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smdk2800_machdep.c revision 1.24.38.1
      1  1.24.38.1     matt /*	$NetBSD: smdk2800_machdep.c,v 1.24.38.1 2007/11/09 05:38:04 matt Exp $ */
      2        1.1      bsh 
      3        1.1      bsh /*
      4       1.20      bsh  * Copyright (c) 2002, 2003, 2005 Fujitsu Component Limited
      5       1.20      bsh  * Copyright (c) 2002, 2003, 2005 Genetec Corporation
      6        1.1      bsh  * All rights reserved.
      7        1.1      bsh  *
      8        1.1      bsh  * Redistribution and use in source and binary forms, with or without
      9        1.1      bsh  * modification, are permitted provided that the following conditions
     10        1.1      bsh  * are met:
     11        1.1      bsh  * 1. Redistributions of source code must retain the above copyright
     12        1.1      bsh  *    notice, this list of conditions and the following disclaimer.
     13        1.1      bsh  * 2. Redistributions in binary form must reproduce the above copyright
     14        1.1      bsh  *    notice, this list of conditions and the following disclaimer in the
     15        1.1      bsh  *    documentation and/or other materials provided with the distribution.
     16        1.1      bsh  * 3. Neither the name of The Fujitsu Component Limited nor the name of
     17        1.1      bsh  *    Genetec corporation may not be used to endorse or promote products
     18        1.1      bsh  *    derived from this software without specific prior written permission.
     19        1.1      bsh  *
     20        1.1      bsh  * THIS SOFTWARE IS PROVIDED BY FUJITSU COMPONENT LIMITED AND GENETEC
     21        1.1      bsh  * CORPORATION ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
     22        1.1      bsh  * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
     23        1.1      bsh  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
     24        1.1      bsh  * DISCLAIMED.  IN NO EVENT SHALL FUJITSU COMPONENT LIMITED OR GENETEC
     25        1.1      bsh  * CORPORATION BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
     26        1.1      bsh  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
     27        1.1      bsh  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
     28        1.1      bsh  * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
     29        1.1      bsh  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
     30        1.1      bsh  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
     31        1.1      bsh  * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     32        1.1      bsh  * SUCH DAMAGE.
     33        1.1      bsh  */
     34        1.1      bsh 
     35        1.1      bsh /*
     36        1.1      bsh  * Copyright (c) 2001,2002 ARM Ltd
     37        1.1      bsh  * All rights reserved.
     38        1.1      bsh  *
     39        1.1      bsh  * Redistribution and use in source and binary forms, with or without
     40        1.1      bsh  * modification, are permitted provided that the following conditions
     41        1.1      bsh  * are met:
     42        1.1      bsh  * 1. Redistributions of source code must retain the above copyright
     43        1.1      bsh  *    notice, this list of conditions and the following disclaimer.
     44        1.1      bsh  * 2. Redistributions in binary form must reproduce the above copyright
     45        1.1      bsh  *    notice, this list of conditions and the following disclaimer in the
     46        1.1      bsh  *    documentation and/or other materials provided with the distribution.
     47        1.1      bsh  * 3. The name of the company may not be used to endorse or promote
     48        1.1      bsh  *    products derived from this software without specific prior written
     49        1.1      bsh  *    permission.
     50        1.1      bsh  *
     51        1.1      bsh  * THIS SOFTWARE IS PROVIDED BY ARM LTD ``AS IS'' AND
     52        1.1      bsh  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     53        1.1      bsh  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     54        1.1      bsh  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL ARM LTD
     55        1.1      bsh  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     56        1.1      bsh  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     57        1.1      bsh  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     58        1.1      bsh  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     59        1.1      bsh  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     60        1.1      bsh  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     61        1.1      bsh  * POSSIBILITY OF SUCH DAMAGE.
     62        1.1      bsh  *
     63        1.1      bsh  */
     64        1.1      bsh 
     65        1.1      bsh /*
     66        1.1      bsh  * Copyright (c) 1997,1998 Mark Brinicombe.
     67        1.1      bsh  * Copyright (c) 1997,1998 Causality Limited.
     68        1.1      bsh  * All rights reserved.
     69        1.1      bsh  *
     70        1.1      bsh  * Redistribution and use in source and binary forms, with or without
     71        1.1      bsh  * modification, are permitted provided that the following conditions
     72        1.1      bsh  * are met:
     73        1.1      bsh  * 1. Redistributions of source code must retain the above copyright
     74        1.1      bsh  *    notice, this list of conditions and the following disclaimer.
     75        1.1      bsh  * 2. Redistributions in binary form must reproduce the above copyright
     76        1.1      bsh  *    notice, this list of conditions and the following disclaimer in the
     77        1.1      bsh  *    documentation and/or other materials provided with the distribution.
     78        1.1      bsh  * 3. All advertising materials mentioning features or use of this software
     79        1.1      bsh  *    must display the following acknowledgement:
     80        1.1      bsh  *	This product includes software developed by Mark Brinicombe
     81        1.1      bsh  *	for the NetBSD Project.
     82        1.1      bsh  * 4. The name of the company nor the name of the author may be used to
     83        1.1      bsh  *    endorse or promote products derived from this software without specific
     84        1.1      bsh  *    prior written permission.
     85        1.1      bsh  *
     86        1.1      bsh  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
     87        1.1      bsh  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
     88        1.1      bsh  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     89        1.1      bsh  * IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
     90        1.1      bsh  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
     91        1.1      bsh  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
     92        1.1      bsh  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     93        1.1      bsh  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
     94        1.1      bsh  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
     95        1.1      bsh  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     96        1.1      bsh  * SUCH DAMAGE.
