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/* sbus.c: SBus support routines.
*
* Copyright (C) 1995 David S. Miller (davem@caip.rutgers.edu)
*/
#include <linux/kernel.h>
#include <linux/malloc.h>
#include <linux/config.h>
#include <linux/init.h>
#include <asm/system.h>
#include <asm/sbus.h>
#include <asm/dma.h>
#include <asm/oplib.h>
#include <asm/bpp.h>
/* This file has been written to be more dynamic and a bit cleaner,
* but it still needs some spring cleaning.
*/
struct linux_sbus *SBus_chain;
static char lbuf[128];
extern void prom_sbus_ranges_init (int, struct linux_sbus *);
/* Perhaps when I figure out more about the iommu we'll put a
* device registration routine here that probe_sbus() calls to
* setup the iommu for each Sbus.
*/
/* We call this for each SBus device, and fill the structure based
* upon the prom device tree. We return the start of memory after
* the things we have allocated.
*/
/* #define DEBUG_FILL */
__initfunc(static void
fill_sbus_device(int nd, struct linux_sbus_device *sbus_dev))
{
int grrr, len;
unsigned long dev_base_addr, base;
sbus_dev->prom_node = nd;
prom_getstring(nd, "name", lbuf, sizeof(lbuf));
strcpy(sbus_dev->prom_name, lbuf);
dev_base_addr = prom_getint(nd, "address");
if(dev_base_addr != -1)
sbus_dev->sbus_addr = dev_base_addr;
len = prom_getproperty(nd, "reg", (void *) sbus_dev->reg_addrs,
sizeof(sbus_dev->reg_addrs));
if(len == -1)
goto no_regs;
if(len%sizeof(struct linux_prom_registers)) {
prom_printf("WHOOPS: proplen for %s was %d, need multiple of %d\n",
sbus_dev->prom_name, len,
(int) sizeof(struct linux_prom_registers));
panic("fill_sbus_device");
}
sbus_dev->num_registers = (len/sizeof(struct linux_prom_registers));
sbus_dev->ranges_applied = 0;
base = (unsigned long) sbus_dev->reg_addrs[0].phys_addr;
if(base>=SUN_SBUS_BVADDR ||
sparc_cpu_model == sun4m ||
sparc_cpu_model == sun4u) {
/* Ahh, we can determine the slot and offset */
if(sparc_cpu_model == sun4u) {
/* A bit tricky on the SYSIO. */
sbus_dev->slot = sbus_dev->reg_addrs[0].which_io;
sbus_dev->offset = sbus_dev_offset(base);
} else {
sbus_dev->slot = sbus_dev_slot(base);
sbus_dev->offset = sbus_dev_offset(base);
}
} else { /* Grrr, gotta do calculations to fix things up */
sbus_dev->slot = sbus_dev->reg_addrs[0].which_io;
sbus_dev->offset = base;
sbus_dev->reg_addrs[0].phys_addr =
sbus_devaddr(sbus_dev->slot, base);
for(grrr=1; grrr<sbus_dev->num_registers; grrr++) {
base = (unsigned long) sbus_dev->reg_addrs[grrr].phys_addr;
sbus_dev->reg_addrs[grrr].phys_addr =
sbus_devaddr(sbus_dev->slot, base);
}
/* That surely sucked */
}
sbus_dev->sbus_addr = (unsigned long) sbus_dev->reg_addrs[0].phys_addr;
if(len>(sizeof(struct linux_prom_registers)*PROMREG_MAX)) {
prom_printf("WHOOPS: I got too many register addresses for %s len=%d\n",
sbus_dev->prom_name, len);
panic("sbus device register overflow");
}
no_regs:
len = prom_getproperty(nd, "address", (void *) sbus_dev->sbus_vaddrs,
sizeof(sbus_dev->sbus_vaddrs));
if(len == -1) len=0;
if(len&3) {
prom_printf("Grrr, I didn't get a multiple of 4 proplen "
"for device %s got %d\n", sbus_dev->prom_name, len);
