1b3c0d957SAndrew Turner /*- 2*4d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause 3b3c0d957SAndrew Turner * 4b3c0d957SAndrew Turner * Copyright (C) 2018 The FreeBSD Foundation. All rights reserved. 5b3c0d957SAndrew Turner * Copyright (C) 2018, 2019 Andrew Turner 6b3c0d957SAndrew Turner * 7b3c0d957SAndrew Turner * This software was developed by Mitchell Horne under sponsorship of 8b3c0d957SAndrew Turner * the FreeBSD Foundation. 9b3c0d957SAndrew Turner * 10b3c0d957SAndrew Turner * This software was developed by SRI International and the University of 11b3c0d957SAndrew Turner * Cambridge Computer Laboratory under DARPA/AFRL contract FA8750-10-C-0237 12b3c0d957SAndrew Turner * ("CTSRD"), as part of the DARPA CRASH research programme. 13b3c0d957SAndrew Turner * 14b3c0d957SAndrew Turner * Redistribution and use in source and binary forms, with or without 15b3c0d957SAndrew Turner * modification, are permitted provided that the following conditions 16b3c0d957SAndrew Turner * are met: 17b3c0d957SAndrew Turner * 1. Redistributions of source code must retain the above copyright 18b3c0d957SAndrew Turner * notice, this list of conditions and the following disclaimer. 19b3c0d957SAndrew Turner * 2. Redistributions in binary form must reproduce the above copyright 20b3c0d957SAndrew Turner * notice, this list of conditions and the following disclaimer in the 21b3c0d957SAndrew Turner * documentation and/or other materials provided with the distribution. 22b3c0d957SAndrew Turner * 23b3c0d957SAndrew Turner * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 24b3c0d957SAndrew Turner * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 25b3c0d957SAndrew Turner * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 26b3c0d957SAndrew Turner * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 27b3c0d957SAndrew Turner * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 28b3c0d957SAndrew Turner * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 29b3c0d957SAndrew Turner * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30b3c0d957SAndrew Turner * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31b3c0d957SAndrew Turner * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32b3c0d957SAndrew Turner * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33b3c0d957SAndrew Turner * SUCH DAMAGE. 34b3c0d957SAndrew Turner */ 35b3c0d957SAndrew Turner 36cf4670feSMark Johnston /* Interceptors are required for KMSAN. */ 37cf4670feSMark Johnston #if defined(KASAN) || defined(KCSAN) 383ead6023SMark Johnston #define SAN_RUNTIME 393ead6023SMark Johnston #endif 40fd8f4f3bSAndrew Turner 41b3c0d957SAndrew Turner #include <sys/param.h> 42524553f5SAndrew Turner #include <sys/systm.h> 43b3c0d957SAndrew Turner #include <sys/conf.h> 44a1fa04c0SMark Johnston #include <sys/eventhandler.h> 45b3c0d957SAndrew Turner #include <sys/kcov.h> 46b3c0d957SAndrew Turner #include <sys/kernel.h> 47524553f5SAndrew Turner #include <sys/limits.h> 48b3c0d957SAndrew Turner #include <sys/lock.h> 49b3c0d957SAndrew Turner #include <sys/malloc.h> 50b3c0d957SAndrew Turner #include <sys/mman.h> 51b3c0d957SAndrew Turner #include <sys/mutex.h> 52b3c0d957SAndrew Turner #include <sys/proc.h> 53b3c0d957SAndrew Turner #include <sys/rwlock.h> 54b3c0d957SAndrew Turner #include <sys/sysctl.h> 55b3c0d957SAndrew Turner 56b3c0d957SAndrew Turner #include <vm/vm.h> 57524553f5SAndrew Turner #include <vm/pmap.h> 58b3c0d957SAndrew Turner #include <vm/vm_extern.h> 59b3c0d957SAndrew Turner #include <vm/vm_object.h> 60b3c0d957SAndrew Turner #include <vm/vm_page.h> 61b3c0d957SAndrew Turner #include <vm/vm_pager.h> 6201ffedf5SAndrew Turner #include <vm/vm_param.h> 63b3c0d957SAndrew Turner 64b3c0d957SAndrew