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|
/* $Id: irq.c,v 1.52 1998/03/19 00:22:54 ecd Exp $
* irq.c: UltraSparc IRQ handling/init/registry.
*
* Copyright (C) 1997 David S. Miller (davem@caip.rutgers.edu)
* Copyright (C) 1998 Eddie C. Dost (ecd@skynet.be)
*/
#include <linux/config.h>
#include <linux/ptrace.h>
#include <linux/errno.h>
#include <linux/kernel_stat.h>
#include <linux/signal.h>
#include <linux/interrupt.h>
#include <linux/malloc.h>
#include <linux/random.h> /* XXX ADD add_foo_randomness() calls... -DaveM */
#include <linux/init.h>
#include <asm/ptrace.h>
#include <asm/processor.h>
#include <asm/atomic.h>
#include <asm/system.h>
#include <asm/irq.h>
#include <asm/sbus.h>
#include <asm/iommu.h>
#include <asm/upa.h>
#include <asm/oplib.h>
#include <asm/timer.h>
#include <asm/smp.h>
#include <asm/hardirq.h>
#include <asm/softirq.h>
#ifdef CONFIG_PCI
#include <linux/pci.h>
#include <asm/pbm.h>
#endif
/* Internal flag, should not be visible elsewhere at all. */
#define SA_IMAP_MASKED 0x100
#ifdef __SMP__
void distribute_irqs(void);
static int irqs_have_been_distributed = 0;
#endif
/* UPA nodes send interrupt packet to UltraSparc with first data reg value
* low 5 bits holding the IRQ identifier being delivered. We must translate
* this into a non-vector IRQ so we can set the softint on this cpu. To
* make things even more swift we store the complete mask here.
*/
#define NUM_HARD_IVECS 2048
#define NUM_IVECS (NUM_HARD_IVECS + 64) /* For SMP IRQ distribution alg. */
unsigned long ivector_to_mask[NUM_IVECS];
struct ino_bucket {
struct ino_bucket *next;
unsigned int ino;
unsigned int *imap;
unsigned int *iclr;
unsigned char *imap_refcnt;
};
#define INO_HASHSZ (NUM_HARD_IVECS >> 2)
#define NUM_INO_STATIC 4
static struct ino_bucket *ino_hash[INO_HASHSZ] = { NULL, };
static struct ino_bucket static_ino_buckets[NUM_INO_STATIC];
static int static_ino_bucket_count = 0;
static inline struct ino_bucket *__ino_lookup(unsigned int hash, unsigned int ino)
{
struct ino_bucket *ret = ino_hash[hash];
for(ret = ino_hash[hash]; ret && ret->ino != ino; ret = ret->next)
;
return ret;
}
static inline struct ino_bucket *ino_lookup(unsigned int ino)
{
return __ino_lookup((ino & (INO_HASHSZ - 1)), ino);
}
/* This is based upon code in the 32-bit Sparc kernel written mostly by
* David Redman (djhr@tadpole.co.uk).
*/
#define MAX_STATIC_ALLOC 4
static struct irqaction static_irqaction[MAX_STATIC_ALLOC];
static int static_irq_count = 0;
/* XXX Must be exported so that fast IRQ handlers can get at it... -DaveM */
struct irqaction *irq_action[NR_IRQS+1] = {
NULL, NULL, NULL, NULL, NULL, NULL , NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL , NULL, NULL
};
int get_irq_list(char *buf)
{
int i, len = 0;
struct irqaction *action;
#ifdef __SMP__
int j;
#endif
for(i = 0; i < (NR_IRQS + 1); i++) {
if(!(action = *(i + irq_action)))
continue;
len += sprintf(buf + len, "%3d: ", i);
#ifndef __SMP__
len += sprintf(buf + len, "%10u ", kstat_irqs(i));
#else
for (j = 0; j < smp_num_cpus; j++)
len += sprintf(buf + len, "%10u ",
kstat.irqs[cpu_logical_map(j)][i]);
#endif
len += sprintf(buf + len, "%c %s",
(action->flags & SA_INTERRUPT) ? '+' : ' ',
action->name);
for(action = action->next; action; action = action->next) {
len += sprintf(buf+len, ",%s %s",
(action->flags & SA_INTERRUPT) ? " +" : "",
action->name);
}
len += sprintf(buf + len, "\n");
}
return len;
}
/* SBUS SYSIO INO number to Sparc PIL level. */
unsigned char sysio_ino_to_pil[] = {
0, 1, 2, 7, 5, 7, 8, 9, /* SBUS slot 0 */
0, 1, 2, 7, 5, 7, 8, 9, /* SBUS slot 1 */
0, 1, 2, 7, 5, 7, 8, 9, /* SBUS slot 2 */
0, 1, 2, 7, 5, 7, 8, 9, /* SBUS slot 3 */
3, /* Onboard SCSI */
5, /* Onboard Ethernet */
/*XXX*/ 8, /* Onboard BPP */
0, /* Bogon */
13, /* Audio */
/*XXX*/15, /* PowerFail */
0, /* Bogon */
0, /* Bogon */
12, /* Zilog Serial Channels (incl. Keyboard/Mouse lines) */
11, /* Floppy */
0, /* Spare Hardware (bogon for now) */
0, /* Keyboard (bogon for now) */
0, /* Mouse (bogon for now) */
0, /* Serial (bogon for now) */
0, 0, /* Bogon, Bogon */
10, /* Timer 0 */
11, /* Timer 1 */
0, 0, /* Bogon, Bogon */
15, /* Uncorrectable SBUS Error */
15, /* Correctable SBUS Error */
15, /* SBUS Error */
/*XXX*/ 0, /* Power Management (bogon for now) */
};
/* INO number to IMAP register offset for SYSIO external IRQ's.
