Posts Tagged ‘Modify’

IPFilter firewall basics use for Adding / Removing and Cloning firewall rules

Thursday, June 1st, 2023

ipfilter-bsd-solaris-unix-firewall-short-review-ofLinux_firewalls-BSD_Firewall_logo

Linux users have most definitely used Netfilter (the older from us might remember and have used ipchains) and rest
should know well or at least partially tried iptables or if you have digged into Linux firewalls more professionally, might have tried nftables
and the newer firewalld (firewall-cmd) that is the standard nowadays in CentOS / Fedora and RHEL (again an abstraction over iptables.).
On Debian firewall is organized around custom shell scripts that deal with iptables chains, or if on Ubuntu perhaps you have tried UFW (The Uncomplicated Firewall)
frontend program for managing firewalls again with iptables. For the lazy ones UFW even has another GUI frontend called Gufw (intended to be easy, intuitive,
graphical user interface for managing Uncomlicated firewall.

Different Linux distributions do use a different set of firewall mechanisms preconfigure but there are other firewall solutions on other Unixes such as ipfilter.
That historically were heavily used that is worthy mentioning and if you happen to pop-up working as a network guy inside some large corporations you might face it.

IPFilter (commonly referred to as ipf) is an open-source software package that provides firewall services and network address translation (NAT) for many Unix-like operating systems.
The author and software maintainer is Darren Reed. IPFilter supports both IPv4 and IPv6 protocols, and is a stateful firewall.
IPFilter is delivered with FreeBSD, NetBSD, Solaris 10 & 11, illumos, OpenIndiana and HP-UX.
It used to be a part of OpenBSD, but it was removed by Theo de Raadt in May 2001 due to problems with its license.
It was subsequently replaced in OpenBSD by PF, which was developed by OpenBSD's own developers.
DragonFly BSD removed its support for IPFilter in May 2011.

IPFilter can be installed as a runtime-loadable kernel module or directly incorporated into the operating system kernel, depending on the specifics of each kernel and user preferences.
The software's documentation recommends the module approach, if possible.

Here are some commands for displaying, changing and distributing IP filters with ipfilter.
It will be mostly useful, if you happen to have some obsolete OS infrastructure or OpenBSD.

The commands given below are to add / remove and activate rules on machine with ipfilter:

# ipfilter –clone
# ipfilter –save
# ipfilter –activate
# ipfilter -addrule
# ipfilter -delrule
# help ipfilter

1. Check ipfilter current config

# ipfilter –show
Name: default_ipv4, Type: ipv4, State: active
Rule    Source IP                               Protocol   Dest Port   Action
1     any                                            tcp       22     permit
2     any                                            tcp       23     permit
3     any                                            tcp       80     permit
4     any                                            tcp      443     permit
5     any                                            udp      161     permit
6     any                                            udp      123     permit
7     any                                            tcp      600 – 1023     permit
8     any                                            udp      600 – 1023     permit
Name: default_ipv6, Type: ipv6, State: active
Rule    Source IP                               Protocol   Dest Port   Action
1     any                                            tcp       22     permit
2     any                                            tcp       23     permit
3     any                                            tcp       80     permit
4     any                                            tcp      443     permit
5     any                                            udp      161     permit
6     any                                            udp      123     permit
7     any                                            tcp      600 – 1023     permit
8     any                                            udp      600 – 1023     permit
Name: default_ipv4_new, Type: ipv4, State: defined
Rule    Source IP                               Protocol   Dest Port   Action
1     any                                            tcp       22     permit
2     any                                            tcp       23     permit
3     any                                            tcp       80     permit
4     any                                            tcp      443     permit
5     any                                            udp      161     permit
6     any                                            udp      123     permit
7     any                                            tcp      600 – 1023     permit
8     any                                            udp      600 – 1023     permit

2. Clone and activate ipfilter configuration

# ipfilter –clone default_ipv4_new -from default_ipv4
# ipfilter –activate default_ipv4_new
# ipfilter –show
Name: default_ipv4, Type: ipv4, State: defined
Rule    Source IP                               Protocol   Dest Port   Action
1     any                                            tcp       22     permit
2     any                                            tcp       23     permit
3     any                                            tcp       80     permit
4     any                                            tcp      443     permit
5     any                                            udp      161     permit
6     any                                            udp      123     permit
7     any                                            tcp      600 – 1023     permit
8     any                                            udp      600 – 1023     permit
Name: default_ipv6, Type: ipv6, State: active
Rule    Source IP                               Protocol   Dest Port   Action
1     any                                            tcp       22     permit
2     any                                            tcp       23     permit
3     any                                            tcp       80     permit
4     any                                            tcp      443     permit
5     any                                            udp      161     permit
6     any                                            udp      123     permit
7     any                                            tcp      600 – 1023     permit
8     any                                            udp      600 – 1023     permit
Name: default_ipv4_neu, Type: ipv4, State: active
Rule    Source IP                               Protocol   Dest Port   Action
1     any                                            tcp       22     permit
2     any                                            tcp       23     permit
3     any                                            tcp       80     permit
4     any                                            tcp      443     permit
5     any                                            udp      161     permit
6     any                                            udp      123     permit
7     any                                            tcp      600 – 1023     permit
8     any                                            udp      600 – 1023     permit

3. Modify cloned configuration

Lets say we would like to delete the telnet port accept traffic rule  (port 23)

# ipfilter –delrule default_ipv4_new -rule 2

To permit the rule agian

# ipfilter –addrule default_ipv4_new -rule 2 -sip any -dp 23 -proto tcp -act permit

To save the rule

# ipfilter –save default_ipv4_new                          

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Posted in Everyday Life, Firewall, Linux, System Optimization | 1 Comment »

How to log multiple haproxy / apache / mysql instance via haproxy log-tagging / Segregating log management for multiple HAProxy instances using rsyslog

Tuesday, May 23rd, 2023

rsyslog-logo-picture-use-programname-and-haproxy-log-tag-directives-together-to-log-as-many-process-streams-as-you-like

 

Introduction

This article provides a guide on refining haproxy  logging mechanism by leveraging the `programname` property in rsyslog, coupled with the `log-tag` directive in haproxy.
This approach will create a granular logging setup, separating logs according to their originating services and specific custom tags, enhancing overall log readability.

