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/*
 * interrupt_vectors.s -- the interrupt handler jump table.
 *
 *
 * There are a total of 32 interrupt vector possible, however, only
 *   11 of those are currently used (the others are reserved). The
 *   order of vectors is as follows:
 *
 *     1. Boot Vector. Vector for power-on/reset.
 *     2. Software Vector. Vector for handling the SI instruction (an
 *          explicit interrupt caused by software).
 *     3. Break Vector. Vector for handling the Break instruction.
 *     4. Device 0 Vector. Service vector for device zero.
 *     5. Device 1 Vector. Service vector for device one.
 *     6. Device 2 Vector. Service vector for device two.
 *     7. Device 3 Vector. Service vector for device three.
 *     8. Device 4 Vector. Service vector for device four.
 *     9. Device 5 Vector. Service vector for device five.
 *    10. Device 6 Vector. Service vector for device six.
 *    11. Device 7 Vector. Service vector for device seven.
 *
 *   The rest of the interrupt vectors are reserved for future use.
 *
 *
 * Each jump table entry consists of the following two instructions:
 *
 *   jmp Label          ; Label as appropriate
 *   nop                ; implemented as or r0,r0,r0
 *
 *   The following labels are reserved for the vectors named above,
 *   respectively:
 *
 *     _BOOTIVEC, _SOFTIVEC, _BRKIVEC, _DEV0IVEC, _DEV1IVEC, _DEV2IVEC,
 *     _DEV3IVEC, _DEV4IVEC, _DEV5IVEC, _DEV6IVEC, _DEV7IVEC
 *
 *
 *
 * Copyright (c) 2001, 2002, 2003, 2004 Morpho Technologies
 *
 */
 
        .section .startup, "a", @progbits
        .global __boot_start
__boot_start:
_INTERRUPT_VECTOR_TABLE:
        jmp     _BOOTIVEC               ; Boot vector
        or      r0, r0, r0
        jmp     _SOFTIVEC               ; Vector for SI instruction
        or      r0,r0,r0
        jmp     _BRKIVEC                ; Vector for Break instruction
        or      r0,r0,r0
        ; The illegal instruction trap is not implemented.
_RESERVED1_IVEC:
        jmp     _RESERVED1_IVEC         ; Vector for illegal instruction
        or      r0,r0,r0
        jmp     _OVFIVEC                ; Vector for overflow exception
        or      r0,r0,r0
_RESERVED2_IVEC:
        jmp     _RESERVED2_IVEC
        or      r0,r0,r0
_RESERVED3_IVEC:
        jmp     _RESERVED3_IVEC
        or      r0,r0,r0
_RESERVED4_IVEC:
        jmp     _RESERVED4_IVEC
        or      r0,r0,r0
 
        .text
 
        .equ SI_IOPORT_ADR, _DEBUG_SW_SYSREQ_REG
        .equ SI_IOPORT_BIT, 0x1
        .equ BRK_IOPORT_ADR, _DEBUG_BREAK_REG
        .equ BRK_IOPORT_BIT, 0x1
 
        .global _BOOTIVEC
_BOOTIVEC:
        ; Initialize the interrupt controller's interrupt vector registers
        ldui    r1, #%hi16(_IVEC_DEFAULT)
        ori     r1, r1, #%lo16(_IVEC_DEFAULT)
        stw     r1, r0, #%lo16(_DEV0_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV1_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV2_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV3_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV4_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV5_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV6_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV7_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV8_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV9_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV10_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV11_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV12_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV13_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV14_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV15_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV16_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV17_INTERRUPT_REG)
        stw     r1, r0, #%lo16(_DEV18_INTERRUPT_REG)
 
        ; Statically initialized data must be copied from ROM to RAM.
        ; This is done in the C run-time start-up code (crt0.o).
 
        ; Jump to the beginning of the application and enable interrupts.
        jmp     _start
        ei
 
 
 
        ; Handler for the SI instruction. To perform a system call, the
        ; C model uses a trapping mechanism which executes an SI instruction.
        ; The Morpho Technologies simulator simply performs a branch to
        ; this vector to simulate the SI instruction (this is as the hardware
        ; behaves). In order to trigger the simulator that a system call
        ; is needed a write into the I/O register at address $40005 to
        ; set bit #2 (0x4) is necessary.
        ;
        ; The above address has been changed to 0x00031C and the bit number
        ; is zero. (The manifest constants have been changed to reflect this.)
        .global _SOFTIVEC
_SOFTIVEC:
        ; Build a frame to save registers.
        subi    sp, sp, #$8
        stw     r9, sp, #$4
        ldui    r9, #%hi16(SI_IOPORT_ADR)
        stw     r10, sp, #$0
        ori     r9, r9, #%lo16(SI_IOPORT_ADR)
        ori     r10, r0, #SI_IOPORT_BIT
        stw     r10, r9, #$0
        or      r0, r0, r0      ; SYS_call is handled by simulator here...
        ldw     r10, sp, #$0
        or      r0, r0, r0
        ldw     r9, sp, #$4
        reti    r14
        addi    sp, sp, #$8
 
 
 
