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/*----------------------------------------------------------------
// //
// start.S //
// //
// This file is part of the Amber project //
// http://www.opencores.org/project,amber //
// //
// Description //
// Assembly routines for boot-loader. //
// As boot-loader is a stand-alone application, it needs a //
// simple start function written in assembly to call the //
// C code main() function. //
// //
// Author(s): //
// - Conor Santifort, csantifort.amber@gmail.com //
// //
//////////////////////////////////////////////////////////////////
// //
// Copyright (C) 2010 Authors and OPENCORES.ORG //
// //
// This source file may be used and distributed without //
// restriction provided that this copyright statement is not //
// removed from the file and that any derivative work contains //
// the original copyright notice and the associated disclaimer. //
// //
// This source file is free software; you can redistribute it //
// and/or modify it under the terms of the GNU Lesser General //
// Public License as published by the Free Software Foundation; //
// either version 2.1 of the License, or (at your option) any //
// later version. //
// //
// This source is distributed in the hope that it will be //
// useful, but WITHOUT ANY WARRANTY; without even the implied //
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //
// PURPOSE. See the GNU Lesser General Public License for more //
// details. //
// //
// You should have received a copy of the GNU Lesser General //
// Public License along with this source; if not, download it //
// from http://www.opencores.org/lgpl.shtml //
// //
----------------------------------------------------------------*/
#include "amber_registers.h"
#include "address_map.h"
/* Defined in vmlinux/include/asm-arm/setup.h */
#define ATAG_CORE 0x54410001
#define ATAG_MEM 0x54410002
#define ATAG_INITRD 0x54410005
#define ATAG_RAMDISK 0x54410004
#define ATAG_NONE 0x00000000
#define ATAG_CORE_SIZE ((2*4 + 3*4) >> 2)
#define ATAG_MEM_SIZE ((2*4 + 2*4) >> 2)
#define ATAG_INITRD_SIZE ((2*4 + 2*4) >> 2)
#define ATAG_RAMDISK_SIZE ((2*4 + 3*4) >> 2)
/* from vmlinux/arch/arm/kernel/compat.c */
#define FLAG_READONLY 1
/* from the list in wmlinux/arch/arm/tools/mach-types */
#define MACH_TYPE_A5K 11
.section .text
.globl start
start:
/* 0x00 Reset Interrupt vector address */
b startup
/* 0x04 Undefined Instruction Interrupt vector address */
b _testfail
/* 0x08 SWI Interrupt vector address */
b _testfail
/* 0x0c Prefetch abort Interrupt vector address */
b _testfail
/* 0x10 Data abort Interrupt vector address */
b _testfail
b _testfail
/* 0x18 IRQ vector address */
b service_irq
/* 0x1c FIRQ vector address */
b _testfail
.global _restart
_restart:
@ jump to address 0 in irq mode
mov pc, #0x00000002
nop
nop
nop
startup:
/* copy program to exec space */
mov r0, #0
ldr r1, AdrExecBase
1: ldm r0!, {r2-r9}
stm r1!, {r2-r9}
cmp r0, #0x4000
bne 1b
/* Fix the interrupt jump pointers */
ldr r0, AdrExecBase
mov r1, r0, lsr #2
mov r2, #0
2: ldr r3, [r2]
orr r3, r3, r1
str r3, [r2], #4
cmp r2, #0x1c
bne 2b
/* Jump to 2f but offset from ExecBase not current location */
3: ldr r0, AdrExecBase
ldr r1, AdrJumpPoint
orr r0, r0, r1
mov pc, r0
_jump_point:
/* Switch to IRQ Mode */
mov r0, #0x00000002
teqp pc, r0
/* Set IRQ Mode stack pointer */
ldr sp, AdrIRQStack
/* Switch to SVC mode and Unset interrupt mask bits */
mov r0, #0x00000003
teqp pc, r0
@ Enable the cache
@ set region 24 to be uncached. Used for packet buffers
mov r0, #0xfeffffff
mcr 15, 0, r0, cr3, cr0, 0 @ cacheable area
mov r0, #1
mcr 15, 0, r0, cr2, cr0, 0 @ cache enable
@ init SP
ldr sp, AdrStack
@ Set 32MB memory mode
ldr r0, AdrMemCtrl
mov r1, #1
str r1, [r0]
.extern main
bl main
@ jump to program at r0
.globl _jump_to_program
_jump_to_program:
@ ----------------------------------------------
@ Copy ATAG structure to AdrBootParams
@ ----------------------------------------------
ldr r1, AdrBootParams
ldr r2, AdrATAGBase
ldr r3, AdeEndATAG
1: cmp r2, r3
beq 2f
ldr r4, [r2], #4
str r4, [r1], #4
b 1b
@ Set memc page tables
2: ldr r2, AdrPageTabes
mov r3, #0
mov r4, #40
3: str r3,[r2],#4
subs r4, r4, #1
bne 3b
@ ----------------------------------------------
@ jump to start of program in svc mode with interrupts disabled
@ ----------------------------------------------
mov r4, r0
orr r4, #0x0c000003
mov r0, #0
mov pc, r4
service_irq:
@ As this is an interrupt, need to save all registers to the stack
@ that will be used here
stmfd sp!, {r0-r3, lr}
@ is it a timer interrupt ?
ldr r0, AdrInterruptStatus
ldr r3, [r0]
ands r2, r3, #0x20
beq 1f @ not timer int, jump
@ Remember that registers r0 to r2 can be changed by this function
.extern timer_interrupt
bl timer_interrupt
@ is it an ethernet interrupt ?
