Sunday, February 27, 2011

Computer POST / beep codes

POST ABCs
The computer power-on self-test (POST) tests the computer to make sure it meets the necessary system requirements and that all hardware is working properly before starting the remainder of the boot process. If the computer passes the POST the computer will have a single beep (with some computer BIOS manufacturers it may beep twice) as the computer starts and the computer will continue to start normally. However, if the computer fails
the POST, the computer will either not beep at all or will generate a beep code, which tells the user the source of the problem.
If you're receiving an irregular POST or a beep code not mentioned below follow the POST troubleshooting steps to determine the failing hardware component.
AMI BIOS beep codes
Below are the AMI BIOS Beep codes that can occur. However, because of the wide variety of different computer manufacturers with this BIOS, the beep codes may vary.
AWARD BIOS beep codes
Below are Award BIOS Beep codes that can occur. However, because of the wide variety of different computer manufacturers with this BIOS, the beep codes may vary.
If any other correctable hardware issues, the BIOS will display a message.
IBM BIOS beep codes
Below are general IBM BIOS Beep codes that can occur. However, because of the wide variety of models shipping with this BIOS, the beep codes may vary.
Beep Code
Description
No Beeps
No Power, Loose Card, or Short.
1 Short Beep
Normal POST, computer is ok.
2 Short Beep
POST error, review screen for error code.
Continuous Beep
No Power, Loose Card, or Short.
Repeating Short Beep
No Power, Loose Card, or Short.
One Long and one Short Beep
Motherboard issue.
One Long and Two Short Beeps
Video (Mono/CGA Display Circuitry) issue.
One Long and Three Short Beeps.
Video (EGA) Display Circuitry.
Three Long Beeps
Keyboard / Keyboard card error.
One Beep, Blank or Incorrect Display
Video Display Circuitry.
Macintosh startup tones
Tones
Error
Error Tone. (two sets of different tones)
Problem with logic board or SCSI bus.
Startup tone, drive spins, no video
Problem with video controller.
Powers on, no tone.
Logic board problem.
High Tone, four higher tones.
Problem with SIMM.
Phoenix BIOS beep codes
Below are the beep codes for Phoenix BIOS Q3.07 OR 4.X
Beep Code
Description / What to Check
1-1-1-3
Verify Real Mode.
1-1-2-1
Get CPU type.
1-1-2-3
Initialize system hardware.
1-1-3-1
Initialize chipset registers with initial POST values.
1-1-3-2
Set in POST flag.
1-1-3-3
Initialize CPU registers.
1-1-4-1
Initialize cache to initial POST values.
1-1-4-3
Initialize I/O.
1-2-1-1
Initialize Power Management.
1-2-1-2
Load alternate registers with initial POST values.
1-2-1-3
Jump to UserPatch0.
1-2-2-1
Initialize keyboard controller.
1-2-2-3
BIOS ROM checksum.
1-2-3-1
8254 timer initialization.
1-2-3-3
8237 DMA controller initialization.
1-2-4-1
Reset Programmable Interrupt Controller.
1-3-1-1
Test DRAM refresh.
1-3-1-3
Test 8742 Keyboard Controller.
1-3-2-1
Set ES segment to register to 4 GB.
1-3-3-1
28 Autosize DRAM.
1-3-3-3
Clear 512K base RAM.
1-3-4-1
Test 512 base address lines.
1-3-4-3