* This should conform to both Sunfire/Wildfire server and Fusion
* desktop designs.
*/
#define offset(x) ((unsigned long)(&(((struct sysio_regs *)0)->x)))
#define bogon ((unsigned long) -1)
static unsigned long sysio_irq_offsets[] = {
/* SBUS Slot 0 --> 3, level 1 --> 7 */
offset(imap_slot0),offset(imap_slot0),offset(imap_slot0),offset(imap_slot0),
offset(imap_slot0),offset(imap_slot0),offset(imap_slot0),offset(imap_slot0),
offset(imap_slot1),offset(imap_slot1),offset(imap_slot1),offset(imap_slot1),
offset(imap_slot1),offset(imap_slot1),offset(imap_slot1),offset(imap_slot1),
offset(imap_slot2),offset(imap_slot2),offset(imap_slot2),offset(imap_slot2),
offset(imap_slot2),offset(imap_slot2),offset(imap_slot2),offset(imap_slot2),
offset(imap_slot3),offset(imap_slot3),offset(imap_slot3),offset(imap_slot3),
offset(imap_slot3),offset(imap_slot3),offset(imap_slot3),offset(imap_slot3),
/* Onboard devices (not relevant/used on SunFire). */
offset(imap_scsi), offset(imap_eth), offset(imap_bpp), bogon,
offset(imap_audio), offset(imap_pfail), bogon, bogon,
offset(imap_kms), offset(imap_flpy), offset(imap_shw),
offset(imap_kbd), offset(imap_ms), offset(imap_ser), bogon, bogon,
offset(imap_tim0), offset(imap_tim1), bogon, bogon,
offset(imap_ue), offset(imap_ce), offset(imap_sberr),
offset(imap_pmgmt),
};
#undef bogon
#define NUM_SYSIO_OFFSETS (sizeof(sysio_irq_offsets) / sizeof(sysio_irq_offsets[0]))
/* XXX Old compatability cruft, get rid of me when all drivers have been
* XXX converted to dcookie registry calls... -DaveM
*/
static unsigned int *sysio_irq_to_imap(unsigned int irq)
{
unsigned long offset;
struct sysio_regs *sregs;
if((irq >= NUM_SYSIO_OFFSETS) ||
((offset = sysio_irq_offsets[irq]) == ((unsigned long)-1)))
return NULL;
sregs = SBus_chain->iommu->sysio_regs;
offset += ((unsigned long) sregs);
return ((unsigned int *)offset);
}
/* Convert Interrupt Mapping register pointer to assosciated
* Interrupt Clear register pointer, SYSIO specific version.
*/
static unsigned int *sysio_imap_to_iclr(unsigned int *imap)
{
unsigned long diff;
diff = offset(iclr_unused0) - offset(imap_slot0);
return (unsigned int *) (((unsigned long)imap) + diff);
}
#undef offset
#ifdef CONFIG_PCI
/* PCI PSYCHO INO number to Sparc PIL level. */
unsigned char psycho_ino_to_pil[] = {
7, 5, 5, 2, /* PCI A slot 0 Int A, B, C, D */
7, 5, 5, 2, /* PCI A slot 1 Int A, B, C, D */
7, 5, 5, 2, /* PCI A slot 2 Int A, B, C, D */
7, 5, 5, 2, /* PCI A slot 3 Int A, B, C, D */
6, 4, 3, 1, /* PCI B slot 0 Int A, B, C, D */
6, 4, 3, 1, /* PCI B slot 1 Int A, B, C, D */
6, 4, 3, 1, /* PCI B slot 2 Int A, B, C, D */
6, 4, 3, 1, /* PCI B slot 3 Int A, B, C, D */
3, /* SCSI */
5, /* Ethernet */
8, /* Parallel Port */
13, /* Audio Record */
14, /* Audio Playback */
15, /* PowerFail */
9, /* Keyboard/Mouse/Serial */
11, /* Floppy */
2, /* Spare Hardware */
9, /* Keyboard */
4, /* Mouse */
12, /* Serial */
10, /* Timer 0 */
11, /* Timer 1 */
15, /* Uncorrectable ECC */
15, /* Correctable ECC */
15, /* PCI Bus A Error */
15, /* PCI Bus B Error */
1, /* Power Management */
};
/* INO number to IMAP register offset for PSYCHO external IRQ's.
*/
#define psycho_offset(x) ((unsigned long)(&(((struct psycho_regs *)0)->x)))
#define psycho_imap_offset(ino) \
((ino & 0x20) ? (psycho_offset(imap_scsi) + (((ino) & 0x1f) << 3)) : \
(psycho_offset(imap_a_slot0) + (((ino) & 0x3c) << 1)))
#define psycho_iclr_offset(ino) \
((ino & 0x20) ? (psycho_offset(iclr_scsi) + (((ino) & 0x1f) << 3)) : \
(psycho_offset(iclr_a_slot0[0]) + (((ino) & 0x1f)<<3)))
#endif
/* Now these are always passed a true fully specified sun4u INO. */
void enable_irq(unsigned int ino)
{
struct ino_bucket *bucket;
unsigned long tid;
unsigned int *imap;
#ifdef CONFIG_PCI
if(PCI_IRQ_P(ino))
ino &= (PCI_IRQ_IGN | PCI_IRQ_INO);
#endif
bucket = ino_lookup(ino);
if(!bucket)
return;
imap = bucket->imap;
/* We send it to our UPA MID, for SMP this will be different. */
__asm__ __volatile__("ldxa [%%g0] %1, %0" : "=r" (tid) : "i" (ASI_UPA_CONFIG));
tid = ((tid & UPA_CONFIG_MID) << 9);
/* NOTE NOTE NOTE, IGN and INO are read-only, IGN is a product
* of this SYSIO's preconfigured IGN in the SYSIO Control
* Register, the hardware just mirrors that value here.
