コード例 #1
0
ファイル: incoming_spa.c プロジェクト: rafavg77/fwknop
static int
src_check(fko_srv_options_t *opts, spa_pkt_info_t *spa_pkt,
        spa_data_t *spadat, char **raw_digest)
{
    if (is_src_match(opts->acc_stanzas, ntohl(spa_pkt->packet_src_ip)))
    {
        if(strncasecmp(opts->config[CONF_ENABLE_DIGEST_PERSISTENCE], "Y", 1) == 0)
        {
            /* Check for a replay attack
            */
            if(get_raw_digest(raw_digest, (char *)spa_pkt->packet_data) != FKO_SUCCESS)
            {
                if (*raw_digest != NULL)
                    free(*raw_digest);
                return 0;
            }
            if (*raw_digest == NULL)
                return 0;

            if (is_replay(opts, *raw_digest) != SPA_MSG_SUCCESS)
            {
                free(*raw_digest);
                return 0;
            }
        }
    }
    else
    {
        log_msg(LOG_WARNING,
            "No access data found for source IP: %s", spadat->pkt_source_ip
        );
        return 0;
    }
    return 1;
}
コード例 #2
0
void playmp_controller::play_slice(bool is_delay_enabled)
{
	if(!linger_ && !is_replay()) {
		//receive chat during animations and delay
		process_network_data(true);
		//cannot use turn_data_.send_data() here.
		replay_sender_.sync_non_undoable();
	}
	playsingle_controller::play_slice(is_delay_enabled);
}
コード例 #3
0
ファイル: incoming_spa.c プロジェクト: weizn11/fwknop
static int
src_check(fko_srv_options_t *opts, spa_pkt_info_t *spa_pkt,
        spa_data_t *spadat, char **raw_digest)
{
	//ͨ¹ýÀ´Ô´IPÆ¥Åästanzas.
    if (is_src_match(opts->acc_stanzas, ntohl(spa_pkt->packet_src_ip)))
    {
        if(strncasecmp(opts->config[CONF_ENABLE_DIGEST_PERSISTENCE], "Y", 1) == 0)
        {
            /* Check for a replay attack
            */
            //¼ì²éÊÇ·ñÊÇÖطŹ¥»÷¡£
            //»ñÈ¡encrypted_msgµÄSHA256ÕªÒªÊý¾Ý£¬´æÔÚraw_digestÖС£
            if(get_raw_digest(raw_digest, (char *)spa_pkt->packet_data) != FKO_SUCCESS)	//¼ÆËãencrypted_msgÃÜÎĵÄÕªÒª£¬·µ»ØÔÚraw_digest¡£
            {
                if (*raw_digest != NULL)
                    free(*raw_digest);
                return 0;
            }
            if (*raw_digest == NULL)
                return 0;

		//¼ì²âÊÇ·ñÊܵ½ÖطŹ¥»÷¡£
            if (is_replay(opts, *raw_digest) != SPA_MSG_SUCCESS)
            {
                free(*raw_digest);
                return 0;
            }
        }
    }
    else
    {
        log_msg(LOG_WARNING,
            "No access data found for source IP: %s", spadat->pkt_source_ip
        );
        return 0;
    }
    return 1;
}
コード例 #4
0
ファイル: incoming_spa.c プロジェクト: haron/fwknop
/* Process the SPA packet data
*/
void
incoming_spa(fko_srv_options_t *opts)
{
    /* Always a good idea to initialize ctx to null if it will be used
     * repeatedly (especially when using fko_new_with_data()).
    */
    fko_ctx_t       ctx = NULL;

    char            *spa_ip_demark, *gpg_id, *raw_digest = NULL;
    time_t          now_ts;
    int             res, status, ts_diff, enc_type, stanza_num=0;
    int             added_replay_digest = 0, pkt_data_len=0;
    int             is_err, cmd_exec_success = 0, attempted_decrypt = 0;
    int             conf_pkt_age = 0;
    char            dump_buf[CTX_DUMP_BUFSIZE];

    spa_pkt_info_t *spa_pkt = &(opts->spa_pkt);

    /* This will hold our pertinent SPA data.
    */
    spa_data_t spadat;

    /* Loop through all access stanzas looking for a match
    */
    acc_stanza_t        *acc = opts->acc_stanzas;
    acc_string_list_t   *gpg_id_ndx;
    unsigned char        is_gpg_match = 0;

    inet_ntop(AF_INET, &(spa_pkt->packet_src_ip),
        spadat.pkt_source_ip, sizeof(spadat.pkt_source_ip));

