1a5f4374aSIngo Molnar /* 2a5f4374aSIngo Molnar * User-space Probes (UProbes) 3a5f4374aSIngo Molnar * 4a5f4374aSIngo Molnar * This program is free software; you can redistribute it and/or modify 5a5f4374aSIngo Molnar * it under the terms of the GNU General Public License as published by 6a5f4374aSIngo Molnar * the Free Software Foundation; either version 2 of the License, or 7a5f4374aSIngo Molnar * (at your option) any later version. 8a5f4374aSIngo Molnar * 9a5f4374aSIngo Molnar * This program is distributed in the hope that it will be useful, 10a5f4374aSIngo Molnar * but WITHOUT ANY WARRANTY; without even the implied warranty of 11a5f4374aSIngo Molnar * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 12a5f4374aSIngo Molnar * GNU General Public License for more details. 13a5f4374aSIngo Molnar * 14a5f4374aSIngo Molnar * You should have received a copy of the GNU General Public License 15a5f4374aSIngo Molnar * along with this program; if not, write to the Free Software 16a5f4374aSIngo Molnar * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. 17a5f4374aSIngo Molnar * 1835aa621bSIngo Molnar * Copyright (C) IBM Corporation, 2008-2012 19a5f4374aSIngo Molnar * Authors: 20a5f4374aSIngo Molnar * Srikar Dronamraju 21a5f4374aSIngo Molnar * Jim Keniston 2235aa621bSIngo Molnar * Copyright (C) 2011-2012 Red Hat, Inc., Peter Zijlstra <pzijlstr@redhat.com> 23a5f4374aSIngo Molnar */ 24a5f4374aSIngo Molnar 25a5f4374aSIngo Molnar #include <linux/kernel.h> 26a5f4374aSIngo Molnar #include <linux/highmem.h> 27a5f4374aSIngo Molnar #include <linux/pagemap.h> /* read_mapping_page */ 28a5f4374aSIngo Molnar #include <linux/slab.h> 29a5f4374aSIngo Molnar #include <linux/sched.h> 30a5f4374aSIngo Molnar #include <linux/rmap.h> /* anon_vma_prepare */ 31a5f4374aSIngo Molnar #include <linux/mmu_notifier.h> /* set_pte_at_notify */ 32a5f4374aSIngo Molnar #include <linux/swap.h> /* try_to_free_swap */ 330326f5a9SSrikar Dronamraju #include <linux/ptrace.h> /* user_enable_single_step */ 340326f5a9SSrikar Dronamraju #include <linux/kdebug.h> /* notifier mechanism */ 35194f8dcbSOleg Nesterov #include "../../mm/internal.h" /* munlock_vma_page */ 3632cdba1eSOleg Nesterov #include <linux/percpu-rwsem.h> 37a5f4374aSIngo Molnar 38a5f4374aSIngo Molnar #include <linux/uprobes.h> 39a5f4374aSIngo Molnar 40d4b3b638SSrikar Dronamraju #define UINSNS_PER_PAGE (PAGE_SIZE/UPROBE_XOL_SLOT_BYTES) 41d4b3b638SSrikar Dronamraju #define MAX_UPROBE_XOL_SLOTS UINSNS_PER_PAGE 42d4b3b638SSrikar Dronamraju 43a5f4374aSIngo Molnar static struct rb_root uprobes_tree = RB_ROOT; 44a5f4374aSIngo Molnar 45a5f4374aSIngo Molnar static DEFINE_SPINLOCK(uprobes_treelock); /* serialize rbtree access */ 46a5f4374aSIngo Molnar 47a5f4374aSIngo Molnar #define UPROBES_HASH_SZ 13 48a5f4374aSIngo Molnar 49c5784de2SPeter Zijlstra /* 50c5784de2SPeter Zijlstra * We need separate register/unregister and mmap/munmap lock hashes because 51c5784de2SPeter Zijlstra * of mmap_sem nesting. 52c5784de2SPeter Zijlstra * 53c5784de2SPeter Zijlstra * uprobe_register() needs to install probes on (potentially) all processes 54c5784de2SPeter Zijlstra * and thus needs to acquire multiple mmap_sems (consequtively, not 55c5784de2SPeter Zijlstra * concurrently), whereas uprobe_mmap() is called while holding mmap_sem 56c5784de2SPeter Zijlstra * for the particular process doing the mmap. 57c5784de2SPeter Zijlstra * 58c5784de2SPeter Zijlstra * uprobe_register()->register_for_each_vma() needs to drop/acquire mmap_sem 59c5784de2SPeter Zijlstra * because of lock order against i_mmap_mutex. This means there's a hole in 60c5784de2SPeter Zijlstra * the register vma iteration where a mmap() can happen. 61c5784de2SPeter Zijlstra * 62c5784de2SPeter Zijlstra * Thus uprobe_register() can race with uprobe_mmap() and we can try and 63c5784de2SPeter Zijlstra * install a probe where one is already installed. 64c5784de2SPeter Zijlstra */ 65c5784de2SPeter Zijlstra 66a5f4374aSIngo Molnar /* serialize (un)register */ 67a5f4374aSIngo Molnar static struct mutex uprobes_mutex[UPROBES_HASH_SZ]; 68a5f4374aSIngo Molnar 69a5f4374aSIngo Molnar #define uprobes_hash(v) (&uprobes_mutex[((unsigned long)(v)) % UPROBES_HASH_SZ]) 70a5f4374aSIngo Molnar 71a5f4374aSIngo Molnar /* serialize uprobe->pending_list */ 72a5f4374aSIngo Molnar static struct mutex uprobes_mmap_mutex[UPROBES_HASH_SZ]; 73a5f4374aSIngo Molnar #define uprobes_mmap_hash(v) (&uprobes_mmap_mutex[((unsigned long)(v)) % UPROBES_HASH_SZ]) 74a5f4374aSIngo Molnar 7532cdba1eSOleg Nesterov static struct percpu_rw_semaphore dup_mmap_sem; 7632cdba1eSOleg Nesterov 77a5f4374aSIngo Molnar /* 78a5f4374aSIngo Molnar * uprobe_events allows us to skip the uprobe_mmap if there are no uprobe 79a5f4374aSIngo Molnar * events active at this time. Probably a fine grained per inode count is 80a5f4374aSIngo Molnar * better? 81a5f4374aSIngo Molnar */ 82a5f4374aSIngo Molnar static atomic_t uprobe_events = ATOMIC_INIT(0); 83a5f4374aSIngo Molnar 84cb9a19feSOleg Nesterov /* Have a copy of original instruction */ 8571434f2fSOleg Nesterov #define UPROBE_COPY_INSN 0 86cb9a19feSOleg Nesterov /* Can skip singlestep */ 87bb929284SOleg Nesterov #define UPROBE_SKIP_SSTEP 1 88cb9a19feSOleg Nesterov 893ff54efdSSrikar Dronamraju struct uprobe { 903ff54efdSSrikar Dronamraju struct rb_node rb_node; /* node in the rb tree */ 913ff54efdSSrikar Dronamraju atomic_t ref; 92e591c8d7SOleg Nesterov struct rw_semaphore register_rwsem; 933ff54efdSSrikar Dronamraju struct rw_semaphore consumer_rwsem; 943ff54efdSSrikar Dronamraju struct list_head pending_list; 953ff54efdSSrikar Dronamraju struct uprobe_consumer *consumers; 963ff54efdSSrikar Dronamraju struct inode *inode; /* Also hold a ref to inode */ 973ff54efdSSrikar Dronamraju loff_t offset; 9871434f2fSOleg Nesterov unsigned long flags; 993ff54efdSSrikar Dronamraju struct arch_uprobe arch; 1003ff54efdSSrikar Dronamraju }; 1013ff54efdSSrikar Dronamraju 102a5f4374aSIngo Molnar /* 103a5f4374aSIngo Molnar * valid_vma: Verify if the specified vma is an executable vma 104a5f4374aSIngo Molnar * Relax restrictions while unregistering: vm_flags might have 105a5f4374aSIngo Molnar * changed after breakpoint was inserted. 106a5f4374aSIngo Molnar * - is_register: indicates if we are in register context. 107a5f4374aSIngo Molnar * - Return 1 if the specified virtual address is in an 108a5f4374aSIngo Molnar * executable vma. 109a5f4374aSIngo Molnar */ 110a5f4374aSIngo Molnar static bool valid_vma(struct vm_area_struct *vma, bool is_register) 111a5f4374aSIngo Molnar { 112e40cfce6SOleg Nesterov vm_flags_t flags = VM_HUGETLB | VM_MAYEXEC | VM_SHARED; 113a5f4374aSIngo Molnar 114e40cfce6SOleg Nesterov if (is_register) 115e40cfce6SOleg Nesterov flags |= VM_WRITE; 116a5f4374aSIngo Molnar 117e40cfce6SOleg Nesterov return vma->vm_file && (vma->vm_flags & flags) == VM_MAYEXEC; 118a5f4374aSIngo Molnar } 119a5f4374aSIngo Molnar 12057683f72SOleg Nesterov static unsigned long offset_to_vaddr(struct vm_area_struct *vma, loff_t offset) 121a5f4374aSIngo Molnar { 12257683f72SOleg Nesterov return vma->vm_start + offset - ((loff_t)vma->vm_pgoff << PAGE_SHIFT); 123a5f4374aSIngo Molnar } 124a5f4374aSIngo Molnar 125cb113b47SOleg Nesterov static loff_t vaddr_to_offset(struct vm_area_struct *vma, unsigned long vaddr) 126cb113b47SOleg Nesterov { 127cb113b47SOleg Nesterov return ((loff_t)vma->vm_pgoff << PAGE_SHIFT) + (vaddr - vma->vm_start); 128cb113b47SOleg Nesterov } 129cb113b47SOleg Nesterov 130a5f4374aSIngo Molnar /** 131a5f4374aSIngo Molnar * __replace_page - replace page in vma by new page. 132a5f4374aSIngo Molnar * based on replace_page in mm/ksm.c 133a5f4374aSIngo Molnar * 134a5f4374aSIngo Molnar * @vma: vma that holds the pte pointing to page 135c517ee74SOleg Nesterov * @addr: address the old @page is mapped at 136a5f4374aSIngo Molnar * @page: the cowed page we are replacing by kpage 137a5f4374aSIngo Molnar * @kpage: the modified page we replace page by 138a5f4374aSIngo Molnar * 139a5f4374aSIngo Molnar * Returns 0 on success, -EFAULT on failure. 140a5f4374aSIngo Molnar */ 141c517ee74SOleg Nesterov static int __replace_page(struct vm_area_struct *vma, unsigned long addr, 142c517ee74SOleg Nesterov struct page *page, struct page *kpage) 143a5f4374aSIngo Molnar { 144a5f4374aSIngo Molnar struct mm_struct *mm = vma->vm_mm; 1455323ce71SOleg Nesterov spinlock_t *ptl; 1465323ce71SOleg Nesterov pte_t *ptep; 1479f92448cSOleg Nesterov int err; 1486bdb913fSHaggai Eran /* For mmu_notifiers */ 1496bdb913fSHaggai Eran const unsigned long mmun_start = addr; 1506bdb913fSHaggai Eran const unsigned long mmun_end = addr + PAGE_SIZE; 151a5f4374aSIngo Molnar 152194f8dcbSOleg Nesterov /* For try_to_free_swap() and munlock_vma_page() below */ 1539f92448cSOleg Nesterov lock_page(page); 1549f92448cSOleg Nesterov 1556bdb913fSHaggai Eran mmu_notifier_invalidate_range_start(mm, mmun_start, mmun_end); 1569f92448cSOleg Nesterov err = -EAGAIN; 1575323ce71SOleg Nesterov ptep = page_check_address(page, mm, addr, &ptl, 0); 158a5f4374aSIngo Molnar if (!ptep) 1599f92448cSOleg Nesterov goto unlock; 160a5f4374aSIngo Molnar 161a5f4374aSIngo Molnar get_page(kpage); 162a5f4374aSIngo Molnar page_add_new_anon_rmap(kpage, vma, addr); 163a5f4374aSIngo Molnar 1647396fa81SSrikar Dronamraju if (!PageAnon(page)) { 1657396fa81SSrikar Dronamraju dec_mm_counter(mm, MM_FILEPAGES); 1667396fa81SSrikar Dronamraju inc_mm_counter(mm, MM_ANONPAGES); 1677396fa81SSrikar Dronamraju } 1687396fa81SSrikar Dronamraju 169a5f4374aSIngo Molnar flush_cache_page(vma, addr, pte_pfn(*ptep)); 170a5f4374aSIngo Molnar ptep_clear_flush(vma, addr, ptep); 171a5f4374aSIngo Molnar set_pte_at_notify(mm, addr, ptep, mk_pte(kpage, vma->vm_page_prot)); 172a5f4374aSIngo Molnar 173a5f4374aSIngo Molnar page_remove_rmap(page); 174a5f4374aSIngo Molnar if (!page_mapped(page)) 175a5f4374aSIngo Molnar try_to_free_swap(page); 176a5f4374aSIngo Molnar pte_unmap_unlock(ptep, ptl); 177a5f4374aSIngo Molnar 178194f8dcbSOleg Nesterov if (vma->vm_flags & VM_LOCKED) 179194f8dcbSOleg Nesterov munlock_vma_page(page); 180194f8dcbSOleg Nesterov put_page(page); 181194f8dcbSOleg Nesterov 1829f92448cSOleg Nesterov err = 0; 1839f92448cSOleg Nesterov unlock: 1846bdb913fSHaggai Eran mmu_notifier_invalidate_range_end(mm, mmun_start, mmun_end); 1859f92448cSOleg Nesterov unlock_page(page); 1869f92448cSOleg Nesterov return err; 187a5f4374aSIngo Molnar } 188a5f4374aSIngo Molnar 189a5f4374aSIngo Molnar /** 1905cb4ac3aSSrikar Dronamraju * is_swbp_insn - check if instruction is breakpoint instruction. 