        ; Handler for BREAK instruction. This handler triggers the simulator
        ; to send a SIGTRAP signal to gdb by writing to the I/O register at
        ; address $40005, setting bit #0 (0x1).
        ;
        ; The above address has been changed to 0x000304 and the bit number
        ; is zero. (The manifest constants have been changed to reflect this.)
        .global _BRKIVEC
_BRKIVEC:
        ; Build a frame to save registers.
        subi    sp, sp, #$8
        stw     r9, sp, #$4
        ldui    r9, #%hi16(BRK_IOPORT_ADR)
        stw     r10, sp, #$0
        ori     r9, r9, #%lo16(BRK_IOPORT_ADR)
        ori     r10, r0, #BRK_IOPORT_BIT
        stw     r10, r9, #$0
        or      r0, r0, r0
        or      r0, r0, r0
        or      r0, r0, r0
        or      r0, r0, r0
        or      r0, r0, r0
        ldw     r10, sp, #$0
        ldw     r9, sp, #$4
        reti    r15
        addi    sp, sp, #$8
 
 
        ; The documentation is lacking in the specification of the Overflow
        ;   Exception generation. The address of the instruction causing the
        ;   overflow is placed into R15 and the overflow exception interrupt
        ;   is triggered. So, to continue execution, return to the address
        ;   of the next instruction (i.e., R15 + one instruction).
_OVFIVEC:
        addi    r15, r15, #$4
        or      r0, r0, r0
        reti    r15
        or      r0, r0, r0
 
 
        .global _IVEC_DEFAULT
_IVEC_DEFAULT:
        reti    r15
        or      r0, r0, r0
 
 
        .section .internal_io, "a", @nobits
        .fill 256               ; Fill the first page.
 
        ; This is the memory-mapped I/O region.
 
        ; Hardware Interrupt Registers
        ;.org 0xfff100
        .global _DEV0_INTERRUPT_REG
_DEV0_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV1_INTERRUPT_REG
_DEV1_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV2_INTERRUPT_REG
_DEV2_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV3_INTERRUPT_REG
_DEV3_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV4_INTERRUPT_REG
_DEV4_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV5_INTERRUPT_REG
_DEV5_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV6_INTERRUPT_REG
_DEV6_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV7_INTERRUPT_REG
_DEV7_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV8_INTERRUPT_REG
_DEV8_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV9_INTERRUPT_REG
_DEV9_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV10_INTERRUPT_REG
_DEV10_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV11_INTERRUPT_REG
_DEV11_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV12_INTERRUPT_REG
_DEV12_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV13_INTERRUPT_REG
_DEV13_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV14_INTERRUPT_REG
_DEV14_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV15_INTERRUPT_REG
_DEV15_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV16_INTERRUPT_REG
_DEV16_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV17_INTERRUPT_REG
_DEV17_INTERRUPT_REG:
        .word 0x00000000
 
        .global _DEV18_INTERRUPT_REG
_DEV18_INTERRUPT_REG:
        .word 0x00000000
 
        ; 128 bytes minus ten registers (four bytes per register)
        .fill (128 - 19 * 4)
 
        .global _INTERRUPT_MASK_REG
_INTERRUPT_MASK_REG:
        .word 0x00000000
 
        ; 128 bytes minus one register (four bytes per register)
        .fill (128 - 1 * 4)
 
 
        ;.org 0xfff200
        ; MorphoSys Decoder Registers
        .global _MS_DEC_CIRC_BUFF_SEL_REG
_MS_DEC_CIRC_BUFF_SEL_REG:
        .word 0x00000000
 
        .global _MS_DEC_SKIP_FACTOR_REG
_MS_DEC_SKIP_FACTOR_REG:
        .word 0x00000000
 
        .global _MS_DEC_CUSTOM_PERM_REG
_MS_DEC_CUSTOM_PERM_REG:
        .word 0x00000000
 
        .global _MS_DEC_CTXT_BASE_REG
_MS_DEC_CTXT_BASE_REG:
        .word 0x00000000
 
        .global _MS_DEC_LOOKUP_TBL_REG
_MS_DEC_LOOKUP_TBL_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF0_END_REG
_MS_CIRC_BUFF0_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF0_SIZE_REG
_MS_CIRC_BUFF0_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK0_END_REG
_MS_DATA_BLK0_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK0_SIZE_REG
_MS_DATA_BLK0_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF1_END_REG
_MS_CIRC_BUFF1_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF1_SIZE_REG
_MS_CIRC_BUFF1_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK1_END_REG
_MS_DATA_BLK1_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK1_SIZE_REG
_MS_DATA_BLK1_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF2_END_REG
_MS_CIRC_BUFF2_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF2_SIZE_REG
_MS_CIRC_BUFF2_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK2_END_REG
_MS_DATA_BLK2_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK2_SIZE_REG
_MS_DATA_BLK2_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF3_END_REG
_MS_CIRC_BUFF3_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF3_SIZE_REG
_MS_CIRC_BUFF3_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK3_END_REG
_MS_DATA_BLK3_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK3_SIZE_REG
_MS_DATA_BLK3_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF4_END_REG
_MS_CIRC_BUFF4_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF4_SIZE_REG
_MS_CIRC_BUFF4_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK4_END_REG
_MS_DATA_BLK4_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK4_SIZE_REG
_MS_DATA_BLK4_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF5_END_REG
_MS_CIRC_BUFF5_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF5_SIZE_REG
_MS_CIRC_BUFF5_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK5_END_REG
_MS_DATA_BLK5_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK5_SIZE_REG
_MS_DATA_BLK5_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF6_END_REG
_MS_CIRC_BUFF6_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF6_SIZE_REG
_MS_CIRC_BUFF6_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK6_END_REG
_MS_DATA_BLK6_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK6_SIZE_REG
_MS_DATA_BLK6_SIZE_REG:
        .word 0x00000000
 
