Friday, November 4, 2011

Keyboard Shortcut

Getting used to using your keyboard exclusively and leaving your mouse behind will make you much more efficient at performing any task on any Windows system. I use the following keyboard shortcuts every day:

Windows key + R = Run menu

This is usually followed by:
cmd = Command Prompt
iexplore + "web address" = Internet Explorer
compmgmt.msc = Computer Management
dhcpmgmt.msc = DHCP Management
dnsmgmt.msc = DNS Management
services.msc = Services
eventvwr = Event Viewer
dsa.msc = Active Directory Users and Computers
dssite.msc = Active Directory Sites and Services
Windows key + E = Explorer

ALT + Tab = Switch between windows

ALT, Space, X = Maximize window

CTRL + Shift + Esc = Task Manager

Windows key + Break = System properties

Windows key + F = Search

Windows key + D = Hide/Display all windows

CTRL + C = copy

CTRL + X = cut

CTRL + V = paste

Also don't forget about the "Right-click" key next to the right Windows key on your keyboard. Using the arrows and that key can get just about anything done once you've opened up any program.


Keyboard Shortcuts

[Alt] and [Esc] Switch between running applications

[Alt] and letter Select menu item by underlined letter

[Ctrl] and [Esc] Open Program Menu

[Ctrl] and [F4] Close active document or group windows (does not work with some applications)

[Alt] and [F4] Quit active application or close current window

[Alt] and [-] Open Control menu for active document

Ctrl] Lft., Rt. arrow Move cursor forward or back one word

Ctrl] Up, Down arrow Move cursor forward or back one paragraph

[F1] Open Help for active application

Windows+M Minimize all open windows

Shift+Windows+M Undo minimize all open windows

Windows+F1 Open Windows Help

Windows+Tab Cycle through the Taskbar buttons

Windows+Break Open the System Properties dialog box



acessability shortcuts

Right SHIFT for eight seconds........ Switch FilterKeys on and off.

Left ALT +left SHIFT +PRINT SCREEN....... Switch High Contrast on and off.

Left ALT +left SHIFT +NUM LOCK....... Switch MouseKeys on and off.

SHIFT....... five times Switch StickyKeys on and off.

NUM LOCK...... for five seconds Switch ToggleKeys on and off.

explorer shortcuts

END....... Display the bottom of the active window.

HOME....... Display the top of the active window.

NUM LOCK+ASTERISK....... on numeric keypad (*) Display all subfolders under the selected folder.

NUM LOCK+PLUS SIGN....... on numeric keypad (+) Display the contents of the selected folder.

NUM LOCK+MINUS SIGN....... on numeric keypad (-) Collapse the selected folder.

LEFT ARROW...... Collapse current selection if it's expanded, or select parent folder.

RIGHT ARROW....... Display current selection if it's collapsed, or select first subfolder.




Type the following commands in your Run Box (Windows Key + R) or Start Run

devmgmt.msc = Device Manager
msinfo32 = System Information
cleanmgr = Disk Cleanup
ntbackup = Backup or Restore Wizard (Windows Backup Utility)
mmc = Microsoft Management Console
excel = Microsoft Excel (If Installed)
msaccess = Microsoft Access (If Installed)
powerpnt = Microsoft PowerPoint (If Installed)
winword = Microsoft Word (If Installed)
frontpg = Microsoft FrontPage (If Installed)
notepad = Notepad
wordpad = WordPad
calc = Calculator
msmsgs = Windows Messenger
mspaint = Microsoft Paint
wmplayer = Windows Media Player
rstrui = System Restore
netscp6 = Netscape 6.x
netscp = Netscape 7.x
netscape = Netscape 4.x
waol = America Online
control = Opens the Control Panel
control printers = Opens the Printers Dialog


internetbrowser

type in u're adress "google", then press [Right CTRL] and [Enter]
add www. and .com to word and go to it


For Windows XP:

Copy. CTRL+C
Cut. CTRL+X
Paste. CTRL+V
Undo. CTRL+Z
Delete. DELETE
Delete selected item permanently without placing the item in the Recycle Bin. SHIFT+DELETE
Copy selected item. CTRL while dragging an item
Create shortcut to selected item. CTRL+SHIFT while dragging an item
Rename selected item. F2
Move the insertion point to the beginning of the next word. CTRL+RIGHT ARROW
Move the insertion point to the beginning of the previous word. CTRL+LEFT ARROW
Move the insertion point to the beginning of the next paragraph. CTRL+DOWN ARROW
Move the insertion point to the beginning of the previous paragraph. CTRL+UP ARROW
Highlight a block of text. CTRL+SHIFT with any of the arrow keys
Select more than one item in a window or on the desktop, or select text within a document. SHIFT with any of the arrow keys
Select all. CTRL+A
Search for a file or folder. F3
View properties for the selected item. ALT+ENTER
Close the active item, or quit the active program. ALT+F4
Opens the shortcut menu for the active window. ALT+SPACEBAR
Close the active document in programs that allow you to have multiple documents open simultaneously. CTRL+F4
Switch between open items. ALT+TAB
Cycle through items in the order they were opened. ALT+ESC
Cycle through screen elements in a window or on the desktop. F6
Display the Address bar list in My Computer or Windows Explorer. F4
Display the shortcut menu for the selected item. SHIFT+F10
Display the System menu for the active window. ALT+SPACEBAR
Display the Start menu. CTRL+ESC
Display the corresponding menu. ALT+Underlined letter in a menu name
Carry out the corresponding command. Underlined letter in a command name on an open menu
Activate the menu bar in the active program. F10
Open the next menu to the right, or open a submenu. RIGHT ARROW
Open the next menu to the left, or close a submenu. LEFT ARROW
Refresh the active window. F5
View the folder one level up in My Computer or Windows Explorer. BACKSPACE
Cancel the current task. ESC
SHIFT when you insert a CD into the CD-ROM drive Prevent the CD from automatically playing.

Use these keyboard shortcuts for dialog boxes:

To Press
Move forward through tabs. CTRL+TAB
Move backward through tabs. CTRL+SHIFT+TAB
Move forward through options. TAB
Move backward through options. SHIFT+TAB
Carry out the corresponding command or select the corresponding option. ALT+Underlined letter
Carry out the command for the active option or button. ENTER
Select or clear the check box if the active option is a check box. SPACEBAR
Select a button if the active option is a group of option buttons. Arrow keys
Display Help. F1
Display the items in the active list. F4
Open a folder one level up if a folder is selected in the Save As or Open dialog box. BACKSPACE

If you have a Microsoft Natural Keyboard, or any other compatible keyboard that includes the Windows logo key and the Application key , you can use these keyboard shortcuts:


Display or hide the Start menu. WIN Key
Display the System Properties dialog box. WIN Key+BREAK
Show the desktop. WIN Key+D
Minimize all windows. WIN Key+M
Restores minimized windows. WIN Key+Shift+M
Open My Computer. WIN Key+E
Search for a file or folder. WIN Key+F
Search for computers. CTRL+WIN Key+F
Display Windows Help. WIN Key+F1
Lock your computer if you are connected to a network domain, or switch users if you are not connected to a network domain. WIN Key+ L
Open the Run dialog box. WIN Key+R
Open Utility Manager. WIN Key+U

accessibility keyboard shortcuts:

Switch FilterKeys on and off. Right SHIFT for eight seconds
Switch High Contrast on and off. Left ALT+left SHIFT+PRINT SCREEN
Switch MouseKeys on and off. Left ALT +left SHIFT +NUM LOCK
Switch StickyKeys on and off. SHIFT five times
Switch ToggleKeys on and off. NUM LOCK for five seconds
Open Utility Manager. WIN Key+U

shortcuts you can use with Windows Explorer:


Display the bottom of the active window. END
Display the top of the active window. HOME
Display all subfolders under the selected folder. NUM LOCK+ASTERISK on numeric keypad (*)
Display the contents of the selected folder. NUM LOCK+PLUS SIGN on numeric keypad (+)
Collapse the selected folder. NUM LOCK+MINUS SIGN on numeric keypad (-)
Collapse current selection if it's expanded, or select parent folder. LEFT ARROW
Display current selection if it's collapsed, or select first subfolder. RIGHT ARROW

Posted by Tricky Updates at 11:12 PM 0 comments

Beep Codes Error Codes

After repeated requests for beep codes i have decided to post them here maybe they could be pinned

