A process's virtual address space contains 1 GB of kernel space:

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Now I assume that this 1 GB of kernel space points to data and code related to the kernel (including the Interrupt Descriptor Table (IDT)).

Now let's say that some process is being executed by the CPU, and this process made a system call (fired the interrupt 0x80 (int 0x80)). What will happen is that the CPU will go to the IDT and execute the interrupt handler associated with the interrupt number 0x80.

Now will the CPU stays in the current process, and execute the interrupt handler from the kernel space of the current process (so no context switching occurs)?

marked as duplicate by Peter Cordes assembly Feb 6 at 16:39

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    Interrupts don't cause context switches. They're served within the context of whatever's running at the moment. – PSkocik Jun 14 '17 at 10:29
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    See this Context switch in Interrupt Handlers question. – Enzo Ferber Jun 14 '17 at 14:36
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    Context switching is a software concept so when exactly contexts switch depends on the software and how it defines what context switch is. The x86 has hardware support for a "task switching" mechanism, but it's not used for context switching in modern Linux kernels. – Ross Ridge Jun 14 '17 at 17:40