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|
/* $OpenBSD: kcov.c,v 1.15 2019/05/19 08:55:27 anton Exp $ */
/*
* Copyright (c) 2018 Anton Lindqvist <anton@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/proc.h>
#include <sys/kcov.h>
#include <sys/malloc.h>
#include <sys/stdint.h>
#include <sys/queue.h>
#include <uvm/uvm_extern.h>
#define KCOV_BUF_MEMB_SIZE sizeof(uintptr_t)
#define KCOV_CMP_CONST 0x1
#define KCOV_CMP_SIZE(x) ((x) << 1)
/* #define KCOV_DEBUG */
#ifdef KCOV_DEBUG
#define DPRINTF(x...) do { if (kcov_debug) printf(x); } while (0)
#else
#define DPRINTF(x...)
#endif
struct kcov_dev {
enum {
KCOV_STATE_NONE,
KCOV_STATE_READY,
KCOV_STATE_TRACE,
KCOV_STATE_DYING,
} kd_state;
int kd_mode;
int kd_unit; /* device minor */
uintptr_t *kd_buf; /* traced coverage */
size_t kd_nmemb;
size_t kd_size;
TAILQ_ENTRY(kcov_dev) kd_entry;
};
void kcovattach(int);
int kd_init(struct kcov_dev *, unsigned long);
void kd_free(struct kcov_dev *);
struct kcov_dev *kd_lookup(int);
static inline int inintr(void);
TAILQ_HEAD(, kcov_dev) kd_list = TAILQ_HEAD_INITIALIZER(kd_list);
int kcov_cold = 1;
#ifdef KCOV_DEBUG
int kcov_debug = 1;
#endif
/*
* Compiling the kernel with the `-fsanitize-coverage=trace-pc' option will
* cause the following function to be called upon function entry and before
* each block instructions that maps to a single line in the original source
* code.
*
* If kcov is enabled for the current thread, the kernel program counter will
* be stored in its corresponding coverage buffer.
* The first element in the coverage buffer holds the index of next available
* element.
*/
void
__sanitizer_cov_trace_pc(void)
{
struct kcov_dev *kd;
uint64_t idx;
/*
* Do not trace before kcovopen() has been called at least once.
* At this point, all secondary CPUs have booted and accessing curcpu()
* is safe.
*/
if (kcov_cold)
return;
/* Do not trace in interrupts to prevent noisy coverage. */
if (inintr())
return;
kd = curproc->p_kd;
if (kd == NULL || kd->kd_mode != KCOV_MODE_TRACE_PC)
return;
idx = kd->kd_buf[0];
if (idx + 1 <= kd->kd_nmemb) {
kd->kd_buf[idx + 1] = (uintptr_t)__builtin_return_address(0);
kd->kd_buf[0] = idx + 1;
}
}
/*
* Compiling the kernel with the `-fsanitize-coverage=trace-cmp' option will
* cause the following function to be called upon integer comparisons and switch
* statements.
*
* If kcov is enabled for the current thread, the comparison will be stored in
* its corresponding coverage buffer.
*/
void
trace_cmp(uint64_t type, uint64_t arg1, uint64_t arg2, uintptr_t pc)
{
struct kcov_dev *kd;
uint64_t idx;
/*
* Do not trace before kcovopen() has been called at least once.
* At this point, all secondary CPUs have booted and accessing curcpu()
* is safe.
*/
if (kcov_cold)
return;
/* Do not trace in interrupts to prevent noisy coverage. */
if (inintr())
return;
kd = curproc->p_kd;
if (kd == NULL || kd->kd_mode != KCOV_MODE_TRACE_CMP)
return;
idx = kd->kd_buf[0];
if (idx * 4 + 4 <= kd->kd_nmemb) {
kd->kd_buf[idx * 4 + 1] = type;
kd->kd_buf[idx * 4 + 2] = arg1;
kd->kd_buf[idx * 4 + 3] = arg2;
kd->kd_buf[idx * 4 + 4] = pc;
kd->kd_buf[0] = idx + 1;
}
}
void
__sanitizer_cov_trace_cmp1(uint8_t arg1, uint8_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(0), arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_cmp2(uint16_t arg1, uint16_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(1), arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_cmp4(uint32_t arg1, uint32_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(2), arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_cmp8(uint64_t arg1, uint64_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(3), arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_const_cmp1(uint8_t arg1, uint8_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(0) | KCOV_CMP_CONST, arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_const_cmp2(uint16_t arg1, uint16_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(1) | KCOV_CMP_CONST, arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_const_cmp4(uint32_t arg1, uint32_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(2) | KCOV_CMP_CONST, arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_const_cmp8(uint64_t arg1, uint64_t arg2)
{
trace_cmp(KCOV_CMP_SIZE(3) | KCOV_CMP_CONST, arg1, arg2,
