For details on how flow-control works, see Managing incoming and outgoing messages with flow-control. The summary of the main points is as follows:
The syslog-ng application normally reads a maximum of log-fetch-limit() number of messages from a source.
From TCP and unix-stream sources, syslog-ng reads a maximum of log-fetch-limit() from every connection of the source. The number of connections to the source is set using the max-connections() parameter.
Every destination has an output buffer (log-fifo-size()).
Flow-control uses a control window to determine if there is free space in the output buffer for new messages. Every source has its own control window, the log-iw-size() parameter sets the size of the control window.
When a source accepts multiple connections, the size of the control window is divided by the value of the max-connections() parameter and this smaller control window is applied to each connection of the source.
The output buffer must be larger than the control window of every source that logs to the destination.
If the control window is full, syslog-ng stops reading messages from the source until some messages are successfully sent to the destination.
If the output buffer becomes full, and
|
Caution:
If you modify the max-connections() or the log-fetch-limit() parameter, do not forget to adjust the log-iw-size() and log-fifo-size() parameters accordingly. |
Suppose that syslog-ng has a source that must accept up to 300 parallel connections. Such situation can arise when a network source receives connections from many clients, or if many applications log to the same socket. Therefore, set the max-connections() parameter of the source to 300. However, the log-fetch-limit() (default value: 10) parameter applies to every connection of the source individually, while the log-iw-size() (default value: 1000) parameter applies to the source. In a worst-case scenario, the destination does not accept any messages, while all 300 connections send at least log-fetch-limit() number of messages to the source during every poll loop. Therefore, the control window must accommodate at least max-connections()*log-fetch-limit() messages to be able to read every incoming message of a poll loop. In the current example this means that (log-iw-size() should be greater than 300*10=3000. If the control window is smaller than this value, the control window might fill up with messages from the first connections — causing syslog-ng to read only one message of the last connections in every poll loop.
The output buffer of the destination must accommodate at least log-iw-size() messages, but use a greater value: in the current example 3000*10=30000 messages. That way all incoming messages of ten poll loops fit in the output buffer. If the output buffer is full, syslog-ng does not read any messages from the source until some messages are successfully sent to the destination.
source s_localhost { network( ip(127.0.0.1) port(1999) max-connections(300) ); }; destination d_tcp { network("10.1.2.3" port(1999) localport(999) log-fifo-size(30000) ); }; log { source(s_localhost); destination(d_tcp); flags(flow-control); };
If other sources send messages to this destination, then the output buffer must be further increased. For example, if a network host with maximum 100 connections also logs into the destination, then increase the log-fifo-size() by 10000.
source s_localhost { network( ip(127.0.0.1) port(1999) max-connections(300) ); }; source s_tcp { network( ip(192.168.1.5) port(1999) max-connections(100) ); }; destination d_tcp { network("10.1.2.3" port(1999) localport(999) log-fifo-size(40000) ); }; log { source(s_localhost); destination(d_tcp); flags(flow-control); };
The syslog-ng Open Source Edition application can store messages on the local hard disk if the destination (for example, the central log server) or the network connection to the destination becomes unavailable. The syslog-ng OSE application automatically sends the stored messages to the destination when the connection is reestablished. The disk buffer is used as a queue: when the connection to the destination is reestablished, syslog-ng OSE sends the messages to the destination in the order they were received.
|
NOTE:
Disk-based buffering can be used in conjunction with flow-control. For details on flow-control, see Managing incoming and outgoing messages with flow-control. |
Every such destination uses a separate disk buffer (similarly to the output buffers controlled by log-fifo-size()). The hard disk space is not pre-allocated, so ensure that there is always enough free space to store the disk buffers even when the disk buffers are full.
If syslog-ng OSE is restarted (using the /etc/init.d/syslog-ng restart command, or another appropriate command on your platform), it automatically saves any unsent messages from the disk buffer and the output queue. After the restart, syslog-ng OSE sends the saved messages to the destination. In other words, the disk buffer is persistent. The disk buffer is also resistant to syslog-ng OSE crashes.
The syslog-ng OSE application supports two types of disk buffering: reliable and normal. For details, see Enabling reliable disk-based buffering and Enabling normal disk-based buffering, respectively.
When you use disk-based buffering, and the reliable() option is set to no, syslog-ng OSE handles outgoing messages the following way:
Figure 16: Handling outgoing messages in syslog-ng OSE
Output queue: Messages from the output queue are sent to the destination (for example, your central log server). The syslog-ng OSE application puts the outgoing messages directly into the output queue, unless the output queue is full. By default, the output queue can hold 64 messages (you can adjust it using the quot-size() option).
Disk buffer: If the output queue is full, disk-buffering is enabled, and reliable() is set to no, syslog-ng OSE puts the outgoing messages into the disk buffer of the destination. (The disk buffer is enabled if the disk-buffer() option is configured.)
Overflow queue: If the output queue is full and the disk buffer is disabled or full, syslog-ng OSE puts the outgoing messages into the overflow queue of the destination. (The overflow queue is identical to the output buffer used by other destinations.) The log-fifo-size() parameter specifies the number of messages stored in the overflow queue. For details on sizing the log-fifo-size() parameter, see also Managing incoming and outgoing messages with flow-control.
|
NOTE:
Using disk buffer can significantly decrease performance. |
When you use disk-based buffering, and the reliable() option is set to yes, syslog-ng OSE handles outgoing messages the following way.
The mem-buf-size() option determines when flow-control is triggered. All messages arriving to the log path that includes the destination using the disk-buffer are written into the disk-buffer, until the size of the disk-buffer reaches (disk-buf-size() minus mem-buf-size()). Above that size, messages are written into both the disk-buffer and the memory-buffer, indicating that flow-control needs to slow down the message source. These messages are not taken out from the control window (governed by log-iw-size()), causing the control window to fill up. If the control window is full, the flow-control completely stops reading incoming messages from the source. (As a result, mem-buf-size() must be at least as large as log-iw-size().)
To enable reliable disk-based buffering, use the disk-buffer(reliable(yes)) parameter in the destination. Use reliable disk-based buffering if you do not want to lose logs in case of reload/restart, unreachable destination or syslog-ng OSE crash. This solution provides a slower, but reliable disk-buffer option. It is created and initialized at startup and gradually grows as new messages arrive. The filename of the reliable disk buffer file is the following: <syslog-ng path>/var/syslog-ng-00000.rqf.
destination d_BSD { network("127.0.0.1" port(3333) disk-buffer( mem-buf-size(10000) disk-buf-size(2000000) reliable(yes) ) ); };
For details on the differences between normal and reliable disk-based buffering, see also About disk queue files.
To enable normal disk-based buffering, use the disk-buffer(reliable(no)) parameter in the destination. Use normal disk-based buffering if you want a solution that is faster than the reliable disk-based buffering. In this case, disk buffering will be less reliable and it is possible to lose logs in case of syslog-ng OSE crash. The filename of the normal disk buffer file is the following: <syslog-ng path>/var/syslog-ng-00000.qf.
When using the disk-buffer plugin:
destination d_BSD { network("127.0.0.1" port(3333) disk-buffer( mem-buf-length(10000) disk-buf-size(2000000) reliable(no) ) ); };
For details on the differences between normal and reliable disk-based buffering, see also About disk queue files.
© 2024 One Identity LLC. ALL RIGHTS RESERVED. Nutzungsbedingungen Datenschutz Cookie Preference Center