Beispiel #1
0
/**
 * \brief Write buffer to log file.
 * \retval 0 on failure; otherwise, the return value of fwrite (number of
 * characters successfully written).
 */
static int SCLogFileWrite(const char *buffer, int buffer_len, LogFileCtx *log_ctx)
{
    /* Check for rotation. */
    if (log_ctx->rotation_flag) {
        log_ctx->rotation_flag = 0;
        SCConfLogReopen(log_ctx);
    }

    int ret = 0;

    if (log_ctx->fp == NULL && log_ctx->is_sock)
        SCLogUnixSocketReconnect(log_ctx);

    if (log_ctx->fp) {
        clearerr(log_ctx->fp);
        ret = fwrite(buffer, buffer_len, 1, log_ctx->fp);
        fflush(log_ctx->fp);

        if (ferror(log_ctx->fp) && log_ctx->is_sock) {
            /* Error on Unix socket, maybe needs reconnect */
            if (SCLogUnixSocketReconnect(log_ctx)) {
                ret = fwrite(buffer, buffer_len, 1, log_ctx->fp);
                fflush(log_ctx->fp);
            }
        }
    }

    return ret;
}
Beispiel #2
0
/**
 * \brief Write buffer to log file.
 * \retval 0 on failure; otherwise, the return value of fwrite (number of
 * characters successfully written).
 */
static int SCLogFileWrite(const char *buffer, int buffer_len, LogFileCtx *log_ctx)
{
    SCMutexLock(&log_ctx->fp_mutex);
    int ret = 0;

#ifdef BUILD_WITH_UNIXSOCKET
    if (log_ctx->is_sock) {
        ret = SCLogFileWriteSocket(buffer, buffer_len, log_ctx);
    } else
#endif
    {

        /* Check for rotation. */
        if (log_ctx->rotation_flag) {
            log_ctx->rotation_flag = 0;
            SCConfLogReopen(log_ctx);
        }

        if (log_ctx->flags & LOGFILE_ROTATE_INTERVAL) {
            time_t now = time(NULL);
            if (now >= log_ctx->rotate_time) {
                SCConfLogReopen(log_ctx);
                log_ctx->rotate_time = now + log_ctx->rotate_interval;
            }
        }

        if (log_ctx->fp) {
            clearerr(log_ctx->fp);
            ret = fwrite(buffer, buffer_len, 1, log_ctx->fp);
            fflush(log_ctx->fp);
        }
    }

    SCMutexUnlock(&log_ctx->fp_mutex);

    return ret;
}
Beispiel #3
0
/**
 *  \internal
 *  \brief Write meta data on a single line json record
 */
static void LogFileWriteJsonRecord(LogFileLogThread *aft, const Packet *p, const File *ff, int ipver)
{
    SCMutexLock(&aft->file_ctx->fp_mutex);

    /* As writes are done via the LogFileCtx, check for rotation here. */
    if (aft->file_ctx->rotation_flag) {
        aft->file_ctx->rotation_flag = 0;
        if (SCConfLogReopen(aft->file_ctx) != 0) {
            SCLogWarning(SC_ERR_FOPEN, "Failed to re-open log file. "
                "Logging for this module will be disabled.");
        }
    }

    /* Bail early if no file pointer to write to (in the unlikely
     * event file rotation failed. */
    if (aft->file_ctx->fp == NULL) {
        SCMutexUnlock(&aft->file_ctx->fp_mutex);
        return;
    }

    FILE *fp = aft->file_ctx->fp;
    char timebuf[64];
    AppProto alproto = FlowGetAppProtocol(p->flow);

    CreateTimeString(&p->ts, timebuf, sizeof(timebuf));

    fprintf(fp, "{ ");

    if (ff->file_id > 0)
        fprintf(fp, "\"id\": %u, ", ff->file_id);

    fprintf(fp, "\"timestamp\": \"");
    PrintRawJsonFp(fp, (uint8_t *)timebuf, strlen(timebuf));
    fprintf(fp, "\", ");
    if (p->pcap_cnt > 0) {
        fprintf(fp, "\"pcap_pkt_num\": %"PRIu64", ", p->pcap_cnt);
    }

    fprintf(fp, "\"ipver\": %d, ", ipver == AF_INET ? 4 : 6);

    char srcip[46], dstip[46];
    Port sp, dp;
    switch (ipver) {
        case AF_INET:
            PrintInet(AF_INET, (const void *)GET_IPV4_SRC_ADDR_PTR(p), srcip, sizeof(srcip));
            PrintInet(AF_INET, (const void *)GET_IPV4_DST_ADDR_PTR(p), dstip, sizeof(dstip));
            break;
        case AF_INET6:
            PrintInet(AF_INET6, (const void *)GET_IPV6_SRC_ADDR(p), srcip, sizeof(srcip));
            PrintInet(AF_INET6, (const void *)GET_IPV6_DST_ADDR(p), dstip, sizeof(dstip));
            break;
        default:
            strlcpy(srcip, "<unknown>", sizeof(srcip));
            strlcpy(dstip, "<unknown>", sizeof(dstip));
            break;
    }
    sp = p->sp;
    dp = p->dp;