        .global _MS_CIRC_BUFF7_END_REG
_MS_CIRC_BUFF7_END_REG:
        .word (__FRAME_BUFFER_END)
 
        .global _MS_CIRC_BUFF7_SIZE_REG
_MS_CIRC_BUFF7_SIZE_REG:
        .word __FRAME_BUFFER_SIZE
 
        .global _MS_DATA_BLK7_END_REG
_MS_DATA_BLK7_END_REG:
        .word 0x00000000
 
        .global _MS_DATA_BLK7_SIZE_REG
_MS_DATA_BLK7_SIZE_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC0_REG
_MS_DEC_AUTO_INC0_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC1_REG
_MS_DEC_AUTO_INC1_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC2_REG
_MS_DEC_AUTO_INC2_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC3_REG
_MS_DEC_AUTO_INC3_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC4_REG
_MS_DEC_AUTO_INC4_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC5_REG
_MS_DEC_AUTO_INC5_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC6_REG
_MS_DEC_AUTO_INC6_REG:
        .word 0x00000000
 
        .global _MS_DEC_AUTO_INC7_REG
_MS_DEC_AUTO_INC7_REG:
        .word 0x00000000
 
 
        ; 256 bytes minus forty-five registers (four bytes per register)
        .fill (256 - 45 * 4)
 
 
 
        ;.org 0xfff300
        ; Debug Registers
        .global _DEBUG_HALT_REG
_DEBUG_HALT_REG:
        .word 0x00000000
 
        .global _DEBUG_BREAK_REG
_DEBUG_BREAK_REG:
        .word 0x00000000
 
        ; There are five reserved registers.
        .fill (5 * 4)
 
        .global _DEBUG_SW_SYSREQ_REG
_DEBUG_SW_SYSREQ_REG:
        .word 0x00000000
 
        ; 256 bytes minus eight registers (four bytes per register)
        .fill (256 - 8 * 4)
 
 
 
        ;.org 0xfff400
        ; Sequence Generator Registers
        .global _SEQ_GEN_CTRL_REG
_SEQ_GEN_CTRL_REG:
        .word 0x00000000
 
        .global _SEQ_GEN_MASK_REGS
_SEQ_GEN_MASK_REGS:
        ; The mask registers consume two pages (less one control register).
        ; 512 bytes minus one register (four bytes per register).
        .fill (256 + 256 - 1 * 4)
 
 
 
        ;.org 0xfff600
        ; Timer Registers
        .global _TIMER0_VAL_REG
_TIMER0_VAL_REG:
        .word 0x00000000
 
        .global _TIMER1_VAL_REG
_TIMER1_VAL_REG:
        .word 0x00000000
 
        .global _TIMER2_VAL_REG
_TIMER2_VAL_REG:
        .word 0x00000000
 
        .global _TIMER3_VAL_REG
_TIMER3_VAL_REG:
        .word 0x00000000
 
        ; 256 bytes minus four registers (four bytes per register)
        .fill (256 - 4 * 4)
 
 
 
        ;.org 0xfff700
        ; Output Line Control Registers
        .global _OUTPUT0_CTRL
_OUTPUT0_CTRL:
        .word 0x00000000
 
        .global _OUTPUT1_CTRL
_OUTPUT1_CTRL:
        .word 0x00000000
 
        .global _OUTPUT2_CTRL
_OUTPUT2_CTRL:
        .word 0x00000000
 
        .global _OUTPUT3_CTRL
_OUTPUT3_CTRL:
        .word 0x00000000
 
        .global _OUTPUT4_CTRL
_OUTPUT4_CTRL:
        .word 0x00000000
 
        .global _OUTPUT5_CTRL
_OUTPUT5_CTRL:
        .word 0x00000000
 
        .global _OUTPUT6_CTRL
_OUTPUT6_CTRL:
        .word 0x00000000
 
        .global _OUTPUT7_CTRL
_OUTPUT7_CTRL:
        .word 0x00000000
 
        .global _OUTPUT8_CTRL
_OUTPUT8_CTRL:
        .word 0x00000000
 
        .global _OUTPUT9_CTRL
_OUTPUT9_CTRL:
        .word 0x00000000
 
        .global _OUTPUT10_CTRL
_OUTPUT10_CTRL:
        .word 0x00000000
 
        ;; 128 bytes minus eleven registers (four bytes per register)
        ;.fill (128 - 11 * 4)
 
        .global _INPUT0_CTRL
_INPUT0_CTRL:
        .word 0x00000000
 
        ;; 128 bytes minus one register (four bytes per register)
        ;.fill (128 - 1 * 4)
        ; 256 bytes minus twelve registers (four bytes per register)
        .fill (256 - 12 * 4)
 
 
 
        ;.org 0xfff800
        ; IQ Buffer Registers
        .global _IQ_BUFF_CTRL_REG
_IQ_BUFF_CTRL_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_PARAMETER1_REG
_IQ_BUFF_PARAMETER1_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_DATA_SIZE1_REG
_IQ_BUFF_DATA_SIZE1_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_TRANSFER_SIZE1_REG
_IQ_BUFF_TRANSFER_SIZE1_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_FB_ADDR1_REG
_IQ_BUFF_FB_ADDR1_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_PARAMETER2_REG
_IQ_BUFF_PARAMETER2_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_DATA_SIZE2_REG
_IQ_BUFF_DATA_SIZE2_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_TRANSFER_SIZE2_REG
_IQ_BUFF_TRANSFER_SIZE2_REG:
        .word 0x00000000
 
