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new sparc patch from blueswirl

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git-svn-id: svn://coreboot.org/openbios/openbios-devel@12 f158a5a8-5612-0410-a976-696ce0be7e32
This commit is contained in:
Stefan Reinauer
2006-05-06 21:33:36 +00:00
parent 5f24bb5945
commit d80454d07a
7 changed files with 312 additions and 203 deletions
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14
arch/sparc32/crs.h
View File

@@ -1,14 +0,0 @@
/*
* Parts of asm-sparc/contregs.h
*
* contregs.h: Addresses of registers in the ASI_CONTROL alternate address
* space. These are for the mmu's context register, etc.
*
* Copyright (C) 1995 David S. Miller (davem@caip.rutgers.edu)
*/
/* s=Swift, h=Ross_HyperSPARC, v=TI_Viking, t=Tsunami, r=Ross_Cypress */
#define AC_M_PCR 0x0000 /* shv Processor Control Reg */
#define AC_M_CTPR 0x0100 /* shv Context Table Pointer Reg */
#define AC_M_CXR 0x0200 /* shv Context Register */
#define AC_M_SFSR 0x0300 /* shv Synchronous Fault Status Reg */
#define AC_M_SFAR 0x0400 /* shv Synchronous Fault Address Reg */

42
arch/sparc32/entry.S
View File

@@ -9,7 +9,7 @@
#include "psr.h"
#include "asi.h"
#include "crs.h"
#include "asm/crs.h"
#define PHYS_JJ_EEPROM 0x71200000
@@ -40,13 +40,13 @@ entry:
! map PROLDATA to PROLBASE+PROLSIZE to end of ram
!set PROLSIZE+0x1000-PROLDATA+PROLBASE, %g2 ! add 0x1000 for temp tables
set _end, %g3
set _start, %g2
set 0xfff, %g2
add %g3, %g2, %g3
andn %g3, %g2, %g3
set _data, %g2
sub %g3, %g2, %g3
set 0x1000, %g4
add %g4, %g3, %g3
set _data, %g4
sub %g4, %g2, %g2
sub %g3, %g2, %g2
set 0x1000, %g4 ! add 0x1000 for page tables
add %g4, %g3, %g2
sub %g1, %g2, %g2 ! start of private memory
srl %g2, 0x4, %g7 ! ctx table at s+0x0
add %g2, 0x400, %g3 ! l1 table at s+0x400
@@ -54,7 +54,7 @@ entry:
or %g3, 0x1, %g3
sta %g3, [%g2] ASI_M_BYPASS
add %g2, 0x400, %g2 ! s+0x400
add %g2, 0x800, %g3 ! l2 table for ram (00xxxxxx) at s+0x800
add %g2, 0x400, %g3 ! l2 table for ram (00xxxxxx) at s+0x800
srl %g3, 0x4, %g3
or %g3, 0x1, %g3
sta %g3, [%g2] ASI_M_BYPASS
@@ -64,10 +64,16 @@ entry:
or %g3, 0x1, %g3
sta %g3, [%g2] ASI_M_BYPASS
add %g2, 0x4, %g2 ! s+0x800
set 0x40, %g6
set ((7 << 2) | 2), %g3 ! 7 = U: --- S: RWX (main memory)
sta %g3, [%g2] ASI_M_BYPASS
add %g2, 0xa00 - 0x800, %g3 ! l3 table for rom at s+0xa00
add %g2, 0x1d0, %g2 ! s+0x9d0
1: sta %g3, [%g2] ASI_M_BYPASS
add %g2, 4, %g2
deccc %g6
bne 1b
nop
! s+0x900
add %g2, 0xa00 - 0x900, %g3 ! l3 table for rom at s+0xa00
add %g2, 0x0d0, %g2 ! s+0x9d0
srl %g3, 0x4, %g3
or %g3, 0x1, %g3
sta %g3, [%g2] ASI_M_BYPASS
@@ -86,7 +92,12 @@ entry:
srl %g3, 0x4, %g3
or %g3, 0x1, %g3
sta %g3, [%g2] ASI_M_BYPASS
add %g2, 0xa00-0x9dc, %g2 ! s+0xa00
add %g2, 4, %g2 ! s+0x9e0
add %g2, 0xd00 - 0x9e0, %g3 ! 5th l3 table for rom at s+0xe00
srl %g3, 0x4, %g3
or %g3, 0x1, %g3
sta %g3, [%g2] ASI_M_BYPASS
add %g2, 0xa00-0x9e0, %g2 ! s+0xa00
!set (PROLDATA-PROLBASE)/0x1000, %g6 ! # of .text pages
set _start, %g3
@@ -192,6 +203,13 @@ entry:
set qemu_mem_size, %g1
st %g3, [%g1]
sll %g7, 4, %g7 ! Store va->pa conversion factor
set _data - 0x1000, %g1
sub %g1, %g7, %g7
set va_shift, %g1
st %g7, [%g1]
/* Finally, turn on traps so that we can call c-code. */
rd %psr, %g3
wr %g3, 0x0, %psr

