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Projet_SETI_RISC-V/neorv32/sw/common/crt0.S

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/* ################################################################################################# */
/* # << NEORV32 - crt0.S Start-Up Code >> # */
/* # ********************************************************************************************* # */
/* # BSD 3-Clause License # */
/* # # */
/* # Copyright (c) 2023, 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.crt0
.balign 4
.global _start
.global __crt0_entry
.global __crt0_main_exit
_start:
__crt0_entry:
.cfi_startproc
.cfi_undefined ra
// ************************************************************************************************
// We need to ensure interrupts are completely disabled at start. This is required if this code
// is part of a program uploaded by the on-chip debugger (potentionally taking control from the
// bootloader). We setup a new stack pointer here and WE DO NOT WANT TO trap to an outdated trap
// handler with a modified stack pointer.
// ************************************************************************************************
csrrwi zero, mstatus, 0 // clear mstatus; disable machine-level interrupts
// ************************************************************************************************
// Setup CPU core CSRs
// ************************************************************************************************
__crt0_cpu_csr_init:
csrw mie, zero // disable all interrupt sources
la x1, __crt0_trap_handler // configure early-boot trap handler
csrw mtvec, x1
// ************************************************************************************************
// Initialize integer register file
// ************************************************************************************************
__crt0_pointer_init:
.option push
.option norelax
// Setup pointers using linker script symbols
la sp, __crt0_stack_begin // stack pointer
la gp, __global_pointer$ // global pointer
.option pop
__crt0_reg_file_init:
//addi x0, x0, 0 // hardwired to zero
//addi x1, x0, 0 // implicitly initialized within crt0
//addi x2, x0, 0 // stack pointer sp
//addi x3, x0, 0 // global pointer gp
addi x4, x0, 0
addi x5, x0, 0
addi x6, x0, 0
addi x7, x0, 0
addi x8, x0, 0
addi x9, x0, 0
//addi x10, x0, 0 // implicitly initialized within crt0
//addi x11, x0, 0 // implicitly initialized within crt0
//addi x12, x0, 0 // implicitly initialized within crt0
//addi x13, x0, 0 // implicitly initialized within crt0
//addi x14, x0, 0 // implicitly initialized within crt0
//addi x15, x0, 0 // implicitly initialized within crt0
#ifndef __riscv_32e // initialize upper half (if E extension is not implemented)
addi x16, x0, 0
addi x17, x0, 0
addi x18, x0, 0
addi x19, x0, 0
addi x20, x0, 0
addi x21, x0, 0
addi x22, x0, 0
addi x23, x0, 0
addi x24, x0, 0
addi x25, x0, 0
addi x26, x0, 0
addi x27, x0, 0
addi x28, x0, 0
addi x29, x0, 0
addi x30, x0, 0
addi x31, x0, 0
#endif
// ************************************************************************************************
// Copy initialized .data section from ROM to RAM (word-wise, section begins and ends on word boundary)
// ************************************************************************************************
__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
beq x11, x12, __crt0_copy_data_loop_end // nothing to do if source and destination address are the same
__crt0_copy_data_loop:
bge x12, x13, __crt0_copy_data_loop_end
lw x14, 0(x11)
sw x14, 0(x12)
addi x11, x11, 4
addi x12, x12, 4
j __crt0_copy_data_loop
__crt0_copy_data_loop_end:
// ************************************************************************************************
// Clear .bss section (word-wise, section begins and ends on word boundary)
// ************************************************************************************************
__crt0_clear_bss:
la x14, __crt0_bss_start
la x15, __crt0_bss_end
__crt0_clear_bss_loop:
bge x14, x15, __crt0_clear_bss_loop_end
sw zero, 0(x14)
addi x14, x14, 4
j __crt0_clear_bss_loop
__crt0_clear_bss_loop_end:
// ************************************************************************************************
// Call constructors
// ************************************************************************************************
#ifndef make_bootloader // constructors are not supported for bootloader
__crt0_call_constructors:
la x8, __init_array_start
la x9, __init_array_end
__crt0_call_constructors_loop:
bge x8, x9, __crt0_call_constructors_loop_end
lw x1, 0(x8)
jalr x1, 0(x1)
addi x8, x8, 4
j __crt0_call_constructors_loop
__crt0_call_constructors_loop_end:
#endif
// ************************************************************************************************
// Setup arguments and call main function
// ************************************************************************************************
__crt0_main_entry:
addi x10, zero, 0 // x10 = a0 = argc = 0
addi x11, zero, 0 // x11 = a1 = argv = 0
jal x1, main // call actual app's main function
__crt0_main_exit: // main's "return" and "exit" will arrive here
csrw mie, zero // disable all interrupt sources
csrw mscratch, a0 // backup main's return code to mscratch (for debugger)
// ************************************************************************************************
// Call destructors
// ************************************************************************************************
#ifndef make_bootloader // destructors are not supported for bootloader
__crt0_call_destructors:
la x8, __fini_array_start
la x9, __fini_array_end
__crt0_call_destructors_loop:
bge x8, x9, __crt0_call_destructors_loop_end
lw x1, 0(x8)
jalr x1, 0(x1)
addi x8, x8, 4
j __crt0_call_destructors_loop
__crt0_call_destructors_loop_end:
#endif
// ************************************************************************************************
// Call "after main" handler (if there is any) if main really returns
// ************************************************************************************************
#ifndef make_bootloader // after_main handler not supported for bootloader
__crt0_main_aftermath:
.weak __neorv32_crt0_after_main
la ra, __neorv32_crt0_after_main
beqz ra, __crt0_main_aftermath_end // check if an aftermath handler has been specified
jalr ra // execute handler with main's return code still in a0
__crt0_main_aftermath_end:
#endif
// ************************************************************************************************
// Go to endless sleep mode
// ************************************************************************************************
__crt0_shutdown:
wfi // go to sleep mode
j . // endless loop
// ************************************************************************************************
// Dummy trap handler (for all traps during very early boot stage)
// - does nothing but trying to move on to the next instruction
// ************************************************************************************************
.balign 4 // the trap handler has to be 32-bit aligned
__crt0_trap_handler:
addi sp, sp, -8
sw x8, 0(sp)
sw x9, 4(sp)
csrr x8, mcause
blt x8, zero, __crt0_trap_handler_end // skip mepc modification if interrupt
// update mepc
csrr x8, mepc
lh x9, 0(x8) // get compressed instruction or lower 16 bits of uncompressed instruction that caused exception
andi x9, x9, 3 // mask: isolate lowest 2 opcode bits (= 11 for uncompressed instructions)
addi x8, x8, +2 // mepc +2 only for compressed instructions
csrw mepc, x8 // set new return address
addi x8, zero, 3
bne x8, x9, __crt0_trap_handler_end // done if compressed instruction
csrr x8, mepc
addi x8, x8, +2 // add another +2 to mepc (making +4) for uncompressed instructions
csrw mepc, x8
__crt0_trap_handler_end:
lw x8, 0(sp)
lw x9, 4(sp)
addi sp, sp, +8
mret
.cfi_endproc
.end
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