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// SPDX-License-Identifier: GPL-2.0-only
// Copyright 2023 Google LLC
// Author: Ard Biesheuvel <ardb@google.com>
#include <linux/init.h>
#include <linux/libfdt.h>
#include <linux/linkage.h>
#include <linux/types.h>
#include <linux/sizes.h>
#include <linux/string.h>
#include <asm/memory.h>
#include <asm/pgalloc.h>
#include <asm/pgtable.h>
#include <asm/tlbflush.h>
#include "pi.h"
extern const u8 __eh_frame_start[], __eh_frame_end[];
extern void idmap_cpu_replace_ttbr1(void *pgdir);
static void __init map_segment(pgd_t *pg_dir, u64 *pgd, u64 va_offset,
void *start, void *end, pgprot_t prot,
bool may_use_cont, int root_level)
{
map_range(pgd, ((u64)start + va_offset) & ~PAGE_OFFSET,
((u64)end + va_offset) & ~PAGE_OFFSET, (u64)start,
prot, root_level, (pte_t *)pg_dir, may_use_cont, 0);
}
static void __init unmap_segment(pgd_t *pg_dir, u64 va_offset, void *start,
void *end, int root_level)
{
map_segment(pg_dir, NULL, va_offset, start, end, __pgprot(0),
false, root_level);
}
static void __init map_kernel(u64 kaslr_offset, u64 va_offset, int root_level)
{
bool enable_scs = IS_ENABLED(CONFIG_UNWIND_PATCH_PAC_INTO_SCS);
bool twopass = IS_ENABLED(CONFIG_RELOCATABLE);
u64 pgdp = (u64)init_pg_dir + PAGE_SIZE;
pgprot_t text_prot = PAGE_KERNEL_ROX;
pgprot_t data_prot = PAGE_KERNEL;
pgprot_t prot;
/*
* External debuggers may need to write directly to the text mapping to
* install SW breakpoints. Allow this (only) when explicitly requested
* with rodata=off.
*/
if (arm64_test_sw_feature_override(ARM64_SW_FEATURE_OVERRIDE_RODATA_OFF))
text_prot = PAGE_KERNEL_EXEC;
/*
* We only enable the shadow call stack dynamically if we are running
* on a system that does not implement PAC or BTI. PAC and SCS provide
* roughly the same level of protection, and BTI relies on the PACIASP
* instructions serving as landing pads, preventing us from patching
* those instructions into something else.
*/
if (IS_ENABLED(CONFIG_ARM64_PTR_AUTH_KERNEL) && cpu_has_pac())
enable_scs = false;
if (IS_ENABLED(CONFIG_ARM64_BTI_KERNEL) && cpu_has_bti()) {
enable_scs = false;
/*
* If we have a CPU that supports BTI and a kernel built for
* BTI then mark the kernel executable text as guarded pages
* now so we don't have to rewrite the page tables later.
*/
text_prot = __pgprot_modify(text_prot, PTE_GP, PTE_GP);
}
/* Map all code read-write on the first pass if needed */
twopass |= enable_scs;
prot = twopass ? data_prot : text_prot;
map_segment(init_pg_dir, &pgdp, va_offset, _stext, _etext, prot,
!twopass, root_level);
map_segment(init_pg_dir, &pgdp, va_offset, __start_rodata,
__inittext_begin, data_prot, false, root_level);
map_segment(init_pg_dir, &pgdp, va_offset, __inittext_begin,
__inittext_end, prot, false, root_level);
map_segment(init_pg_dir, &pgdp, va_offset, __initdata_begin,
__initdata_end, data_prot, false, root_level);
map_segment(init_pg_dir, &pgdp, va_offset, _data, _end, data_prot,
true, root_level);
dsb(ishst);
idmap_cpu_replace_ttbr1(init_pg_dir);
if (twopass) {
if (IS_ENABLED(CONFIG_RELOCATABLE))
relocate_kernel(kaslr_offset);
if (enable_scs) {
scs_patch(__eh_frame_start + va_offset,
__eh_frame_end - __eh_frame_start);
asm("ic ialluis");
dynamic_scs_is_enabled = true;
}
/*
* Unmap the text region before remapping it, to avoid
* potential TLB conflicts when creating the contiguous
* descriptors.