Standard Original IBM POST Error Codes
Code Description

1 short beep System is OK
2 short beeps POST Error - error code shown on screen No beep Power supply or system board problem Continuous beep Power supply, system board, or keyboard problem Repeating short beeps Power supply or system board problem
1 long, 1 short beep System board problem
1 long, 2 short beeps Display adapter problem (MDA, CGA)
1 long, 3 short beeps Display adapter problem (EGA)
3 long beeps 3270 keyboard card
IBM POST Diagnostic Code Descriptions
Code Description
100 - 199 System Board
200 - 299 Memory
300 - 399 Keyboard
400 - 499 Monochrome Display
500 - 599 Colour/Graphics Display
600 - 699 Floppy-disk drive and/or Adapter
700 - 799 Math Coprocessor
900 - 999 Parallel Printer Port
1000 - 1099 Alternate Printer Adapter
1100 - 1299 Asynchronous Communication Device, Adapter, or Port
1300 - 1399 Game Port
1400 - 1499 Colour/Graphics Printer
1500 - 1599 Synchronous Communication Device, Adapter, or Port
1700 - 1799 Hard Drive and/or Adapter
1800 - 1899 Expansion Unit (XT)
2000 - 2199 Bisynchronous Communication Adapter
2400 - 2599 EGA system-board Video (MCA)
3000 - 3199 LAN Adapter
4800 - 4999 Internal Modem
7000 - 7099 Phoenix BIOS Chips
7300 - 7399 3.5" Disk Drive
8900 - 8999 MIDI Adapter
11200 - 11299 SCSI Adapter
21000 - 21099 SCSI Fixed Disk and Controller
21500 - 21599 SCSI CD-ROM System

AMI BIOS Beep Codes
Code Description

1 Short Beep System OK
2 Short Beeps Parity error in the first 64 KB of memory
3 Short Beeps Memory failure in the first 64 KB
4 Short Beeps Memory failure in the first 64 KB Operational of memory
or Timer 1 on the motherboard is not functioning
5 Short Beeps The CPU on the motherboard generated an error
6 Short Beeps The keyboard controller may be bad. The BIOS cannot switch to protected mode
7 Short Beeps The CPU generated an exception interrupt
8 Short Beeps The system video adapter is either missing, or its memory is faulty
9 Short Beeps The ROM checksum value does not match the value encoded in the BIOS
10 Short Beeps The shutdown register for CMOS RAM failed
11 Short Beeps The external cache is faulty
1 Long, 3 Short Beeps Memory Problems
1 Long, 8 Short Beeps Video Card Problems

Phoenix BIOS Beep Codes
Note - Phoenix BIOS emits three sets of beeps, separated by a brief pause.

Code Description
1-1-3 CMOS read/write failure
1-1-4 ROM BIOS checksum error
1-2-1 Programmable interval timer failure
1-2-2 DMA initialisation failure
1-2-3 DMA page register read/write failure
1-3-1 RAM refresh verification failure
1-3-3 First 64k RAM chip or data line failure
1-3-4 First 64k RAM odd/even logic failure
1-4-1 Address line failure first 64k RAM
1-4-2 Parity failure first 64k RAM
2-_-_ Faulty Memory
3-1-_ Faulty Motherboard
3-2-4 Keyboard controller Test failure
3-3-4 Screen initialisation failure
3-4-1 Screen retrace test failure
3-4-2 Search for video ROM in progress
4-2-1 Timer tick interrupt in progress or failure
4-2-2 Shutdown test in progress or failure
4-2-3 Gate A20 failure
4-2-4 Unexpected interrupt in protected mode
4-3-1 RAM test in progress or failure>ffffh
4-3-2 Faulty Motherboard
4-3-3 Interval timer channel 2 test or failure
4-3-4 Time of Day clock test failure
4-4-1 Serial port test or failure
4-4-2 Parallel port test or failure
4-4-3 Math coprocessor test or failure
Low 1-1-2 System Board select failure
Low 1-1-3 Extended CMOS RAM failure
Posted by Tricky Updates at 11:10 PM 0 comments

Beep Code Manual

Beep Code Manual, Better Than Gold Techies, American Megatrends Int. & Phoenix

(I'm IT, I use these codes to trouble shoot hardware issues at my job. Enjoy) cold.gif

BIOS Beep Codes

When a computer is first turned on, or rebooted, its BIOS performs a power-on self test (POST) to test the system's hardware, checking to make sure that all of the system's hardware components are working properly. Under normal circumstances, the POST will display an error message; however, if the BIOS detects an error before it can access the video card, or if there is a problem with the video card, it will produce a series of beeps, and the pattern of the beeps indicates what kind of problem the BIOS has detected.
Because there are many brands of BIOS, there are no standard beep codes for every BIOS.

The two most-used brands are AMI (American Megatrends International) and Phoenix.

Below are listed the beep codes for AMI systems, and here are the beep codes for Phoenix systems.


AMI Beep Codes

Beep Code Meaning
1 beep DRAM refresh failure. There is a problem in the system memory or the motherboard.
2 beeps Memory parity error. The parity circuit is not working properly.
3 beeps Base 64K RAM failure. There is a problem with the first 64K of system memory.
4 beeps System timer not operational. There is problem with the timer(s) that control functions on the motherboard.
5 beeps Processor failure. The system CPU has failed.
6 beeps Gate A20/keyboard controller failure. The keyboard IC controller has failed, preventing gate A20 from switching the processor to protect mode.
7 beeps Virtual mode exception error.
8 beeps Video memory error. The BIOS cannot write to the frame buffer memory on the video card.
9 beeps ROM checksum error. The BIOS ROM chip on the motherboard is likely faulty.
10 beeps CMOS checksum error. Something on the motherboard is causing an error when trying to interact with the CMOS.
11 beeps Bad cache memory. An error in the level 2 cache memory.
1 long beep, 2 short Failure in the video system.
1 long beep, 3 short A failure has been detected in memory above 64K.
1 long beep, 8 short Display test failure.
Continuous beeping A problem with the memory or video.
BIOS Beep Codes


