Merge master.kernel.org:/pub/scm/linux/kernel/git/willy/parisc-2.6
* master.kernel.org:/pub/scm/linux/kernel/git/willy/parisc-2.6: [PA-RISC] Fix time.c for new do_timer() calling convention [PA-RISC] Fix must_check warnings in drivers.c [PA-RISC] Fix parisc_newuname() [PA-RISC] Remove warning from pci.c [PA-RISC] Fix filldir warnings [PA-RISC] Fix sys32_sysctl [PA-RISC] Fix sba_iommu compilation
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commit
4b8447184a
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@ -73,7 +73,7 @@ struct getdents_callback {
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#define ROUND_UP(x) (((x)+sizeof(long)-1) & ~(sizeof(long)-1))
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static int filldir(void * __buf, const char * name, int namlen, loff_t offset,
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ino_t ino, unsigned d_type)
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u64 ino, unsigned d_type)
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{
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struct hpux_dirent * dirent;
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struct getdents_callback * buf = (struct getdents_callback *) __buf;
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@ -424,7 +424,10 @@ struct parisc_device * create_tree_node(char id, struct device *parent)
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/* make the generic dma mask a pointer to the parisc one */
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dev->dev.dma_mask = &dev->dma_mask;
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dev->dev.coherent_dma_mask = dev->dma_mask;
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device_register(&dev->dev);
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if (!device_register(&dev->dev)) {
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kfree(dev);
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return NULL;
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}
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return dev;
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}
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@ -850,8 +853,10 @@ static void print_parisc_device(struct parisc_device *dev)
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*/
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void init_parisc_bus(void)
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{
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bus_register(&parisc_bus_type);
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device_register(&root);
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if (!bus_register(&parisc_bus_type))
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panic("Could not register PA-RISC bus type\n");
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if (!device_register(&root))
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panic("Could not register PA-RISC root device\n");
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get_device(&root);
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}
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@ -290,7 +290,7 @@ EXPORT_SYMBOL(pcibios_bus_to_resource);
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void pcibios_align_resource(void *data, struct resource *res,
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resource_size_t size, resource_size_t alignment)
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{
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unsigned long mask, align;
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resource_size_t mask, align;
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DBG_RES("pcibios_align_resource(%s, (%p) [%lx,%lx]/%x, 0x%lx, 0x%lx)\n",
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pci_name(((struct pci_dev *) data)),
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@ -266,30 +266,17 @@ long parisc_personality(unsigned long personality)
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return err;
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}
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static inline int override_machine(char __user *mach) {
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#ifdef CONFIG_COMPAT
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if (personality(current->personality) == PER_LINUX32) {
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if (__put_user(0, mach + 6) ||
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__put_user(0, mach + 7))
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return -EFAULT;
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}
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return 0;
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#else /*!CONFIG_COMPAT*/
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return 0;
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#endif /*CONFIG_COMPAT*/
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}
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long parisc_newuname(struct new_utsname __user *utsname)
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long parisc_newuname(struct new_utsname __user *name)
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{
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int err = 0;
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int err = sys_newuname(name);
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down_read(&uts_sem);
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if (copy_to_user(utsname, &system_utsname, sizeof(*utsname)))
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err = -EFAULT;
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up_read(&uts_sem);
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#ifdef CONFIG_COMPAT
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if (!err && personality(current->personality) == PER_LINUX32) {
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if (__put_user(0, name->machine + 6) ||
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__put_user(0, name->machine + 7))
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err = -EFAULT;
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}
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#endif
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err = override_machine(utsname->machine);
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return (long)err;
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return err;
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}
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@ -111,13 +111,14 @@ struct __sysctl_args32 {
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asmlinkage long sys32_sysctl(struct __sysctl_args32 __user *args)
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{
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#ifndef CONFIG_SYSCTL_SYSCALL
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return -ENOSYS;
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#else
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struct __sysctl_args32 tmp;
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int error;
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unsigned int oldlen32;
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size_t oldlen, *oldlenp = NULL;
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size_t oldlen, __user *oldlenp = NULL;
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unsigned long addr = (((long __force)&args->__unused[0]) + 7) & ~7;
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extern int do_sysctl(int *name, int nlen, void *oldval, size_t *oldlenp,
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void *newval, size_t newlen);
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DBG(("sysctl32(%p)\n", args));
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@ -144,8 +145,9 @@ asmlinkage long sys32_sysctl(struct __sysctl_args32 __user *args)
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}
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lock_kernel();
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error = do_sysctl((int *)(u64)tmp.name, tmp.nlen, (void *)(u64)tmp.oldval,
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oldlenp, (void *)(u64)tmp.newval, tmp.newlen);
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error = do_sysctl((int __user *)(u64)tmp.name, tmp.nlen,
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(void __user *)(u64)tmp.oldval, oldlenp,
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(void __user *)(u64)tmp.newval, tmp.newlen);
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unlock_kernel();
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if (oldlenp) {
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if (!error) {
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@ -157,10 +159,11 @@ asmlinkage long sys32_sysctl(struct __sysctl_args32 __user *args)
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error = -EFAULT;
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}
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}
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if (copy_to_user(&args->__unused[0], tmp.__unused, sizeof(tmp.__unused)))
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if (copy_to_user(args->__unused, tmp.__unused, sizeof(tmp.__unused)))
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error = -EFAULT;
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}