    fprintf(fp, "\"srcip\": \"%s\", ", srcip);
    fprintf(fp, "\"dstip\": \"%s\", ", dstip);
    fprintf(fp, "\"protocol\": %" PRIu32 ", ", p->proto);
    if (PKT_IS_TCP(p) || PKT_IS_UDP(p)) {
        fprintf(fp, "\"sp\": %" PRIu16 ", ", sp);
        fprintf(fp, "\"dp\": %" PRIu16 ", ", dp);
    }

    if (alproto == ALPROTO_HTTP) {
        fprintf(fp, "\"http_uri\": \"");
        LogFileMetaGetUri(fp, p, ff);
        fprintf(fp, "\", ");

        fprintf(fp, "\"http_host\": \"");
        LogFileMetaGetHost(fp, p, ff);
        fprintf(fp, "\", ");

        fprintf(fp, "\"http_referer\": \"");
        LogFileMetaGetReferer(fp, p, ff);
        fprintf(fp, "\", ");

        fprintf(fp, "\"http_user_agent\": \"");
        LogFileMetaGetUserAgent(fp, p, ff);
        fprintf(fp, "\", ");
    } else if (p->flow->alproto == ALPROTO_SMTP) {
        /* Only applicable to SMTP */
        LogFileMetaGetSmtp(fp, p, ff);
    }

    fprintf(fp, "\"filename\": \"");
    PrintRawJsonFp(fp, ff->name, ff->name_len);
    fprintf(fp, "\", ");
#ifdef HAVE_MAGIC
    fprintf(fp, "\"magic\": \"");
    if (ff->magic) {
        PrintRawJsonFp(fp, (uint8_t *)ff->magic, strlen(ff->magic));
    } else {
        fprintf(fp, "unknown");
    }
    fprintf(fp, "\", ");
#endif
    switch (ff->state) {
        case FILE_STATE_CLOSED:
            fprintf(fp, "\"state\": \"CLOSED\", ");
#ifdef HAVE_NSS
            if (ff->flags & FILE_MD5) {
                fprintf(fp, "\"md5\": \"");
                size_t x;
                for (x = 0; x < sizeof(ff->md5); x++) {
                    fprintf(fp, "%02x", ff->md5[x]);
                }
                fprintf(fp, "\", ");
            }
            if (ff->flags & FILE_SHA1) {
                fprintf(fp, "\"sha1\": \"");
                size_t x;
                for (x = 0; x < sizeof(ff->sha1); x++) {
                    fprintf(fp, "%02x", ff->sha1[x]);
                }
                fprintf(fp, "\", ");
            }
            if (ff->flags & FILE_SHA256) {
                fprintf(fp, "\"sha256\": \"");
                size_t x;
                for (x = 0; x < sizeof(ff->sha256); x++) {
                    fprintf(fp, "%02x", ff->sha256[x]);
                }
                fprintf(fp, "\", ");
            }
#endif
            break;
        case FILE_STATE_TRUNCATED:
            fprintf(fp, "\"state\": \"TRUNCATED\", ");
            break;
        case FILE_STATE_ERROR:
            fprintf(fp, "\"state\": \"ERROR\", ");
            break;
        default:
            fprintf(fp, "\"state\": \"UNKNOWN\", ");
            break;
    }
    fprintf(fp, "\"stored\": %s, ", ff->flags & FILE_STORED ? "true" : "false");
    fprintf(fp, "\"size\": %"PRIu64" ", FileSize(ff));
    fprintf(fp, "}\n");
    fflush(fp);
    SCMutexUnlock(&aft->file_ctx->fp_mutex);
}
Beispiel #4
0
/**
 * \brief   Log the dropped packets in netfilter format when engine is running
 *          in inline mode
 *
 * \param tv    Pointer the current thread variables
 * \param p     Pointer the packet which is being logged
 * \param data  Pointer to the droplog struct
 *
 * \return return TM_EODE_OK on success
 */
static int LogDropLogNetFilter (ThreadVars *tv, const Packet *p, void *data)
{
    LogDropLogThread *dlt = (LogDropLogThread *)data;
    uint16_t proto = 0;
    char timebuf[64];

    CreateTimeString(&p->ts, timebuf, sizeof(timebuf));