len=0;
}
sbus_dev->num_vaddrs = (len/4);
if(sparc_cpu_model == sun4u) {
len = prom_getproperty(nd, "interrupts", (void *)&sbus_dev->irqs[0].pri,
sizeof(sbus_dev->irqs[0].pri));
if((len == -1) || (len == 0)) {
sbus_dev->irqs[0].pri = 0;
sbus_dev->num_irqs = 0;
} else {
sbus_dev->num_irqs = 1;
if(sbus_dev->irqs[0].pri < 0x20) {
int old_irq = sbus_dev->irqs[0].pri;
/* Need to do special SLOT fixups in this case. */
#if 0 /* DEBUGGING */
printk("SBUS[%x:%lx]: INO fixup from [%x] to [%x]\n",
sbus_dev->slot, sbus_dev->offset,
old_irq, old_irq + (sbus_dev->slot * 8));
#endif
sbus_dev->irqs[0].pri =
(old_irq + (sbus_dev->slot * 8));
}
}
} else {
len = prom_getproperty(nd, "intr", (void *)sbus_dev->irqs,
sizeof(sbus_dev->irqs));
if (len == -1) len=0;
if (len&7) {
prom_printf("Grrr, I didn't get a multiple of 8 proplen for "
"device %s got %d\n", sbus_dev->prom_name, len);
len=0;
}
sbus_dev->num_irqs=(len/8);
if(sbus_dev->num_irqs == 0)
sbus_dev->irqs[0].pri=0;
}
#ifdef DEBUG_FILL
#ifdef __sparc_v9__
prom_printf("Found %s at SBUS slot %x offset %016lx irq-level %d\n",
sbus_dev->prom_name, sbus_dev->slot, sbus_dev->offset,
sbus_dev->irqs[0].pri);
prom_printf("Base address %016lx\n", sbus_dev->sbus_addr);
#else
prom_printf("Found %s at SBUS slot %x offset %08lx irq-level %d\n",
sbus_dev->prom_name, sbus_dev->slot, sbus_dev->offset,
sbus_dev->irqs[0].pri);
prom_printf("Base address %08lx\n", sbus_dev->sbus_addr);
#endif
prom_printf("REGISTERS: Probed %d register(s)\n", sbus_dev->num_registers);
for(len=0; len<sbus_dev->num_registers; len++)
#ifdef __sparc_v9__
prom_printf("Regs<%d> at address<%08lx> IO-space<%d> size<%d "
"bytes, %d words>\n", (int) len,
(unsigned long) sbus_dev->reg_addrs[len].phys_addr,
sbus_dev->reg_addrs[len].which_io,
sbus_dev->reg_addrs[len].reg_size,
(sbus_dev->reg_addrs[len].reg_size/4));
#else
prom_printf("Regs<%d> at address<%016lx> IO-space<%d> size<%d "
"bytes, %d words>\n", (int) len,
(unsigned long) sbus_dev->reg_addrs[len].phys_addr,
sbus_dev->reg_addrs[len].which_io,
sbus_dev->reg_addrs[len].reg_size,
(sbus_dev->reg_addrs[len].reg_size/4));
#endif
#endif
}
/* This routine gets called from whoever needs the sbus first, to scan
* the SBus device tree. Currently it just prints out the devices
* found on the bus and builds trees of SBUS structs and attached
* devices.
*/
extern unsigned long sun_console_init(unsigned long);
extern unsigned long iommu_init(int iommu_node, unsigned long memstart,
unsigned long memend, struct linux_sbus *sbus);
extern void iommu_sun4d_init(int sbi_node, struct linux_sbus *sbus);
#ifdef CONFIG_SUN_OPENPROMIO
extern int openprom_init(void);
#endif
#ifdef CONFIG_SUN_MOSTEK_RTC
extern int rtc_init(void);
#endif
#ifdef CONFIG_SPARCAUDIO
extern int sparcaudio_init(void);
#endif
#ifdef CONFIG_SUN_AUXIO
extern void auxio_probe(void);
#endif
__initfunc(static unsigned long
sbus_do_child_siblings(unsigned long memory_start, int start_node,
struct linux_sbus_device *child,
struct linux_sbus *sbus))
{
struct linux_sbus_device *this_dev = child;
int this_node = start_node;
/* Child already filled in, just need to traverse siblings. */