Phoenix Beep Codes

Phoenix uses sequences of beeps to indicate problems. The "-" between each number below indicates a pause between each beep sequence. For example, 1-2-3 indicates one beep, followed by a pause and two beeps, followed by a pause and three beeps. Phoenix version before 4.x use 3-beep codes, while Phoenix versions starting with 4.x use 4-beep codes. Click here for AMI BIOS beep codes.
4-Beep Codes
Beep Code Meaning
1-1-1-3 Faulty CPU/motherboard. Verify real mode.
1-1-2-1 Faulty CPU/motherboard.
1-1-2-3 Faulty motherboard or one of its components.
1-1-3-1 Faulty motherboard or one of its components. Initialize chipset registers with initial POST values.
1-1-3-2 Faulty motherboard or one of its components.
1-1-3-3 Faulty motherboard or one of its components. Initialize CPU registers.
1-1-3-2
1-1-3-3
1-1-3-4 Failure in the first 64K of memory.
1-1-4-1 Level 2 cache error.
1-1-4-3 I/O port error.
1-2-1-1 Power management error.
1-2-1-2
1-2-1-3 Faulty motherboard or one of its components.
1-2-2-1 Keyboard controller failure.
1-2-2-3 BIOS ROM error.
1-2-3-1 System timer error.
1-2-3-3 DMA error.
1-2-4-1 IRQ controller error.
1-3-1-1 DRAM refresh error.
1-3-1-3 A20 gate failure.
1-3-2-1 Faulty motherboard or one of its components.
1-3-3-1 Extended memory error.
1-3-3-3
1-3-4-1
1-3-4-3 Error in first 1MB of system memory.
1-4-1-3
1-4-2-4 CPU error.
1-4-3-1
2-1-4-1 BIOS ROM shadow error.
1-4-3-2
1-4-3-3 Level 2 cache error.
1-4-4-1
1-4-4-2
2-1-1-1 Faulty motherboard or one of its components.
2-1-1-3
2-1-2-1 IRQ failure.
2-1-2-3 BIOS ROM error.
2-1-2-4
2-1-3-2 I/O port failure.
2-1-3-1
2-1-3-3 Video system failure.
2-1-1-3
2-1-2-1 IRQ failure.
2-1-2-3 BIOS ROM error.
2-1-2-4 I/O port failure.
2-1-4-3
2-2-1-1 Video card failure.
2-2-1-3
2-2-2-1
2-2-2-3 Keyboard controller failure.
2-2-3-1 IRQ error.
2-2-4-1 Error in first 1MB of system memory.
2-3-1-1
2-3-3-3 Extended memory failure.
2-3-2-1 Faulty motherboard or one of its components.
2-3-2-3
2-3-3-1 Level 2 cache error.
2-3-4-1
2-3-4-3 Motherboard or video card failure.
2-3-4-1
2-3-4-3
2-4-1-1 Motherboard or video card failure.
2-4-1-3 Faulty motherboard or one of its components.
2-4-2-1 RTC error.
2-4-2-3 Keyboard controller error.
2-4-4-1 IRQ error.
3-1-1-1
3-1-1-3
3-1-2-1
3-1-2-3 I/O port error.
3-1-3-1
3-1-3-3 Faulty motherboard or one of its components.
3-1-4-1
3-2-1-1
3-2-1-2 Floppy drive or hard drive failure.
3-2-1-3 Faulty motherboard or one of its components.
3-2-2-1 Keyboard controller error.
3-2-2-3
3-2-3-1
3-2-4-1 Faulty motherboard or one of its components.
3-2-4-3 IRQ error.
3-3-1-1 RTC error.
3-3-1-3 Key lock error.
3-3-3-3 Faulty motherboard or one of its components.
3-3-3-3
3-3-4-1
3-3-4-3
3-4-1-1
3-4-1-3
3-4-2-1
3-4-2-3
3-4-3-1
3-4-4-1
3-4-4-4 Faulty motherboard or one of its components.
4-1-1-1 Floppy drive or hard drive failure.
4-2-1-1
4-2-1-3
4-2-2-1 IRQ failure.
4-2-2-3
4-2-3-1
4-2-3-3
4-2-4-1 Faulty motherboard or one of its components.
4-2-4-3 Keyboard controller error.
4-3-1-3
4-3-1-4
4-3-2-1
4-3-2-2
4-3-3-1
4-3-4-1
4-3-4-3 Faulty motherboard or one of its components.
4-3-3-2
4-3-3-4 IRQ failure.
4-3-3-3
4-3-4-2 Floppy drive or hard drive failure.
3-Beep Codes
Beep Code Meaning
1-1-2 Faulty CPU/motherboard.
1-1-3 Faulty motherboard/CMOS read-write failure.
1-1-4 Faulty BIOS/BIOS ROM checksum error.
1-2-1 System timer not operational. There is a problem with the timer(s) that control functions on the motherboard.
1-2-2
1-2-3 Faulty motherboard/DMA failure.
1-3-1 Memory refresh failure.
1-3-2
1-3-3
1-3-4 Failure in the first 64K of memory.
1-4-1 Address line failure.
1-4-2 Parity RAM failure.
1-4-3 Timer failure.
1-4-4 NMI port failure.
2-_-_ Any combination of beeps after 2 indicates a failure in the first 64K of memory.
3-1-1 Master DMA failure.
3-1-2 Slave DMA failure.
3-1-3
3-1-4 Interrupt controller failure.
3-2-4 Keyboard controller failure.
3-3-1
3-3-2 CMOS error.
3-3-4 Video card failure.
3-4-1 Video card failure.
4-2-1 Timer failure.
4-2-2 CMOS shutdown failure.
4-2-3 Gate A20 failure.
4-2-4 Unexpected interrupt in protected mode.
4-3-1 RAM test failure.
4-3-3 Timer failure.
4-3-4 Time of day clock failure.
4-4-1 Serial port failure.
4-4-2 Parallel port failure.
4-4-3 Math coprocessor.
Posted by Tricky Updates at 11:09 PM 0 comments

Basic Networking

11/20/89 -----------------------------
7:30 EST-10:46Est - A File By Sk8 The SkinHead-
-----------------------------


BASIC NETWORKING

Well, many people have asked me "how do i use Telenet".."how do i use an outdial". Well i have decided to write a very basic file on telenet and how to get around on the networks.

Well Telenet and others are PSN's or (Packet Switching Networks) these nets are connected to many other networks around the world. You can do alot with just basic knowledge that i have (most of you will know this and way beyond what i know but some will benefit from it) i will start with some of the terms that are often used with these services.

Access Number- The direct number that you dial to access a network (duh).

Nua (Network Users Address) - An Nua is basicly a number you type in to access that particular service think of an Nua as a phone number sorta its not an actually phone number with an Acn country code or whatever because the service is connected to the network world wide. I hope that was fairly clear let me show this think of the planet earth as an network and to reach the services on the planet you call the phone number like the service is a persons residence or business phone or payphone whatever just like on a network an Nua is the Address to a system or outdial whatever on the particular network. I hope this is clear or atleast somewhat understood.

Nui (Network User Identification) - An Nui is like a Account and Password to the network like an account and password is to a bbs that lets you access the system. Some people use Nui for like anything like an Vax system Unix systems they are referring to an Nui as basicly a account on the particular system that lets you use the system.

DNIC (Data Network Identification Code) - The DNIC is like a 4 digit code that represents what Psn it is think of an DNIC like an AreaCode and the Nua the individual phone number.

Outdial - Is basicly what it says an modem port connected somewhere on the network that will allow you to dial out from and connect data only to a actually phone number not an Nua.

Pad (Packet Assemble Disassembler) - an x.25 pad is very useful an pad using x.25. protocal transmits at 9600 bps to an Nua. This may sound funny but i call them "Launch Pads" heh like with an x.25 you can usally access any Nua on the planet by usally typing the Dnic+Nua.



Now i will explain various things and give helpful ideas.



Let me start off with some helpful things for you to try and do.

TeleNet

The first thing your going to have to have is your Access number it is very easy to get your local access number. Simply call telenet at 1-800-TELENET that is thier customer service number and ask for your dialup the operator will ask for your area code and prefix of your phone number he/she will also ask your baud rate. There are many telenet ports across the country and internationly with varying baud rates from 110 bps (yuck) to 9600 (i wish i had) so you will want your maximum baud port most locations have atleast 1200 many have 2400 and not alot have 9600 ports like for big cities like Detroit and Los Angeles at the end of the file i will list some useful numbers.
Some things to do while online with Telenet and Tymnet. While at the @ on the Telenet system type "mail" or "C mail" or "telemail" or even "c telemail" this access's telenets mail system simple entitled "Telemail" from there it will ask "user name" or something like that type "phones" next it will prompt you "password" enter "phones". The phones service has alot of worthy information it will give you a menu to choose from the rest should be self explanatory. Along with the other information on the phones service there is a complete updated list of all Telenet access numbers which is conveinent. Once you have tried the phones service also on telemail enter "Intl/Associates" as the user name and "Intl" for the international access numbers. If you are calling from overseas somewhere connect with an telenet access number then type this Nua at the telenet @ prompt "311020200142" and enter the username and password.
You might want to pick up a sort of a reference booklet on Telenet simply again call the customer service number and ask them for "How to use Telenet's Asychronus Dial Service" and give them your address which is self explanatory.
Another tidbit of info you would like to know if you already didnt know that Telenet is owned by Us Sprint long distance service.




Tymnet

The same goes for Tymnet service you will first need an Access Number. Simply call Tymnet customer service at 1-800-872-7654 and ask them. Again you might like to get Tymnets reference booklet on how to use there system simply again ask them to send it to you. Once online with a Tymnet access number type "Information" at the user name prompt and you will be connected to another nice thing on tymnet which you have access to all thier Access Numbers also just like the "phones" service on Telenet. Tymnet is owned by "Mcdowell Douglas" corporation. Unlike Telenet where a long distance company owns the network. On Tymnet in the "Information" service there is a very cool option that will provide you with all the Dnic's (Networks) available from Tymnet. You may also want to get that on buffer but for your conveinience i will include a copy of that. The file "Basic.NetworksII" is the complete listing and i would like the Basic.NetworksII file to be accompanied by this file for the most part.


Outdials

Now i will discuss Outdials and tell how to use them. An Outdial on Telenet is an Pcp Port usally. It will enable you to connect data with a carrier. An Outdial is a modem connected up to the network to access the outdial spimply type the outdials Nua. Usally you will need a Nui or Pad to use an Outdial on Telenet just to let you know. Once connected to an Outdial on Telenet type "Ctrl-e" to get into the command mode of the Outdial or if your sharp on your Hayes modem AT command set just issue the commands thru the Outdial besure to type "Atz" when logged in to reset the modem parameters to default values. Outdials range from different baud rates just like what kind of modem is hooked into the Outdial port. This is the basic Telenet Outdial but there are many types a Tymnet Asychronus is a very good Outdial to use like i said there are many different types the above is for Telenet Pcp Outdials which are used most widely.