Test 512K base memory.
1-4-1-3
Test CPU bus-clock frequency.
1-4-2-4
Reinitialize the chipset.
1-4-3-1
Shadow system BIOS ROM.
1-4-3-2
Reinitialize the cache.
1-4-3-3
Autosize cache.
1-4-4-1
Configure advanced chipset registers.
1-4-4-2
Load alternate registers with CMOS values.
2-1-1-1
Set Initial CPU speed.
2-1-1-3
Initialize interrupt vectors.
2-1-2-1
Initialize BIOS interrupts.
2-1-2-3
Check ROM copyright notice.
2-1-2-4
Initialize manager for PCI Options ROMs.
2-1-3-1
Check video configuration against CMOS.
2-1-3-2
Initialize PCI bus and devices.
2-1-3-3
Initialize all video adapters in system.
2-1-4-1
Shadow video BIOS ROM.
2-1-4-3
Display copyright notice.
2-2-1-1
Display CPU type and speed.
2-2-1-3
Test keyboard.
2-2-2-1
Set key click if enabled.
2-2-2-3
56 Enable keyboard.
2-2-3-1
Test for unexpected interrupts.
2-2-3-3
Display prompt Press F2 to enter SETUP.
2-2-4-1
Test RAM between 512 and 640k.
2-3-1-1
Test expanded memory.
2-3-1-3
Test extended memory address lines.
2-3-2-1
Jump to UserPatch1.
2-3-2-3
Configure advanced cache registers.
2-3-3-1
Enable external and CPU caches.
2-3-3-3
Display external cache size.
2-3-4-1
Display shadow message.
2-3-4-3
Display non-disposable segments.
2-4-1-1
Display error messages.
2-4-1-3
Check for configuration errors.
2-4-2-1
Test real-time clock.
2-4-2-3
Check for keyboard errors
2-4-4-1
Set up hardware interrupts vectors.
2-4-4-3
Test coprocessor if present.
3-1-1-1
Disable onboard I/O ports.
3-1-1-3
Detect and install external RS232 ports.
3-1-2-1
Detect and install external parallel ports.
3-1-2-3
Re-initialize onboard I/O ports.
3-1-3-1
Initialize BIOS Data Area.
3-1-3-3
Initialize Extended BIOS Data Area.
3-1-4-1
Initialize floppy controller.
3-2-1-1
Initialize hard-disk controller.
3-2-1-2
Initialize local-bus hard-disk controller.
3-2-1-3
Jump to UserPatch2.
3-2-2-1
Disable A20 address line.
3-2-2-3
Clear huge ES segment register.
3-2-3-1
Search for option ROMs.
3-2-3-3
Shadow option ROMs.
3-2-4-1
Set up Power Management.
3-2-4-3
Enable hardware interrupts.
3-3-1-1
Set time of day.
3-3-1-3
Check key lock.
3-3-3-1
Erase F2 prompt.
3-3-3-3
Scan for F2 key stroke.
3-3-4-1
Enter SETUP.
3-3-4-3
Clear in-POST flag.
3-4-1-1
Check for errors
3-4-1-3
POST done--prepare to boot operating system.
3-4-2-1
One beep.
3-4-2-3
Check password (optional).
3-4-3-1
Clear global descriptor table.
3-4-4-1
Clear parity checkers.
3-4-4-3
Clear screen (optional).
3-4-4-4
Check virus and backup reminders.
4-1-1-1
Try to boot with INT 19.
4-2-1-1
Interrupt handler error.
4-2-1-3
Unknown interrupt error.
4-2-2-1
Pending interrupt error.
4-2-2-3
Initialize option ROM error.
4-2-3-1
Shutdown error.
4-2-3-3
Extended Block Move.
4-2-4-1
Shutdown 10 error.
4-3-1-3
Initialize the chipset.
4-3-1-4
Initialize refresh counter.
4-3-2-1
Check for Forced Flash.
4-3-2-2
Check HW status of ROM.
4-3-2-3
BIOS ROM is OK.
4-3-2-4
Do a complete RAM test.
4-3-3-1
Do OEM initialization.
4-3-3-2
Initialize interrupt controller.
4-3-3-3
Read in bootstrap code.
4-3-3-4
Initialize all vectors.
4-3-4-1
Boot the Flash program.
4-3-4-2
Initialize the boot device.
4-3-4-3
Boot code was read OK.