* However for Graphics and UPA Slave devices the full
* SYSIO_IMAP_INR field can be set by the programmer here.
*
* Things like FFB can now be handled via the dcookie mechanism.
*/
*imap = SYSIO_IMAP_VALID | (tid & SYSIO_IMAP_TID);
}
/* This now gets passed true ino's as well. */
void disable_irq(unsigned int ino)
{
struct ino_bucket *bucket;
unsigned int *imap;
#ifdef CONFIG_PCI
if(PCI_IRQ_P(ino))
ino &= (PCI_IRQ_IGN | PCI_IRQ_INO);
#endif
bucket = ino_lookup(ino);
if(!bucket)
return;
imap = bucket->imap;
/* NOTE: We do not want to futz with the IRQ clear registers
* and move the state to IDLE, the SCSI code does call
* disable_irq() to assure atomicity in the queue cmd
* SCSI adapter driver code. Thus we'd lose interrupts.
*/
*imap &= ~(SYSIO_IMAP_VALID);
}
static void get_irq_translations(int *cpu_irq, int *ivindex_fixup,
unsigned int **imap, unsigned int **iclr,
void *busp, unsigned long flags,
unsigned int irq)
{
if(*cpu_irq != -1 && *imap != NULL && *iclr != NULL)
return;
if(*cpu_irq != -1 || *imap != NULL || *iclr != NULL || busp == NULL) {
printk("get_irq_translations: Partial specification, this is bad.\n");
printk("get_irq_translations: cpu_irq[%d] imap[%p] iclr[%p] busp[%p]\n",
*cpu_irq, *imap, *iclr, busp);
panic("Bad IRQ translations...");
}
if(SA_BUS(flags) == SA_SBUS) {
struct linux_sbus *sbusp = busp;
struct sysio_regs *sregs = sbusp->iommu->sysio_regs;
unsigned long offset;
*cpu_irq = sysio_ino_to_pil[irq];
if(*cpu_irq == 0) {
printk("get_irq_translations: Bad SYSIO INO[%x]\n", irq);
panic("Bad SYSIO IRQ translations...");
}
offset = sysio_irq_offsets[irq];
if(offset == ((unsigned long)-1)) {
printk("get_irq_translations: Bad SYSIO INO[%x] cpu[%d]\n",
irq, *cpu_irq);
panic("BAD SYSIO IRQ offset...");
}
offset += ((unsigned long)sregs);
*imap = ((unsigned int *)offset);
/* SYSIO inconsistancy. For external SLOTS, we have to select
* the right ICLR register based upon the lower SBUS irq level
* bits.
*/
if(irq >= 0x20) {
*iclr = sysio_imap_to_iclr(*imap);
} else {
unsigned long iclraddr;
int sbus_slot = (irq & 0x18)>>3;
int sbus_level = irq & 0x7;
switch(sbus_slot) {
case 0:
*iclr = &sregs->iclr_slot0;
break;
case 1:
*iclr = &sregs->iclr_slot1;
break;
case 2:
*iclr = &sregs->iclr_slot2;
break;
case 3:
*iclr = &sregs->iclr_slot3;
break;
};
iclraddr = (unsigned long) *iclr;
iclraddr += ((sbus_level - 1) * 8);
*iclr = (unsigned int *) iclraddr;
#if 0 /* DEBUGGING */
printk("SYSIO_FIXUP: slot[%x] level[%x] iclr[%p] ",
sbus_slot, sbus_level, *iclr);
#endif
/* Also, make sure this is accounted for in ivindex
* computations done by the caller.
*/
*ivindex_fixup = sbus_level;
}
return;
}
#ifdef CONFIG_PCI
if(SA_BUS(flags) == SA_PCI) {
struct pci_bus *pbusp = busp;
struct linux_pbm_info *pbm = pbusp->sysdata;
struct psycho_regs *pregs = pbm->parent->psycho_regs;
unsigned long offset;
*cpu_irq = psycho_ino_to_pil[irq & 0x3f];
if(*cpu_irq == 0) {
printk("get_irq_translations: Bad PSYCHO INO[%x]\n", irq);
panic("Bad PSYCHO IRQ translations...");
}
offset = psycho_imap_offset(irq);
if(offset == ((unsigned long)-1)) {
printk("get_irq_translations: Bad PSYCHO INO[%x] cpu[%d]\n",
irq, *cpu_irq);
panic("Bad PSYCHO IRQ offset...");
}
offset += ((unsigned long)pregs);
*imap = ((unsigned int *)offset) + 1;
*iclr = (unsigned int *)
(((unsigned long)pregs) + psycho_iclr_offset(irq));
return;
}
#endif
#if 0 /* XXX More to do before we can use this. -DaveM */
if(SA_BUS(flags) == SA_FHC) {
struct fhc_bus *fbusp = busp;
struct fhc_regs *fregs = fbusp->regs;
unsigned long offset;
*cpu_irq = fhc_ino_to_pil[irq];
if(*cpu_irq == 0) {
printk("get_irq_translations: Bad FHC INO[%x]\n", irq);
panic("Bad FHC IRQ translations...");
}
offset = fhc_irq_offset[*cpu_irq];
if(offset == ((unsigned long)-1)) {
printk("get_irq_translations: Bad FHC INO[%x] cpu[%d]\n",
irq, *cpu_irq);
panic("Bad FHC IRQ offset...");
}
offset += ((unsigned long)pregs);
*imap = (((unsigned int *)offset)+1);
*iclr = fhc_imap_to_iclr(*imap);