     97        1.1      bsh  *
     98        1.1      bsh  * Machine dependant functions for kernel setup for integrator board
     99        1.1      bsh  *
    100        1.1      bsh  * Created      : 24/11/97
    101        1.1      bsh  */
    102        1.1      bsh 
    103        1.9      bsh /*
    104        1.9      bsh  * Machine dependant functions for kernel setup for Samsung SMDK2800
    105        1.9      bsh  * derived from integrator_machdep.c
    106        1.9      bsh  */
    107       1.15    lukem 
    108       1.15    lukem #include <sys/cdefs.h>
    109  1.24.38.1     matt __KERNEL_RCSID(0, "$NetBSD: smdk2800_machdep.c,v 1.24.38.1 2007/11/09 05:38:04 matt Exp $");
    110        1.9      bsh 
    111        1.1      bsh #include "opt_ddb.h"
    112        1.1      bsh #include "opt_kgdb.h"
    113        1.1      bsh #include "opt_ipkdb.h"
    114        1.1      bsh #include "opt_pmap_debug.h"
    115        1.1      bsh #include "opt_md.h"
    116        1.1      bsh #include "pci.h"
    117        1.1      bsh 
    118        1.1      bsh #include <sys/param.h>
    119        1.1      bsh #include <sys/device.h>
    120        1.1      bsh #include <sys/systm.h>
    121        1.1      bsh #include <sys/kernel.h>
    122        1.1      bsh #include <sys/exec.h>
    123        1.1      bsh #include <sys/proc.h>
    124        1.1      bsh #include <sys/msgbuf.h>
    125        1.1      bsh #include <sys/reboot.h>
    126        1.1      bsh #include <sys/termios.h>
    127        1.3    ragge #include <sys/ksyms.h>
    128        1.1      bsh 
    129        1.2  thorpej #include <uvm/uvm_extern.h>
    130        1.2  thorpej 
    131        1.1      bsh #include <dev/cons.h>
    132        1.1      bsh #include <dev/md.h>
    133        1.1      bsh 
    134        1.1      bsh #include <machine/db_machdep.h>
    135        1.1      bsh #include <ddb/db_sym.h>
    136        1.1      bsh #include <ddb/db_extern.h>
    137        1.1      bsh #ifdef KGDB
    138        1.1      bsh #include <sys/kgdb.h>
    139        1.1      bsh #endif
    140        1.1      bsh 
    141        1.1      bsh #include <machine/bootconfig.h>
    142        1.1      bsh #include <machine/bus.h>
    143        1.1      bsh #include <machine/cpu.h>
    144        1.1      bsh #include <machine/frame.h>
    145        1.1      bsh #include <machine/intr.h>
    146        1.1      bsh #include <arm/undefined.h>
    147        1.1      bsh 
    148        1.1      bsh #include <arm/arm32/machdep.h>
    149        1.1      bsh 
    150        1.1      bsh #include <arm/s3c2xx0/s3c2800reg.h>
    151        1.1      bsh #include <arm/s3c2xx0/s3c2800var.h>
    152       1.20      bsh #include <evbarm/smdk2xx0/smdk2800var.h>
    153        1.1      bsh 
    154        1.3    ragge #include "ksyms.h"
    155        1.3    ragge 
    156        1.7  thorpej /* Kernel text starts 2MB in from the bottom of the kernel address space. */
    157        1.7  thorpej #define	KERNEL_TEXT_BASE	(KERNEL_BASE + 0x00200000)
    158       1.11  thorpej #define	KERNEL_VM_BASE		(KERNEL_BASE + 0x01000000)
    159       1.12  thorpej 
    160       1.12  thorpej /*
    161       1.12  thorpej  * The range 0xc1000000 - 0xccffffff is available for kernel VM space
    162       1.12  thorpej  * Core-logic registers and I/O mappings occupy 0xfd000000 - 0xffffffff
    163       1.12  thorpej  */
    164       1.12  thorpej #define KERNEL_VM_SIZE		0x0C000000
    165        1.1      bsh 
    166        1.9      bsh /* Memory disk support */
    167        1.9      bsh #if defined(MEMORY_DISK_DYNAMIC) && defined(MEMORY_DISK_ROOT_ADDR)
    168        1.9      bsh #define DO_MEMORY_DISK
    169        1.9      bsh /* We have memory disk image outside of the kernel on ROM. */
    170        1.9      bsh #ifdef MEMORY_DISK_ROOT_ROM
    171        1.9      bsh /* map the image directory and use read-only */
    172        1.9      bsh #else
    173        1.9      bsh /* copy the image to RAM */
    174        1.9      bsh #endif
    175        1.9      bsh #endif
    176        1.9      bsh 
    177        1.9      bsh 
    178        1.1      bsh /*
    179        1.1      bsh  * Address to call from cpu_reset() to reset the machine.
    180        1.1      bsh  * This is machine architecture dependant as it varies depending
    181        1.1      bsh  * on where the ROM appears when you turn the MMU off.
    182        1.1      bsh  */
    183        1.1      bsh u_int cpu_reset_address = (u_int)0;
    184        1.1      bsh 
    185        1.1      bsh /* Define various stack sizes in pages */
    186        1.1      bsh #define IRQ_STACK_SIZE	1
    187        1.1      bsh #define ABT_STACK_SIZE	1
    188        1.1      bsh #ifdef IPKDB
    189        1.1      bsh #define UND_STACK_SIZE	2
    190        1.1      bsh #else
    191        1.1      bsh #define UND_STACK_SIZE	1
    192        1.1      bsh #endif
    193        1.1      bsh 
    194        1.1      bsh BootConfig bootconfig;		/* Boot config storage */
    195        1.1      bsh char *boot_args = NULL;
    196        1.1      bsh char *boot_file = NULL;
    197        1.1      bsh 
    198        1.1      bsh vm_offset_t physical_start;
    199        1.1      bsh vm_offset_t physical_freestart;
    200        1.1      bsh vm_offset_t physical_freeend;
    201        1.1      bsh vm_offset_t physical_end;
    202        1.1      bsh u_int free_pages;
    203        1.1      bsh vm_offset_t pagetables_start;
    204        1.1      bsh int physmem = 0;
    205        1.1      bsh 
    206        1.1      bsh /*int debug_flags;*/
    207        1.1      bsh #ifndef PMAP_STATIC_L1S
    208        1.1      bsh int max_processes = 64;		/* Default number */
    209        1.1      bsh #endif				/* !PMAP_STATIC_L1S */
    210        1.1      bsh 
    211        1.1      bsh /* Physical and virtual addresses for some global pages */
    212        1.1      bsh pv_addr_t irqstack;
    213        1.1      bsh pv_addr_t undstack;
    214        1.1      bsh pv_addr_t abtstack;
    215        1.1      bsh pv_addr_t kernelstack;
    216        1.1      bsh 
    217        1.1      bsh vm_offset_t msgbufphys;
    218        1.1      bsh 
    219        1.1      bsh extern u_int data_abort_handler_address;
    220        1.1      bsh extern u_int prefetch_abort_handler_address;
    221        1.1      bsh extern u_int undefined_handler_address;
    222        1.1      bsh 
    223        1.1      bsh #ifdef PMAP_DEBUG
    224        1.1      bsh extern int pmap_debug_level;
    225        1.1      bsh #endif
    226        1.1      bsh 
    227        1.1      bsh #define KERNEL_PT_SYS		0	/* L2 table for mapping zero page */
    228        1.1      bsh #define KERNEL_PT_KERNEL	1	/* L2 table for mapping kernel */
    229        1.1      bsh #define	KERNEL_PT_KERNEL_NUM	2	/* L2 tables for mapping kernel VM */
    230        1.1      bsh 
    231        1.1      bsh #define KERNEL_PT_VMDATA	(KERNEL_PT_KERNEL + KERNEL_PT_KERNEL_NUM)
    232        1.1      bsh 
    233        1.1      bsh #define	KERNEL_PT_VMDATA_NUM	4	/* start with 16MB of KVM */
    234        1.1      bsh #define NUM_KERNEL_PTS		(KERNEL_PT_VMDATA + KERNEL_PT_VMDATA_NUM)
    235        1.1      bsh 
    236        1.1      bsh pv_addr_t kernel_pt_table[NUM_KERNEL_PTS];
    237        1.1      bsh 
    238        1.1      bsh struct user *proc0paddr;
    239        1.1      bsh 
    240        1.1      bsh /* Prototypes */
    241        1.1      bsh 
    242        1.1      bsh void consinit(void);
    243        1.1      bsh void kgdb_port_init(void);
    244        1.1      bsh 
    245        1.1      bsh /* A load of console goo. */
    246        1.1      bsh #include "vga.h"
    247        1.1      bsh #if NVGA > 0
    248        1.1      bsh #include <dev/ic/mc6845reg.h>
    249        1.1      bsh #include <dev/ic/pcdisplayvar.h>
    250        1.1      bsh #include <dev/ic/vgareg.h>
    251        1.1      bsh #include <dev/ic/vgavar.h>
    252        1.1      bsh #endif
    253        1.1      bsh 
    254        1.1      bsh #include "com.h"
    255        1.1      bsh #if NCOM > 0
    256        1.1      bsh #include <dev/ic/comreg.h>
    257        1.1      bsh #include <dev/ic/comvar.h>
    258        1.1      bsh #endif
    259        1.1      bsh 
    260        1.1      bsh #include "sscom.h"
    261        1.1      bsh #if NSSCOM > 0
    262        1.1      bsh #include "opt_sscom.h"
    263        1.1      bsh #include <arm/s3c2xx0/sscom_var.h>
    264        1.1      bsh #endif
    265        1.1      bsh 
    266        1.1      bsh /*
    267        1.1      bsh  * Define the default console speed for the board.  This is generally
    268        1.1      bsh  * what the firmware provided with the board defaults to.
