amd64/include/asan.h

1.8  riastrad /*	$NetBSD: asan.h,v 1.8 2020/09/05 16:30:10 riastradh Exp $	*/
1.1      maxv
1.1      maxv /*
1.1      maxv  * Copyright (c) 2018 The NetBSD Foundation, Inc.
1.1      maxv  * All rights reserved.
1.1      maxv  *
1.1      maxv  * This code is derived from software contributed to The NetBSD Foundation
1.1      maxv  * by Maxime Villard.
1.1      maxv  *
1.1      maxv  * Redistribution and use in source and binary forms, with or without
1.1      maxv  * modification, are permitted provided that the following conditions
1.1      maxv  * are met:
1.1      maxv  * 1. Redistributions of source code must retain the above copyright
1.1      maxv  *    notice, this list of conditions and the following disclaimer.
1.1      maxv  * 2. Redistributions in binary form must reproduce the above copyright
1.1      maxv  *    notice, this list of conditions and the following disclaimer in the
1.1      maxv  *    documentation and/or other materials provided with the distribution.
1.1      maxv  *
1.1      maxv  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1      maxv  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1      maxv  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1      maxv  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1      maxv  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1      maxv  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1      maxv  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1      maxv  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1      maxv  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1      maxv  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1      maxv  * POSSIBILITY OF SUCH DAMAGE.
1.1      maxv  */
1.1      maxv
1.1      maxv #include <sys/ksyms.h>
1.1      maxv
1.8  riastrad #include <uvm/uvm.h>
1.8  riastrad
1.1      maxv #include <amd64/pmap.h>
1.1      maxv #include <amd64/vmparam.h>
1.1      maxv
1.1      maxv #ifdef __HAVE_PCPU_AREA
1.1      maxv #error "PCPU area not allowed with KASAN"
1.1      maxv #endif
1.1      maxv #ifdef __HAVE_DIRECT_MAP
1.1      maxv #error "DMAP not allowed with KASAN"
1.1      maxv #endif
1.1      maxv
1.1      maxv #define __MD_VIRTUAL_SHIFT	47	/* 48bit address space, cut half */
1.7      maxv #define __MD_KERNMEM_BASE	0xFFFF800000000000 /* kern mem base address */
1.1      maxv
1.1      maxv #define __MD_SHADOW_SIZE	(1ULL << (__MD_VIRTUAL_SHIFT - KASAN_SHADOW_SCALE_SHIFT))
1.1      maxv #define KASAN_MD_SHADOW_START	(VA_SIGN_NEG((L4_SLOT_KASAN * NBPD_L4)))
1.1      maxv #define KASAN_MD_SHADOW_END	(KASAN_MD_SHADOW_START + __MD_SHADOW_SIZE)
1.1      maxv
1.6      maxv /* -------------------------------------------------------------------------- */
1.6      maxv
1.6      maxv /*
1.6      maxv  * Early mapping, used to map just the stack at boot time. We rely on the fact
1.6      maxv  * that VA = PA + KERNBASE.
1.6      maxv  */
1.6      maxv
1.1      maxv static bool __md_early __read_mostly = true;
1.1      maxv static uint8_t __md_earlypages[8 * PAGE_SIZE] __aligned(PAGE_SIZE);
1.1      maxv static size_t __md_earlytaken = 0;
1.1      maxv
1.1      maxv static paddr_t
1.1      maxv __md_early_palloc(void)
1.1      maxv {
1.1      maxv 	paddr_t ret;
1.1      maxv
1.1      maxv 	KASSERT(__md_earlytaken < 8);
1.1      maxv
1.1      maxv 	ret = (paddr_t)(&__md_earlypages[0] + __md_earlytaken * PAGE_SIZE);
1.1      maxv 	__md_earlytaken++;
1.1      maxv
1.1      maxv 	ret -= KERNBASE;
1.1      maxv
1.1      maxv 	return ret;
1.1      maxv }
1.1      maxv
1.6      maxv static void
1.6      maxv __md_early_shadow_map_page(vaddr_t va)
1.1      maxv {
1.6      maxv 	extern struct bootspace bootspace;
1.6      maxv 	const pt_entry_t pteflags = PTE_W | pmap_pg_nx | PTE_P;
1.6      maxv 	pt_entry_t *pdir = (pt_entry_t *)bootspace.pdir;
1.1      maxv 	paddr_t pa;
1.1      maxv
