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Increase dovecot 1.2 file descriptors and max login processes

1. edit /etc/dovecot.conf

#login_max_processes_count = 128
login_max_processes_count = 512

2. edit /etc/security/limits.conf

*               soft     nofile         8096
*               hard     nofile         8096

>ulimit -n to check the fd limit

Improving the standard Nagios E-Mail notifications

http://nagios.frank4dd.com/howto/nagios-flexible-notifications.htm

Subscribe Hong Kong public Holidays to e-calendar

http://www.1823.gov.hk/eng/blog/calendar.aspx

nmap usage

#1: Scan a single host or an IP address (IPv4)

### Scan a single ip address ###
nmap 192.168.1.1

## Scan a host name ###
nmap server1.cyberciti.biz

## Scan a host name with more info###
nmap -v server1.cyberciti.biz

Sample outputs:

Fig.01: nmap outputFig.01: nmap output

#2: Scan multiple IP address or subnet (IPv4)

nmap 192.168.1.1 192.168.1.2 192.168.1.3
## works with same subnet i.e. 192.168.1.0/24
nmap 192.168.1.1,2,3

You can scan a range of IP address too:

nmap 192.168.1.1-20

You can scan a range of IP address using a wildcard:

nmap 192.168.1.*

Finally, you scan an entire subnet:

nmap 192.168.1.0/24

#3: Read list of hosts/networks from a file (IPv4)

The -iL option allows you to read the list of target systems using a text file. This is useful to scan a large number of hosts/networks. Create a text file as follows:
cat > /tmp/test.txt
Sample outputs:

server1.cyberciti.biz
192.168.1.0/24
192.168.1.1/24
10.1.2.3
localhost

The syntax is:

nmap -iL /tmp/test.txt

#4: Excluding hosts/networks (IPv4)

When scanning a large number of hosts/networks you can exclude hosts from a scan:

nmap 192.168.1.0/24 --exclude 192.168.1.5
nmap 192.168.1.0/24 --exclude 192.168.1.5,192.168.1.254

OR exclude list from a file called /tmp/exclude.txt

nmap -iL /tmp/scanlist.txt --excludefile /tmp/exclude.txt

#5: Turn on OS and version detection scanning script (IPv4)

nmap -A 192.168.1.254
nmap -v -A 192.168.1.1
nmap -A -iL /tmp/scanlist.txt

#6: Find out if a host/network is protected by a firewall

nmap -sA 192.168.1.254
nmap -sA server1.cyberciti.biz

#7: Scan a host when protected by the firewall

nmap -PN 192.168.1.1
nmap -PN server1.cyberciti.biz

#8: Scan an IPv6 host/address

The -6 option enable IPv6 scanning. The syntax is:

nmap -6 IPv6-Address-Here
nmap -6 server1.cyberciti.biz
nmap -6 2607:f0d0:1002:51::4
nmap -v A -6 2607:f0d0:1002:51::4

#9: Scan a network and find out which servers and devices are up and running

This is known as host discovery or ping scan:

nmap -sP 192.168.1.0/24

Sample outputs:

Host 192.168.1.1 is up (0.00035s latency).
MAC Address: BC:AE:C5:C3:16:93 (Unknown)
Host 192.168.1.2 is up (0.0038s latency).
MAC Address: 74:44:01:40:57:FB (Unknown)
Host 192.168.1.5 is up.
Host nas03 (192.168.1.12) is up (0.0091s latency).
MAC Address: 00:11:32:11:15:FC (Synology Incorporated)
Nmap done: 256 IP addresses (4 hosts up) scanned in 2.80 second

#10: How do I perform a fast scan?

nmap -F 192.168.1.1

#11: Display the reason a port is in a particular state

nmap --reason 192.168.1.1
nmap --reason server1.cyberciti.biz

#12: Only show open (or possibly open) ports

nmap --open 192.168.1.1
nmap --open server1.cyberciti.biz

#13: Show all packets sent and received

nmap --packet-trace 192.168.1.1
nmap --packet-trace server1.cyberciti.biz

14#: Show host interfaces and routes

This is useful for debugging (ip command or route command or netstat command like output using nmap)

nmap --iflist

Sample outputs:

Starting Nmap 5.00 ( http://nmap.org ) at 2012-11-27 02:01 IST
************************INTERFACES************************
DEV    (SHORT)  IP/MASK          TYPE        UP MAC
lo     (lo)     127.0.0.1/8      loopback    up
eth0   (eth0)   192.168.1.5/24   ethernet    up B8:AC:6F:65:31:E5
vmnet1 (vmnet1) 192.168.121.1/24 ethernet    up 00:50:56:C0:00:01
vmnet8 (vmnet8) 192.168.179.1/24 ethernet    up 00:50:56:C0:00:08
ppp0   (ppp0)   10.1.19.69/32    point2point up