1: ands r2, r3, #0x100
beq 2f @ not ethmac int, jump
.extern ethmac_interrupt
@ Remember that registers r0 to r2 can be changed by this function
bl ethmac_interrupt
2: @ Restore all registers from the stack
ldmfd sp!, {r0-r3, lr}
@ Jump straight back to normal execution
subs pc, lr, #4
/* _testfail: Used to terminate execution in Verilog simulations */
/* On the board just puts the processor into an infinite loop */
.globl _testfail
_testfail:
ldr r11, AdrTestStatus
str r0, [r11]
b _testfail
/* _testpass: Used to terminate execution in Verilog simulations */
/* On the board just puts the processor into an infinite loop */
.globl _testpass
_testpass:
ldr r11, AdrTestStatus
mov r10, #17
str r10, [r11]
b _testpass
/* _div: Integer division function */
@ Divide r0 by r1
@ Answer returned in r1
.globl _div
.globl __aeabi_idiv
__aeabi_idiv:
_div:
stmdb sp!, {r4, lr}
@ set r4 to 1 if one of the two inputs is negative
and r2, r0, #0x80000000
and r3, r1, #0x80000000
eor r4, r2, r3
@ Invert negative numbers
tst r0, #0x80000000
mvnne r0, r0
addne r0, r0, #1
tst r1, #0x80000000
mvnne r1, r1
addne r1, r1, #1
@ divide r1 by r2, also use registers r0 and r4
mov r2, r1
mov r1, r0
cmp r2, #0
beq 3f
@ In order to divide r1 by r2, the first thing we need to do is to shift r2
@ left by the necessary number of places. The easiest method of doing this
@ is simply by trial and error - shift until we discover that r2 has become
@ too big, then stop.
mov r0,#0 @ clear r0 to accumulate result
mov r3,#1 @ set bit 0 in r3, which will be
@ shifted left then right
1: cmp r3, #0 @ escape on error
moveq r3, #0x10000000
beq 2f
cmp r2,r1
movls r2,r2,lsl#1
movls r3,r3,lsl#1
bls 1b
@ shift r2 left until it is about to be bigger than r1
@ shift r3 left in parallel in order to flag how far we have to go
@ r0 will be used to hold the result. The role of r3 is more complicated.
@ In effect, we are using r3 to mark where the right-hand end of r2 has got to
@ - if we shift r2 three places left, this will be indicated by a value of %1000
@ in r3. However, we also add it to r0 every time we manage a successful subtraction,
@ since it marks the position of the digit currently being calculated in the answer.
@ so at the time of the first subtraction, r3 would have been %100, at the time
@ of the second (which failed) it would have been %10, and at the time of the
@ third %1. Adding it to r0 after each successful subtraction would have
@ given us, once again, the answer of %101!
@ Now for the loop that actually does the work:
2: cmp r1,r2 @ carry set if r1>r2 (don't ask why)
subcs r1,r1,r2 @ subtract r2 from r1 if this would
@ give a positive answer
addcs r0,r0,r3 @ and add the current bit in r3 to
@ the accumulating answer in r0
@ In subtraction (a cmp instruction simulates a subtraction in
@ order to set the flags), if r1 - r2 gives a positive answer and no 'borrow'
@ is required, the carry flag is set. This is required in order to make SBC
@ (Subtract with Carry) work properly when used to carry out a 64-bit subtraction,
@ but it is confusing!
@ In this case, we are turning it to our advantage. The carry flag is set to
@ indicate that a successful subtraction is possible, i.e. one that doesn't
@ generate a negative result, and the two following instructions are carried
@ out only when the condition Carry Set applies. Note that the 'S' on the end
@ of these instructions is part of the 'CS' condition code and does not mean
@ that they set the flags!
movs r3,r3,lsr #1 @ Shift r3 right into carry flag
movcc r2,r2,lsr #1 @ and if bit 0 of r3 was zero, also
@ shift r2 right
bcc 2b @ If carry not clear, r3 has shifted
@ back to where it started, and we
@ can end
@ if one of the inputs is negetive then return a negative result
tst r4, #0x80000000
mvnne r0, r0
addne r0, r0, #1
3: ldmia sp!, {r4, pc}^
/* strcpy: String copy function
char * strcpy ( char * destination, const char * source );
destination is returned
*/
@ r0 points to destination
@ r1 points to source string which terminates with a 0
.globl strcpy
strcpy:
stmdb sp!, {r4-r6, lr}
@ Use r6 to process the destination pointer.
