arch/arm64/kvm/stacktrace.c - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */
 /*
  * KVM nVHE hypervisor stack tracing support.
  *
  * The unwinder implementation depends on the nVHE mode:
  *
  *   1) Non-protected nVHE mode - the host can directly access the
  *      HYP stack pages and unwind the HYP stack in EL1. This saves having
  *      to allocate shared buffers for the host to read the unwinded
  *      stacktrace.
  *
  *   2) pKVM (protected nVHE) mode - the host cannot directly access
  *      the HYP memory. The stack is unwinded in EL2 and dumped to a shared
  *      buffer where the host can read and print the stacktrace.
  *
  * Copyright (C) 2022 Google LLC
  */

 #include <linux/kvm.h>
 #include <linux/kvm_host.h>

 #include <asm/stacktrace/nvhe.h>

 static struct stack_info stackinfo_get_overflow(void)
 {
 	struct kvm_nvhe_stacktrace_info *stacktrace_info
 				= this_cpu_ptr_nvhe_sym(kvm_stacktrace_info);
 	unsigned long low = (unsigned long)stacktrace_info->overflow_stack_base;
 	unsigned long high = low + OVERFLOW_STACK_SIZE;

 	return (struct stack_info) {
 		.low = low,
 		.high = high,
 	};
 }

 static struct stack_info stackinfo_get_overflow_kern_va(void)
 {
 	unsigned long low = (unsigned long)this_cpu_ptr_nvhe_sym(overflow_stack);
 	unsigned long high = low + OVERFLOW_STACK_SIZE;

 	return (struct stack_info) {
 		.low = low,
 		.high = high,
 	};
 }

 static struct stack_info stackinfo_get_hyp(void)
 {
 	struct kvm_nvhe_stacktrace_info *stacktrace_info
 				= this_cpu_ptr_nvhe_sym(kvm_stacktrace_info);
 	unsigned long low = (unsigned long)stacktrace_info->stack_base;
 	unsigned long high = low + PAGE_SIZE;

 	return (struct stack_info) {
 		.low = low,
 		.high = high,
 	};
 }

 static struct stack_info stackinfo_get_hyp_kern_va(void)
 {
 	unsigned long low = (unsigned long)*this_cpu_ptr(&kvm_arm_hyp_stack_page);
 	unsigned long high = low + PAGE_SIZE;

 	return (struct stack_info) {
 		.low = low,
 		.high = high,
 	};
 }

 /*
  * kvm_nvhe_stack_kern_va - Convert KVM nVHE HYP stack addresses to a kernel VAs
  *
  * The nVHE hypervisor stack is mapped in the flexible 'private' VA range, to
  * allow for guard pages below the stack. Consequently, the fixed offset address
  * translation macros won't work here.
  *
  * The kernel VA is calculated as an offset from the kernel VA of the hypervisor
  * stack base.
  *
  * Returns true on success and updates @addr to its corresponding kernel VA;
  * otherwise returns false.
  */
 static bool kvm_nvhe_stack_kern_va(unsigned long *addr, unsigned long size)
 {
 	struct stack_info stack_hyp, stack_kern;

 	stack_hyp = stackinfo_get_hyp();
 	stack_kern = stackinfo_get_hyp_kern_va();
 	if (stackinfo_on_stack(&stack_hyp, *addr, size))
 		goto found;

 	stack_hyp = stackinfo_get_overflow();
 	stack_kern = stackinfo_get_overflow_kern_va();
 	if (stackinfo_on_stack(&stack_hyp, *addr, size))
 		goto found;

 	return false;

 found:
 	*addr = *addr - stack_hyp.low + stack_kern.low;
 	return true;
 }

 /*
  * Convert a KVN nVHE HYP frame record address to a kernel VA
  */
 static bool kvm_nvhe_stack_kern_record_va(unsigned long *addr)
 {
 	return kvm_nvhe_stack_kern_va(addr, 16);
 }

 static int unwind_next(struct unwind_state *state)
 {
 	/*
 	 * The FP is in the hypervisor VA space. Convert it to the kernel VA
 	 * space so it can be unwound by the regular unwind functions.
 	 */
 	if (!kvm_nvhe_stack_kern_record_va(&state->fp))
 		return -EINVAL;

 	return unwind_next_frame_record(state);
 }

 static void unwind(struct unwind_state *state,
 		   stack_trace_consume_fn consume_entry, void *cookie)
 {
 	while (1) {
 		int ret;

 		if (!consume_entry(cookie, state->pc))
 			break;
 		ret = unwind_next(state);
 		if (ret < 0)
 			break;
 	}
 }

