    for (i=0; i<FCN_CALLS; i++) {
        fko_destroy(decrypt_ctx);
        decrypt_ctx = NULL;
    }

    /* exercise the base64 encode/decode wrapper
    */
    fko_base64_encode((unsigned char *)ENC_KEY, encode_buf, 16);
    fko_base64_decode(encode_buf, (unsigned char *)decode_buf);

    /* call fko_errstr() across valid and invalid values
    */
    for (i=-5; i < FKO_LAST_ERROR+5; i++) {
        printf("libfko error (%d): %s\n", i, fko_errstr(i));
        spa_calls++;
    }

    return;
}