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74d00a8c38
* properly format/comment all patches * merge debloat patches * merge Kconfig patches * merge swconfig patches * merge hotplug patches * drop 200-fix_localversion.patch - upstream * drop 222-arm_zimage_none.patch - unused * drop 252-mv_cesa_depends.patch - no longer required * drop 410-mtd-move-forward-declaration-of-struct-mtd_info.patch - unused * drop 661-fq_codel_keep_dropped_stats.patch - outdated * drop 702-phy_add_aneg_done_function.patch - upstream * drop 840-rtc7301.patch - unused * drop 841-rtc_pt7c4338.patch - upstream * drop 921-use_preinit_as_init.patch - unused * drop spio-gpio-old and gpio-mmc - unused Signed-off-by: John Crispin <john@phrozen.org>
318 lines
10 KiB
Diff
318 lines
10 KiB
Diff
From: James Hogan <james.hogan@imgtec.com>
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Date: Mon, 25 Jan 2016 21:30:00 +0000
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Subject: [PATCH] MIPS: c-r4k: Use IPI calls for CM indexed cache ops
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The Coherence Manager (CM) can propagate address-based ("hit") cache
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operations to other cores in the coherent system, alleviating software
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of the need to use IPI calls, however indexed cache operations are not
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propagated since doing so makes no sense for separate caches.
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r4k_on_each_cpu() previously had a special case for CONFIG_MIPS_MT_SMP,
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intended to avoid the IPIs when the only other CPUs in the system were
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other VPEs in the same core, and hence sharing the same caches. This was
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changed by commit cccf34e9411c ("MIPS: c-r4k: Fix cache flushing for MT
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cores") to apparently handle multi-core multi-VPE systems, but it
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focussed mainly on hit cache ops, so the IPI calls were still disabled
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entirely for CM systems.
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This doesn't normally cause problems, but tests can be written to hit
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these corner cases by using multiple threads, or changing task
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affinities to force the process to migrate cores. For example the
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failure of mprotect RW->RX to globally sync icaches (via
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flush_cache_range) can be detected by modifying and mprotecting a code
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page on one core, and migrating to a different core to execute from it.
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Most of the functions called by r4k_on_each_cpu() perform cache
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operations exclusively with a single addressing-type (virtual address vs
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indexed), so add a type argument and modify the callers to pass in
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R4K_USER (user virtual addressing), R4K_KERN (global kernel virtual
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addressing) or R4K_INDEX (index into cache).
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local_r4k_flush_icache_range() is split up, to allow it to be called
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from the rest of the kernel, or from r4k_flush_icache_range() where it
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will choose either indexed or hit cache operations based on the size of
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the range and the cache sizes.
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local_r4k_flush_kernel_vmap_range() is split into two functions, each of
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which uses cache operations with a single addressing-type, with
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r4k_flush_kernel_vmap_range() making the decision whether to use indexed
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cache ops or not.
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Signed-off-by: James Hogan <james.hogan@imgtec.com>
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Cc: Ralf Baechle <ralf@linux-mips.org>
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Cc: Paul Burton <paul.burton@imgtec.com>
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Cc: Leonid Yegoshin <leonid.yegoshin@imgtec.com>
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Cc: linux-mips@linux-mips.org
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---
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--- a/arch/mips/mm/c-r4k.c
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+++ b/arch/mips/mm/c-r4k.c
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@@ -40,6 +40,50 @@
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#include <asm/mips-cm.h>
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/*
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+ * Bits describing what cache ops an IPI callback function may perform.
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+ *
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+ * R4K_USER - Virtual user address based cache operations.
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+ * Ineffective on other CPUs.
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+ * R4K_KERN - Virtual kernel address based cache operations (including kmap).
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+ * Effective on other CPUs.
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+ * R4K_INDEX - Index based cache operations.
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+ * Effective on other CPUs.
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+ */
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+
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+#define R4K_USER BIT(0)
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+#define R4K_KERN BIT(1)
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+#define R4K_INDEX BIT(2)
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+
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+#ifdef CONFIG_SMP
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+/* The Coherence manager propagates address-based cache ops to other cores */
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+#define r4k_hit_globalized mips_cm_present()
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+#define r4k_index_globalized 0
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+#else
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+/* If there's only 1 CPU, then all cache ops are globalized to that 1 CPU */
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+#define r4k_hit_globalized 1
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+#define r4k_index_globalized 1
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+#endif
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+
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+/**
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+ * r4k_op_needs_ipi() - Decide if a cache op needs to be done on every core.
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+ * @type: Type of cache operations (R4K_USER, R4K_KERN or R4K_INDEX).
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+ *
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+ * Returns: 1 if the cache operation @type should be done on every core in
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+ * the system.