Turner MALLOC_DEFINE(M_KCOV_INFO, "kcovinfo", "KCOV info type"); 65b3c0d957SAndrew Turner 66b3c0d957SAndrew Turner #define KCOV_ELEMENT_SIZE sizeof(uint64_t) 67b3c0d957SAndrew Turner 68b3c0d957SAndrew Turner /* 69b3c0d957SAndrew Turner * To know what the code can safely perform at any point in time we use a 70b3c0d957SAndrew Turner * state machine. In the normal case the state transitions are: 71b3c0d957SAndrew Turner * 72b3c0d957SAndrew Turner * OPEN -> READY -> RUNNING -> DYING 73b3c0d957SAndrew Turner * | | ^ | ^ ^ 74b3c0d957SAndrew Turner * | | +--------+ | | 75b3c0d957SAndrew Turner * | +-------------------+ | 76b3c0d957SAndrew Turner * +-----------------------------+ 77b3c0d957SAndrew Turner * 78b3c0d957SAndrew Turner * The states are: 79b3c0d957SAndrew Turner * OPEN: The kcov fd has been opened, but no buffer is available to store 80b3c0d957SAndrew Turner * coverage data. 81b3c0d957SAndrew Turner * READY: The buffer to store coverage data has been allocated. Userspace 82b3c0d957SAndrew Turner * can set this by using ioctl(fd, KIOSETBUFSIZE, entries);. When 83b3c0d957SAndrew Turner * this has been set the buffer can be written to by the kernel, 84b3c0d957SAndrew Turner * and mmaped by userspace. 85b3c0d957SAndrew Turner * RUNNING: The coverage probes are able to store coverage data in the buffer. 86b3c0d957SAndrew Turner * This is entered with ioctl(fd, KIOENABLE, mode);. The READY state 87b3c0d957SAndrew Turner * can be exited by ioctl(fd, KIODISABLE); or exiting the thread to 88b3c0d957SAndrew Turner * return to the READY state to allow tracing to be reused, or by 89b3c0d957SAndrew Turner * closing the kcov fd to enter the DYING state. 90b3c0d957SAndrew Turner * DYING: The fd has been closed. All states can enter into this state when 91b3c0d957SAndrew Turner * userspace closes the kcov fd. 92b3c0d957SAndrew Turner * 93b3c0d957SAndrew Turner * We need to be careful when moving into and out of the RUNNING state. As 94b3c0d957SAndrew Turner * an interrupt may happen while this is happening the ordering of memory 95b3c0d957SAndrew Turner * operations is important so struct kcov_info is valid for the tracing 96b3c0d957SAndrew Turner * functions. 97b3c0d957SAndrew Turner * 98b3c0d957SAndrew Turner * When moving into the RUNNING state prior stores to struct kcov_info need 99b3c0d957SAndrew Turner * to be observed before the state is set. This allows for interrupts that 100b3c0d957SAndrew Turner * may call into one of the coverage functions to fire at any point while 101b3c0d957SAndrew Turner * being enabled and see a consistent struct kcov_info. 102b3c0d957SAndrew Turner * 103b3c0d957SAndrew Turner * When moving out of the RUNNING state any later stores to struct kcov_info 104b3c0d957SAndrew Turner * need to be observed after the state is set. As with entering this is to 105b3c0d957SAndrew Turner * present a consistent struct kcov_info to interrupts. 106b3c0d957SAndrew Turner */ 107b3c0d957SAndrew Turner typedef enum { 108b3c0d957SAndrew Turner KCOV_STATE_INVALID, 109b3c0d957SAndrew Turner KCOV_STATE_OPEN, /* The device is open, but with no buffer */ 110b3c0d957SAndrew Turner KCOV_STATE_READY, /* The buffer has been allocated */ 111b3c0d957SAndrew Turner KCOV_STATE_RUNNING, /* Recording trace data */ 112b3c0d957SAndrew Turner KCOV_STATE_DYING, /* The fd was closed */ 113b3c0d957SAndrew Turner } kcov_state_t; 114b3c0d957SAndrew Turner 115b3c0d957SAndrew Turner /* 116b3c0d957SAndrew Turner * (l) Set while holding the kcov_lock mutex and not in the RUNNING state. 