    /* At this point, we want to validate and (if needed) preprocess the
     * SPA data and/or to be reasonably sure we have a SPA packet (i.e
     * try to eliminate obvious non-spa packets).
    */
    pkt_data_len = spa_pkt->packet_data_len;
    res = preprocess_spa_data(opts, spadat.pkt_source_ip);
    if(res != FKO_SUCCESS)
    {
        log_msg(LOG_DEBUG, "[%s] preprocess_spa_data() returned error %i: '%s' for incoming packet.",
            spadat.pkt_source_ip, res, get_errstr(res));
        return;
    }

    if(opts->foreground == 1 && opts->verbose > 2)
    {
        printf("[+] candidate SPA packet payload:\n");
        hex_dump(spa_pkt->packet_data, pkt_data_len);
    }

    if(strncasecmp(opts->config[CONF_ENABLE_SPA_PACKET_AGING], "Y", 1) == 0)
    {
        conf_pkt_age = strtol_wrapper(opts->config[CONF_MAX_SPA_PACKET_AGE],
                0, RCHK_MAX_SPA_PACKET_AGE, NO_EXIT_UPON_ERR, &is_err);
        if(is_err != FKO_SUCCESS)
        {
            log_msg(LOG_ERR, "[*] [%s] invalid MAX_SPA_PACKET_AGE", spadat.pkt_source_ip);
            return;
        }
    }

    if (is_src_match(opts->acc_stanzas, ntohl(spa_pkt->packet_src_ip)))
    {
        if(strncasecmp(opts->config[CONF_ENABLE_DIGEST_PERSISTENCE], "Y", 1) == 0)
        {
            /* Check for a replay attack
            */
            res = get_raw_digest(&raw_digest, (char *)spa_pkt->packet_data);
            if(res != FKO_SUCCESS)
            {
                if (raw_digest != NULL)
                    free(raw_digest);
                return;
            }
            if (raw_digest == NULL)
                return;

            if (is_replay(opts, raw_digest) != SPA_MSG_SUCCESS)
            {
                free(raw_digest);
                return;
            }
        }
    }
    else
    {
        log_msg(LOG_WARNING,
            "No access data found for source IP: %s", spadat.pkt_source_ip
        );
        return;
    }

    /* Now that we know there is a matching access.conf stanza and the
     * incoming SPA packet is not a replay, see if we should grant any
     * access
    */
    while(acc)
    {
        res = FKO_SUCCESS;
        cmd_exec_success  = 0;
        attempted_decrypt = 0;
        stanza_num++;

        /* Start access loop with a clean FKO context
        */
        if(ctx != NULL)
        {
            if(fko_destroy(ctx) == FKO_ERROR_ZERO_OUT_DATA)
                log_msg(LOG_WARNING,
                    "[%s] (stanza #%d) fko_destroy() could not zero out sensitive data buffer.",
                    spadat.pkt_source_ip, stanza_num, fko_errstr(res)
                );
            ctx = NULL;
        }

        /* Check for a match for the SPA source IP and the access stanza
        */
        if(! compare_addr_list(acc->source_list, ntohl(spa_pkt->packet_src_ip)))
        {
            acc = acc->next;
            continue;
        }

        log_msg(LOG_INFO, "(stanza #%d) SPA Packet from IP: %s received with access source match",
            stanza_num, spadat.pkt_source_ip);

        log_msg(LOG_DEBUG, "SPA Packet: '%s'", spa_pkt->packet_data);

        /* Make sure this access stanza has not expired
        */
        if(acc->access_expire_time > 0)
        {
            if(acc->expired)
            {
                acc = acc->next;
                continue;
            }
            else
            {
                if(time(NULL) > acc->access_expire_time)
                {
                    log_msg(LOG_INFO, "[%s] (stanza #%d) Access stanza has expired",
                        spadat.pkt_source_ip, stanza_num);
                    acc->expired = 1;
                    acc = acc->next;
                    continue;
                }
            }
        }

        /* Get encryption type and try its decoding routine first (if the key
         * for that type is set)
        */
        enc_type = fko_encryption_type((char *)spa_pkt->packet_data);

        if(acc->use_rijndael)
        {
            if (acc->key == NULL)
            {
                log_msg(LOG_ERR,
                    "[%s] (stanza #%d) No KEY for RIJNDAEL encrypted messages",
                    spadat.pkt_source_ip, stanza_num
                );
                acc = acc->next;
                continue;
            }

