x86/smap.c - kvm-unit-tests - Git at Google

 #include "libcflat.h"
 #include "x86/desc.h"
 #include "x86/processor.h"
 #include "x86/vm.h"

 volatile int pf_count = 0;
 volatile int save;
 volatile unsigned test;

 void do_pf_tss(unsigned long error_code);

 // When doing ring 3 tests, page fault handlers will always run on a
 // separate stack (the ring 0 stack).  Seems easier to use the alt_stack
 // mechanism for both ring 0 and ring 3.

 void do_pf_tss(unsigned long error_code)
 {
 	pf_count++;
 	save = test;

 #ifndef __x86_64__
 	tss.eflags |= X86_EFLAGS_AC;
 #endif
 }

 extern void pf_tss(void);
 asm ("pf_tss:\n"
 #ifdef __x86_64__
         // no task on x86_64, save/restore caller-save regs
         "push %rax; push %rcx; push %rdx; push %rsi; push %rdi\n"
         "push %r8; push %r9; push %r10; push %r11\n"
 	"mov 9*8(%rsp),%rdi\n"
 #endif
 	"call do_pf_tss\n"
 #ifdef __x86_64__
         "pop %r11; pop %r10; pop %r9; pop %r8\n"
         "pop %rdi; pop %rsi; pop %rdx; pop %rcx; pop %rax\n"
 #endif
 	"add $"S", %"R "sp\n"
 #ifdef __x86_64__
 	"orl $" xstr(X86_EFLAGS_AC) ", 2*"S"(%"R "sp)\n"  // set EFLAGS.AC and retry
 #endif
         "iret"W" \n\t"
         "jmp pf_tss\n\t");


 #define USER_BASE	(1 << 24)
 #define USER_VAR(v)	(*((__typeof__(&(v))) (((unsigned long)&v) + USER_BASE)))
 #define USER_ADDR(v)   ((void *)((unsigned long)(&v) + USER_BASE))

 static void init_test(int i)
 {
 	pf_count = 0;
 	if (i) {
 		invlpg(&test);
 		invlpg(&USER_VAR(test));
 	}
 }

 static void check_smap_nowp(void)
 {
 	test = 0x99;

 	*get_pte(phys_to_virt(read_cr3()), USER_ADDR(test)) &= ~PT_WRITABLE_MASK;

 	write_cr4(read_cr4() & ~X86_CR4_SMAP);
 	write_cr0(read_cr0() & ~X86_CR0_WP);
 	clac();
 	write_cr3(read_cr3());

 	init_test(0);
 	USER_VAR(test) = 0x99;
 	report(pf_count == 0,
 	       "write from user page with SMAP=0, AC=0, WP=0, PTE.U=1 && PTE.W=0");

 	write_cr4(read_cr4() | X86_CR4_SMAP);
 	write_cr3(read_cr3());

 	init_test(0);
 	(void)USER_VAR(test);
 	report(pf_count == 1 && save == 0x99,
 	       "read from user page with SMAP=1, AC=0, WP=0, PTE.U=1 && PTE.W=0");

 	/* Undo changes */
 	*get_pte(phys_to_virt(read_cr3()), USER_ADDR(test)) |= PT_WRITABLE_MASK;

 	write_cr0(read_cr0() | X86_CR0_WP);
 	write_cr3(read_cr3());
 }

 int main(int ac, char **av)
 {
 	unsigned long i;

 	if (!this_cpu_has(X86_FEATURE_SMAP)) {
 		printf("SMAP not enabled\n");
 		return report_summary();
 	}

 	setup_vm();
 	setup_alt_stack();
 	set_intr_alt_stack(14, pf_tss);

 	// Map first 16MB as supervisor pages
 	for (i = 0; i < USER_BASE; i += PAGE_SIZE) {
 		*get_pte(phys_to_virt(read_cr3()), phys_to_virt(i)) &= ~PT_USER_MASK;
 		invlpg((void *)i);
 	}