Though the article is written concretely for logging multiple log streams from haproxy this can be successfully applied
for any other Linux service to log as many concrete log-tagged data streams as you prefer.

Scope

The guide focuses on tailoring the logging mechanisms for two haproxy  instances named `haproxy` and `haproxyssl`, utilizing the `programname` property in rsyslog and the `log-tag` directive in haproxy for precise log management.

The haproxy and haproxyssl instances are two separate systemd config file prepared instances.
haproxy instance is simple haproxy proxying tcp traffic in non-encrypted form, whether haproxyssl is a special instance
prepared to tunnel the incoming http traffic in ssl form. Both instances of haproxy runs as a separate processes on the server.

Here is the systemd configuration of haproxy systemd service file:

# cat /usr/lib/systemd/system/haproxy.service
[Unit]
Description=HAProxy Load Balancer
After=network-online.target
Wants=network-online.target

[Service]
Environment="CONFIG=/etc/haproxy/haproxy.cfg" "PIDFILE=/run/haproxy.pid"
EnvironmentFile=/etc/sysconfig/haproxy
ExecStartPre=/usr/sbin/haproxy -f $CONFIG -c -q $OPTIONS
ExecStart=/usr/sbin/haproxy -Ws -f $CONFIG -p $PIDFILE $OPTIONS
ExecReload=/usr/sbin/haproxy -f $CONFIG -c -q $OPTIONS
ExecReload=/bin/kill -USR2 $MAINPID
SuccessExitStatus=143
KillMode=mixed
Type=notify

[Install]
WantedBy=multi-user.target


As well as the systemd service configuration for haproxyssl:
 

# cat /usr/lib/systemd/system/haproxyssl.service
[Unit]
Description=HAProxy Load Balancer
After=network-online.target
Wants=network-online.target

[Service]
Environment="CONFIG=/etc/haproxy/haproxy_ssl_prod.cfg" "PIDFILE=/run/haproxy_ssl_prod.pid"
EnvironmentFile=/etc/sysconfig/haproxy
ExecStartPre=/usr/sbin/haproxyssl -f $CONFIG -c -q $OPTIONS
ExecStart=/usr/sbin/haproxyssl -Ws -f $CONFIG -p $PIDFILE $OPTIONS
ExecReload=/usr/sbin/haproxyssl -f $CONFIG -c -q $OPTIONS
ExecReload=/bin/kill -USR2 $MAINPID
SuccessExitStatus=143
KillMode=mixed
Type=notify

[Install]
WantedBy=multi-user.target

 

Step 1: Configuring HAProxy instances with `log-tag`
 

To distinguish between logs from two HAProxy instances, `log-tag` directive is used to add tags to logs. This tag is used to filter these logs in rsyslog.
Modify the HAProxy configuration file in `/etc/haproxy/haproxy.*.cfg`

HAProxy Instance 1 (haproxy)
 

#———————————————————————
# Global settings
#———————————————————————
global
      log          127.0.0.1 local6 debug
      log-tag      haproxy

HAProxy Instance 2 (haproxyssl)


#———————————————————————
# Global settings
#———————————————————————
global
    log          127.0.0.1 local5 debug
    log-tag      haproxyssl

 

Step 2: Implementing rsyslog configuration for haproxy logs
 

Next, create a new rsyslog configuration file, stored in /etc/rsyslog.d/. Ensure the new configuration file ends in `.conf`

HAProxy Instance 1 (haproxy)

Now add rsyslog rules to filters logs based on the `programname` and the custom log tag:
 

# vi /etc/rsyslog.d/55_haproxy.conf
if $programname == 'haproxy' then /var/log/haproxy.log
&stop

HAProxy Instance 2 (haproxyssl)
# vi /etc/rsyslog.d/51_haproxy_ssl.conf
if $programname == 'haproxy_ssl' then /var/log/haproxy_ssl.log
&stop


These rules filter logs that originate from haproxy  and contain the respective string haproxy   or haproxy_ssl , directing them to their respective log files. The `& stop` directive ensures that rsyslog stops processing the log once a match is found, preventing dublication.

Finally, restart both the haproxy and rsyslog services for the changes to take effect:

# systemctl restart haproxy
# systemctl restart haproxyssl
# systemctl restart rsyslog


Reading References

haproxy:   log-tag directive

rsyslog:    rsyslogd documentation

This is a guest article originally written by: Dimitar Paskalev, guest blogging with good interesting articles is always mostly welcome 

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Posted in Educational, Hacks, Linux | 1 Comment »

ipmitool: Reset and manage IPMI (Intelligent Platform Management Interface) / ILO (Integrated Lights Out) remote board on Linux servers

Friday, December 20th, 2019

ipmitool-how-to-get-information-about-hardware-and-reset-ipmi-bmc-linux-access-ipmi-ilo-interface-logo

As a system administration nomatter whether you manage a bunch of server in a own brew and run Data Center location with some Rack mounted Hardware like PowerEdge M600 / ProLiant DL360e G8 / ProLiant DL360 Gen9 (755258-B21) or you're managing a bunch of Dedicated Servers, you're or will be faced  at some point to use the embedded in many Rack mountable rack servers IPMI / ILO interface remote console board management. If IPMI / ILO terms are new for you I suggest you quickly read my earlier article What is IPMI / IPKVM / ILO /  DRAC Remote Management interfaces to server .

hp-proliant-bl460c-ILO-Interface-screenshot

HP Proliant BL460 C IPMI (ILO) Web management interface 

In short Remote Management Interface is a way that gives you access to the server just like if you had a Monitor and a Keyboard plugged in directly to server.
When a remote computer is down the sysadmin can access it through IPMI and utilize a text console to the boot screen.
The IPMI protocol specification is led by Intel and was first published on September 16, 1998. and currently is supported by more than 200 computer system vendors, such as Cisco, Dell, Hewlett Packard Enterprise, Intel, NEC Corporation, SuperMicro and Tyan and is a standard for remote board management for servers.