117b3c0d957SAndrew Turner * (o) Only set once while in the OPEN state. Cleaned up while in the DYING 118b3c0d957SAndrew Turner * state, and with no thread associated with the struct kcov_info. 119b3c0d957SAndrew Turner * (s) Set atomically to enter or exit the RUNNING state, non-atomically 120b3c0d957SAndrew Turner * otherwise. See above for a description of the other constraints while 121b3c0d957SAndrew Turner * moving into or out of the RUNNING state. 122b3c0d957SAndrew Turner */ 123b3c0d957SAndrew Turner struct kcov_info { 124b3c0d957SAndrew Turner struct thread *thread; /* (l) */ 125b3c0d957SAndrew Turner vm_object_t bufobj; /* (o) */ 126b3c0d957SAndrew Turner vm_offset_t kvaddr; /* (o) */ 127b3c0d957SAndrew Turner size_t entries; /* (o) */ 128b3c0d957SAndrew Turner size_t bufsize; /* (o) */ 129b3c0d957SAndrew Turner kcov_state_t state; /* (s) */ 130b3c0d957SAndrew Turner int mode; /* (l) */ 131b3c0d957SAndrew Turner }; 132b3c0d957SAndrew Turner 133b3c0d957SAndrew Turner /* Prototypes */ 134b3c0d957SAndrew Turner static d_open_t kcov_open; 135b3c0d957SAndrew Turner static d_close_t kcov_close; 136b3c0d957SAndrew Turner static d_mmap_single_t kcov_mmap_single; 137b3c0d957SAndrew Turner static d_ioctl_t kcov_ioctl; 138b3c0d957SAndrew Turner 139b3c0d957SAndrew Turner static int kcov_alloc(struct kcov_info *info, size_t entries); 14072b66398SAndrew Turner static void kcov_free(struct kcov_info *info); 141b3c0d957SAndrew Turner static void kcov_init(const void *unused); 142b3c0d957SAndrew Turner 143b3c0d957SAndrew Turner static struct cdevsw kcov_cdevsw = { 144b3c0d957SAndrew Turner .d_version = D_VERSION, 145b3c0d957SAndrew Turner .d_open = kcov_open, 146b3c0d957SAndrew Turner .d_close = kcov_close, 147b3c0d957SAndrew Turner .d_mmap_single = kcov_mmap_single, 148b3c0d957SAndrew Turner .d_ioctl = kcov_ioctl, 149b3c0d957SAndrew Turner .d_name = "kcov", 150b3c0d957SAndrew Turner }; 151b3c0d957SAndrew Turner 1527029da5cSPawel Biernacki SYSCTL_NODE(_kern, OID_AUTO, kcov, CTLFLAG_RW | CTLFLAG_MPSAFE, 0, 1537029da5cSPawel Biernacki "Kernel coverage"); 154b3c0d957SAndrew Turner 155b3c0d957SAndrew Turner static u_int kcov_max_entries = KCOV_MAXENTRIES; 156b3c0d957SAndrew Turner SYSCTL_UINT(_kern_kcov, OID_AUTO, max_entries, CTLFLAG_RW, 157b3c0d957SAndrew Turner &kcov_max_entries, 0, 158b3c0d957SAndrew Turner "Maximum number of entries in the kcov buffer"); 159b3c0d957SAndrew Turner 160b3c0d957SAndrew Turner static struct mtx kcov_lock; 161524553f5SAndrew Turner static int active_count; 162b3c0d957SAndrew Turner 16340fcdb93SMark Johnston static struct kcov_info * __nosanitizeaddress __nosanitizememory 164b3c0d957SAndrew Turner get_kinfo(struct thread *td) 165b3c0d957SAndrew Turner { 166b3c0d957SAndrew Turner struct kcov_info *info; 167b3c0d957SAndrew Turner 168b3c0d957SAndrew Turner /* We might have a NULL thread when releasing the secondary CPUs */ 169b3c0d957SAndrew Turner if (td == NULL) 170b3c0d957SAndrew Turner return (NULL); 171b3c0d957SAndrew Turner 172b3c0d957SAndrew Turner /* 173b3c0d957SAndrew Turner * We are in an interrupt, stop tracing as it is not explicitly 174b3c0d957SAndrew Turner * part of a syscall. 175b3c0d957SAndrew Turner */ 176b3c0d957SAndrew Turner if (td->td_intr_nesting_level > 0 || td->td_intr_frame != NULL) 177b3c0d957SAndrew Turner return (NULL); 178b3c0d957SAndrew Turner 179b3c0d957SAndrew Turner /* 180b3c0d957SAndrew Turner * If info is NULL or the state is not running we are not tracing. 