**************************ROUTES**************************
DST/MASK         DEV    GATEWAY
10.0.31.178/32   ppp0
209.133.67.35/32 eth0   192.168.1.2
192.168.1.0/0    eth0
192.168.121.0/0  vmnet1
192.168.179.0/0  vmnet8
169.254.0.0/0    eth0
10.0.0.0/0       ppp0
0.0.0.0/0        eth0   192.168.1.2

#15: How do I scan specific ports?

map -p [port] hostName
## Scan port 80
nmap -p 80 192.168.1.1

## Scan TCP port 80
nmap -p T:80 192.168.1.1

## Scan UDP port 53
nmap -p U:53 192.168.1.1

## Scan two ports ##
nmap -p 80,443 192.168.1.1

## Scan port ranges ##
nmap -p 80-200 192.168.1.1

## Combine all options ##
nmap -p U:53,111,137,T:21-25,80,139,8080 192.168.1.1
nmap -p U:53,111,137,T:21-25,80,139,8080 server1.cyberciti.biz
nmap -v -sU -sT -p U:53,111,137,T:21-25,80,139,8080 192.168.1.254

## Scan all ports with * wildcard ##
nmap -p "*" 192.168.1.1

## Scan top ports i.e. scan $number most common ports ##
nmap --top-ports 5 192.168.1.1
nmap --top-ports 10 192.168.1.1

Sample outputs:

Starting Nmap 5.00 ( http://nmap.org ) at 2012-11-27 01:23 IST
Interesting ports on 192.168.1.1:
PORT     STATE  SERVICE
21/tcp   closed ftp
22/tcp   open   ssh
23/tcp   closed telnet
25/tcp   closed smtp
80/tcp   open   http
110/tcp  closed pop3
139/tcp  closed netbios-ssn
443/tcp  closed https
445/tcp  closed microsoft-ds
3389/tcp closed ms-term-serv
MAC Address: BC:AE:C5:C3:16:93 (Unknown)

Nmap done: 1 IP address (1 host up) scanned in 0.51 seconds

#16: The fastest way to scan all your devices/computers for open ports ever

nmap -T5 192.168.1.0/24

#17: How do I detect remote operating system?

You can identify a remote host apps and OS using the -O option:

 
nmap -O 192.168.1.1
nmap -O  --osscan-guess 192.168.1.1
nmap -v -O --osscan-guess 192.168.1.1

Sample outputs:

Starting Nmap 5.00 ( http://nmap.org ) at 2012-11-27 01:29 IST
NSE: Loaded 0 scripts for scanning.
Initiating ARP Ping Scan at 01:29
Scanning 192.168.1.1 [1 port]
Completed ARP Ping Scan at 01:29, 0.01s elapsed (1 total hosts)
Initiating Parallel DNS resolution of 1 host. at 01:29
Completed Parallel DNS resolution of 1 host. at 01:29, 0.22s elapsed
Initiating SYN Stealth Scan at 01:29
Scanning 192.168.1.1 [1000 ports]
Discovered open port 80/tcp on 192.168.1.1
Discovered open port 22/tcp on 192.168.1.1
Completed SYN Stealth Scan at 01:29, 0.16s elapsed (1000 total ports)
Initiating OS detection (try #1) against 192.168.1.1
Retrying OS detection (try #2) against 192.168.1.1
Retrying OS detection (try #3) against 192.168.1.1
Retrying OS detection (try #4) against 192.168.1.1
Retrying OS detection (try #5) against 192.168.1.1
Host 192.168.1.1 is up (0.00049s latency).
Interesting ports on 192.168.1.1:
Not shown: 998 closed ports
PORT   STATE SERVICE
22/tcp open  ssh
80/tcp open  http
MAC Address: BC:AE:C5:C3:16:93 (Unknown)
Device type: WAP|general purpose|router|printer|broadband router
Running (JUST GUESSING) : Linksys Linux 2.4.X (95%), Linux 2.4.X|2.6.X (94%), MikroTik RouterOS 3.X (92%), Lexmark embedded (90%), Enterasys embedded (89%), D-Link Linux 2.4.X (89%), Netgear Linux 2.4.X (89%)
Aggressive OS guesses: OpenWrt White Russian 0.9 (Linux 2.4.30) (95%), OpenWrt 0.9 - 7.09 (Linux 2.4.30 - 2.4.34) (94%), OpenWrt Kamikaze 7.09 (Linux 2.6.22) (94%), Linux 2.4.21 - 2.4.31 (likely embedded) (92%), Linux 2.6.15 - 2.6.23 (embedded) (92%), Linux 2.6.15 - 2.6.24 (92%), MikroTik RouterOS 3.0beta5 (92%), MikroTik RouterOS 3.17 (92%), Linux 2.6.24 (91%), Linux 2.6.22 (90%)
No exact OS matches for host (If you know what OS is running on it, see http://nmap.org/submit/ ).
TCP/IP fingerprint:
OS:SCAN(V=5.00%D=11/27%OT=22%CT=1%CU=30609%PV=Y%DS=1%G=Y%M=BCAEC5%TM=50B3CA
OS:4B%P=x86_64-unknown-linux-gnu)SEQ(SP=C8%GCD=1%ISR=CB%TI=Z%CI=Z%II=I%TS=7
OS:)OPS(O1=M2300ST11NW2%O2=M2300ST11NW2%O3=M2300NNT11NW2%O4=M2300ST11NW2%O5
OS:=M2300ST11NW2%O6=M2300ST11)WIN(W1=45E8%W2=45E8%W3=45E8%W4=45E8%W5=45E8%W
OS:6=45E8)ECN(R=Y%DF=Y%T=40%W=4600%O=M2300NNSNW2%CC=N%Q=)T1(R=Y%DF=Y%T=40%S
OS:=O%A=S+%F=AS%RD=0%Q=)T2(R=N)T3(R=N)T4(R=Y%DF=Y%T=40%W=0%S=A%A=Z%F=R%O=%R
OS:D=0%Q=)T5(R=Y%DF=Y%T=40%W=0%S=Z%A=S+%F=AR%O=%RD=0%Q=)T6(R=Y%DF=Y%T=40%W=
OS:0%S=A%A=Z%F=R%O=%RD=0%Q=)T7(R=N)U1(R=Y%DF=N%T=40%IPL=164%UN=0%RIPL=G%RID
OS:=G%RIPCK=G%RUCK=G%RUD=G)IE(R=Y%DFI=N%T=40%CD=S)
Uptime guess: 12.990 days (since Wed Nov 14 01:44:40 2012)
Network Distance: 1 hop
TCP Sequence Prediction: Difficulty=200 (Good luck!)
IP ID Sequence Generation: All zeros
Read data files from: /usr/share/nmap
OS detection performed. Please report any incorrect results at http://nmap.org/submit/ .
Nmap done: 1 IP address (1 host up) scanned in 12.38 seconds
           Raw packets sent: 1126 (53.832KB) | Rcvd: 1066 (46.100KB)

See also: Fingerprinting a web-server and a dns server command line tools for more information.

#18: How do I detect remote services (server / daemon) version numbers?

nmap -sV 192.168.1.1

Sample outputs:

Starting Nmap 5.00 ( http://nmap.org ) at 2012-11-27 01:34 IST
Interesting ports on 192.168.1.1:
Not shown: 998 closed ports
PORT   STATE SERVICE VERSION
22/tcp open  ssh     Dropbear sshd 0.52 (protocol 2.0)
80/tcp open  http?
1 service unrecognized despite returning data.

#19: Scan a host using TCP ACK (PA) and TCP Syn (PS) ping

If firewall is blocking standard ICMP pings, try the following host discovery methods:

nmap -PS 192.168.1.1
nmap -PS 80,21,443 192.168.1.1
nmap -PA 192.168.1.1
nmap -PA 80,21,200-512 192.168.1.1

#20: Scan a host using IP protocol ping

nmap -PO 192.168.1.1

#21: Scan a host using UDP ping

This scan bypasses firewalls and filters that only screen TCP:

nmap -PU 192.168.1.1
nmap -PU 2000.2001 192.168.1.1

#22: Find out the most commonly used TCP ports using TCP SYN Scan

 
### Stealthy scan ###
nmap -sS 192.168.1.1

### Find out the most commonly used TCP ports using  TCP connect scan (warning: no stealth scan)
###  OS Fingerprinting ###
nmap -sT 192.168.1.1

### Find out the most commonly used TCP ports using TCP ACK scan
nmap -sA 192.168.1.1

### Find out the most commonly used TCP ports using TCP Window scan
nmap -sW 192.168.1.1

### Find out the most commonly used TCP ports using TCP Maimon scan
nmap -sM 192.168.1.1

#23: Scan a host for UDP services (UDP scan)

