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path: root/arch/arm64/kernel/head.S
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/*
 * Low-level CPU initialisation
 * Based on arch/arm/kernel/head.S
 *
 * Copyright (C) 1994-2002 Russell King
 * Copyright (C) 2003-2012 ARM Ltd.
 * Authors:	Catalin Marinas <catalin.marinas@arm.com>
 *		Will Deacon <will.deacon@arm.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#include <linux/linkage.h>
#include <linux/init.h>
#include <linux/irqchip/arm-gic-v3.h>

#include <asm/assembler.h>
#include <asm/boot.h>
#include <asm/ptrace.h>
#include <asm/asm-offsets.h>
#include <asm/cache.h>
#include <asm/cputype.h>
#include <asm/elf.h>
#include <asm/kernel-pgtable.h>
#include <asm/kvm_arm.h>
#include <asm/memory.h>
#include <asm/pgtable-hwdef.h>
#include <asm/pgtable.h>
#include <asm/page.h>
#include <asm/smp.h>
#include <asm/sysreg.h>
#include <asm/thread_info.h>
#include <asm/virt.h>

#include "efi-header.S"

#define __PHYS_OFFSET	(KERNEL_START - TEXT_OFFSET)

#if (TEXT_OFFSET & 0xfff) != 0
#error TEXT_OFFSET must be at least 4KB aligned
#elif (PAGE_OFFSET & 0x1fffff) != 0
#error PAGE_OFFSET must be at least 2MB aligned
#elif TEXT_OFFSET > 0x1fffff
#error TEXT_OFFSET must be less than 2MB
#endif

/*
 * Kernel startup entry point.
 * ---------------------------
 *
 * The requirements are:
 *   MMU = off, D-cache = off, I-cache = on or off,
 *   x0 = physical address to the FDT blob.
 *
 * This code is mostly position independent so you call this at
 * __pa(PAGE_OFFSET + TEXT_OFFSET).
 *
 * Note that the callee-saved registers are used for storing variables
 * that are useful before the MMU is enabled. The allocations are described
 * in the entry routines.
 */
	__HEAD
_head:
	/*
	 * DO NOT MODIFY. Image header expected by Linux boot-loaders.
	 */
#ifdef CONFIG_EFI
	/*
	 * This add instruction has no meaningful effect except that
	 * its opcode forms the magic "MZ" signature required by UEFI.
	 */
	add	x13, x18, #0x16
	b	stext
#else
	b	stext				// branch to kernel start, magic
	.long	0				// reserved
#endif
	le64sym	_kernel_offset_le		// Image load offset from start of RAM, little-endian
	le64sym	_kernel_size_le			// Effective size of kernel image, little-endian
	le64sym	_kernel_flags_le		// Informative flags, little-endian
	.quad	0				// reserved
	.quad	0				// reserved
	.quad	0				// reserved
	.ascii	"ARM\x64"			// Magic number
#ifdef CONFIG_EFI
	.long	pe_header - _head		// Offset to the PE header.

pe_header:
	__EFI_PE_HEADER
#else
	.long	0				// reserved
#endif

	__INIT

	/*
	 * The following callee saved general purpose registers are used on the
	 * primary lowlevel boot path:
	 *
	 *  Register   Scope                      Purpose
	 *  x21        stext() .. start_kernel()  FDT pointer passed at boot in x0
	 *  x23        stext() .. start_kernel()  physical misalignment/KASLR offset
	 *  x28        __create_page_tables()     callee preserved temp register
	 *  x19/x20    __primary_switch()         callee preserved temp registers
	 */
ENTRY(stext)
	bl	preserve_boot_args
	bl	el2_setup			// Drop to EL1, w0=cpu_boot_mode
	adrp	x23, __PHYS_OFFSET
	and	x23, x23, MIN_KIMG_ALIGN - 1	// KASLR offset, defaults to 0
	bl	set_cpu_boot_mode_flag
	bl	__create_page_tables
	/*
	 * The following calls CPU setup code, see arch/arm64/mm/proc.S for
	 * details.
	 * On return, the CPU will be ready for the MMU to be turned on and
	 * the TCR will have been set.
	 */
	bl	__cpu_setup			// initialise processor
	b	__primary_switch
ENDPROC(stext)