    269        1.1      bsh  */
    270        1.1      bsh #ifndef CONSPEED
    271        1.1      bsh #define CONSPEED B115200	/* TTYDEF_SPEED */
    272        1.1      bsh #endif
    273        1.1      bsh #ifndef CONMODE
    274        1.1      bsh #define CONMODE ((TTYDEF_CFLAG & ~(CSIZE | CSTOPB | PARENB)) | CS8)   /* 8N1 */
    275        1.1      bsh #endif
    276        1.1      bsh 
    277        1.1      bsh int comcnspeed = CONSPEED;
    278        1.1      bsh int comcnmode = CONMODE;
    279        1.1      bsh 
    280        1.1      bsh /*
    281        1.1      bsh  * void cpu_reboot(int howto, char *bootstr)
    282        1.1      bsh  *
    283        1.1      bsh  * Reboots the system
    284        1.1      bsh  *
    285        1.1      bsh  * Deal with any syncing, unmounting, dumping and shutdown hooks,
    286        1.1      bsh  * then reset the CPU.
    287        1.1      bsh  */
    288        1.1      bsh void
    289        1.1      bsh cpu_reboot(int howto, char *bootstr)
    290        1.1      bsh {
    291        1.1      bsh 
    292        1.9      bsh 	cpu_reset_address = vtophys((u_int)s3c2800_softreset);
    293        1.1      bsh 
    294        1.1      bsh 	/*
    295        1.1      bsh 	 * If we are still cold then hit the air brakes
    296        1.1      bsh 	 * and crash to earth fast
    297        1.1      bsh 	 */
    298        1.1      bsh 	if (cold) {
    299        1.1      bsh 		doshutdownhooks();
    300        1.1      bsh 		printf("The operating system has halted.\n");
    301        1.1      bsh 		printf("Please press any key to reboot.\n\n");
    302        1.1      bsh 		cngetc();
    303        1.1      bsh 		printf("rebooting...\n");
    304        1.1      bsh 		cpu_reset();
    305        1.1      bsh 		/* NOTREACHED */
    306        1.1      bsh 	}
    307        1.1      bsh 	/* Disable console buffering */
    308        1.1      bsh 
    309        1.1      bsh 	/*
    310        1.1      bsh 	 * If RB_NOSYNC was not specified sync the discs.
    311        1.1      bsh 	 * Note: Unless cold is set to 1 here, syslogd will die during the
    312        1.1      bsh 	 * unmount.  It looks like syslogd is getting woken up only to find
    313        1.1      bsh 	 * that it cannot page part of the binary in as the filesystem has
    314        1.1      bsh 	 * been unmounted.
    315        1.1      bsh 	 */
    316        1.1      bsh 	if (!(howto & RB_NOSYNC))
    317        1.1      bsh 		bootsync();
    318        1.1      bsh 
    319        1.1      bsh 	/* Say NO to interrupts */
    320        1.1      bsh 	splhigh();
    321        1.1      bsh 
    322        1.1      bsh 	/* Do a dump if requested. */
    323        1.1      bsh 	if ((howto & (RB_DUMP | RB_HALT)) == RB_DUMP)
    324        1.1      bsh 		dumpsys();
    325        1.1      bsh 
    326        1.1      bsh 	/* Run any shutdown hooks */
    327        1.1      bsh 	doshutdownhooks();
    328        1.1      bsh 
    329        1.1      bsh 	/* Make sure IRQ's are disabled */
    330        1.1      bsh 	IRQdisable;
    331        1.1      bsh 
    332        1.1      bsh 	if (howto & RB_HALT) {
    333        1.1      bsh 		printf("The operating system has halted.\n");
    334        1.1      bsh 		printf("Please press any key to reboot.\n\n");
    335        1.1      bsh 		cngetc();
    336        1.1      bsh 	}
    337        1.1      bsh 	printf("rebooting...\n");
    338        1.1      bsh 	cpu_reset();
    339        1.1      bsh 	/* NOTREACHED */
    340        1.1      bsh }
    341       1.21      bsh 
    342       1.21      bsh /*
    343       1.21      bsh  * All built-in peripheral registers are statically mapped in start up
    344       1.21      bsh  * routine.  This table tells pmap subsystem about it, and to map them
    345       1.21      bsh  * at the same position.
    346       1.21      bsh  */
    347       1.21      bsh static const struct pmap_devmap smdk2800_devmap[] = {
    348       1.21      bsh 	{
    349       1.21      bsh 		SMDK2800_IO_AREA_VBASE,
    350       1.21      bsh 		S3C2800_PERIPHERALS,
    351       1.21      bsh 		S3C2800_PERIPHERALS_SIZE,
    352       1.21      bsh 		VM_PROT_READ|VM_PROT_WRITE, PTE_NOCACHE,
    353       1.21      bsh 	},
    354       1.21      bsh 	{ 0, 0, 0, 0 }
    355       1.21      bsh };
    356       1.21      bsh 
    357       1.21      bsh #define ioreg_vaddr(pa)	((pa) - S3C2800_PERIPHERALS + SMDK2800_IO_AREA_VBASE)
    358       1.21      bsh #define	ioreg32(pa)	(*(volatile uint32_t *)ioreg_vaddr(pa))
    359        1.1      bsh 
    360        1.1      bsh /*
    361        1.1      bsh  * u_int initarm(...)
    362        1.1      bsh  *
    363        1.1      bsh  * Initial entry point on startup. This gets called before main() is
    364        1.1      bsh  * entered.
    365        1.1      bsh  * It should be responsible for setting up everything that must be
    366        1.1      bsh  * in place when main is called.
    367        1.1      bsh  * This includes
    368        1.1      bsh  *   Taking a copy of the boot configuration structure.
    369        1.1      bsh  *   Initialising the physical console so characters can be printed.