191a5f4374aSIngo Molnar * @insn: instruction to be checked. 1925cb4ac3aSSrikar Dronamraju * Default implementation of is_swbp_insn 193a5f4374aSIngo Molnar * Returns true if @insn is a breakpoint instruction. 194a5f4374aSIngo Molnar */ 1955cb4ac3aSSrikar Dronamraju bool __weak is_swbp_insn(uprobe_opcode_t *insn) 196a5f4374aSIngo Molnar { 1975cb4ac3aSSrikar Dronamraju return *insn == UPROBE_SWBP_INSN; 198a5f4374aSIngo Molnar } 199a5f4374aSIngo Molnar 200cceb55aaSOleg Nesterov static void copy_opcode(struct page *page, unsigned long vaddr, uprobe_opcode_t *opcode) 201cceb55aaSOleg Nesterov { 202cceb55aaSOleg Nesterov void *kaddr = kmap_atomic(page); 203cceb55aaSOleg Nesterov memcpy(opcode, kaddr + (vaddr & ~PAGE_MASK), UPROBE_SWBP_INSN_SIZE); 204cceb55aaSOleg Nesterov kunmap_atomic(kaddr); 205cceb55aaSOleg Nesterov } 206cceb55aaSOleg Nesterov 207ed6f6a50SOleg Nesterov static int verify_opcode(struct page *page, unsigned long vaddr, uprobe_opcode_t *new_opcode) 208ed6f6a50SOleg Nesterov { 209ed6f6a50SOleg Nesterov uprobe_opcode_t old_opcode; 210ed6f6a50SOleg Nesterov bool is_swbp; 211ed6f6a50SOleg Nesterov 212ed6f6a50SOleg Nesterov copy_opcode(page, vaddr, &old_opcode); 213ed6f6a50SOleg Nesterov is_swbp = is_swbp_insn(&old_opcode); 214ed6f6a50SOleg Nesterov 215ed6f6a50SOleg Nesterov if (is_swbp_insn(new_opcode)) { 216ed6f6a50SOleg Nesterov if (is_swbp) /* register: already installed? */ 217ed6f6a50SOleg Nesterov return 0; 218ed6f6a50SOleg Nesterov } else { 219ed6f6a50SOleg Nesterov if (!is_swbp) /* unregister: was it changed by us? */ 220076a365bSOleg Nesterov return 0; 221ed6f6a50SOleg Nesterov } 222ed6f6a50SOleg Nesterov 223ed6f6a50SOleg Nesterov return 1; 224ed6f6a50SOleg Nesterov } 225ed6f6a50SOleg Nesterov 226a5f4374aSIngo Molnar /* 227a5f4374aSIngo Molnar * NOTE: 228a5f4374aSIngo Molnar * Expect the breakpoint instruction to be the smallest size instruction for 229a5f4374aSIngo Molnar * the architecture. If an arch has variable length instruction and the 230a5f4374aSIngo Molnar * breakpoint instruction is not of the smallest length instruction 231cceb55aaSOleg Nesterov * supported by that architecture then we need to modify is_swbp_at_addr and 232a5f4374aSIngo Molnar * write_opcode accordingly. This would never be a problem for archs that 233a5f4374aSIngo Molnar * have fixed length instructions. 234a5f4374aSIngo Molnar */ 235a5f4374aSIngo Molnar 236a5f4374aSIngo Molnar /* 237a5f4374aSIngo Molnar * write_opcode - write the opcode at a given virtual address. 238a5f4374aSIngo Molnar * @mm: the probed process address space. 239a5f4374aSIngo Molnar * @vaddr: the virtual address to store the opcode. 240a5f4374aSIngo Molnar * @opcode: opcode to be written at @vaddr. 241a5f4374aSIngo Molnar * 242a5f4374aSIngo Molnar * Called with mm->mmap_sem held (for read and with a reference to 243a5f4374aSIngo Molnar * mm). 244a5f4374aSIngo Molnar * 245a5f4374aSIngo Molnar * For mm @mm, write the opcode at @vaddr. 246a5f4374aSIngo Molnar * Return 0 (success) or a negative errno. 247a5f4374aSIngo Molnar */ 248cceb55aaSOleg Nesterov static int write_opcode(struct mm_struct *mm, unsigned long vaddr, 249cceb55aaSOleg Nesterov uprobe_opcode_t opcode) 250a5f4374aSIngo Molnar { 251a5f4374aSIngo Molnar struct page *old_page, *new_page; 252a5f4374aSIngo Molnar void *vaddr_old, *vaddr_new; 253a5f4374aSIngo Molnar struct vm_area_struct *vma; 254a5f4374aSIngo Molnar int ret; 255f403072cSOleg Nesterov 2565323ce71SOleg Nesterov retry: 257a5f4374aSIngo Molnar /* Read the page with vaddr into memory */ 25875ed82eaSOleg Nesterov ret = get_user_pages(NULL, mm, vaddr, 1, 0, 1, &old_page, &vma); 259a5f4374aSIngo Molnar if (ret <= 0) 260a5f4374aSIngo Molnar return ret; 261a5f4374aSIngo Molnar 262ed6f6a50SOleg Nesterov ret = verify_opcode(old_page, vaddr, &opcode); 263ed6f6a50SOleg Nesterov if (ret <= 0) 264ed6f6a50SOleg Nesterov goto put_old; 265ed6f6a50SOleg Nesterov 266a5f4374aSIngo Molnar ret = -ENOMEM; 267a5f4374aSIngo Molnar new_page = alloc_page_vma(GFP_HIGHUSER_MOVABLE, vma, vaddr); 268a5f4374aSIngo Molnar if (!new_page) 2699f92448cSOleg Nesterov goto put_old; 270a5f4374aSIngo Molnar 271a5f4374aSIngo Molnar __SetPageUptodate(new_page); 272a5f4374aSIngo Molnar 273a5f4374aSIngo Molnar /* copy the page now that we've got it stable */ 274a5f4374aSIngo Molnar vaddr_old = kmap_atomic(old_page); 275a5f4374aSIngo Molnar vaddr_new = kmap_atomic(new_page); 276a5f4374aSIngo Molnar 277a5f4374aSIngo Molnar memcpy(vaddr_new, vaddr_old, PAGE_SIZE); 278d9c4a30eSOleg Nesterov memcpy(vaddr_new + (vaddr & ~PAGE_MASK), &opcode, UPROBE_SWBP_INSN_SIZE); 279a5f4374aSIngo Molnar 280a5f4374aSIngo Molnar kunmap_atomic(vaddr_new); 281a5f4374aSIngo Molnar kunmap_atomic(vaddr_old); 282a5f4374aSIngo Molnar 283a5f4374aSIngo Molnar ret = anon_vma_prepare(vma); 284a5f4374aSIngo Molnar if (ret) 2859f92448cSOleg Nesterov goto put_new; 286a5f4374aSIngo Molnar 287c517ee74SOleg Nesterov ret = __replace_page(vma, vaddr, old_page, new_page); 288a5f4374aSIngo Molnar 2899f92448cSOleg Nesterov put_new: 290a5f4374aSIngo Molnar page_cache_release(new_page); 2919f92448cSOleg Nesterov put_old: 292a5f4374aSIngo Molnar put_page(old_page); 293a5f4374aSIngo Molnar 2945323ce71SOleg Nesterov if (unlikely(ret == -EAGAIN)) 2955323ce71SOleg Nesterov goto retry; 296a5f4374aSIngo Molnar return ret; 297a5f4374aSIngo Molnar } 298a5f4374aSIngo Molnar 299a5f4374aSIngo Molnar /** 3005cb4ac3aSSrikar Dronamraju * set_swbp - store breakpoint at a given address. 301e3343e6aSSrikar Dronamraju * @auprobe: arch specific probepoint information. 302a5f4374aSIngo Molnar * @mm: the probed process address space. 303a5f4374aSIngo Molnar * @vaddr: the virtual address to insert the opcode. 304a5f4374aSIngo Molnar * 305a5f4374aSIngo Molnar * For mm @mm, store the breakpoint instruction at @vaddr. 306a5f4374aSIngo Molnar * Return 0 (success) or a negative errno. 307a5f4374aSIngo Molnar */ 3085cb4ac3aSSrikar Dronamraju int __weak set_swbp(struct arch_uprobe *auprobe, struct mm_struct *mm, unsigned long vaddr) 309a5f4374aSIngo Molnar { 310cceb55aaSOleg Nesterov return write_opcode(mm, vaddr, UPROBE_SWBP_INSN); 311a5f4374aSIngo Molnar } 312a5f4374aSIngo Molnar 313a5f4374aSIngo Molnar /** 314a5f4374aSIngo Molnar * set_orig_insn - Restore the original instruction. 315a5f4374aSIngo Molnar * @mm: the probed process address space. 316e3343e6aSSrikar Dronamraju * @auprobe: arch specific probepoint information. 317a5f4374aSIngo Molnar * @vaddr: the virtual address to insert the opcode. 318a5f4374aSIngo Molnar * 319a5f4374aSIngo Molnar * For mm @mm, restore the original opcode (opcode) at @vaddr. 320a5f4374aSIngo Molnar * Return 0 (success) or a negative errno. 321a5f4374aSIngo Molnar */ 322a5f4374aSIngo Molnar int __weak 323ded86e7cSOleg Nesterov set_orig_insn(struct arch_uprobe *auprobe, struct mm_struct *mm, unsigned long vaddr) 324a5f4374aSIngo Molnar { 325cceb55aaSOleg Nesterov return write_opcode(mm, vaddr, *(uprobe_opcode_t *)auprobe->insn); 326a5f4374aSIngo Molnar } 327a5f4374aSIngo Molnar 328a5f4374aSIngo Molnar static int match_uprobe(struct uprobe *l, struct uprobe *r) 329a5f4374aSIngo Molnar { 330a5f4374aSIngo Molnar if (l->inode < r->inode) 331a5f4374aSIngo Molnar return -1; 332a5f4374aSIngo Molnar 333a5f4374aSIngo Molnar if (l->inode > r->inode) 334a5f4374aSIngo Molnar return 1; 335a5f4374aSIngo Molnar 336a5f4374aSIngo Molnar if (l->offset < r->offset) 337a5f4374aSIngo Molnar return -1; 338a5f4374aSIngo Molnar 339a5f4374aSIngo Molnar if (l->offset > r->offset) 340a5f4374aSIngo Molnar return 1; 341a5f4374aSIngo Molnar 342a5f4374aSIngo Molnar return 0; 343a5f4374aSIngo Molnar } 344a5f4374aSIngo Molnar 345a5f4374aSIngo Molnar static struct uprobe *__find_uprobe(struct inode *inode, loff_t offset) 346a5f4374aSIngo Molnar { 347a5f4374aSIngo Molnar struct uprobe u = { .inode = inode, .offset = offset }; 348a5f4374aSIngo Molnar struct rb_node *n = uprobes_tree.rb_node; 349a5f4374aSIngo Molnar struct uprobe *uprobe; 350a5f4374aSIngo Molnar int match; 351a5f4374aSIngo Molnar 352a5f4374aSIngo Molnar while (n) { 353a5f4374aSIngo Molnar uprobe = rb_entry(n, struct uprobe, rb_node); 354a5f4374aSIngo Molnar match = match_uprobe(&u, uprobe); 355a5f4374aSIngo Molnar if (!match) { 356a5f4374aSIngo Molnar atomic_inc(&uprobe->ref); 357a5f4374aSIngo Molnar return uprobe; 358a5f4374aSIngo Molnar } 359a5f4374aSIngo Molnar 360a5f4374aSIngo Molnar if (match < 0) 361a5f4374aSIngo Molnar n = n->rb_left; 362a5f4374aSIngo Molnar else 363a5f4374aSIngo Molnar n = n->rb_right; 364a5f4374aSIngo Molnar } 365a5f4374aSIngo Molnar return NULL; 366a5f4374aSIngo Molnar } 367a5f4374aSIngo Molnar 368a5f4374aSIngo Molnar /* 369a5f4374aSIngo Molnar * Find a uprobe corresponding to a given inode:offset 370a5f4374aSIngo Molnar * Acquires uprobes_treelock 371a5f4374aSIngo Molnar */ 372a5f4374aSIngo Molnar static struct uprobe *find_uprobe(struct inode *inode, loff_t offset) 373a5f4374aSIngo Molnar { 374a5f4374aSIngo Molnar struct uprobe *uprobe; 375a5f4374aSIngo Molnar 3766f47caa0SOleg Nesterov spin_lock(&uprobes_treelock); 377a5f4374aSIngo Molnar uprobe = __find_uprobe(inode, offset); 3786f47caa0SOleg Nesterov spin_unlock(&uprobes_treelock); 379a5f4374aSIngo Molnar 380a5f4374aSIngo Molnar return uprobe; 381a5f4374aSIngo Molnar } 382a5f4374aSIngo Molnar 383a5f4374aSIngo Molnar static struct uprobe *__insert_uprobe(struct uprobe *uprobe) 384a5f4374aSIngo Molnar { 385a5f4374aSIngo Molnar struct rb_node **p = &uprobes_tree.rb_node; 386a5f4374aSIngo Molnar struct rb_node *parent = NULL; 387a5f4374aSIngo Molnar struct uprobe *u; 388a5f4374aSIngo Molnar int match; 389a5f4374aSIngo Molnar 390a5f4374aSIngo Molnar while (*p) { 391a5f4374aSIngo Molnar parent = *p; 392a5f4374aSIngo Molnar u = rb_entry(parent, struct uprobe, rb_node); 393a5f4374aSIngo Molnar match = match_uprobe(uprobe, u); 394a5f4374aSIngo Molnar if (!match) { 395a5f4374aSIngo Molnar atomic_inc(&u->ref); 396a5f4374aSIngo Molnar return u; 397a5f4374aSIngo Molnar } 398a5f4374aSIngo Molnar 399a5f4374aSIngo Molnar if (match < 0) 400a5f4374aSIngo Molnar p = &parent->rb_left; 401a5f4374aSIngo Molnar else 402a5f4374aSIngo Molnar p = &parent->rb_right; 403a5f4374aSIngo Molnar 404a5f4374aSIngo Molnar } 405a5f4374aSIngo Molnar 406a5f4374aSIngo Molnar u = NULL; 407a5f4374aSIngo Molnar rb_link_node(&uprobe->rb_node, parent, p); 408a5f4374aSIngo Molnar rb_insert_color(&uprobe->rb_node, &uprobes_tree); 409a5f4374aSIngo Molnar /* get access + creation ref */ 410a5f4374aSIngo Molnar atomic_set(&uprobe->ref, 2); 411a5f4374aSIngo Molnar 412a5f4374aSIngo Molnar return u; 413a5f4374aSIngo Molnar } 414a5f4374aSIngo Molnar 415a5f4374aSIngo Molnar /* 416a5f4374aSIngo Molnar * Acquire uprobes_treelock. 