 /*
  * kvm_nvhe_dump_backtrace_entry - Symbolize and print an nVHE backtrace entry
  *
  * @arg    : the hypervisor offset, used for address translation
  * @where  : the program counter corresponding to the stack frame
  */
 static bool kvm_nvhe_dump_backtrace_entry(void *arg, unsigned long where)
 {
 	unsigned long va_mask = GENMASK_ULL(vabits_actual - 1, 0);
 	unsigned long hyp_offset = (unsigned long)arg;

 	/* Mask tags and convert to kern addr */
 	where = (where & va_mask) + hyp_offset;
 	kvm_err(" [<%016lx>] %pB\n", where, (void *)(where + kaslr_offset()));

 	return true;
 }

 static void kvm_nvhe_dump_backtrace_start(void)
 {
 	kvm_err("nVHE call trace:\n");
 }

 static void kvm_nvhe_dump_backtrace_end(void)
 {
 	kvm_err("---[ end nVHE call trace ]---\n");
 }

 /*
  * hyp_dump_backtrace - Dump the non-protected nVHE backtrace.
  *
  * @hyp_offset: hypervisor offset, used for address translation.
  *
  * The host can directly access HYP stack pages in non-protected
  * mode, so the unwinding is done directly from EL1. This removes
  * the need for shared buffers between host and hypervisor for
  * the stacktrace.
  */
 static void hyp_dump_backtrace(unsigned long hyp_offset)
 {
 	struct kvm_nvhe_stacktrace_info *stacktrace_info;
 	struct stack_info stacks[] = {
 		stackinfo_get_overflow_kern_va(),
 		stackinfo_get_hyp_kern_va(),
 	};
 	struct unwind_state state = {
 		.stacks = stacks,
 		.nr_stacks = ARRAY_SIZE(stacks),
 	};

 	stacktrace_info = this_cpu_ptr_nvhe_sym(kvm_stacktrace_info);

 	kvm_nvhe_unwind_init(&state, stacktrace_info->fp, stacktrace_info->pc);

 	kvm_nvhe_dump_backtrace_start();
 	unwind(&state, kvm_nvhe_dump_backtrace_entry, (void *)hyp_offset);
 	kvm_nvhe_dump_backtrace_end();
 }

 #ifdef CONFIG_PROTECTED_NVHE_STACKTRACE
 DECLARE_KVM_NVHE_PER_CPU(unsigned long [NVHE_STACKTRACE_SIZE/sizeof(long)],
 			 pkvm_stacktrace);

 /*
  * pkvm_dump_backtrace - Dump the protected nVHE HYP backtrace.
  *
  * @hyp_offset: hypervisor offset, used for address translation.
  *
  * Dumping of the pKVM HYP backtrace is done by reading the
  * stack addresses from the shared stacktrace buffer, since the
  * host cannot directly access hypervisor memory in protected
  * mode.
  */
 static void pkvm_dump_backtrace(unsigned long hyp_offset)
 {
 	unsigned long *stacktrace
 		= (unsigned long *) this_cpu_ptr_nvhe_sym(pkvm_stacktrace);
 	int i;

 	kvm_nvhe_dump_backtrace_start();
 	/* The saved stacktrace is terminated by a null entry */
 	for (i = 0;
 	     i < ARRAY_SIZE(kvm_nvhe_sym(pkvm_stacktrace)) && stacktrace[i];
 	     i++)
 		kvm_nvhe_dump_backtrace_entry((void *)hyp_offset, stacktrace[i]);
 	kvm_nvhe_dump_backtrace_end();
 }
 #else	/* !CONFIG_PROTECTED_NVHE_STACKTRACE */
 static void pkvm_dump_backtrace(unsigned long hyp_offset)
 {
 	kvm_err("Cannot dump pKVM nVHE stacktrace: !CONFIG_PROTECTED_NVHE_STACKTRACE\n");
 }
 #endif /* CONFIG_PROTECTED_NVHE_STACKTRACE */