    370        1.1      bsh  *   Setting up page tables for the kernel
    371        1.1      bsh  *   Relocating the kernel to the bottom of physical memory
    372        1.1      bsh  */
    373        1.1      bsh 
    374        1.1      bsh u_int
    375        1.1      bsh initarm(void *arg)
    376        1.1      bsh {
    377        1.1      bsh 	int loop;
    378        1.1      bsh 	int loop1;
    379        1.1      bsh 	u_int l1pagetable;
    380       1.23    perry 	extern int etext __asm("_etext");
    381       1.23    perry 	extern int end __asm("_end");
    382        1.1      bsh 	int progress_counter = 0;
    383        1.9      bsh 
    384        1.9      bsh #ifdef DO_MEMORY_DISK
    385        1.9      bsh 	vm_offset_t md_root_start;
    386        1.9      bsh #define MD_ROOT_SIZE (MEMORY_DISK_ROOT_SIZE * DEV_BSIZE)
    387        1.1      bsh #endif
    388        1.1      bsh 
    389       1.21      bsh #define gpio8(reg) (*(volatile uint8_t *)(ioreg_vaddr(S3C2800_GPIO_BASE) + (reg)))
    390        1.9      bsh 
    391        1.1      bsh #define LEDSTEP()  __LED(progress_counter++)
    392        1.1      bsh 
    393       1.21      bsh #define pdatc gpio8(GPIO_PDATC)
    394        1.1      bsh #define __LED(x)  (pdatc = (pdatc & ~0x07) | (~(x) & 0x07))
    395        1.1      bsh 
    396        1.1      bsh 	LEDSTEP();
    397        1.1      bsh 	/*
    398        1.1      bsh 	 * Heads up ... Setup the CPU / MMU / TLB functions
    399        1.1      bsh 	 */
    400        1.1      bsh 	if (set_cpufuncs())
    401       1.17      wiz 		panic("CPU not recognized!");
    402        1.1      bsh 
    403        1.1      bsh 	LEDSTEP();
    404        1.9      bsh 
    405        1.1      bsh 
    406        1.1      bsh 	/* Disable all peripheral interrupts */
    407       1.21      bsh 	ioreg32(S3C2800_INTCTL_BASE + INTCTL_INTMSK) = 0;
    408        1.9      bsh 
    409        1.1      bsh 	consinit();
    410       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    411        1.1      bsh 	printf("consinit done\n");
    412       1.10  thorpej #endif
    413        1.1      bsh 
    414        1.1      bsh #ifdef KGDB
    415        1.1      bsh 	LEDSTEP();
    416        1.1      bsh 	kgdb_port_init();
    417        1.1      bsh #endif
    418        1.1      bsh 	LEDSTEP();
    419        1.1      bsh 
    420       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    421        1.1      bsh 	/* Talk to the user */
    422        1.1      bsh 	printf("\nNetBSD/evbarm (SMDK2800) booting ...\n");
    423       1.10  thorpej #endif
    424        1.1      bsh 
    425        1.1      bsh 	/*
    426        1.1      bsh 	 * Ok we have the following memory map
    427        1.1      bsh 	 *
    428        1.1      bsh 	 * Physical Address Range     Description
    429        1.1      bsh 	 * -----------------------    ----------------------------------
    430        1.1      bsh 	 * 0x00000000 - 0x00ffffff    Intel flash Memory   (16MB)
    431        1.1      bsh 	 * 0x02000000 - 0x020fffff    AMD flash Memory   (1MB)
    432        1.1      bsh 	 * or 			       (depend on DIPSW setting)
    433        1.1      bsh 	 * 0x00000000 - 0x000fffff    AMD flash Memory   (1MB)
    434        1.1      bsh 	 * 0x02000000 - 0x02ffffff    Intel flash Memory   (16MB)
    435        1.1      bsh 	 *
    436        1.1      bsh 	 * 0x08000000 - 0x09ffffff    SDRAM (32MB)
    437        1.1      bsh 	 * 0x20000000 - 0x3fffffff    PCI space
    438        1.1      bsh 	 *
    439        1.1      bsh 	 * The initarm() has the responsibility for creating the kernel
    440        1.1      bsh 	 * page tables.
    441        1.1      bsh 	 * It must also set up various memory pointers that are used
    442        1.1      bsh 	 * by pmap etc.
    443        1.1      bsh 	 */
    444        1.1      bsh 
    445        1.1      bsh 	/* Fake bootconfig structure for the benefit of pmap.c */
    446        1.1      bsh 	/* XXX must make the memory description h/w independent */
    447        1.1      bsh 	bootconfig.dramblocks = 1;
    448        1.1      bsh 	bootconfig.dram[0].address = SDRAM_START;
    449        1.2  thorpej 	bootconfig.dram[0].pages = SDRAM_SIZE / PAGE_SIZE;
    450        1.1      bsh 
    451        1.1      bsh 	/*
    452        1.1      bsh 	 * Set up the variables that define the availablilty of
    453        1.1      bsh 	 * physical memory.  For now, we're going to set
    454        1.1      bsh 	 * physical_freestart to 0x08200000 (where the kernel
    455        1.1      bsh 	 * was loaded), and allocate the memory we need downwards.
    456        1.1      bsh 	 * If we get too close to the bottom of SDRAM, we
    457        1.1      bsh 	 * will panic.  We will update physical_freestart and
    458        1.1      bsh 	 * physical_freeend later to reflect what pmap_bootstrap()
    459        1.1      bsh 	 * wants to see.
    460        1.1      bsh 	 *
    461        1.1      bsh 	 * XXX pmap_bootstrap() needs an enema.
    462        1.1      bsh 	 */
    463        1.1      bsh 	physical_start = bootconfig.dram[0].address;
    464        1.2  thorpej 	physical_end = physical_start + (bootconfig.dram[0].pages * PAGE_SIZE);
    465        1.9      bsh 
    466        1.9      bsh #if DO_MEMORY_DISK
    467        1.9      bsh #ifdef MEMORY_DISK_ROOT_ROM
    468        1.9      bsh 	md_root_start = MEMORY_DISK_ROOT_ADDR;
    469        1.9      bsh 	boothowto |= RB_RDONLY;
    470        1.9      bsh #else
    471        1.9      bsh 	/* Reserve physmem for ram disk */
    472        1.9      bsh 	md_root_start = ((physical_end - MD_ROOT_SIZE) & ~(L1_S_SIZE-1));
    473        1.9      bsh 	printf("Reserve %ld bytes for memory disk\n",
    474        1.9      bsh 	    physical_end - md_root_start);
    475        1.9      bsh 	/* copy fs contents */
    476        1.9      bsh 	memcpy((void *)md_root_start, (void *)MEMORY_DISK_ROOT_ADDR,
    477        1.9      bsh 	    MD_ROOT_SIZE);
    478        1.9      bsh 	physical_end = md_root_start;
    479        1.9      bsh #endif
    480        1.1      bsh #endif
    481        1.1      bsh 
    482        1.1      bsh 	physical_freestart = 0x08000000UL;	/* XXX */
    483        1.1      bsh 	physical_freeend = 0x08200000UL;
    484        1.1      bsh 
    485        1.2  thorpej 	physmem = (physical_end - physical_start) / PAGE_SIZE;
    486        1.1      bsh 
    487       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    488        1.1      bsh 	/* Tell the user about the memory */
    489        1.1      bsh 	printf("physmemory: %d pages at 0x%08lx -> 0x%08lx\n", physmem,
    490        1.1      bsh 	    physical_start, physical_end - 1);
    491       1.10  thorpej #endif
    492        1.1      bsh 
    493        1.1      bsh 	/*
    494        1.1      bsh 	 * XXX
    495        1.1      bsh 	 * Okay, the kernel starts 2MB in from the bottom of physical
    496        1.1      bsh 	 * memory.  We are going to allocate our bootstrap pages downwards
    497        1.1      bsh 	 * from there.