417a5f4374aSIngo Molnar * Matching uprobe already exists in rbtree; 418a5f4374aSIngo Molnar * increment (access refcount) and return the matching uprobe. 419a5f4374aSIngo Molnar * 420a5f4374aSIngo Molnar * No matching uprobe; insert the uprobe in rb_tree; 421a5f4374aSIngo Molnar * get a double refcount (access + creation) and return NULL. 422a5f4374aSIngo Molnar */ 423a5f4374aSIngo Molnar static struct uprobe *insert_uprobe(struct uprobe *uprobe) 424a5f4374aSIngo Molnar { 425a5f4374aSIngo Molnar struct uprobe *u; 426a5f4374aSIngo Molnar 4276f47caa0SOleg Nesterov spin_lock(&uprobes_treelock); 428a5f4374aSIngo Molnar u = __insert_uprobe(uprobe); 4296f47caa0SOleg Nesterov spin_unlock(&uprobes_treelock); 430a5f4374aSIngo Molnar 431a5f4374aSIngo Molnar return u; 432a5f4374aSIngo Molnar } 433a5f4374aSIngo Molnar 434a5f4374aSIngo Molnar static void put_uprobe(struct uprobe *uprobe) 435a5f4374aSIngo Molnar { 436a5f4374aSIngo Molnar if (atomic_dec_and_test(&uprobe->ref)) 437a5f4374aSIngo Molnar kfree(uprobe); 438a5f4374aSIngo Molnar } 439a5f4374aSIngo Molnar 440a5f4374aSIngo Molnar static struct uprobe *alloc_uprobe(struct inode *inode, loff_t offset) 441a5f4374aSIngo Molnar { 442a5f4374aSIngo Molnar struct uprobe *uprobe, *cur_uprobe; 443a5f4374aSIngo Molnar 444a5f4374aSIngo Molnar uprobe = kzalloc(sizeof(struct uprobe), GFP_KERNEL); 445a5f4374aSIngo Molnar if (!uprobe) 446a5f4374aSIngo Molnar return NULL; 447a5f4374aSIngo Molnar 448a5f4374aSIngo Molnar uprobe->inode = igrab(inode); 449a5f4374aSIngo Molnar uprobe->offset = offset; 450e591c8d7SOleg Nesterov init_rwsem(&uprobe->register_rwsem); 451a5f4374aSIngo Molnar init_rwsem(&uprobe->consumer_rwsem); 452bbc33d05SOleg Nesterov /* For now assume that the instruction need not be single-stepped */ 453bbc33d05SOleg Nesterov __set_bit(UPROBE_SKIP_SSTEP, &uprobe->flags); 454a5f4374aSIngo Molnar 455a5f4374aSIngo Molnar /* add to uprobes_tree, sorted on inode:offset */ 456a5f4374aSIngo Molnar cur_uprobe = insert_uprobe(uprobe); 457a5f4374aSIngo Molnar 458a5f4374aSIngo Molnar /* a uprobe exists for this inode:offset combination */ 459a5f4374aSIngo Molnar if (cur_uprobe) { 460a5f4374aSIngo Molnar kfree(uprobe); 461a5f4374aSIngo Molnar uprobe = cur_uprobe; 462a5f4374aSIngo Molnar iput(inode); 463a5f4374aSIngo Molnar } else { 464a5f4374aSIngo Molnar atomic_inc(&uprobe_events); 465a5f4374aSIngo Molnar } 466a5f4374aSIngo Molnar 467a5f4374aSIngo Molnar return uprobe; 468a5f4374aSIngo Molnar } 469a5f4374aSIngo Molnar 4700326f5a9SSrikar Dronamraju static void handler_chain(struct uprobe *uprobe, struct pt_regs *regs) 4710326f5a9SSrikar Dronamraju { 4720326f5a9SSrikar Dronamraju struct uprobe_consumer *uc; 4730326f5a9SSrikar Dronamraju 474e591c8d7SOleg Nesterov down_read(&uprobe->register_rwsem); 475fe20d71fSOleg Nesterov for (uc = uprobe->consumers; uc; uc = uc->next) 4760326f5a9SSrikar Dronamraju uc->handler(uc, regs); 477e591c8d7SOleg Nesterov up_read(&uprobe->register_rwsem); 4780326f5a9SSrikar Dronamraju } 4790326f5a9SSrikar Dronamraju 4809a98e03cSOleg Nesterov static void consumer_add(struct uprobe *uprobe, struct uprobe_consumer *uc) 481a5f4374aSIngo Molnar { 482a5f4374aSIngo Molnar down_write(&uprobe->consumer_rwsem); 483e3343e6aSSrikar Dronamraju uc->next = uprobe->consumers; 484e3343e6aSSrikar Dronamraju uprobe->consumers = uc; 485a5f4374aSIngo Molnar up_write(&uprobe->consumer_rwsem); 486a5f4374aSIngo Molnar } 487a5f4374aSIngo Molnar 488a5f4374aSIngo Molnar /* 489e3343e6aSSrikar Dronamraju * For uprobe @uprobe, delete the consumer @uc. 490e3343e6aSSrikar Dronamraju * Return true if the @uc is deleted successfully 491a5f4374aSIngo Molnar * or return false. 492a5f4374aSIngo Molnar */ 493e3343e6aSSrikar Dronamraju static bool consumer_del(struct uprobe *uprobe, struct uprobe_consumer *uc) 494a5f4374aSIngo Molnar { 495a5f4374aSIngo Molnar struct uprobe_consumer **con; 496a5f4374aSIngo Molnar bool ret = false; 497a5f4374aSIngo Molnar 498a5f4374aSIngo Molnar down_write(&uprobe->consumer_rwsem); 499a5f4374aSIngo Molnar for (con = &uprobe->consumers; *con; con = &(*con)->next) { 500e3343e6aSSrikar Dronamraju if (*con == uc) { 501e3343e6aSSrikar Dronamraju *con = uc->next; 502a5f4374aSIngo Molnar ret = true; 503a5f4374aSIngo Molnar break; 504a5f4374aSIngo Molnar } 505a5f4374aSIngo Molnar } 506a5f4374aSIngo Molnar up_write(&uprobe->consumer_rwsem); 507a5f4374aSIngo Molnar 508a5f4374aSIngo Molnar return ret; 509a5f4374aSIngo Molnar } 510a5f4374aSIngo Molnar 511e3343e6aSSrikar Dronamraju static int 512d436615eSOleg Nesterov __copy_insn(struct address_space *mapping, struct file *filp, char *insn, 513593609a5SOleg Nesterov unsigned long nbytes, loff_t offset) 514a5f4374aSIngo Molnar { 515a5f4374aSIngo Molnar struct page *page; 516a5f4374aSIngo Molnar void *vaddr; 517593609a5SOleg Nesterov unsigned long off; 518593609a5SOleg Nesterov pgoff_t idx; 519a5f4374aSIngo Molnar 520a5f4374aSIngo Molnar if (!filp) 521a5f4374aSIngo Molnar return -EINVAL; 522a5f4374aSIngo Molnar 523cc359d18SOleg Nesterov if (!mapping->a_ops->readpage) 524cc359d18SOleg Nesterov return -EIO; 525cc359d18SOleg Nesterov 526593609a5SOleg Nesterov idx = offset >> PAGE_CACHE_SHIFT; 527593609a5SOleg Nesterov off = offset & ~PAGE_MASK; 528a5f4374aSIngo Molnar 529a5f4374aSIngo Molnar /* 530a5f4374aSIngo Molnar * Ensure that the page that has the original instruction is 531a5f4374aSIngo Molnar * populated and in page-cache. 532a5f4374aSIngo Molnar */ 533a5f4374aSIngo Molnar page = read_mapping_page(mapping, idx, filp); 534a5f4374aSIngo Molnar if (IS_ERR(page)) 535a5f4374aSIngo Molnar return PTR_ERR(page); 536a5f4374aSIngo Molnar 537a5f4374aSIngo Molnar vaddr = kmap_atomic(page); 538593609a5SOleg Nesterov memcpy(insn, vaddr + off, nbytes); 539a5f4374aSIngo Molnar kunmap_atomic(vaddr); 540a5f4374aSIngo Molnar page_cache_release(page); 541a5f4374aSIngo Molnar 542a5f4374aSIngo Molnar return 0; 543a5f4374aSIngo Molnar } 544a5f4374aSIngo Molnar 545d436615eSOleg Nesterov static int copy_insn(struct uprobe *uprobe, struct file *filp) 546a5f4374aSIngo Molnar { 547a5f4374aSIngo Molnar struct address_space *mapping; 548a5f4374aSIngo Molnar unsigned long nbytes; 549a5f4374aSIngo Molnar int bytes; 550a5f4374aSIngo Molnar 551d436615eSOleg Nesterov nbytes = PAGE_SIZE - (uprobe->offset & ~PAGE_MASK); 552a5f4374aSIngo Molnar mapping = uprobe->inode->i_mapping; 553a5f4374aSIngo Molnar 554a5f4374aSIngo Molnar /* Instruction at end of binary; copy only available bytes */ 555a5f4374aSIngo Molnar if (uprobe->offset + MAX_UINSN_BYTES > uprobe->inode->i_size) 556a5f4374aSIngo Molnar bytes = uprobe->inode->i_size - uprobe->offset; 557a5f4374aSIngo Molnar else 558a5f4374aSIngo Molnar bytes = MAX_UINSN_BYTES; 559a5f4374aSIngo Molnar 560a5f4374aSIngo Molnar /* Instruction at the page-boundary; copy bytes in second page */ 561a5f4374aSIngo Molnar if (nbytes < bytes) { 562fc36f595SOleg Nesterov int err = __copy_insn(mapping, filp, uprobe->arch.insn + nbytes, 563fc36f595SOleg Nesterov bytes - nbytes, uprobe->offset + nbytes); 564fc36f595SOleg Nesterov if (err) 565fc36f595SOleg Nesterov return err; 566a5f4374aSIngo Molnar bytes = nbytes; 567a5f4374aSIngo Molnar } 568d436615eSOleg Nesterov return __copy_insn(mapping, filp, uprobe->arch.insn, bytes, uprobe->offset); 569a5f4374aSIngo Molnar } 570a5f4374aSIngo Molnar 571cb9a19feSOleg Nesterov static int prepare_uprobe(struct uprobe *uprobe, struct file *file, 572cb9a19feSOleg Nesterov struct mm_struct *mm, unsigned long vaddr) 573cb9a19feSOleg Nesterov { 574cb9a19feSOleg Nesterov int ret = 0; 575cb9a19feSOleg Nesterov 57671434f2fSOleg Nesterov if (test_bit(UPROBE_COPY_INSN, &uprobe->flags)) 577cb9a19feSOleg Nesterov return ret; 578cb9a19feSOleg Nesterov 579*d4d3ccc6SOleg Nesterov /* TODO: move this into _register, until then we abuse this sem. */ 580*d4d3ccc6SOleg Nesterov down_write(&uprobe->consumer_rwsem); 58171434f2fSOleg Nesterov if (test_bit(UPROBE_COPY_INSN, &uprobe->flags)) 5824710f05fSOleg Nesterov goto out; 5834710f05fSOleg Nesterov 584cb9a19feSOleg Nesterov ret = copy_insn(uprobe, file); 585cb9a19feSOleg Nesterov if (ret) 586cb9a19feSOleg Nesterov goto out; 587cb9a19feSOleg Nesterov 588cb9a19feSOleg Nesterov ret = -ENOTSUPP; 589cb9a19feSOleg Nesterov if (is_swbp_insn((uprobe_opcode_t *)uprobe->arch.insn)) 590cb9a19feSOleg Nesterov goto out; 591cb9a19feSOleg Nesterov 592cb9a19feSOleg Nesterov ret = arch_uprobe_analyze_insn(&uprobe->arch, mm, vaddr); 593cb9a19feSOleg Nesterov if (ret) 594cb9a19feSOleg Nesterov goto out; 595cb9a19feSOleg Nesterov 596cb9a19feSOleg Nesterov /* write_opcode() assumes we don't cross page boundary */ 597cb9a19feSOleg Nesterov BUG_ON((uprobe->offset & ~PAGE_MASK) + 598cb9a19feSOleg Nesterov UPROBE_SWBP_INSN_SIZE > PAGE_SIZE); 599cb9a19feSOleg Nesterov 600cb9a19feSOleg Nesterov smp_wmb(); /* pairs with rmb() in find_active_uprobe() */ 60171434f2fSOleg Nesterov set_bit(UPROBE_COPY_INSN, &uprobe->flags); 602cb9a19feSOleg Nesterov 603cb9a19feSOleg Nesterov out: 604*d4d3ccc6SOleg Nesterov up_write(&uprobe->consumer_rwsem); 6054710f05fSOleg Nesterov 606cb9a19feSOleg Nesterov return ret; 607cb9a19feSOleg Nesterov } 608cb9a19feSOleg Nesterov 60963633cbfSOleg Nesterov static bool filter_chain(struct uprobe *uprobe) 61063633cbfSOleg Nesterov { 6111ff6fee5SOleg Nesterov struct uprobe_consumer *uc; 6121ff6fee5SOleg Nesterov bool ret = false; 6131ff6fee5SOleg Nesterov 6141ff6fee5SOleg Nesterov down_read(&uprobe->consumer_rwsem); 6151ff6fee5SOleg