/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 by Linus Nielsen Feltzing * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "config.h" #include "cpu.h" .section .init.text .global start start: #ifdef IRIVER_H100 /* Platform: iRiver H1xx */ move.w #0x2700,%sr move.l #MBAR+1,%d0 movec.l %d0,%mbar move.l #MBAR2+1,%d0 movec.l %d0,%mbar2 lea MBAR,%a0 lea MBAR2,%a1 /* 64K DMA-capable SRAM at 0x10000000 DMA is enabled and has priority in both banks All types of accesses are allowed (We might want to restrict that to save power) */ move.l #0x1000e001,%d0 movec.l %d0,%rambar1 /* 32K Non-DMA SRAM at 0x10010000 All types of accesses are allowed (We might want to restrict that to save power) */ move.l #0x10010001,%d0 movec.l %d0,%rambar0 /* Chip select 0 - Flash ROM */ move.l #0x00000000,%d0 /* CSAR0 - Base = 0x00000000 */ move.l %d0,(0x080,%a0) move.l #0x001f0101,%d0 /* CSMR0 - 2M, All access, write protect */ move.l %d0,(0x084,%a0) move.l #0x00000d80,%d0 /* CSCR0 - 3 wait states, 16 bits, no bursts */ move.l %d0,(0x088,%a0) /* Chip select 1 - LCD controller */ move.l #0xf0000000,%d0 /* CSAR1 - Base = 0xf0000000 */ move.l %d0,(0x08c,%a0) move.l #0x00000075,%d0 /* CSMR1 - 64K, Only data access */ move.l %d0,(0x090,%a0) move.l #0x00002180,%d0 /* CSCR1 - 8 wait states, 16 bits, no bursts */ move.l %d0,(0x094,%a0) /* Chip select 2 - ATA controller */ move.l #0x20000000,%d0 /* CSAR2 - Base = 0x20000000 */ move.l %d0,(0x098,%a0) move.l #0x00000075,%d0 /* CSMR2 - 64K, Only data access */ move.l %d0,(0x09c,%a0) move.l #0x00000180,%d0 /* CSCR2 - no wait states, 16 bits, no bursts */ move.l %d0,(0x0a0,%a0) /* NOTE: I'm not sure about the wait states. We have to be careful with the access times, since IORDY isn't connected to the HDD. */ /* Set up the DRAM controller. The refresh is based on the 11.2896MHz clock (5.6448MHz bus frequency). We haven't yet started the PLL */ move.l #0x80050000,%d0 move.l %d0,(0x100,%a0) /* DCR - Synchronous, 80 cycle refresh */ move.l #0x3000a520,%d0 move.l %d0,(0x108,%a0) /* DACR0 - Base 0x30000000, Banks on 23 and up, CAS latency 3, Refresh enable */ move.l #0x01fc0001,%d0 move.l %d0,(0x10c,%a0) /* DMR0 - 32Mb */ lea _iramcopy,%a2 lea _iramstart,%a3 lea _iramend,%a4 .iramloop: cmp.l %a3,%a4 beq .iramloopend move.w (%a2)+,(%a3)+ bra .iramloop .iramloopend: lea _edata,%a2 lea _end,%a4 clr.l %d0 .edataloop: cmp.l %a2,%a4 beq .edataloopend move.w %d0,(%a2)+ bra .edataloop .edataloopend: lea _datacopy,%a2 lea _datastart,%a3 lea _dataend,%a4 .dataloop: cmp.l %a3,%a4 beq .dataloopend move.w (%a2)+,(%a3)+ bra .dataloop .dataloopend: lea stackend,%sp jsr main .hoo: bra .hoo .section .resetvectors vectors: .long _stackend .long start #else /* Platform: Archos Jukebox * We begin with some tricks. If we have built our code to be loaded * via the standalone GDB stub, we will have out VBR at some other * location than 0x9000000. We must copy the trap vectors for the * GDB stub to our vector table. * If, on the other hand, we are running standalone we will have * the VBR at 0x9000000, and the copy will not do any harm. */ mov.l vbr_k,r1 mov.l orig_vbr_k,r2 /* Move the invalid instruction vector (4) */ mov #4,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the invalid slot vector (6) */ mov #6,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the bus error vector (9) */ mov #9,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the DMA bus error vector (10) */ mov #10,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the NMI vector as well (11) */ mov #11,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the breakpoint trap vector (32) */ mov #32,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the IO trap vector (33) */ mov #33,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the serial Rx interrupt vector (105) */ mov #105,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) /* Move the single step trap vector (127) */ mov #127,r0 shll2 r0 mov.l @(r0,r2),r3 mov.l r3,@(r0,r1) ldc r1,vbr /* Now let's get on with the normal business */ mov.l stack_k,r15 /* zero out bss */ mov.l edata_k,r0 mov.l end_k,r1 mov #0,r2 start_l: mov.l r2,@r0 add #4,r0 cmp/ge r1,r0 bf start_l nop /* copy the .iram section */ mov.l iramcopy_k,r0 mov.l iram_k,r1 mov.l iramend_k,r2 copy_l: mov.l @r0,r3 mov.l r3,@r1 add #4,r0 add #4,r1 cmp/ge r2,r1 bf copy_l nop /* copy the .data section, for rombased execution */ mov.l datacopy_k,r0 mov.l data_k,r1 mov.l dataend_k,r2 /* Don't copy if src and dest are equal */ cmp/eq r0,r1 bt nodatacopy copy_l2: mov.l @r0,r3 mov.l r3,@r1 add #4,r0 add #4,r1 cmp/ge r2,r1 bf copy_l2 nop nodatacopy: /* Munge the main thread stack */ mov.l stack_k,r2 mov.l deadbeef_k,r0 mov.l stackbegin_k,r1 munge_loop: mov.l r0,@r1 add #4,r1 cmp/ge r2,r1 bf munge_loop nop mov #0,r0 ldc r0,gbr ! call the mainline mov.l main_k,r0 jsr @r0 nop .hoo: bra .hoo .align 2 stack_k: .long _stackend stackbegin_k: .long _stackbegin deadbeef_k: .long 0xdeadbeef edata_k: .long _edata end_k: .long _end iramcopy_k: .long _iramcopy iram_k: .long _iramstart iramend_k: .long _iramend datacopy_k: .long _datacopy data_k: .long _datastart dataend_k: .long _dataend main_k: .long _main vbr_k: .long vectors orig_vbr_k: .long 0x9000000 .section .resetvectors vectors: .long start .long _stackend .long start .long _stackend #endif