    498        1.1      bsh 	 *
    499        1.1      bsh 	 * We need to allocate some fixed page tables to get the kernel
    500        1.1      bsh 	 * going.  We allocate one page directory and a number of page
    501        1.1      bsh 	 * tables and store the physical addresses in the kernel_pt_table
    502        1.1      bsh 	 * array.
    503        1.1      bsh 	 *
    504        1.1      bsh 	 * The kernel page directory must be on a 16K boundary.  The page
    505       1.19      abs 	 * tables must be on 4K boundaries.  What we do is allocate the
    506        1.1      bsh 	 * page directory on the first 16K boundary that we encounter, and
    507        1.1      bsh 	 * the page tables on 4K boundaries otherwise.  Since we allocate
    508        1.1      bsh 	 * at least 3 L2 page tables, we are guaranteed to encounter at
    509        1.1      bsh 	 * least one 16K aligned region.
    510        1.1      bsh 	 */
    511        1.1      bsh 
    512        1.1      bsh #ifdef VERBOSE_INIT_ARM
    513        1.1      bsh 	printf("Allocating page tables\n");
    514        1.1      bsh #endif
    515        1.1      bsh 
    516        1.2  thorpej 	free_pages = (physical_freeend - physical_freestart) / PAGE_SIZE;
    517        1.1      bsh 
    518        1.1      bsh #ifdef VERBOSE_INIT_ARM
    519        1.1      bsh 	printf("freestart = 0x%08lx, free_pages = %d (0x%08x)\n",
    520        1.1      bsh 	    physical_freestart, free_pages, free_pages);
    521        1.1      bsh #endif
    522        1.1      bsh 
    523        1.1      bsh 	/* Define a macro to simplify memory allocation */
    524        1.1      bsh #define	valloc_pages(var, np)				\
    525        1.1      bsh 	alloc_pages((var).pv_pa, (np));			\
    526        1.1      bsh 	(var).pv_va = KERNEL_BASE + (var).pv_pa - physical_start;
    527        1.1      bsh 
    528        1.1      bsh #define alloc_pages(var, np)				\
    529        1.2  thorpej 	physical_freeend -= ((np) * PAGE_SIZE);		\
    530        1.1      bsh 	if (physical_freeend < physical_freestart)	\
    531        1.1      bsh 		panic("initarm: out of memory");	\
    532        1.1      bsh 	(var) = physical_freeend;			\
    533        1.1      bsh 	free_pages -= (np);				\
    534        1.2  thorpej 	memset((char *)(var), 0, ((np) * PAGE_SIZE));
    535        1.1      bsh 
    536        1.1      bsh 	loop1 = 0;
    537        1.1      bsh 	for (loop = 0; loop <= NUM_KERNEL_PTS; ++loop) {
    538        1.1      bsh 		/* Are we 16KB aligned for an L1 ? */
    539        1.1      bsh 		if (((physical_freeend - L1_TABLE_SIZE) & (L1_TABLE_SIZE - 1)) == 0
    540        1.1      bsh 		    && kernel_l1pt.pv_pa == 0) {
    541        1.2  thorpej 			valloc_pages(kernel_l1pt, L1_TABLE_SIZE / PAGE_SIZE);
    542        1.1      bsh 		} else {
    543        1.4  thorpej 			valloc_pages(kernel_pt_table[loop1],
    544        1.4  thorpej 			    L2_TABLE_SIZE / PAGE_SIZE);
    545        1.1      bsh 			++loop1;
    546        1.1      bsh 		}
    547        1.1      bsh 	}
    548        1.1      bsh 
    549        1.1      bsh 	/* This should never be able to happen but better confirm that. */
    550        1.9      bsh 	if (!kernel_l1pt.pv_pa || (kernel_l1pt.pv_pa & (L1_TABLE_SIZE-1)) != 0)
    551        1.1      bsh 		panic("initarm: Failed to align the kernel page directory\n");
    552        1.1      bsh 
    553        1.1      bsh 	/*
    554        1.1      bsh 	 * Allocate a page for the system page mapped to V0x00000000
    555        1.1      bsh 	 * This page will just contain the system vectors and can be
    556        1.1      bsh 	 * shared by all processes.
    557        1.1      bsh 	 */
    558        1.1      bsh 	alloc_pages(systempage.pv_pa, 1);
    559        1.1      bsh 
    560        1.1      bsh 	/* Allocate stacks for all modes */
    561        1.1      bsh 	valloc_pages(irqstack, IRQ_STACK_SIZE);
    562        1.1      bsh 	valloc_pages(abtstack, ABT_STACK_SIZE);
    563        1.1      bsh 	valloc_pages(undstack, UND_STACK_SIZE);
    564        1.1      bsh 	valloc_pages(kernelstack, UPAGES);
    565        1.1      bsh 
    566        1.1      bsh #ifdef VERBOSE_INIT_ARM
    567        1.1      bsh 	printf("IRQ stack: p0x%08lx v0x%08lx\n", irqstack.pv_pa,
    568        1.1      bsh 	    irqstack.pv_va);
    569        1.1      bsh 	printf("ABT stack: p0x%08lx v0x%08lx\n", abtstack.pv_pa,
    570        1.1      bsh 	    abtstack.pv_va);
    571        1.1      bsh 	printf("UND stack: p0x%08lx v0x%08lx\n", undstack.pv_pa,
    572        1.1      bsh 	    undstack.pv_va);
    573        1.1      bsh 	printf("SVC stack: p0x%08lx v0x%08lx\n", kernelstack.pv_pa,
    574        1.1      bsh 	    kernelstack.pv_va);
    575        1.1      bsh #endif
    576        1.1      bsh 
    577        1.2  thorpej 	alloc_pages(msgbufphys, round_page(MSGBUFSIZE) / PAGE_SIZE);
    578        1.1      bsh 
    579        1.1      bsh 	LEDSTEP();
    580        1.1      bsh 
    581        1.1      bsh 	/*
    582        1.1      bsh 	 * Ok we have allocated physical pages for the primary kernel
    583        1.1      bsh 	 * page tables
    584        1.1      bsh 	 */
    585        1.1      bsh 
    586        1.1      bsh #ifdef VERBOSE_INIT_ARM
    587        1.1      bsh 	printf("Creating L1 page table at 0x%08lx\n", kernel_l1pt.pv_pa);
    588        1.1      bsh #endif
    589        1.1      bsh 
    590        1.1      bsh 	/*
    591        1.1      bsh 	 * Now we start construction of the L1 page table
    592        1.1      bsh 	 * We start by mapping the L2 page tables into the L1.