        .global _IQ_BUFF_FB_ADDR2_REG
_IQ_BUFF_FB_ADDR2_REG:
        .word 0x00000000
 
        ; 256 bytes minus nine registers (four bytes per register)
        .fill (256 - 9 * 4)
 
 
        ;.org 0xfff900
        ; Reserved memory-mapped space.
        .fill (0x1000 - 0x900)

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[/] [openrisc/] [trunk/] [gnu-old/] [newlib-1.17.0/] [libgloss/] [mt/] [startup-16-002.S] - Blame information for rev 816

Line No.	Rev	Author	Line
1	148	jeremybenn	`/*`
2			`* interrupt_vectors.s -- the interrupt handler jump table.`
3			`*`
4			`*`
5			`* There are a total of 32 interrupt vector possible, however, only`
6			`* 11 of those are currently used (the others are reserved). The`
7			`* order of vectors is as follows:`
8			`*`
9			`* 1. Boot Vector. Vector for power-on/reset.`
10			`* 2. Software Vector. Vector for handling the SI instruction (an`
11			`* explicit interrupt caused by software).`
12			`* 3. Break Vector. Vector for handling the Break instruction.`
13			`* 4. Device 0 Vector. Service vector for device zero.`
14			`* 5. Device 1 Vector. Service vector for device one.`
15			`* 6. Device 2 Vector. Service vector for device two.`
16			`* 7. Device 3 Vector. Service vector for device three.`
17			`* 8. Device 4 Vector. Service vector for device four.`
18			`* 9. Device 5 Vector. Service vector for device five.`
19			`* 10. Device 6 Vector. Service vector for device six.`
20			`* 11. Device 7 Vector. Service vector for device seven.`
21			`*`
22			`* The rest of the interrupt vectors are reserved for future use.`
23			`*`
24			`*`
25			`* Each jump table entry consists of the following two instructions:`
26			`*`
27			`* jmp Label ; Label as appropriate`
28			`* nop ; implemented as or r0,r0,r0`
29			`*`
30			`* The following labels are reserved for the vectors named above,`
31			`* respectively:`
32			`*`
33			`* _BOOTIVEC, _SOFTIVEC, _BRKIVEC, _DEV0IVEC, _DEV1IVEC, _DEV2IVEC,`
34			`* _DEV3IVEC, _DEV4IVEC, _DEV5IVEC, _DEV6IVEC, _DEV7IVEC`
35			`*`
36			`*`
37			`*`
38			`* Copyright (c) 2001, 2002, 2003, 2004 Morpho Technologies`
39			`*`
40			`*/`
41
42			`.section .startup, "a", @progbits`
43			`.global __boot_start`
44			`__boot_start:`
45			`_INTERRUPT_VECTOR_TABLE:`
46			`jmp _BOOTIVEC ; Boot vector`
47			`or r0, r0, r0`
48			`jmp _SOFTIVEC ; Vector for SI instruction`
49			`or r0,r0,r0`
50			`jmp _BRKIVEC ; Vector for Break instruction`
51			`or r0,r0,r0`
52			`; The illegal instruction trap is not implemented.`
53			`_RESERVED1_IVEC:`
54			`jmp _RESERVED1_IVEC ; Vector for illegal instruction`
55			`or r0,r0,r0`
56			`jmp _OVFIVEC ; Vector for overflow exception`
57			`or r0,r0,r0`
58			`_RESERVED2_IVEC:`
59			`jmp _RESERVED2_IVEC`
60			`or r0,r0,r0`
61			`_RESERVED3_IVEC:`
62			`jmp _RESERVED3_IVEC`
63			`or r0,r0,r0`
64			`_RESERVED4_IVEC:`
65			`jmp _RESERVED4_IVEC`
66			`or r0,r0,r0`
67
68			`.text`
69
70			`.equ SI_IOPORT_ADR, _DEBUG_SW_SYSREQ_REG`
71			`.equ SI_IOPORT_BIT, 0x1`
72			`.equ BRK_IOPORT_ADR, _DEBUG_BREAK_REG`
73			`.equ BRK_IOPORT_BIT, 0x1`
74
75			`.global _BOOTIVEC`
76			`_BOOTIVEC:`
77			`; Initialize the interrupt controller's interrupt vector registers`
78			`ldui r1, #%hi16(_IVEC_DEFAULT)`
79			`ori r1, r1, #%lo16(_IVEC_DEFAULT)`
80			`stw r1, r0, #%lo16(_DEV0_INTERRUPT_REG)`
81			`stw r1, r0, #%lo16(_DEV1_INTERRUPT_REG)`
82			`stw r1, r0, #%lo16(_DEV2_INTERRUPT_REG)`
83			`stw r1, r0, #%lo16(_DEV3_INTERRUPT_REG)`
84			`stw r1, r0, #%lo16(_DEV4_INTERRUPT_REG)`
85			`stw r1, r0, #%lo16(_DEV5_INTERRUPT_REG)`
86			`stw r1, r0, #%lo16(_DEV6_INTERRUPT_REG)`
