Use this documentation with care! It describes
the heavily outdated version 5, which was actively
developed around 2010 and is considered dead by the
rsyslog team for many years now.
This documentation reflects the latest update of the
previously existing (now removed) v5-stable branch.
It describes the 5.10.2 version, which was never
released. As such, it contains some content that
does not apply to any released version.
To obtain the doc that properly matches your installed
v5 version, obtain the doc set from your distro. Each
version of rsyslog contained the version that exactly
matches it.
As general advise, it is strongly suggested to
upgrade to the current version supported by the rsyslog
project. The current version can always be found on
the right-hand side info box on the
rsyslog web site.
Note that there is no rsyslog community support available
for this heavily outdated version. If you need to stick
with it, please ask your distribution for support.
Generic design of a syslogd
Written 2007-04-10 by Rainer
Gerhards
The text below describes a generic approach on how a syslogd can be
implemented. I created this description for some other project, where it
was not used. Instead of throwing it away, I thought it would be a good
addition to the rsyslog documentation. While rsyslog differs in details
from the description below, it is sufficiently close to it. Further
development of rsyslog will probably match it even closer to the
description.
If you intend to read the rsyslog source code, I recommend reading this
document here first. You will not find the same names and not all of the
concepts inside rsyslog. However, I think your understanding will
benefit from knowing the generic architecture.
+-----------------+
| "remote" PLOrig |
+-----------------+
|
I +--------+-----+-----+ +-----+-------+------+-----+
P | PLOrig | GWI | ... | | GWO | Store | Disc | ... |
C +--------+-----+-----+ +-----+-------+------+-----+
| | ^
v v |
+--------------+ +------------+ +--------------+
| PLGenerator | | RelayEng | | CollectorEng |
+--------------+ +------------+ +--------------+
| ^ ^
| | |
v v |
+-------------+ +------------+ +--------------+
| PLG Ext | | RelEng Ext | | CollcEng Ext |
+-------------+ +------------+ +--------------+
| ^ ^
| | |
v v |
+--------------------------------------------------------------+
| Message Router |
+--------------------------------------------------------------+
| ^
v |
+--------------------------------------------------------------+
| Message CoDec (e.g. RFC 3164, RFCYYYY) |
+--------------------------------------------------------------+
| ^
v |
+---------------------+-----------------------+----------------+
| transport UDP | transport TLS | ... |
+---------------------+-----------------------+----------------+
Generic Syslog Application Architecture
- A “syslog application” is an application whose purpose is the
processing of syslog messages. It may be part of a larger application
with a broader purpose. An example: a database application might come
with its own syslog send subsystem and not go through a central
syslog application. In the sense of this document, that application
is called a “syslog application” even though a casual observer might
correctly call it a database application and may not even know that
it supports sending of syslog messages.
- Payload is the information that is to be conveyed. Payload by itself
may have any format and is totally independent from to format
specified in this document. The “Message CoDec” of the syslog
application will bring it into the required format.
- Payload Originators (“PLOrig”) are the original creators of payload.
Typically, these are application programs.
- A “Remote PLOrig” is a payload originator residing in a different
application than the syslog application itself. That application may
reside on a different machine and may talk to the syslog application
via RPC.
- A “PLOrig” is a payload originator residing within the syslog
application itself. Typically, this PLOrig emits syslog application
startup, shutdown, error and status log messages.
- A “GWI” is a inbound gateway. For example, a SNMP-to-syslog gateway
may receive SNMP messages and translate them into syslog.
- The ellipsis after “GWI” indicates that there are potentially a
variety of different other ways to originally generate payload.
- A “PLGenerator” is a payload generator. It takes the information from
the payload-generating source and integrates it into the syslog
subsystem of the application. This is a highly theoretical concept.
In practice, there may not actually be any such component. Instead,
the payload generators (or other parts like the GWI) may talk
directly to the syslog subsystem. Conceptually, the “PLGenerator” is
the first component where the information is actually syslog content.
- A “PLG Ext” is a payload generator extension. It is used to modify
the syslog information. An example of a “PLG Ext” might be the
addition of cryptographic signatures to the syslog information.
- A “Message Router” is a component that accepts in- and outbound
syslog information and routes it to the proper next destination
inside the syslog application. The routing information itself is
expected to be learnt by operator configuration.
- A “Message CoDec” is the message encoder/decoder. The encoder takes
syslog information and encodes them into the required format
for a syslog message. The decoder takes a syslog message and decodes
it into syslog information. Codecs for multiple syslog formats may be
present inside a single syslog application.
- A transport (UDP, TLS, yet-to-be-defined ones) sends and receives
syslog messages. Multiple transports may be used by a single
syslog application at the same time. A single transport instance may
be used for both sending and receiving. Alternatively, a single
instance might be used for sending and receiving exclusively.
Multiple instances may be used for different listener ports and
receivers.
- A “RelayEng” is the relaying engine. It provides functionality
necessary for receiving syslog information and sending it to another
syslog application.
- A “RelEng Ext” is an extension that processes syslog information as
it enters or exits a RelayEng. An example of such a component might
be a relay cryptographically signing received syslog messages. Such a
function might be useful to guarantee authenticity starting from a
given point inside a relay chain.
- A “CollectorEng” is a collector engine. At this component, syslog
information leaves the syslog system and is translated into some
other form. After the CollectorEng, the information is no longer
defined to be of native syslog type.
- A “CollcEng Ext” is a collector engine extension. It modifies syslog
information before it is passed on to the CollectorEng. An example
for this might be the verification of cryptographically signed syslog
message information. Please note that another implementation approach
would be to do the verification outside of the syslog application or
in a stage after “CollectorEng”.
- A “GWO” is an outbound gateway. An example of this might be the
forwarding of syslog information via SNMP or SMTP. Please note that
when a GWO directly connects to a GWI on a different syslog
application, no native exchange of syslog information takes place.
Instead, the native protocol of these gateways (e.g. SNMP) is used.
The syslog information is embedded inside that protocol. Depending on
protocol and gateway implementation, some of the native syslog
information might be lost.
- A “Store” is any way to persistently store the extracted syslog
information, e.g. to the file system or to a data base.
- “Disc” means the discarding of messages. Operators often find it
useful to discard noise messages and so most syslog applications
contain a way to do that.
- The ellipsis after “Disc” indicates that there are potentially a
variety of different other ways to consume syslog information.
- There may be multiple instances of each of the described components
in a single syslog application.
- A syslog application is made up of all or some of the above mentioned
components.