Posted by at No comments:

Thursday, February 3, 2011

Windows Registry Tutorial

Overview
The Registry is a database used to store settings and options for the 32 bit versions of Microsoft Windows including Windows 95, 98, ME and NT/2000. It contains information and settings for all the hardware, software, users, and preferences of the PC. Whenever a user makes changes to a Control Panel settings, or File Associations, System Policies, or installed software, the changes are reflected and stored in the Registry.
The physical files that make up the registry are stored differently depending on your version of Windows; under Windows 95 & 98 it is contained in two hidden files in your Windows directory, called USER.DAT and SYSTEM.DAT, for Windows Me there is an additional CLASSES.DAT file, while under Windows NT/2000 the files are contained seperately in the %SystemRoot%\System32\Config directory. You can not edit these files directly, you must use a tool commonly known as a "Registry Editor" to make any changes (using registry editors will be discussed later in the article).
The Structure of the Registry
The Registry has a hierarchal structure, although it looks complicated the structure is similar to the directory structure on your hard disk, with Regedit being similar to Windows Explorer.
Registry Structure Each main branch (denoted by a folder icon in the Registry Editor, see left) is called a Hive, and Hives contains Keys. Each key can contain other keys (sometimes referred to as sub-keys), as well as Values. The values contain the actual information stored in the Registry. There are three types of values; String, Binary, and DWORD - the use of these depends upon the context.
There are six main branches, each containing a specific portion of the information stored in the Registry. They are as follows:
  • HKEY_CLASSES_ROOT - This branch contains all of your file association mappings to support the drag-and-drop feature, OLE information, Windows shortcuts, and core aspects of the Windows user interface.
  • HKEY_CURRENT_USER - This branch links to the section of HKEY_USERS appropriate for the user currently logged onto the PC and contains information such as logon names, desktop settings, and Start menu settings.
  • HKEY_LOCAL_MACHINE - This branch contains computer specific information about the type of hardware, software, and other preferences on a given PC, this information is used for all users who log onto this computer.
  • HKEY_USERS - This branch contains individual preferences for each user of the computer, each user is represented by a SID sub-key located under the main branch.
  • HKEY_CURRENT_CONFIG - This branch links to the section of HKEY_LOCAL_MACHINE appropriate for the current hardware configuration.
  • HKEY_DYN_DATA - This branch points to the part of HKEY_LOCAL_MACHINE, for use with the Plug-&-Play features of Windows, this section is dymanic and will change as devices are added and removed from the system.
Each registry value is stored as one of five main data types:
  • REG_BINARY - This type stores the value as raw binary data. Most hardware component information is stored as binary data, and can be displayed in an editor in hexadecimal format.
  • REG_DWORD - This type represents the data by a four byte number and is commonly used for boolean values, such as "0" is disabled and "1" is enabled. Additionally many parameters for device driver and services are this type, and can be displayed in REGEDT32 in binary, hexadecimal and decimal format, or in REGEDIT in hexadecimal and decimal format.
  • REG_EXPAND_SZ - This type is an expandable data string that is string containing a variable to be replaced when called by an application. For example, for the following value, the string "%SystemRoot%" will replaced by the actual location of the directory containing the Windows NT system files. (This type is only available using an advanced registry editor such as REGEDT32)
  • REG_MULTI_SZ - This type is a multiple string used to represent values that contain lists or multiple values, each entry is separated by a NULL character. (This type is only available using an advanced registry editor such as REGEDT32)
  • REG_SZ - This type is a standard string, used to represent human readable text values.
Other data types not available through the standard registry editors include:
  • REG_DWORD_LITTLE_ENDIAN - A 32-bit number in little-endian format.
  • REG_DWORD_BIG_ENDIAN - A 32-bit number in big-endian format.
  • REG_LINK - A Unicode symbolic link. Used internally; applications should not use this type.
  • REG_NONE - No defined value type.
  • REG_QWORD - A 64-bit number.
  • REG_QWORD_LITTLE_ENDIAN - A 64-bit number in little-endian format.
  • REG_RESOURCE_LIST - A device-driver resource list.
Editing the Registry
The Registry Editor (REGEDIT.EXE) is included with most version of Windows (although you won't find it on the Start Menu) it enables you to view, search and edit the data within the Registry. There are several methods for starting the Registry Editor, the simplest is to click on the Start button, then select Run, and in the Open box type "regedit", and if the Registry Editor is installed it should now open and look like the image below.
Picture of regedit.exe
An alternative Registry Editor (REGEDT32.EXE) is available for use with Windows NT/2000, it includes some additional features not found in the standard version, including; the ability to view and modify security permissions, and being able to create and modify the extended string values REG_EXPAND_SZ & REG_MULTI_SZ.
Create a Shortcut to Regedit
This can be done by simply right-clicking on a blank area of your desktop, selecting New, then Shortcut, then in the Command line box enter "regedit.exe" and click Next, enter a friendly name (e.g. 'Registry Editor') then click Finish and now you can double click on the new icon to launch the Registry Editor.
Using Regedit to modify your Registry
Once you have started the Regedit you will notice that on the left side there is a tree with folders, and on the right the contents (values) of the currently selected folder.
Like Windows explorer, to expand a certain branch (see the structure of the registry section), click on the plus sign [+] to the left of any folder, or just double-click on the folder. To display the contents of a key (folder), just click the desired key, and look at the values listed on the right side. You can add a new key or value by selecting New from the Edit menu, or by right-clicking your mouse. And you can rename any value and almost any key with the same method used to rename files; right-click on an object and click rename, or click on it twice (slowly), or just press F2 on the keyboard. Lastly, you can delete a key or value by clicking on it, and pressing Delete on the keyboard, or by right-clicking on it, and choosing Delete.
Note: it is always a good idea to backup your registry before making any changes to it. It can be intimidating to a new user, and there is always the possibility of changing or deleting a critical setting causing you to have to reinstall the whole operating system. It's much better to be safe than sorry!
Importing and Exporting Registry Settings
A great feature of the Registry Editor is it's ability to import and export registry settings to a text file, this text file, identified by the .REG extension, can then be saved or shared with other people to easily modify local registry settings. You can see the layout of these text files by simply exporting a key to a file and opening it in Notepad, to do this using the Registry Editor select a key, then from the "Registry" menu choose "Export Registry File...", choose a filename and save. If you open this file in notepad you will see a file similar to the example below:
REGEDIT4

