PLease help - confused about some ambiguous namings and such
PLease help - confused about some ambiguous namings and such
OK. A byte is 8 bits. What is word? 2 bytes? 4 bytes?
Why does alignment matter? .align 4 aligns on a 32 bit boundary...What does .align 2 do?
Should I align my GDT table?
For gas - what does .long mean? .comm?
If say I want to define the GDT structure in C - I know that char - byte, int - (word?)
So is word a 32-bit entity? 4 bytes? Then what is 2 bytes?
i am sooo confused...
Why does alignment matter? .align 4 aligns on a 32 bit boundary...What does .align 2 do?
Should I align my GDT table?
For gas - what does .long mean? .comm?
If say I want to define the GDT structure in C - I know that char - byte, int - (word?)
So is word a 32-bit entity? 4 bytes? Then what is 2 bytes?
i am sooo confused...
RE:PLease help - confused about some ambiguous namings and s
Also.... what and (how) to 4 KB align? Allright, I am a newbie....but still
RE:PLease help - confused about some ambiguous namings and s
How do I access and edit) my GDT table from C?
I already did this: .globl EXT_C(gdt) <-- descriptor
I already did this: .globl EXT_C(gdt) <-- descriptor
RE:PLease help - confused about some ambiguous namings and s
A word is _either_ 2 bytes _OR_ 4 bytes... and, I suppose, in newer architectures, 8 bytes. It's a rather odd (and stupid) system. Depends on what platform you're on.
I believe, technically, a word is simply a group of bytes.
On Intel architecture it's _generally_ considered 2 bytes (and almost exclusively in assembly -> dw = define word = define two bytes).
Again, on Intel architecture, a dword (or double word) is 4 bytes.
Alignment matters because of the nature of the beast... if you try and load a dword from a non-dword aligned address it's _slow_. Same thing happens loading a word from a non-word aligned address. It's just one of those things the Intel processor's been optomized for, and when it encounters something like that, it stalls... screws with its pipelines and what-not
.align x aligns to x bytes, therefore .align 2 aligns to a word address.
YES, align your GDT, and IDT, and any LDTs you might have!
.long defines a dword, or 4 bytes:
.long 0x11223344
.comm puts a data element into the "common" section. It's a special linker section where by, if a duplicate definition exists, you wont get an error, but definitions will simply merge to the same location. Usefull for stacks and what-not.
char = byte
That's all you know in C C's definitions are ambiguous.
In most 16-bit compilers, int = 16-bits (2 bytes), while
in most 32-bit compilers, int = 32-bits (4 bytes)
_Typically_ (although even this isn't always true)
short = 16 bits
long = 32 bits
This is how GCC (and therefore DJGPP) work, btw.
Hope that helps,
Jeff
I believe, technically, a word is simply a group of bytes.
On Intel architecture it's _generally_ considered 2 bytes (and almost exclusively in assembly -> dw = define word = define two bytes).
Again, on Intel architecture, a dword (or double word) is 4 bytes.
Alignment matters because of the nature of the beast... if you try and load a dword from a non-dword aligned address it's _slow_. Same thing happens loading a word from a non-word aligned address. It's just one of those things the Intel processor's been optomized for, and when it encounters something like that, it stalls... screws with its pipelines and what-not
.align x aligns to x bytes, therefore .align 2 aligns to a word address.
YES, align your GDT, and IDT, and any LDTs you might have!
.long defines a dword, or 4 bytes:
.long 0x11223344
.comm puts a data element into the "common" section. It's a special linker section where by, if a duplicate definition exists, you wont get an error, but definitions will simply merge to the same location. Usefull for stacks and what-not.
char = byte
That's all you know in C C's definitions are ambiguous.
In most 16-bit compilers, int = 16-bits (2 bytes), while
in most 32-bit compilers, int = 32-bits (4 bytes)
_Typically_ (although even this isn't always true)
short = 16 bits
long = 32 bits
This is how GCC (and therefore DJGPP) work, btw.