IPMI-Block-Diagram-how-ipmi-works-and-its-relation-to-BMC
As you can see from diagram Baseboard Management Controllers (BMCs) is like the heart of IPMI.

Having this ILO / IPMI access is usually via a Web Interface Java interface that gives you the console and usually many of the machines also have an IP address via which a normal SSH command prompt is available giving you ability to execute diagnostic commands to the ILO on the status of attached hardware components of the server / get information about the attached system sensors to get report about things such as:

  • The System Overall heat
  • CPU heat temperature
  • System fan rotation speed cycles
  • Extract information about the server chassis
  • Query info about various system peripherals
  • Configure BIOS or UEFI on a remote system with no monitor / keyboard attached

Having a IPMI (Intelligent Platform Management Interface) firmware embedded into the server Motherboard is essential for system administration because besides this goodies it allows you to remotely Install Operating System to a server without any pre-installed OS right after it is bought and mounted to the planned Data Center Rack nest, just like if you have a plugged Monitor / Keyboard and Mouse and being physically in the remote location.

IPMI is mega useful for system administration also in case of Linux / Windows system updates that requires reboot in which essential System Libraries or binaries are updated and a System reboot is required, because often after system Large bundle updates or Release updates the system fails to boot and you need a way to run a diagnostic stuff from a System rescue Operating System living on a plugged in via a USB stick or CD Drive.
As prior said IPMI remote board is usually accessed and used via some Remote HTTPS encrypted web interface or via Secure Shell crypted session but sometimes the Web server behind the IPMI Web Interface is hanging especially when multiple sysadmins try to access it or due to other stuff and at times due to strange stuff even console SSH access might not be there, thansfully those who run a GNU / Linux Operating system on the Hardware node can use ipmitool tool http://ipmitool.sourceforge.net/ written for Linux that is capable to do a number of useful things with the IPMI management board including a Cold Reset of it so it turns back to working state / adding users / grasping the System hardware and components information health status, changing the Listener address of the IPMI access Interface and even having ability to update the IPMI version firmware.

Prior to be able to access IPMI remotely it has to be enabled usually via a UTP cable connected to the Network from which you expect it to be accesible. The location of the IPMI port on different server vendors is different.

ibm-power9-server-ipmi

IBM Power 9 Server IPMI port

HP-ILO-Bladeserver-Management-port-MGMT-yellow-cabled

HP IPMI console called ILO (Integrated Lights-Out) Port cabled with yellow cable (usually labelled as
Management Port MGMT)

Supermicro-SSG-5029P-E1CTR12L-Rear-Annotated-dedicated-IPMI-lan-port

Supermicro server IPMI Dedicated Lan Port

 

 In this article I'll shortly explain how IPMITool is available and can be installed and used across GNU / Linux Debian / Ubuntu and other deb based Linuxes with apt or on Fedora / CentOS (RPM) based with yum etc.

 

1. Install IPMITool

 

– On Debian

 

# apt-get install –yes ipmitool 

 

– On CentOS

 

# yum install ipmitool OpenIPMI-tools

 

# ipmitool -V
ipmitool version 1.8.14

 

On CentOS ipmitool can run as a service and collect data and do some nice stuff to run it:

 

[root@linux ~]# chkconfig ipmi on 

 

[root@linux ~]# service ipmi start

 

Before start using it is worthy to give here short description from ipmitool man page
 

DESCRIPTION
       This program lets you manage Intelligent Platform Management Interface (IPMI) functions of either the local system, via a kernel device driver, or a remote system, using IPMI v1.5 and IPMI v2.0.
       These functions include printing FRU information, LAN configuration, sensor readings, and remote chassis power control.

IPMI management of a local system interface requires a compatible IPMI kernel driver to be installed and configured.  On Linux this driver is called OpenIPMI and it is included in standard  dis‐
       tributions.   On Solaris this driver is called BMC and is included in Solaris 10.  Management of a remote station requires the IPMI-over-LAN interface to be enabled and configured.  Depending on
       the particular requirements of each system it may be possible to enable the LAN interface using ipmitool over the system interface.

 

2. Get ADMIN IP configured for access

https://3.bp.blogspot.com/-jojgWqj7acg/Wo6bSP0Av1I/AAAAAAAAGdI/xaHewnmAujkprCiDXoBxV7uHonPFjtZDwCLcBGAs/s1600/22-02-2018%2B15-31-09

To get a list of what is the current listener IP with no access to above Web frontend via which IPMI can be accessed (if it is cabled to the Access / Admin LAN port).

 

# ipmitool lan print 1
Set in Progress         : Set Complete
Auth Type Support       : NONE MD2 MD5 PASSWORD
Auth Type Enable        : Callback : MD2 MD5 PASSWORD
                        : User     : MD2 MD5 PASSWORD
                        : Operator : MD2 MD5 PASSWORD
                        : Admin    : MD2 MD5 PASSWORD
                        : OEM      :
IP Address Source       : Static Address
IP Address              : 10.253.41.127
Subnet Mask             : 255.255.254.0
MAC Address             : 0c:c4:7a:4b:1f:70
SNMP Community String   : public
IP Header               : TTL=0x00 Flags=0x00 Precedence=0x00 TOS=0x00
BMC ARP Control         : ARP Responses Enabled, Gratuitous ARP Disabled
Default Gateway IP      : 10.253.41.254
Default Gateway MAC     : 00:00:0c:07:ac:7b
Backup Gateway IP       : 10.253.41.254
Backup Gateway MAC      : 00:00:00:00:00:00
802.1q VLAN ID          : 8
802.1q VLAN Priority    : 0
RMCP+ Cipher Suites     : 1,2,3,6,7,8,11,12
Cipher Suite Priv Max   : aaaaXXaaaXXaaXX
                        :     X=Cipher Suite Unused
                        :     c=CALLBACK
                        :     u=USER
                        :     o=OPERATOR
                        :     a=ADMIN
                        :     O=OEM
 