181b3c0d957SAndrew Turner */ 182b3c0d957SAndrew Turner info = td->td_kcov_info; 183b3c0d957SAndrew Turner if (info == NULL || 184b3c0d957SAndrew Turner atomic_load_acq_int(&info->state) != KCOV_STATE_RUNNING) 185b3c0d957SAndrew Turner return (NULL); 186b3c0d957SAndrew Turner 187b3c0d957SAndrew Turner return (info); 188b3c0d957SAndrew Turner } 189b3c0d957SAndrew Turner 190cf4670feSMark Johnston static void __nosanitizeaddress __nosanitizememory 191524553f5SAndrew Turner trace_pc(uintptr_t ret) 192b3c0d957SAndrew Turner { 193b3c0d957SAndrew Turner struct thread *td; 194b3c0d957SAndrew Turner struct kcov_info *info; 195b3c0d957SAndrew Turner uint64_t *buf, index; 196b3c0d957SAndrew Turner 197b3c0d957SAndrew Turner td = curthread; 198b3c0d957SAndrew Turner info = get_kinfo(td); 199b3c0d957SAndrew Turner if (info == NULL) 200b3c0d957SAndrew Turner return; 201b3c0d957SAndrew Turner 202b3c0d957SAndrew Turner /* 203b3c0d957SAndrew Turner * Check we are in the PC-trace mode. 204b3c0d957SAndrew Turner */ 205b3c0d957SAndrew Turner if (info->mode != KCOV_MODE_TRACE_PC) 206b3c0d957SAndrew Turner return; 207b3c0d957SAndrew Turner 208080b4e8aSEd Maste KASSERT(info->kvaddr != 0, ("%s: NULL buf while running", __func__)); 209b3c0d957SAndrew Turner 210b3c0d957SAndrew Turner buf = (uint64_t *)info->kvaddr; 211b3c0d957SAndrew Turner 212b3c0d957SAndrew Turner /* The first entry of the buffer holds the index */ 213b3c0d957SAndrew Turner index = buf[0]; 214b3c0d957SAndrew Turner if (index + 2 > info->entries) 215b3c0d957SAndrew Turner return; 216b3c0d957SAndrew Turner 217524553f5SAndrew Turner buf[index + 1] = ret; 218b3c0d957SAndrew Turner buf[0] = index + 1; 219b3c0d957SAndrew Turner } 220b3c0d957SAndrew Turner 221cf4670feSMark Johnston static bool __nosanitizeaddress __nosanitizememory 222b3c0d957SAndrew Turner trace_cmp(uint64_t type, uint64_t arg1, uint64_t arg2, uint64_t ret) 223b3c0d957SAndrew Turner { 224b3c0d957SAndrew Turner struct thread *td; 225b3c0d957SAndrew Turner struct kcov_info *info; 226b3c0d957SAndrew Turner uint64_t *buf, index; 227b3c0d957SAndrew Turner 228b3c0d957SAndrew Turner td = curthread; 229b3c0d957SAndrew Turner info = get_kinfo(td); 230b3c0d957SAndrew Turner if (info == NULL) 231b3c0d957SAndrew Turner return (false); 232b3c0d957SAndrew Turner 233b3c0d957SAndrew Turner /* 234b3c0d957SAndrew Turner * Check we are in the comparison-trace mode. 235b3c0d957SAndrew Turner */ 236b3c0d957SAndrew Turner if (info->mode != KCOV_MODE_TRACE_CMP) 237b3c0d957SAndrew Turner return (false); 238b3c0d957SAndrew Turner 239080b4e8aSEd Maste KASSERT(info->kvaddr != 0, ("%s: NULL buf while running", __func__)); 240b3c0d957SAndrew Turner 241b3c0d957SAndrew Turner buf = (uint64_t *)info->kvaddr; 242b3c0d957SAndrew Turner 243b3c0d957SAndrew Turner /* The first entry of the buffer holds the index */ 244b3c0d957SAndrew Turner index = buf[0]; 245b3c0d957SAndrew Turner 246b3c0d957SAndrew Turner /* Check we have space to store all elements */ 247b3c0d957SAndrew Turner if (index * 4 + 4 + 1 > info->entries) 248b3c0d957SAndrew Turner return (false); 249b3c0d957SAndrew Turner 250feb2cc80SAndrew Turner while (1) { 251b3c0d957SAndrew Turner buf[index * 4 + 1] = type; 252b3c0d957SAndrew Turner buf[index * 4 + 2] = arg1; 253b3c0d957SAndrew Turner buf[index * 4 + 3] = arg2; 254b3c0d957SAndrew Turner buf[index * 4 + 4] = ret; 255feb2cc80SAndrew Turner 256feb2cc80SAndrew Turner if (atomic_cmpset_64(&buf[0], index, index + 1)) 257feb2cc80SAndrew Turner break; 258feb2cc80SAndrew Turner buf[0] = index; 259feb2cc80SAndrew Turner } 260b3c0d957SAndrew Turner 261b3c0d957SAndrew Turner return (true); 262b3c0d957SAndrew Turner } 263b3c0d957SAndrew Turner 264b3c0d957SAndrew Turner /* 265b3c0d957SAndrew Turner * The fd is being closed, cleanup everything we can. 266b3c0d957SAndrew Turner */ 267b3c0d957SAndrew Turner static void 268b3c0d957SAndrew Turner kcov_mmap_cleanup(void *arg) 269b3c0d957SAndrew Turner { 270b3c0d957SAndrew Turner struct kcov_info *info = arg; 271b3c0d957SAndrew Turner struct thread *thread; 272b3c0d957SAndrew Turner 273b3c0d957SAndrew Turner mtx_lock_spin(&kcov_lock); 274b3c0d957SAndrew Turner /* 275b3c0d957SAndrew Turner * Move to KCOV_STATE_DYING to stop adding new entries. 