Nesterov for (uc = uprobe->consumers; uc; uc = uc->next) { 6161ff6fee5SOleg Nesterov /* TODO: ret = uc->filter(...) */ 6171ff6fee5SOleg Nesterov ret = true; 6181ff6fee5SOleg Nesterov if (ret) 6191ff6fee5SOleg Nesterov break; 6201ff6fee5SOleg Nesterov } 6211ff6fee5SOleg Nesterov up_read(&uprobe->consumer_rwsem); 6221ff6fee5SOleg Nesterov 6231ff6fee5SOleg Nesterov return ret; 62463633cbfSOleg Nesterov } 62563633cbfSOleg Nesterov 626e3343e6aSSrikar Dronamraju static int 627e3343e6aSSrikar Dronamraju install_breakpoint(struct uprobe *uprobe, struct mm_struct *mm, 628816c03fbSOleg Nesterov struct vm_area_struct *vma, unsigned long vaddr) 629a5f4374aSIngo Molnar { 630f8ac4ec9SOleg Nesterov bool first_uprobe; 631a5f4374aSIngo Molnar int ret; 632a5f4374aSIngo Molnar 633a5f4374aSIngo Molnar /* 634a5f4374aSIngo Molnar * If probe is being deleted, unregister thread could be done with 635a5f4374aSIngo Molnar * the vma-rmap-walk through. Adding a probe now can be fatal since 63663633cbfSOleg Nesterov * nobody will be able to cleanup. But in this case filter_chain() 63763633cbfSOleg Nesterov * must return false, all consumers have gone away. 638a5f4374aSIngo Molnar */ 63963633cbfSOleg Nesterov if (!filter_chain(uprobe)) 64078f74116SOleg Nesterov return 0; 641a5f4374aSIngo Molnar 642cb9a19feSOleg Nesterov ret = prepare_uprobe(uprobe, vma->vm_file, mm, vaddr); 643a5f4374aSIngo Molnar if (ret) 644a5f4374aSIngo Molnar return ret; 645a5f4374aSIngo Molnar 646f8ac4ec9SOleg Nesterov /* 647f8ac4ec9SOleg Nesterov * set MMF_HAS_UPROBES in advance for uprobe_pre_sstep_notifier(), 648f8ac4ec9SOleg Nesterov * the task can hit this breakpoint right after __replace_page(). 649f8ac4ec9SOleg Nesterov */ 650f8ac4ec9SOleg Nesterov first_uprobe = !test_bit(MMF_HAS_UPROBES, &mm->flags); 651f8ac4ec9SOleg Nesterov if (first_uprobe) 652f8ac4ec9SOleg Nesterov set_bit(MMF_HAS_UPROBES, &mm->flags); 653f8ac4ec9SOleg Nesterov 654816c03fbSOleg Nesterov ret = set_swbp(&uprobe->arch, mm, vaddr); 6559f68f672SOleg Nesterov if (!ret) 6569f68f672SOleg Nesterov clear_bit(MMF_RECALC_UPROBES, &mm->flags); 6579f68f672SOleg Nesterov else if (first_uprobe) 658f8ac4ec9SOleg Nesterov clear_bit(MMF_HAS_UPROBES, &mm->flags); 659a5f4374aSIngo Molnar 660a5f4374aSIngo Molnar return ret; 661a5f4374aSIngo Molnar } 662a5f4374aSIngo Molnar 663076a365bSOleg Nesterov static int 664816c03fbSOleg Nesterov remove_breakpoint(struct uprobe *uprobe, struct mm_struct *mm, unsigned long vaddr) 665a5f4374aSIngo Molnar { 6669f68f672SOleg Nesterov if (!test_bit(MMF_HAS_UPROBES, &mm->flags)) 667076a365bSOleg Nesterov return 0; 6689f68f672SOleg Nesterov 66963633cbfSOleg Nesterov if (filter_chain(uprobe)) 67063633cbfSOleg Nesterov return 0; 67163633cbfSOleg Nesterov 6729f68f672SOleg Nesterov set_bit(MMF_RECALC_UPROBES, &mm->flags); 673076a365bSOleg Nesterov return set_orig_insn(&uprobe->arch, mm, vaddr); 674a5f4374aSIngo Molnar } 675a5f4374aSIngo Molnar 6760326f5a9SSrikar Dronamraju /* 677778b032dSOleg Nesterov * There could be threads that have already hit the breakpoint. They 678778b032dSOleg Nesterov * will recheck the current insn and restart if find_uprobe() fails. 679778b032dSOleg Nesterov * See find_active_uprobe(). 6800326f5a9SSrikar Dronamraju */ 681a5f4374aSIngo Molnar static void delete_uprobe(struct uprobe *uprobe) 682a5f4374aSIngo Molnar { 6836f47caa0SOleg Nesterov spin_lock(&uprobes_treelock); 684a5f4374aSIngo Molnar rb_erase(&uprobe->rb_node, &uprobes_tree); 6856f47caa0SOleg Nesterov spin_unlock(&uprobes_treelock); 686a5f4374aSIngo Molnar iput(uprobe->inode); 687a5f4374aSIngo Molnar put_uprobe(uprobe); 688a5f4374aSIngo Molnar atomic_dec(&uprobe_events); 689a5f4374aSIngo Molnar } 690a5f4374aSIngo Molnar 69126872090SOleg Nesterov struct map_info { 69226872090SOleg Nesterov struct map_info *next; 69326872090SOleg Nesterov struct mm_struct *mm; 694816c03fbSOleg Nesterov unsigned long vaddr; 69526872090SOleg Nesterov }; 69626872090SOleg Nesterov 69726872090SOleg Nesterov static inline struct map_info *free_map_info(struct map_info *info) 698a5f4374aSIngo Molnar { 69926872090SOleg Nesterov struct map_info *next = info->next; 70026872090SOleg Nesterov kfree(info); 70126872090SOleg Nesterov return next; 70226872090SOleg Nesterov } 70326872090SOleg Nesterov 70426872090SOleg Nesterov static struct map_info * 70526872090SOleg Nesterov build_map_info(struct address_space *mapping, loff_t offset, bool is_register) 70626872090SOleg Nesterov { 70726872090SOleg Nesterov unsigned long pgoff = offset >> PAGE_SHIFT; 708a5f4374aSIngo Molnar struct vm_area_struct *vma; 70926872090SOleg Nesterov struct map_info *curr = NULL; 71026872090SOleg Nesterov struct map_info *prev = NULL; 71126872090SOleg Nesterov struct map_info *info; 71226872090SOleg Nesterov int more = 0; 713a5f4374aSIngo Molnar 71426872090SOleg Nesterov again: 71526872090SOleg Nesterov mutex_lock(&mapping->i_mmap_mutex); 7166b2dbba8SMichel Lespinasse vma_interval_tree_foreach(vma, &mapping->i_mmap, pgoff, pgoff) { 717a5f4374aSIngo Molnar if (!valid_vma(vma, is_register)) 718a5f4374aSIngo Molnar continue; 719a5f4374aSIngo Molnar 7207a5bfb66SOleg Nesterov if (!prev && !more) { 7217a5bfb66SOleg Nesterov /* 7227a5bfb66SOleg Nesterov * Needs GFP_NOWAIT to avoid i_mmap_mutex recursion through 7237a5bfb66SOleg Nesterov * reclaim. This is optimistic, no harm done if it fails. 7247a5bfb66SOleg Nesterov */ 7257a5bfb66SOleg Nesterov prev = kmalloc(sizeof(struct map_info), 7267a5bfb66SOleg Nesterov GFP_NOWAIT | __GFP_NOMEMALLOC | __GFP_NOWARN); 7277a5bfb66SOleg Nesterov if (prev) 7287a5bfb66SOleg Nesterov prev->next = NULL; 7297a5bfb66SOleg Nesterov } 73026872090SOleg Nesterov if (!prev) { 73126872090SOleg Nesterov more++; 73226872090SOleg Nesterov continue; 733a5f4374aSIngo Molnar } 734a5f4374aSIngo Molnar 73526872090SOleg Nesterov if (!atomic_inc_not_zero(&vma->vm_mm->mm_users)) 73626872090SOleg Nesterov continue; 737a5f4374aSIngo Molnar 73826872090SOleg Nesterov info = prev; 73926872090SOleg Nesterov prev = prev->next; 74026872090SOleg Nesterov info->next = curr; 74126872090SOleg Nesterov curr = info; 74226872090SOleg Nesterov 74326872090SOleg Nesterov info->mm = vma->vm_mm; 74457683f72SOleg Nesterov info->vaddr = offset_to_vaddr(vma, offset); 745a5f4374aSIngo Molnar } 746a5f4374aSIngo Molnar mutex_unlock(&mapping->i_mmap_mutex); 747a5f4374aSIngo Molnar 74826872090SOleg Nesterov if (!more) 74926872090SOleg Nesterov goto out; 750a5f4374aSIngo Molnar 75126872090SOleg Nesterov prev = curr; 75226872090SOleg Nesterov while (curr) { 75326872090SOleg Nesterov mmput(curr->mm); 75426872090SOleg Nesterov curr = curr->next; 75526872090SOleg Nesterov } 75626872090SOleg Nesterov 75726872090SOleg Nesterov do { 75826872090SOleg Nesterov info = kmalloc(sizeof(struct map_info), GFP_KERNEL); 75926872090SOleg Nesterov if (!info) { 76026872090SOleg Nesterov curr = ERR_PTR(-ENOMEM); 76126872090SOleg Nesterov goto out; 76226872090SOleg Nesterov } 76326872090SOleg Nesterov info->next = prev; 76426872090SOleg Nesterov prev = info; 76526872090SOleg Nesterov } while (--more); 76626872090SOleg Nesterov 76726872090SOleg Nesterov goto again; 76826872090SOleg Nesterov out: 76926872090SOleg Nesterov while (prev) 77026872090SOleg Nesterov prev = free_map_info(prev); 77126872090SOleg Nesterov return curr; 772a5f4374aSIngo Molnar } 773a5f4374aSIngo Molnar 774a5f4374aSIngo Molnar static int register_for_each_vma(struct uprobe *uprobe, bool is_register) 775a5f4374aSIngo Molnar { 77626872090SOleg Nesterov struct map_info *info; 77726872090SOleg Nesterov int err = 0; 77826872090SOleg Nesterov 77932cdba1eSOleg Nesterov percpu_down_write(&dup_mmap_sem); 78026872090SOleg Nesterov info = build_map_info(uprobe->inode->i_mapping, 78126872090SOleg Nesterov uprobe->offset, is_register); 78232cdba1eSOleg Nesterov if (IS_ERR(info)) { 78332cdba1eSOleg Nesterov err = PTR_ERR(info); 78432cdba1eSOleg Nesterov goto out; 78532cdba1eSOleg Nesterov } 78626872090SOleg Nesterov 78726872090SOleg Nesterov while (info) { 78826872090SOleg Nesterov struct mm_struct *mm = info->mm; 789a5f4374aSIngo Molnar struct vm_area_struct *vma; 790a5f4374aSIngo Molnar 791076a365bSOleg Nesterov if (err && is_register) 79226872090SOleg Nesterov goto free; 793a5f4374aSIngo Molnar 79477fc4af1SOleg Nesterov down_write(&mm->mmap_sem); 795f4d6dfe5SOleg Nesterov vma = find_vma(mm, info->vaddr); 796f4d6dfe5SOleg Nesterov if (!vma || !valid_vma(vma, is_register) || 797f4d6dfe5SOleg Nesterov vma->vm_file->f_mapping->host != uprobe->inode) 79826872090SOleg Nesterov goto unlock; 79926872090SOleg Nesterov 800f4d6dfe5SOleg Nesterov if (vma->vm_start > info->vaddr || 801f4d6dfe5SOleg Nesterov vaddr_to_offset(vma, info->vaddr) != uprobe->offset) 80226872090SOleg Nesterov goto unlock; 803a5f4374aSIngo Molnar 80478f74116SOleg Nesterov if (is_register) 80526872090SOleg Nesterov err = install_breakpoint(uprobe, mm, vma, info->vaddr); 80678f74116SOleg Nesterov else 807076a365bSOleg Nesterov err |= remove_breakpoint(uprobe, mm, info->vaddr); 80878f74116SOleg Nesterov 80926872090SOleg Nesterov unlock: 81026872090SOleg Nesterov up_write(&mm->mmap_sem); 81126872090SOleg Nesterov free: 81226872090SOleg Nesterov mmput(mm); 81326872090SOleg Nesterov info = free_map_info(info); 814a5f4374aSIngo Molnar } 81532cdba1eSOleg Nesterov out: 81632cdba1eSOleg Nesterov percpu_up_write(&dup_mmap_sem); 81726872090SOleg Nesterov return err; 818a5f4374aSIngo Molnar } 819a5f4374aSIngo Molnar 8209a98e03cSOleg Nesterov static int __uprobe_register(struct uprobe *uprobe, struct uprobe_consumer *uc) 821a5f4374aSIngo Molnar { 8229a98e03cSOleg Nesterov consumer_add(uprobe, uc); 823bb929284SOleg Nesterov return register_for_each_vma(uprobe, true); 824a5f4374aSIngo Molnar } 825a5f4374aSIngo Molnar 82604aab9b2SOleg Nesterov static void __uprobe_unregister(struct uprobe *uprobe, struct uprobe_consumer *uc) 827a5f4374aSIngo Molnar { 82804aab9b2SOleg Nesterov int err; 829a5f4374aSIngo Molnar 83004aab9b2SOleg Nesterov if (!consumer_del(uprobe, uc)) /* WARN? */ 83104aab9b2SOleg Nesterov return; 83204aab9b2SOleg Nesterov 83304aab9b2SOleg Nesterov err = register_for_each_vma(uprobe, false); 834a5f4374aSIngo Molnar /* TODO : cant unregister? schedule a worker thread */ 835bb929284SOleg Nesterov if (!uprobe->consumers && !err) 83604aab9b2SOleg Nesterov delete_uprobe(uprobe); 83704aab9b2SOleg Nesterov } 838a5f4374aSIngo Molnar 839a5f4374aSIngo Molnar /* 840a5f4374aSIngo Molnar * uprobe_register - register a probe 841a5f4374aSIngo Molnar * @inode: the file in which the probe has to be placed. 