Scanning Telenet


Well now i will explain how to scan telenet and how to find Pcp outdials etc. When scanning telenet call your Access Number and at the prompt enter the Nua. Plan to scan a certain amount of Nua's in a session wether the number is up to you, usally when i scan i scan in blocks of 100 you can find alot of things while scanning. I will tell how to find pcp outdials, first if your looking for a particular area code for the outdial take the 313 area code for example usally an outdial is in the first 150 numbers scanned so i would suggest if scanning for outdials scan like this..the area code for which you want the outdial two 0's then a three digit number so the scan would look like this...31300001,31300002,31300003 etc.. im sure you get it...along the way you will probably find other neat things. Some things to know when scanning telenet is when you enter an Nua and it freezes like wont do anything send a break signal, for me i use Proterm for the Apple the break signal is open-apple b once the break signal is sent it should go back to a @ prompt again. If you try scanning another nua directly after you broke out from the frozen portion Telenet will give you an error message "Connection Pending" which means it is still looking for the Nua system from which you requested previously. To remedy this situation after the break signal is sent type "d" for disconnect it will then tell you the connection has been terminated. Proceed scanning the Nua continuing where you left off. (Note. you will get the freeze and have to repeat the sequence over and over again as of there are A LOT of Nuas that freeze) Well i bet your asking "how do i know when ive found an outdial?" usally Telenet will respond with a connect message and then nothing try to type "Atz" if it responds "ok" then you have a Outdial port where as Atz is the hayes modem command for reseting the modems paramaters to default settings. Ok now i will explain some things to look for and some wise things to do while scanning and also supply an response key explanations.
Whenever you "Connected" to an Nua write it down no matter what it is make notes of what you find and label them for instance if you encounter any of these messages.
User Name = a Vax System
Login = a Unix system
Primenet = a prime system
Password = something worth noting

Basicly anything that connects take note of this is very useful for finding systems to hack on even though most or all of Telenet has been scanned at one time or another there are always somethings to do! that is a FACT! Be sure to write down all "Refused Collect Connection" also because we must not forget that when we request an Nua that we are asking for a collect call all Nuas inputed on Telenet without an Nui are being paid for by the particlar system requested that is why when an Outdials Nua is requested without any sort of Pad,Nui etc. it will not excecpt the call in all cases i have encountered

Here is a list of Network Messages that Telenet will respond with remember these are for any type of Telenet access the following may appear and a completed explanation.

@ is the network command prompt
? the last entry was invalid
Access Bared - Your connection request does not allow you to connect to this system

Access to This Address not permitted - Your Nui is not authorized to access the address you typed

Attempt Aborted - You enterd the disconnect command (as we said before when it freezes when scanning)

Busy - All the ports,destinations are in use try again later

Collect Wats Call Not Permitted - Collect Wats calls not permitted by your host or authorized by your Nui

Connected - Your terminal has been connected to the Nua system you requested

Connection From - Your terminal has been called by another computer or terminal

Connection Pending - The Network is try to establish a connection with the Nua you requested (enter the d command or "bye" to disconnect the attempt)

Disconnected - Your terminal has been disconnected from the terminal you called

Enhanced Network Services System Error - Your call couldnt be validated contact customer service

Enhanced Network services unavailable at this time - Serivce is temporarily unavailable try again later

Illegal Address - enter the Connect sequence again whether it be an Nua or a system name

Invalid Charge Request - your payment selection is not valid

Invalid User Id or Password - The Nui you entered is not valid
Local Congestion - Your local Access number is busy try again in a couple minutes

Local Disconnect - Your Terminal has been disconnected

Local Network Outage - A temporary problem is preventing you from using the network

Local Procedure Error - Communication problems by the network caused the network to clear your call

Not Available,Not Operating,Not Responding - Your Computer cannot accept your request for connection try later

Not Connected - You have entered a command thai s only valid when connected to a system type "cont" to be brought back into the connection

Not Reachable - A temporary conditon prevents you from using the network

Password - This is the prompt which apprears after youve entered an Nui

*** Possible Data Loss - connecton has been reset

Refused Collect Connection - Your payment selection must be prepaid

Rejecting - Host copmputer refuses to accept the call

Remote Procedure Error - Communication problems forced the network to clear our call

Still Connected - You requested another service while your online to another

Telenet XXX XXX - Network Port you are using

Terminal - This is the terminal type prompt

Unable to validate call - Your Nui has been temporarily disbaled

Unable to validate call contact admin - The Nui has been permently disabled
Unknown Adress - Your Nua may be invalid

Wats Call not permitted - Telenet In-wats calls are not permitted by your host or your Nui


Well that is the end of the Telenet messages and this is the end of our file only left is the numbers i have and some other usual stuff


Telenet Customer service 1-800-TELENET
Tymnet Customer service 1-800-872-7654
Telenet Access # 313/964-2988 1200 bps 313/963-2274 2400 313/964-3133 9600 bps
Tymnet Access# 313/962-2870
Global Outdial at 20200123

Well that is about it id like to greet some people here SoldierOfFortune,Frodo,TheBit,Hellraiser,Icecube,Slaytanic,Corrupt,Lorax,Deadman#The Disk Master,The Hunter,DPAK,MOD,Rat,The Traxster,The Apple Bandit,El Cid,Shadow,Blue Adept,Blacknight,LOD,HALE,DungeonMaster,Blackbeard,Kilroy,The Whole Interchat scene,All my buddys from the alliances,Gambler,Sabers Edge,Misfit,The Flash,Qsd friends,All the people who called my Vmb'z for "Rad Infoz" and helped to keep it going and all the whole people you make a difference "All you Kids out There keep the Faith!"

I can be reached on Funtime Gs at 305-989-0181 d215*guest is the new user pass
I can be reached at this Vmb 313-980-5632
and soon im going to be running a bbs with a friend of mine so be sure to look for that like i said im outta here Slaytze!!!!


Text-Files 2:
Posted by Tricky Updates at 11:07 PM 0 comments

BandWidth Explained

This is well written explanation about bandwidth, very useful info.



BandWidth Explained

Most hosting companies offer a variety of bandwidth options in their plans. So exactly what is bandwidth as it relates to web hosting? Put simply, bandwidth is the amount of traffic that is allowed to occur between your web site and the rest of the internet. The amount of bandwidth a hosting company can provide is determined by their network connections, both internal to their data center and external to the public internet.


Network Connectivity

The internet, in the most simplest of terms, is a group of millions of computers connected by networks. These connections within the internet can be large or small depending upon the cabling and equipment that is used at a particular internet location. It is the size of each network connection that determines how much bandwidth is available. For example, if you use a DSL connection to connect to the internet, you have 1.54 Mega bits (Mb) of bandwidth. Bandwidth therefore is measured in bits (a single 0 or 1). Bits are grouped in bytes which form words, text, and other information that is transferred between your computer and the internet.

If you have a DSL connection to the internet, you have dedicated bandwidth between your computer and your internet provider. But your internet provider may have thousands of DSL connections to their location. All of these connection aggregate at your internet provider who then has their own dedicated connection to the internet (or multiple connections) which is much larger than your single connection. They must have enough bandwidth to serve your computing needs as well as all of their other customers. So while you have a 1.54Mb connection to your internet provider, your internet provider may have a 255Mb connection to the internet so it can accommodate your needs and up to 166 other users (255/1.54).


Traffic

A very simple analogy to use to understand bandwidth and traffic is to think of highways and cars. Bandwidth is the number of lanes on the highway and traffic is the number of cars on the highway. If you are the only car on a highway, you can travel very quickly. If you are stuck in the middle of rush hour, you may travel very slowly since all of the lanes are being used up.

Traffic is simply the number of bits that are transferred on network connections. It is easiest to understand traffic using examples. One Gigabyte is 2 to the 30th power (1,073,741,824) bytes. One gigabyte is equal to 1,024 megabytes. To put this in perspective, it takes one byte to store one character. Imagine 100 file cabinets in a building, each of these cabinets holds 1000 folders. Each folder has 100 papers. Each paper contains 100 characters - A GB is all the characters in the building. An MP3 song is about 4MB, the same song in wav format is about 40MB, a full length movie can be 800MB to 1000MB (1000MB = 1GB).

If you were to transfer this MP3 song from a web site to your computer, you would create 4MB of traffic between the web site you are downloading from and your computer. Depending upon the network connection between the web site and the internet, the transfer may occur very quickly, or it could take time if other people are also downloading files at the same time. If, for example, the web site you download from has a 10MB connection to the internet, and you are the only person accessing that web site to download your MP3, your 4MB file will be the only traffic on that web site. However, if three people are all downloading that same MP at the same time, 12MB (3 x 4MB) of traffic has been created. Because in this example, the host only has 10MB of bandwidth, someone will have to wait. The network equipment at the hosting company will cycle through each person downloading the file and transfer a small portion at a time so each person's file transfer can take place, but the transfer for everyone downloading the file will be slower. If 100 people all came to the site and downloaded the MP3 at the same time, the transfers would be extremely slow. If the host wanted to decrease the time it took to download files simultaneously, it could increase the bandwidth of their internet connection (at a cost due to upgrading equipment).


