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When a segment fault occurs, it means I access memory which is not allocated or protected.But How does the kernel or CPU know it? Is it implemented by the hardware? What data structures need the CPU to look up? When a set of memory is allocated, what data structures need to be modified?

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The details will vary, depending on what platform you're talking about, but typically the MMU will generate an exception (interrupt) when you attempt an invalid memory access and the kernel will then handle this as part of an interrupt service routine.

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what's invalid memory? – venuswu Jan 17 '12 at 13:45
An "invalid memory access" can be invalid for several reasons, e.g. trying to write to read-only memory, trying to execute code in non-executable memory, trying to read or write an address that has no associated page allocated, etc. – Paul R Jan 17 '12 at 13:47

A seg fault generally happens when a process attempts to access memory that the CPU cannot physically address. It is the hardware that notifies the OS about a memory access violation. The OS kernel then sends a signal to the process which caused the exception

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To answer the second part of your question, again it depends on hardware and OS. In a typical system (i.e. x86) the CPU consults the segment registers (via the global or local descriptor tables) to turn the segment relative address into a virtual address (this is usually, but not always, a no-op on modern x86 operating systems), and then (the MMU does this bit really, but on x86 its part of the CPU) consults the page tables to turn that virtual address into a physical address. When it encounters a page which is not marked present (the present bit is not set in the page directory or tables) it raises an exception. When the OS handles this exception, it will either give up (giving rise to the segfault signal you see when you make a mistake or a panic) or it will modify the page tables to make the memory valid and continue from the exception. Typically the OS has some bookkeeping which says which pages could be valid, and how to get the page. This is how demand paging occurs.

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what is "invalid memory"? – venuswu Jan 17 '12 at 13:42
Sorry, I should have clarified that. I will update my answer, but what I mean in this context is "memory which is not marked present in the page tables". When the CPU attempts to convert a virtual address to a physical address, it checks the present bits in the page tables (there are many layers of page tables), and if it finds the page is not present, it raises an exception (page fault on x86). The OS can respond to this by making the memory present, through whatever means it chooses, and then resuming execution, or it can do something else, like dumping core. – Stewart Jan 17 '12 at 19:19

It all depends on the particular architecture, but all architectures with paged virtual memory work essentially the same. There are data structures in memory that describe the virtual-to-physical mapping of each allocated page of memory. For every memory access, the CPU/MMU hardware looks up those tables to find the mapping. This would be horribly slow, of course, so there are hardware caches to speed it up.

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