8
arch/sparc32/ldscript
View File

@@ -10,6 +10,8 @@ BASE_ADDR = 0xffd00000;
/* 16KB heap and stack */
HEAP_SIZE = 16384;
STACK_SIZE = 16384;
VMEM_SIZE = 128 * 1024;
IOMEM_SIZE = 128 * 1024;
SECTIONS
{
@@ -55,6 +57,11 @@ SECTIONS
. = ALIGN(16);
_eheap = .;
. = ALIGN(4096);
_vmem = .;
. += VMEM_SIZE;
_evmem = .;
_stack = .;
. += STACK_SIZE;
. = ALIGN(16);
@@ -72,6 +79,7 @@ SECTIONS
. = ALIGN(4096);
_end = .;
_iomem = _end + IOMEM_SIZE;
/DISCARD/ : { *(.comment.*) *(.note.*) }
}

7
arch/sparc32/openbios.c
View File

@@ -42,6 +42,8 @@ void exception(cell no)
*/
}
void init_mmu_swift(void);
static void
arch_init( void )
{
@@ -49,6 +51,8 @@ arch_init( void )
modules_init();
#ifdef CONFIG_DRIVER_SBUS
init_mmu_swift();
ob_sbus_init();
#endif
#ifdef CONFIG_DRIVER_ESP
@@ -73,7 +77,8 @@ int openbios(void)
dict=intdict;
load_dictionary((char *)sys_info.dict_start,
sys_info.dict_end-sys_info.dict_start);
(unsigned long)sys_info.dict_end
- (unsigned long)sys_info.dict_start);
#ifdef CONFIG_DEBUG_CONSOLE_VIDEO
video_init();

7
drivers/build.xml
View File

@@ -6,9 +6,10 @@
<object source="timer.c" condition="DRIVER_IDE"/>
<object source="kbd.c" condition="DRIVER_ADB"/>
<object source="adb.c" condition="DRIVER_ADB"/>
<object source="cuda.c" condition="DRIVER_ADB"/>
<object source="floppy.c" condition="DRIVER_FLOPPY"/>
<object source="sbus.c" condition="DRIVER_SBUS"/>
<object source="cuda.c" condition="DRIVER_ADB"/>
<object source="floppy.c" condition="DRIVER_FLOPPY"/>
<object source="iommu.c" condition="DRIVER_SBUS"/>
<object source="sbus.c" condition="DRIVER_SBUS"/>
<object source="esp.c" condition="DRIVER_ESP"/>
</library>