276b3c0d957SAndrew Turner * 277b3c0d957SAndrew Turner * If the thread is running we need to wait until thread exit to 278b3c0d957SAndrew Turner * clean up as it may currently be adding a new entry. If this is 279b3c0d957SAndrew Turner * the case being in KCOV_STATE_DYING will signal that the buffer 280b3c0d957SAndrew Turner * needs to be cleaned up. 281b3c0d957SAndrew Turner */ 282b3c0d957SAndrew Turner atomic_store_int(&info->state, KCOV_STATE_DYING); 283b3c0d957SAndrew Turner atomic_thread_fence_seq_cst(); 284b3c0d957SAndrew Turner thread = info->thread; 285b3c0d957SAndrew Turner mtx_unlock_spin(&kcov_lock); 286b3c0d957SAndrew Turner 287b3c0d957SAndrew Turner if (thread != NULL) 288b3c0d957SAndrew Turner return; 289b3c0d957SAndrew Turner 290b3c0d957SAndrew Turner /* 291b3c0d957SAndrew Turner * We can safely clean up the info struct as it is in the 292b3c0d957SAndrew Turner * KCOV_STATE_DYING state with no thread associated. 293b3c0d957SAndrew Turner * 294b3c0d957SAndrew Turner * The KCOV_STATE_DYING stops new threads from using it. 295b3c0d957SAndrew Turner * The lack of a thread means nothing is currently using the buffers. 296b3c0d957SAndrew Turner */ 29772b66398SAndrew Turner kcov_free(info); 298b3c0d957SAndrew Turner } 299b3c0d957SAndrew Turner 300b3c0d957SAndrew Turner static int 301b3c0d957SAndrew Turner kcov_open(struct cdev *dev, int oflags, int devtype, struct thread *td) 302b3c0d957SAndrew Turner { 303b3c0d957SAndrew Turner struct kcov_info *info; 304b3c0d957SAndrew Turner int error; 305b3c0d957SAndrew Turner 306b3c0d957SAndrew Turner info = malloc(sizeof(struct kcov_info), M_KCOV_INFO, M_ZERO | M_WAITOK); 307b3c0d957SAndrew Turner info->state = KCOV_STATE_OPEN; 308b3c0d957SAndrew Turner info->thread = NULL; 309b3c0d957SAndrew Turner info->mode = -1; 310b3c0d957SAndrew Turner 311b3c0d957SAndrew Turner if ((error = devfs_set_cdevpriv(info, kcov_mmap_cleanup)) != 0) 312b3c0d957SAndrew Turner kcov_mmap_cleanup(info); 313b3c0d957SAndrew Turner 314b3c0d957SAndrew Turner return (error); 315b3c0d957SAndrew Turner } 316b3c0d957SAndrew Turner 317b3c0d957SAndrew Turner static int 318b3c0d957SAndrew Turner kcov_close(struct cdev *dev, int fflag, int devtype, struct thread *td) 319b3c0d957SAndrew Turner { 320b3c0d957SAndrew Turner struct kcov_info *info; 321b3c0d957SAndrew Turner int error; 322b3c0d957SAndrew Turner 323b3c0d957SAndrew Turner if ((error = devfs_get_cdevpriv((void **)&info)) != 0) 324b3c0d957SAndrew Turner return (error); 325b3c0d957SAndrew Turner 326b3c0d957SAndrew Turner KASSERT(info != NULL, ("kcov_close with no kcov_info structure")); 327b3c0d957SAndrew Turner 328b3c0d957SAndrew Turner /* Trying to close, but haven't disabled */ 329b3c0d957SAndrew Turner if (info->state == KCOV_STATE_RUNNING) 330b3c0d957SAndrew Turner return (EBUSY); 331b3c0d957SAndrew Turner 332b3c0d957SAndrew Turner return (0); 333b3c0d957SAndrew Turner } 334b3c0d957SAndrew Turner 335b3c0d957SAndrew Turner static int 336b3c0d957SAndrew Turner kcov_mmap_single(struct cdev *dev, vm_ooffset_t *offset, vm_size_t size, 337b3c0d957SAndrew Turner struct vm_object **object, int nprot) 338b3c0d957SAndrew Turner { 339b3c0d957SAndrew Turner struct kcov_info *info; 340b3c0d957SAndrew Turner int error; 341b3c0d957SAndrew Turner 342b3c0d957SAndrew Turner if ((nprot & (PROT_EXEC | PROT_READ | PROT_WRITE)) != 343b3c0d957SAndrew Turner (PROT_READ | PROT_WRITE)) 344b3c0d957SAndrew Turner return (EINVAL); 345b3c0d957SAndrew Turner 346b3c0d957SAndrew Turner if ((error = devfs_get_cdevpriv((void **)&info)) != 0) 347b3c0d957SAndrew