    593        1.1      bsh 	 * This means that we can replace L1 mappings later on if necessary
    594        1.1      bsh 	 */
    595        1.1      bsh 	l1pagetable = kernel_l1pt.pv_pa;
    596        1.1      bsh 
    597        1.1      bsh 	/* Map the L2 pages tables in the L1 page table */
    598        1.1      bsh 	pmap_link_l2pt(l1pagetable, 0x00000000,
    599        1.1      bsh 	    &kernel_pt_table[KERNEL_PT_SYS]);
    600        1.1      bsh 	for (loop = 0; loop < KERNEL_PT_KERNEL_NUM; loop++)
    601        1.1      bsh 		pmap_link_l2pt(l1pagetable, KERNEL_BASE + loop * 0x00400000,
    602        1.1      bsh 		    &kernel_pt_table[KERNEL_PT_KERNEL + loop]);
    603        1.1      bsh 	for (loop = 0; loop < KERNEL_PT_VMDATA_NUM; loop++)
    604        1.1      bsh 		pmap_link_l2pt(l1pagetable, KERNEL_VM_BASE + loop * 0x00400000,
    605        1.1      bsh 		    &kernel_pt_table[KERNEL_PT_VMDATA + loop]);
    606        1.1      bsh 
    607        1.1      bsh 	/* update the top of the kernel VM */
    608        1.1      bsh 	pmap_curmaxkvaddr =
    609        1.1      bsh 	    KERNEL_VM_BASE + (KERNEL_PT_VMDATA_NUM * 0x00400000);
    610        1.1      bsh 
    611        1.1      bsh #ifdef VERBOSE_INIT_ARM
    612        1.1      bsh 	printf("Mapping kernel\n");
    613        1.1      bsh #endif
    614        1.1      bsh 
    615        1.1      bsh 	/* Now we fill in the L2 pagetable for the kernel static code/data */
    616        1.1      bsh 	{
    617        1.8      bsh 		size_t textsize = (uintptr_t)&etext - KERNEL_TEXT_BASE;
    618        1.8      bsh 		size_t totalsize = (uintptr_t)&end - KERNEL_TEXT_BASE;
    619        1.1      bsh 		u_int logical;
    620        1.1      bsh 
    621        1.1      bsh 		textsize = (textsize + PGOFSET) & ~PGOFSET;
    622        1.1      bsh 		totalsize = (totalsize + PGOFSET) & ~PGOFSET;
    623        1.1      bsh 
    624        1.1      bsh 		logical = 0x00200000;	/* offset of kernel in RAM */
    625        1.1      bsh 
    626        1.1      bsh 		logical += pmap_map_chunk(l1pagetable, KERNEL_BASE + logical,
    627        1.1      bsh 		    physical_start + logical, textsize,
    628        1.1      bsh 		    VM_PROT_READ | VM_PROT_WRITE, PTE_CACHE);
    629        1.1      bsh 		logical += pmap_map_chunk(l1pagetable, KERNEL_BASE + logical,
    630        1.1      bsh 		    physical_start + logical, totalsize - textsize,
    631        1.1      bsh 		    VM_PROT_READ | VM_PROT_WRITE, PTE_CACHE);
    632        1.1      bsh 	}
    633        1.1      bsh 
    634        1.1      bsh #ifdef VERBOSE_INIT_ARM
    635        1.1      bsh 	printf("Constructing L2 page tables\n");
    636        1.1      bsh #endif
    637        1.1      bsh 
    638        1.1      bsh 	/* Map the stack pages */
    639        1.1      bsh 	pmap_map_chunk(l1pagetable, irqstack.pv_va, irqstack.pv_pa,
    640        1.2  thorpej 	    IRQ_STACK_SIZE * PAGE_SIZE, VM_PROT_READ | VM_PROT_WRITE,
    641        1.2  thorpej 	    PTE_CACHE);
    642        1.1      bsh 	pmap_map_chunk(l1pagetable, abtstack.pv_va, abtstack.pv_pa,
    643        1.2  thorpej 	    ABT_STACK_SIZE * PAGE_SIZE, VM_PROT_READ | VM_PROT_WRITE,
    644        1.2  thorpej 	    PTE_CACHE);
    645        1.1      bsh 	pmap_map_chunk(l1pagetable, undstack.pv_va, undstack.pv_pa,
    646        1.2  thorpej 	    UND_STACK_SIZE * PAGE_SIZE, VM_PROT_READ | VM_PROT_WRITE,
    647        1.2  thorpej 	    PTE_CACHE);
    648        1.1      bsh 	pmap_map_chunk(l1pagetable, kernelstack.pv_va, kernelstack.pv_pa,
    649        1.2  thorpej 	    UPAGES * PAGE_SIZE, VM_PROT_READ | VM_PROT_WRITE, PTE_CACHE);
    650        1.1      bsh 
    651        1.4  thorpej 	pmap_map_chunk(l1pagetable, kernel_l1pt.pv_va, kernel_l1pt.pv_pa,
    652        1.4  thorpej 	    L1_TABLE_SIZE, VM_PROT_READ | VM_PROT_WRITE, PTE_PAGETABLE);
    653        1.1      bsh 
    654        1.4  thorpej 	for (loop = 0; loop < NUM_KERNEL_PTS; ++loop) {
    655        1.4  thorpej 		pmap_map_chunk(l1pagetable, kernel_pt_table[loop].pv_va,
    656        1.4  thorpej 		    kernel_pt_table[loop].pv_pa, L2_TABLE_SIZE,
    657        1.4  thorpej 		    VM_PROT_READ|VM_PROT_WRITE, PTE_PAGETABLE);
    658        1.4  thorpej 	}
    659        1.1      bsh 
    660        1.1      bsh 	/* Map the vector page. */
    661        1.1      bsh #if 1
    662        1.1      bsh 	/* MULTI-ICE requires that page 0 is NC/NB so that it can download the
    663        1.1      bsh 	 * cache-clean code there.  */
    664        1.1      bsh 	pmap_map_entry(l1pagetable, vector_page, systempage.pv_pa,
    665        1.1      bsh 	    VM_PROT_READ | VM_PROT_WRITE, PTE_NOCACHE);
    666        1.1      bsh #else
    667        1.1      bsh 	pmap_map_entry(l1pagetable, vector_page, systempage.pv_pa,
    668        1.1      bsh 	    VM_PROT_READ | VM_PROT_WRITE, PTE_CACHE);
    669        1.1      bsh #endif
    670        1.1      bsh 
    671        1.1      bsh #ifdef MEMORY_DISK_DYNAMIC
    672        1.9      bsh 	/* map MD root image */
    673       1.21      bsh 	pmap_map_chunk(l1pagetable, SMDK2800_MEMORY_DISK_VADDR, md_root_start,
    674       1.21      bsh 	    MD_ROOT_SIZE, VM_PROT_READ | VM_PROT_WRITE, PTE_CACHE);
    675        1.1      bsh 
    676        1.9      bsh 	md_root_setconf((void *)md_root_start, MD_ROOT_SIZE);
    677        1.9      bsh #endif /* MEMORY_DISK_DYNAMIC */
    678        1.1      bsh 	/*
    679        1.1      bsh 	 * map integrated peripherals at same address in l1pagetable
    680        1.1      bsh 	 * so that we can continue to use console.
    681        1.1      bsh 	 */
    682       1.21      bsh 	pmap_devmap_bootstrap(l1pagetable, smdk2800_devmap);
    683        1.1      bsh 
    684        1.1      bsh 	/*
    685        1.1      bsh 	 * Now we have the real page tables in place so we can switch to them.
    686        1.1      bsh 	 * Once this is done we will be running with the REAL kernel page
    687        1.1      bsh 	 * tables.