 

3. Configure custom access IP and gateway for IPMI

 

[root@linux ~]# ipmitool lan set 1 ipsrc static

 

[root@linux ~]# ipmitool lan set 1 ipaddr 192.168.1.211
Setting LAN IP Address to 192.168.1.211

 

[root@linux ~]# ipmitool lan set 1 netmask 255.255.255.0
Setting LAN Subnet Mask to 255.255.255.0

 

[root@linux ~]# ipmitool lan set 1 defgw ipaddr 192.168.1.254
Setting LAN Default Gateway IP to 192.168.1.254

 

[root@linux ~]# ipmitool lan set 1 defgw macaddr 00:0e:0c:aa:8e:13
Setting LAN Default Gateway MAC to 00:0e:0c:aa:8e:13

 

[root@linux ~]# ipmitool lan set 1 arp respond on
Enabling BMC-generated ARP responses

 

[root@linux ~]# ipmitool lan set 1 auth ADMIN MD5

[root@linux ~]# ipmitool lan set 1 access on

 

4. Getting a list of IPMI existing users

 

# ipmitool user list 1
ID  Name             Callin  Link Auth  IPMI Msg   Channel Priv Limit
2   admin1           false   false      true       ADMINISTRATOR
3   ovh_dontchange   true    false      true       ADMINISTRATOR
4   ro_dontchange    true    true       true       USER
6                    true    true       true       NO ACCESS
7                    true    true       true       NO ACCESS
8                    true    true       true       NO ACCESS
9                    true    true       true       NO ACCESS
10                   true    true       true       NO ACCESS


– To get summary of existing users

# ipmitool user summary
Maximum IDs         : 10
Enabled User Count  : 4
Fixed Name Count    : 2

5. Create new Admin username into IPMI board
 

[root@linux ~]# ipmitool user set name 2 Your-New-Username

 

[root@linux ~]# ipmitool user set password 2
Password for user 2: 
Password for user 2: 

 

[root@linux ~]# ipmitool channel setaccess 1 2 link=on ipmi=on callin=on privilege=4

 

[root@linux ~]# ipmitool user enable 2
[root@linux ~]# 

 

6. Configure non-privilege user into IPMI board

If a user should only be used for querying sensor data, a custom privilege level can be setup for that. This user then has no rights for activating or deactivating the server, for example. A user named monitor will be created for this in the following example:

[root@linux ~]# ipmitool user set name 3 monitor

 

[root@linux ~]# ipmitool user set password 3
Password for user 3: 
Password for user 3: 

 

[root@linux ~]# ipmitool channel setaccess 1 3 link=on ipmi=on callin=on privilege=2

 

[root@linux ~]# ipmitool user enable 3

The importance of the various privilege numbers will be displayed when  ipmitool channel  is called without any additional parameters.

 

 

[root@linux ~]# ipmitool channel
Channel Commands: authcap   <channel number> <max privilege>
                  getaccess <channel number> [user id]
                  setaccess <channel number> <user id> [callin=on|off] [ipmi=on|off] [link=on|off] [privilege=level]
                  info      [channel number]
                  getciphers <ipmi | sol> [channel]

 

Possible privilege levels are:
   1   Callback level
   2   User level
   3   Operator level
   4   Administrator level
   5   OEM Proprietary level
  15   No access
[root@linux ~]# 

The user just created (named 'monitor') has been assigned the USER privilege level. So that LAN access is allowed for this user, you must activate MD5 authentication for LAN access for this user group (USER privilege level).

[root@linux ~]# ipmitool channel getaccess 1 3
Maximum User IDs     : 15
Enabled User IDs     : 2

User ID              : 3
User Name            : monitor
Fixed Name           : No
Access Available     : call-in / callback
Link Authentication  : enabled
IPMI Messaging       : enabled
Privilege Level      : USER

[root@linux ~]# 

 

7. Check server firmware version on a server via IPMI

 

# ipmitool mc info
Device ID                 : 32
Device Revision           : 1
Firmware Revision         : 3.31
IPMI Version              : 2.0
Manufacturer ID           : 10876
Manufacturer Name         : Supermicro
Product ID                : 1579 (0x062b)
Product Name              : Unknown (0x62B)
Device Available          : yes
Provides Device SDRs      : no
Additional Device Support :
    Sensor Device
    SDR Repository Device
    SEL Device
    FRU Inventory Device
    IPMB Event Receiver
    IPMB Event Generator
    Chassis Device


ipmitool mc info is actually an alias for the ipmitool bmc info cmd.

8. Reset IPMI management controller or BMC if hanged

 

As earlier said if for some reason Web GUI access or SSH to IPMI is lost, reset with:

root@linux:/root#  ipmitool mc reset
[ warm | cold ]

 

If you want to stop electricity for a second to IPMI and bring it on use the cold reset (this usually
should be done if warm reset does not work).

 

root@linux:/root# ipmitool mc reset cold

 

otherwise soft / warm is with:

 

ipmitool mc reset warm

 

Sometimes the BMC component of IPMI hangs and only fix to restore access to server Remote board is to reset also BMC

 

root@linux:/root# ipmitool bmc reset cold

 

9. Print hardware system event log

 

root@linux:/root# ipmitool sel info
SEL Information
Version          : 1.5 (v1.5, v2 compliant)
Entries          : 0
Free Space       : 10240 bytes
Percent Used     : 0%
Last Add Time    : Not Available
Last Del Time    : 07/02/2015 17:22:34
Overflow         : false
Supported Cmds   : 'Reserve' 'Get Alloc Info'
# of Alloc Units : 512
Alloc Unit Size  : 20
# Free Units     : 512
Largest Free Blk : 512
Max Record Size  : 20

 

 ipmitool sel list
SEL has no entries

In this particular case the system shows no entres as it was run on a tiny Microtik 1U machine, however usually on most Dell PowerEdge / HP Proliant / Lenovo System X machines this will return plenty of messages.

