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linux/arch/sparc64/kernel/isa.c
David S. Miller a2bd4fd179 [SPARC64]: Add of_device layer and make ebus/isa use it.
Sparcspkr and power drivers are converted, to make sure it works.
Eventually the SBUS device layer will use this as a sub-class.

I really cannot cut loose on that bit until sparc32 is given the
same infrastructure.

Signed-off-by: David S. Miller <davem@davemloft.net>
2006-06-23 23:15:43 -07:00

309 lines
7.0 KiB
C

#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/pci.h>
#include <linux/slab.h>
#include <asm/oplib.h>
#include <asm/isa.h>
struct sparc_isa_bridge *isa_chain;
static void __init fatal_err(const char *reason)
{
prom_printf("ISA: fatal error, %s.\n", reason);
}
static void __init report_dev(struct sparc_isa_device *isa_dev, int child)
{
if (child)
printk(" (%s)", isa_dev->prom_node->name);
else
printk(" [%s", isa_dev->prom_node->name);
}
static struct linux_prom_registers * __init
isa_dev_get_resource(struct sparc_isa_device *isa_dev)
{
struct linux_prom_registers *pregs;
unsigned long base, len;
int prop_len;
pregs = of_get_property(isa_dev->prom_node, "reg", &prop_len);
/* Only the first one is interesting. */
len = pregs[0].reg_size;
base = (((unsigned long)pregs[0].which_io << 32) |
(unsigned long)pregs[0].phys_addr);
base += isa_dev->bus->parent->io_space.start;
isa_dev->resource.start = base;
isa_dev->resource.end = (base + len - 1UL);
isa_dev->resource.flags = IORESOURCE_IO;
isa_dev->resource.name = isa_dev->prom_node->name;
request_resource(&isa_dev->bus->parent->io_space,
&isa_dev->resource);
return pregs;
}
/* I can't believe they didn't put a real INO in the isa device
* interrupts property. The whole point of the OBP properties
* is to shield the kernel from IRQ routing details.
*
* The P1275 standard for ISA devices seems to also have been
* totally ignored.
*
* On later systems, an interrupt-map and interrupt-map-mask scheme
* akin to EBUS is used.
*/
static struct {
int obp_irq;
int pci_ino;
} grover_irq_table[] = {
{ 1, 0x00 }, /* dma, unknown ino at this point */
{ 2, 0x27 }, /* floppy */
{ 3, 0x22 }, /* parallel */
{ 4, 0x2b }, /* serial */
{ 5, 0x25 }, /* acpi power management */
{ 0, 0x00 } /* end of table */
};
static int __init isa_dev_get_irq_using_imap(struct sparc_isa_device *isa_dev,
struct sparc_isa_bridge *isa_br,
int *interrupt,
struct linux_prom_registers *reg)
{
struct linux_prom_ebus_intmap *imap;
struct linux_prom_ebus_intmap *imask;
unsigned int hi, lo, irq;
int i, len, n_imap;
imap = of_get_property(isa_br->prom_node, "interrupt-map", &len);
if (!imap)
return 0;
n_imap = len / sizeof(imap[0]);
imask = of_get_property(isa_br->prom_node, "interrupt-map-mask", NULL);
if (!imask)
return 0;
hi = reg->which_io & imask->phys_hi;
lo = reg->phys_addr & imask->phys_lo;
irq = *interrupt & imask->interrupt;
for (i = 0; i < n_imap; i++) {
if ((imap[i].phys_hi == hi) &&
(imap[i].phys_lo == lo) &&
(imap[i].interrupt == irq)) {
*interrupt = imap[i].cinterrupt;
return 0;
}
}
return -1;
}
static void __init isa_dev_get_irq(struct sparc_isa_device *isa_dev,
struct linux_prom_registers *pregs)
{
int irq_prop;
irq_prop = of_getintprop_default(isa_dev->prom_node,
"interrupts", -1);
if (irq_prop <= 0) {
goto no_irq;
} else {
struct pci_controller_info *pcic;
struct pci_pbm_info *pbm;
int i;
if (of_find_property(isa_dev->bus->prom_node,
"interrupt-map", NULL)) {
if (!isa_dev_get_irq_using_imap(isa_dev,
isa_dev->bus,
&irq_prop,
pregs))
goto route_irq;
}