842a5f4374aSIngo Molnar * @offset: offset from the start of the file. 843e3343e6aSSrikar Dronamraju * @uc: information on howto handle the probe.. 844a5f4374aSIngo Molnar * 845a5f4374aSIngo Molnar * Apart from the access refcount, uprobe_register() takes a creation 846a5f4374aSIngo Molnar * refcount (thro alloc_uprobe) if and only if this @uprobe is getting 847a5f4374aSIngo Molnar * inserted into the rbtree (i.e first consumer for a @inode:@offset 848a5f4374aSIngo Molnar * tuple). Creation refcount stops uprobe_unregister from freeing the 849a5f4374aSIngo Molnar * @uprobe even before the register operation is complete. Creation 850e3343e6aSSrikar Dronamraju * refcount is released when the last @uc for the @uprobe 851a5f4374aSIngo Molnar * unregisters. 852a5f4374aSIngo Molnar * 853a5f4374aSIngo Molnar * Return errno if it cannot successully install probes 854a5f4374aSIngo Molnar * else return 0 (success) 855a5f4374aSIngo Molnar */ 856e3343e6aSSrikar Dronamraju int uprobe_register(struct inode *inode, loff_t offset, struct uprobe_consumer *uc) 857a5f4374aSIngo Molnar { 858a5f4374aSIngo Molnar struct uprobe *uprobe; 859a5f4374aSIngo Molnar int ret; 860a5f4374aSIngo Molnar 861f0744af7SOleg Nesterov /* Racy, just to catch the obvious mistakes */ 862a5f4374aSIngo Molnar if (offset > i_size_read(inode)) 863a5f4374aSIngo Molnar return -EINVAL; 864a5f4374aSIngo Molnar 8659a98e03cSOleg Nesterov ret = -ENOMEM; 866a5f4374aSIngo Molnar mutex_lock(uprobes_hash(inode)); 867a5f4374aSIngo Molnar uprobe = alloc_uprobe(inode, offset); 8689a98e03cSOleg Nesterov if (uprobe) { 869e591c8d7SOleg Nesterov down_write(&uprobe->register_rwsem); 8709a98e03cSOleg Nesterov ret = __uprobe_register(uprobe, uc); 8719a98e03cSOleg Nesterov if (ret) 87204aab9b2SOleg Nesterov __uprobe_unregister(uprobe, uc); 873e591c8d7SOleg Nesterov up_write(&uprobe->register_rwsem); 874a5f4374aSIngo Molnar } 875a5f4374aSIngo Molnar mutex_unlock(uprobes_hash(inode)); 8766d1d8dfaSSebastian Andrzej Siewior if (uprobe) 877a5f4374aSIngo Molnar put_uprobe(uprobe); 878a5f4374aSIngo Molnar 879a5f4374aSIngo Molnar return ret; 880a5f4374aSIngo Molnar } 881a5f4374aSIngo Molnar 882a5f4374aSIngo Molnar /* 883a5f4374aSIngo Molnar * uprobe_unregister - unregister a already registered probe. 884a5f4374aSIngo Molnar * @inode: the file in which the probe has to be removed. 885a5f4374aSIngo Molnar * @offset: offset from the start of the file. 886e3343e6aSSrikar Dronamraju * @uc: identify which probe if multiple probes are colocated. 887a5f4374aSIngo Molnar */ 888e3343e6aSSrikar Dronamraju void uprobe_unregister(struct inode *inode, loff_t offset, struct uprobe_consumer *uc) 889a5f4374aSIngo Molnar { 890a5f4374aSIngo Molnar struct uprobe *uprobe; 891a5f4374aSIngo Molnar 892a5f4374aSIngo Molnar uprobe = find_uprobe(inode, offset); 893a5f4374aSIngo Molnar if (!uprobe) 894a5f4374aSIngo Molnar return; 895a5f4374aSIngo Molnar 896a5f4374aSIngo Molnar mutex_lock(uprobes_hash(inode)); 897e591c8d7SOleg Nesterov down_write(&uprobe->register_rwsem); 89804aab9b2SOleg Nesterov __uprobe_unregister(uprobe, uc); 899e591c8d7SOleg Nesterov up_write(&uprobe->register_rwsem); 900a5f4374aSIngo Molnar mutex_unlock(uprobes_hash(inode)); 901a5f4374aSIngo Molnar put_uprobe(uprobe); 902a5f4374aSIngo Molnar } 903a5f4374aSIngo Molnar 904891c3970SOleg Nesterov static struct rb_node * 905891c3970SOleg Nesterov find_node_in_range(struct inode *inode, loff_t min, loff_t max) 906a5f4374aSIngo Molnar { 907a5f4374aSIngo Molnar struct rb_node *n = uprobes_tree.rb_node; 908a5f4374aSIngo Molnar 909a5f4374aSIngo Molnar while (n) { 910891c3970SOleg Nesterov struct uprobe *u = rb_entry(n, struct uprobe, rb_node); 911a5f4374aSIngo Molnar 912891c3970SOleg Nesterov if (inode < u->inode) { 913a5f4374aSIngo Molnar n = n->rb_left; 914891c3970SOleg Nesterov } else if (inode > u->inode) { 915a5f4374aSIngo Molnar n = n->rb_right; 916891c3970SOleg Nesterov } else { 917891c3970SOleg Nesterov if (max < u->offset) 918891c3970SOleg Nesterov n = n->rb_left; 919891c3970SOleg Nesterov else if (min > u->offset) 920891c3970SOleg Nesterov n = n->rb_right; 921891c3970SOleg Nesterov else 922891c3970SOleg Nesterov break; 923891c3970SOleg Nesterov } 924a5f4374aSIngo Molnar } 925a5f4374aSIngo Molnar 926891c3970SOleg Nesterov return n; 927a5f4374aSIngo Molnar } 928a5f4374aSIngo Molnar 929a5f4374aSIngo Molnar /* 930891c3970SOleg Nesterov * For a given range in vma, build a list of probes that need to be inserted. 931a5f4374aSIngo Molnar */ 932891c3970SOleg Nesterov static void build_probe_list(struct inode *inode, 933891c3970SOleg Nesterov struct vm_area_struct *vma, 934891c3970SOleg Nesterov unsigned long start, unsigned long end, 935891c3970SOleg Nesterov struct list_head *head) 936a5f4374aSIngo Molnar { 937891c3970SOleg Nesterov loff_t min, max; 938891c3970SOleg Nesterov struct rb_node *n, *t; 939891c3970SOleg Nesterov struct uprobe *u; 940891c3970SOleg Nesterov 941891c3970SOleg Nesterov INIT_LIST_HEAD(head); 942cb113b47SOleg Nesterov min = vaddr_to_offset(vma, start); 943891c3970SOleg Nesterov max = min + (end - start) - 1; 944a5f4374aSIngo Molnar 9456f47caa0SOleg Nesterov spin_lock(&uprobes_treelock); 946891c3970SOleg Nesterov n = find_node_in_range(inode, min, max); 947891c3970SOleg Nesterov if (n) { 948891c3970SOleg Nesterov for (t = n; t; t = rb_prev(t)) { 949891c3970SOleg Nesterov u = rb_entry(t, struct uprobe, rb_node); 950891c3970SOleg Nesterov if (u->inode != inode || u->offset < min) 951a5f4374aSIngo Molnar break; 952891c3970SOleg Nesterov list_add(&u->pending_list, head); 953891c3970SOleg Nesterov atomic_inc(&u->ref); 954a5f4374aSIngo Molnar } 955891c3970SOleg Nesterov for (t = n; (t = rb_next(t)); ) { 956891c3970SOleg Nesterov u = rb_entry(t, struct uprobe, rb_node); 957891c3970SOleg Nesterov if (u->inode != inode || u->offset > max) 958891c3970SOleg Nesterov break; 959891c3970SOleg Nesterov list_add(&u->pending_list, head); 960891c3970SOleg Nesterov atomic_inc(&u->ref); 961891c3970SOleg Nesterov } 962891c3970SOleg Nesterov } 9636f47caa0SOleg Nesterov spin_unlock(&uprobes_treelock); 964a5f4374aSIngo Molnar } 965a5f4374aSIngo Molnar 966a5f4374aSIngo Molnar /* 9675e5be71aSOleg Nesterov * Called from mmap_region/vma_adjust with mm->mmap_sem acquired. 968a5f4374aSIngo Molnar * 9695e5be71aSOleg Nesterov * Currently we ignore all errors and always return 0, the callers 9705e5be71aSOleg Nesterov * can't handle the failure anyway. 971a5f4374aSIngo Molnar */ 972a5f4374aSIngo Molnar int uprobe_mmap(struct vm_area_struct *vma) 973a5f4374aSIngo Molnar { 974a5f4374aSIngo Molnar struct list_head tmp_list; 975665605a2SOleg Nesterov struct uprobe *uprobe, *u; 976a5f4374aSIngo Molnar struct inode *inode; 977a5f4374aSIngo Molnar 978a5f4374aSIngo Molnar if (!atomic_read(&uprobe_events) || !valid_vma(vma, true)) 979a5f4374aSIngo Molnar return 0; 980a5f4374aSIngo Molnar 981a5f4374aSIngo Molnar inode = vma->vm_file->f_mapping->host; 982a5f4374aSIngo Molnar if (!inode) 983a5f4374aSIngo Molnar return 0; 984a5f4374aSIngo Molnar 985a5f4374aSIngo Molnar mutex_lock(uprobes_mmap_hash(inode)); 986891c3970SOleg Nesterov build_probe_list(inode, vma, vma->vm_start, vma->vm_end, &tmp_list); 987a5f4374aSIngo Molnar 988665605a2SOleg Nesterov list_for_each_entry_safe(uprobe, u, &tmp_list, pending_list) { 9895e5be71aSOleg Nesterov if (!fatal_signal_pending(current)) { 99057683f72SOleg Nesterov unsigned long vaddr = offset_to_vaddr(vma, uprobe->offset); 9915e5be71aSOleg Nesterov install_breakpoint(uprobe, vma->vm_mm, vma, vaddr); 992a5f4374aSIngo Molnar } 993a5f4374aSIngo Molnar put_uprobe(uprobe); 994a5f4374aSIngo Molnar } 995a5f4374aSIngo Molnar mutex_unlock(uprobes_mmap_hash(inode)); 996a5f4374aSIngo Molnar 9975e5be71aSOleg Nesterov return 0; 998a5f4374aSIngo Molnar } 999a5f4374aSIngo Molnar 10009f68f672SOleg Nesterov static bool 10019f68f672SOleg Nesterov vma_has_uprobes(struct vm_area_struct *vma, unsigned long start, unsigned long end) 10029f68f672SOleg Nesterov { 10039f68f672SOleg Nesterov loff_t min, max; 10049f68f672SOleg Nesterov struct inode *inode; 10059f68f672SOleg Nesterov struct rb_node *n; 10069f68f672SOleg Nesterov 10079f68f672SOleg Nesterov inode = vma->vm_file->f_mapping->host; 10089f68f672SOleg Nesterov 10099f68f672SOleg Nesterov min = vaddr_to_offset(vma, start); 10109f68f672SOleg Nesterov max = min + (end - start) - 1; 10119f68f672SOleg Nesterov 10129f68f672SOleg Nesterov spin_lock(&uprobes_treelock); 10139f68f672SOleg Nesterov n = find_node_in_range(inode, min, max); 10149f68f672SOleg Nesterov spin_unlock(&uprobes_treelock); 10159f68f672SOleg Nesterov 10169f68f672SOleg Nesterov return !!n; 10179f68f672SOleg Nesterov } 10189f68f672SOleg Nesterov 1019682968e0SSrikar Dronamraju /* 1020682968e0SSrikar Dronamraju * Called in context of a munmap of a vma. 1021682968e0SSrikar Dronamraju */ 1022cbc91f71SSrikar Dronamraju void uprobe_munmap(struct vm_area_struct *vma, unsigned long start, unsigned long end) 1023682968e0SSrikar Dronamraju { 1024682968e0SSrikar Dronamraju if (!atomic_read(&uprobe_events) || !valid_vma(vma, false)) 1025682968e0SSrikar Dronamraju return; 1026682968e0SSrikar Dronamraju 10272fd611a9SOleg Nesterov if (!atomic_read(&vma->vm_mm->mm_users)) /* called by mmput() ? */ 10282fd611a9SOleg Nesterov return; 10292fd611a9SOleg Nesterov 10309f68f672SOleg Nesterov if (!test_bit(MMF_HAS_UPROBES, &vma->vm_mm->flags) || 10319f68f672SOleg Nesterov test_bit(MMF_RECALC_UPROBES, &vma->vm_mm->flags)) 1032f8ac4ec9SOleg Nesterov return; 1033f8ac4ec9SOleg Nesterov 10349f68f672SOleg Nesterov if (vma_has_uprobes(vma, start, end)) 10359f68f672SOleg Nesterov set_bit(MMF_RECALC_UPROBES, &vma->vm_mm->flags); 1036682968e0SSrikar Dronamraju } 1037682968e0SSrikar Dronamraju 1038d4b3b638SSrikar Dronamraju /* Slot allocation for XOL */ 1039d4b3b638SSrikar Dronamraju static int xol_add_vma(struct xol_area *area) 1040d4b3b638SSrikar Dronamraju { 