ipmitool sel elist

ipmitool sel clear

To clear anything if such logged

ipmitool sel clear

 

10.  Print Field Replaceable Units ( FRUs ) on the server 

 

[root@linux ~]# ipmitool fru print
 

 

FRU Device Description : Builtin FRU Device (ID 0)
 Chassis Type          : Other
 Chassis Serial        : KD5V59B
 Chassis Extra         : c3903ebb6237363698cdbae3e991bbed
 Board Mfg Date        : Mon Sep 24 02:00:00 2012
 Board Mfg             : IBM
 Board Product         : System Board
 Board Serial          : XXXXXXXXXXX
 Board Part Number     : 00J6528
 Board Extra           : 00W2671
 Board Extra           : 1400
 Board Extra           : 0000
 Board Extra           : 5000
 Board Extra           : 10

 Product Manufacturer  : IBM
 Product Name          : System x3650 M4
 Product Part Number   : 1955B2G
 Product Serial        : KD7V59K
 Product Asset Tag     :

FRU Device Description : Power Supply 1 (ID 1)
 Board Mfg Date        : Mon Jan  1 01:00:00 1996
 Board Mfg             : ACBE
 Board Product         : IBM Designed Device
 Board Serial          : YK151127R1RN
 Board Part Number     : ZZZZZZZ
 Board Extra           : ZZZZZZ<FF><FF><FF><FF><FF>
 Board Extra           : 0200
 Board Extra           : 00
 Board Extra           : 0080
 Board Extra           : 1

FRU Device Description : Power Supply 2 (ID 2)
 Board Mfg Date        : Mon Jan  1 01:00:00 1996
 Board Mfg             : ACBE
 Board Product         : IBM Designed Device
 Board Serial          : YK131127M1LE
 Board Part Number     : ZZZZZ
 Board Extra           : ZZZZZ<FF><FF><FF><FF><FF>
 Board Extra           : 0200
 Board Extra           : 00
 Board Extra           : 0080
 Board Extra           : 1

FRU Device Description : DASD Backplane 1 (ID 3)
….

 

Worthy to mention here is some cheaper server vendors such as Trendmicro might show no data here (no idea whether this is a protocol incompitability or IPMItool issue).

 

11. Get output about system sensors Temperature / Fan / Power Supply

 

Most newer servers have sensors to track temperature / voltage / fanspeed peripherals temp overall system temp etc.
To get a full list of sensors statistics from IPMI 
 

# ipmitool sensor
CPU Temp         | 29.000     | degrees C  | ok    | 0.000     | 0.000     | 0.000     | 95.000    | 98.000    | 100.000
System Temp      | 40.000     | degrees C  | ok    | -9.000    | -7.000    | -5.000    | 80.000    | 85.000    | 90.000
Peripheral Temp  | 41.000     | degrees C  | ok    | -9.000    | -7.000    | -5.000    | 80.000    | 85.000    | 90.000
PCH Temp         | 56.000     | degrees C  | ok    | -11.000   | -8.000    | -5.000    | 90.000    | 95.000    | 100.000
FAN 1            | na         |            | na    | na        | na        | na        | na        | na        | na
FAN 2            | na         |            | na    | na        | na        | na        | na        | na        | na
FAN 3            | na         |            | na    | na        | na        | na        | na        | na        | na
FAN 4            | na         |            | na    | na        | na        | na        | na        | na        | na
FAN A            | na         |            | na    | na        | na        | na        | na        | na        | na
Vcore            | 0.824      | Volts      | ok    | 0.480     | 0.512     | 0.544     | 1.488     | 1.520     | 1.552
3.3VCC           | 3.296      | Volts      | ok    | 2.816     | 2.880     | 2.944     | 3.584     | 3.648     | 3.712
12V              | 12.137     | Volts      | ok    | 10.494    | 10.600    | 10.706    | 13.091    | 13.197    | 13.303
VDIMM            | 1.496      | Volts      | ok    | 1.152     | 1.216     | 1.280     | 1.760     | 1.776     | 1.792
5VCC             | 4.992      | Volts      | ok    | 4.096     | 4.320     | 4.576     | 5.344     | 5.600     | 5.632
CPU VTT          | 1.008      | Volts      | ok    | 0.872     | 0.896     | 0.920     | 1.344     | 1.368     | 1.392
VBAT             | 3.200      | Volts      | ok    | 2.816     | 2.880     | 2.944     | 3.584     | 3.648     | 3.712
VSB              | 3.328      | Volts      | ok    | 2.816     | 2.880     | 2.944     | 3.584     | 3.648     | 3.712
AVCC             | 3.312      | Volts      | ok    | 2.816     | 2.880     | 2.944     | 3.584     | 3.648     | 3.712
Chassis Intru    | 0x1        | discrete   | 0x0100| na        | na        | na        | na        | na        | na
 

To get only partial sensors data from the SDR (Sensor Data Repositry) entries and readings

 

[root@linux ~]# ipmitool sdr list 

Planar 3.3V      | 3.31 Volts        | ok
Planar 5V        | 5.06 Volts        | ok
Planar 12V       | 12.26 Volts       | ok
Planar VBAT      | 3.14 Volts        | ok
Avg Power        | 80 Watts          | ok
PCH Temp         | 45 degrees C      | ok
Ambient Temp     | 19 degrees C      | ok
PCI Riser 1 Temp | 25 degrees C      | ok
PCI Riser 2 Temp | no reading        | ns
Mezz Card Temp   | no reading        | ns
Fan 1A Tach      | 3071 RPM          | ok
Fan 1B Tach      | 2592 RPM          | ok
Fan 2A Tach      | 3145 RPM          | ok
Fan 2B Tach      | 2624 RPM          | ok
Fan 3A Tach      | 3108 RPM          | ok
Fan 3B Tach      | 2592 RPM          | ok
Fan 4A Tach      | no reading        | ns
Fan 4B Tach      | no reading        | ns
CPU1 VR Temp     | 27 degrees C      | ok
CPU2 VR Temp     | 27 degrees C      | ok
DIMM AB VR Temp  | 24 degrees C      | ok
DIMM CD VR Temp  | 23 degrees C      | ok
DIMM EF VR Temp  | 25 degrees C      | ok
DIMM GH VR Temp  | 24 degrees C      | ok
Host Power       | 0x00              | ok
IPMI Watchdog    | 0x00              | ok