/*
 * Preserve the arguments passed by the bootloader in x0 .. x3
 */
preserve_boot_args:
	mov	x21, x0				// x21=FDT

	adr_l	x0, boot_args			// record the contents of
	stp	x21, x1, [x0]			// x0 .. x3 at kernel entry
	stp	x2, x3, [x0, #16]

	dmb	sy				// needed before dc ivac with
						// MMU off

	mov	x1, #0x20			// 4 x 8 bytes
	b	__inval_dcache_area		// tail call
ENDPROC(preserve_boot_args)

/*
 * Macro to create a table entry to the next page.
 *
 *	tbl:	page table address
 *	virt:	virtual address
 *	shift:	#imm page table shift
 *	ptrs:	#imm pointers per table page
 *
 * Preserves:	virt
 * Corrupts:	ptrs, tmp1, tmp2
 * Returns:	tbl -> next level table page address
 */
	.macro	create_table_entry, tbl, virt, shift, ptrs, tmp1, tmp2
	add	\tmp1, \tbl, #PAGE_SIZE
	phys_to_pte \tmp2, \tmp1
	orr	\tmp2, \tmp2, #PMD_TYPE_TABLE	// address of next table and entry type
	lsr	\tmp1, \virt, #\shift
	sub	\ptrs, \ptrs, #1
	and	\tmp1, \tmp1, \ptrs		// table index
	str	\tmp2, [\tbl, \tmp1, lsl #3]
	add	\tbl, \tbl, #PAGE_SIZE		// next level table page
	.endm

/*
 * Macro to populate page table entries, these entries can be pointers to the next level
 * or last level entries pointing to physical memory.
 *
 *	tbl:	page table address
 *	rtbl:	pointer to page table or physical memory
 *	index:	start index to write
 *	eindex:	end index to write - [index, eindex] written to
 *	flags:	flags for pagetable entry to or in
 *	inc:	increment to rtbl between each entry
 *	tmp1:	temporary variable
 *
 * Preserves:	tbl, eindex, flags, inc
 * Corrupts:	index, tmp1
 * Returns:	rtbl
 */
	.macro populate_entries, tbl, rtbl, index, eindex, flags, inc, tmp1
.Lpe\@:	phys_to_pte \tmp1, \rtbl
	orr	\tmp1, \tmp1, \flags	// tmp1 = table entry
	str	\tmp1, [\tbl, \index, lsl #3]
	add	\rtbl, \rtbl, \inc	// rtbl = pa next level
	add	\index, \index, #1
	cmp	\index, \eindex
	b.ls	.Lpe\@
	.endm

/*
 * Compute indices of table entries from virtual address range. If multiple entries
 * were needed in the previous page table level then the next page table level is assumed
 * to be composed of multiple pages. (This effectively scales the end index).
 *
 *	vstart:	virtual address of start of range
 *	vend:	virtual address of end of range
 *	shift:	shift used to transform virtual address into index
 *	ptrs:	number of entries in page table
 *	istart:	index in table corresponding to vstart
 *	iend:	index in table corresponding to vend
 *	count:	On entry: how many extra entries were required in previous level, scales
 *			  our end index.
 *		On exit: returns how many extra entries required for next page table level
 *
 * Preserves:	vstart, vend, shift, ptrs
 * Returns:	istart, iend, count
 */
	.macro compute_indices, vstart, vend, shift, ptrs, istart, iend, count
	lsr	\iend, \vend, \shift
	mov	\istart, \ptrs
	sub	\istart, \istart, #1
	and	\iend, \iend, \istart	// iend = (vend >> shift) & (ptrs - 1)
	mov	\istart, \ptrs
	mul	\istart, \istart, \count
	add	\iend, \iend, \istart	// iend += (count - 1) * ptrs
					// our entries span multiple tables

	lsr	\istart, \vstart, \shift
	mov	\count, \ptrs
	sub	\count, \count, #1
	and	\istart, \istart, \count

