Physical pages are called
page frames (you can call them frames). The term
page is reserved for pages in virtual memory.
The virtual memory is divided into chunks of equal size by the kernel. Physical memory is also divided into pages (page frames) of the same size.
For example if we have 4GB of RAM, on 32 bits architecture, this means : 1048576 page frames of size 4KB
for each page frame (physical page) the kernel maintain a structure
struct page. This structure is defined in
linux/mm_types.h(https://github.com/torvalds/linux/blob/master/include/linux/mm_types.h), this structure contain a member named
struct address_space *mapping) which specifies the address space in which a page frame is located. There also a member named
index which represent the offset inside this mapping.
All struct pages are kept in global
mem_map array this array is used by the kernel to know all the associations between virtual and physical memory.
Finally, to convert a virtual address to a physical one the kernel use the macro
virt_to_page() defined in
asm-i386/page.h which point to
Before an example, let's see the layout of an address in 32 bits architecture
| 10 bits - Directory | 10 bits - Page table | 12 bits - Offset |
Let's see an example of translating memory virtual address to physical one:
Hope this help.