            /* Command mode messages may be quite long
            */
            if(acc->enable_cmd_exec || enc_type == FKO_ENCRYPTION_RIJNDAEL)
            {
                res = fko_new_with_data(&ctx, (char *)spa_pkt->packet_data,
                    acc->key, acc->key_len, acc->encryption_mode, acc->hmac_key,
                    acc->hmac_key_len, acc->hmac_type);
                attempted_decrypt = 1;
                if(res == FKO_SUCCESS)
                    cmd_exec_success = 1;
            }
        }

        if(acc->use_gpg && enc_type == FKO_ENCRYPTION_GPG && cmd_exec_success == 0)
        {
            /* For GPG we create the new context without decrypting on the fly
             * so we can set some GPG parameters first.
            */
            if(acc->gpg_decrypt_pw != NULL || acc->gpg_allow_no_pw)
            {
                res = fko_new_with_data(&ctx, (char *)spa_pkt->packet_data, NULL,
                        0, FKO_ENC_MODE_ASYMMETRIC, acc->hmac_key,
                        acc->hmac_key_len, acc->hmac_type);

                if(res != FKO_SUCCESS)
                {
                    log_msg(LOG_WARNING,
                        "[%s] (stanza #%d) Error creating fko context (before decryption): %s",
                        spadat.pkt_source_ip, stanza_num, fko_errstr(res)
                    );
                    acc = acc->next;
                    continue;
                }

                /* Set whatever GPG parameters we have.
                */
                if(acc->gpg_exe != NULL)
                {
                    res = fko_set_gpg_exe(ctx, acc->gpg_exe);
                    if(res != FKO_SUCCESS)
                    {
                        log_msg(LOG_WARNING,
                            "[%s] (stanza #%d) Error setting GPG path %s: %s",
                            spadat.pkt_source_ip, stanza_num, acc->gpg_exe,
                            fko_errstr(res)
                        );
                        acc = acc->next;
                        continue;
                    }
                }

                if(acc->gpg_home_dir != NULL)
                {
                    res = fko_set_gpg_home_dir(ctx, acc->gpg_home_dir);
                    if(res != FKO_SUCCESS)
                    {
                        log_msg(LOG_WARNING,
                            "[%s] (stanza #%d) Error setting GPG keyring path to %s: %s",
                            spadat.pkt_source_ip, stanza_num, acc->gpg_home_dir,
                            fko_errstr(res)
                        );
                        acc = acc->next;
                        continue;
                    }
                }

                if(acc->gpg_decrypt_id != NULL)
                    fko_set_gpg_recipient(ctx, acc->gpg_decrypt_id);

                /* If GPG_REQUIRE_SIG is set for this acc stanza, then set
                 * the FKO context accordingly and check the other GPG Sig-
                 * related parameters. This also applies when REMOTE_ID is
                 * set.
                */
                if(acc->gpg_require_sig)
                {
                    fko_set_gpg_signature_verify(ctx, 1);

                    /* Set whether or not to ignore signature verification errors.
                    */
                    fko_set_gpg_ignore_verify_error(ctx, acc->gpg_ignore_sig_error);
                }
                else
                {
                    fko_set_gpg_signature_verify(ctx, 0);
                    fko_set_gpg_ignore_verify_error(ctx, 1);
                }

                /* Now decrypt the data.
                */
                res = fko_decrypt_spa_data(ctx, acc->gpg_decrypt_pw, 0);
                attempted_decrypt = 1;
            }
        }

        if(attempted_decrypt == 0)
        {
            log_msg(LOG_ERR,
                "(stanza #%d) No stanza encryption mode match for encryption type: %i.",
                stanza_num, enc_type);
            acc = acc->next;
            continue;
        }

        /* Do we have a valid FKO context?  Did the SPA decrypt properly?
        */
        if(res != FKO_SUCCESS)
        {
            log_msg(LOG_WARNING, "[%s] (stanza #%d) Error creating fko context: %s",
                spadat.pkt_source_ip, stanza_num, fko_errstr(res));

            if(IS_GPG_ERROR(res))
                log_msg(LOG_WARNING, "[%s] (stanza #%d) - GPG ERROR: %s",
                    spadat.pkt_source_ip, stanza_num, fko_gpg_errstr(ctx));

            acc = acc->next;
            continue;
        }

        /* Add this SPA packet into the replay detection cache
        */
        if (added_replay_digest == 0
                && strncasecmp(opts->config[CONF_ENABLE_DIGEST_PERSISTENCE], "Y", 1) == 0)
        {

            res = add_replay(opts, raw_digest);
            if (res != SPA_MSG_SUCCESS)
            {
                log_msg(LOG_WARNING, "[%s] (stanza #%d) Could not add digest to replay cache",
                    spadat.pkt_source_ip, stanza_num);
                acc = acc->next;
                continue;
            }
            added_replay_digest = 1;
        }