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return error;
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#endif
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}
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#endif /* CONFIG_SYSCTL */
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@ -310,9 +313,8 @@ struct readdir32_callback {
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#define ROUND_UP(x,a) ((__typeof__(x))(((unsigned long)(x) + ((a) - 1)) & ~((a) - 1)))
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#define NAME_OFFSET(de) ((int) ((de)->d_name - (char __user *) (de)))
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static int
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filldir32 (void *__buf, const char *name, int namlen, loff_t offset, ino_t ino,
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unsigned int d_type)
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static int filldir32 (void *__buf, const char *name, int namlen,
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loff_t offset, u64 ino, unsigned int d_type)
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{
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struct linux32_dirent __user * dirent;
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struct getdents32_callback * buf = (struct getdents32_callback *) __buf;
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@ -374,9 +376,8 @@ out:
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return error;
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}
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static int
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fillonedir32 (void * __buf, const char * name, int namlen, loff_t offset, ino_t ino,
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unsigned int d_type)
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static int fillonedir32(void * __buf, const char * name, int namlen,
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loff_t offset, u64 ino, unsigned int d_type)
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{
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struct readdir32_callback * buf = (struct readdir32_callback *) __buf;
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struct old_linux32_dirent __user * dirent;
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@ -38,11 +38,28 @@ static unsigned long clocktick __read_mostly; /* timer cycles per tick */
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extern void smp_do_timer(struct pt_regs *regs);
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#endif
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/*
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* We keep time on PA-RISC Linux by using the Interval Timer which is
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* a pair of registers; one is read-only and one is write-only; both
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* accessed through CR16. The read-only register is 32 or 64 bits wide,
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* and increments by 1 every CPU clock tick. The architecture only
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* guarantees us a rate between 0.5 and 2, but all implementations use a
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* rate of 1. The write-only register is 32-bits wide. When the lowest
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* 32 bits of the read-only register compare equal to the write-only
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* register, it raises a maskable external interrupt. Each processor has
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* an Interval Timer of its own and they are not synchronised.
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*
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* We want to generate an interrupt every 1/HZ seconds. So we program
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* CR16 to interrupt every @clocktick cycles. The it_value in cpu_data
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* is programmed with the intended time of the next tick. We can be
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* held off for an arbitrarily long period of time by interrupts being
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* disabled, so we may miss one or more ticks.
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*/
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irqreturn_t timer_interrupt(int irq, void *dev_id, struct pt_regs *regs)
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{
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unsigned long now;
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unsigned long next_tick;
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unsigned long cycles_elapsed;
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unsigned long cycles_elapsed, ticks_elapsed;
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unsigned long cycles_remainder;
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unsigned int cpu = smp_processor_id();
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* of the more expensive div/mul method
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*/
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cycles_remainder = cycles_elapsed;
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ticks_elapsed = 1;
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while (cycles_remainder > cpt) {
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cycles_remainder -= cpt;
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ticks_elapsed++;
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}
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} else {
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cycles_remainder = cycles_elapsed % cpt;
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ticks_elapsed = 1 + cycles_elapsed / cpt;
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}
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/* Can we differentiate between "early CR16" (aka Scenario 1) and
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* cycles after the IT fires. But it's arbitrary how much time passes
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* before we call it "late". I've picked one second.
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*/
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/* aproximate HZ with shifts. Intended math is "(elapsed/clocktick) > HZ" */
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#if HZ == 1000
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if (cycles_elapsed > (cpt << 10) )
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#elif HZ == 250
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if (cycles_elapsed > (cpt << 8) )
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#elif HZ == 100
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if (cycles_elapsed > (cpt << 7) )
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#else
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#warn WTF is HZ set to anyway?
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if (cycles_elapsed > (HZ * cpt) )
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#endif
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{
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if (ticks_elapsed > HZ) {
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/* Scenario 3: very long delay? bad in any case */
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printk (KERN_CRIT "timer_interrupt(CPU %d): delayed!"
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" cycles %lX rem %lX "
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#endif
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if (cpu == 0) {
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write_seqlock(&xtime_lock);
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do_timer(regs);
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do_timer(ticks_elapsed);
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write_sequnlock(&xtime_lock);
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}
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@ -1320,12 +1320,12 @@ sba_ioc_init_pluto(struct parisc_device *sba, struct ioc *ioc, int ioc_num)
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** the GART code to handshake on.
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*/
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klist_iter_init(&sba->dev.klist_children, &i);
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while (dev = next_device(&i)) {
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while ((dev = next_device(&i))) {
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struct parisc_device *lba = to_parisc_device(dev);
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if (IS_QUICKSILVER(lba))
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agp_found = 1;
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}
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klist_iter_exit(&sba->dev.klist_children, &i);
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klist_iter_exit(&i);
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if (agp_found && sba_reserve_agpgart) {
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printk(KERN_INFO "%s: reserving %dMb of IOVA space for agpgart\n",
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