for (i = 0; grover_irq_table[i].obp_irq != 0; i++) {
if (grover_irq_table[i].obp_irq == irq_prop) {
int ino = grover_irq_table[i].pci_ino;
if (ino == 0)
goto no_irq;
irq_prop = ino;
goto route_irq;
}
}
goto no_irq;
route_irq:
pbm = isa_dev->bus->parent;
pcic = pbm->parent;
isa_dev->irq = pcic->irq_build(pbm, NULL, irq_prop);
return;
}
no_irq:
isa_dev->irq = PCI_IRQ_NONE;
}
static void __init isa_fill_children(struct sparc_isa_device *parent_isa_dev)
{
struct device_node *dp = parent_isa_dev->prom_node->child;
if (!dp)
return;
printk(" ->");
while (dp) {
struct linux_prom_registers *regs;
struct sparc_isa_device *isa_dev;
isa_dev = kmalloc(sizeof(*isa_dev), GFP_KERNEL);
if (!isa_dev) {
fatal_err("cannot allocate child isa_dev");
prom_halt();
}
memset(isa_dev, 0, sizeof(*isa_dev));
/* Link it in to parent. */
isa_dev->next = parent_isa_dev->child;
parent_isa_dev->child = isa_dev;
isa_dev->bus = parent_isa_dev->bus;
isa_dev->prom_node = dp;
regs = isa_dev_get_resource(isa_dev);
isa_dev_get_irq(isa_dev, regs);
report_dev(isa_dev, 1);
dp = dp->sibling;
}
}
static void __init isa_fill_devices(struct sparc_isa_bridge *isa_br)
{
struct device_node *dp = isa_br->prom_node->child;
while (dp) {
struct linux_prom_registers *regs;
struct sparc_isa_device *isa_dev;
isa_dev = kmalloc(sizeof(*isa_dev), GFP_KERNEL);
if (!isa_dev) {
printk(KERN_DEBUG "ISA: cannot allocate isa_dev");
return;
}
memset(isa_dev, 0, sizeof(*isa_dev));
isa_dev->ofdev.node = dp;
isa_dev->ofdev.dev.parent = &isa_br->ofdev.dev;
isa_dev->ofdev.dev.bus = &isa_bus_type;
strcpy(isa_dev->ofdev.dev.bus_id, dp->path_component_name);
/* Register with core */
if (of_device_register(&isa_dev->ofdev) != 0) {
printk(KERN_DEBUG "isa: device registration error for %s!\n",
isa_dev->ofdev.dev.bus_id);
kfree(isa_dev);
goto next_sibling;
}
/* Link it in. */
isa_dev->next = NULL;
if (isa_br->devices == NULL) {
isa_br->devices = isa_dev;
} else {
struct sparc_isa_device *tmp = isa_br->devices;
while (tmp->next)
tmp = tmp->next;
tmp->next = isa_dev;
}
isa_dev->bus = isa_br;
isa_dev->prom_node = dp;
regs = isa_dev_get_resource(isa_dev);
isa_dev_get_irq(isa_dev, regs);
report_dev(isa_dev, 0);
isa_fill_children(isa_dev);
printk("]");
next_sibling:
dp = dp->sibling;
}
}
void __init isa_init(void)
{
struct pci_dev *pdev;
unsigned short vendor, device;
int index = 0;
vendor = PCI_VENDOR_ID_AL;
device = PCI_DEVICE_ID_AL_M1533;
pdev = NULL;
while ((pdev = pci_get_device(vendor, device, pdev)) != NULL) {
struct pcidev_cookie *pdev_cookie;
struct pci_pbm_info *pbm;
struct sparc_isa_bridge *isa_br;
struct device_node *dp;
pdev_cookie = pdev->sysdata;
if (!pdev_cookie) {
printk("ISA: Warning, ISA bridge ignored due to "
"lack of OBP data.\n");
continue;
}
pbm = pdev_cookie->pbm;
dp = pdev_cookie->prom_node;
isa_br = kmalloc(sizeof(*isa_br), GFP_KERNEL);
if (!isa_br) {
printk(KERN_DEBUG "isa: cannot allocate sparc_isa_bridge");
return;
}
memset(isa_br, 0, sizeof(*isa_br));
isa_br->ofdev.node = dp;
isa_br->ofdev.dev.parent = &pdev->dev;
isa_br->ofdev.dev.bus = &isa_bus_type;
strcpy(isa_br->ofdev.dev.bus_id, dp->path_component_name);
/* Register with core */
if (of_device_register(&isa_br->ofdev) != 0) {
printk(KERN_DEBUG "isa: device registration error for %s!\n",
isa_br->ofdev.dev.bus_id);
kfree(isa_br);
return;
}
/* Link it in. */
isa_br->next = isa_chain;
isa_chain = isa_br;
isa_br->parent = pbm;
isa_br->self = pdev;
isa_br->index = index++;
isa_br->prom_node = pdev_cookie->prom_node;
printk("isa%d:", isa_br->index);
isa_fill_devices(isa_br);
printk("\n");
}
}