child->child = 0;
while((this_node = prom_getsibling(this_node)) != 0) {
this_dev->next = (struct linux_sbus_device *) memory_start;
memory_start += sizeof(struct linux_sbus_device);
this_dev = this_dev->next;
this_dev->next = 0;
fill_sbus_device(this_node, this_dev);
this_dev->my_bus = sbus;
if(prom_getchild(this_node)) {
this_dev->child = (struct linux_sbus_device *) memory_start;
memory_start += sizeof(struct linux_sbus_device);
fill_sbus_device(prom_getchild(this_node), this_dev->child);
this_dev->child->my_bus = sbus;
memory_start = sbus_do_child_siblings(memory_start,
prom_getchild(this_node),
this_dev->child,
sbus);
} else {
this_dev->child = 0;
}
}
return memory_start;
}
/* #define E3000_DEBUG */
__initfunc(unsigned long
sbus_init(unsigned long memory_start, unsigned long memory_end))
{
register int nd, this_sbus, sbus_devs, topnd, iommund;
unsigned int sbus_clock;
struct linux_sbus *sbus;
struct linux_sbus_device *this_dev;
int num_sbus = 0; /* How many did we find? */
#ifdef E3000_DEBUG
prom_printf("sbus_init: Radek, record following output for me. -DaveM\n");
#endif
memory_start = ((memory_start + 7) & (~7));
topnd = prom_getchild(prom_root_node);
/* Finding the first sbus is a special case... */
iommund = 0;
if(sparc_cpu_model == sun4u) {
nd = prom_searchsiblings(topnd, "sbus");
if(nd == 0) {
#ifdef CONFIG_PCI
printk("SBUS: No SBUS's found.\n");
return sun_console_init(memory_start);
#else
prom_printf("YEEE, UltraSparc sbus not found\n");
prom_halt();
#endif
}
} else if(sparc_cpu_model == sun4d) {
if((iommund = prom_searchsiblings(topnd, "io-unit")) == 0 ||
(nd = prom_getchild(iommund)) == 0 ||
(nd = prom_searchsiblings(nd, "sbi")) == 0) {
panic("sbi not found");
}
} else if((nd = prom_searchsiblings(topnd, "sbus")) == 0) {
if((iommund = prom_searchsiblings(topnd, "iommu")) == 0 ||
(nd = prom_getchild(iommund)) == 0 ||
(nd = prom_searchsiblings(nd, "sbus")) == 0) {
/* No reason to run further - the data access trap will occur. */
panic("sbus not found");
}
}
#ifdef E3000_DEBUG
prom_printf("sbus_init: 1st sbus node(%x)\n", nd);
#endif
/* Ok, we've found the first one, allocate first SBus struct
* and place in chain.
*/
sbus = SBus_chain = (struct linux_sbus *) memory_start;
memory_start += sizeof(struct linux_sbus);
sbus->next = 0;
this_sbus=nd;
if(sparc_cpu_model != sun4u)
/* Have IOMMU will travel.
*
* XXX This should be per sbus on sun4d...
*/
if(iommund) {
if (sparc_cpu_model == sun4d)
iommu_sun4d_init(this_sbus, sbus);
else
memory_start = iommu_init(iommund,
memory_start, memory_end,
sbus);
}
/* Loop until we find no more SBUS's */
while(this_sbus) {
/* IOMMU hides inside SBUS/SYSIO prom node on Ultra. */
#ifdef E3000_DEBUG
prom_printf("sbus%d: [ii()", num_sbus);
#endif
if(sparc_cpu_model == sun4u)
memory_start = iommu_init(this_sbus,
memory_start, memory_end,
sbus);
#ifdef E3000_DEBUG
prom_printf("1");
#endif
printk("sbus%d: ", num_sbus);
sbus_clock = prom_getint(this_sbus, "clock-frequency");
if(sbus_clock==-1) sbus_clock = (25*1000*1000);
printk("Clock %d.%d MHz\n", (int) ((sbus_clock/1000)/1000),
(int) (((sbus_clock/1000)%1000 != 0) ?