Hope that helps,
Jeff
RE:PLease help - confused about some ambiguous namings and s
Remember, .align x aligns to x bytes, right?
So, 4KB = 4096 bytes = 0x1000
so .align 0x1000 should work.
Jeff
PS: the nature of .align is platform specific, the above is stated for i386 using ELF. i386 using A.OUT is slightly different (but outdated... you should be using ELF
So, 4KB = 4096 bytes = 0x1000
so .align 0x1000 should work.
Jeff
PS: the nature of .align is platform specific, the above is stated for i386 using ELF. i386 using A.OUT is slightly different (but outdated... you should be using ELF
RE:PLease help - confused about some ambiguous namings and s
Try this:
struct {
long one;
long two;
} GDT_Entry;
GDT_Entry *myGdt = (GDT_Entry *)gdt;
Then you can access number n descriptor as myGdt[n].whatever
Jeff
PS: You'll want to actually change the GDT_Entry structure to actually reflect a real GDT element, not just one, two I don't have that info on me at the moment, unfortunately.
struct {
long one;
long two;
} GDT_Entry;
GDT_Entry *myGdt = (GDT_Entry *)gdt;
Then you can access number n descriptor as myGdt[n].whatever
Jeff
PS: You'll want to actually change the GDT_Entry structure to actually reflect a real GDT element, not just one, two I don't have that info on me at the moment, unfortunately.
thanx and just to check if I get it -
So since the GDT entries are 32-bit (dwords) I should .align 4
Same ges for the GDT descriptor because we can treat it as 2 dwords? Right?
Thanx again for all your help...
Same ges for the GDT descriptor because we can treat it as 2 dwords? Right?
Thanx again for all your help...
one more question to Carbon -
I define the IDT and initialize it from within my C code - any tricks
to make sure it is aligned? I mean I realize that if I can allocate 4KB pages - they are
obviosuly aligned and i can use them for the IDT - but so far I plan to use
the BogoMalloc by Geezer....
to make sure it is aligned? I mean I realize that if I can allocate 4KB pages - they are
obviosuly aligned and i can use them for the IDT - but so far I plan to use
the BogoMalloc by Geezer....
RE:thanx and just to check if I get it -
GDT entries are two dwords long, so you'd want to _at least_ .align 4
You might want to .align 8, but I don't know if that'll make any difference. 4 bytes should be enough... especially if you're, like most, only using a few selectors (meaning there'll be very few loads from the GDT).
Jeff
You might want to .align 8, but I don't know if that'll make any difference. 4 bytes should be enough... especially if you're, like most, only using a few selectors (meaning there'll be very few loads from the GDT).
Jeff
RE:one more question to Carbon -
If the address is aligned to a dword, then
address & 3 = 0
newAddr = address & !3
Will dword align an address, however, it also has the possibility of occupying up to three bytes _before_ address (which might overwrite other things).
If you allocate 3 extra bytes in your alloc, you can try the following:
newAddr = address + (4 - (address & 7))
Which will dword align an address. It will waste (at most) 3 bytes, but since you actually allocated those bytes, you wont be overwritting anything essential.
However, keep in mind that GCC, with any form of optimization enabled, will dword align everything... I don't know about BogoMalloc, but you might want to check it's code. It may return dword aligned address anyway.
Jeff
address & 3 = 0
newAddr = address & !3
Will dword align an address, however, it also has the possibility of occupying up to three bytes _before_ address (which might overwrite other things).
If you allocate 3 extra bytes in your alloc, you can try the following:
newAddr = address + (4 - (address & 7))
Which will dword align an address. It will waste (at most) 3 bytes, but since you actually allocated those bytes, you wont be overwritting anything essential.
However, keep in mind that GCC, with any form of optimization enabled, will dword align everything... I don't know about BogoMalloc, but you might want to check it's code. It may return dword aligned address anyway.
Jeff