return;
}
#endif
printk("get_irq_translations: IRQ register for unknown bus type.\n");
printk("get_irq_translations: BUS[%lx] IRQ[%x]\n",
SA_BUS(flags), irq);
panic("Bad IRQ bus type...");
}
#ifdef CONFIG_PCI
static void pci_irq_frobnicate(int *cpu_irq, int *ivindex_fixup,
unsigned int **imap, unsigned int **iclr,
unsigned int irq)
{
struct linux_psycho *psycho;
struct psycho_regs *pregs;
unsigned long addr, imoff;
psycho = psycho_by_index((irq & PCI_IRQ_BUSNO) >> PCI_IRQ_BUSNO_SHFT);
if (!psycho) {
printk("get_irq_translations: BAD PSYCHO BUSNO[%x]\n", irq);
panic("Bad PSYCHO IRQ frobnication...");
}
pregs = psycho->psycho_regs;
addr = (unsigned long) &pregs->imap_a_slot0;
imoff = (irq & PCI_IRQ_IMAP_OFF) >> PCI_IRQ_IMAP_OFF_SHFT;
addr = addr + imoff;
*imap = ((unsigned int *)addr) + 1;
addr = (unsigned long) pregs;
addr += psycho_iclr_offset(irq & (PCI_IRQ_INO));
*iclr = ((unsigned int *)addr) + 1;
*cpu_irq = psycho_ino_to_pil[irq & (PCI_IRQ_INO)];
if(*cpu_irq == 0) {
printk("get_irq_translations: BAD PSYCHO INO[%x]\n", irq);
panic("Bad PSYCHO IRQ frobnication...");
}
/* IVINDEX fixup only needed for PCI slot irq lines. */
if(!(irq & 0x20))
*ivindex_fixup = irq & 0x03;
}
#endif
/* Once added, they are never removed. */
static struct ino_bucket *add_ino_hash(unsigned int ivindex,
unsigned int *imap, unsigned int *iclr,
unsigned long flags)
{
struct ino_bucket *new = NULL, **hashp;
unsigned int hash = (ivindex & (INO_HASHSZ - 1));
new = __ino_lookup(hash, ivindex);
if(new)
return new;
if(flags & SA_STATIC_ALLOC) {
if(static_ino_bucket_count < NUM_INO_STATIC)
new = &static_ino_buckets[static_ino_bucket_count++];
else
printk("Request for ino bucket SA_STATIC_ALLOC failed "
"using kmalloc\n");
}
if(new == NULL)
new = kmalloc(sizeof(struct ino_bucket), GFP_KERNEL);
if(new) {
hashp = &ino_hash[hash];
new->imap = imap;
new->iclr = iclr;
new->ino = ivindex;
new->next = *hashp;
*hashp = new;
}
return new;
}
int request_irq(unsigned int irq, void (*handler)(int, void *, struct pt_regs *),
unsigned long irqflags, const char *name, void *dev_id)
{
struct irqaction *action, *tmp = NULL;
struct devid_cookie *dcookie = NULL;
struct ino_bucket *bucket = NULL;
unsigned long flags;
unsigned int *imap, *iclr;
void *bus_id = NULL;
int ivindex = -1, ivindex_fixup, cpu_irq = -1, pending = 0;
if(!handler)
return -EINVAL;
imap = iclr = NULL;
ivindex_fixup = 0;
if (irq == 0) {
cpu_irq = irq;
irqflags &= ~(SA_IMAP_MASKED);
} else {
irqflags |= SA_IMAP_MASKED;
#ifdef CONFIG_PCI
if(PCI_IRQ_P(irq)) {
pci_irq_frobnicate(&cpu_irq, &ivindex_fixup, &imap, &iclr, irq);
} else
#endif
if(irqflags & SA_DCOOKIE) {
if(!dev_id) {
printk("request_irq: SA_DCOOKIE but dev_id is NULL!\n");
panic("Bogus irq registry.");
}
dcookie = dev_id;
dev_id = dcookie->real_dev_id;
cpu_irq = dcookie->pil;
imap = dcookie->imap;
iclr = dcookie->iclr;
bus_id = dcookie->bus_cookie;
get_irq_translations(&cpu_irq, &ivindex_fixup, &imap,
&iclr, bus_id, irqflags, irq);
} else {
/* XXX NOTE: This code is maintained for compatability until I can
* XXX verify that all drivers sparc64 will use are updated
* XXX to use the new IRQ registry dcookie interface. -DaveM
*/
cpu_irq = sysio_ino_to_pil[irq];
imap = sysio_irq_to_imap(irq);
if(!imap) {
printk("request_irq: BAD, null imap for old style "
"irq registry IRQ[%x].\n", irq);
panic("Bad IRQ registery...");
}
iclr = sysio_imap_to_iclr(imap);
}
ivindex = (*imap & (SYSIO_IMAP_IGN | SYSIO_IMAP_INO));
ivindex += ivindex_fixup;
}
action = *(cpu_irq + irq_action);
if(action) {
if((action->flags & SA_SHIRQ) && (irqflags & SA_SHIRQ))
for (tmp = action; tmp->next; tmp = tmp->next)
;
else
return -EBUSY;
if((action->flags & SA_INTERRUPT) ^ (irqflags & SA_INTERRUPT)) {
printk("Attempt to mix fast and slow interrupts on IRQ%d "
"denied\n", irq);
return -EBUSY;
}
action = NULL; /* Or else! */
}
save_and_cli(flags);
/* If this is flagged as statically allocated then we use our
* private struct which is never freed.