(((sbus_clock/1000)%1000) + 1000) : 0));
prom_getstring(this_sbus, "name", lbuf, sizeof(lbuf));
sbus->prom_node = this_sbus;
strcpy(sbus->prom_name, lbuf);
sbus->clock_freq = sbus_clock;
#ifdef E3000_DEBUG
prom_printf("psri()");
#endif
prom_sbus_ranges_init (iommund, sbus);
sbus_devs = prom_getchild(this_sbus);
#ifdef E3000_DEBUG
prom_printf("chld(%x)", sbus_devs);
#endif
sbus->devices = (struct linux_sbus_device *) memory_start;
memory_start += sizeof(struct linux_sbus_device);
this_dev = sbus->devices;
this_dev->next = 0;
#ifdef E3000_DEBUG
prom_printf("fsd()");
#endif
fill_sbus_device(sbus_devs, this_dev);
this_dev->my_bus = sbus;
/* Should we traverse for children? */
if(prom_getchild(sbus_devs)) {
/* Allocate device node */
this_dev->child = (struct linux_sbus_device *) memory_start;
memory_start += sizeof(struct linux_sbus_device);
/* Fill it */
#ifdef E3000_DEBUG
prom_printf("fsd(chld)");
#endif
fill_sbus_device(prom_getchild(sbus_devs), this_dev->child);
this_dev->child->my_bus = sbus;
#ifdef E3000_DEBUG
prom_printf("sdcs()");
#endif
memory_start = sbus_do_child_siblings(memory_start,
prom_getchild(sbus_devs),
this_dev->child,
sbus);
} else {
this_dev->child = 0;
}
#ifdef E3000_DEBUG
prom_printf("2");
#endif
while((sbus_devs = prom_getsibling(sbus_devs)) != 0) {
/* Allocate device node */
this_dev->next = (struct linux_sbus_device *) memory_start;
memory_start += sizeof(struct linux_sbus_device);
this_dev=this_dev->next;
this_dev->next=0;
/* Fill it */
#ifdef E3000_DEBUG
prom_printf("fsd()");
#endif
fill_sbus_device(sbus_devs, this_dev);
this_dev->my_bus = sbus;
/* Is there a child node hanging off of us? */
if(prom_getchild(sbus_devs)) {
/* Get new device struct */
this_dev->child =
(struct linux_sbus_device *) memory_start;
memory_start += sizeof(struct linux_sbus_device);
/* Fill it */
#ifdef E3000_DEBUG
prom_printf("fsd()");
#endif
fill_sbus_device(prom_getchild(sbus_devs),
this_dev->child);
this_dev->child->my_bus = sbus;
#ifdef E3000_DEBUG
prom_printf("sdcs()");
#endif
memory_start = sbus_do_child_siblings(
memory_start,
prom_getchild(sbus_devs),
this_dev->child,
sbus);
} else {
this_dev->child = 0;
}
}
#ifdef E3000_DEBUG
prom_printf("di()");
#endif
memory_start = dvma_init(sbus, memory_start);
num_sbus++;
#ifdef E3000_DEBUG
prom_printf("3, off to next sbus\n");
#endif
if(sparc_cpu_model == sun4u) {
this_sbus = prom_getsibling(this_sbus);
#ifdef E3000_DEBUG
prom_printf("sbus_init: sibling(%x), ", this_sbus);
#endif
if(!this_sbus)
break;
this_sbus = prom_searchsiblings(this_sbus, "sbus");
#ifdef E3000_DEBUG
prom_printf("next sbus node(%x),", this_sbus);
#endif
} else if(sparc_cpu_model == sun4d) {
iommund = prom_getsibling(iommund);
if(!iommund) break;
iommund = prom_searchsiblings(iommund, "io-unit");
if(!iommund) break;
this_sbus = prom_searchsiblings(prom_getchild(iommund), "sbi");
} else {
this_sbus = prom_getsibling(this_sbus);
if(!this_sbus) break;
this_sbus = prom_searchsiblings(this_sbus, "sbus");
}
if(this_sbus) {
#ifdef E3000_DEBUG
prom_printf(" scanning another sbus\n");
#endif
sbus->next = (struct linux_sbus *) memory_start;
memory_start += sizeof(struct linux_sbus);
sbus = sbus->next;
sbus->next = 0;
} else {
break;
}
} /* while(this_sbus) */
#ifdef E3000_DEBUG
prom_printf("sbus_init: No more sbus's, calling sun_console_init()\n");
#endif
memory_start = sun_console_init(memory_start); /* whee... */
#ifdef E3000_DEBUG
prom_printf("sbus_init: back from sun_console_init()\n");
#endif
#ifdef CONFIG_SUN_OPENPROMIO
openprom_init();
#endif
#ifdef CONFIG_SUN_MOSTEK_RTC
rtc_init();
#endif
#ifdef CONFIG_SPARCAUDIO
sparcaudio_init();
#endif
#ifdef CONFIG_SUN_BPP
bpp_init();
#endif
#ifdef CONFIG_SUN_AUXIO
if (sparc_cpu_model == sun4u)
auxio_probe ();
#endif
#ifdef __sparc_v9__
if (sparc_cpu_model == sun4u) {
extern void sun4u_start_timers(void);
extern void clock_probe(void);
sun4u_start_timers();
clock_probe();
}
#endif
return memory_start;
}
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