	sub	\count, \iend, \istart
	.endm

/*
 * Map memory for specified virtual address range. Each level of page table needed supports
 * multiple entries. If a level requires n entries the next page table level is assumed to be
 * formed from n pages.
 *
 *	tbl:	location of page table
 *	rtbl:	address to be used for first level page table entry (typically tbl + PAGE_SIZE)
 *	vstart:	start address to map
 *	vend:	end address to map - we map [vstart, vend]
 *	flags:	flags to use to map last level entries
 *	phys:	physical address corresponding to vstart - physical memory is contiguous
 *	pgds:	the number of pgd entries
 *
 * Temporaries:	istart, iend, tmp, count, sv - these need to be different registers
 * Preserves:	vstart, vend, flags
 * Corrupts:	tbl, rtbl, istart, iend, tmp, count, sv
 */
	.macro map_memory, tbl, rtbl, vstart, vend, flags, phys, pgds, istart, iend, tmp, count, sv
	add \rtbl, \tbl, #PAGE_SIZE
	mov \sv, \rtbl
	mov \count, #0
	compute_indices \vstart, \vend, #PGDIR_SHIFT, \pgds, \istart, \iend, \count
	populate_entries \tbl, \rtbl, \istart, \iend, #PMD_TYPE_TABLE, #PAGE_SIZE, \tmp
	mov \tbl, \sv
	mov \sv, \rtbl

#if SWAPPER_PGTABLE_LEVELS > 3
	compute_indices \vstart, \vend, #PUD_SHIFT, #PTRS_PER_PUD, \istart, \iend, \count
	populate_entries \tbl, \rtbl, \istart, \iend, #PMD_TYPE_TABLE, #PAGE_SIZE, \tmp
	mov \tbl, \sv
	mov \sv, \rtbl
#endif

#if SWAPPER_PGTABLE_LEVELS > 2
	compute_indices \vstart, \vend, #SWAPPER_TABLE_SHIFT, #PTRS_PER_PMD, \istart, \iend, \count
	populate_entries \tbl, \rtbl, \istart, \iend, #PMD_TYPE_TABLE, #PAGE_SIZE, \tmp
	mov \tbl, \sv
#endif

	compute_indices \vstart, \vend, #SWAPPER_BLOCK_SHIFT, #PTRS_PER_PTE, \istart, \iend, \count
	bic \count, \phys, #SWAPPER_BLOCK_SIZE - 1
	populate_entries \tbl, \count, \istart, \iend, \flags, #SWAPPER_BLOCK_SIZE, \tmp
	.endm

/*
 * Setup the initial page tables. We only setup the barest amount which is
 * required to get the kernel running. The following sections are required:
 *   - identity mapping to enable the MMU (low address, TTBR0)
 *   - first few MB of the kernel linear mapping to jump to once the MMU has
 *     been enabled
 */
__create_page_tables:
	mov	x28, lr

	/*
	 * Invalidate the init page tables to avoid potential dirty cache lines
	 * being evicted. Other page tables are allocated in rodata as part of
	 * the kernel image, and thus are clean to the PoC per the boot
	 * protocol.
	 */
	adrp	x0, init_pg_dir
	adrp	x1, init_pg_end
	sub	x1, x1, x0
	bl	__inval_dcache_area

	/*
	 * Clear the init page tables.
	 */
	adrp	x0, init_pg_dir
	adrp	x1, init_pg_end
	sub	x1, x1, x0
1:	stp	xzr, xzr, [x0], #16
	stp	xzr, xzr, [x0], #16
	stp	xzr, xzr, [x0], #16
	stp	xzr, xzr, [x0], #16
	subs	x1, x1, #64
	b.ne	1b

	mov	x7, SWAPPER_MM_MMUFLAGS

	/*
	 * Create the identity mapping.
	 */
	adrp	x0, idmap_pg_dir
	adrp	x3, __idmap_text_start		// __pa(__idmap_text_start)