*/
if(irqflags & SA_STATIC_ALLOC) {
if(static_irq_count < MAX_STATIC_ALLOC)
action = &static_irqaction[static_irq_count++];
else
printk("Request for IRQ%d (%s) SA_STATIC_ALLOC failed "
"using kmalloc\n", irq, name);
}
if(action == NULL)
action = (struct irqaction *)kmalloc(sizeof(struct irqaction),
GFP_KERNEL);
if(!action) {
restore_flags(flags);
return -ENOMEM;
}
if (irqflags & SA_IMAP_MASKED) {
bucket = add_ino_hash(ivindex, imap, iclr, irqflags);
if(!bucket) {
kfree(action);
restore_flags(flags);
return -ENOMEM;
}
pending = ((ivector_to_mask[ivindex] & 0x80000000) != 0);
ivector_to_mask[ivindex] = (1 << cpu_irq);
if(pending)
ivector_to_mask[ivindex] |= 0x80000000;
if(dcookie) {
dcookie->ret_ino = ivindex;
dcookie->ret_pil = cpu_irq;
}
}
action->mask = (unsigned long) bucket;
action->handler = handler;
action->flags = irqflags;
action->name = name;
action->next = NULL;
action->dev_id = dev_id;
if(tmp)
tmp->next = action;
else
*(cpu_irq + irq_action) = action;
enable_irq(ivindex);
/* We ate the IVEC already, this makes sure it does not get lost. */
if(pending)
set_softint(1 << cpu_irq);
restore_flags(flags);
#ifdef __SMP__
if(irqs_have_been_distributed)
distribute_irqs();
#endif
return 0;
}
void free_irq(unsigned int irq, void *dev_id)
{
struct irqaction *action;
struct irqaction *tmp = NULL;
unsigned long flags;
unsigned int *imap = NULL;
unsigned int cpu_irq;
int ivindex = -1;
if(irq == 0) {
cpu_irq = irq;
} else {
#ifdef CONFIG_PCI
if(PCI_IRQ_P(irq))
cpu_irq = psycho_ino_to_pil[irq & PCI_IRQ_INO];
else
#endif
cpu_irq = sysio_ino_to_pil[irq];
}
action = *(cpu_irq + irq_action);
if(!action->handler) {
printk("Freeing free IRQ %d\n", irq);
return;
}
if(dev_id) {
for( ; action; action = action->next) {
if(action->dev_id == dev_id)
break;
tmp = action;
}
if(!action) {
printk("Trying to free free shared IRQ %d\n", irq);
return;
}
} else if(action->flags & SA_SHIRQ) {
printk("Trying to free shared IRQ %d with NULL device ID\n", irq);
return;
}
if(action->flags & SA_STATIC_ALLOC) {
printk("Attempt to free statically allocated IRQ %d (%s)\n",
irq, action->name);
return;
}
save_and_cli(flags);
if(action && tmp)
tmp->next = action->next;
else
*(cpu_irq + irq_action) = action->next;
if(action->flags & SA_IMAP_MASKED) {
struct ino_bucket *bucket = (struct ino_bucket *)action->mask;
imap = bucket->imap;
if(imap != NULL) {
ivindex = bucket->ino;
ivector_to_mask[ivindex] = 0;
}
else
printk("free_irq: WHeee, SYSIO_MASKED yet no imap reg.\n");
}
kfree(action);
if(ivindex != -1) {
struct ino_bucket *bp;
int i, count = 0;
/* The trick is that we can't turn the thing off when there
* are potentially other sub-irq level references.
*/
if(imap != NULL) {
for(i = 0; i < INO_HASHSZ; i++) {
bp = ino_hash[i];
while(bp) {
if(bp->imap == imap)
count++;
bp = bp->next;
}
}
}
if(count < 2)
disable_irq(ivindex);
}
restore_flags(flags);
}
/* Only uniprocessor needs this IRQ locking depth, on SMP it lives in the per-cpu
* structure for cache reasons.