 	// Present the same 16MB as user pages in the 16MB-32MB range
 	for (i = USER_BASE; i < 2 * USER_BASE; i += PAGE_SIZE) {
 		*get_pte(phys_to_virt(read_cr3()), phys_to_virt(i)) &= ~USER_BASE;
 		invlpg((void *)i);
 	}

 	clac();
 	write_cr4(read_cr4() | X86_CR4_SMAP);
 	write_cr3(read_cr3());

 	for (i = 0; i < 2; i++) {
 		if (i)
 			printf("testing with INVLPG\n");
 		else
 			printf("testing without INVLPG\n");

 		init_test(i);
 		clac();
 		test = 42;
 		report(pf_count == 0 && test == 42,
 		       "write to supervisor page");

 		init_test(i);
 		stac();
 		(void)USER_VAR(test);
 		report(pf_count == 0, "read from user page with AC=1");

 		init_test(i);
 		clac();
 		(void)USER_VAR(test);
 		report(pf_count == 1 && save == 42,
 		       "read from user page with AC=0");

 		init_test(i);
 		stac();
 		save = 0;
 		USER_VAR(test) = 43;
 		report(pf_count == 0 && test == 43,
 		       "write to user page with AC=1");

 		init_test(i);
 		clac();
 		USER_VAR(test) = 44;
 		report(pf_count == 1 && test == 44 && save == 43,
 		       "read from user page with AC=0");

 		init_test(i);
 		stac();
 		test = -1;
 		asm("or $(" xstr(USER_BASE) "), %"R "sp \n"
 		    "push $44 \n "
 		    "decl test\n"
 		    "and $~(" xstr(USER_BASE) "), %"R "sp \n"
 		    "pop %"R "ax\n"
 		    "movl %eax, test");
 		report(pf_count == 0 && test == 44,
 		       "write to user stack with AC=1");

 		init_test(i);
 		clac();
 		test = -1;
 		asm("or $(" xstr(USER_BASE) "), %"R "sp \n"
 		    "push $45 \n "
 		    "decl test\n"
 		    "and $~(" xstr(USER_BASE) "), %"R "sp \n"
 		    "pop %"R "ax\n"
 		    "movl %eax, test");
 		report(pf_count == 1 && test == 45 && save == -1,
 		       "write to user stack with AC=0");

 		/* This would be trapped by SMEP */
 		init_test(i);
 		clac();
 		asm("jmp 1f + "xstr(USER_BASE)" \n"
 		    "1: jmp 2f - "xstr(USER_BASE)" \n"
 		    "2:");
 		report(pf_count == 0, "executing on user page with AC=0");
 	}

 	check_smap_nowp();

 	// TODO: implicit kernel access from ring 3 (e.g. int)

 	return report_summary();
 }
	#include "libcflat.h"
	#include "x86/desc.h"
	#include "x86/processor.h"
	#include "x86/vm.h"

	volatile int pf_count = 0;
	volatile int save;
	volatile unsigned test;

	void do_pf_tss(unsigned long error_code);

	// When doing ring 3 tests, page fault handlers will always run on a
	// separate stack (the ring 0 stack). Seems easier to use the alt_stack
	// mechanism for both ring 0 and ring 3.

	void do_pf_tss(unsigned long error_code)
	{
	pf_count++;
	save = test;

	#ifndef __x86_64__
	tss.eflags \|= X86_EFLAGS_AC;
	#endif
	}

	extern void pf_tss(void);
	asm ("pf_tss:\n"
	#ifdef __x86_64__
	// no task on x86_64, save/restore caller-save regs
	"push %rax; push %rcx; push %rdx; push %rsi; push %rdi\n"
	"push %r8; push %r9; push %r10; push %r11\n"
	"mov 9*8(%rsp),%rdi\n"
	#endif
	"call do_pf_tss\n"
	#ifdef __x86_64__
	"pop %r11; pop %r10; pop %r9; pop %r8\n"
	"pop %rdi; pop %rsi; pop %rdx; pop %rcx; pop %rax\n"
	#endif
	"add $"S", %"R "sp\n"
	#ifdef __x86_64__
	"orl $" xstr(X86_EFLAGS_AC) ", 2*"S"(%"R "sp)\n" // set EFLAGS.AC and retry
	#endif
	"iret"W" \n\t"
	"jmp pf_tss\n\t");


	#define USER_BASE (1 << 24)
	#define USER_VAR(v) (*((__typeof__(&(v))) (((unsigned long)&v) + USER_BASE)))
	#define USER_ADDR(v) ((void *)((unsigned long)(&v) + USER_BASE))

	static void init_test(int i)
	{
	pf_count = 0;
	if (i) {
	invlpg(&test);
	invlpg(&USER_VAR(test));
	}
	}

	static void check_smap_nowp(void)
	{
	test = 0x99;