434
drivers/esp.c
View File

@@ -20,10 +20,13 @@
#include "libc/vsprintf.h"
#include "openbios/drivers.h"
#include "scsi.h"
#include "asm/dma.h"
#include "esp.h"
#define PHYS_JJ_ESPDMA 0x78400000 /* ESP DMA controller */
#define PHYS_JJ_ESP 0x78800000 /* ESP SCSI */
#define BUFSIZE 4096
#define REGISTER_NAMED_NODE( name, path ) do { \
bind_new_node( name##_flags_, name##_size_, \
@@ -39,173 +42,211 @@
} while(0)
struct esp_dma {
struct sparc_dma_registers *regs;
volatile struct sparc_dma_registers *regs;
enum dvma_rev revision;
};
typedef struct sd_private {
unsigned int id;
unsigned int hw_sector;
unsigned int bs;
char *media_str;
uint32_t sectors;
uint8_t media;
uint8_t id;
uint8_t present;
char model[40];
} sd_private_t;
struct esp_regs {
unsigned int regs[16];
unsigned char regs[ESP_REG_SIZE];
};
typedef struct esp_private {
volatile struct esp_regs *ll;
__u32 buffer_dvma;
uint32_t buffer_dvma;
unsigned int irq; /* device IRQ number */
struct esp_dma *espdma; /* If set this points to espdma */
struct esp_dma espdma;
unsigned char *buffer;
sd_private_t sd[8];
} esp_private_t;
esp_private_t *global_esp;
/* DECLARE data structures for the nodes. */
DECLARE_UNNAMED_NODE(ob_sd, INSTALL_OPEN, sizeof(sd_private_t));
DECLARE_UNNAMED_NODE(ob_esp, INSTALL_OPEN, sizeof(esp_private_t));
DECLARE_UNNAMED_NODE(ob_sd, INSTALL_OPEN, sizeof(sd_private_t *));
DECLARE_UNNAMED_NODE(ob_esp, INSTALL_OPEN, sizeof(esp_private_t *));
static void dump_drive(sd_private_t *drive)
{
#ifdef CONFIG_DEBUG_ESP
printk("SCSI DRIVE @%lx:\n", (unsigned long)drive);
printk("id: %d\n", drive->id);
printk("media: %s\n", drive->media_str);
printk("model: %s\n", drive->model);
printk("sectors: %d\n", drive->sectors);
printk("present: %d\n", drive->present);
printk("bs: %d\n", drive->bs);
#endif
}
static int
do_command(esp_private_t *esp, sd_private_t *sd, int cmdlen, int replylen)
{
int status;
// Set SCSI target
esp->ll->regs[ESP_BUSID] = sd->id & 7;
// Set DMA address
esp->espdma.regs->st_addr = esp->buffer_dvma;
// Set DMA length
esp->ll->regs[ESP_TCLOW] = cmdlen & 0xff;
esp->ll->regs[ESP_TCMED] = (cmdlen >> 8) & 0xff;
// Set DMA direction
esp->espdma.regs->cond_reg = 0;
// Set ATN, issue command
esp->ll->regs[ESP_CMD] = ESP_CMD_SELA | ESP_CMD_DMA;
// Check status
status = esp->ll->regs[ESP_STATUS];
if ((status & ESP_STAT_TCNT) != ESP_STAT_TCNT)
return status;
// Get reply
// Set DMA address
esp->espdma.regs->st_addr = esp->buffer_dvma;
// Set DMA length
esp->ll->regs[ESP_TCLOW] = replylen & 0xff;
esp->ll->regs[ESP_TCMED] = (replylen >> 8) & 0xff;
// Set DMA direction
esp->espdma.regs->cond_reg = DMA_ST_WRITE;
// Transfer
esp->ll->regs[ESP_CMD] = ESP_CMD_TI | ESP_CMD_DMA;
// Check status
status = esp->ll->regs[ESP_STATUS];
if ((status & ESP_STAT_TCNT) != ESP_STAT_TCNT)
return status;
else
return 0; // OK
}
// offset is multiple of 512, len in bytes
static int
ob_sd_read_sectors(sd_private_t *sd, int offset, void *dest, short len)
ob_sd_read_sectors(esp_private_t *esp, sd_private_t *sd, int offset, void *dest, short len)
{
#if 0
unsigned char *buffer = malloc(2048); // XXX setup dvma
// Set SCSI target
outb(PHYS_JJ_ESP + 4*4, sd->id & 7);