Turner return (error); 348b3c0d957SAndrew Turner 349bdffe3b5SAndrew Turner if (info->kvaddr == 0 || size / KCOV_ELEMENT_SIZE != info->entries) 350b3c0d957SAndrew Turner return (EINVAL); 351b3c0d957SAndrew Turner 35201ffedf5SAndrew Turner vm_object_reference(info->bufobj); 353b3c0d957SAndrew Turner *offset = 0; 354b3c0d957SAndrew Turner *object = info->bufobj; 355b3c0d957SAndrew Turner return (0); 356b3c0d957SAndrew Turner } 357b3c0d957SAndrew Turner 358b3c0d957SAndrew Turner static int 359b3c0d957SAndrew Turner kcov_alloc(struct kcov_info *info, size_t entries) 360b3c0d957SAndrew Turner { 361b3c0d957SAndrew Turner size_t n, pages; 362a759a0a0SAndrew Turner vm_page_t m; 363b3c0d957SAndrew Turner 364b3c0d957SAndrew Turner KASSERT(info->kvaddr == 0, ("kcov_alloc: Already have a buffer")); 365b3c0d957SAndrew Turner KASSERT(info->state == KCOV_STATE_OPEN, 366b3c0d957SAndrew Turner ("kcov_alloc: Not in open state (%x)", info->state)); 367b3c0d957SAndrew Turner 368b3c0d957SAndrew Turner if (entries < 2 || entries > kcov_max_entries) 369b3c0d957SAndrew Turner return (EINVAL); 370b3c0d957SAndrew Turner 371b3c0d957SAndrew Turner /* Align to page size so mmap can't access other kernel memory */ 372b3c0d957SAndrew Turner info->bufsize = roundup2(entries * KCOV_ELEMENT_SIZE, PAGE_SIZE); 373b3c0d957SAndrew Turner pages = info->bufsize / PAGE_SIZE; 374b3c0d957SAndrew Turner 375b3c0d957SAndrew Turner if ((info->kvaddr = kva_alloc(info->bufsize)) == 0) 376b3c0d957SAndrew Turner return (ENOMEM); 377b3c0d957SAndrew Turner 378b3c0d957SAndrew Turner info->bufobj = vm_pager_allocate(OBJT_PHYS, 0, info->bufsize, 379b3c0d957SAndrew Turner PROT_READ | PROT_WRITE, 0, curthread->td_ucred); 380b3c0d957SAndrew Turner 381b3c0d957SAndrew Turner VM_OBJECT_WLOCK(info->bufobj); 382b3c0d957SAndrew Turner for (n = 0; n < pages; n++) { 383a759a0a0SAndrew Turner m = vm_page_grab(info->bufobj, n, 38491e31c3cSJeff Roberson VM_ALLOC_ZERO | VM_ALLOC_WIRED); 38591e31c3cSJeff Roberson vm_page_valid(m); 38691e31c3cSJeff Roberson vm_page_xunbusy(m); 387a759a0a0SAndrew Turner pmap_qenter(info->kvaddr + n * PAGE_SIZE, &m, 1); 388b3c0d957SAndrew Turner } 389b3c0d957SAndrew Turner VM_OBJECT_WUNLOCK(info->bufobj); 390b3c0d957SAndrew Turner 391b3c0d957SAndrew Turner info->entries = entries; 392b3c0d957SAndrew Turner 393b3c0d957SAndrew Turner return (0); 394b3c0d957SAndrew Turner } 395b3c0d957SAndrew Turner 39672b66398SAndrew Turner static void 39772b66398SAndrew Turner kcov_free(struct kcov_info *info) 39872b66398SAndrew Turner { 39901ffedf5SAndrew Turner vm_page_t m; 40001ffedf5SAndrew Turner size_t i; 40172b66398SAndrew Turner 40272b66398SAndrew Turner if (info->kvaddr != 0) { 40372b66398SAndrew Turner pmap_qremove(info->kvaddr, info->bufsize / PAGE_SIZE); 40472b66398SAndrew Turner kva_free(info->kvaddr, info->bufsize); 40572b66398SAndrew Turner } 40601ffedf5SAndrew Turner if (info->bufobj != NULL) { 40701ffedf5SAndrew Turner VM_OBJECT_WLOCK(info->bufobj); 40801ffedf5SAndrew Turner m = vm_page_lookup(info->bufobj, 0); 40901ffedf5SAndrew Turner for (i = 0; i < info->bufsize / PAGE_SIZE; i++) { 41001ffedf5SAndrew Turner vm_page_unwire_noq(m); 41101ffedf5SAndrew Turner m = vm_page_next(m); 41201ffedf5SAndrew Turner } 41301ffedf5SAndrew Turner VM_OBJECT_WUNLOCK(info->bufobj); 41472b66398SAndrew Turner vm_object_deallocate(info->bufobj); 41501ffedf5SAndrew Turner } 41672b66398SAndrew Turner free(info, M_KCOV_INFO); 41772b66398SAndrew Turner } 41872b66398SAndrew Turner 419b3c0d957SAndrew Turner static int 420b3c0d957SAndrew Turner kcov_ioctl(struct cdev *dev, u_long cmd, caddr_t data, int fflag __unused, 421b3c0d957SAndrew Turner struct thread *td) 422b3c0d957SAndrew Turner { 423b3c0d957SAndrew Turner struct kcov_info *info; 424b3c0d957SAndrew Turner int mode, error; 425b3c0d957SAndrew Turner 426b3c0d957SAndrew Turner if ((error = devfs_get_cdevpriv((void **)&info)) != 0) 427b3c0d957SAndrew Turner return (error); 428b3c0d957SAndrew Turner 429b3c0d957SAndrew Turner if (cmd == KIOSETBUFSIZE) { 430b3c0d957SAndrew Turner /* 431b3c0d957SAndrew Turner * Set the size of the coverage buffer. Should be called 432b3c0d957SAndrew Turner * before enabling coverage collection for that thread. 