87			`stw r1, r0, #%lo16(_DEV7_INTERRUPT_REG)`
88			`stw r1, r0, #%lo16(_DEV8_INTERRUPT_REG)`
89			`stw r1, r0, #%lo16(_DEV9_INTERRUPT_REG)`
90			`stw r1, r0, #%lo16(_DEV10_INTERRUPT_REG)`
91			`stw r1, r0, #%lo16(_DEV11_INTERRUPT_REG)`
92			`stw r1, r0, #%lo16(_DEV12_INTERRUPT_REG)`
93			`stw r1, r0, #%lo16(_DEV13_INTERRUPT_REG)`
94			`stw r1, r0, #%lo16(_DEV14_INTERRUPT_REG)`
95			`stw r1, r0, #%lo16(_DEV15_INTERRUPT_REG)`
96			`stw r1, r0, #%lo16(_DEV16_INTERRUPT_REG)`
97			`stw r1, r0, #%lo16(_DEV17_INTERRUPT_REG)`
98			`stw r1, r0, #%lo16(_DEV18_INTERRUPT_REG)`
99
100			`; Statically initialized data must be copied from ROM to RAM.`
101			`; This is done in the C run-time start-up code (crt0.o).`
102
103			`; Jump to the beginning of the application and enable interrupts.`
104			`jmp _start`
105			`ei`
106
107
108
109			`; Handler for the SI instruction. To perform a system call, the`
110			`; C model uses a trapping mechanism which executes an SI instruction.`
111			`; The Morpho Technologies simulator simply performs a branch to`
112			`; this vector to simulate the SI instruction (this is as the hardware`
113			`; behaves). In order to trigger the simulator that a system call`
114			`; is needed a write into the I/O register at address $40005 to`
115			`; set bit #2 (0x4) is necessary.`
116			`;`
117			`; The above address has been changed to 0x00031C and the bit number`
118			`; is zero. (The manifest constants have been changed to reflect this.)`
119			`.global _SOFTIVEC`
120			`_SOFTIVEC:`
121			`; Build a frame to save registers.`
122			`subi sp, sp, #$8`
123			`stw r9, sp, #$4`
124			`ldui r9, #%hi16(SI_IOPORT_ADR)`
125			`stw r10, sp, #$0`
126			`ori r9, r9, #%lo16(SI_IOPORT_ADR)`
127			`ori r10, r0, #SI_IOPORT_BIT`
128			`stw r10, r9, #$0`
129			`or r0, r0, r0 ; SYS_call is handled by simulator here...`
130			`ldw r10, sp, #$0`
131			`or r0, r0, r0`
132			`ldw r9, sp, #$4`
133			`reti r14`
134			`addi sp, sp, #$8`
135
136
137
138			`; Handler for BREAK instruction. This handler triggers the simulator`
139			`; to send a SIGTRAP signal to gdb by writing to the I/O register at`
140			`; address $40005, setting bit #0 (0x1).`
141			`;`
142			`; The above address has been changed to 0x000304 and the bit number`
143			`; is zero. (The manifest constants have been changed to reflect this.)`
144			`.global _BRKIVEC`
145			`_BRKIVEC:`
146			`; Build a frame to save registers.`
147			`subi sp, sp, #$8`
148			`stw r9, sp, #$4`
149			`ldui r9, #%hi16(BRK_IOPORT_ADR)`
150			`stw r10, sp, #$0`
151			`ori r9, r9, #%lo16(BRK_IOPORT_ADR)`
152			`ori r10, r0, #BRK_IOPORT_BIT`
153			`stw r10, r9, #$0`
154			`or r0, r0, r0`
155			`or r0, r0, r0`
156			`or r0, r0, r0`
157			`or r0, r0, r0`
158			`or r0, r0, r0`
159			`ldw r10, sp, #$0`
160			`ldw r9, sp, #$4`
161			`reti r15`
162			`addi sp, sp, #$8`
163
164
165			`; The documentation is lacking in the specification of the Overflow`
166			`; Exception generation. The address of the instruction causing the`
167			`; overflow is placed into R15 and the overflow exception interrupt`
168			`; is triggered. So, to continue execution, return to the address`
169			`; of the next instruction (i.e., R15 + one instruction).`
170			`_OVFIVEC:`
171			`addi r15, r15, #$4`
172			`or r0, r0, r0`
173			`reti r15`
174			`or r0, r0, r0`
175
176
177			`.global _IVEC_DEFAULT`
178			`_IVEC_DEFAULT:`
179			`reti r15`
180			`or r0, r0, r0`
181
182
183			`.section .internal_io, "a", @nobits`
184			`.fill 256 ; Fill the first page.`
185
186			`; This is the memory-mapped I/O region.`
187
188			`; Hardware Interrupt Registers`
189			`;.org 0xfff100`