Most popular services on the Internet run over the TCP protocol. DNS, SNMP, and DHCP are three of the most common UDP services. Use the following syntax to find out UDP services:

nmap -sU nas03
nmap -sU 192.168.1.1

Sample outputs:

 
Starting Nmap 5.00 ( http://nmap.org ) at 2012-11-27 00:52 IST
Stats: 0:05:29 elapsed; 0 hosts completed (1 up), 1 undergoing UDP Scan
UDP Scan Timing: About 32.49% done; ETC: 01:09 (0:11:26 remaining)
Interesting ports on nas03 (192.168.1.12):
Not shown: 995 closed ports
PORT     STATE         SERVICE
111/udp  open|filtered rpcbind
123/udp  open|filtered ntp
161/udp  open|filtered snmp
2049/udp open|filtered nfs
5353/udp open|filtered zeroconf
MAC Address: 00:11:32:11:15:FC (Synology Incorporated)

Nmap done: 1 IP address (1 host up) scanned in 1099.55 seconds

#24: Scan for IP protocol

This type of scan allows you to determine which IP protocols (TCP, ICMP, IGMP, etc.) are supported by target machines:

nmap -sO 192.168.1.1

#25: Scan a firewall for security weakness

The following scan types exploit a subtle loophole in the TCP and good for testing security of common attacks:

 
## TCP Null Scan to fool a firewall to generate a response ##
## Does not set any bits (TCP flag header is 0) ##
nmap -sN 192.168.1.254

## TCP Fin scan to check firewall ##
## Sets just the TCP FIN bit ##
nmap -sF 192.168.1.254

## TCP Xmas scan to check firewall ##
## Sets the FIN, PSH, and URG flags, lighting the packet up like a Christmas tree ##
nmap -sX 192.168.1.254

See how to block Xmas packkets, syn-floods and other conman attacks with iptables.

#26: Scan a firewall for packets fragments

The -f option causes the requested scan (including ping scans) to use tiny fragmented IP packets. The idea is to split up the TCP header over
several packets to make it harder for packet filters, intrusion detection systems, and other annoyances to detect what you are doing.

nmap -f 192.168.1.1
nmap -f fw2.nixcraft.net.in
nmap -f 15 fw2.nixcraft.net.in
## Set your own offset size with the --mtu option ##
nmap --mtu 32 192.168.1.1

#27: Cloak a scan with decoys

The -D option it appear to the remote host that the host(s) you specify as decoys are scanning the target network too. Thus their IDS might report 5-10 port scans from unique IP addresses, but they won’t know which IP was scanning them and which were innocent decoys:

nmap -n -Ddecoy-ip1,decoy-ip2,your-own-ip,decoy-ip3,decoy-ip4 remote-host-ip
nmap -n -D192.168.1.5,10.5.1.2,172.1.2.4,3.4.2.1 192.168.1.5

#28: Scan a firewall for MAC address spoofing

 
### Spoof your MAC address ##
nmap --spoof-mac MAC-ADDRESS-HERE 192.168.1.1

### Add other options ###
nmap -v -sT -PN --spoof-mac MAC-ADDRESS-HERE 192.168.1.1

### Use a random MAC address ###
### The number 0, means nmap chooses a completely random MAC address ###
nmap -v -sT -PN --spoof-mac 0 192.168.1.1

#29: How do I save output to a text file?

The syntax is:

nmap 192.168.1.1 > output.txt
nmap -oN /path/to/filename 192.168.1.1
nmap -oN output.txt 192.168.1.1

#30: Not a fan of command line tools?

Try zenmap the official network mapper front end:

Zenmap is the official Nmap Security Scanner GUI. It is a multi-platform (Linux, Windows, Mac OS X, BSD, etc.) free and open source application which aims to make Nmap easy for beginners to use while providing advanced features for experienced Nmap users. Frequently used scans can be saved as profiles to make them easy to run repeatedly. A command creator allows interactive creation of Nmap command lines. Scan results can be saved and viewed later. Saved scan results can be compared with one another to see how they differ. The results of recent scans are stored in a searchable database.