*/
#ifndef __SMP__
unsigned int local_irq_count;
#endif
#ifndef __SMP__
int __sparc64_bh_counter = 0;
#define irq_enter(cpu, irq) (local_irq_count++)
#define irq_exit(cpu, irq) (local_irq_count--)
#else
atomic_t __sparc64_bh_counter = ATOMIC_INIT(0);
/* Who has global_irq_lock. */
unsigned char global_irq_holder = NO_PROC_ID;
/* This protects IRQ's. */
spinlock_t global_irq_lock = SPIN_LOCK_UNLOCKED;
/* This protects BH software state (masks, things like that). */
spinlock_t global_bh_lock = SPIN_LOCK_UNLOCKED;
/* Global IRQ locking depth. */
atomic_t global_irq_count = ATOMIC_INIT(0);
static unsigned long previous_irqholder;
#undef INIT_STUCK
#define INIT_STUCK 100000000
#undef STUCK
#define STUCK \
if (!--stuck) {printk("wait_on_irq CPU#%d stuck at %08lx, waiting for %08lx (local=%d, global=%d)\n", cpu, where, previous_irqholder, local_count, atomic_read(&global_irq_count)); stuck = INIT_STUCK; }
static inline void wait_on_irq(int cpu, unsigned long where)
{
int stuck = INIT_STUCK;
int local_count = local_irq_count;
while(local_count != atomic_read(&global_irq_count)) {
atomic_sub(local_count, &global_irq_count);
spin_unlock(&global_irq_lock);
for(;;) {
STUCK;
membar("#StoreLoad | #LoadLoad");
if (atomic_read(&global_irq_count))
continue;
if (*((volatile unsigned char *)&global_irq_lock))
continue;
membar("#LoadLoad | #LoadStore");
if (spin_trylock(&global_irq_lock))
break;
}
atomic_add(local_count, &global_irq_count);
}
}
#undef INIT_STUCK
#define INIT_STUCK 10000000
#undef STUCK
#define STUCK \
if (!--stuck) {printk("get_irqlock stuck at %08lx, waiting for %08lx\n", where, previous_irqholder); stuck = INIT_STUCK;}
static inline void get_irqlock(int cpu, unsigned long where)
{
int stuck = INIT_STUCK;
if (!spin_trylock(&global_irq_lock)) {
membar("#StoreLoad | #LoadLoad");
if ((unsigned char) cpu == global_irq_holder)
return;
do {
do {
STUCK;
membar("#LoadLoad");
} while(*((volatile unsigned char *)&global_irq_lock));
} while (!spin_trylock(&global_irq_lock));
}
wait_on_irq(cpu, where);
global_irq_holder = cpu;
previous_irqholder = where;
}
void __global_cli(void)
{
int cpu = smp_processor_id();
unsigned long where;
__asm__ __volatile__("mov %%i7, %0" : "=r" (where));
__cli();
get_irqlock(cpu, where);
}
void __global_sti(void)
{
release_irqlock(smp_processor_id());
__sti();
}
void __global_restore_flags(unsigned long flags)
{
if (flags & 1) {
__global_cli();
} else {
if (global_irq_holder == (unsigned char) smp_processor_id()) {
global_irq_holder = NO_PROC_ID;
spin_unlock(&global_irq_lock);
}
if (!(flags & 2))
__sti();
}
}
#undef INIT_STUCK
#define INIT_STUCK 200000000
#undef STUCK
#define STUCK \
if (!--stuck) {printk("irq_enter stuck (irq=%d, cpu=%d, global=%d)\n",irq,cpu,global_irq_holder); stuck = INIT_STUCK;}
void irq_enter(int cpu, int irq)
{
int stuck = INIT_STUCK;
hardirq_enter(cpu);
while (*((volatile unsigned char *)&global_irq_lock)) {
if ((unsigned char) cpu == global_irq_holder)
printk("irq_enter: Frosted Lucky Charms, "
"they're magically delicious!\n");
STUCK;
membar("#LoadLoad");
}
}
void irq_exit(int cpu, int irq)
{
hardirq_exit(cpu);
release_irqlock(cpu);
}
void synchronize_irq(void)
{
int local_count = local_irq_count;
unsigned long flags;
if (local_count != atomic_read(&global_irq_count)) {
save_and_cli(flags);
restore_flags(flags);
}
}
#endif /* __SMP__ */
void report_spurious_ivec(struct pt_regs *regs)
{
extern unsigned long ivec_spurious_cookie;
#if 0
printk("IVEC: Spurious interrupt vector (%016lx) received at (%016lx)\n",
ivec_spurious_cookie, regs->tpc);
#endif
/* We can actually see this on Ultra/PCI PCI cards, which are bridges
* to other devices. Here a single IMAP enabled potentially multiple
* unique interrupt sources (which each do have a unique ICLR register.
*
* So what we do is just register that the IVEC arrived, when registered
* for real the request_irq() code will check the high bit and signal
* a local CPU interrupt for it.
*/
ivector_to_mask[ivec_spurious_cookie] |= (0x80000000);
}
void unexpected_irq(int irq, void *dev_cookie, struct pt_regs *regs)
{
int i;
struct irqaction *action;
unsigned int cpu_irq;
cpu_irq = irq & NR_IRQS;
action = *(cpu_irq + irq_action);
prom_printf("Unexpected IRQ[%d]: ", irq);
prom_printf("PC[%016lx] NPC[%016lx] FP[%016lx]\n",
regs->tpc, regs->tnpc, regs->u_regs[14]);
if(action) {
prom_printf("Expecting: ");
for(i = 0; i < 16; i++) {
if(action->handler)
prom_printf("[%s:%d:0x%016lx] ", action->name,
i, (unsigned long) action->handler);
}
}
prom_printf("AIEEE\n");
prom_printf("bogus interrupt received\n");
prom_cmdline ();
}
void handler_irq(int irq, struct pt_regs *regs)
{
struct ino_bucket *bucket = NULL;
struct irqaction *action, *act;
int cpu = smp_processor_id();
#ifndef __SMP__
/*
* Check for TICK_INT on level 14 softint.
*/
if ((irq == 14) && get_softint() & (1UL << 0))
irq = 0;
#endif
clear_softint(1 << irq);
irq_enter(cpu, irq);
action = *(irq + irq_action);
kstat.irqs[cpu][irq]++;
if(!action) {
unexpected_irq(irq, 0, regs);
} else {
act = action;
do {
if(act->flags & SA_IMAP_MASKED) {
bucket = (struct ino_bucket *)act->mask;
if(!(ivector_to_mask[bucket->ino] & 0x80000000))
continue;
}
act->handler(irq, act->dev_id, regs);
} while((act = act->next) != NULL);
act = action;
do {
if(act->flags & SA_IMAP_MASKED) {
bucket = (struct ino_bucket *)act->mask;
if(!(ivector_to_mask[bucket->ino] & 0x80000000))
continue;
ivector_to_mask[bucket->ino] &= ~(0x80000000);
*(bucket->iclr) = SYSIO_ICLR_IDLE;
}
} while((act = act->next) != NULL);
}
irq_exit(cpu, irq);
}
#ifdef CONFIG_BLK_DEV_FD
extern void floppy_interrupt(int irq, void *dev_cookie, struct pt_regs *regs);
void sparc_floppy_irq(int irq, void *dev_cookie, struct pt_regs *regs)
{
struct irqaction *action = *(irq + irq_action);
struct ino_bucket *bucket;
int cpu = smp_processor_id();
irq_enter(cpu, irq);
kstat.irqs[cpu][irq]++;
bucket = (struct ino_bucket *)action->mask;
floppy_interrupt(irq, dev_cookie, regs);
ivector_to_mask[bucket->ino] &= ~(0x80000000);
*(bucket->iclr) = SYSIO_ICLR_IDLE;
irq_exit(cpu, irq);
}
#endif
/* The following assumes that the branch lies before the place we
* are branching to. This is the case for a trap vector...