*/
unmap_segment(init_pg_dir, va_offset, _stext, _etext,
root_level);
dsb(ishst);
isb();
__tlbi(vmalle1);
isb();
/*
* Remap these segments with different permissions
* No new page table allocations should be needed
*/
map_segment(init_pg_dir, NULL, va_offset, _stext, _etext,
text_prot, true, root_level);
map_segment(init_pg_dir, NULL, va_offset, __inittext_begin,
__inittext_end, text_prot, false, root_level);
}
/* Copy the root page table to its final location */
memcpy((void *)swapper_pg_dir + va_offset, init_pg_dir, PAGE_SIZE);
dsb(ishst);
idmap_cpu_replace_ttbr1(swapper_pg_dir);
}
static void noinline __section(".idmap.text") set_ttbr0_for_lpa2(u64 ttbr)
{
u64 sctlr = read_sysreg(sctlr_el1);
u64 tcr = read_sysreg(tcr_el1) | TCR_DS;
asm(" msr sctlr_el1, %0 ;"
" isb ;"
" msr ttbr0_el1, %1 ;"
" msr tcr_el1, %2 ;"
" isb ;"
" tlbi vmalle1 ;"
" dsb nsh ;"
" isb ;"
" msr sctlr_el1, %3 ;"
" isb ;"
:: "r"(sctlr & ~SCTLR_ELx_M), "r"(ttbr), "r"(tcr), "r"(sctlr));
}
static void __init remap_idmap_for_lpa2(void)
{
/* clear the bits that change meaning once LPA2 is turned on */
pteval_t mask = PTE_SHARED;
/*
* We have to clear bits [9:8] in all block or page descriptors in the
* initial ID map, as otherwise they will be (mis)interpreted as
* physical address bits once we flick the LPA2 switch (TCR.DS). Since
* we cannot manipulate live descriptors in that way without creating
* potential TLB conflicts, let's create another temporary ID map in a
* LPA2 compatible fashion, and update the initial ID map while running
* from that.
*/
create_init_idmap(init_pg_dir, mask);
dsb(ishst);
set_ttbr0_for_lpa2((u64)init_pg_dir);
/*
* Recreate the initial ID map with the same granularity as before.
* Don't bother with the FDT, we no longer need it after this.
*/
memset(init_idmap_pg_dir, 0,
(u64)init_idmap_pg_end - (u64)init_idmap_pg_dir);
create_init_idmap(init_idmap_pg_dir, mask);
dsb(ishst);
/* switch back to the updated initial ID map */
set_ttbr0_for_lpa2((u64)init_idmap_pg_dir);
/* wipe the temporary ID map from memory */
memset(init_pg_dir, 0, (u64)init_pg_end - (u64)init_pg_dir);
}
static void __init map_fdt(u64 fdt)
{
static u8 ptes[INIT_IDMAP_FDT_SIZE] __initdata __aligned(PAGE_SIZE);
u64 efdt = fdt + MAX_FDT_SIZE;
u64 ptep = (u64)ptes;
/*
* Map up to MAX_FDT_SIZE bytes, but avoid overlap with
* the kernel image.
*/
map_range(&ptep, fdt, (u64)_text > fdt ? min((u64)_text, efdt) : efdt,
fdt, PAGE_KERNEL, IDMAP_ROOT_LEVEL,
(pte_t *)init_idmap_pg_dir, false, 0);
dsb(ishst);
}
asmlinkage void __init early_map_kernel(u64 boot_status, void *fdt)
{
static char const chosen_str[] __initconst = "/chosen";
u64 va_base, pa_base = (u64)&_text;
u64 kaslr_offset = pa_base % MIN_KIMG_ALIGN;
int root_level = 4 - CONFIG_PGTABLE_LEVELS;
int va_bits = VA_BITS;
int chosen;
map_fdt((u64)fdt);
/* Clear BSS and the initial page tables */
memset(__bss_start, 0, (u64)init_pg_end - (u64)__bss_start);
/* Parse the command line for CPU feature overrides */
chosen = fdt_path_offset(fdt, chosen_str);
init_feature_override(boot_status, fdt, chosen);
if (IS_ENABLED(CONFIG_ARM64_64K_PAGES) && !cpu_has_lva()) {
va_bits = VA_BITS_MIN;
} else if (IS_ENABLED(CONFIG_ARM64_LPA2) && !cpu_has_lpa2()) {
va_bits = VA_BITS_MIN;
root_level++;
}
if (va_bits > VA_BITS_MIN)
sysreg_clear_set(tcr_el1, TCR_T1SZ_MASK, TCR_T1SZ(va_bits));
/*
* The virtual KASLR displacement modulo 2MiB is decided by the
* physical placement of the image, as otherwise, we might not be able
* to create the early kernel mapping using 2 MiB block descriptors. So
* take the low bits of the KASLR offset from the physical address, and
* fill in the high bits from the seed.
*/
if (IS_ENABLED(CONFIG_RANDOMIZE_BASE)) {
u64 kaslr_seed = kaslr_early_init(fdt, chosen);
if (kaslr_seed && kaslr_requires_kpti())
arm64_use_ng_mappings = true;
kaslr_offset |= kaslr_seed & ~(MIN_KIMG_ALIGN - 1);
}
if (IS_ENABLED(CONFIG_ARM64_LPA2) && va_bits > VA_BITS_MIN)
remap_idmap_for_lpa2();
va_base = KIMAGE_VADDR + kaslr_offset;
map_kernel(kaslr_offset, va_base - pa_base, root_level);
}
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