1.6      maxv 	if (!pmap_valid_entry(pdir[pl4_pi(va)])) {
1.6      maxv 		pa = __md_early_palloc();
1.6      maxv 		pdir[pl4_pi(va)] = pa | pteflags;
1.6      maxv 	}
1.6      maxv 	pdir = (pt_entry_t *)((pdir[pl4_pi(va)] & PTE_FRAME) + KERNBASE);
1.6      maxv
1.6      maxv 	if (!pmap_valid_entry(pdir[pl3_pi(va)])) {
1.6      maxv 		pa = __md_early_palloc();
1.6      maxv 		pdir[pl3_pi(va)] = pa | pteflags;
1.6      maxv 	}
1.6      maxv 	pdir = (pt_entry_t *)((pdir[pl3_pi(va)] & PTE_FRAME) + KERNBASE);
1.6      maxv
1.6      maxv 	if (!pmap_valid_entry(pdir[pl2_pi(va)])) {
1.6      maxv 		pa = __md_early_palloc();
1.6      maxv 		pdir[pl2_pi(va)] = pa | pteflags;
1.6      maxv 	}
1.6      maxv 	pdir = (pt_entry_t *)((pdir[pl2_pi(va)] & PTE_FRAME) + KERNBASE);
1.6      maxv
1.6      maxv 	if (!pmap_valid_entry(pdir[pl1_pi(va)])) {
1.1      maxv 		pa = __md_early_palloc();
1.6      maxv 		pdir[pl1_pi(va)] = pa | pteflags | pmap_pg_g;
1.6      maxv 	}
1.6      maxv }
1.6      maxv
1.6      maxv /* -------------------------------------------------------------------------- */
1.6      maxv
1.6      maxv static inline int8_t *
1.6      maxv kasan_md_addr_to_shad(const void *addr)
1.6      maxv {
1.6      maxv 	vaddr_t va = (vaddr_t)addr;
1.6      maxv 	return (int8_t *)(KASAN_MD_SHADOW_START +
1.7      maxv 	    ((va - __MD_KERNMEM_BASE) >> KASAN_SHADOW_SCALE_SHIFT));
1.6      maxv }
1.1      maxv
1.6      maxv static inline bool
1.6      maxv kasan_md_unsupported(vaddr_t addr)
1.6      maxv {
1.6      maxv 	return (addr >= (vaddr_t)PTE_BASE &&
1.6      maxv 	    addr < ((vaddr_t)PTE_BASE + NBPD_L4));
1.6      maxv }
1.6      maxv
1.6      maxv static paddr_t
1.6      maxv __md_palloc(void)
1.6      maxv {
1.4      maxv 	/* The page is zeroed. */
1.6      maxv 	return pmap_get_physpage();
1.1      maxv }
1.1      maxv
1.4      maxv static inline paddr_t
1.4      maxv __md_palloc_large(void)
1.4      maxv {
1.4      maxv 	struct pglist pglist;
1.4      maxv 	int ret;
1.4      maxv
1.4      maxv 	if (!uvm.page_init_done)
1.4      maxv 		return 0;
1.4      maxv
1.4      maxv 	ret = uvm_pglistalloc(NBPD_L2, 0, ~0UL, NBPD_L2, 0,
1.4      maxv 	    &pglist, 1, 0);
1.4      maxv 	if (ret != 0)
1.4      maxv 		return 0;
1.4      maxv
1.4      maxv 	/* The page may not be zeroed. */
1.4      maxv 	return VM_PAGE_TO_PHYS(TAILQ_FIRST(&pglist));
1.4      maxv }
1.4      maxv
1.1      maxv static void
1.1      maxv kasan_md_shadow_map_page(vaddr_t va)
1.1      maxv {
1.4      maxv 	const pt_entry_t pteflags = PTE_W | pmap_pg_nx | PTE_P;
1.1      maxv 	paddr_t pa;
1.1      maxv
1.6      maxv 	if (__predict_false(__md_early)) {
1.6      maxv 		__md_early_shadow_map_page(va);
1.6      maxv 		return;
1.6      maxv 	}
1.6      maxv
1.1      maxv 	if (!pmap_valid_entry(L4_BASE[pl4_i(va)])) {
1.1      maxv 		pa = __md_palloc();
1.4      maxv 		L4_BASE[pl4_i(va)] = pa | pteflags;
1.1      maxv 	}
1.1      maxv 	if (!pmap_valid_entry(L3_BASE[pl3_i(va)])) {
1.1      maxv 		pa = __md_palloc();
1.4      maxv 		L3_BASE[pl3_i(va)] = pa | pteflags;
1.1      maxv 	}
1.1      maxv 	if (!pmap_valid_entry(L2_BASE[pl2_i(va)])) {
1.4      maxv 		if ((pa = __md_palloc_large()) != 0) {
1.4      maxv 			L2_BASE[pl2_i(va)] = pa | pteflags | PTE_PS |
1.4      maxv 			    pmap_pg_g;
1.4      maxv 			__insn_barrier();
1.4      maxv 			__builtin_memset((void *)va, 0, NBPD_L2);
1.4      maxv 			return;
1.4      maxv 		}
1.1      maxv 		pa = __md_palloc();
1.4      maxv 		L2_BASE[pl2_i(va)] = pa | pteflags;
1.4      maxv 	} else if (L2_BASE[pl2_i(va)] & PTE_PS) {
1.4      maxv 		return;
1.1      maxv 	}
1.1      maxv 	if (!pmap_valid_entry(L1_BASE[pl1_i(va)])) {
1.1      maxv 		pa = __md_palloc();
1.4      maxv 		L1_BASE[pl1_i(va)] = pa | pteflags | pmap_pg_g;
1.1      maxv 	}
1.1      maxv }
1.1      maxv
1.1      maxv /*
1.1      maxv  * Map only the current stack. We will map the rest in kasan_init.
