/*
   Baremetal main program with timer interrupt.
   SPDX-License-Identifier: Unlicense

   https://five-embeddev.com/

   Tested with sifive-hifive-revb, but should not have any
   dependencies to any particular implementation.

   Declarations of interrupt service routine entry points. 

   If no implementation is defined then an alias to a default "NOP"
   implementation will be linked instead.
   
*/

#ifndef VECTOR_TABLE_H
#define VECTOR_TABLE_H


/** Symbol for machine mode vector table - do not call 
 */
void riscv_mtvec_table(void)  __attribute__ ((naked));
void riscv_stvec_table(void)  __attribute__ ((naked));
void riscv_utvec_table(void)  __attribute__ ((naked));

/** Machine mode syncronous exception handler.

http://five-embeddev.com/riscv-isa-manual/latest/machine.html#machine-trap-vector-base-address-register-mtvec

When vectored interrupts are enabled, interrupt cause 0, which
corresponds to user-mode software interrupts, are vectored to the same
location as synchronous exceptions. This ambiguity does not arise in
practice, since user-mode software interrupts are either disabled or
delegated to user mode.

 */
void riscv_mtvec_exception(void) __attribute__ ((interrupt ("machine")) );

/** Machine mode software interrupt */
void riscv_mtvec_msi(void) __attribute__ ((interrupt ("machine") )); 
/** Machine mode timer interrupt */
void riscv_mtvec_mti(void) __attribute__ ((interrupt ("machine") ));
/** Machine mode al interrupt */
void riscv_mtvec_mei(void) __attribute__ ((interrupt ("machine") ));

/** Supervisor mode software interrupt */
void riscv_mtvec_ssi(void) __attribute__ ((interrupt ("machine")) );
/** Supervisor mode timer interrupt */
void riscv_mtvec_sti(void) __attribute__ ((interrupt ("machine")) );
/** Supervisor mode al interrupt */
void riscv_mtvec_sei(void) __attribute__ ((interrupt ("machine")) );

/** Supervisor mode syncronous exception handler. */
void riscv_stvec_exception(void) __attribute__ ((interrupt ("supervisor")) );

/** Supervisor mode software interrupt */
void riscv_stvec_ssi(void) __attribute__ ((interrupt ("supervisor")) );
/** Supervisor mode timer interrupt */
void riscv_stvec_sti(void) __attribute__ ((interrupt ("supervisor")) );
/** Supervisor mode al interrupt */
void riscv_stvec_sei(void) __attribute__ ((interrupt ("supervisor")) );

/** User mode software interrupt */
void riscv_utvec_usi(void) __attribute__ ((interrupt ("user")) );
/** User mode timer interrupt */
void riscv_utvec_uti(void) __attribute__ ((interrupt ("user")) );
/** User mode al interrupt */
void riscv_utvec_uei(void) __attribute__ ((interrupt ("user")) );
/* Platform interrupt 9, bit 25 of mip/mie */
void riscv_mtvec_platform_irq(void) __attribute__ ((interrupt ("machine")) );

// #ifndef VECTOR_TABLE_MTVEC_PLATFORM_INTS

// /* Platform interrupts, bits 16+ of mie, mip etc 
// */

// /* Platform interrupt 0, bit 16 of mip/mie */
// void riscv_mtvec_platform_irq0(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 1, bit 17 of mip/mie */
// void riscv_mtvec_platform_irq1(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 2, bit 18 of mip/mie */
// void riscv_mtvec_platform_irq2(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 3, bit 19 of mip/mie */
// void riscv_mtvec_platform_irq3(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 4, bit 20 of mip/mie */
// void riscv_mtvec_platform_irq4(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 5, bit 21 of mip/mie */
// void riscv_mtvec_platform_irq5(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 6, bit 22 of mip/mie */
// void riscv_mtvec_platform_irq6(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 7, bit 23 of mip/mie */
// void riscv_mtvec_platform_irq7(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 8, bit 24 of mip/mie */
// void riscv_mtvec_platform_irq8(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 9, bit 25 of mip/mie */
// void riscv_mtvec_platform_irq9(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 10, bit 26 of mip/mie */
// void riscv_mtvec_platform_irq10(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 11, bit 27 of mip/mie */
// void riscv_mtvec_platform_irq11(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 12, bit 28 of mip/mie */
// void riscv_mtvec_platform_irq12(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 13, bit 29 of mip/mie */
// void riscv_mtvec_platform_irq13(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 14, bit 30 of mip/mie */
// void riscv_mtvec_platform_irq14(void) __attribute__ ((interrupt ("machine")) );
// /* Platform interrupt 15, bit 31 of mip/mie */
// void riscv_mtvec_platform_irq15(void) __attribute__ ((interrupt ("machine")) );


// #endif // #ifndef VECTOR_TABLE_MTVEC_PLATFORM_INTS


#endif // #ifndef VECTOR_TABLE_H