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+ * 0 if the cache operation @type is globalized and only needs to
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+ * be performed on a simple CPU.
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+ */
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+static inline bool r4k_op_needs_ipi(unsigned int type)
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+{
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+ /*
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+ * If hardware doesn't globalize the required cache ops we must use IPIs
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+ * to do so.
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+ */
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+ return (type & R4K_KERN && !r4k_hit_globalized) ||
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+ (type & R4K_INDEX && !r4k_index_globalized);
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+}
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+
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+/*
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* Special Variant of smp_call_function for use by cache functions:
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*
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* o No return value
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@@ -48,19 +92,11 @@
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* primary cache.
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* o doesn't disable interrupts on the local CPU
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*/
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-static inline void r4k_on_each_cpu(void (*func) (void *info), void *info)
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+static inline void r4k_on_each_cpu(unsigned int type,
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+ void (*func) (void *info), void *info)
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{
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preempt_disable();
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-
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- /*
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- * The Coherent Manager propagates address-based cache ops to other
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- * cores but not index-based ops. However, r4k_on_each_cpu is used
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- * in both cases so there is no easy way to tell what kind of op is
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- * executed to the other cores. The best we can probably do is
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- * to restrict that call when a CM is not present because both
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- * CM-based SMP protocols (CMP & CPS) restrict index-based cache ops.
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- */
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- if (!mips_cm_present())
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+ if (r4k_op_needs_ipi(type))
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smp_call_function_many(&cpu_foreign_map, func, info, 1);
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func(info);
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preempt_enable();
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@@ -456,7 +492,7 @@ static inline void local_r4k___flush_cac
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static void r4k___flush_cache_all(void)
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{
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- r4k_on_each_cpu(local_r4k___flush_cache_all, NULL);
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+ r4k_on_each_cpu(R4K_INDEX, local_r4k___flush_cache_all, NULL);
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}
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static inline int has_valid_asid(const struct mm_struct *mm)
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@@ -503,7 +539,7 @@ static void r4k_flush_cache_range(struct
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int exec = vma->vm_flags & VM_EXEC;
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if (cpu_has_dc_aliases || (exec && !cpu_has_ic_fills_f_dc))
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- r4k_on_each_cpu(local_r4k_flush_cache_range, vma);
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+ r4k_on_each_cpu(R4K_INDEX, local_r4k_flush_cache_range, vma);
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}
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static inline void local_r4k_flush_cache_mm(void * args)
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@@ -535,7 +571,7 @@ static void r4k_flush_cache_mm(struct mm
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if (!cpu_has_dc_aliases)
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return;
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- r4k_on_each_cpu(local_r4k_flush_cache_mm, mm);
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+ r4k_on_each_cpu(R4K_INDEX, local_r4k_flush_cache_mm, mm);
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}
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struct flush_cache_page_args {
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@@ -629,7 +665,7 @@ static void r4k_flush_cache_page(struct
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args.addr = addr;
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args.pfn = pfn;
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- r4k_on_each_cpu(local_r4k_flush_cache_page, &args);
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+ r4k_on_each_cpu(R4K_KERN, local_r4k_flush_cache_page, &args);
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}
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static inline void local_r4k_flush_data_cache_page(void * addr)
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@@ -642,18 +678,23 @@ static void r4k_flush_data_cache_page(un
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if (in_atomic())
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local_r4k_flush_data_cache_page((void *)addr);
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else
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- r4k_on_each_cpu(local_r4k_flush_data_cache_page, (void *) addr);
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+ r4k_on_each_cpu(R4K_KERN, local_r4k_flush_data_cache_page,
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+ (void *) addr);
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}
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struct flush_icache_range_args {
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unsigned long start;
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unsigned long end;
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+ unsigned int type;
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};
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-static inline void local_r4k_flush_icache_range(unsigned long start, unsigned long end)
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+static inline void __local_r4k_flush_icache_range(unsigned long start,
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+ unsigned long end,
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+ unsigned int type)
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{
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if (!cpu_has_ic_fills_f_dc) {
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- if (end - start >= dcache_size) {
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+ if (type == R4K_INDEX ||
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+ (type & R4K_INDEX && end - start >= dcache_size)) {
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r4k_blast_dcache();
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} else {
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R4600_HIT_CACHEOP_WAR_IMPL;
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@@ -661,7 +702,8 @@ static inline void local_r4k_flush_icach
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}
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}
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- if (end - start > icache_size)
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+ if (type == R4K_INDEX ||
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+ (type & R4K_INDEX && end - start > icache_size))
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r4k_blast_icache();
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else {
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switch (boot_cpu_type()) {
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@@ -687,23 +729,59 @@ static inline void local_r4k_flush_icach
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#endif
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}
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+static inline void local_r4k_flush_icache_range(unsigned long start,
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+ unsigned long end)
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+{
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+ __local_r4k_flush_icache_range(start, end, R4K_KERN | R4K_INDEX);
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+}
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+
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static inline void local_r4k_flush_icache_range_ipi(void *args)
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{
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struct flush_icache_range_args *fir_args = args;
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unsigned long start = fir_args->start;
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unsigned long end = fir_args->end;
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+ unsigned int type = fir_args->type;
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- local_r4k_flush_icache_range(start, end);
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+ __local_r4k_flush_icache_range(start, end, type);
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}
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static void r4k_flush_icache_range(unsigned long start, unsigned long end)
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{
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struct flush_icache_range_args args;
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+ unsigned long size, cache_size;
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args.start = start;
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args.end = end;
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+ args.type = R4K_KERN | R4K_INDEX;
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- r4k_on_each_cpu(local_r4k_flush_icache_range_ipi, &args);
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+ if (in_atomic()) {
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+ /*
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+ * We can't do blocking IPI calls from atomic context, so fall
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+ * back to pure address-based cache ops if they globalize.