 

[root@linux ~]# ipmitool sdr type Temperature
PCH Temp         | 31h | ok  | 45.1 | 45 degrees C
Ambient Temp     | 32h | ok  | 12.1 | 19 degrees C
PCI Riser 1 Temp | 3Ah | ok  | 16.1 | 25 degrees C
PCI Riser 2 Temp | 3Bh | ns  | 16.2 | No Reading
Mezz Card Temp   | 3Ch | ns  | 44.1 | No Reading
CPU1 VR Temp     | F7h | ok  | 20.1 | 27 degrees C
CPU2 VR Temp     | F8h | ok  | 20.2 | 27 degrees C
DIMM AB VR Temp  | F9h | ok  | 20.3 | 25 degrees C
DIMM CD VR Temp  | FAh | ok  | 20.4 | 23 degrees C
DIMM EF VR Temp  | FBh | ok  | 20.5 | 26 degrees C
DIMM GH VR Temp  | FCh | ok  | 20.6 | 24 degrees C
Ambient Status   | 8Eh | ok  | 12.1 |
CPU 1 OverTemp   | A0h | ok  |  3.1 | Transition to OK
CPU 2 OverTemp   | A1h | ok  |  3.2 | Transition to OK

 

[root@linux ~]# ipmitool sdr type Fan
Fan 1A Tach      | 40h | ok  | 29.1 | 3034 RPM
Fan 1B Tach      | 41h | ok  | 29.1 | 2592 RPM
Fan 2A Tach      | 42h | ok  | 29.2 | 3145 RPM
Fan 2B Tach      | 43h | ok  | 29.2 | 2624 RPM
Fan 3A Tach      | 44h | ok  | 29.3 | 3108 RPM
Fan 3B Tach      | 45h | ok  | 29.3 | 2592 RPM
Fan 4A Tach      | 46h | ns  | 29.4 | No Reading
Fan 4B Tach      | 47h | ns  | 29.4 | No Reading
PS 1 Fan Fault   | 73h | ok  | 10.1 | Transition to OK
PS 2 Fan Fault   | 74h | ok  | 10.2 | Transition to OK

 

[root@linux ~]# ipmitool sdr type ‘Power Supply’
Sensor Type "‘Power" not found.
Sensor Types:
        Temperature               (0x01)   Voltage                   (0x02)
        Current                   (0x03)   Fan                       (0x04)
        Physical Security         (0x05)   Platform Security         (0x06)
        Processor                 (0x07)   Power Supply              (0x08)
        Power Unit                (0x09)   Cooling Device            (0x0a)
        Other                     (0x0b)   Memory                    (0x0c)
        Drive Slot / Bay          (0x0d)   POST Memory Resize        (0x0e)
        System Firmwares          (0x0f)   Event Logging Disabled    (0x10)
        Watchdog1                 (0x11)   System Event              (0x12)
        Critical Interrupt        (0x13)   Button                    (0x14)
        Module / Board            (0x15)   Microcontroller           (0x16)
        Add-in Card               (0x17)   Chassis                   (0x18)
        Chip Set                  (0x19)   Other FRU                 (0x1a)
        Cable / Interconnect      (0x1b)   Terminator                (0x1c)
        System Boot Initiated     (0x1d)   Boot Error                (0x1e)
        OS Boot                   (0x1f)   OS Critical Stop          (0x20)
        Slot / Connector          (0x21)   System ACPI Power State   (0x22)
        Watchdog2                 (0x23)   Platform Alert            (0x24)
        Entity Presence           (0x25)   Monitor ASIC              (0x26)
        LAN                       (0x27)   Management Subsys Health  (0x28)
        Battery                   (0x29)   Session Audit             (0x2a)
        Version Change            (0x2b)   FRU State                 (0x2c)

 

12. Using System Chassis to initiate power on / off / reset / soft shutdown

 

!!!!!  Beware only run this if you know what you're realling doing don't just paste into a production system, If you do so it is your responsibility !!!!! 

–  do a soft-shutdown via acpi 

 

ipmitool [chassis] power soft

 

– issue a hard power off, wait 1s, power on 

 

ipmitool [chassis] power cycle

 

– run a hard power off

 

ipmitool [chassis] power off

 
– do a hard power on 

 

ipmitool [chassis] power on

 

–  issue a hard reset

 

ipmitool [chassis] power reset


– Get system power status
 

ipmitool chassis power status

 

13. Use IPMI (SoL) Serial over Lan to execute commands remotely


Besides using ipmitool locally on server that had its IPMI / ILO / DRAC console disabled it could be used also to query and make server do stuff remotely.

If not loaded you will have to load lanplus kernel module.
 

modprobe lanplus

 

 ipmitool -I lanplus -H 192.168.99.1 -U user -P pass chassis power status

ipmitool -I lanplus -H 192.168.98.1 -U user -P pass chassis power status

ipmitool -I lanplus -H 192.168.98.1 -U user -P pass chassis power reset

ipmitool -I lanplus -H 192.168.98.1 -U user -P pass chassis power reset

ipmitool -I lanplus -H 192.168.98.1 -U user -P pass password sol activate

– Deactivating Sol server capabilities
 

 ipmitool -I lanplus -H 192.168.99.1 -U user -P pass sol deactivate

 

14. Modify boot device order on next boot

 

!!!!! Do not run this except you want to really modify Boot device order, carelessly copy pasting could leave your server unbootable on next boot !!!!!