	/*
	 * VA_BITS may be too small to allow for an ID mapping to be created
	 * that covers system RAM if that is located sufficiently high in the
	 * physical address space. So for the ID map, use an extended virtual
	 * range in that case, and configure an additional translation level
	 * if needed.
	 *
	 * Calculate the maximum allowed value for TCR_EL1.T0SZ so that the
	 * entire ID map region can be mapped. As T0SZ == (64 - #bits used),
	 * this number conveniently equals the number of leading zeroes in
	 * the physical address of __idmap_text_end.
	 */
	adrp	x5, __idmap_text_end
	clz	x5, x5
	cmp	x5, TCR_T0SZ(VA_BITS)	// default T0SZ small enough?
	b.ge	1f			// .. then skip VA range extension

	adr_l	x6, idmap_t0sz
	str	x5, [x6]
	dmb	sy
	dc	ivac, x6		// Invalidate potentially stale cache line

#if (VA_BITS < 48)
#define EXTRA_SHIFT	(PGDIR_SHIFT + PAGE_SHIFT - 3)
#define EXTRA_PTRS	(1 << (PHYS_MASK_SHIFT - EXTRA_SHIFT))

	/*
	 * If VA_BITS < 48, we have to configure an additional table level.
	 * First, we have to verify our assumption that the current value of
	 * VA_BITS was chosen such that all translation levels are fully
	 * utilised, and that lowering T0SZ will always result in an additional
	 * translation level to be configured.
	 */
#if VA_BITS != EXTRA_SHIFT
#error "Mismatch between VA_BITS and page size/number of translation levels"
#endif

	mov	x4, EXTRA_PTRS
	create_table_entry x0, x3, EXTRA_SHIFT, x4, x5, x6
#else
	/*
	 * If VA_BITS == 48, we don't have to configure an additional
	 * translation level, but the top-level table has more entries.
	 */
	mov	x4, #1 << (PHYS_MASK_SHIFT - PGDIR_SHIFT)
	str_l	x4, idmap_ptrs_per_pgd, x5
#endif
1:
	ldr_l	x4, idmap_ptrs_per_pgd
	mov	x5, x3				// __pa(__idmap_text_start)
	adr_l	x6, __idmap_text_end		// __pa(__idmap_text_end)

	map_memory x0, x1, x3, x6, x7, x3, x4, x10, x11, x12, x13, x14

	/*
	 * Map the kernel image (starting with PHYS_OFFSET).
	 */
	adrp	x0, init_pg_dir
	mov_q	x5, KIMAGE_VADDR + TEXT_OFFSET	// compile time __va(_text)
	add	x5, x5, x23			// add KASLR displacement
	mov	x4, PTRS_PER_PGD
	adrp	x6, _end			// runtime __pa(_end)
	adrp	x3, _text			// runtime __pa(_text)
	sub	x6, x6, x3			// _end - _text
	add	x6, x6, x5			// runtime __va(_end)

	map_memory x0, x1, x5, x6, x7, x3, x4, x10, x11, x12, x13, x14

	/*
	 * Since the page tables have been populated with non-cacheable
	 * accesses (MMU disabled), invalidate the idmap and swapper page
	 * tables again to remove any speculatively loaded cache lines.
	 */
	adrp	x0, idmap_pg_dir
	adrp	x1, init_pg_end
	sub	x1, x1, x0
	dmb	sy
	bl	__inval_dcache_area

	ret	x28
ENDPROC(__create_page_tables)
	.ltorg

/*
 * The following fragment of code is executed with the MMU enabled.
 *
 *   x0 = __PHYS_OFFSET
 */
__primary_switched:
	adrp	x4, init_thread_union
	add	sp, x4, #THREAD_SIZE
	adr_l	x5, init_task
	msr	sp_el0, x5			// Save thread_info

	adr_l	x8, vectors			// load VBAR_EL1 with virtual
	msr	vbar_el1, x8			// vector table address
	isb

	stp	xzr, x30, [sp, #-16]!
	mov	x29, sp

	str_l	x21, __fdt_pointer, x5		// Save FDT pointer

	ldr_l	x4, kimage_vaddr		// Save the offset between
	sub	x4, x4, x0			// the kernel virtual and
	str_l	x4, kimage_voffset, x5		// physical mappings

	// Clear BSS
	adr_l	x0, __bss_start
	mov	x1, xzr
	adr_l	x2, __bss_stop
	sub	x2, x2, x0
	bl	__pi_memset
	dsb	ishst				// Make zero page visible to PTW