// Set DMA address
outl(PHYS_JJ_ESPDMA + 4, buffer);
// Set DMA length
outb(PHYS_JJ_ESP + 0*4, 10);
outb(PHYS_JJ_ESP + 1*4, 0);
// Set DMA direction
outl(PHYS_JJ_ESPDMA + 0, 0x000);
// Setup command = Read(10)
buffer[0] = 0x80;
buffer[1] = 0x28;
buffer[2] = 0x00;
buffer[3] = (offset >> 24) & 0xff;
buffer[4] = (offset >> 16) & 0xff;
buffer[5] = (offset >> 8) & 0xff;
buffer[6] = offset & 0xff;
buffer[7] = 0x00;
buffer[8] = ((len / 512) >> 8) & 0xff;
buffer[9] = (len / 512) & 0xff;
// Set ATN, issue command
outb(PHYS_JJ_ESP + 3*4, 0xc2);
memset(esp->buffer, 0, 10);
esp->buffer[0] = 0x80;
esp->buffer[1] = READ_10;
// Set DMA length
outb(PHYS_JJ_ESP + 0*4, len & 0xff);
outb(PHYS_JJ_ESP + 1*4, (len >> 8) & 0xff);
// Set DMA direction
outl(PHYS_JJ_ESPDMA + 0, 0x100);
// Transfer
outb(PHYS_JJ_ESP + 3*4, 0x90);
memcpy(buffer, dest, len);
free(buffer);
#endif
return 0 * sd->id * offset * len * (int)dest;
esp->buffer[3] = (offset >> 24) & 0xff;
esp->buffer[4] = (offset >> 16) & 0xff;
esp->buffer[5] = (offset >> 8) & 0xff;
esp->buffer[6] = offset & 0xff;
esp->buffer[8] = (len >> 8) & 0xff;
esp->buffer[9] = len & 0xff;
if (do_command(esp, sd, 10, len * 512))
return 0;
memcpy(esp->buffer, dest, len * 512);
return 0;
}
static void
ob_sd_read_blocks(sd_private_t *sd)
static unsigned int
read_capacity(esp_private_t *esp, sd_private_t *sd)
{
cell n = POP(), cnt=n;
// Setup command = Read Capacity
memset(esp->buffer, 0, 11);
esp->buffer[0] = 0x80;
esp->buffer[1] = READ_CAPACITY;
if (do_command(esp, sd, 11, 8)) {
sd->sectors = 0;
sd->bs = 0;
return 0;
}
sd->sectors = (esp->buffer[0] << 24) | (esp->buffer[1] << 16) | (esp->buffer[2] << 8) | esp->buffer[3];
sd->bs = (esp->buffer[4] << 24) | (esp->buffer[5] << 16) | (esp->buffer[6] << 8) | esp->buffer[7];
return 1;
}
static unsigned int
inquiry(esp_private_t *esp, sd_private_t *sd)
{
char *media = "UNKNOWN";
// Setup command = Inquiry
memset(esp->buffer, 0, 7);
esp->buffer[0] = 0x80;
esp->buffer[1] = INQUIRY;
esp->buffer[4] = BUFSIZE & 0xff;
esp->buffer[5] = (BUFSIZE >> 8) & 0xff;
if (do_command(esp, sd, 7, 36)) {
sd->present = 0;
sd->media = -1;
return 0;
}
sd->present = 1;
sd->media = esp->buffer[0];
switch (sd->media) {
case TYPE_DISK:
media = "disk";
break;
case TYPE_ROM:
media = "cdrom";
break;
}
sd->media_str = media;
memcpy(sd->model, &esp->buffer[16], 16);
sd->model[17] = '\0';
return 1;
}
static void
ob_sd_read_blocks(sd_private_t **sd)
{
cell n = POP();
ucell blk = POP();
char *dest = (char*)POP();
#ifdef CONFIG_DEBUG_ESP
printk("ob_sd_read_blocks %lx block=%d n=%d\n", (unsigned long)dest, blk, n );
printk("ob_sd_read_blocks id %d %lx block=%d n=%d\n", (*sd)->id, (unsigned long)dest, blk, n );
#endif
while (n) {
int len = n;
if (ob_sd_read_sectors(sd, blk, dest, len)) {
printk("ob_ide_read_blocks: error\n");
RET(0);
}
dest += len * sd->hw_sector;
n -= len;
blk += len;
if (ob_sd_read_sectors(global_esp, *sd, blk, dest, n)) {
printk("ob_ide_read_blocks: error\n");
RET(0);
}
PUSH(cnt);
PUSH(n);
}
static void
ob_sd_block_size(sd_private_t *sd)
ob_sd_block_size(sd_private_t **sd)
{
PUSH(sd->hw_sector);
}
static unsigned int
get_block_size(sd_private_t *sd)
