Aren't you supposed to search the EBDA first?Klakap wrote:As Occontrabass noted, you have to search RSDP in memory from 0xE0000 to 0xFFFFF as first. Only if you can not found RSDP in this memory, you can move to Bios EBDA area.
MMIO_Starting_Physical_Address and PCIe
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Re: MMIO_Starting_Physical_Address
Re: MMIO_Starting_Physical_Address
Oh I am sorry, but from my tests on real computers is RSDP rather on BIOS ROM than EDBA.
Re: MMIO_Starting_Physical_Address
The length of my XSDT.Entry is equal to 19 address of 64-bit and all are 32-bit lenght, weird considering I have 16 GB of RAM.
The red rectangle is the first address of my XSDT.Entry
Is it the same for all of you ?
The red rectangle is the first address of my XSDT.Entry
Is it the same for all of you ?
Re: MMIO_Starting_Physical_Address
Not really. Read-only tables will be in ROM, which is typically in the low 4GB, and tables with changing/configuration-dependent content will be in some RAM area the firmware reserves to itself, which again is probably going to be in the low 4GB, if for no other reason then to be accessible to unpaged 32-bit mode, which is a possible configuration for the firmware.Rukog wrote:The length of my XSDT.Entry is equal to 19 address of 64-bit and all are 32-bit lenght, weird considering I have 16 GB of RAM.
Or put it another way: 4GB is really enough for all ACPI tables, isn't it? So why should any tables be beyond the 4GB line?
That said, never assume that the tables are in the low 4GB, even though they likely are. You never know when some firmware is going to decide to do something different, and the interface provides for large addresses.
Carpe diem!
Re: MMIO_Starting_Physical_Address
I remember Brendan said back a long while ago (before I had an account ) that x86 system's RSDT and XSDT were probably the same, as for compatibility with 32 bit OSes, it wouldn't make sense to have two copies of ACPI tables in ROM or memory.Rukog wrote:The length of my XSDT.Entry is equal to 19 address of 64-bit and all are 32-bit lenght, weird considering I have 16 GB of RAM.
Re: MMIO_Starting_Physical_Address
Ive finally retrieve the MCFG table
Re: MMIO_Starting_Physical_Address
Ive a doubt, ive dumped my
Memory Mapped Enhanced Configuration Space Base Address Allocation Structure
and I found that weird structure result The base address seems legit, but the group number is acting weird, the start and end bus seems OK tho.
Memory Mapped Enhanced Configuration Space Base Address Allocation Structure
and I found that weird structure result The base address seems legit, but the group number is acting weird, the start and end bus seems OK tho.
Last edited by Rukog on Tue Aug 17, 2021 1:09 pm, edited 1 time in total.
Re: MMIO_Starting_Physical_Address
It seems that you have it. Try to search for some DeviceID and VendorID.
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Re: MMIO_Starting_Physical_Address
How so? It looks normal to me.Rukog wrote:the group number is acting weird
Re: MMIO_Starting_Physical_Address
Ok so ive finally success to dump the base address and ive that result.Klakap wrote:It seems that you have it. Try to search for some DeviceID and VendorID.
There is no signature of PCI device (ive a GTX 1060), is that normal ?
Ye I thought that when seeing all those zero bytes heh.Octocontrabass wrote:How so? It looks normal to me.Rukog wrote:the group number is acting weird
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Re: MMIO_Starting_Physical_Address
According to the MCFG table, the memory-mapped extended configuration space covers 256 buses.Rukog wrote:There is no signature of PCI device (ive a GTX 1060), is that normal ?
Each bus has 32 slots. Each slot has 8 functions. Each function has 4kiB of MMIO for the configuration space.
Since there are 8 functions per slot, each slot has 32kiB of MMIO. Since there are 32 slots per bus, each bus has 1MiB of MMIO.
So, it's probably in there, but there are 256 buses and 256MiB of MMIO. You'll have to enumerate the devices to find what you're looking for. (You don't have to check every single bus/slot/function, there are ways to enumerate PCI much more quickly than that.)