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/* ################################################################################################# */
/* # << NEORV32 - crt0.S - Application Start-Up Code & Minimal Runtime Environment >> # */
/* # ********************************************************************************************* # */
/* # The start-up code provides a minimal runtime environment that catches all exceptions and # */
/* # interrupts and delegates them to the handler functions (installed by user via dedicated # */
/* # install function from the neorv32 runtime environment library). # */
/* # ********************************************************************************************* # */
/* # BSD 3-Clause License # */
/* # # */
/* # Copyright (c) 2020, Stephan Nolting. All rights reserved. # */
/* # # */
/* # Redistribution and use in source and binary forms, with or without modification, are # */
/* # permitted provided that the following conditions are met: # */
/* # # */
/* # 1. Redistributions of source code must retain the above copyright notice, this list of # */
/* # conditions and the following disclaimer. # */
/* # # */
/* # 2. Redistributions in binary form must reproduce the above copyright notice, this list of # */
/* # conditions and the following disclaimer in the documentation and/or other materials # */
/* # provided with the distribution. # */
/* # # */
/* # 3. Neither the name of the copyright holder nor the names of its contributors may be used to # */
/* # endorse or promote products derived from this software without specific prior written # */
/* # permission. # */
/* # # */
/* # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS # */
/* # OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF # */
/* # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE # */
/* # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, # */
/* # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE # */
/* # GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED # */
/* # AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING # */
/* # NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED # */
/* # OF THE POSSIBILITY OF SUCH DAMAGE. # */
/* # ********************************************************************************************* # */
/* # The NEORV32 Processor - https://github.com/stnolting/neorv32 (c) Stephan Nolting # */
/* ################################################################################################# */
.file "crt0.S"
.section .text
.balign 4
.global _start
// IO region
.set IO_BEGIN, 0xFFFFFF80 // start of processor-internal IO region
// SYSINFO
.set SYSINFO_DSPACE_BASE, 0xFFFFFFF4
.set SYSINFO_DSPACE_SIZE, 0xFFFFFFFC
_start:
.cfi_startproc
.cfi_undefined ra
// *********************************************************
// Clear register file
// *********************************************************
__crt0_reg_file_clear:
addi x0, x0, 0 // hardwired to zero
addi x1, x0, 0
__crt0_reg_file_init:
addi x2, x1, 0
addi x3, x2, 0
addi x4, x3, 0
addi x5, x4, 0
addi x6, x5, 0
addi x7, x6, 0
addi x8, x7, 0
addi x9, x8, 0
addi x10, x9, 0
addi x11, x10, 0
addi x12, x11, 0
addi x13, x12, 0
addi x14, x13, 0
addi x15, x14, 0
// the following registers do not exist in rv32e
// "__RISCV_EMBEDDED_CPU__" is automatically defined by the makefiles when
// compiling for a rv32e architecture
#ifndef __RISCV_EMBEDDED_CPU__
addi x16, x15, 0
addi x17, x16, 0
addi x18, x17, 0
addi x19, x18, 0
addi x20, x19, 0
addi x21, x20, 0
addi x22, x21, 0
addi x23, x22, 0
addi x24, x23, 0
addi x25, x24, 0
addi x26, x25, 0
addi x27, x26, 0
addi x28, x27, 0
addi x29, x28, 0
addi x30, x29, 0
addi x31, x30, 0
#endif
// *********************************************************
// TEST AREA / DANGER ZONE / IDEA-LAB
// *********************************************************
__crt0_tests:
nop
// *********************************************************
// Setup stack pointer
// *********************************************************
__crt0_stack_pointer_init:
lw x11, SYSINFO_DSPACE_BASE(zero) // data memory space base address
lw x12, SYSINFO_DSPACE_SIZE(zero) // data memory space size
add sp, x11, x12
addi sp, sp, -4 // stack pointer = last entry
addi fp, sp, 0 // frame pointer = stack pointer
// *********************************************************
// Setup global pointer
// *********************************************************
__crt0_global_pointer_init:
.option push
.option norelax
la gp, __global_pointer$
.option pop
// *********************************************************
// Init exception vector table (2x16 4-byte entries) with dummy handlers
// *********************************************************
__crt0_neorv32_rte_init:
la x11, __crt0_neorv32_rte
csrw mtvec, x11 // set address of first-level exception handler
lw x11, SYSINFO_DSPACE_BASE(zero) // data memory space base address
la x12, __crt0_neorv32_rte_dummy_hanlder
li x13, 2*16 // number of entries (16xEXC, 16xIRQ)
__crt0_neorv32_rte_init_loop:
sw x12, 0(x11) // set dummy handler
add x11, x11, 4
add x13, x13, -1
bne zero, x13, __crt0_neorv32_rte_init_loop
// *********************************************************
// Reset/deactivate IO/peripheral devices
// Devices, that are not implemented, will cause a store access fault
// which is captured but actually ignored due to the dummy handler.