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+ */
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+ if (!r4k_index_globalized && r4k_hit_globalized) {
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+ args.type &= ~R4K_INDEX;
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+ } else {
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+ /* Just do it locally instead. */
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+ local_r4k_flush_icache_range(start, end);
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+ instruction_hazard();
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+ return;
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+ }
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+ } else if (!r4k_index_globalized && r4k_hit_globalized) {
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+ /*
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+ * If address-based cache ops are globalized, then we may be
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+ * able to avoid the IPI for small flushes.
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+ */
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+ size = start - end;
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+ cache_size = icache_size;
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+ if (!cpu_has_ic_fills_f_dc) {
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+ size *= 2;
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+ cache_size += dcache_size;
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+ }
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+ if (size <= cache_size)
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+ args.type &= ~R4K_INDEX;
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+ }
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+ r4k_on_each_cpu(args.type, local_r4k_flush_icache_range_ipi, &args);
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instruction_hazard();
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}
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@@ -823,7 +901,12 @@ static void local_r4k_flush_cache_sigtra
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static void r4k_flush_cache_sigtramp(unsigned long addr)
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{
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- r4k_on_each_cpu(local_r4k_flush_cache_sigtramp, (void *) addr);
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+ /*
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+ * FIXME this is a bit broken when !r4k_hit_globalized, since the user
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+ * code probably won't be mapped on other CPUs, so if the process is
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+ * migrated, it could end up hitting stale icache lines.
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+ */
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+ r4k_on_each_cpu(R4K_USER, local_r4k_flush_cache_sigtramp, (void *)addr);
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}
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static void r4k_flush_icache_all(void)
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@@ -837,6 +920,15 @@ struct flush_kernel_vmap_range_args {
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int size;
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};
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+static inline void local_r4k_flush_kernel_vmap_range_index(void *args)
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+{
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+ /*
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+ * Aliases only affect the primary caches so don't bother with
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+ * S-caches or T-caches.
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+ */
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+ r4k_blast_dcache();
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+}
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+
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static inline void local_r4k_flush_kernel_vmap_range(void *args)
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{
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struct flush_kernel_vmap_range_args *vmra = args;
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@@ -847,12 +939,8 @@ static inline void local_r4k_flush_kerne
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* Aliases only affect the primary caches so don't bother with
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* S-caches or T-caches.
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*/
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- if (cpu_has_safe_index_cacheops && size >= dcache_size)
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- r4k_blast_dcache();
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- else {
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- R4600_HIT_CACHEOP_WAR_IMPL;
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- blast_dcache_range(vaddr, vaddr + size);
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- }
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+ R4600_HIT_CACHEOP_WAR_IMPL;
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+ blast_dcache_range(vaddr, vaddr + size);
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}
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static void r4k_flush_kernel_vmap_range(unsigned long vaddr, int size)
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@@ -862,7 +950,12 @@ static void r4k_flush_kernel_vmap_range(
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args.vaddr = (unsigned long) vaddr;
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args.size = size;
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- r4k_on_each_cpu(local_r4k_flush_kernel_vmap_range, &args);
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+ if (cpu_has_safe_index_cacheops && size >= dcache_size)
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+ r4k_on_each_cpu(R4K_INDEX,
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+ local_r4k_flush_kernel_vmap_range_index, NULL);
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+ else
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+ r4k_on_each_cpu(R4K_KERN, local_r4k_flush_kernel_vmap_range,
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+ &args);
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}
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static inline void rm7k_erratum31(void)
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