1.1      maxv  */
1.1      maxv static void
1.1      maxv kasan_md_early_init(void *stack)
1.1      maxv {
1.1      maxv 	kasan_shadow_map(stack, USPACE);
1.1      maxv 	__md_early = false;
1.1      maxv }
1.1      maxv
1.1      maxv /*
1.1      maxv  * Create the shadow mapping. We don't create the 'User' area, because we
1.1      maxv  * exclude it from the monitoring. The 'Main' area is created dynamically
1.1      maxv  * in pmap_growkernel.
1.1      maxv  */
1.1      maxv static void
1.1      maxv kasan_md_init(void)
1.1      maxv {
1.1      maxv 	extern struct bootspace bootspace;
1.1      maxv 	size_t i;
1.1      maxv
1.1      maxv 	CTASSERT((__MD_SHADOW_SIZE / NBPD_L4) == NL4_SLOT_KASAN);
1.1      maxv
1.1      maxv 	/* Kernel. */
1.1      maxv 	for (i = 0; i < BTSPACE_NSEGS; i++) {
1.1      maxv 		if (bootspace.segs[i].type == BTSEG_NONE) {
1.1      maxv 			continue;
1.1      maxv 		}
1.1      maxv 		kasan_shadow_map((void *)bootspace.segs[i].va,
1.1      maxv 		    bootspace.segs[i].sz);
1.1      maxv 	}
1.1      maxv
1.1      maxv 	/* Boot region. */
1.1      maxv 	kasan_shadow_map((void *)bootspace.boot.va, bootspace.boot.sz);
1.1      maxv
1.1      maxv 	/* Module map. */
1.1      maxv 	kasan_shadow_map((void *)bootspace.smodule,
1.1      maxv 	    (size_t)(bootspace.emodule - bootspace.smodule));
1.1      maxv
1.1      maxv 	/* The bootstrap spare va. */
1.1      maxv 	kasan_shadow_map((void *)bootspace.spareva, PAGE_SIZE);
1.1      maxv }
1.1      maxv
1.1      maxv static inline bool
1.1      maxv __md_unwind_end(const char *name)
1.1      maxv {
1.1      maxv 	if (!strcmp(name, "syscall") ||
1.2      maxv 	    !strcmp(name, "alltraps") ||
1.1      maxv 	    !strcmp(name, "handle_syscall") ||
1.2      maxv 	    !strncmp(name, "Xtrap", 5) ||
1.1      maxv 	    !strncmp(name, "Xintr", 5) ||
1.1      maxv 	    !strncmp(name, "Xhandle", 7) ||
1.1      maxv 	    !strncmp(name, "Xresume", 7) ||
1.1      maxv 	    !strncmp(name, "Xstray", 6) ||
1.1      maxv 	    !strncmp(name, "Xhold", 5) ||
1.1      maxv 	    !strncmp(name, "Xrecurse", 8) ||
1.1      maxv 	    !strcmp(name, "Xdoreti") ||
1.1      maxv 	    !strncmp(name, "Xsoft", 5)) {
1.1      maxv 		return true;
1.1      maxv 	}
1.1      maxv
1.1      maxv 	return false;
1.1      maxv }
1.1      maxv
1.1      maxv static void
1.1      maxv kasan_md_unwind(void)
1.1      maxv {
1.1      maxv 	uint64_t *rbp, rip;
1.1      maxv 	const char *mod;
1.1      maxv 	const char *sym;
1.1      maxv 	size_t nsym;
1.1      maxv 	int error;
1.1      maxv
1.1      maxv 	rbp = (uint64_t *)__builtin_frame_address(0);
1.1      maxv 	nsym = 0;
1.1      maxv
1.1      maxv 	while (1) {
1.1      maxv 		/* 8(%rbp) contains the saved %rip. */
1.1      maxv 		rip = *(rbp + 1);
1.1      maxv
1.1      maxv 		if (rip < KERNBASE) {
1.1      maxv 			break;
1.1      maxv 		}
1.1      maxv 		error = ksyms_getname(&mod, &sym, (vaddr_t)rip, KSYMS_PROC);
1.1      maxv 		if (error) {
1.1      maxv 			break;
1.1      maxv 		}
1.1      maxv 		printf("#%zu %p in %s <%s>\n", nsym, (void *)rip, sym, mod);
1.1      maxv 		if (__md_unwind_end(sym)) {
1.1      maxv 			break;
1.1      maxv 		}
1.1      maxv
1.1      maxv 		rbp = (uint64_t *)*(rbp);
1.1      maxv 		if (rbp == 0) {
1.1      maxv 			break;
1.1      maxv 		}
1.1      maxv 		nsym++;
1.1      maxv
1.1      maxv 		if (nsym >= 15) {
1.1      maxv 			break;
1.1      maxv 		}
1.1      maxv 	}
1.1      maxv }