Hosting Bandwidth

In the example above, we discussed traffic in terms of downloading an MP3 file. However, each time you visit a web site, you are creating traffic, because in order to view that web page on your computer, the web page is first downloaded to your computer (between the web site and you) which is then displayed using your browser software (Internet Explorer, Netscape, etc.) . The page itself is simply a file that creates traffic just like the MP3 file in the example above (however, a web page is usually much smaller than a music file).

A web page may be very small or large depending upon the amount of text and the number and quality of images integrated within the web page. For example, the home page for CNN.com is about 200KB (200 Kilobytes = 200,000 bytes = 1,600,000 bits). This is typically large for a web page. In comparison, Yahoo's home page is about 70KB.


How Much Bandwidth Is Enough?

It depends (don't you hate that answer). But in truth, it does. Since bandwidth is a significant determinant of hosting plan prices, you should take time to determine just how much is right for you. Almost all hosting plans have bandwidth requirements measured in months, so you need to estimate the amount of bandwidth that will be required by your site on a monthly basis

If you do not intend to provide file download capability from your site, the formula for calculating bandwidth is fairly straightforward:

Average Daily Visitors x Average Page Views x Average Page Size x 31 x Fudge Factor

If you intend to allow people to download files from your site, your bandwidth calculation should be:

[(Average Daily Visitors x Average Page Views x Average Page Size) +
(Average Daily File Downloads x Average File Size)] x 31 x Fudge Factor

Let us examine each item in the formula:

Average Daily Visitors - The number of people you expect to visit your site, on average, each day. Depending upon how you market your site, this number could be from 1 to 1,000,000.

Average Page Views - On average, the number of web pages you expect a person to view. If you have 50 web pages in your web site, an average person may only view 5 of those pages each time they visit.

Average Page Size - The average size of your web pages, in Kilobytes (KB). If you have already designed your site, you can calculate this directly.

Average Daily File Downloads - The number of downloads you expect to occur on your site. This is a function of the numbers of visitors and how many times a visitor downloads a file, on average, each day.

Average File Size - Average file size of files that are downloadable from your site. Similar to your web pages, if you already know which files can be downloaded, you can calculate this directly.

Fudge Factor - A number greater than 1. Using 1.5 would be safe, which assumes that your estimate is off by 50%. However, if you were very unsure, you could use 2 or 3 to ensure that your bandwidth requirements are more than met.

Usually, hosting plans offer bandwidth in terms of Gigabytes (GB) per month. This is why our formula takes daily averages and multiplies them by 31.


Summary

Most personal or small business sites will not need more than 1GB of bandwidth per month. If you have a web site that is composed of static web pages and you expect little traffic to your site on a daily basis, go with a low bandwidth plan. If you go over the amount of bandwidth allocated in your plan, your hosting company could charge you over usage fees, so if you think the traffic to your site will be significant, you may want to go through the calculations above to estimate the amount of bandwidth required in a hosting plan.
Posted by Tricky Updates at 11:05 PM 0 comments

INTRODUCTION TO DENIAL OF SERVICE

===================================
=INTRODUCTION TO DENIAL OF SERVICE=
===================================

Hans Husman
t95hhu@student.tdb.uu.se
Last updated: Mon Oct 28 14:56:31 MET 1996

.0. FOREWORD

.A. INTRODUCTION
.A.1. WHAT IS A DENIAL OF SERVICE ATTACK?
.A.2. WHY WOULD SOMEONE CRASH A SYSTEM?
.A.2.1. INTRODUCTION
.A.2.2. SUB-CULTURAL STATUS
.A.2.3. TO GAIN ACCESS
.A.2.4. REVENGE
.A.2.5. POLITICAL REASONS
.A.2.6. ECONOMICAL REASONS
.A.2.7. NASTINESS
.A.3. ARE SOME OPERATING SYSTEMS MORE SECURE?

.B. SOME BASIC TARGETS FOR AN ATTACK
.B.1. SWAP SPACE
.B.2. BANDWIDTH
.B.3. KERNEL TABLES
.B.4. RAM
.B.5. DISKS
.B.6. CACHES
.B.7. INETD

.C. ATTACKING FROM THE OUTSIDE
.C.1. TAKING ADVANTAGE OF FINGER
.C.2. UDP AND SUNOS 4.1.3.
.C.3. FREEZING UP X-WINDOWS
.C.4. MALICIOUS USE OF UDP SERVICES
.C.5. ATTACKING WITH LYNX CLIENTS
.C.6. MALICIOUS USE OF telnet
.C.7. MALICIOUS USE OF telnet UNDER SOLARIS 2.4
.C.8. HOW TO DISABLE ACCOUNTS
.C.9. LINUX AND TCP TIME, DAYTIME
.C.10. HOW TO DISABLE SERVICES
.C.11. PARAGON OS BETA R1.4
.C.12. NOVELLS NETWARE FTP
.C.13. ICMP REDIRECT ATTACKS
.C.14. BROADCAST STORMS
.C.15. EMAIL BOMBING AND SPAMMING
.C.16. TIME AND KERBEROS
.C.17. THE DOT DOT BUG
.C.18. SUNOS KERNEL PANIC
.C.19. HOSTILE APPLETS
.C.20. VIRUS
.C.21. ANONYMOUS FTP ABUSE
.C.22. SYN FLOODING
.C.23. PING FLOODING
.C.24. CRASHING SYSTEMS WITH PING FROM WINDOWS 95 MACHINES
.C.25. MALICIOUS USE OF SUBNET MASK REPLY MESSAGE
.C.26. FLEXlm
.C.27. BOOTING WITH TRIVIAL FTP

.D. ATTACKING FROM THE INSIDE
.D.1. KERNEL PANIC UNDER SOLARIS 2.3
.D.2. CRASHING THE X-SERVER
.D.3. FILLING UP THE HARD DISK
.D.4. MALICIOUS USE OF eval
.D.5. MALICIOUS USE OF fork()
.D.6. CREATING FILES THAT IS HARD TO REMOVE
.D.7. DIRECTORY NAME LOOKUPCACHE
.D.8. CSH ATTACK
.D.9. CREATING FILES IN /tmp
.D.10. USING RESOLV_HOST_CONF
.D.11. SUN 4.X AND BACKGROUND JOBS
.D.12. CRASHING DG/UX WITH ULIMIT
.D.13. NETTUNE AND HP-UX
.D.14. SOLARIS 2.X AND NFS
.D.15. SYSTEM STABILITY COMPROMISE VIA MOUNT_UNION
.D.16. trap_mon CAUSES KERNEL PANIC UNDER SUNOS 4.1.X

.E. DUMPING CORE
.E.1. SHORT COMMENT
.E.2. MALICIOUS USE OF NETSCAPE
.E.3. CORE DUMPED UNDER WUFTPD
.E.4. ld UNDER SOLARIS/X86

.F. HOW DO I PROTECT A SYSTEM AGAINST DENIAL OF SERVICE ATTACKS?
.F.1. BASIC SECURITY PROTECTION
.F.1.1. INTRODUCTION
.F.1.2. PORT SCANNING
.F.1.3. CHECK THE OUTSIDE ATTACKS DESCRIBED IN THIS PAPER
.F.1.4. CHECK THE INSIDE ATTACKS DESCRIBED IN THIS PAPER
.F.1.5. EXTRA SECURITY SYSTEMS
.F.1.6. MONITORING SECURITY
.F.1.7. KEEPING UP TO DATE
.F.1.8. READ SOMETHING BETTER
.F.2. MONITORING PERFORMANCE
.F.2.1. INTRODUCTION
.F.2.2. COMMANDS AND SERVICES
.F.2.3. PROGRAMS
.F.2.4. ACCOUNTING

.G. SUGGESTED READING
.G.1. INFORMATION FOR DEEPER KNOWLEDGE
.G.2. KEEPING UP TO DATE INFORMATION
.G.3. BASIC INFORMATION

.H. COPYRIGHT

.I. DISCLAIMER

.0. FOREWORD
------------

In this paper I have tried to answer the following questions:

- What is a denial of service attack?
- Why would someone crash a system?
- How can someone crash a system.
- How do I protect a system against denial of service attacks?
I also have a section called SUGGESTED READING were you can find
information about good free information that can give you a deeper
understanding about something.

Note that I have a very limited experience with Macintosh, OS/2 and
Windows and most of the material are therefore for Unix use.