433b3c0d957SAndrew Turner */ 434b3c0d957SAndrew Turner if (info->state != KCOV_STATE_OPEN) { 435b3c0d957SAndrew Turner return (EBUSY); 436b3c0d957SAndrew Turner } 437b3c0d957SAndrew Turner error = kcov_alloc(info, *(u_int *)data); 438b3c0d957SAndrew Turner if (error == 0) 439b3c0d957SAndrew Turner info->state = KCOV_STATE_READY; 440b3c0d957SAndrew Turner return (error); 441b3c0d957SAndrew Turner } 442b3c0d957SAndrew Turner 443b3c0d957SAndrew Turner mtx_lock_spin(&kcov_lock); 444b3c0d957SAndrew Turner switch (cmd) { 445b3c0d957SAndrew Turner case KIOENABLE: 446b3c0d957SAndrew Turner if (info->state != KCOV_STATE_READY) { 447b3c0d957SAndrew Turner error = EBUSY; 448b3c0d957SAndrew Turner break; 449b3c0d957SAndrew Turner } 450b3c0d957SAndrew Turner if (td->td_kcov_info != NULL) { 451b3c0d957SAndrew Turner error = EINVAL; 452b3c0d957SAndrew Turner break; 453b3c0d957SAndrew Turner } 454b3c0d957SAndrew Turner mode = *(int *)data; 455b3c0d957SAndrew Turner if (mode != KCOV_MODE_TRACE_PC && mode != KCOV_MODE_TRACE_CMP) { 456b3c0d957SAndrew Turner error = EINVAL; 457b3c0d957SAndrew Turner break; 458b3c0d957SAndrew Turner } 459524553f5SAndrew Turner 460524553f5SAndrew Turner /* Lets hope nobody opens this 2 billion times */ 461524553f5SAndrew Turner KASSERT(active_count < INT_MAX, 462524553f5SAndrew Turner ("%s: Open too many times", __func__)); 463524553f5SAndrew Turner active_count++; 464524553f5SAndrew Turner if (active_count == 1) { 465524553f5SAndrew Turner cov_register_pc(&trace_pc); 466524553f5SAndrew Turner cov_register_cmp(&trace_cmp); 467524553f5SAndrew Turner } 468524553f5SAndrew Turner 469b3c0d957SAndrew Turner KASSERT(info->thread == NULL, 470b3c0d957SAndrew Turner ("Enabling kcov when already enabled")); 471b3c0d957SAndrew Turner info->thread = td; 472b3c0d957SAndrew Turner info->mode = mode; 473b3c0d957SAndrew Turner /* 474b3c0d957SAndrew Turner * Ensure the mode has been set before starting coverage 475b3c0d957SAndrew Turner * tracing. 476b3c0d957SAndrew Turner */ 477b3c0d957SAndrew Turner atomic_store_rel_int(&info->state, KCOV_STATE_RUNNING); 478b3c0d957SAndrew Turner td->td_kcov_info = info; 479b3c0d957SAndrew Turner break; 480b3c0d957SAndrew Turner case KIODISABLE: 481b3c0d957SAndrew Turner /* Only the currently enabled thread may disable itself */ 482b3c0d957SAndrew Turner if (info->state != KCOV_STATE_RUNNING || 483b3c0d957SAndrew Turner info != td->td_kcov_info) { 484b3c0d957SAndrew Turner error = EINVAL; 485b3c0d957SAndrew Turner break; 486b3c0d957SAndrew Turner } 487524553f5SAndrew Turner KASSERT(active_count > 0, ("%s: Open count is zero", __func__)); 488524553f5SAndrew Turner active_count--; 489524553f5SAndrew Turner if (active_count == 0) { 490c50c26aaSAndrew Turner cov_unregister_pc(); 491c50c26aaSAndrew Turner cov_unregister_cmp(); 492524553f5SAndrew Turner } 493524553f5SAndrew Turner 494b3c0d957SAndrew Turner td->td_kcov_info = NULL; 495b3c0d957SAndrew Turner atomic_store_int(&info->state, KCOV_STATE_READY); 496b3c0d957SAndrew Turner /* 497b3c0d957SAndrew Turner * Ensure we have exited the READY state before clearing the 498b3c0d957SAndrew Turner * rest of the info struct. 