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17

The top 64kB or so are mapped to BIOS ROM, not RAM.


15

Problem solved. The fact that the issue occurred on two platforms was simply an annoying coincidence. PC: The RTC (Real Time Clock) crashed and/or stopped ticking. Yes - I repeat: the BIOS aka RTC clock on my essentially brand new ASUS Z87 Deluxe motherboard stopped ticking after swapping SSDs and installing Windows 8.1 on it. When I went into the BIOS to ...


14

The BIOS is still the first thing that runs on the just-started CPU and responsible for getting the motherboard hardware turned on, setting basic chipset modes and registers, initializing some hardware, and running the code that loads the kernel. The BIOS is usually not used once the kernel is loaded, and depends on a 16-bit execution environment as opposed ...


10

The ":" is a holdover from segmented memory days, when PCs ran in real mode and could only do 64K at a time. The number to the left of the ":" is your segment, the number to the right is your address. The windows debug command accepts this notation if you want to poke around in memory yourself: C:\Users\Seth> debug -d0000:7c00 0000:7C00 00 00 00 00 ...


10

The simple answer is that 7C00h is 1k (512 bytes for the boot sector plus an additional 512 bytes for possible boot sector use) from the bottom of the original 32k installed memory. The happy answer is that org 7C00h has become synonymous with boot sector - boot loader programming.


10

A BIOS can be written in assembly but doesnt have to be, some parts need to be to get the parameters for the system call since they dont match the compilers calling convention. How do you flash it? Varies from motherboard to motherboard, I would start with an open source virtual machine and write a bios for that. Or create a virtual machine where you have ...


9

Check out this page about INT 10H for more information. Those numbers are parameters controlling the behaviour of that interrupt. In your case: ax = 0x1301 -> ah = 0x13 al = 0x01 bx = 0x000c -> bh = 0x00 bl = 0x0c cx = 16 dl = 0x00 The AH=0x13 means 'write string', with various other controlling parameters: AL = write mode -> 1 BL = color ...


9

It is possible. All you'd have to do is: set the processor into protected mode and map memory as expected (flat model) develop a filesystem driver and load that support all the possible video cards, mice, monitors, keyboards, etc. including potentially legacy hardware set up the execution environment so that all external references of the requested DLL ...


9

We released an SDK for the community: http://www.dell.com/html/global/xps/lightfx/index.html (I can say "we" because I worked on it!!) Offers an extensive library of functions for building custom effects using the XPS M1710 LED lights. Allows you to build custom effects just by creating a text file with a few simple XML tags -- even if you are not an ...


9

Although the OP has explicitly stated in comments that he does not wish to use scheduled tasks, some people reading this may be interested to know that it is possible with scheduled tasks. This can be done from the task scheduler's GUI interface, from the command line or even in code using the Task Scheduler Interfaces.


9

It both directly executes from ROM and copies stuff into RAM. On a modern x86 processor, the chipset memory controller is uninitialized at initial power-up, so there is no RAM available. A modern BIOS is usually divided into two parts: Boot Block (early POST) Compressed Area (mid-to-late POST) When the processor comes out of reset, it begins executing ...


9

Because it starts executing code right at the instruction at 7c00. That, unfortunately is where you have your string. You should precede that string with a jmp instruction so that it jumps to start. This is usually a short jump EB xx followed by a NOP 90. Some BIOS' may insist on that being of this form even though it doesn't really matter to the ...


8

WMI (Windows Management Instrumentation) have routines to detect computer hardware. The best Delphi package for WMI is wmi-delphi-code-creator. Look for documentation for the calls Win32_BaseBoard and Win32_MotherboardDevice. They won't give you the chipset name though. A scan through the Win32_PnPEntity class looking for vendor/device ID and matching ...


8

On the PC there's always some address decoding logic involved because there are a few "holes/windows" in the physical address space through which the BIOS ROM and I/O devices (e.g. video card) are accessible instead of the RAM. That's by design, for compatibility reasons, so older programs can still run on newer computers. As for the initial address at ...