#ifdef CONFIG_KASAN
	bl	kasan_early_init
#endif
#ifdef CONFIG_RANDOMIZE_BASE
	tst	x23, ~(MIN_KIMG_ALIGN - 1)	// already running randomized?
	b.ne	0f
	mov	x0, x21				// pass FDT address in x0
	bl	kaslr_early_init		// parse FDT for KASLR options
	cbz	x0, 0f				// KASLR disabled? just proceed
	orr	x23, x23, x0			// record KASLR offset
	ldp	x29, x30, [sp], #16		// we must enable KASLR, return
	ret					// to __primary_switch()
0:
#endif
	add	sp, sp, #16
	mov	x29, #0
	mov	x30, #0
	b	start_kernel
ENDPROC(__primary_switched)

/*
 * end early head section, begin head code that is also used for
 * hotplug and needs to have the same protections as the text region
 */
	.section ".idmap.text","awx"

ENTRY(kimage_vaddr)
	.quad		_text - TEXT_OFFSET

/*
 * If we're fortunate enough to boot at EL2, ensure that the world is
 * sane before dropping to EL1.
 *
 * Returns either BOOT_CPU_MODE_EL1 or BOOT_CPU_MODE_EL2 in w0 if
 * booted in EL1 or EL2 respectively.
 */
ENTRY(el2_setup)
	msr	SPsel, #1			// We want to use SP_EL{1,2}
	mrs	x0, CurrentEL
	cmp	x0, #CurrentEL_EL2
	b.eq	1f
	mov_q	x0, (SCTLR_EL1_RES1 | ENDIAN_SET_EL1)
	msr	sctlr_el1, x0
	mov	w0, #BOOT_CPU_MODE_EL1		// This cpu booted in EL1
	isb
	ret

1:	mov_q	x0, (SCTLR_EL2_RES1 | ENDIAN_SET_EL2)
	msr	sctlr_el2, x0

#ifdef CONFIG_ARM64_VHE
	/*
	 * Check for VHE being present. For the rest of the EL2 setup,
	 * x2 being non-zero indicates that we do have VHE, and that the
	 * kernel is intended to run at EL2.
	 */
	mrs	x2, id_aa64mmfr1_el1
	ubfx	x2, x2, #8, #4
#else
	mov	x2, xzr
#endif

	/* Hyp configuration. */
	mov	x0, #HCR_RW			// 64-bit EL1
	cbz	x2, set_hcr
	orr	x0, x0, #HCR_TGE		// Enable Host Extensions
	orr	x0, x0, #HCR_E2H
set_hcr:
	msr	hcr_el2, x0
	isb

	/*
	 * Allow Non-secure EL1 and EL0 to access physical timer and counter.
	 * This is not necessary for VHE, since the host kernel runs in EL2,
	 * and EL0 accesses are configured in the later stage of boot process.
	 * Note that when HCR_EL2.E2H == 1, CNTHCTL_EL2 has the same bit layout
	 * as CNTKCTL_EL1, and CNTKCTL_EL1 accessing instructions are redefined
	 * to access CNTHCTL_EL2. This allows the kernel designed to run at EL1
	 * to transparently mess with the EL0 bits via CNTKCTL_EL1 access in
	 * EL2.
	 */
	cbnz	x2, 1f
	mrs	x0, cnthctl_el2
	orr	x0, x0, #3			// Enable EL1 physical timers
	msr	cnthctl_el2, x0
1:
	msr	cntvoff_el2, xzr		// Clear virtual offset

#ifdef CONFIG_ARM_GIC_V3
	/* GICv3 system register access */
	mrs	x0, id_aa64pfr0_el1
	ubfx	x0, x0, #24, #4
	cmp	x0, #1
	b.ne	3f

	mrs_s	x0, SYS_ICC_SRE_EL2
	orr	x0, x0, #ICC_SRE_EL2_SRE	// Set ICC_SRE_EL2.SRE==1
	orr	x0, x0, #ICC_SRE_EL2_ENABLE	// Set ICC_SRE_EL2.Enable==1
	msr_s	SYS_ICC_SRE_EL2, x0
	isb					// Make sure SRE is now set
	mrs_s	x0, SYS_ICC_SRE_EL2		// Read SRE back,
	tbz	x0, #0, 3f			// and check that it sticks
	msr_s	SYS_ICH_HCR_EL2, xzr		// Reset ICC_HCR_EL2 to defaults