190			`.global _DEV0_INTERRUPT_REG`
191			`_DEV0_INTERRUPT_REG:`
192			`.word 0x00000000`
193
194			`.global _DEV1_INTERRUPT_REG`
195			`_DEV1_INTERRUPT_REG:`
196			`.word 0x00000000`
197
198			`.global _DEV2_INTERRUPT_REG`
199			`_DEV2_INTERRUPT_REG:`
200			`.word 0x00000000`
201
202			`.global _DEV3_INTERRUPT_REG`
203			`_DEV3_INTERRUPT_REG:`
204			`.word 0x00000000`
205
206			`.global _DEV4_INTERRUPT_REG`
207			`_DEV4_INTERRUPT_REG:`
208			`.word 0x00000000`
209
210			`.global _DEV5_INTERRUPT_REG`
211			`_DEV5_INTERRUPT_REG:`
212			`.word 0x00000000`
213
214			`.global _DEV6_INTERRUPT_REG`
215			`_DEV6_INTERRUPT_REG:`
216			`.word 0x00000000`
217
218			`.global _DEV7_INTERRUPT_REG`
219			`_DEV7_INTERRUPT_REG:`
220			`.word 0x00000000`
221
222			`.global _DEV8_INTERRUPT_REG`
223			`_DEV8_INTERRUPT_REG:`
224			`.word 0x00000000`
225
226			`.global _DEV9_INTERRUPT_REG`
227			`_DEV9_INTERRUPT_REG:`
228			`.word 0x00000000`
229
230			`.global _DEV10_INTERRUPT_REG`
231			`_DEV10_INTERRUPT_REG:`
232			`.word 0x00000000`
233
234			`.global _DEV11_INTERRUPT_REG`
235			`_DEV11_INTERRUPT_REG:`
236			`.word 0x00000000`
237
238			`.global _DEV12_INTERRUPT_REG`
239			`_DEV12_INTERRUPT_REG:`
240			`.word 0x00000000`
241
242			`.global _DEV13_INTERRUPT_REG`
243			`_DEV13_INTERRUPT_REG:`
244			`.word 0x00000000`
245
246			`.global _DEV14_INTERRUPT_REG`
247			`_DEV14_INTERRUPT_REG:`
248			`.word 0x00000000`
249
250			`.global _DEV15_INTERRUPT_REG`
251			`_DEV15_INTERRUPT_REG:`
252			`.word 0x00000000`
253
254			`.global _DEV16_INTERRUPT_REG`
255			`_DEV16_INTERRUPT_REG:`
256			`.word 0x00000000`
257
258			`.global _DEV17_INTERRUPT_REG`
259			`_DEV17_INTERRUPT_REG:`
260			`.word 0x00000000`
261
262			`.global _DEV18_INTERRUPT_REG`
263			`_DEV18_INTERRUPT_REG:`
264			`.word 0x00000000`
265
266			`; 128 bytes minus ten registers (four bytes per register)`
267			`.fill (128 - 19 * 4)`
268
269			`.global _INTERRUPT_MASK_REG`
270			`_INTERRUPT_MASK_REG:`
271			`.word 0x00000000`
272
273			`; 128 bytes minus one register (four bytes per register)`
274			`.fill (128 - 1 * 4)`
275
276
277			`;.org 0xfff200`
278			`; MorphoSys Decoder Registers`
279			`.global _MS_DEC_CIRC_BUFF_SEL_REG`
280			`_MS_DEC_CIRC_BUFF_SEL_REG:`
281			`.word 0x00000000`
282
283			`.global _MS_DEC_SKIP_FACTOR_REG`
284			`_MS_DEC_SKIP_FACTOR_REG:`
285			`.word 0x00000000`
286
287			`.global _MS_DEC_CUSTOM_PERM_REG`
288			`_MS_DEC_CUSTOM_PERM_REG:`
289			`.word 0x00000000`
290
291			`.global _MS_DEC_CTXT_BASE_REG`
292			`_MS_DEC_CTXT_BASE_REG:`
293			`.word 0x00000000`
294
295			`.global _MS_DEC_LOOKUP_TBL_REG`
296			`_MS_DEC_LOOKUP_TBL_REG:`
297			`.word 0x00000000`
298
299			`.global _MS_CIRC_BUFF0_END_REG`
300			`_MS_CIRC_BUFF0_END_REG:`
301			`.word (__FRAME_BUFFER_END)`
302
303			`.global _MS_CIRC_BUFF0_SIZE_REG`
304			`_MS_CIRC_BUFF0_SIZE_REG:`
305			`.word __FRAME_BUFFER_SIZE`
306
307			`.global _MS_DATA_BLK0_END_REG`
308			`_MS_DATA_BLK0_END_REG:`
309			`.word 0x00000000`
310
311			`.global _MS_DATA_BLK0_SIZE_REG`
312			`_MS_DATA_BLK0_SIZE_REG:`
313			`.word 0x00000000`
314
315			`.global _MS_CIRC_BUFF1_END_REG`
316			`_MS_CIRC_BUFF1_END_REG:`
317			`.word (__FRAME_BUFFER_END)`
318
319			`.global _MS_CIRC_BUFF1_SIZE_REG`
320			`_MS_CIRC_BUFF1_SIZE_REG:`
321			`.word __FRAME_BUFFER_SIZE`
322
323			`.global _MS_DATA_BLK1_END_REG`
324			`_MS_DATA_BLK1_END_REG:`
325			`.word 0x00000000`
326
327			`.global _MS_DATA_BLK1_SIZE_REG`
328			`_MS_DATA_BLK1_SIZE_REG:`
329			`.word 0x00000000`
330
331			`.global _MS_CIRC_BUFF2_END_REG`
332			`_MS_CIRC_BUFF2_END_REG:`
333			`.word (__FRAME_BUFFER_END)`