– Set first boot device to be as BIOS

ipmitool chassis bootdev bios

 

– Set first boot device to be CD Drive

ipmitool chassis bootdev cdrom 

 

– Set first boot device to be via Network Boot PXE protocol

ipmitool chassis bootdev pxe 

 

15. Using ipmitool shell

 

root@iqtestfb:~# ipmitool shell
ipmitool> help
Commands:
        raw           Send a RAW IPMI request and print response
        i2c           Send an I2C Master Write-Read command and print response
        spd           Print SPD info from remote I2C device
        lan           Configure LAN Channels
        chassis       Get chassis status and set power state
        power         Shortcut to chassis power commands
        event         Send pre-defined events to MC
        mc            Management Controller status and global enables
        sdr           Print Sensor Data Repository entries and readings
        sensor        Print detailed sensor information
        fru           Print built-in FRU and scan SDR for FRU locators
        gendev        Read/Write Device associated with Generic Device locators sdr
        sel           Print System Event Log (SEL)
        pef           Configure Platform Event Filtering (PEF)
        sol           Configure and connect IPMIv2.0 Serial-over-LAN
        tsol          Configure and connect with Tyan IPMIv1.5 Serial-over-LAN
        isol          Configure IPMIv1.5 Serial-over-LAN
        user          Configure Management Controller users
        channel       Configure Management Controller channels
        session       Print session information
        dcmi          Data Center Management Interface
        sunoem        OEM Commands for Sun servers
        kontronoem    OEM Commands for Kontron devices
        picmg         Run a PICMG/ATCA extended cmd
        fwum          Update IPMC using Kontron OEM Firmware Update Manager
        firewall      Configure Firmware Firewall
        delloem       OEM Commands for Dell systems
        shell         Launch interactive IPMI shell
        exec          Run list of commands from file
        set           Set runtime variable for shell and exec
        hpm           Update HPM components using PICMG HPM.1 file
        ekanalyzer    run FRU-Ekeying analyzer using FRU files
        ime           Update Intel Manageability Engine Firmware
ipmitool>

 

16. Changing BMC / DRAC time setting

 

# ipmitool -H XXX.XXX.XXX.XXX -U root -P pass sel time set "01/21/2011 16:20:44"

 

17. Loading script of IPMI commands

# ipmitool exec /path-to-script/script-with-instructions.txt  

 

Closure

As you saw ipmitool can be used to do plenty of cool things both locally or remotely on a server that had IPMI server interface available. The tool is mega useful in case if ILO console gets hanged as it can be used to reset it.
I explained shortly what is Intelligent Platform Management Interface, how it can be accessed and used on Linux via ipmitool. I went through some of its basic use, how it can be used to print the configured ILO access IP how
this Admin IP and Network configuration can be changed, how to print the IPMI existing users and how to add new Admin and non-privileged users.
Then I've shown how a system hardware and firmware could be shown, how IPMI management BMC could be reset in case if it hanging and how hardware system even logs can be printed (useful in case of hardware failure errors etc.), how to print reports on current system fan / power supply  and temperature. Finally explained how server chassis could be used for soft and cold server reboots locally or via SoL (Serial Over Lan) and how boot order of system could be modified.

ipmitool is a great tool to further automate different sysadmin tasks with shell scrpts for stuff such as tracking servers for a failing hardware and auto-reboot of inacessible failed servers to guarantee Higher Level of availability.
Hope you enjoyed artcle .. It wll be interested to hear of any other known ipmitool scripts or use, if you know such please share it.

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Posted in Linux, Monitoring, Remote System Administration, System Administration | 2 Comments »

Improve Website Apache Webserver SEO without Website source code moficitations with Google PageSpeed module on Debian, Ubuntu, CentOS, Fedora and SuSE Linux

Thursday, December 18th, 2014

Improve-website-apache-webserver-seo-without-website-source-code-modifications-with-Google-PageSpeed-Apache-module

For hosting companies and even personal website speed performance becomes increasingly important factor that gives higher and higher weight on overall PageRank and is one of the key things for Successful Site Search Engine Optimization (positioning) in Search Engines of a not specially SEO friendly crafted website.

Virtually all Google / Yahoo / Bing,  Yahoo  etc. Search Engines give better pagerank to websites which load faster and has little or no downtimes, for the reason a faster loading time of a website pages means better user experience and is indicator that the website is well maintained. 

Often websites deployed written for purpose of a business-es or just community CMS / Blog Website Open Source systems such as Joomla, Drupal and WordPress by default are not made to provide fantastic speed right after deploy without install of custom plugins and website tuning, i.e.:

  • Content size optimization (gzipping)
  • More efficient way to deliver CSS / Javascript (MinifyJS / CSS files into single ones
  • HTML optimization
  • Stripping (useful) page Comments
  • Adding <head> if missing on pages etc.

. Therefore as I said in many of my previous LAMP Optimization articles page  (opening) speed could make really Bad Users / Clients experience when the site grows too big or is badly optimized it gives degraded page speed times (often page loads 20 / 30 seconds waiting for the page to load!). Having Pages lagging on big information sites or EShos has both Ruining Company's Image on the market and quickly convinces the user to use another service from the already thosands available and thus drives out (potential) customers.

As Programming code maintainance and improvement is usually very costly, companies that want to save money or can't afford it (because of the shrinking budgets dictacted by the global economic crisis), the best thing to do is to ask your sysadmin to Squeeze the Best out of the WebService and Servers without major (Backend Code) infrastructural changes.

To  Speed up Apache and create Proper Page Caching without installing on server external PHP Caching modules such as Eaccelerator  / PHP APC caching and without
extra CMS modules such as lets say WordPress W3 Total Cache there is Google Develop Apache Webserver external module – PageSpeed.

Here is Google Pagespeed Module overview :
 

PageSpeed speeds up your site and reduces page load time. This open-source webserver module automatically applies web performance best practices to pages and associated assets (CSS, JavaScript, images) without requiring that you modify your existing content or workflow.


What does Apache Google PageSpeed actually does?
 