    688        1.1      bsh 	 */
    689        1.1      bsh 
    690        1.1      bsh 	/*
    691        1.1      bsh 	 * Update the physical_freestart/physical_freeend/free_pages
    692        1.1      bsh 	 * variables.
    693        1.1      bsh 	 */
    694        1.1      bsh 	{
    695        1.1      bsh 		physical_freestart = physical_start +
    696        1.8      bsh 		    (((((uintptr_t)&end) + PGOFSET) & ~PGOFSET) - KERNEL_BASE);
    697        1.1      bsh 		physical_freeend = physical_end;
    698        1.2  thorpej 		free_pages =
    699        1.2  thorpej 		    (physical_freeend - physical_freestart) / PAGE_SIZE;
    700        1.1      bsh 	}
    701        1.1      bsh 
    702        1.1      bsh 	/* Switch tables */
    703        1.1      bsh #ifdef VERBOSE_INIT_ARM
    704        1.1      bsh 	printf("freestart = 0x%08lx, free_pages = %d (0x%x)\n",
    705        1.1      bsh 	    physical_freestart, free_pages, free_pages);
    706        1.1      bsh 	printf("switching to new L1 page table  @%#lx...", kernel_l1pt.pv_pa);
    707        1.1      bsh #endif
    708        1.1      bsh 	LEDSTEP();
    709        1.4  thorpej 	cpu_domains((DOMAIN_CLIENT << (PMAP_DOMAIN_KERNEL*2)) | DOMAIN_CLIENT);
    710        1.1      bsh 	setttb(kernel_l1pt.pv_pa);
    711        1.1      bsh 	cpu_tlb_flushID();
    712        1.4  thorpej 	cpu_domains(DOMAIN_CLIENT << (PMAP_DOMAIN_KERNEL*2));
    713        1.4  thorpej 
    714        1.4  thorpej 	/*
    715        1.4  thorpej 	 * Moved from cpu_startup() as data_abort_handler() references
    716        1.4  thorpej 	 * this during uvm init
    717        1.4  thorpej 	 */
    718        1.4  thorpej 	proc0paddr = (struct user *)kernelstack.pv_va;
    719        1.4  thorpej 	lwp0.l_addr = proc0paddr;
    720        1.1      bsh 
    721        1.1      bsh #ifdef VERBOSE_INIT_ARM
    722        1.1      bsh 	printf("done!\n");
    723        1.1      bsh #endif
    724        1.1      bsh 
    725        1.1      bsh #if 0
    726        1.1      bsh 	/*
    727        1.1      bsh 	 * The IFPGA registers have just moved.
    728        1.1      bsh 	 * Detach the diagnostic serial port and reattach at the new address.
    729        1.1      bsh 	 */
    730        1.1      bsh 	plcomcndetach();
    731        1.1      bsh 	/*
    732        1.1      bsh 	 * XXX this should only be done in main() but it useful to
    733        1.1      bsh 	 * have output earlier ...
    734        1.1      bsh 	 */
    735        1.1      bsh 	consinit();
    736        1.1      bsh #endif
    737        1.1      bsh 
    738        1.1      bsh 	LEDSTEP();
    739        1.1      bsh #ifdef VERBOSE_INIT_ARM
    740        1.1      bsh 	printf("bootstrap done.\n");
    741        1.1      bsh #endif
    742        1.1      bsh 
    743        1.1      bsh 	arm32_vector_init(ARM_VECTORS_LOW, ARM_VEC_ALL);
    744        1.1      bsh 
    745        1.1      bsh 	/*
    746        1.1      bsh 	 * Pages were allocated during the secondary bootstrap for the
    747        1.1      bsh 	 * stacks for different CPU modes.
    748        1.1      bsh 	 * We must now set the r13 registers in the different CPU modes to
    749        1.1      bsh 	 * point to these stacks.
    750        1.1      bsh 	 * Since the ARM stacks use STMFD etc. we must set r13 to the top end
    751        1.1      bsh 	 * of the stack memory.
    752        1.1      bsh 	 */
    753       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    754        1.1      bsh 	printf("init subsystems: stacks ");
    755       1.10  thorpej #endif
    756        1.1      bsh 
    757        1.2  thorpej 	set_stackptr(PSR_IRQ32_MODE,
    758        1.2  thorpej 	    irqstack.pv_va + IRQ_STACK_SIZE * PAGE_SIZE);
    759        1.2  thorpej 	set_stackptr(PSR_ABT32_MODE,
    760        1.2  thorpej 	    abtstack.pv_va + ABT_STACK_SIZE * PAGE_SIZE);
    761        1.2  thorpej 	set_stackptr(PSR_UND32_MODE,
    762        1.2  thorpej 	    undstack.pv_va + UND_STACK_SIZE * PAGE_SIZE);
    763        1.1      bsh 
    764        1.1      bsh 	LEDSTEP();
    765        1.1      bsh 
    766        1.1      bsh 	/*
    767        1.1      bsh 	 * Well we should set a data abort handler.
    768        1.1      bsh 	 * Once things get going this will change as we will need a proper
    769        1.1      bsh 	 * handler.
    770        1.1      bsh 	 * Until then we will use a handler that just panics but tells us
    771        1.1      bsh 	 * why.
    772        1.1      bsh 	 * Initialisation of the vectors will just panic on a data abort.
    773       1.18      abs 	 * This just fills in a slightly better one.