(uintptr_t)__builtin_return_address(0));
}
void
__sanitizer_cov_trace_switch(uint64_t val, uint64_t *cases)
{
uint64_t i, nbits, ncases, type;
uintptr_t pc;
pc = (uintptr_t)__builtin_return_address(0);
ncases = cases[0];
nbits = cases[1];
switch (nbits) {
case 8:
type = KCOV_CMP_SIZE(0);
break;
case 16:
type = KCOV_CMP_SIZE(1);
break;
case 32:
type = KCOV_CMP_SIZE(2);
break;
case 64:
type = KCOV_CMP_SIZE(3);
break;
default:
return;
}
type |= KCOV_CMP_CONST;
for (i = 0; i < ncases; i++)
trace_cmp(type, cases[i + 2], val, pc);
}
void
kcovattach(int count)
{
}
int
kcovopen(dev_t dev, int flag, int mode, struct proc *p)
{
struct kcov_dev *kd;
if (kd_lookup(minor(dev)) != NULL)
return (EBUSY);
if (kcov_cold)
kcov_cold = 0;
DPRINTF("%s: unit=%d\n", __func__, minor(dev));
kd = malloc(sizeof(*kd), M_SUBPROC, M_WAITOK | M_ZERO);
kd->kd_unit = minor(dev);
TAILQ_INSERT_TAIL(&kd_list, kd, kd_entry);
return (0);
}
int
kcovclose(dev_t dev, int flag, int mode, struct proc *p)
{
struct kcov_dev *kd;
kd = kd_lookup(minor(dev));
if (kd == NULL)
return (EINVAL);
DPRINTF("%s: unit=%d, state=%d, mode=%d\n",
__func__, kd->kd_unit, kd->kd_state, kd->kd_mode);
if (kd->kd_state == KCOV_STATE_TRACE) {
kd->kd_state = KCOV_STATE_DYING;
kd->kd_mode = KCOV_MODE_NONE;
} else {
kd_free(kd);
}
return (0);
}
int
kcovioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p)
{
struct kcov_dev *kd;
int mode;
int error = 0;
kd = kd_lookup(minor(dev));
if (kd == NULL)
return (ENXIO);
switch (cmd) {
case KIOSETBUFSIZE:
error = kd_init(kd, *((unsigned long *)data));
break;
case KIOENABLE:
/* Only one kcov descriptor can be enabled per thread. */
if (p->p_kd != NULL || kd->kd_state != KCOV_STATE_READY) {
error = EBUSY;
break;
}
mode = *((int *)data);
if (mode != KCOV_MODE_TRACE_PC && mode != KCOV_MODE_TRACE_CMP) {
error = EINVAL;
break;
}
kd->kd_state = KCOV_STATE_TRACE;
kd->kd_mode = mode;
p->p_kd = kd;
break;
case KIODISABLE:
/* Only the enabled thread may disable itself. */
if (p->p_kd != kd || kd->kd_state != KCOV_STATE_TRACE) {
error = EBUSY;
break;
}
kd->kd_state = KCOV_STATE_READY;
kd->kd_mode = KCOV_MODE_NONE;
p->p_kd = NULL;
break;
default:
error = ENOTTY;
}
DPRINTF("%s: unit=%d, state=%d, mode=%d, error=%d\n",
__func__, kd->kd_unit, kd->kd_state, kd->kd_mode, error);
return (error);
}
paddr_t
kcovmmap(dev_t dev, off_t offset, int prot)
{
struct kcov_dev *kd;
paddr_t pa;
vaddr_t va;
kd = kd_lookup(minor(dev));
if (kd == NULL)
return (paddr_t)(-1);
if (offset < 0 || offset >= kd->kd_nmemb * KCOV_BUF_MEMB_SIZE)
return (paddr_t)(-1);
va = (vaddr_t)kd->kd_buf + offset;
if (pmap_extract(pmap_kernel(), va, &pa) == FALSE)
return (paddr_t)(-1);
return (pa);
}
void
kcov_exit(struct proc *p)
{
struct kcov_dev *kd;
kd = p->p_kd;
if (kd == NULL)
return;
DPRINTF("%s: unit=%d, state=%d, mode=%d\n",
__func__, kd->kd_unit, kd->kd_state, kd->kd_mode);
if (kd->kd_state == KCOV_STATE_DYING) {
kd_free(kd);
} else {
kd->kd_state = KCOV_STATE_READY;
kd->kd_mode = KCOV_MODE_NONE;
}
p->p_kd = NULL;
}
struct kcov_dev *
kd_lookup(int unit)
{
struct kcov_dev *kd;
TAILQ_FOREACH(kd, &kd_list, kd_entry) {
if (kd->kd_unit == unit)
return (kd);
}
return (NULL);
}
int
kd_init(struct kcov_dev *kd, unsigned long nmemb)
{
void *buf;
size_t size;
KASSERT(kd->kd_buf == NULL);
if (kd->kd_state != KCOV_STATE_NONE)
return (EBUSY);
if (nmemb == 0 || nmemb > KCOV_BUF_MAX_NMEMB)
return (EINVAL);
size = roundup(nmemb * KCOV_BUF_MEMB_SIZE, PAGE_SIZE);
buf = km_alloc(size, &kv_any, &kp_zero, &kd_waitok);
if (buf == NULL)
return (ENOMEM);
/* km_malloc() can sleep, ensure the race was won. */
if (kd->kd_state != KCOV_STATE_NONE) {
km_free(buf, size, &kv_any, &kp_zero);
return (EBUSY);
}
kd->kd_buf = buf;
/* The first element is reserved to hold the number of used elements. */
kd->kd_nmemb = nmemb - 1;
kd->kd_size = size;
kd->kd_state = KCOV_STATE_READY;
return (0);
}
void
kd_free(struct kcov_dev *kd)
{
DPRINTF("%s: unit=%d, state=%d, mode=%d\n",
__func__, kd->kd_unit, kd->kd_state, kd->kd_mode);
TAILQ_REMOVE(&kd_list, kd, kd_entry);
if (kd->kd_buf != NULL)
km_free(kd->kd_buf, kd->kd_size, &kv_any, &kp_zero);
free(kd, M_SUBPROC, sizeof(*kd));
}
static inline int
inintr(void)
{
#if defined(__amd64__) || defined(__arm__) || defined(__arm64__) || \
defined(__i386__)
return (curcpu()->ci_idepth > 0);
#else
return (0);
#endif
}
|