A bootloader falls into several parts. First of all, the BIOS fetches some code which match a very special format, called the MBR (Master Boot Record). Remember your old computer: you have to tell the BIOS in which order it will browse some device in search of that MBR. Once it has found an MBR (the MBR is 512 bytes long, ending with a magic number –
0x55aa), it copies this piece of code at a given offset in physical memory (
0x7c00 on x86), and set the Instruction Pointer to this address. Most of the time, an MBR contains a partition table and will load some extra code from the device that will help in loading the actual system: this is referred as chain loading or multi-stage loading.
Let’s elaborate that last point. Remember that the system is running at that point in real-mode, hence you can access only 1MB of physical memory, but on the other hand you can access to your HDD in a quite easy fashion through the BIOS Interrupt Call. Nowadays, operating systems ask for much more memory than 1MB, and they will want to switch the processor in protected-mode in order to have access to a full address-space (4GB, at least on a32bit system). But once the system is in protected-mode, BIOS Interrupt Call is no more available and input/output with the HDD must go through complex-setup communication such as DMA, and that setup usually doesn’t take place into the bootloader. A boot loader will switch back and forth from real-mode to protected-mode. It fetches a sector from the HDD into the 1MB address-space, and then it switches to protected-mode to copy this sector to some place into the 4GB address-space, and finally it switches back to real-mode to fetch another sector from the HDD. Once all the sectors has been fetched and copied to physical memory, the bootloader jump to the OS.
- The BIOS looks in a list of devices for an MBR located on the first sector of each device. An MBR is found if the last halword of the first sector matchs a magic number. The BIOS copies the MBR to physical memory, and jump on it.
- The MBR embeds a partition table, thus it knows from which location (basically which cylinder-head-sector of a HDD) it should loads more code to physical memory. This step could be the loading of GRUB for instance.
- Let say in GRUB, the
multiboot specification is used to locate an OS. Check the link below for more info on
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