{
#if 1
return 512 + sd->id * 0; // XXX
#else
unsigned char *buffer = malloc(64); // XXX setup dvma
unsigned int ret;
// Set SCSI target
outb(PHYS_JJ_ESP + 4*4, sd->id & 7);
// Set DMA address
outl(PHYS_JJ_ESPDMA + 4, buffer);
// Set DMA length
outb(PHYS_JJ_ESP + 0*4, 10);
outb(PHYS_JJ_ESP + 1*4, 0);
// Set DMA direction
outl(PHYS_JJ_ESPDMA + 0, 0x000);
// Setup command = Read Capacity
buffer[0] = 0x80;
buffer[1] = 0x25;
buffer[2] = 0x00;
buffer[3] = 0x00;
buffer[4] = 0x00;
buffer[5] = 0x00;
buffer[6] = 0x00;
buffer[7] = 0x00;
buffer[8] = 0x00;
buffer[9] = 0x00;
buffer[10] = 0x00;
// Set ATN, issue command
outb(PHYS_JJ_ESP + 3*4, 0xc2);
// Set DMA length
outb(PHYS_JJ_ESP + 0*4, 0);
outb(PHYS_JJ_ESP + 1*4, 8 & 0xff);
// Set DMA direction
outl(PHYS_JJ_ESPDMA + 0, 0x100);
// Transfer
outb(PHYS_JJ_ESP + 3*4, 0x90);
ret = (buffer[4] << 24) | (buffer[5] << 16) | (buffer[6] << 8) | buffer[7];
free(buffer);
return ret;
#endif
PUSH((*sd)->bs);
}
static void
ob_sd_open(sd_private_t *sd)
ob_sd_open(__attribute__((unused))sd_private_t **sd)
{
int ret=1;
int ret = 1, id;
phandle_t ph;
fword("my-unit");
sd->id = POP();
sd->hw_sector = get_block_size(sd);
id = POP();
*sd = &global_esp->sd[id];
#ifdef CONFIG_DEBUG_ESP
printk("opening drive %d\n", sd->id);
printk("opening drive %d\n", id);
#endif
#if 0
dump_drive(drive);
if (drive->type != esp_type_ata)
ret= !ob_esp_atapi_drive_ready(drive);
#endif
selfword("open-deblocker");
/* interpose disk-label */
@@ -218,7 +259,7 @@ ob_sd_open(sd_private_t *sd)
}
static void
ob_sd_close(__attribute__((unused)) sd_private_t *sd)
ob_sd_close(__attribute__((unused)) sd_private_t **sd)
{
selfword("close-deblocker");
}
@@ -230,10 +271,61 @@ NODE_METHODS(ob_sd) = {
{ "block-size", ob_sd_block_size },
};
static void
ob_esp_initialize(esp_private_t *esp)
static int
espdma_init(struct esp_dma *espdma)
{
phandle_t ph=get_cur_dev();
void *p;
/* Hardcode everything for MrCoffee. */
if ((p = (void *)map_io(PHYS_JJ_ESPDMA, 0x10)) == 0) {
printk("espdma_init: cannot map registers\n");
return -1;
}
espdma->regs = p;
printk("dma1: ");
switch ((espdma->regs->cond_reg) & DMA_DEVICE_ID) {
case DMA_VERS0:
espdma->revision = dvmarev0;
printk("Revision 0 ");
break;
case DMA_ESCV1:
espdma->revision = dvmaesc1;
printk("ESC Revision 1 ");
break;
case DMA_VERS1:
espdma->revision = dvmarev1;
printk("Revision 1 ");
break;
case DMA_VERS2:
espdma->revision = dvmarev2;
printk("Revision 2 ");
break;
case DMA_VERHME:
espdma->revision = dvmahme;
printk("HME DVMA gate array ");
break;
case DMA_VERSPLUS:
espdma->revision = dvmarevplus;
printk("Revision 1 PLUS ");
break;
default:
printk("unknown dma version %x",
(espdma->regs->cond_reg) & DMA_DEVICE_ID);
/* espdma->allocated = 1; */
break;
}
printk("\n");
return 0;
}
static void
ob_esp_initialize(__attribute__((unused)) esp_private_t **esp)
{
phandle_t ph = get_cur_dev();
set_int_property(ph, "#address-cells", 2);
set_int_property(ph, "#size-cells", 0);
@@ -253,31 +345,17 @@ ob_esp_initialize(esp_private_t *esp)
fword("encode+");
push_str("reg");
fword("property");
#if 1
esp->ll = (void *)PHYS_JJ_ESP;
esp->buffer = (void *)0x100000; // XXX