8

Your code is very messy. In order to properly use int 13h with AH = 3, you need to also set ES (the segment in which BX resides, e.g. ES:BX is the address of the buffer which should be read and written to the hard disk), and CX to a combination of the cylinder and sector number (cylinder = CL[7:6] || CH, sector = CL[5:0]). Assuming that you want to write ...


8

At least in theory, yes, the stack and code could overlap. The reason they don't is pretty simple: the bootloader is pretty small, and won't normally use much stack space, so the stack never grows downward far enough to overwrite the end of the bootloader code. As far as fs and gs go, they don't really have any dedicated uses. Without looking at the code ...


7

it is called NCurses, and is basically a library to create UI interfaces in text virtual terminals Here is a somewhat decent tutorial about how to use it EDIT for windows platforms, you need a port library called PDCurses. I Think it relies on mingw but i can't tell for sure since i've haven't used it


7

As LU RD has pointed out, WMI is the way to go. Check out Rodrigo Ruz WMI code generator, it make access really easy.


7

The x86 Real Mode Memory Map is as follows: - 0x00000000 - 0x000003FF - Real Mode Interrupt Vector Table - 0x00000400 - 0x000004FF - BIOS Data Area - 0x00000500 - 0x00007BFF - Unused - 0x00007C00 - 0x00007DFF - Our Bootloader - 0x00007E00 - 0x0009FFFF - Unused - 0x000A0000 - 0x000BFFFF - Video RAM (VRAM) Memory - 0x000B0000 - 0x000B7777 - Monochrome ...


7

On most systems, it is not mapped into user-mode accessible memory, so you need to call some system API. On Windows, you can call GetSystemFirmwareTable.


7

With any remotely recent BIOS, you can obtain memory map information by using the BIOS Int 15/AX=E820h call. This will tell you what memory you can use for your OS. A more detailed explanation on how to detect available memory, and the contents of the BIOS memory map can be found at OSDev.


6

CookieOfFortune is essentially correct (Because he wanted to move something into the place where the initial bootloader was), but it wasn't for a second bootloader, but rather the kernel itself. From his comments: It then loads the system at 0x10000, using BIOS interrupts. Thereafter it disables all interrupts, moves the system down to 0x0000, ...


6

But how does that small assembler boot bootloader the commands from the OS? Yes, the bootloader is small, but the BIOS is not and it implements .. has always implemented .. the DOS I/O "system calls". This I/O system originally ran the whole OS I/O system back in the DOS and early Windows days. Now it's just a console responsible for loading the real OS ...


6

It seems to me that you should construct the unique ID corresponds your requirements yourself. This ID can be constructed as a hash (like MD5, SHA1 or SHA512) from the information which are important for you (some information about software and hardware component). You can makes your solution more secure if you sign such hash with your own private key and ...


6

What you're looking for is the Windows WMI. You can get the motherboard ID (which is unique across the same type of motherboard) or many many other types of unique identifiers and come up with some clever seeded function to generate a UHID. Whoa did I just make up an acronym? And if you're looking specifically for getting the Motherboard (BIOS) ID: WMI ...


6

I wrote BIOS for notebook computers for several years. The BIOS does a lot of things while the OS is running. A major task is to inform the OS when many events happen so the OS can look smart (as if it somehow figured these things out on its own). For example, the BIOS tells the OS when: the power button is pressed, batteries are inserted or removed, AC ...


6

The CMOS memory exists outside of the normal address space and cannot contain directly executable code. It is reachable through IN and OUT commands at port number 70h (112d) and 71h (113d). To read a CMOS byte, an OUT to port 70h is executed with the address of the byte to be read and an IN from port 71h will then retrieve the requested ...


6

You didn't mention whether you were interested in legacy BIOS or EFI BIOS, but I would mention that with EFI there is the capability of writing EFI applications. See Intel Press: Harnessing the UEFI Shell The EFI Application toolkit comes with a complete TCP/IP network stack: http://www.intel.com/technology/efi/toolkit_overview.htm More at tianocore.org


6

It asks the operating system, which may or may not ask the BIOS. These dates are based on that epoch in this way: new Date(0); // == Thu Jan 01 01:00:00 GMT 1970



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