* You have been warned.
*/
#define SPARC_BRANCH(dest_addr, inst_addr) \
(0x10800000 | ((((dest_addr)-(inst_addr))>>2)&0x3fffff))
#define SPARC_NOP (0x01000000)
static void install_fast_irq(unsigned int cpu_irq,
void (*handler)(int, void *, struct pt_regs *))
{
extern unsigned long sparc64_ttable_tl0;
unsigned long ttent = (unsigned long) &sparc64_ttable_tl0;
unsigned int *insns;
ttent += 0x820;
ttent += (cpu_irq - 1) << 5;
insns = (unsigned int *) ttent;
insns[0] = SPARC_BRANCH(((unsigned long) handler),
((unsigned long)&insns[0]));
insns[1] = SPARC_NOP;
__asm__ __volatile__("membar #StoreStore; flush %0" : : "r" (ttent));
}
int request_fast_irq(unsigned int irq,
void (*handler)(int, void *, struct pt_regs *),
unsigned long irqflags, const char *name, void *dev_id)
{
struct irqaction *action;
struct devid_cookie *dcookie = NULL;
struct ino_bucket *bucket = NULL;
unsigned long flags;
unsigned int *imap, *iclr;
void *bus_id = NULL;
int ivindex = -1, ivindex_fixup, cpu_irq = -1;
if(!handler)
return -EINVAL;
imap = iclr = NULL;
ivindex_fixup = 0;
if ((irq == 0) || (irq == 14)) {
printk("request_fast_irq: Trying to register shared IRQ 0 or 14.\n");
return -EBUSY;
}
#ifdef CONFIG_PCI
if(PCI_IRQ_P(irq)) {
pci_irq_frobnicate(&cpu_irq, &ivindex_fixup, &imap, &iclr, irq);
} else
#endif
if(irqflags & SA_DCOOKIE) {
if(!dev_id) {
printk("request_fast_irq: SA_DCOOKIE but dev_id is NULL!\n");
panic("Bogus irq registry.");
}
dcookie = dev_id;
dev_id = dcookie->real_dev_id;
cpu_irq = dcookie->pil;
imap = dcookie->imap;
iclr = dcookie->iclr;
bus_id = dcookie->bus_cookie;
get_irq_translations(&cpu_irq, &ivindex_fixup, &imap,
&iclr, bus_id, irqflags, irq);
} else {
/* XXX NOTE: This code is maintained for compatability until I can
* XXX verify that all drivers sparc64 will use are updated
* XXX to use the new IRQ registry dcookie interface. -DaveM
*/
cpu_irq = sysio_ino_to_pil[irq];
imap = sysio_irq_to_imap(irq);
if(!imap) {
printk("request_irq: BAD, null imap for old style "
"irq registry IRQ[%x].\n", irq);
panic("Bad IRQ registery...");
}
iclr = sysio_imap_to_iclr(imap);
}
ivindex = (*imap & (SYSIO_IMAP_IGN | SYSIO_IMAP_INO));
ivindex += ivindex_fixup;
action = *(cpu_irq + irq_action);
if(action) {
if(action->flags & SA_SHIRQ)
panic("Trying to register fast irq when already shared.\n");
if(irqflags & SA_SHIRQ)
panic("Trying to register fast irq as shared.\n");
printk("request_fast_irq: Trying to register yet already owned.\n");
return -EBUSY;
}
save_and_cli(flags);
if(irqflags & SA_STATIC_ALLOC) {
if(static_irq_count < MAX_STATIC_ALLOC)
action = &static_irqaction[static_irq_count++];
else
printk("Request for IRQ%d (%s) SA_STATIC_ALLOC failed "
"using kmalloc\n", irq, name);
}
if(action == NULL)
action = (struct irqaction *)kmalloc(sizeof(struct irqaction),
GFP_KERNEL);
if(!action) {
restore_flags(flags);
return -ENOMEM;
}
install_fast_irq(cpu_irq, handler);
bucket = add_ino_hash(ivindex, imap, iclr, irqflags);
if(!bucket) {
kfree(action);
restore_flags(flags);
return -ENOMEM;
}
ivector_to_mask[ivindex] = (1 << cpu_irq);
if(dcookie) {
dcookie->ret_ino = ivindex;
dcookie->ret_pil = cpu_irq;
}
action->mask = (unsigned long) bucket;
action->handler = handler;
action->flags = irqflags | SA_IMAP_MASKED;
action->dev_id = NULL;
action->name = name;
action->next = NULL;
*(cpu_irq + irq_action) = action;
enable_irq(ivindex);
restore_flags(flags);
#ifdef __SMP__
if(irqs_have_been_distributed)
distribute_irqs();
#endif
return 0;
}
/* We really don't need these at all on the Sparc. We only have
* stubs here because they are exported to modules.