You can always find the latest version at the following address:
http://www.student.tdb.uu.se/~t95hhu/secure/denial/DENIAL.TXT

Feel free to send comments, tips and so on to address:
t95hhu@student.tdb.uu.se

.A. INTRODUCTION
~~~~~~~~~~~~~~~~

.A.1. WHAT IS A DENIAL OF SERVICE ATTACK?
-----------------------------------------

Denial of service is about without permission knocking off
services, for example through crashing the whole system. This
kind of attacks are easy to launch and it is hard to protect
a system against them. The basic problem is that Unix
assumes that users on the system or on other systems will be
well behaved.

.A.2. WHY WOULD SOMEONE CRASH A SYSTEM?
---------------------------------------
.A.2.1. INTRODUCTION
--------------------

Why would someone crash a system? I can think of several reasons
that I have presentated more precisely in a section for each reason,
but for short:

.1. Sub-cultural status.
.2. To gain access.
.3. Revenge.
.4. Political reasons.
.5. Economical reasons.
.6. Nastiness.

I think that number one and six are the more common today, but that
number four and five will be the more common ones in the future.

.A.2.2. SUB-CULTURAL STATUS
---------------------------

After all information about syn flooding a bunch of such attacks
were launched around Sweden. The very most of these attacks were
not a part of a IP-spoof attack, it was "only" a denial of service
attack. Why?

I think that hackers attack systems as a sub-cultural pseudo career
and I think that many denial of service attacks, and here in the
example syn flooding, were performed for these reasons. I also think
that many hackers begin their carrer with denial of service attacks.

.A.2.3. TO GAIN ACCESS
----------------------

Sometimes could a denial of service attack be a part of an attack to
gain access at a system. At the moment I can think of these reasons
and specific holes:

.1. Some older X-lock versions could be crashed with a
method from the denial of service family leaving the system
open. Physical access was needed to use the work space after.

.2. Syn flooding could be a part of a IP-spoof attack method.

.3. Some program systems could have holes under the startup,
that could be used to gain root, for example SSH (secure shell).

.4. Under an attack it could be usable to crash other machines
in the network or to deny certain persons the ability to access
the system.

.5. Also could a system being booted sometimes be subverted,
especially rarp-boots. If we know which port the machine listen
to (69 could be a good guess) under the boot we can send false
packets to it and almost totally control the boot.

.A.2.4. REVENGE
---------------

A denial of service attack could be a part of a revenge against a user
or an administrator.

.A.2.5. POLITICAL REASONS
-------------------------

Sooner or later will new or old organizations understand the potential
of destroying computer systems and find tools to do it.

For example imaginate the Bank A loaning company B money to build a
factory threating the environment. The organization C therefor crash A:s
computer system, maybe with help from an employee. The attack could cost
A a great deal of money if the timing is right.

.A.2.6. ECONOMICAL REASONS
--------------------------

Imaginate the small company A moving into a business totally dominated by
company B. A and B customers make the orders by computers and depends
heavily on that the order is done in a specific time (A and B could be
stock trading companies). If A and B can't perform the order the customers
lose money and change company.

As a part of a business strategy A pays a computer expert a sum of money to
get him to crash B:s computer systems a number of times. A year later A
is the dominating company.

.A.2.7. NASTINESS
-----------------

I know a person that found a workstation where the user had forgotten to
logout. He sat down and wrote a program that made a kill -9 -1 at a
random time at least 30 minutes after the login time and placed a call to
the program from the profile file. That is nastiness.

.A.3. ARE SOME OPERATING SYSTEMS MORE SECURE?
---------------------------------------------

This is a hard question to answer and I don't think that it will
give anything to compare different Unix platforms. You can't say that
one Unix is more secure against denial of service, it is all up to the
administrator.

A comparison between Windows 95 and NT on one side and Unix on the
other could however be interesting.

Unix systems are much more complex and have hundreds of built in programs,
services... This always open up many ways to crash the system from
the inside.

In the normal Windows NT and 95 network were is few ways to crash
the system. Although were is methods that always will work.

That gives us that no big different between Microsoft and Unix can
be seen regardning the inside attacks. But there is a couple of
points left:

- Unix have much more tools and programs to discover an
attack and monitoring the users. To watch what another user
is up to under windows is very hard.

- The average Unix administrator probably also have much more
experience than the average Microsoft administrator.

The two last points gives that Unix is more secure against inside
denial of service attacks.

A comparison between Microsoft and Unix regarding outside attacks
are much more difficult. However I would like to say that the average
Microsoft system on the Internet are more secure against outside
attacks, because they normally have much less services.

.B. SOME BASIC TARGETS FOR AN ATTACK
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

.B.1. SWAP SPACE
----------------

Most systems have several hundred Mbytes of swap space to
service client requests. The swap space is typical used
for forked child processes which have a short life time.
The swap space will therefore almost never in a normal
cause be used heavily. A denial of service could be based
on a method that tries to fill up the swap space.

.B.2. BANDWIDTH
---------------

If the bandwidth is to high the network will be useless. Most
denial of service attack influence the bandwidth in some way.

.B.3. KERNEL TABLES
-------------------

It is trivial to overflow the kernel tables which will cause
serious problems on the system. Systems with write through
caches and small write buffers is especially sensitive.

Kernel memory allocation is also a target that is sensitive.
The kernel have a kernelmap limit, if the system reach this
limit it can not allocate more kernel memory and must be rebooted.
The kernel memory is not only used for RAM, CPU:s, screens and so
on, it it also used for ordinaries processes. Meaning that any system
can be crashed and with a mean (or in some sense good) algorithm pretty
fast.

For Solaris 2.X it is measured and reported with the sar command
how much kernel memory the system is using, but for SunOS 4.X there
is no such command. Meaning that under SunOS 4.X you don't even can
get a warning. If you do use Solaris you should write sar -k 1 to
get the information. netstat -k can also be used and shows how much
memory the kernel have allocated in the subpaging.
.B.4. RAM
---------

A denial of service attack that allocates a large amount of RAM
can make a great deal of problems. NFS and mail servers are
actually extremely sensitive because they do not need much
RAM and therefore often don't have much RAM. An attack at
a NFS server is trivial. The normal NFS client will do a
great deal of caching, but a NFS client can be anything
including the program you wrote yourself...

.B.5. DISKS
-----------

A classic attack is to fill up the hard disk, but an attack at
the disks can be so much more. For example can an overloaded disk
be misused in many ways.

.B.6. CACHES
-------------

A denial of service attack involving caches can be based on a method
to block the cache or to avoid the cache.

These caches are found on Solaris 2.X:

Directory name lookup cache: Associates the name of a file with a vnode.

Inode cache: Cache information read from disk in case it is needed
again.

Rnode cache: Holds information about the NFS filesystem.

Buffer cache: Cache inode indirect blocks and cylinders to realed disk
I/O.

.B.7. INETD
-----------

Well once inetd crashed all other services running through inetd no
longer will work.


.C. ATTACKING FROM THE OUTSIDE
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~


.C.1. TAKING ADVANTAGE OF FINGER
--------------------------------

Most fingerd installations support redirections to an other host.

Ex:

$finger @system.two.com@system.one.com

finger will in the example go through system.one.com and on to
system.two.com. As far as system.two.com knows it is system.one.com
who is fingering. So this method can be used for hiding, but also
for a very dirty denial of service attack. Lock at this:

$ finger @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@host.we.attack

All those @ signs will get finger to finger host.we.attack again and
again and again... The effect on host.we.attack is powerful and
the result is high bandwidth, short free memory and a hard disk with
less free space, due to all child processes (compare with .D.5.).

The solution is to install a fingerd which don't support redirections,
for example GNU finger. You could also turn the finger service off,
but I think that is just a bit to much.

.C.2. UDP AND SUNOS 4.1.3.
--------------------------

SunOS 4.1.3. is known to boot if a packet with incorrect information
in the header is sent to it. This is the cause if the ip_options
indicate a wrong size of the packet.

The solution is to install the proper patch.

.C.3. FREEZING UP X-WINDOWS
---------------------------

If a host accepts a telnet session to the X-Windows port (generally