	*get_pte(phys_to_virt(read_cr3()), USER_ADDR(test)) &= ~PT_WRITABLE_MASK;

	write_cr4(read_cr4() & ~X86_CR4_SMAP);
	write_cr0(read_cr0() & ~X86_CR0_WP);
	clac();
	write_cr3(read_cr3());

	init_test(0);
	USER_VAR(test) = 0x99;
	report(pf_count == 0,
	"write from user page with SMAP=0, AC=0, WP=0, PTE.U=1 && PTE.W=0");

	write_cr4(read_cr4() \| X86_CR4_SMAP);
	write_cr3(read_cr3());

	init_test(0);
	(void)USER_VAR(test);
	report(pf_count == 1 && save == 0x99,
	"read from user page with SMAP=1, AC=0, WP=0, PTE.U=1 && PTE.W=0");

	/* Undo changes */
	*get_pte(phys_to_virt(read_cr3()), USER_ADDR(test)) \|= PT_WRITABLE_MASK;

	write_cr0(read_cr0() \| X86_CR0_WP);
	write_cr3(read_cr3());
	}

	int main(int ac, char **av)
	{
	unsigned long i;

	if (!this_cpu_has(X86_FEATURE_SMAP)) {
	printf("SMAP not enabled\n");
	return report_summary();
	}

	setup_vm();
	setup_alt_stack();
	set_intr_alt_stack(14, pf_tss);

	// Map first 16MB as supervisor pages
	for (i = 0; i < USER_BASE; i += PAGE_SIZE) {
	*get_pte(phys_to_virt(read_cr3()), phys_to_virt(i)) &= ~PT_USER_MASK;
	invlpg((void *)i);
	}

	// Present the same 16MB as user pages in the 16MB-32MB range
	for (i = USER_BASE; i < 2 * USER_BASE; i += PAGE_SIZE) {
	*get_pte(phys_to_virt(read_cr3()), phys_to_virt(i)) &= ~USER_BASE;
	invlpg((void *)i);
	}

	clac();
	write_cr4(read_cr4() \| X86_CR4_SMAP);
	write_cr3(read_cr3());

	for (i = 0; i < 2; i++) {
	if (i)
	printf("testing with INVLPG\n");
	else
	printf("testing without INVLPG\n");

	init_test(i);
	clac();
	test = 42;
	report(pf_count == 0 && test == 42,
	"write to supervisor page");

	init_test(i);
	stac();
	(void)USER_VAR(test);
	report(pf_count == 0, "read from user page with AC=1");

	init_test(i);
	clac();
	(void)USER_VAR(test);
	report(pf_count == 1 && save == 42,
	"read from user page with AC=0");

	init_test(i);
	stac();
	save = 0;
	USER_VAR(test) = 43;
	report(pf_count == 0 && test == 43,
	"write to user page with AC=1");

	init_test(i);
	clac();
	USER_VAR(test) = 44;
	report(pf_count == 1 && test == 44 && save == 43,
	"read from user page with AC=0");

	init_test(i);
	stac();
	test = -1;
	asm("or $(" xstr(USER_BASE) "), %"R "sp \n"
	"push $44 \n "
	"decl test\n"
	"and $~(" xstr(USER_BASE) "), %"R "sp \n"
	"pop %"R "ax\n"
	"movl %eax, test");
	report(pf_count == 0 && test == 44,
	"write to user stack with AC=1");

	init_test(i);
	clac();
	test = -1;
	asm("or $(" xstr(USER_BASE) "), %"R "sp \n"
	"push $45 \n "
	"decl test\n"
	"and $~(" xstr(USER_BASE) "), %"R "sp \n"
	"pop %"R "ax\n"
	"movl %eax, test");
	report(pf_count == 1 && test == 45 && save == -1,
	"write to user stack with AC=0");

	/* This would be trapped by SMEP */
	init_test(i);
	clac();
	asm("jmp 1f + "xstr(USER_BASE)" \n"
	"1: jmp 2f - "xstr(USER_BASE)" \n"
	"2:");
	report(pf_count == 0, "executing on user page with AC=0");
	}

	check_smap_nowp();

	// TODO: implicit kernel access from ring 3 (e.g. int)

	return report_summary();
	}