        /* At this point, we assume the SPA data is valid.  Now we need to see
         * if it meets our access criteria.
        */
        log_msg(LOG_DEBUG, "[%s] (stanza #%d) SPA Decode (res=%i):",
            spadat.pkt_source_ip, stanza_num, res);

        res = dump_ctx_to_buffer(ctx, dump_buf, sizeof(dump_buf));
        if (res == FKO_SUCCESS)
            log_msg(LOG_DEBUG, "%s", dump_buf);
        else
            log_msg(LOG_WARNING, "Unable to dump FKO context: %s", fko_errstr(res));

        /* First, if this is a GPG message, and GPG_REMOTE_ID list is not empty,
         * then we need to make sure this incoming message is signer ID matches
         * an entry in the list.
        */
        if(enc_type == FKO_ENCRYPTION_GPG && acc->gpg_require_sig)
        {
            res = fko_get_gpg_signature_id(ctx, &gpg_id);
            if(res != FKO_SUCCESS)
            {
                log_msg(LOG_WARNING,
                    "[%s] (stanza #%d) Error pulling the GPG signature ID from the context: %s",
                    spadat.pkt_source_ip, stanza_num, fko_gpg_errstr(ctx));
                acc = acc->next;
                continue;
            }

            log_msg(LOG_INFO, "[%s] (stanza #%d) Incoming SPA data signed by '%s'.",
                spadat.pkt_source_ip, stanza_num, gpg_id);

            if(acc->gpg_remote_id != NULL)
            {
                is_gpg_match = 0;
                for(gpg_id_ndx = acc->gpg_remote_id_list;
                        gpg_id_ndx != NULL; gpg_id_ndx=gpg_id_ndx->next)
                {
                    res = fko_gpg_signature_id_match(ctx,
                            gpg_id_ndx->str, &is_gpg_match);
                    if(res != FKO_SUCCESS)
                    {
                        log_msg(LOG_WARNING,
                            "[%s] (stanza #%d) Error in GPG siganture comparision: %s",
                            spadat.pkt_source_ip, stanza_num, fko_gpg_errstr(ctx));
                        acc = acc->next;
                        continue;
                    }
                    if(is_gpg_match)
                        break;
                }

                if(! is_gpg_match)
                {
                    log_msg(LOG_WARNING,
                        "[%s] (stanza #%d) Incoming SPA packet signed by ID: %s, but that ID is not the GPG_REMOTE_ID list.",
                        spadat.pkt_source_ip, stanza_num, gpg_id);
                    acc = acc->next;
                    continue;
                }
            }
        }

        /* Populate our spa data struct for future reference.
        */
        res = get_spa_data_fields(ctx, &spadat);

        /* Figure out what our timeout will be. If it is specified in the SPA
         * data, then use that.  If not, try the FW_ACCESS_TIMEOUT from the
         * access.conf file (if there is one).  Otherwise use the default.
        */
        if(spadat.client_timeout > 0)
            spadat.fw_access_timeout = spadat.client_timeout;
        else if(acc->fw_access_timeout > 0)
            spadat.fw_access_timeout = acc->fw_access_timeout;
        else
            spadat.fw_access_timeout = DEF_FW_ACCESS_TIMEOUT;

        if(res != FKO_SUCCESS)
        {
            log_msg(LOG_ERR, "[%s] (stanza #%d) Unexpected error pulling SPA data from the context: %s",
                spadat.pkt_source_ip, stanza_num, fko_errstr(res));

            acc = acc->next;
            continue;
        }

        /* Check packet age if so configured.
        */
        if(strncasecmp(opts->config[CONF_ENABLE_SPA_PACKET_AGING], "Y", 1) == 0)
        {
            time(&now_ts);

            ts_diff = abs(now_ts - spadat.timestamp);

            if(ts_diff > conf_pkt_age)
            {
                log_msg(LOG_WARNING, "[%s] (stanza #%d) SPA data time difference is too great (%i seconds).",
                    spadat.pkt_source_ip, stanza_num, ts_diff);