    774        1.1      bsh 	 */
    775       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    776        1.1      bsh 	printf("vectors ");
    777       1.10  thorpej #endif
    778        1.1      bsh 	data_abort_handler_address = (u_int)data_abort_handler;
    779        1.1      bsh 	prefetch_abort_handler_address = (u_int)prefetch_abort_handler;
    780        1.1      bsh 	undefined_handler_address = (u_int)undefinedinstruction_bounce;
    781        1.1      bsh 
    782        1.1      bsh 	/* Initialise the undefined instruction handlers */
    783       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    784        1.1      bsh 	printf("undefined ");
    785       1.10  thorpej #endif
    786        1.1      bsh 	undefined_init();
    787        1.1      bsh 
    788        1.1      bsh 	LEDSTEP();
    789        1.1      bsh 
    790        1.1      bsh 	/* Load memory into UVM. */
    791       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    792        1.1      bsh 	printf("page ");
    793       1.10  thorpej #endif
    794        1.1      bsh 	uvm_setpagesize();	/* initialize PAGE_SIZE-dependent variables */
    795        1.1      bsh 	uvm_page_physload(atop(physical_freestart), atop(physical_freeend),
    796        1.1      bsh 	    atop(physical_freestart), atop(physical_freeend),
    797        1.1      bsh 	    VM_FREELIST_DEFAULT);
    798        1.1      bsh 
    799        1.1      bsh 	LEDSTEP();
    800        1.1      bsh 	/* Boot strap pmap telling it where the kernel page table is */
    801       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    802        1.1      bsh 	printf("pmap ");
    803       1.10  thorpej #endif
    804  1.24.38.1     matt 	pmap_bootstrap(KERNEL_VM_BASE, KERNEL_VM_BASE + KERNEL_VM_SIZE);
    805        1.1      bsh 
    806        1.1      bsh 	LEDSTEP();
    807        1.1      bsh 
    808        1.1      bsh 	/* Setup the IRQ system */
    809       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    810        1.1      bsh 	printf("irq ");
    811       1.10  thorpej #endif
    812        1.1      bsh 	/* XXX irq_init(); */
    813        1.1      bsh 
    814       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    815        1.1      bsh 	printf("done.\n");
    816       1.10  thorpej #endif
    817        1.1      bsh 
    818        1.9      bsh #ifdef BOOTHOWTO_INIT
    819        1.9      bsh 	boothowto |= BOOTHOWTO_INIT;
    820        1.9      bsh #endif
    821        1.9      bsh 	{
    822       1.21      bsh 		uint8_t  gpio = ~gpio8(GPIO_PDATF);
    823        1.9      bsh 
    824        1.9      bsh 		if (gpio & (1<<5)) /* SW3 */
    825        1.9      bsh 			boothowto ^= RB_SINGLE;
    826        1.9      bsh 		if (gpio & (1<<7)) /* SW7 */
    827        1.9      bsh 			boothowto ^= RB_KDB;
    828       1.10  thorpej #ifdef VERBOSE_INIT_ARM
    829        1.9      bsh 		printf( "sw: %x boothowto: %x\n", gpio, boothowto );
    830       1.10  thorpej #endif
    831        1.9      bsh 	}
    832        1.1      bsh 
    833        1.1      bsh #ifdef IPKDB
    834        1.1      bsh 	/* Initialise ipkdb */
    835        1.1      bsh 	ipkdb_init();
    836        1.1      bsh 	if (boothowto & RB_KDB)
    837        1.1      bsh 		ipkdb_connect(0);
    838        1.1      bsh #endif
    839        1.1      bsh 
    840        1.1      bsh #ifdef KGDB
    841        1.1      bsh 	if (boothowto & RB_KDB) {
    842        1.1      bsh 		kgdb_debug_init = 1;
    843        1.1      bsh 		kgdb_connect(1);
    844        1.1      bsh 	}
    845        1.1      bsh #endif
    846        1.1      bsh 
    847        1.3    ragge #if NKSYMS || defined(DDB) || defined(LKM)
    848        1.3    ragge 	/* Firmware doesn't load symbols. */
    849        1.3    ragge 	ksyms_init(0, NULL, NULL);
    850        1.3    ragge #endif
    851        1.3    ragge 
    852        1.1      bsh #ifdef DDB
    853        1.1      bsh 	db_machine_init();
    854        1.1      bsh 	if (boothowto & RB_KDB)
    855        1.1      bsh 		Debugger();
    856        1.1      bsh #endif
    857        1.1      bsh 
    858        1.1      bsh 	/* We return the new stack pointer address */
    859        1.1      bsh 	return (kernelstack.pv_va + USPACE_SVC_STACK_TOP);
    860        1.1      bsh }
    861        1.1      bsh 
    862        1.1      bsh void
    863        1.1      bsh consinit(void)
    864        1.1      bsh {
    865        1.1      bsh 	static int consinit_done = 0;
    866       1.21      bsh 	bus_space_tag_t iot = &s3c2xx0_bs_tag;
    867       1.21      bsh 	int pclk;
    868        1.1      bsh 
    869        1.1      bsh 	if (consinit_done != 0)
    870        1.1      bsh 		return;
    871        1.1      bsh 
    872        1.1      bsh 	consinit_done = 1;
    873        1.1      bsh 
    874       1.21      bsh 	pmap_devmap_register(smdk2800_devmap);
    875       1.21      bsh 
    876       1.21      bsh 	s3c2800_clock_freq2(ioreg_vaddr(S3C2800_CLKMAN_BASE), NULL, NULL, &pclk);
    877       1.21      bsh 
    878        1.1      bsh #if NSSCOM > 0
    879        1.1      bsh #ifdef SSCOM0CONSOLE
    880        1.1      bsh 	if (0 == s3c2800_sscom_cnattach(iot, 0, comcnspeed,
    881        1.9      bsh 		pclk, comcnmode))
    882        1.1      bsh 		return;
    883        1.1      bsh #endif
    884        1.1      bsh #ifdef SSCOM1CONSOLE
    885        1.1      bsh 	if (0 == s3c2800_sscom_cnattach(iot, 1, comcnspeed,
    886        1.9      bsh 		pclk, comcnmode))
    887        1.1      bsh 		return;
    888        1.1      bsh #endif
    889        1.1      bsh #endif				/* NSSCOM */
    890        1.1      bsh #if NCOM>0 && defined(CONCOMADDR)
    891        1.1      bsh 	if (comcnattach(&isa_io_bs_tag, CONCOMADDR, comcnspeed,
    892       1.13  thorpej 		COM_FREQ, COM_TYPE_NORMAL, comcnmode))
    893        1.1      bsh 		panic("can't init serial console @%x", CONCOMADDR);
    894        1.1      bsh 	return;
    895        1.1      bsh #endif
    896        1.1      bsh 
    897        1.1      bsh 	consinit_done = 0;
    898        1.1      bsh }
    899        1.1      bsh 
    900        1.1      bsh 
    901        1.1      bsh #ifdef KGDB
    902        1.1      bsh 
    903        1.1      bsh #if (NSSCOM > 0)
    904        1.1      bsh 
    905        1.1      bsh #ifdef KGDB_DEVNAME
    906        1.1      bsh const char kgdb_devname[] = KGDB_DEVNAME;
    907        1.1      bsh #else
    908        1.1      bsh const char kgdb_devname[] = "";
    909        1.1      bsh #endif
    910        1.1      bsh 
    911        1.1      bsh #ifndef KGDB_DEVMODE
    912        1.1      bsh #define KGDB_DEVMODE ((TTYDEF_CFLAG & ~(CSIZE|CSTOPB|PARENB))|CS8) /* 8N1 */
    913        1.1      bsh #endif
    914        1.1      bsh int kgdb_sscom_mode = KGDB_DEVMODE;
    915        1.1      bsh 
    916        1.1      bsh #endif				/* NSSCOM */
    917        1.1      bsh 
    918        1.1      bsh void
    919        1.1      bsh kgdb_port_init(void)
    920        1.1      bsh {
    921        1.1      bsh #if (NSSCOM > 0)
    922        1.1      bsh 	int unit = -1;
    923       1.21      bsh 	int pclk;
    924        1.1      bsh 
    925        1.1      bsh 	if (strcmp(kgdb_devname, "sscom0") == 0)
    926        1.1      bsh 		unit = 0;
    927        1.1      bsh 	else if (strcmp(kgdb_devname, "sscom1") == 0)
    928        1.1      bsh 		unit = 1;
    929        1.1      bsh 
    930        1.1      bsh 	if (unit >= 0) {
    931       1.21      bsh 		s3c2800_clock_freq2(ioreg_vaddr(S3C2800_CLKMAN_BASE),
    932       1.21      bsh 		    NULL, NULL, &pclk);
    933       1.21      bsh 
    934       1.21      bsh 		s3c2800_sscom_kgdb_attach(&s3c2xx0_bs_tag,
    935        1.9      bsh 		    unit, kgdb_rate, pclk, kgdb_sscom_mode);
    936        1.1      bsh 	}
    937        1.1      bsh #endif
    938        1.1      bsh }
    939        1.1      bsh #endif
    940