* Code that sets up the DRAM registers, calls the
* decompressor to unpack the piggybacked kernel, and jumps.
*
- * Copyright (C) 1999 - 2003, Axis Communications AB
+ * Copyright (C) 1999 - 2006, Axis Communications AB
*/
#define ASSEMBLER_MACROS_ONLY
-#include <asm/arch/hwregs/asm/reg_map_asm.h>
-#include <asm/arch/hwregs/asm/gio_defs_asm.h>
-#include <asm/arch/hwregs/asm/config_defs_asm.h>
+#include <hwregs/asm/reg_map_asm.h>
+#include <asm/arch/mach/startup.inc>
#define RAM_INIT_MAGIC 0x56902387
#define COMMAND_LINE_MAGIC 0x87109563
di
;; Start clocks for used blocks.
- move.d REG_ADDR(config, regi_config, rw_clk_ctrl), $r1
- move.d [$r1], $r0
- or.d REG_STATE(config, rw_clk_ctrl, cpu, yes) | \
- REG_STATE(config, rw_clk_ctrl, bif, yes) | \
- REG_STATE(config, rw_clk_ctrl, fix_io, yes), $r0
- move.d $r0, [$r1]
-
- ;; If booting from NAND flash we first have to copy some
- ;; data from NAND flash to internal RAM to get the code
- ;; that initializes the SDRAM. Lets copy 20 KB. This
- ;; code executes at 0x38010000 if booting from NAND and
- ;; we are guaranted that at least 0x200 bytes are good so
- ;; lets start from there. The first 8192 bytes in the nand
- ;; flash is spliced with zeroes and is thus 16384 bytes.
- move.d 0x38010200, $r10
- move.d 0x14200, $r11 ; Start offset in NAND flash 0x10200 + 16384
- move.d 0x5000, $r12 ; Length of copy
-
- ;; Before this code the tools add a partitiontable so the PC
- ;; has an offset from the linked address.
-offset1:
- lapcq ., $r13 ; get PC
- add.d first_copy_complete-offset1, $r13
-
-#include "../../lib/nand_init.S"
-
-first_copy_complete:
- ;; Initialze the DRAM registers.
+ START_CLOCKS
+
+ ;; Initialize the DRAM registers.
cmp.d RAM_INIT_MAGIC, $r8 ; Already initialized?
beq dram_init_finished
nop
-#include "../../lib/dram_init.S"
+#include "../../mach/dram_init.S"
dram_init_finished:
- lapcq ., $r13 ; get PC
- add.d second_copy_complete-dram_init_finished, $r13
-
- move.d REG_ADDR(config, regi_config, r_bootsel), $r0
- move.d [$r0], $r0
- and.d REG_MASK(config, r_bootsel, boot_mode), $r0
- cmp.d REG_STATE(config, r_bootsel, boot_mode, nand), $r0
- bne second_copy_complete ; No NAND boot
- nop
-
- ;; Copy 2MB from NAND flash to SDRAM (at 2-4MB into the SDRAM)
- move.d 0x40204000, $r10
- move.d 0x8000, $r11
- move.d 0x200000, $r12
- ba copy_nand_to_ram
- nop
-second_copy_complete:
-
- ;; Initiate the PA port.
- move.d CONFIG_ETRAX_DEF_GIO_PA_OUT, $r0
- move.d REG_ADDR(gio, regi_gio, rw_pa_dout), $r1
- move.d $r0, [$r1]
-
- move.d CONFIG_ETRAX_DEF_GIO_PA_OE, $r0
- move.d REG_ADDR(gio, regi_gio, rw_pa_oe), $r1
- move.d $r0, [$r1]
+ GIO_INIT
;; Setup the stack to a suitably high address.
;; We assume 8 MB is the minimum DRAM and put
;; the SP at the top for now.
move.d 0x40800000, $sp
- ;; Figure out where the compressed piggyback image is
- ;; in the flash (since we wont try to copy it to DRAM
- ;; before unpacking). It is at _edata, but in flash.
