366 lines
8.3 KiB
ArmAsm
366 lines
8.3 KiB
ArmAsm
/* SPDX-License-Identifier: GPL-2.0
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* $Id: head.S,v 1.7 2003/09/01 17:58:19 lethal Exp $
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*
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* arch/sh/kernel/head.S
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*
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* Copyright (C) 1999, 2000 Niibe Yutaka & Kaz Kojima
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* Copyright (C) 2010 Matt Fleming
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*
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* Head.S contains the SH exception handlers and startup code.
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*/
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#include <linux/init.h>
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#include <linux/linkage.h>
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#include <asm/thread_info.h>
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#include <asm/mmu.h>
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#include <cpu/mmu_context.h>
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#ifdef CONFIG_CPU_SH4A
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#define SYNCO() synco
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#define PREFI(label, reg) \
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mov.l label, reg; \
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prefi @reg
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#else
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#define SYNCO()
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#define PREFI(label, reg)
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#endif
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.section .empty_zero_page, "aw"
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ENTRY(empty_zero_page)
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.long 1 /* MOUNT_ROOT_RDONLY */
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.long 0 /* RAMDISK_FLAGS */
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.long 0x0200 /* ORIG_ROOT_DEV */
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.long 1 /* LOADER_TYPE */
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.long 0x00000000 /* INITRD_START */
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.long 0x00000000 /* INITRD_SIZE */
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#ifdef CONFIG_32BIT
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.long 0x53453f00 + 32 /* "SE?" = 32 bit */
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#else
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.long 0x53453f00 + 29 /* "SE?" = 29 bit */
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#endif
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1:
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.skip PAGE_SIZE - empty_zero_page - 1b
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__HEAD
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/*
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* Condition at the entry of _stext:
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*
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* BSC has already been initialized.
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* INTC may or may not be initialized.
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* VBR may or may not be initialized.
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* MMU may or may not be initialized.
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* Cache may or may not be initialized.
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* Hardware (including on-chip modules) may or may not be initialized.
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*
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*/
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ENTRY(_stext)
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! Initialize Status Register
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mov.l 1f, r0 ! MD=1, RB=0, BL=0, IMASK=0xF
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ldc r0, sr
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! Initialize global interrupt mask
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#ifdef CONFIG_CPU_HAS_SR_RB
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mov #0, r0
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ldc r0, r6_bank
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#endif
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#ifdef CONFIG_OF_EARLY_FLATTREE
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mov r4, r12 ! Store device tree blob pointer in r12
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#endif
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/*
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* Prefetch if possible to reduce cache miss penalty.
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*
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* We do this early on for SH-4A as a micro-optimization,
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* as later on we will have speculative execution enabled
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* and this will become less of an issue.
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*/
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PREFI(5f, r0)
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PREFI(6f, r0)
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!
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mov.l 2f, r0
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mov r0, r15 ! Set initial r15 (stack pointer)
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#ifdef CONFIG_CPU_HAS_SR_RB
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mov.l 7f, r0
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ldc r0, r7_bank ! ... and initial thread_info
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#endif
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#ifdef CONFIG_PMB
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/*
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* Reconfigure the initial PMB mappings setup by the hardware.
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*
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* When we boot in 32-bit MMU mode there are 2 PMB entries already
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* setup for us.
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*
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* Entry VPN PPN V SZ C UB WT
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* ---------------------------------------------------------------
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* 0 0x80000000 0x00000000 1 512MB 1 0 1
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* 1 0xA0000000 0x00000000 1 512MB 0 0 0
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*
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* But we reprogram them here because we want complete control over
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* our address space and the initial mappings may not map PAGE_OFFSET
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* to __MEMORY_START (or even map all of our RAM).
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*
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* Once we've setup cached and uncached mappings we clear the rest of the
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* PMB entries. This clearing also deals with the fact that PMB entries
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* can persist across reboots. The PMB could have been left in any state
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* when the reboot occurred, so to be safe we clear all entries and start
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* with with a clean slate.