                acc = acc->next;
                continue;
            }
        }

        /* At this point, we have enough to check the embedded (or packet source)
         * IP address against the defined access rights.  We start by splitting
         * the spa msg source IP from the remainder of the message.
        */
        spa_ip_demark = strchr(spadat.spa_message, ',');
        if(spa_ip_demark == NULL)
        {
            log_msg(LOG_WARNING, "[%s] (stanza #%d) Error parsing SPA message string: %s",
                spadat.pkt_source_ip, stanza_num, fko_errstr(res));

            acc = acc->next;
            continue;
        }

        if((spa_ip_demark-spadat.spa_message) < MIN_IPV4_STR_LEN-1
                || (spa_ip_demark-spadat.spa_message) > MAX_IPV4_STR_LEN)
        {
            log_msg(LOG_WARNING, "[%s] (stanza #%d) Invalid source IP in SPA message, ignoring SPA packet",
                spadat.pkt_source_ip, stanza_num, fko_errstr(res));

            if(ctx != NULL)
            {
                if(fko_destroy(ctx) == FKO_ERROR_ZERO_OUT_DATA)
                    log_msg(LOG_WARNING,
                        "[%s] (stanza #%d) fko_destroy() could not zero out sensitive data buffer.",
                        spadat.pkt_source_ip, stanza_num, fko_errstr(res)
                    );
                ctx = NULL;
            }
            break;
        }

        strlcpy(spadat.spa_message_src_ip,
            spadat.spa_message, (spa_ip_demark-spadat.spa_message)+1);

        if(! is_valid_ipv4_addr(spadat.spa_message_src_ip))
        {
            log_msg(LOG_WARNING, "[%s] (stanza #%d) Invalid source IP in SPA message, ignoring SPA packet",
                spadat.pkt_source_ip, stanza_num, fko_errstr(res));

            if(ctx != NULL)
            {
                if(fko_destroy(ctx) == FKO_ERROR_ZERO_OUT_DATA)
                    log_msg(LOG_WARNING,
                        "[%s] (stanza #%d) fko_destroy() could not zero out sensitive data buffer.",
                        spadat.pkt_source_ip, stanza_num, fko_errstr(res)
                    );
                ctx = NULL;
            }
            break;
        }

        strlcpy(spadat.spa_message_remain, spa_ip_demark+1, MAX_DECRYPTED_SPA_LEN);

        /* If use source IP was requested (embedded IP of 0.0.0.0), make sure it
         * is allowed.
        */
        if(strcmp(spadat.spa_message_src_ip, "0.0.0.0") == 0)
        {
            if(acc->require_source_address)
            {
                log_msg(LOG_WARNING,
                    "[%s] (stanza #%d) Got 0.0.0.0 when valid source IP was required.",
                    spadat.pkt_source_ip, stanza_num
                );

                acc = acc->next;
                continue;
            }

            spadat.use_src_ip = spadat.pkt_source_ip;
        }
        else
            spadat.use_src_ip = spadat.spa_message_src_ip;

        /* If REQUIRE_USERNAME is set, make sure the username in this SPA data
         * matches.
        */
        if(acc->require_username != NULL)
        {
            if(strcmp(spadat.username, acc->require_username) != 0)
            {
                log_msg(LOG_WARNING,
                    "[%s] (stanza #%d) Username in SPA data (%s) does not match required username: %s",
                    spadat.pkt_source_ip, stanza_num, spadat.username, acc->require_username
                );

                acc = acc->next;
                continue;
            }
        }

        /* Take action based on SPA message type.
        */
        if(spadat.message_type == FKO_LOCAL_NAT_ACCESS_MSG
              || spadat.message_type == FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCESS_MSG
              || spadat.message_type == FKO_NAT_ACCESS_MSG
              || spadat.message_type == FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG)
        {
#if FIREWALL_IPTABLES
            if(strncasecmp(opts->config[CONF_ENABLE_IPT_FORWARDING], "Y", 1)!=0)
            {
                log_msg(LOG_WARNING,
                    "(stanza #%d) SPA packet from %s requested NAT access, but is not enabled",
                    stanza_num, spadat.pkt_source_ip
                );

                acc = acc->next;
                continue;
            }
#else
            log_msg(LOG_WARNING,
                "(stanza #%d) SPA packet from %s requested unsupported NAT access",
                stanza_num, spadat.pkt_source_ip
            );

            acc = acc->next;
            continue;
#endif
        }

        /* Command messages.
        */
        if(spadat.message_type == FKO_COMMAND_MSG)
        {
            if(!acc->enable_cmd_exec)
            {
                log_msg(LOG_WARNING,
                    "[%s] (stanza #%d) SPA Command message are not allowed in the current configuration.",
                    spadat.pkt_source_ip, stanza_num
                );

                acc = acc->next;
                continue;
            }
            else
            {
                log_msg(LOG_INFO,
                    "[%s] (stanza #%d) Processing SPA Command message: command='%s'.",
                    spadat.pkt_source_ip, stanza_num, spadat.spa_message_remain
                );