3:
#endif

	/* Populate ID registers. */
	mrs	x0, midr_el1
	mrs	x1, mpidr_el1
	msr	vpidr_el2, x0
	msr	vmpidr_el2, x1

#ifdef CONFIG_COMPAT
	msr	hstr_el2, xzr			// Disable CP15 traps to EL2
#endif

	/* EL2 debug */
	mrs	x1, id_aa64dfr0_el1		// Check ID_AA64DFR0_EL1 PMUVer
	sbfx	x0, x1, #8, #4
	cmp	x0, #1
	b.lt	4f				// Skip if no PMU present
	mrs	x0, pmcr_el0			// Disable debug access traps
	ubfx	x0, x0, #11, #5			// to EL2 and allow access to
4:
	csel	x3, xzr, x0, lt			// all PMU counters from EL1

	/* Statistical profiling */
	ubfx	x0, x1, #32, #4			// Check ID_AA64DFR0_EL1 PMSVer
	cbz	x0, 7f				// Skip if SPE not present
	cbnz	x2, 6f				// VHE?
	mrs_s	x4, SYS_PMBIDR_EL1		// If SPE available at EL2,
	and	x4, x4, #(1 << SYS_PMBIDR_EL1_P_SHIFT)
	cbnz	x4, 5f				// then permit sampling of physical
	mov	x4, #(1 << SYS_PMSCR_EL2_PCT_SHIFT | \
		      1 << SYS_PMSCR_EL2_PA_SHIFT)
	msr_s	SYS_PMSCR_EL2, x4		// addresses and physical counter
5:
	mov	x1, #(MDCR_EL2_E2PB_MASK << MDCR_EL2_E2PB_SHIFT)
	orr	x3, x3, x1			// If we don't have VHE, then
	b	7f				// use EL1&0 translation.
6:						// For VHE, use EL2 translation
	orr	x3, x3, #MDCR_EL2_TPMS		// and disable access from EL1
7:
	msr	mdcr_el2, x3			// Configure debug traps

	/* LORegions */
	mrs	x1, id_aa64mmfr1_el1
	ubfx	x0, x1, #ID_AA64MMFR1_LOR_SHIFT, 4
	cbz	x0, 1f
	msr_s	SYS_LORC_EL1, xzr
1:

	/* Stage-2 translation */
	msr	vttbr_el2, xzr

	cbz	x2, install_el2_stub

	mov	w0, #BOOT_CPU_MODE_EL2		// This CPU booted in EL2
	isb
	ret

install_el2_stub:
	/*
	 * When VHE is not in use, early init of EL2 and EL1 needs to be
	 * done here.
	 * When VHE _is_ in use, EL1 will not be used in the host and
	 * requires no configuration, and all non-hyp-specific EL2 setup
	 * will be done via the _EL1 system register aliases in __cpu_setup.
	 */
	mov_q	x0, (SCTLR_EL1_RES1 | ENDIAN_SET_EL1)
	msr	sctlr_el1, x0

	/* Coprocessor traps. */
	mov	x0, #0x33ff
	msr	cptr_el2, x0			// Disable copro. traps to EL2

	/* SVE register access */
	mrs	x1, id_aa64pfr0_el1
	ubfx	x1, x1, #ID_AA64PFR0_SVE_SHIFT, #4
	cbz	x1, 7f

	bic	x0, x0, #CPTR_EL2_TZ		// Also disable SVE traps
	msr	cptr_el2, x0			// Disable copro. traps to EL2
	isb
	mov	x1, #ZCR_ELx_LEN_MASK		// SVE: Enable full vector
	msr_s	SYS_ZCR_EL2, x1			// length for EL1.