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*
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* The uncached mapping is constructed using the smallest possible
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* mapping with a single unbufferable page. Only the kernel text needs to
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* be covered via the uncached mapping so that certain functions can be
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* run uncached.
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*
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* Drivers and the like that have previously abused the 1:1 identity
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* mapping are unsupported in 32-bit mode and must specify their caching
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* preference when page tables are constructed.
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*
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* This frees up the P2 space for more nefarious purposes.
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*
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* Register utilization is as follows:
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*
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* r0 = PMB_DATA data field
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* r1 = PMB_DATA address field
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* r2 = PMB_ADDR data field
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* r3 = PMB_ADDR address field
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* r4 = PMB_E_SHIFT
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* r5 = remaining amount of RAM to map
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* r6 = PMB mapping size we're trying to use
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* r7 = cached_to_uncached
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* r8 = scratch register
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* r9 = scratch register
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* r10 = number of PMB entries we've setup
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* r11 = scratch register
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*/
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mov.l .LMMUCR, r1 /* Flush the TLB */
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mov.l @r1, r0
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or #MMUCR_TI, r0
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mov.l r0, @r1
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mov.l .LMEMORY_SIZE, r5
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mov #PMB_E_SHIFT, r0
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mov #0x1, r4
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shld r0, r4
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mov.l .LFIRST_DATA_ENTRY, r0
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mov.l .LPMB_DATA, r1
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mov.l .LFIRST_ADDR_ENTRY, r2
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mov.l .LPMB_ADDR, r3
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/*
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* First we need to walk the PMB and figure out if there are any
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* existing mappings that match the initial mappings VPN/PPN.
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* If these have already been established by the bootloader, we
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* don't bother setting up new entries here, and let the late PMB
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* initialization take care of things instead.
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*
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* Note that we may need to coalesce and merge entries in order
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* to reclaim more available PMB slots, which is much more than
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* we want to do at this early stage.
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*/
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mov #0, r10
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mov #NR_PMB_ENTRIES, r9
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mov r1, r7 /* temporary PMB_DATA iter */
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.Lvalidate_existing_mappings:
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mov.l .LPMB_DATA_MASK, r11
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mov.l @r7, r8
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and r11, r8
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cmp/eq r0, r8 /* Check for valid __MEMORY_START mappings */
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bt .Lpmb_done
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add #1, r10 /* Increment the loop counter */
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cmp/eq r9, r10
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bf/s .Lvalidate_existing_mappings
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add r4, r7 /* Increment to the next PMB_DATA entry */
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/*
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* If we've fallen through, continue with setting up the initial
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* mappings.
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*/
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mov r5, r7 /* cached_to_uncached */
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mov #0, r10
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#ifdef CONFIG_UNCACHED_MAPPING
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/*
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* Uncached mapping
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*/
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mov #(PMB_SZ_16M >> 2), r9
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shll2 r9
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mov #(PMB_UB >> 8), r8
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shll8 r8
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or r0, r8
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or r9, r8
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mov.l r8, @r1
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mov r2, r8
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add r7, r8
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mov.l r8, @r3
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add r4, r1
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add r4, r3
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add #1, r10
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#endif
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/*
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* Iterate over all of the available sizes from largest to
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* smallest for constructing the cached mapping.
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*/
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#define __PMB_ITER_BY_SIZE(size) \
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.L##size: \
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mov #(size >> 4), r6; \
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shll16 r6; \
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shll8 r6; \
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\
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cmp/hi r5, r6; \
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bt 9999f; \
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\
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mov #(PMB_SZ_##size##M >> 2), r9; \
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shll2 r9; \
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\
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/* \
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* Cached mapping \
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*/ \
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mov #PMB_C, r8; \
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or r0, r8; \
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or r9, r8; \
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mov.l r8, @r1; \
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mov.l r2, @r3; \
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\
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/* Increment to the next PMB_DATA entry */ \
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add r4, r1; \
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/* Increment to the next PMB_ADDR entry */ \
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add r4, r3; \
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/* Increment number of PMB entries */ \
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add #1, r10; \
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\
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sub r6, r5; \
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add r6, r0; \
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add r6, r2; \
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\
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bra .L##size; \
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9999:
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__PMB_ITER_BY_SIZE(512)
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__PMB_ITER_BY_SIZE(128)
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__PMB_ITER_BY_SIZE(64)
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__PMB_ITER_BY_SIZE(16)
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#ifdef CONFIG_UNCACHED_MAPPING
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/*
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* Now that we can access it, update cached_to_uncached and
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* uncached_size.