                /* Do we need to become another user? If so, we call
                 * run_extcmd_as and pass the cmd_exec_uid.
                */
                if(acc->cmd_exec_user != NULL && strncasecmp(acc->cmd_exec_user, "root", 4) != 0)
                {
                    log_msg(LOG_INFO, "[%s] (stanza #%d) Setting effective user to %s (UID=%i) before running command.",
                        spadat.pkt_source_ip, stanza_num, acc->cmd_exec_user, acc->cmd_exec_uid);

                    res = run_extcmd_as(acc->cmd_exec_uid,
                                        spadat.spa_message_remain, NULL, 0, 0);
                }
                else /* Just run it as we are (root that is). */
                    res = run_extcmd(spadat.spa_message_remain, NULL, 0, 5);

                /* --DSS XXX: I have found that the status (and res for that
                 *            matter) have been unreliable indicators of the
                 *            actual exit status of some commands.  Not sure
                 *            why yet.  For now, we will take what we get.
                */
                status = WEXITSTATUS(res);

                if(opts->verbose > 1)
                    log_msg(LOG_WARNING,
                        "[%s] (stanza #%d) CMD_EXEC: command returned %i",
                        spadat.pkt_source_ip, stanza_num, status);

                if(status != 0)
                    res = SPA_MSG_COMMAND_ERROR;

                if(ctx != NULL)
                {
                    if(fko_destroy(ctx) == FKO_ERROR_ZERO_OUT_DATA)
                        log_msg(LOG_WARNING,
                            "[%s] (stanza #%d) fko_destroy() could not zero out sensitive data buffer.",
                            spadat.pkt_source_ip, stanza_num, fko_errstr(res)
                        );
                    ctx = NULL;
                }

                /* we processed the command on a matching access stanza, so we
                 * don't look for anything else to do with this SPA packet
                */
                break;
            }
        }

        /* From this point forward, we have some kind of access message. So
         * we first see if access is allowed by checking access against
         * restrict_ports and open_ports.
         *
         *  --DSS TODO: We should add BLACKLIST support here as well.
        */
        if(! acc_check_port_access(acc, spadat.spa_message_remain))
        {
            log_msg(LOG_WARNING,
                "[%s] (stanza #%d) One or more requested protocol/ports was denied per access.conf.",
                spadat.pkt_source_ip, stanza_num
            );

            acc = acc->next;
            continue;
        }

        /* At this point, we process the SPA request and break out of the
         * access stanza loop (first valid access stanza stops us looking
         * for others).
        */
        process_spa_request(opts, acc, &spadat);
        if(ctx != NULL)
        {
            if(fko_destroy(ctx) == FKO_ERROR_ZERO_OUT_DATA)
                log_msg(LOG_WARNING,
                    "[%s] (stanza #%d) fko_destroy() could not zero out sensitive data buffer.",
                    spadat.pkt_source_ip, stanza_num
                );
            ctx = NULL;
        }
        break;
    }

    if (raw_digest != NULL)
        free(raw_digest);

    if(ctx != NULL)
    {
        if(fko_destroy(ctx) == FKO_ERROR_ZERO_OUT_DATA)
            log_msg(LOG_WARNING,
                "[%s] fko_destroy() could not zero out sensitive data buffer.",
                spadat.pkt_source_ip
            );
        ctx = NULL;
    }

    return;
}
コード例 #5
0
ファイル: play_controller.cpp プロジェクト: doofus-01/wesnoth
void play_controller::maybe_do_init_side()
{
    //
    // We do side init only if not done yet for a local side when we are not replaying.
    // For all other sides it is recorded in replay and replay handler has to handle
    // calling do_init_side() functions.
    //
    if (gamestate_->init_side_done() || !current_team().is_local() || gamestate().gamedata_.phase() != game_data::PLAY || is_replay() || !replay_->at_end()) {
        return;
    }

    resources::recorder->init_side();
    do_init_side();
}