  • Automatic website and asset optimization
  • Latest web optimization techniques
  • 40+ configurable optimization filters
  • Free, open-source, and frequently updated
  • Deployed by individual sites, hosting providers, CDNs


1. Install PageSpeed on Debian / Ubuntu, deb derivatives) Linux

a) Download and install module 

On 64 bit deb based Linux:

cd /usr/local/src
wget https://dl-ssl.google.com/dl/linux/direct/mod-pagespeed-stable_current_amd64.deb 
dpkg -i mod-pagespeed-stable_current_amd64.deb
apt-get -f install


On 32 bit Linux:

cd /usr/local/src
wget https://dl-ssl.google.com/dl/linux/direct/mod-pagespeed-stable_current_i386.deb
dpkg -i direct/mod-pagespeed-stable_current_i386.deb
apt-get -f install


b) Restart Apache
 

sudo /etc/init.d/apache2 restart

Important files and folders placed on server by deb installer are:

/usr/bin/pagespeed_js_minify – binary that does Javascript minification
/etc/apache2/mods-available/pagespeed.conf – Pagespeed config
/etc/apache2/mods-available/pagespeed.load – Load module directives in Apache
/etc/cron.daily/mod-pagespeed – mod_pagespeed cron script for checking and installing latest updates.
/var/cache/mod_pagespeed – Mod Pagespeed cahing folder (useful to install memcached to increase even further caching performance)
/var/log/pagespeed – Directory to store pagespeed log files

 

2. Install PageSpeed on (RPM based CentOS, Fedora, RHEL / SuSE Linux)


RPM 64 bit package install:
 

rpm -Uvh https://dl-ssl.google.com/dl/linux/direct/mod-pagespeed-beta_current_x86_64.rpm

 


32 bit pack version:
 

rpm -Uvh https://dl-ssl.google.com/dl/linux/direct/mod-pagespeed-stable_current_i386.rpm


Modify pagespeed mod config 

Restart Apache

sudo /etc/init.d/httpd restart


Important config files and folders created during RPM install are:

  • /etc/cron.daily/mod-pagespeed : mod_pagespeed cron script for checking and installing latest updates.
  • /etc/httpd/conf.d/pagespeed.conf : The main configuration file for Apache.
  • /usr/lib/httpd/modules/mod_pagespeed.so : mod_pagespeed module for Apache.
  • /var/www/mod_pagespeed/cache : File caching direcotry for web sites.
  • /var/www/mod_pagespeed/files : File generate prefix for web sites.

3. Configuring Google PageSpeed module

 

To configure PageSpeed you can either edit the package installed bundled pagespeed.conf (/etc/apache2/mods-available/pagspeed.conf,  /etc/httpd/conf.d/pagespeed.conf) or insert configuration items inside Apache VirtualHosts config files or even if you need flexibility and you don't have straight access to Apache config files (on shared hosting servers where module is available) through .htaccess.
Anyways try to avoid adding pagespeed directives to .htaccess as it will be too slow and inefficient.

Configuration is managed by setting different so-called "Rewrite Levels". Default behavior is to use Level of "Corefilters.", a set of filters (module behavior configs) which according to Google is safe for use. PageSpeed Filters is a set of actions applied to Web Delivered files.

Default config setting is hence:
 

ModPagespeedRewriteLevel CoreFilters

Disabling default set of filters is done with:
 

ModPagespeedRewriteLevel PassThrough

"Corefilters" default filter set as of time of writting this article:
 

add_head
combine_css
convert_jpeg_to_progressive
convert_meta_tags
extend_cache
flatten_css_imports
inline_css
inline_import_to_link
inline_javascript
rewrite_css
rewrite_images
rewrite_javascript
rewrite_style_attributes_with_url

Complete documentation on Configuring PageSpeed Filters is here.

If caching is turned on, default PageSped caching is configured in /var/cache/mod_pagespeed/
Enabling someof the non-Corefilters that sometimes are useful for SEO (reduce of served / returned pagesize) are:
 

ModPagespeedEnableFilters pedantic,remove_comments

By default pagespeed does some things (such as inline_css, inline_javascript and rewrite_images (Optimize, removing Excess pixels).  My litle experience with pagespeed shows in some cases this could break websites), so I found for my case useful to disable some of the filters:

 

vim /etc/apache2/mods-available/pagespeed.conf

 

ModPagespeedDisableFilters rewrite_images,convert_jpeg_to_progressive,inline_css,inline_javascript

 

4. Testing if PageSpeed is Enabled pagespeed_admin

By default PageSpeed has Admin which by default is only allowed to be accessed from server localhost (127.0.0.1) to get basic statistics either install text browser like lynx / elinks or add more access IPs again in pagespeed config / vhosts pagespeed.conf include more Allow lines like below:

 

    <Location /pagespeed_admin>
        Order allow,deny
        Allow from localhost
        Allow from 127.0.0.1
        Allow from 192.168.1.1
        Allow from xxx.xxx.xxx.xxx
        #Allow from All
        SetHandler pagespeed_admin
    </Location>
    <Location /pagespeed_global_admin>
        Order allow,deny
        Allow from localhost
        Allow from 127.0.0.1
        Allow from 192.168.1.1
        Allow from xxx.xxx.xxx.xxx
        SetHandler pagespeed_global_admin
    </Location>

 

Once configured pagespeed_admin access it with favourite browser on:

http://127.0.0.1/pagespeed_admin
http://127.0.0.1/pagespeed_global_admin

improve-website-apache-webserver-seo-without-source-code-modifications-google-pagespeed_admin_panel

Other way to test it is enabled is by creating php file with good old <? phpinfo(); ?> – PHP stats enabled / disabled features code:

pagespeed-in-phpinfo-x-mod-pagespeed-output-screenshot-apache-webserver

I've also tested also pagespeed unstable release, but experienced some segmentation faults in both error.log and access.log so finally decided to keep using stable release.

PageSpeed is a great way to boost your server sites performance, however it comes on certain costs as expect your server CPU Load to jump drastically, (in my case it jumped more than twice), there are Linux servers where enabling the module could totally stone the servers, so before implementing the module on a Production system environment, always first test thouroughfully with loaded pagespeed on UAT (testing) environment with AB or Siege (Apache Benchmarking Tools).

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