Say a process is forked from another process. In other words, we replicate a process through the fork function call. Now since forking is a copy-on-write mechanism, what happens is that whenever the forked process or the original process write to a page, they get a new physical page to write. So what I've understood, things go like this when both forked and original processes are executing.
--> when forking, all pages of original and forked process are given read only access, so that the kernel get to know which page is written. When that happens, the kernel maps a new physical page to the writing process, writes the previous content to it, and then gives the write access to that page. Now what I am not clear about is if both fork and original process write to the same page, will one of them will still hold the original physical page (prior to forking that is) or both will get new physical pages. Secondly, is my assumption correct that all pages in forked and original process are given read only access at time of forking?
--> Now since each page fault will trigger an interrupt, that means each write to original or forked process will slow down execution. Say if we know about the application, and we know that alot of contiguous memory pages will be written, wouldn't it be better to give write permission to multiple pages ( a group of pages lets say ) when one of the page in the group is written to. That would reduce the number of interrupts due to page fault handling. Isn't it? Sure, we may sometimes make a copy unnecessarily in this case, but I think an interrupt has much more overhead than writing 512 variables of type long (4096 bytes of a page). Is my understanding correct or am I missing something?