somewhere between 6000 and 6025. In most cases 6000) could that
be used to freeze up the X-Windows system. This can be made with
multiple telnet connections to the port or with a program which
sends multiple XOpenDisplay() to the port.

The same thing can happen to Motif or Open Windows.

The solution is to deny connections to the X-Windows port.

.C.4. MALICIOUS USE OF UDP SERVICES
-----------------------------------

It is simple to get UDP services (echo, time, daytime, chargen) to
loop, due to trivial IP-spoofing. The effect can be high bandwidth
that causes the network to become useless. In the example the header
claim that the packet came from 127.0.0.1 (loopback) and the target
is the echo port at system.we.attack. As far as system.we.attack knows
is 127.0.0.1 system.we.attack and the loop has been establish.

Ex:

from-IP=127.0.0.1
to-IP=system.we.attack
Packet type:UDP
from UDP port 7
to UDP port 7

Note that the name system.we.attack looks like a DNS-name, but the
target should always be represented by the IP-number.

Quoted from proberts@clark.net (Paul D. Robertson) comment on
comp.security.firewalls on matter of "Introduction to denial of service"
" A great deal of systems don't put loopback on the wire, and simply
emulate it. Therefore, this attack will only effect that machine
in some cases. It's much better to use the address of a different
machine on the same network. Again, the default services should
be disabled in inetd.conf. Other than some hacks for mainframe IP
stacks that don't support ICMP, the echo service isn't used by many
legitimate programs, and TCP echo should be used instead of UDP
where it is necessary. "

.C.5. ATTACKING WITH LYNX CLIENTS
---------------------------------

A World Wide Web server will fork an httpd process as a respond
to a request from a client, typical Netscape or Mosaic. The process
lasts for less than one second and the load will therefore never
show up if someone uses ps. In most causes it is therefore very
safe to launch a denial of service attack that makes use of
multiple W3 clients, typical lynx clients. But note that the netstat
command could be used to detect the attack (thanks to Paul D. Robertson).

Some httpd:s (for example http-gw) will have problems besides the normal
high bandwidth, low memory... And the attack can in those causes get
the server to loop (compare with .C.6.)

.C.6. MALICIOUS USE OF telnet
-----------------------------

Study this little script:

Ex:

while : ; do
telnet system.we.attack &
done

An attack using this script might eat some bandwidth, but it is
nothing compared to the finger method or most other methods. Well
the point is that some pretty common firewalls and httpd:s thinks
that the attack is a loop and turn them self down, until the
administrator sends kill -HUP.

This is a simple high risk vulnerability that should be checked
and if present fixed.

.C.7. MALICIOUS USE OF telnet UNDER SOLARIS 2.4
-----------------------------------------------

If the attacker makes a telnet connections to the Solaris 2.4 host and
quits using:

Ex:

Control-}
quit

then will inetd keep going "forever". Well a couple of hundred...

The solution is to install the proper patch.

.C.8. HOW TO DISABLE ACCOUNTS
-----------------------------

Some systems disable an account after N number of bad logins, or waits
N seconds. You can use this feature to lock out specific users from
the system.

.C.9. LINUX AND TCP TIME, DAYTIME
----------------------------------

Inetd under Linux is known to crash if to many SYN packets sends to
daytime (port 13) and/or time (port 37).

The solution is to install the proper patch.

.C.10. HOW TO DISABLE SERVICES
------------------------------

Most Unix systems disable a service after N sessions have been
open in a given time. Well most systems have a reasonable default
(lets say 800 - 1000), but not some SunOS systems that have the
default set to 48...

The solutions is to set the number to something reasonable.

.C.11. PARAGON OS BETA R1.4
---------------------------

If someone redirects an ICMP (Internet Control Message Protocol) packet
to a paragon OS beta R1.4 will the machine freeze up and must be
rebooted. An ICMP redirect tells the system to override routing
tables. Routers use this to tell the host that it is sending
to the wrong router.

The solution is to install the proper patch.

.C.12. NOVELLS NETWARE FTP
--------------------------

Novells Netware FTP server is known to get short of memory if multiple
ftp sessions connects to it.

.C.13. ICMP REDIRECT ATTACKS
----------------------------

Gateways uses ICMP redirect to tell the system to override routing
tables, that is telling the system to take a better way. To be able
to misuse ICMP redirection we must know an existing connection
(well we could make one for ourself, but there is not much use for that).
If we have found a connection we can send a route that
loses it connectivity or we could send false messages to the host
if the connection we have found don't use cryptation.

Ex: (false messages to send)

DESTINATION UNREACHABLE
TIME TO LIVE EXCEEDED
PARAMETER PROBLEM
PACKET TOO BIG

The effect of such messages is a reset of the connection.

The solution could be to turn ICMP redirects off, not much proper use
of the service.

.C.14. BROADCAST STORMS
-----------------------

This is a very popular method in networks there all of the hosts are
acting as gateways.

There are many versions of the attack, but the basic method is to
send a lot of packets to all hosts in the network with a destination
that don't exist. Each host will try to forward each packet so
the packets will bounce around for a long time. And if new packets
keep coming the network will soon be in trouble.

Services that can be misused as tools in this kind of attack is for
example ping, finger and sendmail. But most services can be misused
in some way or another.

.C.15. EMAIL BOMBING AND SPAMMING
---------------------------------

In a email bombing attack the attacker will repeatedly send identical
email messages to an address. The effect on the target is high bandwidth,
a hard disk with less space and so on... Email spamming is about sending
mail to all (or rather many) of the users of a system. The point of
using spamming instead of bombing is that some users will try to
send a replay and if the address is false will the mail bounce back. In
that cause have one mail transformed to three mails. The effect on the
bandwidth is obvious.

There is no way to prevent email bombing or spamming. However have
a look at CERT:s paper "Email bombing and spamming".

.C.16. TIME AND KERBEROS
------------------------

If not the the source and target machine is closely aligned will the
ticket be rejected, that means that if not the protocol that set the
time is protected it will be possible to set a kerberos server of
function.

.C.17. THE DOT DOT BUG
----------------------

Windows NT file sharing system is vulnerable to the under Windows 95
famous dot dot bug (dot dot like ..). Meaning that anyone can crash
the system. If someone sends a "DIR ..\" to the workstation will a
STOP messages appear on the screen on the Windows NT computer. Note that
it applies to version 3.50 and 3.51 for both workstation and server
version.

The solution is to install the proper patch.

.C.18. SUNOS KERNEL PANIC
-------------------------

Some SunOS systems (running TIS?) will get a kernel panic if a
getsockopt() is done after that a connection has been reset.

The solution could be to install Sun patch 100804.

.C.19. HOSTILE APPLETS
----------------------

A hostile applet is any applet that attempts to use your system
in an inappropriate manner. The problems in the java language
could be sorted in two main groups:

1) Problems due to bugs.
2) Problems due to features in the language.

In group one we have for example the java bytecode verifier bug, which
makes is possible for an applet to execute any command that the user
can execute. Meaning that all the attack methods described in .D.X.
could be executed through an applet. The java bytecode verifier bug
was discovered in late March 1996 and no patch have yet been available
(correct me if I'am wrong!!!).

Note that two other bugs could be found in group one, but they
are both fixed in Netscape 2.01 and JDK 1.0.1.

Group two are more interesting and one large problem found is the
fact that java can connect to the ports. Meaning that all the methods
described in .C.X. can be performed by an applet. More information
and examples could be found at address:
http://www.math.gatech.edu/~mladue/HostileArticle.html

If you need a high level of security you should use some sort of
firewall for protection against java. As a user you could have
java disable.

.C.20. VIRUS
------------

Computer virus is written for the purpose of spreading and
destroying systems. Virus is still the most common and famous
denial of service attack method.

It is a misunderstanding that virus writing is hard. If you know
assembly language and have source code for a couple of virus it
is easy. Several automatic toolkits for virus construction could
also be found, for example:
* Genvir.
* VCS (Virus Construction Set).
* VCL (Virus Construction Laboratory).
* PS-MPC (Phalcon/Skism - Mass Produced Code Generator).
* IVP (Instant Virus Production Kit).
* G2 (G Squared).

PS-MPC and VCL is known to be the best and can help the novice programmer
to learn how to write virus.

An automatic tool called MtE could also be found. MtE will transform
virus to a polymorphic virus. The polymorphic engine of MtE is well
known and should easily be catch by any scanner.

.C.21. ANONYMOUS FTP ABUSE
--------------------------

If an anonymous FTP archive have a writable area it could be misused
