mirror of https://gitee.com/openkylin/linux.git
366 lines
8.3 KiB
C
366 lines
8.3 KiB
C
/*
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* arch/sh/kernel/cpu/init.c
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*
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* CPU init code
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*
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* Copyright (C) 2002 - 2009 Paul Mundt
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* Copyright (C) 2003 Richard Curnow
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*
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* This file is subject to the terms and conditions of the GNU General Public
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* License. See the file "COPYING" in the main directory of this archive
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* for more details.
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*/
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#include <linux/init.h>
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#include <linux/kernel.h>
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#include <linux/mm.h>
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#include <linux/log2.h>
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#include <asm/mmu_context.h>
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#include <asm/processor.h>
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#include <asm/uaccess.h>
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#include <asm/page.h>
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#include <asm/cacheflush.h>
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#include <asm/cache.h>
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#include <asm/elf.h>
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#include <asm/io.h>
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#include <asm/smp.h>
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#include <asm/sh_bios.h>
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#include <asm/setup.h>
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#ifdef CONFIG_SH_FPU
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#define cpu_has_fpu 1
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#else
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#define cpu_has_fpu 0
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#endif
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#ifdef CONFIG_SH_DSP
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#define cpu_has_dsp 1
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#else
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#define cpu_has_dsp 0
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#endif
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/*
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* Generic wrapper for command line arguments to disable on-chip
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* peripherals (nofpu, nodsp, and so forth).
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*/
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#define onchip_setup(x) \
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static int x##_disabled = !cpu_has_##x; \
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\
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static int x##_setup(char *opts) \
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{ \
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x##_disabled = 1; \
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return 1; \
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} \
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__setup("no" __stringify(x), x##_setup);
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onchip_setup(fpu);
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onchip_setup(dsp);
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#ifdef CONFIG_SPECULATIVE_EXECUTION
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#define CPUOPM 0xff2f0000
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#define CPUOPM_RABD (1 << 5)
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static void speculative_execution_init(void)
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{
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/* Clear RABD */
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__raw_writel(__raw_readl(CPUOPM) & ~CPUOPM_RABD, CPUOPM);
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/* Flush the update */
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(void)__raw_readl(CPUOPM);
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ctrl_barrier();
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}
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#else
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#define speculative_execution_init() do { } while (0)
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#endif
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#ifdef CONFIG_CPU_SH4A
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#define EXPMASK 0xff2f0004
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#define EXPMASK_RTEDS (1 << 0)
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#define EXPMASK_BRDSSLP (1 << 1)
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#define EXPMASK_MMCAW (1 << 4)
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static void expmask_init(void)
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{
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unsigned long expmask = __raw_readl(EXPMASK);
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/*
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* Future proofing.
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*
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* Disable support for slottable sleep instruction, non-nop
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* instructions in the rte delay slot, and associative writes to
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* the memory-mapped cache array.
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*/
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expmask &= ~(EXPMASK_RTEDS | EXPMASK_BRDSSLP | EXPMASK_MMCAW);
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__raw_writel(expmask, EXPMASK);
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ctrl_barrier();
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}
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#else
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#define expmask_init() do { } while (0)
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#endif
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/* 2nd-level cache init */
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void __attribute__ ((weak)) l2_cache_init(void)
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{
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}
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/*
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* Generic first-level cache init
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*/
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#ifdef CONFIG_SUPERH32
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static void cache_init(void)
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{
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unsigned long ccr, flags;
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jump_to_uncached();
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ccr = __raw_readl(SH_CCR);
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/*
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* At this point we don't know whether the cache is enabled or not - a
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* bootloader may have enabled it. There are at least 2 things that
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* could be dirty in the cache at this point:
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* 1. kernel command line set up by boot loader
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* 2. spilled registers from the prolog of this function
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* => before re-initialising the cache, we must do a purge of the whole
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* cache out to memory for safety. As long as nothing is spilled
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* during the loop to lines that have already been done, this is safe.
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* - RPC
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*/
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if (ccr & CCR_CACHE_ENABLE) {
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unsigned long ways, waysize, addrstart;
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waysize = current_cpu_data.dcache.sets;
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#ifdef CCR_CACHE_ORA
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/*
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* If the OC is already in RAM mode, we only have
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* half of the entries to flush..
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*/
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if (ccr & CCR_CACHE_ORA)
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waysize >>= 1;
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#endif
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waysize <<= current_cpu_data.dcache.entry_shift;
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#ifdef CCR_CACHE_EMODE
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/* If EMODE is not set, we only have 1 way to flush. */
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if (!(ccr & CCR_CACHE_EMODE))
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ways = 1;
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else
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#endif
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ways = current_cpu_data.dcache.ways;
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addrstart = CACHE_OC_ADDRESS_ARRAY;
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do {
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unsigned long addr;
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for (addr = addrstart;
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addr < addrstart + waysize;
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addr += current_cpu_data.dcache.linesz)
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__raw_writel(0, addr);
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addrstart += current_cpu_data.dcache.way_incr;
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} while (--ways);
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}
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/*
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* Default CCR values .. enable the caches
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* and invalidate them immediately..