#else
/* Get the IO region */
esp->ll = map_io(PHYS_JJ_ESP, sizeof (struct esp_regs));
if (esp->ll == 0)
return -1;
esp->buffer = dvma_alloc(BUFSIZE, &esp->buffer_dvma);
esp->espdma = espdma;
#endif
// Chip reset
outb((int)esp->ll + 3*2, 2);
}
static void
ob_esp_decodeunit(__attribute__((unused)) esp_private_t * esp)
ob_esp_decodeunit(__attribute__((unused)) esp_private_t **esp)
{
fword("decode-unit-scsi");
}
static void
ob_esp_encodeunit(__attribute__((unused)) esp_private_t * esp)
ob_esp_encodeunit(__attribute__((unused)) esp_private_t **esp)
{
fword("encode-unit-scsi");
}
@@ -288,24 +366,6 @@ NODE_METHODS(ob_esp) = {
{ "encode-unit", ob_esp_encodeunit },
};
static int
drive_present(int drive)
{
// XXX
if (drive == 0 || drive == 2)
return 1;
return 0;
}
static int
drive_cdrom(int drive)
{
// XXX
if (drive == 2)
return 1;
return 0;
}
static void
add_alias(const unsigned char *device, const unsigned char *alias)
{
@@ -322,20 +382,56 @@ int ob_esp_init(void)
{
int id, diskcount = 0, cdcount = 0, *counter_ptr;
char nodebuff[256], aliasbuff[256];
const char *type;
esp_private_t *esp;
#ifdef CONFIG_DEBUG_ESP
printk("Initializing SCSI...");
#endif
sprintf(nodebuff, "/iommu/sbus/espdma/esp");
REGISTER_NAMED_NODE(ob_esp, nodebuff);
device_end();
esp = malloc(sizeof(esp_private_t));
global_esp = esp;
if (espdma_init(&esp->espdma) != 0) {
return -1;
}
/* Get the IO region */
esp->ll = (void *)map_io(PHYS_JJ_ESP, sizeof(struct esp_regs));
if (esp->ll == 0) {
printk("Can't map ESP registers\n");
return -1;
}
esp->buffer = (void *)dvma_alloc(BUFSIZE, &esp->buffer_dvma);
if (!esp->buffer || !esp->buffer_dvma) {
printk("Can't get a DVMA buffer\n");
return -1;
}
// Chip reset
esp->ll->regs[ESP_CMD] = ESP_CMD_RC;
#ifdef CONFIG_DEBUG_ESP
printk("done\n");
printk("Initializing SCSI devices...");
#endif
for (id = 0; id < 8; id++) {
if (!drive_present(id))
esp->sd[id].id = id;
if (!inquiry(esp, &esp->sd[id]))
continue;
read_capacity(esp, &esp->sd[id]);
#ifdef CONFIG_DEBUG_ESP
dump_drive(&esp->sd[id]);
#endif
}
sprintf(nodebuff, "/iommu/sbus/espdma/esp");
REGISTER_NAMED_NODE(ob_esp, nodebuff);
device_end();
for (id = 0; id < 8; id++) {
if (!esp->sd[id].present)
continue;
push_str("/iommu/sbus/espdma/esp");
fword("find-device");
@@ -355,17 +451,15 @@ int ob_esp_init(void)
fword("finish-device");
sprintf(nodebuff, "/iommu/sbus/espdma/esp/sd@%d,0", id);
REGISTER_NODE_METHODS(ob_sd, nodebuff);
if (drive_cdrom(id)) {
type = "cdrom";
if (esp->sd[id].media == TYPE_ROM) {
counter_ptr = &cdcount;
} else {
type = "disk";
counter_ptr = &diskcount;
}
if (*counter_ptr == 0) {
add_alias(nodebuff, type);
add_alias(nodebuff, esp->sd[id].media_str);
}
sprintf(aliasbuff, "%s%d", type, *counter_ptr);
sprintf(aliasbuff, "%s%d", esp->sd[id].media_str, *counter_ptr);
(*counter_ptr)++;
add_alias(nodebuff, aliasbuff);
}

3
kernel/dict.c
View File

@@ -144,10 +144,7 @@ ucell load_dictionary(const char *data, ucell len)
if(checksum) {
printk("Checksum invalid (%08x)!\n", checksum);
#ifndef __sparc__ // XXX hack
#warning FIXME: checksum calculation does not seem to work on SPARC32
return 0;
#endif
}
data += sizeof(dictionary_header_t);