 /*
  * kvm_nvhe_dump_backtrace - Dump KVM nVHE hypervisor backtrace.
  *
  * @hyp_offset: hypervisor offset, used for address translation.
  */
 void kvm_nvhe_dump_backtrace(unsigned long hyp_offset)
 {
 	if (is_protected_kvm_enabled())
 		pkvm_dump_backtrace(hyp_offset);
 	else
 		hyp_dump_backtrace(hyp_offset);
 }
	/* SPDX-License-Identifier: GPL-2.0-only */
	/*
	* KVM nVHE hypervisor stack tracing support.
	*
	* The unwinder implementation depends on the nVHE mode:
	*
	* 1) Non-protected nVHE mode - the host can directly access the
	* HYP stack pages and unwind the HYP stack in EL1. This saves having
	* to allocate shared buffers for the host to read the unwinded
	* stacktrace.
	*
	* 2) pKVM (protected nVHE) mode - the host cannot directly access
	* the HYP memory. The stack is unwinded in EL2 and dumped to a shared
	* buffer where the host can read and print the stacktrace.
	*
	* Copyright (C) 2022 Google LLC
	*/

	#include <linux/kvm.h>
	#include <linux/kvm_host.h>

	#include <asm/stacktrace/nvhe.h>

	static struct stack_info stackinfo_get_overflow(void)
	{
	struct kvm_nvhe_stacktrace_info *stacktrace_info
	= this_cpu_ptr_nvhe_sym(kvm_stacktrace_info);
	unsigned long low = (unsigned long)stacktrace_info->overflow_stack_base;
	unsigned long high = low + OVERFLOW_STACK_SIZE;

	return (struct stack_info) {
	.low = low,
	.high = high,
	};
	}

	static struct stack_info stackinfo_get_overflow_kern_va(void)
	{
	unsigned long low = (unsigned long)this_cpu_ptr_nvhe_sym(overflow_stack);
	unsigned long high = low + OVERFLOW_STACK_SIZE;

	return (struct stack_info) {
	.low = low,
	.high = high,
	};
	}

	static struct stack_info stackinfo_get_hyp(void)
	{
	struct kvm_nvhe_stacktrace_info *stacktrace_info
	= this_cpu_ptr_nvhe_sym(kvm_stacktrace_info);
	unsigned long low = (unsigned long)stacktrace_info->stack_base;
	unsigned long high = low + PAGE_SIZE;

	return (struct stack_info) {
	.low = low,
	.high = high,
	};
	}

	static struct stack_info stackinfo_get_hyp_kern_va(void)
	{
	unsigned long low = (unsigned long)*this_cpu_ptr(&kvm_arm_hyp_stack_page);
	unsigned long high = low + PAGE_SIZE;

	return (struct stack_info) {
	.low = low,
	.high = high,
	};
	}

	/*
	* kvm_nvhe_stack_kern_va - Convert KVM nVHE HYP stack addresses to a kernel VAs
	*
	* The nVHE hypervisor stack is mapped in the flexible 'private' VA range, to
	* allow for guard pages below the stack. Consequently, the fixed offset address
	* translation macros won't work here.
	*
	* The kernel VA is calculated as an offset from the kernel VA of the hypervisor
	* stack base.
	*
	* Returns true on success and updates @addr to its corresponding kernel VA;
	* otherwise returns false.
	*/
	static bool kvm_nvhe_stack_kern_va(unsigned long *addr, unsigned long size)
	{
	struct stack_info stack_hyp, stack_kern;

	stack_hyp = stackinfo_get_hyp();
	stack_kern = stackinfo_get_hyp_kern_va();
	if (stackinfo_on_stack(&stack_hyp, *addr, size))
	goto found;

	stack_hyp = stackinfo_get_overflow();
	stack_kern = stackinfo_get_overflow_kern_va();
	if (stackinfo_on_stack(&stack_hyp, *addr, size))
	goto found;

	return false;

	found:
	addr = addr - stack_hyp.low + stack_kern.low;
	return true;
	}

	/*
	* Convert a KVN nVHE HYP frame record address to a kernel VA
	*/
	static bool kvm_nvhe_stack_kern_record_va(unsigned long *addr)
	{
	return kvm_nvhe_stack_kern_va(addr, 16);
	}

	static int unwind_next(struct unwind_state *state)
	{
	/*
	* The FP is in the hypervisor VA space. Convert it to the kernel VA
	* space so it can be unwound by the regular unwind functions.
	*/
	if (!kvm_nvhe_stack_kern_record_va(&state->fp))
	return -EINVAL;

	return unwind_next_frame_record(state);
	}

	static void unwind(struct unwind_state *state,
	stack_trace_consume_fn consume_entry, void *cookie)
	{
	while (1) {
	int ret;

	if (!consume_entry(cookie, state->pc))
	break;
	ret = unwind_next(state);
	if (ret < 0)
	break;
	}
	}