1041d4b3b638SSrikar Dronamraju struct mm_struct *mm; 1042d4b3b638SSrikar Dronamraju int ret; 1043d4b3b638SSrikar Dronamraju 1044d4b3b638SSrikar Dronamraju area->page = alloc_page(GFP_HIGHUSER); 1045d4b3b638SSrikar Dronamraju if (!area->page) 1046d4b3b638SSrikar Dronamraju return -ENOMEM; 1047d4b3b638SSrikar Dronamraju 1048d4b3b638SSrikar Dronamraju ret = -EALREADY; 1049d4b3b638SSrikar Dronamraju mm = current->mm; 1050d4b3b638SSrikar Dronamraju 1051d4b3b638SSrikar Dronamraju down_write(&mm->mmap_sem); 1052d4b3b638SSrikar Dronamraju if (mm->uprobes_state.xol_area) 1053d4b3b638SSrikar Dronamraju goto fail; 1054d4b3b638SSrikar Dronamraju 1055d4b3b638SSrikar Dronamraju ret = -ENOMEM; 1056d4b3b638SSrikar Dronamraju 1057d4b3b638SSrikar Dronamraju /* Try to map as high as possible, this is only a hint. */ 1058d4b3b638SSrikar Dronamraju area->vaddr = get_unmapped_area(NULL, TASK_SIZE - PAGE_SIZE, PAGE_SIZE, 0, 0); 1059d4b3b638SSrikar Dronamraju if (area->vaddr & ~PAGE_MASK) { 1060d4b3b638SSrikar Dronamraju ret = area->vaddr; 1061d4b3b638SSrikar Dronamraju goto fail; 1062d4b3b638SSrikar Dronamraju } 1063d4b3b638SSrikar Dronamraju 1064d4b3b638SSrikar Dronamraju ret = install_special_mapping(mm, area->vaddr, PAGE_SIZE, 1065d4b3b638SSrikar Dronamraju VM_EXEC|VM_MAYEXEC|VM_DONTCOPY|VM_IO, &area->page); 1066d4b3b638SSrikar Dronamraju if (ret) 1067d4b3b638SSrikar Dronamraju goto fail; 1068d4b3b638SSrikar Dronamraju 1069d4b3b638SSrikar Dronamraju smp_wmb(); /* pairs with get_xol_area() */ 1070d4b3b638SSrikar Dronamraju mm->uprobes_state.xol_area = area; 1071d4b3b638SSrikar Dronamraju ret = 0; 1072d4b3b638SSrikar Dronamraju 1073d4b3b638SSrikar Dronamraju fail: 1074d4b3b638SSrikar Dronamraju up_write(&mm->mmap_sem); 1075d4b3b638SSrikar Dronamraju if (ret) 1076d4b3b638SSrikar Dronamraju __free_page(area->page); 1077d4b3b638SSrikar Dronamraju 1078d4b3b638SSrikar Dronamraju return ret; 1079d4b3b638SSrikar Dronamraju } 1080d4b3b638SSrikar Dronamraju 1081d4b3b638SSrikar Dronamraju static struct xol_area *get_xol_area(struct mm_struct *mm) 1082d4b3b638SSrikar Dronamraju { 1083d4b3b638SSrikar Dronamraju struct xol_area *area; 1084d4b3b638SSrikar Dronamraju 1085d4b3b638SSrikar Dronamraju area = mm->uprobes_state.xol_area; 1086d4b3b638SSrikar Dronamraju smp_read_barrier_depends(); /* pairs with wmb in xol_add_vma() */ 1087d4b3b638SSrikar Dronamraju 1088d4b3b638SSrikar Dronamraju return area; 1089d4b3b638SSrikar Dronamraju } 1090d4b3b638SSrikar Dronamraju 1091d4b3b638SSrikar Dronamraju /* 1092d4b3b638SSrikar Dronamraju * xol_alloc_area - Allocate process's xol_area. 1093d4b3b638SSrikar Dronamraju * This area will be used for storing instructions for execution out of 1094d4b3b638SSrikar Dronamraju * line. 1095d4b3b638SSrikar Dronamraju * 1096d4b3b638SSrikar Dronamraju * Returns the allocated area or NULL. 1097d4b3b638SSrikar Dronamraju */ 1098d4b3b638SSrikar Dronamraju static struct xol_area *xol_alloc_area(void) 1099d4b3b638SSrikar Dronamraju { 1100d4b3b638SSrikar Dronamraju struct xol_area *area; 1101d4b3b638SSrikar Dronamraju 1102d4b3b638SSrikar Dronamraju area = kzalloc(sizeof(*area), GFP_KERNEL); 1103d4b3b638SSrikar Dronamraju if (unlikely(!area)) 1104d4b3b638SSrikar Dronamraju return NULL; 1105d4b3b638SSrikar Dronamraju 1106d4b3b638SSrikar Dronamraju area->bitmap = kzalloc(BITS_TO_LONGS(UINSNS_PER_PAGE) * sizeof(long), GFP_KERNEL); 1107d4b3b638SSrikar Dronamraju 1108d4b3b638SSrikar Dronamraju if (!area->bitmap) 1109d4b3b638SSrikar Dronamraju goto fail; 1110d4b3b638SSrikar Dronamraju 1111d4b3b638SSrikar Dronamraju init_waitqueue_head(&area->wq); 1112d4b3b638SSrikar Dronamraju if (!xol_add_vma(area)) 1113d4b3b638SSrikar Dronamraju return area; 1114d4b3b638SSrikar Dronamraju 1115d4b3b638SSrikar Dronamraju fail: 1116d4b3b638SSrikar Dronamraju kfree(area->bitmap); 1117d4b3b638SSrikar Dronamraju kfree(area); 1118d4b3b638SSrikar Dronamraju 1119d4b3b638SSrikar Dronamraju return get_xol_area(current->mm); 1120d4b3b638SSrikar Dronamraju } 1121d4b3b638SSrikar Dronamraju 1122d4b3b638SSrikar Dronamraju /* 1123d4b3b638SSrikar Dronamraju * uprobe_clear_state - Free the area allocated for slots. 1124d4b3b638SSrikar Dronamraju */ 1125d4b3b638SSrikar Dronamraju void uprobe_clear_state(struct mm_struct *mm) 1126d4b3b638SSrikar Dronamraju { 1127d4b3b638SSrikar Dronamraju struct xol_area *area = mm->uprobes_state.xol_area; 1128d4b3b638SSrikar Dronamraju 1129d4b3b638SSrikar Dronamraju if (!area) 1130d4b3b638SSrikar Dronamraju return; 1131d4b3b638SSrikar Dronamraju 1132d4b3b638SSrikar Dronamraju put_page(area->page); 1133d4b3b638SSrikar Dronamraju kfree(area->bitmap); 1134d4b3b638SSrikar Dronamraju kfree(area); 1135d4b3b638SSrikar Dronamraju } 1136d4b3b638SSrikar Dronamraju 113732cdba1eSOleg Nesterov void uprobe_start_dup_mmap(void) 113832cdba1eSOleg Nesterov { 113932cdba1eSOleg Nesterov percpu_down_read(&dup_mmap_sem); 114032cdba1eSOleg Nesterov } 114132cdba1eSOleg Nesterov 114232cdba1eSOleg Nesterov void uprobe_end_dup_mmap(void) 114332cdba1eSOleg Nesterov { 114432cdba1eSOleg Nesterov percpu_up_read(&dup_mmap_sem); 114532cdba1eSOleg Nesterov } 114632cdba1eSOleg Nesterov 1147f8ac4ec9SOleg Nesterov void uprobe_dup_mmap(struct mm_struct *oldmm, struct mm_struct *newmm) 1148f8ac4ec9SOleg Nesterov { 114961559a81SOleg Nesterov newmm->uprobes_state.xol_area = NULL; 115061559a81SOleg Nesterov 11519f68f672SOleg Nesterov if (test_bit(MMF_HAS_UPROBES, &oldmm->flags)) { 1152f8ac4ec9SOleg Nesterov set_bit(MMF_HAS_UPROBES, &newmm->flags); 11539f68f672SOleg Nesterov /* unconditionally, dup_mmap() skips VM_DONTCOPY vmas */ 11549f68f672SOleg Nesterov set_bit(MMF_RECALC_UPROBES, &newmm->flags); 11559f68f672SOleg Nesterov } 1156f8ac4ec9SOleg Nesterov } 1157f8ac4ec9SOleg Nesterov 1158d4b3b638SSrikar Dronamraju /* 1159d4b3b638SSrikar Dronamraju * - search for a free slot. 1160d4b3b638SSrikar Dronamraju */ 1161d4b3b638SSrikar Dronamraju static unsigned long xol_take_insn_slot(struct xol_area *area) 1162d4b3b638SSrikar Dronamraju { 1163d4b3b638SSrikar Dronamraju unsigned long slot_addr; 1164d4b3b638SSrikar Dronamraju int slot_nr; 1165d4b3b638SSrikar Dronamraju 1166d4b3b638SSrikar Dronamraju do { 1167d4b3b638SSrikar Dronamraju slot_nr = find_first_zero_bit(area->bitmap, UINSNS_PER_PAGE); 1168d4b3b638SSrikar Dronamraju if (slot_nr < UINSNS_PER_PAGE) { 1169d4b3b638SSrikar Dronamraju if (!test_and_set_bit(slot_nr, area->bitmap)) 1170d4b3b638SSrikar Dronamraju break; 1171d4b3b638SSrikar Dronamraju 1172d4b3b638SSrikar Dronamraju slot_nr = UINSNS_PER_PAGE; 1173d4b3b638SSrikar Dronamraju continue; 1174d4b3b638SSrikar Dronamraju } 1175d4b3b638SSrikar Dronamraju wait_event(area->wq, (atomic_read(&area->slot_count) < UINSNS_PER_PAGE)); 1176d4b3b638SSrikar Dronamraju } while (slot_nr >= UINSNS_PER_PAGE); 1177d4b3b638SSrikar Dronamraju 1178d4b3b638SSrikar Dronamraju slot_addr = area->vaddr + (slot_nr * UPROBE_XOL_SLOT_BYTES); 1179d4b3b638SSrikar Dronamraju atomic_inc(&area->slot_count); 1180d4b3b638SSrikar Dronamraju 1181d4b3b638SSrikar Dronamraju return slot_addr; 1182d4b3b638SSrikar Dronamraju } 1183d4b3b638SSrikar Dronamraju 1184d4b3b638SSrikar Dronamraju /* 1185d4b3b638SSrikar Dronamraju * xol_get_insn_slot - If was not allocated a slot, then 1186d4b3b638SSrikar Dronamraju * allocate a slot. 1187d4b3b638SSrikar Dronamraju * Returns the allocated slot address or 0. 1188d4b3b638SSrikar Dronamraju */ 1189d4b3b638SSrikar Dronamraju static unsigned long xol_get_insn_slot(struct uprobe *uprobe, unsigned long slot_addr) 1190d4b3b638SSrikar Dronamraju { 1191d4b3b638SSrikar Dronamraju struct xol_area *area; 1192d4b3b638SSrikar Dronamraju unsigned long offset; 1193d4b3b638SSrikar Dronamraju void *vaddr; 1194d4b3b638SSrikar Dronamraju 1195d4b3b638SSrikar Dronamraju area = get_xol_area(current->mm); 1196d4b3b638SSrikar Dronamraju if (!area) { 1197d4b3b638SSrikar Dronamraju area = xol_alloc_area(); 1198d4b3b638SSrikar Dronamraju if (!area) 1199d4b3b638SSrikar Dronamraju return 0; 1200d4b3b638SSrikar Dronamraju } 1201d4b3b638SSrikar Dronamraju current->utask->xol_vaddr = xol_take_insn_slot(area); 1202d4b3b638SSrikar Dronamraju 1203d4b3b638SSrikar Dronamraju /* 1204d4b3b638SSrikar Dronamraju * Initialize the slot if xol_vaddr points to valid 1205d4b3b638SSrikar Dronamraju * instruction slot. 1206d4b3b638SSrikar Dronamraju */ 1207d4b3b638SSrikar Dronamraju if (unlikely(!current->utask->xol_vaddr)) 1208d4b3b638SSrikar Dronamraju return 0; 1209d4b3b638SSrikar Dronamraju 1210d4b3b638SSrikar Dronamraju current->utask->vaddr = slot_addr; 1211d4b3b638SSrikar Dronamraju offset = current->utask->xol_vaddr & ~PAGE_MASK; 1212d4b3b638SSrikar Dronamraju vaddr = kmap_atomic(area->page); 1213d4b3b638SSrikar Dronamraju memcpy(vaddr + offset, uprobe->arch.insn, MAX_UINSN_BYTES); 1214d4b3b638SSrikar Dronamraju kunmap_atomic(vaddr); 121565b6ecc0SRabin Vincent /* 121665b6ecc0SRabin Vincent * We probably need flush_icache_user_range() but it needs vma. 121765b6ecc0SRabin Vincent * This should work on supported architectures too. 121865b6ecc0SRabin Vincent */ 121965b6ecc0SRabin Vincent flush_dcache_page(area->page); 1220d4b3b638SSrikar Dronamraju 1221d4b3b638SSrikar Dronamraju return current->utask->xol_vaddr; 1222d4b3b638SSrikar Dronamraju } 1223d4b3b638SSrikar Dronamraju 1224d4b3b638SSrikar Dronamraju /* 1225d4b3b638SSrikar Dronamraju * xol_free_insn_slot - If slot was earlier allocated by 1226d4b3b638SSrikar Dronamraju * @xol_get_insn_slot(), make the slot available for 1227d4b3b638SSrikar Dronamraju * subsequent requests. 