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*/
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flags = CCR_CACHE_ENABLE | CCR_CACHE_INVALIDATE;
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#ifdef CCR_CACHE_EMODE
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/* Force EMODE if possible */
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if (current_cpu_data.dcache.ways > 1)
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flags |= CCR_CACHE_EMODE;
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else
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flags &= ~CCR_CACHE_EMODE;
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#endif
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#if defined(CONFIG_CACHE_WRITETHROUGH)
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/* Write-through */
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flags |= CCR_CACHE_WT;
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#elif defined(CONFIG_CACHE_WRITEBACK)
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/* Write-back */
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flags |= CCR_CACHE_CB;
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#else
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/* Off */
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flags &= ~CCR_CACHE_ENABLE;
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#endif
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l2_cache_init();
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__raw_writel(flags, SH_CCR);
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back_to_cached();
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}
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#else
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#define cache_init() do { } while (0)
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#endif
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#define CSHAPE(totalsize, linesize, assoc) \
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((totalsize & ~0xff) | (linesize << 4) | assoc)
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#define CACHE_DESC_SHAPE(desc) \
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CSHAPE((desc).way_size * (desc).ways, ilog2((desc).linesz), (desc).ways)
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static void detect_cache_shape(void)
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{
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l1d_cache_shape = CACHE_DESC_SHAPE(current_cpu_data.dcache);
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if (current_cpu_data.dcache.flags & SH_CACHE_COMBINED)
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l1i_cache_shape = l1d_cache_shape;
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else
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l1i_cache_shape = CACHE_DESC_SHAPE(current_cpu_data.icache);
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if (current_cpu_data.flags & CPU_HAS_L2_CACHE)
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l2_cache_shape = CACHE_DESC_SHAPE(current_cpu_data.scache);
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else
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l2_cache_shape = -1; /* No S-cache */
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}
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static void fpu_init(void)
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{
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/* Disable the FPU */
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if (fpu_disabled && (current_cpu_data.flags & CPU_HAS_FPU)) {
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printk("FPU Disabled\n");
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current_cpu_data.flags &= ~CPU_HAS_FPU;
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}
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disable_fpu();
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clear_used_math();
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}
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#ifdef CONFIG_SH_DSP
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static void release_dsp(void)
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{
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unsigned long sr;
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/* Clear SR.DSP bit */
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__asm__ __volatile__ (
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"stc\tsr, %0\n\t"
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"and\t%1, %0\n\t"
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"ldc\t%0, sr\n\t"
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: "=&r" (sr)
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: "r" (~SR_DSP)
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);
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}
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static void dsp_init(void)
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{
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unsigned long sr;
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/*
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* Set the SR.DSP bit, wait for one instruction, and then read
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* back the SR value.
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*/
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__asm__ __volatile__ (
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"stc\tsr, %0\n\t"
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"or\t%1, %0\n\t"
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"ldc\t%0, sr\n\t"
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"nop\n\t"
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"stc\tsr, %0\n\t"
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: "=&r" (sr)
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: "r" (SR_DSP)
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);
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/* If the DSP bit is still set, this CPU has a DSP */
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if (sr & SR_DSP)
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current_cpu_data.flags |= CPU_HAS_DSP;
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/* Disable the DSP */
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if (dsp_disabled && (current_cpu_data.flags & CPU_HAS_DSP)) {
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printk("DSP Disabled\n");
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current_cpu_data.flags &= ~CPU_HAS_DSP;
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}
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/* Now that we've determined the DSP status, clear the DSP bit. */
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release_dsp();
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}
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#else
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static inline void dsp_init(void) { }
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#endif /* CONFIG_SH_DSP */
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/**
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* cpu_init
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*
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* This is our initial entry point for each CPU, and is invoked on the
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* boot CPU prior to calling start_kernel(). For SMP, a combination of
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* this and start_secondary() will bring up each processor to a ready
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* state prior to hand forking the idle loop.
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*
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* We do all of the basic processor init here, including setting up
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* the caches, FPU, DSP, etc. By the time start_kernel() is hit (and
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* subsequently platform_setup()) things like determining the CPU
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* subtype and initial configuration will all be done.
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*
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* Each processor family is still responsible for doing its own probing
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* and cache configuration in cpu_probe().
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*/
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asmlinkage void cpu_init(void)
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{
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current_thread_info()->cpu = hard_smp_processor_id();
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/* First, probe the CPU */
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cpu_probe();
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if (current_cpu_data.type == CPU_SH_NONE)
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panic("Unknown CPU");
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/* First setup the rest of the I-cache info */
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current_cpu_data.icache.entry_mask = current_cpu_data.icache.way_incr -
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current_cpu_data.icache.linesz;
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current_cpu_data.icache.way_size = current_cpu_data.icache.sets *
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current_cpu_data.icache.linesz;
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/* And the D-cache too */
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current_cpu_data.dcache.entry_mask = current_cpu_data.dcache.way_incr -
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current_cpu_data.dcache.linesz;
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current_cpu_data.dcache.way_size = current_cpu_data.dcache.sets *
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current_cpu_data.dcache.linesz;
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/* Init the cache */
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cache_init();
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if (raw_smp_processor_id() == 0) {
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shm_align_mask = max_t(unsigned long,
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current_cpu_data.dcache.way_size - 1,
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PAGE_SIZE - 1);
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/* Boot CPU sets the cache shape */
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detect_cache_shape();
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}
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fpu_init();
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dsp_init();
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/*
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* Initialize the per-CPU ASID cache very early, since the
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* TLB flushing routines depend on this being setup.
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*/
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current_cpu_data.asid_cache = NO_CONTEXT;
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current_cpu_data.phys_bits = __in_29bit_mode() ? 29 : 32;
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speculative_execution_init();
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expmask_init();
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/* Do the rest of the boot processor setup */
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if (raw_smp_processor_id() == 0) {
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/* Save off the BIOS VBR, if there is one */
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sh_bios_vbr_init();
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/*
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* Setup VBR for boot CPU. Secondary CPUs do this through
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* start_secondary().
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*/
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per_cpu_trap_init();
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/*
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* Boot processor to setup the FP and extended state
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* context info.
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*/
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init_thread_xstate();
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}
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}
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