You can install zenmap using the following apt-get command:
$ sudo apt-get install zenmap
Sample outputs:

[sudo] password for vivek:
Reading package lists... Done
Building dependency tree
Reading state information... Done
The following NEW packages will be installed:
  zenmap
0 upgraded, 1 newly installed, 0 to remove and 11 not upgraded.
Need to get 616 kB of archives.
After this operation, 1,827 kB of additional disk space will be used.
Get:1 http://debian.osuosl.org/debian/ squeeze/main zenmap amd64 5.00-3 [616 kB]
Fetched 616 kB in 3s (199 kB/s)
Selecting previously deselected package zenmap.
(Reading database ... 281105 files and directories currently installed.)
Unpacking zenmap (from .../zenmap_5.00-3_amd64.deb) ...
Processing triggers for desktop-file-utils ...
Processing triggers for gnome-menus ...
Processing triggers for man-db ...
Setting up zenmap (5.00-3) ...
Processing triggers for python-central ...

Type the following command to start zenmap:
$ sudo zenmap
Sample outputs

Fig.02: zenmap in actionFig.02: zenmap in action

How do I detect and block port scanning?

Try the following resources:

  1. How to use psad tool to detect and block port scan attacks in real time.
  2. Debian / Ubuntu Linux: Install and Configure Shoreline Firewall (Shorewall).
  3. CentOS / Redhat Iptables Firewall Configuration Tutorial.
  4. Linux: 20 Iptables Examples For New SysAdmins.
  5. 20 Linux Server Hardening Security Tips.

2012 Korea 韓國 寧越 南怡島

[hgallery3 id=”8321″ height=”231″ width=”320]

fix ncurses program not working properly under putty terminal

The problem is that PuTTY in UTF-8 mode ignores1 VT100 “Alternate character set” commands, and ncurses attempts to use the “graphical” character set for drawing the GUI. (The box drawing characters are in the same positions as klmqx would normally be.)

export NCURSES_NO_UTF8_ACS=1 it should fix the problem by telling ncurses to always use Unicode box drawing characters when a UTF-8 locale is selected.

Configure Solaris 10’s native LDAP client to authenticate to OpenLDAP Server

1. Solaris’ LDAP authentication requires shadowAccount object class be bound to an account for lookups to succeed.
Edit /usr/share/openldap/migration/migrate_passwd.pl to add the shadowAccount object class below posixAccount

2. Run ldapclient command on the Solaris with the parameters as specified as here

3. Remove /etc/pam.conf with this file

4. edit /etc/nsswitch.conf.ldap, change :

hosts:      ldap [NOTFOUND=return] files

to

hosts:      files dns

4. ldapclient list

5. ldaplist -vl passwd

6. getent passwd

VMWare vCenter 5.1 Installation

http://www.derekseaman.com/2012/09/vmware-vcenter-51-installation-part-1.html

https://www.vmware.com/support/pubs/vsphere-esxi-vcenter-server-pubs.html

Apply user settings via GPO from a domain user not under your controlled OU

By default, the GPO user settings of a specific ou will not apply to the domain user not under that ou. There’s a GPO setting which can direct the system to apply the set of Group Policy objects for the computer to any user who logs on to a computer affected by this setting. It is intended for special-use computers, such as those in public places, laboratories, and classrooms, where you must modify the user setting based on the computer that is being used.

By default, the user’s Group Policy objects determine which user settings apply. If this setting is enabled, then, when a user logs on to this computer, the computer’s Group Policy objects determine which set of Group Policy objects applies.

To use this setting, select one of the following modes from the Mode box:

—   “Replace” indicates that the user settings defined in the computer’s Group Policy objects replace the user settings normally applied to the user.

—   “Merge” indicates that the user settings defined in the computer’s Group Policy objects and the user settings normally applied to the user are combined. If the settings conflict, the user settings in the computer’s Group

full download and progress download mp4 with JW player

I found some mp4 trans-code by some encoder (eg: handbrake with default profile) need full download before playing in JW Player while some mp4 can be played using the progressive download method

The below is the reason and the fix :

It has to do with the moov atom on an mp4 being placed at the tail end of the video rather than the head of the video. So once you ffmpeg the video into your require h264 specs, you need to run qt-faststart on the video which will relocate the moov atom to the beginning of the video and your problem is fixed. Very simple syntax:

qt-faststart sourceVideo.mp4 finalVideo.mp4

for those who don’t have qt-faststart already installed on their CentOS computer:

shell> svn checkout svn://svn.ffmpeg.org/ffmpeg/trunk ffmpeg
shell> cd ffmpeg/
shell> ./configure
shell> make
shell> make tools/qt-faststart
shell> sudo cp tools/qt-faststart /usr/local/bin/qt-faststart

source : http://www.bashbang.com/geek/progressive-download-mp4-with-jw-player/