1228d4b3b638SSrikar Dronamraju */ 1229d4b3b638SSrikar Dronamraju static void xol_free_insn_slot(struct task_struct *tsk) 1230d4b3b638SSrikar Dronamraju { 1231d4b3b638SSrikar Dronamraju struct xol_area *area; 1232d4b3b638SSrikar Dronamraju unsigned long vma_end; 1233d4b3b638SSrikar Dronamraju unsigned long slot_addr; 1234d4b3b638SSrikar Dronamraju 1235d4b3b638SSrikar Dronamraju if (!tsk->mm || !tsk->mm->uprobes_state.xol_area || !tsk->utask) 1236d4b3b638SSrikar Dronamraju return; 1237d4b3b638SSrikar Dronamraju 1238d4b3b638SSrikar Dronamraju slot_addr = tsk->utask->xol_vaddr; 1239d4b3b638SSrikar Dronamraju 1240d4b3b638SSrikar Dronamraju if (unlikely(!slot_addr || IS_ERR_VALUE(slot_addr))) 1241d4b3b638SSrikar Dronamraju return; 1242d4b3b638SSrikar Dronamraju 1243d4b3b638SSrikar Dronamraju area = tsk->mm->uprobes_state.xol_area; 1244d4b3b638SSrikar Dronamraju vma_end = area->vaddr + PAGE_SIZE; 1245d4b3b638SSrikar Dronamraju if (area->vaddr <= slot_addr && slot_addr < vma_end) { 1246d4b3b638SSrikar Dronamraju unsigned long offset; 1247d4b3b638SSrikar Dronamraju int slot_nr; 1248d4b3b638SSrikar Dronamraju 1249d4b3b638SSrikar Dronamraju offset = slot_addr - area->vaddr; 1250d4b3b638SSrikar Dronamraju slot_nr = offset / UPROBE_XOL_SLOT_BYTES; 1251d4b3b638SSrikar Dronamraju if (slot_nr >= UINSNS_PER_PAGE) 1252d4b3b638SSrikar Dronamraju return; 1253d4b3b638SSrikar Dronamraju 1254d4b3b638SSrikar Dronamraju clear_bit(slot_nr, area->bitmap); 1255d4b3b638SSrikar Dronamraju atomic_dec(&area->slot_count); 1256d4b3b638SSrikar Dronamraju if (waitqueue_active(&area->wq)) 1257d4b3b638SSrikar Dronamraju wake_up(&area->wq); 1258d4b3b638SSrikar Dronamraju 1259d4b3b638SSrikar Dronamraju tsk->utask->xol_vaddr = 0; 1260d4b3b638SSrikar Dronamraju } 1261d4b3b638SSrikar Dronamraju } 1262d4b3b638SSrikar Dronamraju 12630326f5a9SSrikar Dronamraju /** 12640326f5a9SSrikar Dronamraju * uprobe_get_swbp_addr - compute address of swbp given post-swbp regs 12650326f5a9SSrikar Dronamraju * @regs: Reflects the saved state of the task after it has hit a breakpoint 12660326f5a9SSrikar Dronamraju * instruction. 12670326f5a9SSrikar Dronamraju * Return the address of the breakpoint instruction. 12680326f5a9SSrikar Dronamraju */ 12690326f5a9SSrikar Dronamraju unsigned long __weak uprobe_get_swbp_addr(struct pt_regs *regs) 12700326f5a9SSrikar Dronamraju { 12710326f5a9SSrikar Dronamraju return instruction_pointer(regs) - UPROBE_SWBP_INSN_SIZE; 12720326f5a9SSrikar Dronamraju } 12730326f5a9SSrikar Dronamraju 12740326f5a9SSrikar Dronamraju /* 12750326f5a9SSrikar Dronamraju * Called with no locks held. 12760326f5a9SSrikar Dronamraju * Called in context of a exiting or a exec-ing thread. 12770326f5a9SSrikar Dronamraju */ 12780326f5a9SSrikar Dronamraju void uprobe_free_utask(struct task_struct *t) 12790326f5a9SSrikar Dronamraju { 12800326f5a9SSrikar Dronamraju struct uprobe_task *utask = t->utask; 12810326f5a9SSrikar Dronamraju 12820326f5a9SSrikar Dronamraju if (!utask) 12830326f5a9SSrikar Dronamraju return; 12840326f5a9SSrikar Dronamraju 12850326f5a9SSrikar Dronamraju if (utask->active_uprobe) 12860326f5a9SSrikar Dronamraju put_uprobe(utask->active_uprobe); 12870326f5a9SSrikar Dronamraju 1288d4b3b638SSrikar Dronamraju xol_free_insn_slot(t); 12890326f5a9SSrikar Dronamraju kfree(utask); 12900326f5a9SSrikar Dronamraju t->utask = NULL; 12910326f5a9SSrikar Dronamraju } 12920326f5a9SSrikar Dronamraju 12930326f5a9SSrikar Dronamraju /* 12940326f5a9SSrikar Dronamraju * Called in context of a new clone/fork from copy_process. 12950326f5a9SSrikar Dronamraju */ 12960326f5a9SSrikar Dronamraju void uprobe_copy_process(struct task_struct *t) 12970326f5a9SSrikar Dronamraju { 12980326f5a9SSrikar Dronamraju t->utask = NULL; 12990326f5a9SSrikar Dronamraju } 13000326f5a9SSrikar Dronamraju 13010326f5a9SSrikar Dronamraju /* 13020326f5a9SSrikar Dronamraju * Allocate a uprobe_task object for the task. 13030326f5a9SSrikar Dronamraju * Called when the thread hits a breakpoint for the first time. 13040326f5a9SSrikar Dronamraju * 13050326f5a9SSrikar Dronamraju * Returns: 13060326f5a9SSrikar Dronamraju * - pointer to new uprobe_task on success 13070326f5a9SSrikar Dronamraju * - NULL otherwise 13080326f5a9SSrikar Dronamraju */ 13090326f5a9SSrikar Dronamraju static struct uprobe_task *add_utask(void) 13100326f5a9SSrikar Dronamraju { 13110326f5a9SSrikar Dronamraju struct uprobe_task *utask; 13120326f5a9SSrikar Dronamraju 13130326f5a9SSrikar Dronamraju utask = kzalloc(sizeof *utask, GFP_KERNEL); 13140326f5a9SSrikar Dronamraju if (unlikely(!utask)) 13150326f5a9SSrikar Dronamraju return NULL; 13160326f5a9SSrikar Dronamraju 13170326f5a9SSrikar Dronamraju current->utask = utask; 13180326f5a9SSrikar Dronamraju return utask; 13190326f5a9SSrikar Dronamraju } 13200326f5a9SSrikar Dronamraju 13210326f5a9SSrikar Dronamraju /* Prepare to single-step probed instruction out of line. */ 13220326f5a9SSrikar Dronamraju static int 13230326f5a9SSrikar Dronamraju pre_ssout(struct uprobe *uprobe, struct pt_regs *regs, unsigned long vaddr) 13240326f5a9SSrikar Dronamraju { 1325d4b3b638SSrikar Dronamraju if (xol_get_insn_slot(uprobe, vaddr) && !arch_uprobe_pre_xol(&uprobe->arch, regs)) 1326d4b3b638SSrikar Dronamraju return 0; 1327d4b3b638SSrikar Dronamraju 13280326f5a9SSrikar Dronamraju return -EFAULT; 13290326f5a9SSrikar Dronamraju } 13300326f5a9SSrikar Dronamraju 13310326f5a9SSrikar Dronamraju /* 13320326f5a9SSrikar Dronamraju * If we are singlestepping, then ensure this thread is not connected to 13330326f5a9SSrikar Dronamraju * non-fatal signals until completion of singlestep. When xol insn itself 13340326f5a9SSrikar Dronamraju * triggers the signal, restart the original insn even if the task is 13350326f5a9SSrikar Dronamraju * already SIGKILL'ed (since coredump should report the correct ip). This 13360326f5a9SSrikar Dronamraju * is even more important if the task has a handler for SIGSEGV/etc, The 13370326f5a9SSrikar Dronamraju * _same_ instruction should be repeated again after return from the signal 13380326f5a9SSrikar Dronamraju * handler, and SSTEP can never finish in this case. 13390326f5a9SSrikar Dronamraju */ 13400326f5a9SSrikar Dronamraju bool uprobe_deny_signal(void) 13410326f5a9SSrikar Dronamraju { 13420326f5a9SSrikar Dronamraju struct task_struct *t = current; 13430326f5a9SSrikar Dronamraju struct uprobe_task *utask = t->utask; 13440326f5a9SSrikar Dronamraju 13450326f5a9SSrikar Dronamraju if (likely(!utask || !utask->active_uprobe)) 13460326f5a9SSrikar Dronamraju return false; 13470326f5a9SSrikar Dronamraju 13480326f5a9SSrikar Dronamraju WARN_ON_ONCE(utask->state != UTASK_SSTEP); 13490326f5a9SSrikar Dronamraju 13500326f5a9SSrikar Dronamraju if (signal_pending(t)) { 13510326f5a9SSrikar Dronamraju spin_lock_irq(&t->sighand->siglock); 13520326f5a9SSrikar Dronamraju clear_tsk_thread_flag(t, TIF_SIGPENDING); 13530326f5a9SSrikar Dronamraju spin_unlock_irq(&t->sighand->siglock); 13540326f5a9SSrikar Dronamraju 13550326f5a9SSrikar Dronamraju if (__fatal_signal_pending(t) || arch_uprobe_xol_was_trapped(t)) { 13560326f5a9SSrikar Dronamraju utask->state = UTASK_SSTEP_TRAPPED; 13570326f5a9SSrikar Dronamraju set_tsk_thread_flag(t, TIF_UPROBE); 13580326f5a9SSrikar Dronamraju set_tsk_thread_flag(t, TIF_NOTIFY_RESUME); 13590326f5a9SSrikar Dronamraju } 13600326f5a9SSrikar Dronamraju } 13610326f5a9SSrikar Dronamraju 13620326f5a9SSrikar Dronamraju return true; 13630326f5a9SSrikar Dronamraju } 13640326f5a9SSrikar Dronamraju 13650326f5a9SSrikar Dronamraju /* 13660326f5a9SSrikar Dronamraju * Avoid singlestepping the original instruction if the original instruction 13670326f5a9SSrikar Dronamraju * is a NOP or can be emulated. 13680326f5a9SSrikar Dronamraju */ 13690326f5a9SSrikar Dronamraju static bool can_skip_sstep(struct uprobe *uprobe, struct pt_regs *regs) 13700326f5a9SSrikar Dronamraju { 137171434f2fSOleg Nesterov if (test_bit(UPROBE_SKIP_SSTEP, &uprobe->flags)) { 13720326f5a9SSrikar Dronamraju if (arch_uprobe_skip_sstep(&uprobe->arch, regs)) 13730326f5a9SSrikar Dronamraju return true; 137471434f2fSOleg Nesterov clear_bit(UPROBE_SKIP_SSTEP, &uprobe->flags); 13750578a970SOleg Nesterov } 13760326f5a9SSrikar Dronamraju return false; 13770326f5a9SSrikar Dronamraju } 13780326f5a9SSrikar Dronamraju 1379499a4f3eSOleg Nesterov static void mmf_recalc_uprobes(struct mm_struct *mm) 1380499a4f3eSOleg Nesterov { 1381499a4f3eSOleg Nesterov struct vm_area_struct *vma; 1382499a4f3eSOleg Nesterov 1383499a4f3eSOleg Nesterov for (vma = mm->mmap; vma; vma = vma->vm_next) { 1384499a4f3eSOleg Nesterov if (!valid_vma(vma, false)) 1385499a4f3eSOleg Nesterov continue; 1386499a4f3eSOleg Nesterov /* 1387499a4f3eSOleg Nesterov * This is not strictly accurate, we can race with 1388499a4f3eSOleg Nesterov * uprobe_unregister() and see the already removed 1389499a4f3eSOleg Nesterov * uprobe if delete_uprobe() was not yet called. 139063633cbfSOleg Nesterov * Or this uprobe can be filtered out. 1391499a4f3eSOleg Nesterov */ 1392499a4f3eSOleg Nesterov if (vma_has_uprobes(vma, vma->vm_start, vma->vm_end)) 1393499a4f3eSOleg Nesterov return; 1394499a4f3eSOleg Nesterov } 1395499a4f3eSOleg Nesterov 1396499a4f3eSOleg Nesterov clear_bit(MMF_HAS_UPROBES, &mm->flags); 1397499a4f3eSOleg Nesterov } 1398499a4f3eSOleg Nesterov 1399ec75fba9SOleg Nesterov static int is_swbp_at_addr(struct mm_struct *mm, unsigned long vaddr) 1400ec75fba9SOleg Nesterov { 1401ec75fba9SOleg Nesterov struct page *page; 1402ec75fba9SOleg Nesterov uprobe_opcode_t opcode; 1403ec75fba9SOleg Nesterov int result; 1404ec75fba9SOleg Nesterov 1405ec75fba9SOleg Nesterov pagefault_disable(); 1406ec75fba9SOleg Nesterov result = __copy_from_user_inatomic(&opcode, (void __user*)vaddr, 1407ec75fba9SOleg Nesterov sizeof(opcode)); 1408ec75fba9SOleg Nesterov pagefault_enable(); 1409ec75fba9SOleg Nesterov 1410ec75fba9SOleg Nesterov if (likely(result == 0)) 1411ec75fba9SOleg Nesterov goto out; 1412ec75fba9SOleg Nesterov 1413ec75fba9SOleg Nesterov result = get_user_pages(NULL, mm, vaddr, 1, 0, 1, &page, NULL); 1414ec75fba9SOleg Nesterov if (result < 0) 1415ec75fba9SOleg Nesterov return result; 1416ec75fba9SOleg Nesterov 1417ec75fba9SOleg Nesterov copy_opcode(page, vaddr, &opcode); 1418ec75fba9SOleg Nesterov put_page(page); 1419ec75fba9SOleg Nesterov out: 1420ec75fba9SOleg Nesterov return is_swbp_insn(&opcode); 1421ec75fba9SOleg Nesterov } 1422ec75fba9SOleg Nesterov 1423d790d346SOleg Nesterov static struct uprobe *find_active_uprobe(unsigned long bp_vaddr, int *is_swbp) 14240326f5a9SSrikar Dronamraju { 14253a9ea052SOleg Nesterov struct mm_struct *mm = current->mm; 14263a9ea052SOleg Nesterov struct uprobe *uprobe = NULL; 14270326f5a9SSrikar Dronamraju struct vm_area_struct *vma; 14280326f5a9SSrikar Dronamraju 14290326f5a9SSrikar Dronamraju down_read(&mm->mmap_sem); 14300326f5a9SSrikar Dronamraju vma = find_vma(mm, bp_vaddr); 14313a9ea052SOleg Nesterov if (vma && vma->vm_start <= bp_vaddr) { 14323a9ea052SOleg Nesterov if (valid_vma(vma, false)) { 1433cb113b47SOleg Nesterov struct inode *inode = vma->vm_file->f_mapping->host; 1434cb113b47SOleg Nesterov loff_t offset = vaddr_to_offset(vma, bp_vaddr); 14350326f5a9SSrikar Dronamraju 14360326f5a9SSrikar Dronamraju uprobe = find_uprobe(inode, offset); 14370326f5a9SSrikar Dronamraju } 1438d790d346SOleg Nesterov 1439d790d346SOleg Nesterov if (!uprobe) 1440d790d346SOleg Nesterov *is_swbp = is_swbp_at_addr(mm, bp_vaddr); 1441d790d346SOleg Nesterov } else { 1442d790d346SOleg Nesterov *is_swbp = -EFAULT; 14433a9ea052SOleg Nesterov } 1444499a4f3eSOleg Nesterov 1445499a4f3eSOleg Nesterov if (!uprobe && test_and_clear_bit(MMF_RECALC_UPROBES, &mm->flags)) 1446499a4f3eSOleg Nesterov mmf_recalc_uprobes(mm); 14470326f5a9SSrikar Dronamraju up_read(&mm->mmap_sem); 14480326f5a9SSrikar Dronamraju 14493a9ea052SOleg Nesterov return uprobe; 14503a9ea052SOleg Nesterov } 14513a9ea052SOleg Nesterov 14523a9ea052SOleg Nesterov /* 14533a9ea052SOleg Nesterov * Run handler and ask thread to singlestep. 