+ ;; Figure out where the compressed piggyback image is.
+ ;; It is either in [NOR] flash (we don't want to copy it
+ ;; to DRAM before unpacking), or copied to DRAM
+ ;; by the [NAND] flash boot loader.
+ ;; The piggyback image is at _edata, but relative to where the
+ ;; image is actually located in memory, not where it is linked
+ ;; (the decompressor is linked at 0x40700000+ and runs there).
;; Use (_edata - herami) as offset to the current PC.
- move.d REG_ADDR(config, regi_config, r_bootsel), $r0
- move.d [$r0], $r0
- and.d REG_MASK(config, r_bootsel, boot_mode), $r0
- cmp.d REG_STATE(config, r_bootsel, boot_mode, nand), $r0
- beq hereami2
- nop
hereami:
lapcq ., $r5 ; get PC
and.d 0x7fffffff, $r5 ; strip any non-cache bit
- move.d $r5, $r0 ; save for later - flash address of 'herami'
+ move.d $r5, $r0 ; source address of 'herami'
add.d _edata, $r5
sub.d hereami, $r5 ; r5 = flash address of '_edata'
move.d hereami, $r1 ; destination
- ba 2f
- nop
-hereami2:
- lapcq ., $r5 ; get PC
- and.d 0x00ffffff, $r5 ; strip any non-cache bit
- move.d $r5, $r6
- or.d 0x40200000, $r6
- move.d $r6, $r0 ; save for later - flash address of 'herami'
- add.d _edata, $r5
- sub.d hereami2, $r5 ; r5 = flash address of '_edata'
- add.d 0x40200000, $r5
- move.d hereami2, $r1 ; destination
-2:
+
;; Copy text+data to DRAM
move.d _edata, $r2 ; end destination
-1: move.w [$r0+], $r3
- move.w $r3, [$r1+]
- cmp.d $r2, $r1
+1: move.w [$r0+], $r3 ; from herami+ source
+ move.w $r3, [$r1+] ; to hereami+ destination (linked address)
+ cmp.d $r2, $r1 ; finish when destination == _edata
bcs 1b
nop
-
move.d input_data, $r0 ; for the decompressor
move.d $r5, [$r0] ; for the decompressor
nop
;; Save command line magic and address.
- move.d _cmd_line_magic, $r12
- move.d $r10, [$r12]
- move.d _cmd_line_addr, $r12
- move.d $r11, [$r12]
+ move.d _cmd_line_magic, $r0
+ move.d $r10, [$r0]
+ move.d _cmd_line_addr, $r0
+ move.d $r11, [$r0]
+
+ ;; Save boot source indicator
+ move.d _boot_source, $r0
+ move.d $r12, [$r0]
;; Do the decompression and save compressed size in _inptr
jsr decompress_kernel
nop
+ ;; Restore boot source indicator
+ move.d _boot_source, $r12
+ move.d [$r12], $r12
+
;; Restore command line magic and address.
move.d _cmd_line_magic, $r10
move.d [$r10], $r10
move.d [$r0], $r9 ; flash address of compressed kernel
move.d inptr, $r0
add.d [$r0], $r9 ; size of compressed kernel
- cmp.d 0x40200000, $r9
- blo enter_kernel
- nop
- sub.d 0x40200000, $r9
- add.d 0x4000, $r9
+ cmp.d 0x40000000, $r9 ; image in DRAM ?
+ blo enter_kernel ; no, must be [NOR] flash, jump
+ nop ; delay slot
+ and.d 0x001fffff, $r9 ; assume compressed kernel was < 2M
enter_kernel:
;; Enter the decompressed kernel
.dword 0
_cmd_line_addr:
.dword 0
-is_nand_boot:
- .dword 0
+_boot_source:
+ .dword 0
-#include "../../lib/hw_settings.S"
+#include "../../mach/hw_settings.S"