499b3c0d957SAndrew Turner */ 500b3c0d957SAndrew Turner atomic_thread_fence_rel(); 501b3c0d957SAndrew Turner info->mode = -1; 502b3c0d957SAndrew Turner info->thread = NULL; 503b3c0d957SAndrew Turner break; 504b3c0d957SAndrew Turner default: 505b3c0d957SAndrew Turner error = EINVAL; 506b3c0d957SAndrew Turner break; 507b3c0d957SAndrew Turner } 508b3c0d957SAndrew Turner mtx_unlock_spin(&kcov_lock); 509b3c0d957SAndrew Turner 510b3c0d957SAndrew Turner return (error); 511b3c0d957SAndrew Turner } 512b3c0d957SAndrew Turner 513b3c0d957SAndrew Turner static void 514b3c0d957SAndrew Turner kcov_thread_dtor(void *arg __unused, struct thread *td) 515b3c0d957SAndrew Turner { 516b3c0d957SAndrew Turner struct kcov_info *info; 517b3c0d957SAndrew Turner 518b3c0d957SAndrew Turner info = td->td_kcov_info; 519b3c0d957SAndrew Turner if (info == NULL) 520b3c0d957SAndrew Turner return; 521b3c0d957SAndrew Turner 522b3c0d957SAndrew Turner mtx_lock_spin(&kcov_lock); 523524553f5SAndrew Turner KASSERT(active_count > 0, ("%s: Open count is zero", __func__)); 524524553f5SAndrew Turner active_count--; 525524553f5SAndrew Turner if (active_count == 0) { 526c50c26aaSAndrew Turner cov_unregister_pc(); 527c50c26aaSAndrew Turner cov_unregister_cmp(); 528524553f5SAndrew Turner } 529b3c0d957SAndrew Turner td->td_kcov_info = NULL; 530b3c0d957SAndrew Turner if (info->state != KCOV_STATE_DYING) { 531b3c0d957SAndrew Turner /* 532b3c0d957SAndrew Turner * The kcov file is still open. Mark it as unused and 533b3c0d957SAndrew Turner * wait for it to be closed before cleaning up. 534b3c0d957SAndrew Turner */ 535b3c0d957SAndrew Turner atomic_store_int(&info->state, KCOV_STATE_READY); 536b3c0d957SAndrew Turner atomic_thread_fence_seq_cst(); 537b3c0d957SAndrew Turner /* This info struct is unused */ 538b3c0d957SAndrew Turner info->thread = NULL; 539b3c0d957SAndrew Turner mtx_unlock_spin(&kcov_lock); 540b3c0d957SAndrew Turner return; 541b3c0d957SAndrew Turner } 542b3c0d957SAndrew Turner mtx_unlock_spin(&kcov_lock); 543b3c0d957SAndrew Turner 544b3c0d957SAndrew Turner /* 545b3c0d957SAndrew Turner * We can safely clean up the info struct as it is in the 546b3c0d957SAndrew Turner * KCOV_STATE_DYING state where the info struct is associated with 547b3c0d957SAndrew Turner * the current thread that's about to exit. 548b3c0d957SAndrew Turner * 549b3c0d957SAndrew Turner * The KCOV_STATE_DYING stops new threads from using it. 550b3c0d957SAndrew Turner * It also stops the current thread from trying to use the info struct. 551b3c0d957SAndrew Turner */ 55272b66398SAndrew Turner kcov_free(info); 553b3c0d957SAndrew Turner } 554b3c0d957SAndrew Turner 555b3c0d957SAndrew Turner static void 556b3c0d957SAndrew Turner kcov_init(const void *unused) 557b3c0d957SAndrew Turner { 558b3c0d957SAndrew Turner struct make_dev_args args; 559b3c0d957SAndrew Turner struct cdev *dev; 560b3c0d957SAndrew Turner 561b3c0d957SAndrew Turner mtx_init(&kcov_lock, "kcov lock", NULL, MTX_SPIN); 562b3c0d957SAndrew Turner 563b3c0d957SAndrew Turner make_dev_args_init(&args); 564b3c0d957SAndrew Turner args.mda_devsw = &kcov_cdevsw; 565b3c0d957SAndrew Turner args.mda_uid = UID_ROOT; 566b3c0d957SAndrew Turner args.mda_gid = GID_WHEEL; 567b3c0d957SAndrew Turner args.mda_mode = 0600; 568b3c0d957SAndrew Turner if (make_dev_s(&args, &dev, "kcov") != 0) { 569b3c0d957SAndrew Turner printf("%s", "Failed to create kcov device"); 570b3c0d957SAndrew Turner return; 571b3c0d957SAndrew Turner } 572b3c0d957SAndrew Turner 573b3c0d957SAndrew Turner EVENTHANDLER_REGISTER(thread_dtor, kcov_thread_dtor, NULL, 574b3c0d957SAndrew Turner EVENTHANDLER_PRI_ANY); 575b3c0d957SAndrew Turner } 576b3c0d957SAndrew Turner 577524553f5SAndrew Turner SYSINIT(kcovdev, SI_SUB_LAST, SI_ORDER_ANY, kcov_init, NULL); 578