334
335			`.global _MS_CIRC_BUFF2_SIZE_REG`
336			`_MS_CIRC_BUFF2_SIZE_REG:`
337			`.word __FRAME_BUFFER_SIZE`
338
339			`.global _MS_DATA_BLK2_END_REG`
340			`_MS_DATA_BLK2_END_REG:`
341			`.word 0x00000000`
342
343			`.global _MS_DATA_BLK2_SIZE_REG`
344			`_MS_DATA_BLK2_SIZE_REG:`
345			`.word 0x00000000`
346
347			`.global _MS_CIRC_BUFF3_END_REG`
348			`_MS_CIRC_BUFF3_END_REG:`
349			`.word (__FRAME_BUFFER_END)`
350
351			`.global _MS_CIRC_BUFF3_SIZE_REG`
352			`_MS_CIRC_BUFF3_SIZE_REG:`
353			`.word __FRAME_BUFFER_SIZE`
354
355			`.global _MS_DATA_BLK3_END_REG`
356			`_MS_DATA_BLK3_END_REG:`
357			`.word 0x00000000`
358
359			`.global _MS_DATA_BLK3_SIZE_REG`
360			`_MS_DATA_BLK3_SIZE_REG:`
361			`.word 0x00000000`
362
363			`.global _MS_CIRC_BUFF4_END_REG`
364			`_MS_CIRC_BUFF4_END_REG:`
365			`.word (__FRAME_BUFFER_END)`
366
367			`.global _MS_CIRC_BUFF4_SIZE_REG`
368			`_MS_CIRC_BUFF4_SIZE_REG:`
369			`.word __FRAME_BUFFER_SIZE`
370
371			`.global _MS_DATA_BLK4_END_REG`
372			`_MS_DATA_BLK4_END_REG:`
373			`.word 0x00000000`
374
375			`.global _MS_DATA_BLK4_SIZE_REG`
376			`_MS_DATA_BLK4_SIZE_REG:`
377			`.word 0x00000000`
378
379			`.global _MS_CIRC_BUFF5_END_REG`
380			`_MS_CIRC_BUFF5_END_REG:`
381			`.word (__FRAME_BUFFER_END)`
382
383			`.global _MS_CIRC_BUFF5_SIZE_REG`
384			`_MS_CIRC_BUFF5_SIZE_REG:`
385			`.word __FRAME_BUFFER_SIZE`
386
387			`.global _MS_DATA_BLK5_END_REG`
388			`_MS_DATA_BLK5_END_REG:`
389			`.word 0x00000000`
390
391			`.global _MS_DATA_BLK5_SIZE_REG`
392			`_MS_DATA_BLK5_SIZE_REG:`
393			`.word 0x00000000`
394
395			`.global _MS_CIRC_BUFF6_END_REG`
396			`_MS_CIRC_BUFF6_END_REG:`
397			`.word (__FRAME_BUFFER_END)`
398
399			`.global _MS_CIRC_BUFF6_SIZE_REG`
400			`_MS_CIRC_BUFF6_SIZE_REG:`
401			`.word __FRAME_BUFFER_SIZE`
402
403			`.global _MS_DATA_BLK6_END_REG`
404			`_MS_DATA_BLK6_END_REG:`
405			`.word 0x00000000`
406
407			`.global _MS_DATA_BLK6_SIZE_REG`
408			`_MS_DATA_BLK6_SIZE_REG:`
409			`.word 0x00000000`
410
411			`.global _MS_CIRC_BUFF7_END_REG`
412			`_MS_CIRC_BUFF7_END_REG:`
413			`.word (__FRAME_BUFFER_END)`
414
415			`.global _MS_CIRC_BUFF7_SIZE_REG`
416			`_MS_CIRC_BUFF7_SIZE_REG:`
417			`.word __FRAME_BUFFER_SIZE`
418
419			`.global _MS_DATA_BLK7_END_REG`
420			`_MS_DATA_BLK7_END_REG:`
421			`.word 0x00000000`
422
423			`.global _MS_DATA_BLK7_SIZE_REG`
424			`_MS_DATA_BLK7_SIZE_REG:`
425			`.word 0x00000000`
426
427			`.global _MS_DEC_AUTO_INC0_REG`
428			`_MS_DEC_AUTO_INC0_REG:`
429			`.word 0x00000000`
430
431			`.global _MS_DEC_AUTO_INC1_REG`
432			`_MS_DEC_AUTO_INC1_REG:`
433			`.word 0x00000000`
434
435			`.global _MS_DEC_AUTO_INC2_REG`
436			`_MS_DEC_AUTO_INC2_REG:`
437			`.word 0x00000000`
438
439			`.global _MS_DEC_AUTO_INC3_REG`
440			`_MS_DEC_AUTO_INC3_REG:`
441			`.word 0x00000000`
442
443			`.global _MS_DEC_AUTO_INC4_REG`
444			`_MS_DEC_AUTO_INC4_REG:`
445			`.word 0x00000000`
446
447			`.global _MS_DEC_AUTO_INC5_REG`
448			`_MS_DEC_AUTO_INC5_REG:`
449			`.word 0x00000000`
450
451			`.global _MS_DEC_AUTO_INC6_REG`
452			`_MS_DEC_AUTO_INC6_REG:`
453			`.word 0x00000000`
454
455			`.global _MS_DEC_AUTO_INC7_REG`
456			`_MS_DEC_AUTO_INC7_REG:`
457			`.word 0x00000000`
458
459
460			`; 256 bytes minus forty-five registers (four bytes per register)`
461			`.fill (256 - 45 * 4)`
462
463
464
465			`;.org 0xfff300`
466			`; Debug Registers`
467			`.global _DEBUG_HALT_REG`
468			`_DEBUG_HALT_REG:`
469			`.word 0x00000000`
470
471			`.global _DEBUG_BREAK_REG`
472			`_DEBUG_BREAK_REG:`
473			`.word 0x00000000`
474
475			`; There are five reserved registers.`
476			`.fill (5 * 4)`
477