	/*
	* kvm_nvhe_dump_backtrace_entry - Symbolize and print an nVHE backtrace entry
	*
	* @arg : the hypervisor offset, used for address translation
	* @where : the program counter corresponding to the stack frame
	*/
	static bool kvm_nvhe_dump_backtrace_entry(void *arg, unsigned long where)
	{
	unsigned long va_mask = GENMASK_ULL(vabits_actual - 1, 0);
	unsigned long hyp_offset = (unsigned long)arg;

	/* Mask tags and convert to kern addr */
	where = (where & va_mask) + hyp_offset;
	kvm_err(" [<%016lx>] %pB\n", where, (void *)(where + kaslr_offset()));

	return true;
	}

	static void kvm_nvhe_dump_backtrace_start(void)
	{
	kvm_err("nVHE call trace:\n");
	}

	static void kvm_nvhe_dump_backtrace_end(void)
	{
	kvm_err("---[ end nVHE call trace ]---\n");
	}

	/*
	* hyp_dump_backtrace - Dump the non-protected nVHE backtrace.
	*
	* @hyp_offset: hypervisor offset, used for address translation.
	*
	* The host can directly access HYP stack pages in non-protected
	* mode, so the unwinding is done directly from EL1. This removes
	* the need for shared buffers between host and hypervisor for
	* the stacktrace.
	*/
	static void hyp_dump_backtrace(unsigned long hyp_offset)
	{
	struct kvm_nvhe_stacktrace_info *stacktrace_info;
	struct stack_info stacks[] = {
	stackinfo_get_overflow_kern_va(),
	stackinfo_get_hyp_kern_va(),
	};
	struct unwind_state state = {
	.stacks = stacks,
	.nr_stacks = ARRAY_SIZE(stacks),
	};

	stacktrace_info = this_cpu_ptr_nvhe_sym(kvm_stacktrace_info);

	kvm_nvhe_unwind_init(&state, stacktrace_info->fp, stacktrace_info->pc);

	kvm_nvhe_dump_backtrace_start();
	unwind(&state, kvm_nvhe_dump_backtrace_entry, (void *)hyp_offset);
	kvm_nvhe_dump_backtrace_end();
	}

	#ifdef CONFIG_PROTECTED_NVHE_STACKTRACE
	DECLARE_KVM_NVHE_PER_CPU(unsigned long [NVHE_STACKTRACE_SIZE/sizeof(long)],
	pkvm_stacktrace);

	/*
	* pkvm_dump_backtrace - Dump the protected nVHE HYP backtrace.
	*
	* @hyp_offset: hypervisor offset, used for address translation.
	*
	* Dumping of the pKVM HYP backtrace is done by reading the
	* stack addresses from the shared stacktrace buffer, since the
	* host cannot directly access hypervisor memory in protected
	* mode.
	*/
	static void pkvm_dump_backtrace(unsigned long hyp_offset)
	{
	unsigned long *stacktrace
	= (unsigned long *) this_cpu_ptr_nvhe_sym(pkvm_stacktrace);
	int i;

	kvm_nvhe_dump_backtrace_start();
	/* The saved stacktrace is terminated by a null entry */
	for (i = 0;
	i < ARRAY_SIZE(kvm_nvhe_sym(pkvm_stacktrace)) && stacktrace[i];
	i++)
	kvm_nvhe_dump_backtrace_entry((void *)hyp_offset, stacktrace[i]);
	kvm_nvhe_dump_backtrace_end();
	}
	#else /* !CONFIG_PROTECTED_NVHE_STACKTRACE */
	static void pkvm_dump_backtrace(unsigned long hyp_offset)
	{
	kvm_err("Cannot dump pKVM nVHE stacktrace: !CONFIG_PROTECTED_NVHE_STACKTRACE\n");
	}
	#endif /* CONFIG_PROTECTED_NVHE_STACKTRACE */

	/*
	* kvm_nvhe_dump_backtrace - Dump KVM nVHE hypervisor backtrace.
	*
	* @hyp_offset: hypervisor offset, used for address translation.
	*/
	void kvm_nvhe_dump_backtrace(unsigned long hyp_offset)
	{
	if (is_protected_kvm_enabled())
	pkvm_dump_backtrace(hyp_offset);
	else
	hyp_dump_backtrace(hyp_offset);
	}