14543a9ea052SOleg Nesterov * Ensure all non-fatal signals cannot interrupt thread while it singlesteps. 14553a9ea052SOleg Nesterov */ 14563a9ea052SOleg Nesterov static void handle_swbp(struct pt_regs *regs) 14573a9ea052SOleg Nesterov { 14583a9ea052SOleg Nesterov struct uprobe_task *utask; 14593a9ea052SOleg Nesterov struct uprobe *uprobe; 14603a9ea052SOleg Nesterov unsigned long bp_vaddr; 146156bb4cf6SOleg Nesterov int uninitialized_var(is_swbp); 14623a9ea052SOleg Nesterov 14633a9ea052SOleg Nesterov bp_vaddr = uprobe_get_swbp_addr(regs); 1464d790d346SOleg Nesterov uprobe = find_active_uprobe(bp_vaddr, &is_swbp); 14653a9ea052SOleg Nesterov 14660326f5a9SSrikar Dronamraju if (!uprobe) { 146756bb4cf6SOleg Nesterov if (is_swbp > 0) { 14680326f5a9SSrikar Dronamraju /* No matching uprobe; signal SIGTRAP. */ 14690326f5a9SSrikar Dronamraju send_sig(SIGTRAP, current, 0); 147056bb4cf6SOleg Nesterov } else { 147156bb4cf6SOleg Nesterov /* 147256bb4cf6SOleg Nesterov * Either we raced with uprobe_unregister() or we can't 147356bb4cf6SOleg Nesterov * access this memory. The latter is only possible if 147456bb4cf6SOleg Nesterov * another thread plays with our ->mm. In both cases 147556bb4cf6SOleg Nesterov * we can simply restart. If this vma was unmapped we 147656bb4cf6SOleg Nesterov * can pretend this insn was not executed yet and get 147756bb4cf6SOleg Nesterov * the (correct) SIGSEGV after restart. 147856bb4cf6SOleg Nesterov */ 147956bb4cf6SOleg Nesterov instruction_pointer_set(regs, bp_vaddr); 148056bb4cf6SOleg Nesterov } 14810326f5a9SSrikar Dronamraju return; 14820326f5a9SSrikar Dronamraju } 1483142b18ddSOleg Nesterov /* 1484142b18ddSOleg Nesterov * TODO: move copy_insn/etc into _register and remove this hack. 1485142b18ddSOleg Nesterov * After we hit the bp, _unregister + _register can install the 1486142b18ddSOleg Nesterov * new and not-yet-analyzed uprobe at the same address, restart. 1487142b18ddSOleg Nesterov */ 1488142b18ddSOleg Nesterov smp_rmb(); /* pairs with wmb() in install_breakpoint() */ 148971434f2fSOleg Nesterov if (unlikely(!test_bit(UPROBE_COPY_INSN, &uprobe->flags))) 1490142b18ddSOleg Nesterov goto restart; 14910326f5a9SSrikar Dronamraju 14920326f5a9SSrikar Dronamraju utask = current->utask; 14930326f5a9SSrikar Dronamraju if (!utask) { 14940326f5a9SSrikar Dronamraju utask = add_utask(); 14950326f5a9SSrikar Dronamraju /* Cannot allocate; re-execute the instruction. */ 14960326f5a9SSrikar Dronamraju if (!utask) 14970578a970SOleg Nesterov goto restart; 14980326f5a9SSrikar Dronamraju } 14990326f5a9SSrikar Dronamraju 15000326f5a9SSrikar Dronamraju handler_chain(uprobe, regs); 15010578a970SOleg Nesterov if (can_skip_sstep(uprobe, regs)) 15020578a970SOleg Nesterov goto out; 15030326f5a9SSrikar Dronamraju 15040326f5a9SSrikar Dronamraju if (!pre_ssout(uprobe, regs, bp_vaddr)) { 1505746a9e6bSOleg Nesterov utask->active_uprobe = uprobe; 1506746a9e6bSOleg Nesterov utask->state = UTASK_SSTEP; 15070326f5a9SSrikar Dronamraju return; 15080326f5a9SSrikar Dronamraju } 15090326f5a9SSrikar Dronamraju 15100578a970SOleg Nesterov restart: 15110326f5a9SSrikar Dronamraju /* 15120326f5a9SSrikar Dronamraju * cannot singlestep; cannot skip instruction; 15130326f5a9SSrikar Dronamraju * re-execute the instruction. 15140326f5a9SSrikar Dronamraju */ 15150326f5a9SSrikar Dronamraju instruction_pointer_set(regs, bp_vaddr); 15160578a970SOleg Nesterov out: 15170326f5a9SSrikar Dronamraju put_uprobe(uprobe); 15180326f5a9SSrikar Dronamraju } 15190326f5a9SSrikar Dronamraju 15200326f5a9SSrikar Dronamraju /* 15210326f5a9SSrikar Dronamraju * Perform required fix-ups and disable singlestep. 15220326f5a9SSrikar Dronamraju * Allow pending signals to take effect. 15230326f5a9SSrikar Dronamraju */ 15240326f5a9SSrikar Dronamraju static void handle_singlestep(struct uprobe_task *utask, struct pt_regs *regs) 15250326f5a9SSrikar Dronamraju { 15260326f5a9SSrikar Dronamraju struct uprobe *uprobe; 15270326f5a9SSrikar Dronamraju 15280326f5a9SSrikar Dronamraju uprobe = utask->active_uprobe; 15290326f5a9SSrikar Dronamraju if (utask->state == UTASK_SSTEP_ACK) 15300326f5a9SSrikar Dronamraju arch_uprobe_post_xol(&uprobe->arch, regs); 15310326f5a9SSrikar Dronamraju else if (utask->state == UTASK_SSTEP_TRAPPED) 15320326f5a9SSrikar Dronamraju arch_uprobe_abort_xol(&uprobe->arch, regs); 15330326f5a9SSrikar Dronamraju else 15340326f5a9SSrikar Dronamraju WARN_ON_ONCE(1); 15350326f5a9SSrikar Dronamraju 15360326f5a9SSrikar Dronamraju put_uprobe(uprobe); 15370326f5a9SSrikar Dronamraju utask->active_uprobe = NULL; 15380326f5a9SSrikar Dronamraju utask->state = UTASK_RUNNING; 1539d4b3b638SSrikar Dronamraju xol_free_insn_slot(current); 15400326f5a9SSrikar Dronamraju 15410326f5a9SSrikar Dronamraju spin_lock_irq(¤t->sighand->siglock); 15420326f5a9SSrikar Dronamraju recalc_sigpending(); /* see uprobe_deny_signal() */ 15430326f5a9SSrikar Dronamraju spin_unlock_irq(¤t->sighand->siglock); 15440326f5a9SSrikar Dronamraju } 15450326f5a9SSrikar Dronamraju 15460326f5a9SSrikar Dronamraju /* 15471b08e907SOleg Nesterov * On breakpoint hit, breakpoint notifier sets the TIF_UPROBE flag and 15481b08e907SOleg Nesterov * allows the thread to return from interrupt. After that handle_swbp() 15491b08e907SOleg Nesterov * sets utask->active_uprobe. 15500326f5a9SSrikar Dronamraju * 15511b08e907SOleg Nesterov * On singlestep exception, singlestep notifier sets the TIF_UPROBE flag 15521b08e907SOleg Nesterov * and allows the thread to return from interrupt. 15530326f5a9SSrikar Dronamraju * 15540326f5a9SSrikar Dronamraju * While returning to userspace, thread notices the TIF_UPROBE flag and calls 15550326f5a9SSrikar Dronamraju * uprobe_notify_resume(). 15560326f5a9SSrikar Dronamraju */ 15570326f5a9SSrikar Dronamraju void uprobe_notify_resume(struct pt_regs *regs) 15580326f5a9SSrikar Dronamraju { 15590326f5a9SSrikar Dronamraju struct uprobe_task *utask; 15600326f5a9SSrikar Dronamraju 1561db023ea5SOleg Nesterov clear_thread_flag(TIF_UPROBE); 1562db023ea5SOleg Nesterov 15630326f5a9SSrikar Dronamraju utask = current->utask; 15641b08e907SOleg Nesterov if (utask && utask->active_uprobe) 15650326f5a9SSrikar Dronamraju handle_singlestep(utask, regs); 15661b08e907SOleg Nesterov else 15671b08e907SOleg Nesterov handle_swbp(regs); 15680326f5a9SSrikar Dronamraju } 15690326f5a9SSrikar Dronamraju 15700326f5a9SSrikar Dronamraju /* 15710326f5a9SSrikar Dronamraju * uprobe_pre_sstep_notifier gets called from interrupt context as part of 15720326f5a9SSrikar Dronamraju * notifier mechanism. Set TIF_UPROBE flag and indicate breakpoint hit. 15730326f5a9SSrikar Dronamraju */ 15740326f5a9SSrikar Dronamraju int uprobe_pre_sstep_notifier(struct pt_regs *regs) 15750326f5a9SSrikar Dronamraju { 1576f8ac4ec9SOleg Nesterov if (!current->mm || !test_bit(MMF_HAS_UPROBES, ¤t->mm->flags)) 15770326f5a9SSrikar Dronamraju return 0; 15780326f5a9SSrikar Dronamraju 15790326f5a9SSrikar Dronamraju set_thread_flag(TIF_UPROBE); 15800326f5a9SSrikar Dronamraju return 1; 15810326f5a9SSrikar Dronamraju } 15820326f5a9SSrikar Dronamraju 15830326f5a9SSrikar Dronamraju /* 15840326f5a9SSrikar Dronamraju * uprobe_post_sstep_notifier gets called in interrupt context as part of notifier 15850326f5a9SSrikar Dronamraju * mechanism. Set TIF_UPROBE flag and indicate completion of singlestep. 15860326f5a9SSrikar Dronamraju */ 15870326f5a9SSrikar Dronamraju int uprobe_post_sstep_notifier(struct pt_regs *regs) 15880326f5a9SSrikar Dronamraju { 15890326f5a9SSrikar Dronamraju struct uprobe_task *utask = current->utask; 15900326f5a9SSrikar Dronamraju 15910326f5a9SSrikar Dronamraju if (!current->mm || !utask || !utask->active_uprobe) 15920326f5a9SSrikar Dronamraju /* task is currently not uprobed */ 15930326f5a9SSrikar Dronamraju return 0; 15940326f5a9SSrikar Dronamraju 15950326f5a9SSrikar Dronamraju utask->state = UTASK_SSTEP_ACK; 15960326f5a9SSrikar Dronamraju set_thread_flag(TIF_UPROBE); 15970326f5a9SSrikar Dronamraju return 1; 15980326f5a9SSrikar Dronamraju } 15990326f5a9SSrikar Dronamraju 16000326f5a9SSrikar Dronamraju static struct notifier_block uprobe_exception_nb = { 16010326f5a9SSrikar Dronamraju .notifier_call = arch_uprobe_exception_notify, 16020326f5a9SSrikar Dronamraju .priority = INT_MAX-1, /* notified after kprobes, kgdb */ 16030326f5a9SSrikar Dronamraju }; 16040326f5a9SSrikar Dronamraju 1605a5f4374aSIngo Molnar static int __init init_uprobes(void) 1606a5f4374aSIngo Molnar { 1607a5f4374aSIngo Molnar int i; 1608a5f4374aSIngo Molnar 1609a5f4374aSIngo Molnar for (i = 0; i < UPROBES_HASH_SZ; i++) { 1610a5f4374aSIngo Molnar mutex_init(&uprobes_mutex[i]); 1611a5f4374aSIngo Molnar mutex_init(&uprobes_mmap_mutex[i]); 1612a5f4374aSIngo Molnar } 16130326f5a9SSrikar Dronamraju 161432cdba1eSOleg Nesterov if (percpu_init_rwsem(&dup_mmap_sem)) 161532cdba1eSOleg Nesterov return -ENOMEM; 161632cdba1eSOleg Nesterov 16170326f5a9SSrikar Dronamraju return register_die_notifier(&uprobe_exception_nb); 1618a5f4374aSIngo Molnar } 16190326f5a9SSrikar Dronamraju module_init(init_uprobes); 1620a5f4374aSIngo Molnar 1621a5f4374aSIngo Molnar static void __exit exit_uprobes(void) 1622a5f4374aSIngo Molnar { 1623a5f4374aSIngo Molnar } 1624a5f4374aSIngo Molnar module_exit(exit_uprobes); 1625