I know that the base address register (BAR) in PCI configuration space defines the start location of a PCI address, but how does the size of this region get established?

Surely this is a property of the hardware since only it knows how far into its address space it can deal. However, I cannot seem to see a BAR size field in the PCI configuration structure.

4 Answers 4


First of all, the BAR size must be a power of two (e.g., 1 KiB, 2 MiB), and each area must be aligned in memory such that the lower log2(size) bits of the base address are always zero. For example, assume that an endpoint has a 4 KiB memory area, which gives an address range of 0-0xfff. The host may remap the start of this area to f.x. 0x1000 or 0xabcd000 by writing to the BAR register, but not to 0x1080 or 0xabcd100.

When the BAR register is written, the endpoint will ignore LSBs and always return zeros on read. Thus writing 0xffffffff to the register and then reading back the value indicates the size of the area. For the 4 KiB example this returns 0xfffff00X (the lower four bits are reserved, see specification). To determine the size:

  • Clear the lower four bits to zeros (0xfffff000)
  • Invert all 32 bits (0xfff)
  • Add one to the result (0x1000 = 4096 bytes)

This works for 64-bit areas as well. The value of the next base address register forms the MSBs of the base address. This is described in section of the PCI 3.0 specification.

  • In the above example, why does writing all 1s (0xFFFFFFFF) to the register return back (0xFFFFF00X)? Say for example, if the address size is 4 KiB, and it's base address is 0xabcd000C. Shouldn't writing all 1's to the register return back 0xFFFF000C, since according to spec, you cannot write to the bits that hasn't been set by BIOS? But I am pretty sure I am understanding it wrong ^^' Can you please help explain this.
    – Naveen
    Oct 6, 2021 at 6:12
  • I think, I understand now. If a device needs 4 KiB memory area, then the lower log2(1024*4) i.e 12 bits out of 32 bits needs to be zero. If the value in the BAR is something like 0xabcde00X writing all 1's would return 0xFFFFF000 (since unset bits are hardwired to 0 and the information bit/don't care bits (X) are returned as 0. But, say we have a base address as 0xabcd000X and the address size is 4KiB. When we write all 1's how does the hardware know to return back 0xFFFFF000? (I assumed hardware would return 0xFFFF0000 since only the first 16 bytes were set.
    – Naveen
    Oct 6, 2021 at 12:39
  • @Naveen, AFAIK, the lower 4 bits of the BAR are hardwired in the design and hence are read-only. Along with it, the region size of the BAR is also fixed in the design, so the remaining (log2(size) - 4) bits will always be hardwired to 0. So as per you example, for a 4KiB region size, a read of the BAR after being written with all 1's will still return 0xFFFFF00X, whether the address configured earlier in the BAR was 0xabcd000X or 0xabcde00X.
    – LoneWolf
    Dec 21, 2022 at 23:36

Found the answer at OSDev Wiki:

"To determine the amount of address space needed by a PCI device, you must save the original value of the BAR, write a value of all 1's to the register, then read it back."


PCIe Device can have either Type-0 (Endpoints) or Type-1( RC or Switches or Bridges) Configuration Space.

--Type-0 device can have total of 6 BARs while Type-1 can have only 2 BARs.

--BAR gives the information about address space needed by the device.

--Each BAR is 32 bit , out of which first 4 bit 3:0 are always Read Only.

-- 2^(Position of last R/W bits from least significant bit) = Address window required by particular BAR.

How to know the address window or size of the region represneted by any BAR :

1) Initially Read any BAR( Suppose BAR0 in our case) , we got value 32'h0000_000F. (Remember : last 4 bits read only!! ).

2) Write all 1's to BAR0.

3) Read again BAR0 and Suppose we got value 32'hFFFF_000F. So bit position 16 is the least significant R/W bit. So address space required by BAR0 will be 2^16.


As other people have said, you can get size by writing all 1's to BAR, here is what Linux kernel does:

 * __pci_read_base - Read a PCI BAR
 * @dev: the PCI device
 * @type: type of the BAR
 * @res: resource buffer to be filled in
 * @pos: BAR position in the config space
 * Returns 1 if the BAR is 64-bit, or 0 if 32-bit.
int __pci_read_base(struct pci_dev *dev, enum pci_bar_type type,
            struct resource *res, unsigned int pos)
    u32 l = 0, sz = 0, mask;
    u64 l64, sz64, mask64;
    u16 orig_cmd;
    struct pci_bus_region region, inverted_region;

    mask = type ? PCI_ROM_ADDRESS_MASK : ~0;
    pci_read_config_dword(dev, pos, &l);
    pci_write_config_dword(dev, pos, l | mask);
    pci_read_config_dword(dev, pos, &sz);
    pci_write_config_dword(dev, pos, l);

When standard PCI BAR probe, mask is ~0, aka all 1's. so it writes all 1's to BAR then read the size from BAR.

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