@ At the end of the function, r0 is returned, so need to preserve it
mov r6, r0
strcpy_main:
@ unroll the loop 4 times
ldrb r3, [r1], #1
strb r3, [r6], #1
cmp r3, #0
ldmeqia sp!, {r4-r6, pc}^
ldrb r3, [r1], #1
strb r3, [r6], #1
cmp r3, #0
ldmeqia sp!, {r4-r6, pc}^
ldrb r3, [r1], #1
strb r3, [r6], #1
cmp r3, #0
ldmeqia sp!, {r4-r6, pc}^
ldrb r3, [r1], #1
strb r3, [r6], #1
cmp r3, #0
ldmeqia sp!, {r4-r6, pc}^
b strcpy_main
/* strncpy: String copy function */
@ r0 points to destination
@ r1 points to source string
@ r2 is the number of bytes to copy
.globl strncpy
strncpy:
stmdb sp!, {r4, lr}
cmp r2, #0
beq 2f
add r4, r0, r2 @ set r4 to the address of the last byte copied
1: ldrb r3, [r1], #1
strb r3, [r0], #1
cmp r0, r4
bne 1b
2: ldmia sp!, {r4, pc}^
/* strncpy: String compare function */
@ r0 points to first string
@ r1 points to second string
@ r2 is the number of bytes to compare
@ return the difference if the strings don't match
.globl strncmp
strncmp:
stmdb sp!, {r4, r5, r6, lr}
@ check for 0 length
cmp r2, #0
moveq r0, #1
beq 2f
mov r3, #0
1: add r3, r3, #1
ldrb r4, [r0], #1
ldrb r5, [r1], #1
subs r6, r4, r5
movne r0, r6
bne 2f
cmp r3, r2
moveq r0, #0
beq 2f
b 1b
2: ldmia sp!, {r4, r5, r6, pc}^
.globl init_malloc
init_malloc:
ldr r0, AdrMallocBase
ldr r1, AdrMallocPointer
str r0, [r1]
@ initialize the counter to 0
ldr r1, AdrMallocCount
mov r2, #0
str r2, [r1]
mov pc, lr
/* void *malloc(size_t size); */
.globl malloc
malloc:
/* r0 contains the size of the object in bytes */
ldr r1, AdrMallocPointer
ldr r2, [r1] /* r2 now containts the starting address of the next memory block to use */
add r3, r0, r2 /* r3 contains the address after the end of the new object */
/* Round r3 up to the nearest 0x100 to keep memory aligned */
tst r3, #0xff
beq 1f
bic r3, r3, #0xff
add r3, r3, #0x100
1: str r3, [r1] /* Update the malloc pointer */
mov r0, r2 /* Return the address from before the pointer was updated */
@ Update the block count
ldr r1, AdrMallocCount
ldr r2, [r1]
add r2, r2, #1
str r2, [r1]
mov pc, lr
.global serial_putchar_
serial_putchar_:
ldr r1, AdrUARTDR
ldr r3, AdrUARTFR
@ Check the tx_full flag
1: ldr r2, [r3]
and r2, r2, #0x20
cmp r2, #0
streqb r0, [r1]
moveqs pc, lr @ return
bne 1b
/* stack at top of ddr3 memory space */
AdrJumpPoint: .word _jump_point
AdrExecBase: .word ADR_EXEC_BASE
AdrStack: .word ADR_STACK
AdrIRQStack: .word ADR_IRQ_STACK
AdrMallocPointer: .word ADR_MALLOC_POINTER
AdrMallocCount: .word ADR_MALLOC_COUNT
AdrMallocBase: .word ADR_MALLOC_BASE
AdrMemCtrl: .word ADR_AMBER_TEST_MEM_CTRL
AdrTestStatus: .word ADR_AMBER_TEST_STATUS
AdrInterruptStatus: .word ADR_AMBER_IC_IRQ0_STATUS
AdrUARTDR: .word ADR_AMBER_UART0_DR
AdrUARTFR: .word ADR_AMBER_UART0_FR
.align 2
AdrATAGBase: .word ATAGBase
AdeEndATAG: .word EndATAG
ATAGBase: .word ATAG_CORE_SIZE
.word ATAG_CORE
.word FLAG_READONLY @ flags
.word 4096 @ page size
.word 0x0 @ rootdev
.word ATAG_MEM_SIZE
.word ATAG_MEM
.word 32*1024*1024 @ size - 32MB
.word 0x0 @ start
.word ATAG_RAMDISK_SIZE
.word ATAG_RAMDISK
.word 1 @ flags: bit 0 = load, bit 1 = prompt
.word 0x000000d0 @ size in 1k blocks
.word 0x00800000 @ physical address of start of ramdisk
.word ATAG_INITRD_SIZE
.word ATAG_INITRD
.word 0x02800000 @ virtual address of start of initrd image
.word 0x00032000 @ size = 200k
.word ATAG_NONE
.word 0x0
EndATAG: .word 0x0
AdrBootParams: .word 0x7c000
AdrPageTabes: .word 0x3f01000
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