for a denial of service attack similar with with .D.3. That is we can
fill up the hard disk.

Also can a host get temporarily unusable by massive numbers of
FTP requests.

For more information on how to protect an anonymous FTP site could
CERT:s "Anonymous FTP Abuses" be a good start.

.C.22. SYN FLOODING
-------------------

Both 2600 and Phrack have posted information about the syn flooding attack.
2600 have also posted exploit code for the attack.

As we know the syn packet is used in the 3-way handshake. The syn flooding
attack is based on an incomplete handshake. That is the attacker host
will send a flood of syn packet but will not respond with an ACK packet.
The TCP/IP stack will wait a certain amount of time before dropping
the connection, a syn flooding attack will therefore keep the syn_received
connection queue of the target machine filled.

The syn flooding attack is very hot and it is easy to find more information
about it, for example:

[.1.] http://www.eecs.nwu.edu/~jmyers/bugtraq/1354.html
Article by Christopher Klaus, including a "solution".
[.2.] http://jya.com/floodd.txt
2600, Summer, 1996, pp. 6-11. FLOOD WARNING by Jason Fairlane

[.3.] http://www.fc.net/phrack/files/p48/p48-14.html
IP-spoofing Demystified by daemon9 / route / infinity
for Phrack Magazine

.C.23. PING FLOODING
--------------------

I haven't tested how big the impact of a ping flooding attack is, but
it might be quite big.

Under Unix we could try something like: ping -s host
to send 64 bytes packets.

If you have Windows 95, click the start button, select RUN, then type
in: PING -T -L 256 xxx.xxx.xxx.xx. Start about 15 sessions.

.C.24. CRASHING SYSTEMS WITH PING FROM WINDOWS 95 MACHINES
----------------------------------------------------------

If someone can ping your machine from a Windows 95 machine he or she might
reboot or freeze your machine. The attacker simply writes:

ping -l 65510 address.to.the.machine

And the machine will freeze or reboot.

Works for kernel 2.0.7 up to version 2.0.20. and 2.1.1. for Linux (crash).
AIX4, OSF, HPUX 10.1, DUnix 4.0 (crash).
OSF/1, 3.2C, Solaris 2.4 x86 (reboot).

.C.25. MALICIOUS USE OF SUBNET MASK REPLY MESSAGE
--------------------------------------------------

The subnet mask reply message is used under the reboot, but some
hosts are known to accept the message any time without any check.
If so all communication to or from the host us turned off, it's dead.

The host should not accept the message any time but under the reboot.

.C.26. FLEXlm
-------------

Any host running FLEXlm can get the FLEXlm license manager daemon
on any network to shutdown using the FLEXlm lmdown command.

# lmdown -c /etc/licence.dat
lmdown - Copyright (C) 1989, 1991 Highland Software, Inc.

Shutting down FLEXlm on nodes: xxx
Are you sure? [y/n]: y
Shut down node xxx
#

.C.27. BOOTING WITH TRIVIAL FTP
-------------------------------

To boot diskless workstations one often use trivial ftp with rarp or
bootp. If not protected an attacker can use tftp to boot the host.


.D. ATTACKING FROM THE INSIDE
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

.D.1. KERNEL PANIC UNDER SOLARIS 2.3
------------------------------------

Solaris 2.3 will get a kernel panic if this
is executed:

EX:
$ndd /dev/udp udp_status

The solution is to install the proper patch.

.D.2. CRASHING THE X-SERVER
---------------------------

If stickybit is not set in /tmp then can the file /tmp/.x11-unix/x0
be removed and the x-server will crash.

Ex:

$ rm /tmp/.x11-unix/x0

.D.3. FILLING UP THE HARD DISK
-----------------------------

If your hard disk space is not limited by a quota or if you can use
/tmp then it`s possible for you to fill up the file system.

Ex:

while : ;
mkdir .xxx
cd .xxx
done

.D.4. MALICIOUS USE OF eval
---------------------------

Some older systems will crash if eval '\!\!' is executed in the
C-shell.

Ex:
% eval '\!\!'
.D.5. MALICIOUS USE OF fork()
-----------------------------

If someone executes this C++ program the result will result in a crash
on most systems.

Ex:
#include
#include
#include
main()
{
int x;
while(x=0;x<1000000;x++)
{
system("uptime");
fork();
}
}

You can use any command you want, but uptime is nice
because it shows the workload.

To get a bigger and very ugly attack you should however replace uptime
(or fork them both) with sync. This is very bad.

If you are real mean you could also fork a child process for
every child process and we will get an exponential increase of
workload.

There is no good way to stop this attack and
similar attacks. A solution could be to place a limit
on time of execution and size of processes.

.D.6. CREATING FILES THAT IS HARD TO REMOVE
-------------------------------------------

Well all files can be removed, but here is some ideas:

Ex.I.

$ cat > -xxx
^C
$ ls
-xxx
$ rm -xxx
rm: illegal option -- x
rm: illegal option -- x
rm: illegal option -- x
usage: rm [-fiRr] file ...
$

Ex.II.

$ touch xxx!
$ rm xxx!
rm: remove xxx! (yes/no)? y
$ touch xxxxxxxxx!
$ rm xxxxxxxxx!
bash: !": event not found
$

(You see the size do count!)

Other well know methods is files with odd characters or spaces
in the name.

These methods could be used in combination with ".D.3 FILLING UP THE
HARDDISK". If you do want to remove these files you must use some sort
of script or a graphical interface like OpenWindow:s File
Manager. You can also try to use: rm ./. It should work for
the first example if you have a shell.

.D.7. DIRECTORY NAME LOOKUPCACHE
--------------------------------

Directory name lookupcache (DNLC) is used whenever a file is opened.
DNLC associates the name of the file to a vnode. But DNLC can only
operate on files with names that has less than N characters (for SunOS 4.x
up to 14 character, for Solaris 2.x up 30 characters). This means
that it's dead easy to launch a pretty discreet denial of service attack.

Create lets say 20 directories (for a start) and put 10 empty files in
every directory. Let every name have over 30 characters and execute a
script that makes a lot of ls -al on the directories.

If the impact is not big enough you should create more files or launch
more processes.
.D.8. CSH ATTACK
----------------

Just start this under /bin/csh (after proper modification)
and the load level will get very high (that is 100% of the cpu time)
in a very short time.

Ex:

|I /bin/csh
nodename : **************b

.D.9. CREATING FILES IN /tmp
----------------------------

Many programs creates files in /tmp, but are unable to deal with the problem
if the file already exist. In some cases this could be used for a
denial of service attack.

.D.10. USING RESOLV_HOST_CONF
-----------------------------

Some systems have a little security hole in the way they use the
RESOLV_HOST_CONF variable. That is we can put things in it and
through ping access confidential data like /etc/shadow or
crash the system. Most systems will crash if /proc/kcore is
read in the variable and access through ping.

Ex:
$ export RESOLV_HOST_CONF="/proc/kcore" ; ping asdf

.D.11. SUN 4.X AND BACKGROUND JOBS
----------------------------------

Thanks to Mr David Honig for the following:

" Put the string "a&" in a file called "a" and perform "chmod +x a".
Running "a" will quickly disable a Sun 4.x machine, even disallowing
(counter to specs) root login as the kernel process table fills."

" The cute thing is the size of the
script, and how few keystrokes it takes to bring down a Sun
as a regular user."

.D.12. CRASHING DG/UX WITH ULIMIT
---------------------------------

ulimit is used to set a limit on the system resources available to the
shell. If ulimit 0 is called before /etc/passwd, under DG/UX, will the
passwd file be set to zero.

.D.13. NETTUNE AND HP-UX
------------------------

/usr/contrib/bin/nettune is SETUID root on HP-UX meaning
that any user can reset all ICMP, IP and TCP kernel
parameters, for example the following parameters:

- arp_killcomplete
- arp_killincomplete
- arp_unicast
- arp_rebroadcast
- icmp_mask_agent
- ip_defaultttl
- ip_forwarding
- ip_intrqmax
- pmtu_defaulttime
- tcp_localsubnets
- tcp_receive
- tcp_send
- tcp_defaultttl
- tcp_keepstart
- tcp_keepfreq
- tcp_keepstop
- tcp_maxretrans
- tcp_urgent_data_ptr
- udp_cksum
- udp_defaultttl
- udp_newbcastenable
- udp_pmtu
- tcp_pmtu
- tcp_random_seq

The solution could be to set the proper permission on
/sbin/mount_union:

#chmod u-s /sbin/mount_union

.D.14. SOLARIS 2.X AND NFS
--------------------------

If a process is writing over NFS and the user goes over the disk
quota will the process go into an infinite loop.

.D.15. SYSTEM STABILITY COMPROMISE VIA MOUNT_UNION
--------------------------------------------------

By executing a sequence of mount_union commands any user
can cause a system reload on all FreeBSD version 2.X before
1996-05-18.

$ mkdir a
$ mkdir b
$ mount_union ~/a ~/b
$ mount_union -b ~/a ~/b

The solution could be to set the proper permission on
/sbin/mount_union:

#chmod u-s /sbin/mount_union

.D.16. trap_mon CAUSES KERNEL PANIC UNDER SUNOS 4.1.X
----------------------------------------------------

Executing the trap_mon instruction from user mode can cause
a kernel panic or a window underflow watchdog reset under
SunOS 4.1.x, sun4c architecture.


.E. DUMPING CORE
~~~~~~~~~~~~~~~~

.E.1. SHORT COMMENT
-------------------

The core dumps things don't really belongs in this paper but I have
put them here anyway.

.E.2. MALICIOUS USE OF NETSCAPE
-------------------------------

Under Netscape 1.1N this link will result in a segmentation fault and a
core dump.

Ex:




















































































Posted by Tricky Updates at 11:00 PM 0 comments
Subscribe to: Posts (Atom)
 

Download Softwares

Post Your Articles