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244 lines
7.5 KiB
244 lines
7.5 KiB
/*
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* Copyright 2010 Tilera Corporation. All Rights Reserved.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation, version 2.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, GOOD TITLE or
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* NON INFRINGEMENT. See the GNU General Public License for
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* more details.
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*/
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#ifndef _ASM_TILE_SYSTEM_H
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#define _ASM_TILE_SYSTEM_H
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#ifndef __ASSEMBLY__
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#include <linux/types.h>
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#include <linux/irqflags.h>
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/* NOTE: we can't include <linux/ptrace.h> due to #include dependencies. */
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#include <asm/ptrace.h>
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#include <arch/chip.h>
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#include <arch/sim_def.h>
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#include <arch/spr_def.h>
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/*
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* read_barrier_depends - Flush all pending reads that subsequents reads
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* depend on.
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*
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* No data-dependent reads from memory-like regions are ever reordered
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* over this barrier. All reads preceding this primitive are guaranteed
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* to access memory (but not necessarily other CPUs' caches) before any
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* reads following this primitive that depend on the data return by
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* any of the preceding reads. This primitive is much lighter weight than
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* rmb() on most CPUs, and is never heavier weight than is
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* rmb().
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*
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* These ordering constraints are respected by both the local CPU
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* and the compiler.
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*
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* Ordering is not guaranteed by anything other than these primitives,
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* not even by data dependencies. See the documentation for
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* memory_barrier() for examples and URLs to more information.
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*
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* For example, the following code would force ordering (the initial
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* value of "a" is zero, "b" is one, and "p" is "&a"):
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*
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* <programlisting>
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* CPU 0 CPU 1
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*
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* b = 2;
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* memory_barrier();
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* p = &b; q = p;
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* read_barrier_depends();
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* d = *q;
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* </programlisting>
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*
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* because the read of "*q" depends on the read of "p" and these
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* two reads are separated by a read_barrier_depends(). However,
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* the following code, with the same initial values for "a" and "b":
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*
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* <programlisting>
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* CPU 0 CPU 1
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*
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* a = 2;
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* memory_barrier();
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* b = 3; y = b;
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* read_barrier_depends();
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* x = a;
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* </programlisting>
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*
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* does not enforce ordering, since there is no data dependency between
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* the read of "a" and the read of "b". Therefore, on some CPUs, such
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* as Alpha, "y" could be set to 3 and "x" to 0. Use rmb()
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* in cases like this where there are no data dependencies.
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*/
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#define read_barrier_depends() do { } while (0)
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#define __sync() __insn_mf()
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#if CHIP_HAS_SPLIT_CYCLE()
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#define get_cycles_low() __insn_mfspr(SPR_CYCLE_LOW)
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#else
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#define get_cycles_low() __insn_mfspr(SPR_CYCLE) /* just get all 64 bits */
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#endif
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#if !CHIP_HAS_MF_WAITS_FOR_VICTIMS()
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int __mb_incoherent(void); /* Helper routine for mb_incoherent(). */
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#endif
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/* Fence to guarantee visibility of stores to incoherent memory. */
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static inline void
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mb_incoherent(void)
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{
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__insn_mf();
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#if !CHIP_HAS_MF_WAITS_FOR_VICTIMS()
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{
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#if CHIP_HAS_TILE_WRITE_PENDING()
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const unsigned long WRITE_TIMEOUT_CYCLES = 400;
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unsigned long start = get_cycles_low();
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do {
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if (__insn_mfspr(SPR_TILE_WRITE_PENDING) == 0)
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return;
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} while ((get_cycles_low() - start) < WRITE_TIMEOUT_CYCLES);
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#endif /* CHIP_HAS_TILE_WRITE_PENDING() */
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(void) __mb_incoherent();
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}
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#endif /* CHIP_HAS_MF_WAITS_FOR_VICTIMS() */
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}
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#define fast_wmb() __sync()
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#define fast_rmb() __sync()
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#define fast_mb() __sync()
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#define fast_iob() mb_incoherent()
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#define wmb() fast_wmb()
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#define rmb() fast_rmb()
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#define mb() fast_mb()
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#define iob() fast_iob()
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#ifdef CONFIG_SMP
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#define smp_mb() mb()
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#define smp_rmb() rmb()
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#define smp_wmb() wmb()
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#define smp_read_barrier_depends() read_barrier_depends()
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#else
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#define smp_mb() barrier()
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#define smp_rmb() barrier()
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#define smp_wmb() barrier()
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#define smp_read_barrier_depends() do { } while (0)
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#endif
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#define set_mb(var, value) \
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do { var = value; mb(); } while (0)
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/*
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* Pause the DMA engine and static network before task switching.