	/* Hypervisor stub */
7:	adr_l	x0, __hyp_stub_vectors
	msr	vbar_el2, x0

	/* spsr */
	mov	x0, #(PSR_F_BIT | PSR_I_BIT | PSR_A_BIT | PSR_D_BIT |\
		      PSR_MODE_EL1h)
	msr	spsr_el2, x0
	msr	elr_el2, lr
	mov	w0, #BOOT_CPU_MODE_EL2		// This CPU booted in EL2
	eret
ENDPROC(el2_setup)

/*
 * Sets the __boot_cpu_mode flag depending on the CPU boot mode passed
 * in w0. See arch/arm64/include/asm/virt.h for more info.
 */
set_cpu_boot_mode_flag:
	adr_l	x1, __boot_cpu_mode
	cmp	w0, #BOOT_CPU_MODE_EL2
	b.ne	1f
	add	x1, x1, #4
1:	str	w0, [x1]			// This CPU has booted in EL1
	dmb	sy
	dc	ivac, x1			// Invalidate potentially stale cache line
	ret
ENDPROC(set_cpu_boot_mode_flag)

/*
 * These values are written with the MMU off, but read with the MMU on.
 * Writers will invalidate the corresponding address, discarding up to a
 * 'Cache Writeback Granule' (CWG) worth of data. The linker script ensures
 * sufficient alignment that the CWG doesn't overlap another section.
 */
	.pushsection ".mmuoff.data.write", "aw"
/*
 * We need to find out the CPU boot mode long after boot, so we need to
 * store it in a writable variable.
 *
 * This is not in .bss, because we set it sufficiently early that the boot-time
 * zeroing of .bss would clobber it.
 */
ENTRY(__boot_cpu_mode)
	.long	BOOT_CPU_MODE_EL2
	.long	BOOT_CPU_MODE_EL1
/*
 * The booting CPU updates the failed status @__early_cpu_boot_status,
 * with MMU turned off.
 */
ENTRY(__early_cpu_boot_status)
	.long 	0

	.popsection

	/*
	 * This provides a "holding pen" for platforms to hold all secondary
	 * cores are held until we're ready for them to initialise.
	 */
ENTRY(secondary_holding_pen)
	bl	el2_setup			// Drop to EL1, w0=cpu_boot_mode
	bl	set_cpu_boot_mode_flag
	mrs	x0, mpidr_el1
	mov_q	x1, MPIDR_HWID_BITMASK
	and	x0, x0, x1
	adr_l	x3, secondary_holding_pen_release
pen:	ldr	x4, [x3]
	cmp	x4, x0
	b.eq	secondary_startup
	wfe
	b	pen
ENDPROC(secondary_holding_pen)

	/*
	 * Secondary entry point that jumps straight into the kernel. Only to
	 * be used where CPUs are brought online dynamically by the kernel.
	 */
ENTRY(secondary_entry)
	bl	el2_setup			// Drop to EL1
	bl	set_cpu_boot_mode_flag
	b	secondary_startup
ENDPROC(secondary_entry)

secondary_startup:
	/*
	 * Common entry point for secondary CPUs.
	 */
	bl	__cpu_setup			// initialise processor
	adrp	x1, swapper_pg_dir
	bl	__enable_mmu
	ldr	x8, =__secondary_switched
	br	x8
ENDPROC(secondary_startup)

__secondary_switched:
	adr_l	x5, vectors
	msr	vbar_el1, x5
	isb

	adr_l	x0, secondary_data
	ldr	x1, [x0, #CPU_BOOT_STACK]	// get secondary_data.stack
	mov	sp, x1
	ldr	x2, [x0, #CPU_BOOT_TASK]
	msr	sp_el0, x2
	mov	x29, #0
	mov	x30, #0
	b	secondary_start_kernel
ENDPROC(__secondary_switched)

/*
 * The booting CPU updates the failed status @__early_cpu_boot_status,
 * with MMU turned off.
 *
 * update_early_cpu_boot_status tmp, status
 *  - Corrupts tmp1, tmp2
 *  - Writes 'status' to __early_cpu_boot_status and makes sure
 *    it is committed to memory.
 */

