forked from BSB-WS23/mpstubs
82 lines
3.6 KiB
C
82 lines
3.6 KiB
C
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/*! \file
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* \brief \ref interrupt_handler() Interrupt handler
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*/
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#pragma once
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#include "types.h"
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#include "machine/core_interrupt.h"
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/*! \defgroup interrupts Interrupt Handling
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* \brief The interrupt subsystem
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*
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* The interrupt subsystem of StubBS contains all functionality to accept
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* interrupts from the hardware and process them.
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* In later exercises the interrupts will enable applications to
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* execute core functionality (system calls).
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* The entry point for the interrupt subsystem is the function
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* 'interrupt_entry_VECTOR' (in `interrupt/handler.asm`).
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*/
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/*! \brief Preserved interrupt context
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*
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* After an interrupt was triggered, the core first saves the basic context
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* (current code- & stack segment, instruction & stack pointer and the status
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* flags register) and looks up the handling function for the vector using the
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* \ref IDT. In StuBS for each vector an own `interrupt_entry_VECTOR` function
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* (written in assembly in `interrupt/handler.asm`) was registered during boot
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* by \ref kernel_init(), which all save the scratch registers on the stack
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* before calling the C++ function \ref interrupt_handler().
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* The high-level handler gets a pointer to the part of the stack which
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* corresponds to the \ref InterruptContext structure as second parameter.
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* After returning from the high-level handler, the previous state is restored
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* from this context (scratch register in assembly and basic context while
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* executing `iret`) so it can continue transparently at the previous position.
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*/
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struct InterruptContext {
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// Scratch register (stored by `interrupt/handler.asm`)
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uintptr_t r11; ///< scratch register R11
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uintptr_t r10; ///< scratch register R10
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uintptr_t r9; ///< scratch register R9
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uintptr_t r8; ///< scratch register R8
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uintptr_t rdi; ///< scratch register RDI
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uintptr_t rsi; ///< scratch register RSI
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uintptr_t rdx; ///< scratch register RDX
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uintptr_t rcx; ///< scratch register RCX
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uintptr_t rax; ///< scratch register RAX
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// Context saved by CPU
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uintptr_t error_code; ///< Error Code
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uintptr_t ip; ///< Instruction Pointer (at interrupt)
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uintptr_t cs : 16; ///< Code segment (in case of a ring switch it is the segment of the user mode)
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uintptr_t : 0; ///< Alignment (due to 16 bit code segment)
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uintptr_t flags; ///< Status flags register
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uintptr_t sp; ///< Stack pointer (at interrupt)
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uintptr_t ss : 16; ///< Stack segment (in case of a ring switch it is the segment of the user mode)
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uintptr_t : 0; ///< Alignment (due to 16 bit stack segment)
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} __attribute__((packed));
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/*! \brief High-Level Interrupt Handling.
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* \ingroup interrupts
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*
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* Main interrupt handling routine of the system.
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* This function is called by the corresponding `interrupt_entry_VECTOR`
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* function (located in `interrupt/handler.asm`) with disabled interrupts.
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*
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* \param vector number of the interrupt
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* \param context Pointer to interrupt context (on stack).
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*
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*/
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extern "C" void interrupt_handler(Core::Interrupt::Vector vector, InterruptContext *context);
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/*! \brief Array of function pointer to the default low-level interrupt handlers
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*
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* The index corresponds to the vectors entry function, e.g. `interrupt_entry[6]`
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* points to `interrupt_entry_6`, handling the trap for
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* \ref Core::Interrupt::INVALID_OPCODE "invalid opcode".
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*
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* The entry functions and this array are defined in assembly in
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* `interrupt/handler.asm` and used in \ref kernel_init() to
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* initialize the \ref IDT "Interrupt Descriptor Table (IDT)".
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*/
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extern "C" void * const interrupt_entry[];
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