// *********************************************************
__crt0_reset_io:
li x11, IO_BEGIN // start of processor-internal IO region
__crt0_reset_io_loop:
sw zero, 0(x11)
addi x11, x11, 4
bne zero, x11, __crt0_reset_io_loop
// *********************************************************
// Clear .bss section (byte-wise)
// *********************************************************
__crt0_clear_bss:
la x11, __crt0_bss_start
la x12, __crt0_bss_end
__crt0_clear_bss_loop:
bge x11, x12, __crt0_clear_bss_loop_end
sb zero, 0(x11)
addi x11, x11, 1
j __crt0_clear_bss_loop
__crt0_clear_bss_loop_end:
// *********************************************************
// Copy initialized .data section from ROM to RAM (byte-wise)
// *********************************************************
__crt0_copy_data:
la x11, __crt0_copy_data_src_begin // start of data area (copy source)
la x12, __crt0_copy_data_dst_begin // start of data area (copy destination)
la x13, __crt0_copy_data_dst_end // last address of destination data area
__crt0_copy_data_loop:
bge x12, x13, __crt0_copy_data_loop_end
lb x14, 0(x11)
sb x14, 0(x12)
addi x11, x11, 1
addi x12, x12, 1
j __crt0_copy_data_loop
__crt0_copy_data_loop_end:
// *********************************************************
// Call main function (with argc = argv = 0)
// *********************************************************
__crt0_main_entry:
addi x10, zero, 0 // argc = 0
addi x11, zero, 0 // argv = 0
jal ra, main
// *********************************************************
// Go to endless sleep mode if main returns
// *********************************************************
__crt0_this_is_the_end:
csrrci zero, mstatus, 8 // mstatus: disable global IRQs (MIE)
wfi
__crt0_this_is_the_end_end:
j __crt0_this_is_the_end_end // in case Ziscr is not available
// *********************************************************
// NEORV32 runtime environment: First-level exception/interrupt handler
// *********************************************************
.align 4
__crt0_neorv32_rte:
// --------------------------------------------
// full context save
// --------------------------------------------
#ifndef __RISCV_EMBEDDED_CPU__
addi sp, sp, -120
#else
addi sp, sp, -56
#endif
sw ra,0(sp)
sw gp,4(sp)
sw tp,8(sp)
sw t0,12(sp)
sw t1,16(sp)
sw t2,20(sp)
sw s0,24(sp)
sw s1,28(sp)
sw a0,32(sp)
sw a1,36(sp)
sw a2,40(sp)
sw a3,44(sp)
sw a4,48(sp)
sw a5,52(sp)
#ifndef __RISCV_EMBEDDED_CPU__
sw a6,56(sp)
sw a7,60(sp)
sw s2,64(sp)
sw s3,68(sp)
sw s4,72(sp)
sw s5,76(sp)
sw s6,80(sp)
sw s7,84(sp)
sw s8,88(sp)
sw s9,92(sp)
sw s10,96(sp)
sw s11,100(sp)
sw t3,104(sp)
sw t4,108(sp)
sw t5,112(sp)
sw t6,116(sp)
#endif
// --------------------------------------------
// get cause and prepare jump into vector table
// --------------------------------------------
csrr t0, mcause // get cause code
andi t1, t0, 0x0f // isolate cause ID
slli t1, t1, 2 // make address offset
lw ra, SYSINFO_DSPACE_BASE(zero) // data memory space base address
add t1, t1, ra // get vetor table entry address (EXC vectors)
csrr ra, mepc // get return address
blt t0, zero, __crt0_neorv32_rte_is_irq // branch if this is an INTERRUPT
// --------------------------------------------
// compute return address for EXCEPTIONS only
// --------------------------------------------
__crt0_neorv32_rte_is_exc:
// check if faulting instruction is compressed and adjust return address
lh t0, 0(ra) // get compressed instruction or lower 16 bits of uncompressed instruction that caused exception
addi t2, zero, 3 // mask
and t0, t0, t2 // isolate lowest 2 opcode bits (= 11 for uncompressed instructions)
addi ra, ra, +2 // only this for compressed instructions
bne t0, t2, __crt0_neorv32_rte_execute // jump if compressed instruction
addi ra, ra, +2 // add another 2 (making +4) for uncompressed instructions
j __crt0_neorv32_rte_execute
// --------------------------------------------
// vector table offset for INTERRUPTS only
// --------------------------------------------
__crt0_neorv32_rte_is_irq:
addi t1, t1, 16*4
// --------------------------------------------
// call handler from vector table
// --------------------------------------------
__crt0_neorv32_rte_execute:
lw t0, 0(t1) // get base address of second-level handler
// push ra
addi sp, sp, -4
sw ra, 0(sp)
jalr ra, t0 // call second-level handler
// pop ra
lw ra, 0(sp)
addi sp, sp, +4
csrw mepc, ra
// --------------------------------------------
// full context restore
// --------------------------------------------
lw ra,0(sp)
lw gp,4(sp)
lw tp,8(sp)
lw t0,12(sp)
lw t1,16(sp)
lw t2,20(sp)
lw s0,24(sp)
lw s1,28(sp)
lw a0,32(sp)
lw a1,36(sp)
lw a2,40(sp)
lw a3,44(sp)
lw a4,48(sp)
lw a5,52(sp)
#ifndef __RISCV_EMBEDDED_CPU__
lw a6,56(sp)
lw a7,60(sp)
lw s2,64(sp)
lw s3,68(sp)
lw s4,72(sp)
lw s5,76(sp)
lw s6,80(sp)
lw s7,84(sp)
lw s8,88(sp)
lw s9,92(sp)
lw s10,96(sp)
lw s11,100(sp)
lw t3,104(sp)
lw t4,108(sp)
lw t5,112(sp)
lw t6,116(sp)
#endif
#ifndef __RISCV_EMBEDDED_CPU__
addi sp, sp, +120
#else
addi sp, sp, +56
#endif
// --------------------------------------------
// this is the ONLY place where MRET should be used!
// --------------------------------------------
mret
// *********************************************************
// Dummy exception handler: just move on to next instruction
// *********************************************************
__crt0_neorv32_rte_dummy_hanlder:
ret
.cfi_endproc
.end
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