	.macro	update_early_cpu_boot_status status, tmp1, tmp2
	mov	\tmp2, #\status
	adr_l	\tmp1, __early_cpu_boot_status
	str	\tmp2, [\tmp1]
	dmb	sy
	dc	ivac, \tmp1			// Invalidate potentially stale cache line
	.endm

/*
 * Enable the MMU.
 *
 *  x0  = SCTLR_EL1 value for turning on the MMU.
 *  x1  = TTBR1_EL1 value
 *
 * Returns to the caller via x30/lr. This requires the caller to be covered
 * by the .idmap.text section.
 *
 * Checks if the selected granule size is supported by the CPU.
 * If it isn't, park the CPU
 */
ENTRY(__enable_mmu)
	mrs	x2, ID_AA64MMFR0_EL1
	ubfx	x2, x2, #ID_AA64MMFR0_TGRAN_SHIFT, 4
	cmp	x2, #ID_AA64MMFR0_TGRAN_SUPPORTED
	b.ne	__no_granule_support
	update_early_cpu_boot_status 0, x2, x3
	adrp	x2, idmap_pg_dir
	phys_to_ttbr x1, x1
	phys_to_ttbr x2, x2
	msr	ttbr0_el1, x2			// load TTBR0
	offset_ttbr1 x1
	msr	ttbr1_el1, x1			// load TTBR1
	isb
	msr	sctlr_el1, x0
	isb
	/*
	 * Invalidate the local I-cache so that any instructions fetched
	 * speculatively from the PoC are discarded, since they may have
	 * been dynamically patched at the PoU.
	 */
	ic	iallu
	dsb	nsh
	isb
	ret
ENDPROC(__enable_mmu)

__no_granule_support:
	/* Indicate that this CPU can't boot and is stuck in the kernel */
	update_early_cpu_boot_status CPU_STUCK_IN_KERNEL, x1, x2
1:
	wfe
	wfi
	b	1b
ENDPROC(__no_granule_support)

#ifdef CONFIG_RELOCATABLE
__relocate_kernel:
	/*
	 * Iterate over each entry in the relocation table, and apply the
	 * relocations in place.
	 */
	ldr	w9, =__rela_offset		// offset to reloc table
	ldr	w10, =__rela_size		// size of reloc table

	mov_q	x11, KIMAGE_VADDR		// default virtual offset
	add	x11, x11, x23			// actual virtual offset
	add	x9, x9, x11			// __va(.rela)
	add	x10, x9, x10			// __va(.rela) + sizeof(.rela)

0:	cmp	x9, x10
	b.hs	1f
	ldp	x11, x12, [x9], #24
	ldr	x13, [x9, #-8]
	cmp	w12, #R_AARCH64_RELATIVE
	b.ne	0b
	add	x13, x13, x23			// relocate
	str	x13, [x11, x23]
	b	0b
1:	ret
ENDPROC(__relocate_kernel)
#endif

__primary_switch:
#ifdef CONFIG_RANDOMIZE_BASE
	mov	x19, x0				// preserve new SCTLR_EL1 value
	mrs	x20, sctlr_el1			// preserve old SCTLR_EL1 value
#endif

	adrp	x1, init_pg_dir
	bl	__enable_mmu
#ifdef CONFIG_RELOCATABLE
	bl	__relocate_kernel
#ifdef CONFIG_RANDOMIZE_BASE
	ldr	x8, =__primary_switched
	adrp	x0, __PHYS_OFFSET
	blr	x8

	/*
	 * If we return here, we have a KASLR displacement in x23 which we need
	 * to take into account by discarding the current kernel mapping and
	 * creating a new one.
	 */
	pre_disable_mmu_workaround
	msr	sctlr_el1, x20			// disable the MMU
	isb
	bl	__create_page_tables		// recreate kernel mapping

	tlbi	vmalle1				// Remove any stale TLB entries
	dsb	nsh

	msr	sctlr_el1, x19			// re-enable the MMU
	isb
	ic	iallu				// flush instructions fetched
	dsb	nsh				// via old mapping
	isb

	bl	__relocate_kernel
#endif
#endif
	ldr	x8, =__primary_switched
	adrp	x0, __PHYS_OFFSET
	br	x8
ENDPROC(__primary_switch)