    SCMutexLock(&dlt->file_ctx->fp_mutex);

    if (dlt->file_ctx->rotation_flag) {
        dlt->file_ctx->rotation_flag  = 0;
        if (SCConfLogReopen(dlt->file_ctx) != 0) {
            /* Rotation failed, error already logged. */
            SCMutexUnlock(&dlt->file_ctx->fp_mutex);
            return TM_ECODE_FAILED;
        }
    }

    char srcip[46] = "";
    char dstip[46] = "";

    if (PKT_IS_IPV4(p)) {
        PrintInet(AF_INET, (const void *)GET_IPV4_SRC_ADDR_PTR(p), srcip, 16);
        PrintInet(AF_INET, (const void *)GET_IPV4_DST_ADDR_PTR(p), dstip, 16);
        fprintf(dlt->file_ctx->fp, "%s: IN= OUT= SRC=%s DST=%s LEN=%"PRIu16" "
                "TOS=0x%02"PRIu8" TTL=%"PRIu8" ID=%"PRIu16"", timebuf,
                srcip, dstip, IPV4_GET_IPLEN(p), IPV4_GET_IPTOS(p),
                IPV4_GET_IPTTL(p), IPV4_GET_IPID(p));
        proto = IPV4_GET_IPPROTO(p);
    } else if (PKT_IS_IPV6(p)) {
        PrintInet(AF_INET6, (const void *)GET_IPV6_SRC_ADDR(p), srcip, sizeof(srcip));
        PrintInet(AF_INET6, (const void *)GET_IPV6_DST_ADDR(p), dstip, sizeof(dstip));
        fprintf(dlt->file_ctx->fp, "%s: IN= OUT= SRC=%s DST=%s LEN=%"PRIu16""
                " TC=%"PRIu32" HOPLIMIT=%"PRIu8" FLOWLBL=%"PRIu32"", timebuf,
                srcip, dstip, IPV6_GET_PLEN(p), IPV6_GET_CLASS(p),
                IPV6_GET_HLIM(p), IPV6_GET_FLOW(p));
        proto = IPV6_GET_L4PROTO(p);
    }

    if (SCProtoNameValid(proto) == TRUE) {
        fprintf(dlt->file_ctx->fp, " PROTO=%s",known_proto[proto]);
    } else {
        fprintf(dlt->file_ctx->fp, " PROTO=%03"PRIu16"",proto);
    }

    switch (proto) {
        case IPPROTO_TCP:
            if (PKT_IS_TCP(p)) {
                fprintf(dlt->file_ctx->fp, " SPT=%"PRIu16" DPT=%"PRIu16" "
                        "SEQ=%"PRIu32" ACK=%"PRIu32" WINDOW=%"PRIu32"",
                        GET_TCP_SRC_PORT(p), GET_TCP_DST_PORT(p), TCP_GET_SEQ(p),
                        TCP_GET_ACK(p), TCP_GET_WINDOW(p));
                fprintf(dlt->file_ctx->fp, TCP_ISSET_FLAG_SYN(p) ? " SYN" : "");
                fprintf(dlt->file_ctx->fp, TCP_ISSET_FLAG_ACK(p) ? " ACK" : "");
                fprintf(dlt->file_ctx->fp, TCP_ISSET_FLAG_PUSH(p) ? " PSH" : "");
                fprintf(dlt->file_ctx->fp, TCP_ISSET_FLAG_RST(p) ? " RST" : "");
                fprintf(dlt->file_ctx->fp, TCP_ISSET_FLAG_URG(p) ? " URG" : "");
                fprintf(dlt->file_ctx->fp, TCP_ISSET_FLAG_FIN(p) ? " FIN" : "");
                fprintf(dlt->file_ctx->fp, " RES=0x%02"PRIu8" URGP=%"PRIu16"",
                        TCP_GET_RAW_X2(p->tcph), TCP_GET_URG_POINTER(p));
            }
            break;
        case IPPROTO_UDP:
            if (PKT_IS_UDP(p)) {
                fprintf(dlt->file_ctx->fp, " SPT=%"PRIu16" DPT=%"PRIu16""
                        " LEN=%"PRIu16"", UDP_GET_SRC_PORT(p),
                        UDP_GET_DST_PORT(p), UDP_GET_LEN(p));
            }
            break;
        case IPPROTO_ICMP:
            if (PKT_IS_ICMPV4(p)) {
                fprintf(dlt->file_ctx->fp, " TYPE=%"PRIu8" CODE=%"PRIu8""
                        " ID=%"PRIu16" SEQ=%"PRIu16"", ICMPV4_GET_TYPE(p),
                        ICMPV4_GET_CODE(p), ICMPV4_GET_ID(p), ICMPV4_GET_SEQ(p));
            } else if (PKT_IS_ICMPV6(p)) {
                fprintf(dlt->file_ctx->fp, " TYPE=%"PRIu8" CODE=%"PRIu8""
                        " ID=%"PRIu16" SEQ=%"PRIu16"", ICMPV6_GET_TYPE(p),
                        ICMPV6_GET_CODE(p), ICMPV6_GET_ID(p), ICMPV6_GET_SEQ(p));
            }
            break;
        default:
            fprintf(dlt->file_ctx->fp," Unknown protocol");
    }

    fprintf(dlt->file_ctx->fp,"\n");

    fflush(dlt->file_ctx->fp);

    dlt->drop_cnt++;
    SCMutexUnlock(&dlt->file_ctx->fp_mutex);

    return TM_ECODE_OK;

}