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*/
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#define prepare_arch_switch(next) _prepare_arch_switch(next)
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void _prepare_arch_switch(struct task_struct *next);
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/*
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* switch_to(n) should switch tasks to task nr n, first
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* checking that n isn't the current task, in which case it does nothing.
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* The number of callee-saved registers saved on the kernel stack
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* is defined here for use in copy_thread() and must agree with __switch_to().
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*/
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#endif /* !__ASSEMBLY__ */
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#define CALLEE_SAVED_FIRST_REG 30
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#define CALLEE_SAVED_REGS_COUNT 24 /* r30 to r52, plus an empty to align */
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#ifndef __ASSEMBLY__
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struct task_struct;
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#define switch_to(prev, next, last) ((last) = _switch_to((prev), (next)))
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extern struct task_struct *_switch_to(struct task_struct *prev,
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struct task_struct *next);
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/* Helper function for _switch_to(). */
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extern struct task_struct *__switch_to(struct task_struct *prev,
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struct task_struct *next,
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unsigned long new_system_save_k_0);
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/* Address that switched-away from tasks are at. */
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extern unsigned long get_switch_to_pc(void);
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/*
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* On SMP systems, when the scheduler does migration-cost autodetection,
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* it needs a way to flush as much of the CPU's caches as possible:
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*
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* TODO: fill this in!
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*/
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static inline void sched_cacheflush(void)
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{
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}
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#define arch_align_stack(x) (x)
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/*
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* Is the kernel doing fixups of unaligned accesses? If <0, no kernel
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* intervention occurs and SIGBUS is delivered with no data address
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* info. If 0, the kernel single-steps the instruction to discover
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* the data address to provide with the SIGBUS. If 1, the kernel does
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* a fixup.
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*/
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extern int unaligned_fixup;
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/* Is the kernel printing on each unaligned fixup? */
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extern int unaligned_printk;
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/* Number of unaligned fixups performed */
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extern unsigned int unaligned_fixup_count;
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/* Init-time routine to do tile-specific per-cpu setup. */
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void setup_cpu(int boot);
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/* User-level DMA management functions */
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void grant_dma_mpls(void);
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void restrict_dma_mpls(void);
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#ifdef CONFIG_HARDWALL
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/* User-level network management functions */
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void reset_network_state(void);
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void grant_network_mpls(void);
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void restrict_network_mpls(void);
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int hardwall_deactivate(struct task_struct *task);
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/* Hook hardwall code into changes in affinity. */
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#define arch_set_cpus_allowed(p, new_mask) do { \
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if (p->thread.hardwall && !cpumask_equal(&p->cpus_allowed, new_mask)) \
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hardwall_deactivate(p); \
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} while (0)
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#endif
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/*
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* Kernel threads can check to see if they need to migrate their
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* stack whenever they return from a context switch; for user
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* threads, we defer until they are returning to user-space.
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*/
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#define finish_arch_switch(prev) do { \
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if (unlikely((prev)->state == TASK_DEAD)) \
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__insn_mtspr(SPR_SIM_CONTROL, SIM_CONTROL_OS_EXIT | \
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((prev)->pid << _SIM_CONTROL_OPERATOR_BITS)); \
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__insn_mtspr(SPR_SIM_CONTROL, SIM_CONTROL_OS_SWITCH | \
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(current->pid << _SIM_CONTROL_OPERATOR_BITS)); \
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if (current->mm == NULL && !kstack_hash && \
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current_thread_info()->homecache_cpu != smp_processor_id()) \
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homecache_migrate_kthread(); \
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} while (0)
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/* Support function for forking a new task. */
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void ret_from_fork(void);
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/* Called from ret_from_fork() when a new process starts up. */
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struct task_struct *sim_notify_fork(struct task_struct *prev);
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#endif /* !__ASSEMBLY__ */
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#endif /* _ASM_TILE_SYSTEM_H */
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