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*/
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mov.l .Lcached_to_uncached, r0
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mov.l r7, @r0
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mov.l .Luncached_size, r0
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mov #1, r7
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shll16 r7
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shll8 r7
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mov.l r7, @r0
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#endif
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/*
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* Clear the remaining PMB entries.
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*
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* r3 = entry to begin clearing from
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* r10 = number of entries we've setup so far
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*/
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mov #0, r1
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mov #NR_PMB_ENTRIES, r0
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.Lagain:
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mov.l r1, @r3 /* Clear PMB_ADDR entry */
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add #1, r10 /* Increment the loop counter */
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cmp/eq r0, r10
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bf/s .Lagain
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add r4, r3 /* Increment to the next PMB_ADDR entry */
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mov.l 6f, r0
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icbi @r0
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.Lpmb_done:
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#endif /* CONFIG_PMB */
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#ifndef CONFIG_SH_NO_BSS_INIT
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/*
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* Don't clear BSS if running on slow platforms such as an RTL simulation,
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* remote memory via SHdebug link, etc. For these the memory can be guaranteed
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* to be all zero on boot anyway.
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*/
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! Clear BSS area
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#ifdef CONFIG_SMP
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mov.l 3f, r0
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cmp/eq #0, r0 ! skip clear if set to zero
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bt 10f
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#endif
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mov.l 3f, r1
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add #4, r1
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mov.l 4f, r2
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mov #0, r0
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9: cmp/hs r2, r1
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bf/s 9b ! while (r1 < r2)
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mov.l r0,@-r2
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10:
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#endif
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#ifdef CONFIG_OF_EARLY_FLATTREE
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mov.l 8f, r0 ! Make flat device tree available early.
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jsr @r0
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mov r12, r4
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#endif
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! Additional CPU initialization
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mov.l 6f, r0
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jsr @r0
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nop
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SYNCO() ! Wait for pending instructions..
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! Start kernel
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mov.l 5f, r0
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jmp @r0
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nop
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.balign 4
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#if defined(CONFIG_CPU_SH2)
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1: .long 0x000000F0 ! IMASK=0xF
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#else
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1: .long 0x500080F0 ! MD=1, RB=0, BL=1, FD=1, IMASK=0xF
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#endif
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ENTRY(stack_start)
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2: .long init_thread_union+THREAD_SIZE
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3: .long __bss_start
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4: .long _end
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5: .long start_kernel
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6: .long cpu_init
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7: .long init_thread_union
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#if defined(CONFIG_OF_EARLY_FLATTREE)
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8: .long sh_fdt_init
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#endif
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#ifdef CONFIG_PMB
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.LPMB_ADDR: .long PMB_ADDR
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.LPMB_DATA: .long PMB_DATA
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.LPMB_DATA_MASK: .long PMB_PFN_MASK | PMB_V
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.LFIRST_ADDR_ENTRY: .long PAGE_OFFSET | PMB_V
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.LFIRST_DATA_ENTRY: .long __MEMORY_START | PMB_V
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.LMMUCR: .long MMUCR
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.LMEMORY_SIZE: .long __MEMORY_SIZE
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#ifdef CONFIG_UNCACHED_MAPPING
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.Lcached_to_uncached: .long cached_to_uncached
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.Luncached_size: .long uncached_size
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#endif
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#endif
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