478			`.global _DEBUG_SW_SYSREQ_REG`
479			`_DEBUG_SW_SYSREQ_REG:`
480			`.word 0x00000000`
481
482			`; 256 bytes minus eight registers (four bytes per register)`
483			`.fill (256 - 8 * 4)`
484
485
486
487			`;.org 0xfff400`
488			`; Sequence Generator Registers`
489			`.global _SEQ_GEN_CTRL_REG`
490			`_SEQ_GEN_CTRL_REG:`
491			`.word 0x00000000`
492
493			`.global _SEQ_GEN_MASK_REGS`
494			`_SEQ_GEN_MASK_REGS:`
495			`; The mask registers consume two pages (less one control register).`
496			`; 512 bytes minus one register (four bytes per register).`
497			`.fill (256 + 256 - 1 * 4)`
498
499
500
501			`;.org 0xfff600`
502			`; Timer Registers`
503			`.global _TIMER0_VAL_REG`
504			`_TIMER0_VAL_REG:`
505			`.word 0x00000000`
506
507			`.global _TIMER1_VAL_REG`
508			`_TIMER1_VAL_REG:`
509			`.word 0x00000000`
510
511			`.global _TIMER2_VAL_REG`
512			`_TIMER2_VAL_REG:`
513			`.word 0x00000000`
514
515			`.global _TIMER3_VAL_REG`
516			`_TIMER3_VAL_REG:`
517			`.word 0x00000000`
518
519			`; 256 bytes minus four registers (four bytes per register)`
520			`.fill (256 - 4 * 4)`
521
522
523
524			`;.org 0xfff700`
525			`; Output Line Control Registers`
526			`.global _OUTPUT0_CTRL`
527			`_OUTPUT0_CTRL:`
528			`.word 0x00000000`
529
530			`.global _OUTPUT1_CTRL`
531			`_OUTPUT1_CTRL:`
532			`.word 0x00000000`
533
534			`.global _OUTPUT2_CTRL`
535			`_OUTPUT2_CTRL:`
536			`.word 0x00000000`
537
538			`.global _OUTPUT3_CTRL`
539			`_OUTPUT3_CTRL:`
540			`.word 0x00000000`
541
542			`.global _OUTPUT4_CTRL`
543			`_OUTPUT4_CTRL:`
544			`.word 0x00000000`
545
546			`.global _OUTPUT5_CTRL`
547			`_OUTPUT5_CTRL:`
548			`.word 0x00000000`
549
550			`.global _OUTPUT6_CTRL`
551			`_OUTPUT6_CTRL:`
552			`.word 0x00000000`
553
554			`.global _OUTPUT7_CTRL`
555			`_OUTPUT7_CTRL:`
556			`.word 0x00000000`
557
558			`.global _OUTPUT8_CTRL`
559			`_OUTPUT8_CTRL:`
560			`.word 0x00000000`
561
562			`.global _OUTPUT9_CTRL`
563			`_OUTPUT9_CTRL:`
564			`.word 0x00000000`
565
566			`.global _OUTPUT10_CTRL`
567			`_OUTPUT10_CTRL:`
568			`.word 0x00000000`
569
570			`;; 128 bytes minus eleven registers (four bytes per register)`
571			`;.fill (128 - 11 * 4)`
572
573			`.global _INPUT0_CTRL`
574			`_INPUT0_CTRL:`
575			`.word 0x00000000`
576
577			`;; 128 bytes minus one register (four bytes per register)`
578			`;.fill (128 - 1 * 4)`
579			`; 256 bytes minus twelve registers (four bytes per register)`
580			`.fill (256 - 12 * 4)`
581
582
583
584			`;.org 0xfff800`
585			`; IQ Buffer Registers`
586			`.global _IQ_BUFF_CTRL_REG`
587			`_IQ_BUFF_CTRL_REG:`
588			`.word 0x00000000`
589
590			`.global _IQ_BUFF_PARAMETER1_REG`
591			`_IQ_BUFF_PARAMETER1_REG:`
592			`.word 0x00000000`
593
594			`.global _IQ_BUFF_DATA_SIZE1_REG`
595			`_IQ_BUFF_DATA_SIZE1_REG:`
596			`.word 0x00000000`
597
598			`.global _IQ_BUFF_TRANSFER_SIZE1_REG`
599			`_IQ_BUFF_TRANSFER_SIZE1_REG:`
600			`.word 0x00000000`
601
602			`.global _IQ_BUFF_FB_ADDR1_REG`
603			`_IQ_BUFF_FB_ADDR1_REG:`
604			`.word 0x00000000`
605
606			`.global _IQ_BUFF_PARAMETER2_REG`
607			`_IQ_BUFF_PARAMETER2_REG:`
608			`.word 0x00000000`
609
610			`.global _IQ_BUFF_DATA_SIZE2_REG`
611			`_IQ_BUFF_DATA_SIZE2_REG:`
612			`.word 0x00000000`
613
614			`.global _IQ_BUFF_TRANSFER_SIZE2_REG`
615			`_IQ_BUFF_TRANSFER_SIZE2_REG:`
616			`.word 0x00000000`
617
618			`.global _IQ_BUFF_FB_ADDR2_REG`
619			`_IQ_BUFF_FB_ADDR2_REG:`
620			`.word 0x00000000`
621
622			`; 256 bytes minus nine registers (four bytes per register)`
623			`.fill (256 - 9 * 4)`
624
625
626			`;.org 0xfff900`
627			`; Reserved memory-mapped space.`
628			`.fill (0x1000 - 0x900)`