[HKEY_LOCAL_MACHINE\SYSTEM\Setup]
"SetupType"=dword:00000000
"CmdLine"="setup -newsetup"
"SystemPrefix"=hex:c5,0b,00,00,00,40,36,02
The layout is quite simple, REGEDIT4 indicated the file type and version, [HKEY_LOCAL_MACHINE\SYSTEM\Setup] indicated the key the values are from, "SetupType"=dword:00000000 are the values themselves the portion after the "=" will vary depending on the type of value they are; DWORD, String or Binary.
So by simply editing this file to make the changes you want, it can then be easily distributed and all that need to be done is to double-click, or choose "Import" from the Registry menu, for the settings to be added to the system Registry.
Deleting keys or values using a REG file
It is also possible to delete keys and values using REG files. To delete a key start by using the same format as the the REG file above, but place a "-" symbol in front of the key name you want to delete. For example to delete the [HKEY_LOCAL_MACHINE\SYSTEM\Setup] key the reg file would look like this:
REGEDIT4

[-HKEY_LOCAL_MACHINE\SYSTEM\Setup]
The format used to delete individual values is similar, but instead of a minus sign in front of the whole key, place it after the equal sign of the value. For example, to delete the value "SetupType" the file would look like:
REGEDIT4

[HKEY_LOCAL_MACHINE\SYSTEM\Setup]
"SetupType"=-
Use this feature with care, as deleting the wrong key or value could cause major problems within the registry, so remember to always make a backup first.
Regedit Command Line Options
Regedit has a number of command line options to help automate it's use in either batch files or from the command prompt. Listed below are some of the options, please note the some of the functions are operating system specific.
regedit.exe [options] [filename] [regpath]
[filename]
Import .reg file into the registry
/s [filename]
Silent import, i.e. hide confirmation box when importing files
/e [filename] [regpath]
Export the registry to [filename] starting at [regpath] e.g. regedit /e file.reg HKEY_USERS\.DEFAULT
/L:system
Specify the location of the system.dat to use
/R:user
Specify the location of the user.dat to use
C [filename]
Compress (Windows 98)
/D [regpath]
Delete the specified key (Windows 98)
Maintaining the Registry
On Windows NT you can use either the "Last Known Good" option or RDISK to restore to registry to a stable working configuration.
How can I clean out old data from the Registry?
Although it's possible to manually go through the Registry and delete unwanted entries, Microsoft provides a tool to automate the process, the program is called RegClean. RegClean analyzes Windows Registry keys stored in a common location in the Windows Registry. It finds keys that contain erroneous values, it removes them from the Windows Registry after having recording those entries in the Undo.Reg file.
Posted by at No comments:
Subscribe to: Posts (Atom)