*/
unsigned long probe_irq_on(void)
{
return 0;
}
int probe_irq_off(unsigned long mask)
{
return 0;
}
/* This is gets the master TICK_INT timer going. */
void init_timers(void (*cfunc)(int, void *, struct pt_regs *),
unsigned long *clock)
{
unsigned long flags;
unsigned long timer_tick_offset;
int node, err;
node = linux_cpus[0].prom_node;
*clock = prom_getint(node, "clock-frequency");
timer_tick_offset = *clock / HZ;
/* Register IRQ handler. */
err = request_irq(0, cfunc, (SA_INTERRUPT | SA_STATIC_ALLOC),
"timer", NULL);
if(err) {
prom_printf("Serious problem, cannot register TICK_INT\n");
prom_halt();
}
save_and_cli(flags);
/* Set things up so user can access tick register for profiling
* purposes.
*/
__asm__ __volatile__("
sethi %%hi(0x80000000), %%g1
sllx %%g1, 32, %%g1
rd %%tick, %%g2
add %%g2, 6, %%g2
andn %%g2, %%g1, %%g2
wrpr %%g2, 0, %%tick
" : /* no outputs */
: /* no inputs */
: "g1", "g2");
__asm__ __volatile__("
rd %%tick, %%g1
add %%g1, %0, %%g1
wr %%g1, 0x0, %%tick_cmpr"
: /* no outputs */
: "r" (timer_tick_offset)
: "g1");
restore_flags(flags);
sti();
}
#ifdef __SMP__
/* Called from smp_commence, when we know how many cpus are in the system
* and can have device IRQ's directed at them.
*/
void distribute_irqs(void)
{
unsigned long flags;
int cpu, level;
printk("SMP: redistributing interrupts...\n");
save_and_cli(flags);
cpu = 0;
for(level = 0; level < NR_IRQS; level++) {
struct irqaction *p = irq_action[level];
while(p) {
if(p->flags & SA_IMAP_MASKED) {
struct ino_bucket *bucket = (struct ino_bucket *)p->mask;
unsigned int *imap = bucket->imap;
unsigned int val;
unsigned long tid = __cpu_logical_map[cpu] << 9;
val = *imap;
*imap = SYSIO_IMAP_VALID | (tid & SYSIO_IMAP_TID);
printk("SMP: Redirecting IGN[%x] INO[%x] "
"to cpu %d [%s]\n",
(val & SYSIO_IMAP_IGN) >> 6,
(val & SYSIO_IMAP_INO), cpu,
p->name);
cpu++;
if (cpu >= NR_CPUS || __cpu_logical_map[cpu] == -1)
cpu = 0;
}
p = p->next;
}
}
restore_flags(flags);
irqs_have_been_distributed = 1;
}
#endif
struct sun5_timer *prom_timers;
static u64 prom_limit0, prom_limit1;
static void map_prom_timers(void)
{
unsigned int addr[3];
int tnode, err;
/* PROM timer node hangs out in the top level of device siblings... */
tnode = prom_finddevice("/counter-timer");
/* Assume if node is not present, PROM uses different tick mechanism
* which we should not care about.
*/
if(tnode == 0 || tnode == -1) {
prom_timers = (struct sun5_timer *) 0;
return;
}
/* If PROM is really using this, it must be mapped by him. */
err = prom_getproperty(tnode, "address", (char *)addr, sizeof(addr));
if(err == -1) {
prom_printf("PROM does not have timer mapped, trying to continue.\n");
prom_timers = (struct sun5_timer *) 0;
return;
}
prom_timers = (struct sun5_timer *) ((unsigned long)addr[0]);
}
static void kill_prom_timer(void)
{
if(!prom_timers)
return;
/* Save them away for later. */
prom_limit0 = prom_timers->limit0;
prom_limit1 = prom_timers->limit1;
/* Just as in sun4c/sun4m PROM uses timer which ticks at IRQ 14.
* We turn both off here just to be paranoid.
*/
prom_timers->limit0 = 0;
prom_timers->limit1 = 0;
/* Wheee, eat the interrupt packet too... */
__asm__ __volatile__("
mov 0x40, %%g2
ldxa [%%g0] %0, %%g1
ldxa [%%g2] %1, %%g1
stxa %%g0, [%%g0] %0
membar #Sync
" : /* no outputs */
: "i" (ASI_INTR_RECEIVE), "i" (ASI_UDB_INTR_R)
: "g1", "g2");
}
void enable_prom_timer(void)
{
if(!prom_timers)
return;
/* Set it to whatever was there before. */
prom_timers->limit1 = prom_limit1;
prom_timers->count1 = 0;
prom_timers->limit0 = prom_limit0;
prom_timers->count0 = 0;
}
__initfunc(void init_IRQ(void))
{
int i;
map_prom_timers();
kill_prom_timer();
for(i = 0; i < NUM_IVECS; i++)
ivector_to_mask[i] = 0;
/* We need to clear any IRQ's pending in the soft interrupt
* registers, a spurious one could be left around from the
* PROM timer which we just disabled.
*/
clear_softint(get_softint());
/* Now that ivector table is initialized, it is safe
* to receive IRQ vector traps. We will normally take
* one or two right now, in case some device PROM used
* to boot us wants to speak to us. We just ignore them.
*/
__asm__ __volatile__("rdpr %%pstate, %%g1\n\t"
"or %%g1, %0, %%g1\n\t"
"wrpr %%g1, 0x0, %%pstate"
: /* No outputs */
: "i" (PSTATE_IE)
: "g1");
}
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