/* * This file is part of ltrace. * Copyright (C) 2006,2007,2011,2012,2013,2014 Petr Machata, Red Hat Inc. * Copyright (C) 2009 Juan Cespedes * Copyright (C) 1998,2001,2002,2003,2007,2008,2009 Juan Cespedes * Copyright (C) 2006 Ian Wienand * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA */ #include "config.h" #include #include #include #include #include #ifdef __powerpc__ #include #endif #include "backend.h" #include "breakpoint.h" #include "debug.h" #include "library.h" #include "ltrace-elf.h" #include "proc.h" #ifndef ARCH_HAVE_TRANSLATE_ADDRESS int arch_translate_address_dyn(struct process *proc, arch_addr_t addr, arch_addr_t *ret) { *ret = addr; return 0; } struct ltelf; int arch_translate_address(struct ltelf *lte, arch_addr_t addr, arch_addr_t *ret) { *ret = addr; return 0; } #endif void breakpoint_on_hit(struct breakpoint *bp, struct process *proc) { assert(bp != NULL); if (bp->cbs != NULL && bp->cbs->on_hit != NULL) (bp->cbs->on_hit)(bp, proc); } void breakpoint_on_continue(struct breakpoint *bp, struct process *proc) { assert(bp != NULL); if (bp->cbs != NULL && bp->cbs->on_continue != NULL) (bp->cbs->on_continue)(bp, proc); else continue_after_breakpoint(proc, bp); } void breakpoint_on_retract(struct breakpoint *bp, struct process *proc) { assert(bp != NULL); if (bp->cbs != NULL && bp->cbs->on_retract != NULL) (bp->cbs->on_retract)(bp, proc); } void breakpoint_on_install(struct breakpoint *bp, struct process *proc) { assert(bp != NULL); if (bp->cbs != NULL && bp->cbs->on_install != NULL) (bp->cbs->on_install)(bp, proc); } int breakpoint_get_return_bp(struct breakpoint **ret, struct breakpoint *bp, struct process *proc) { assert(bp != NULL); if (bp->cbs != NULL && bp->cbs->get_return_bp != NULL) return (bp->cbs->get_return_bp)(ret, bp, proc); if ((*ret = create_default_return_bp(proc)) == NULL) return -1; return 0; } /*****************************************************************************/ struct breakpoint * address2bpstruct(struct process *proc, arch_addr_t addr) { assert(proc != NULL); assert(proc->breakpoints != NULL); assert(proc->leader == proc); debug(DEBUG_FUNCTION, "address2bpstruct(pid=%d, addr=%p)", proc->pid, addr); struct breakpoint *found; if (DICT_FIND_VAL(proc->breakpoints, &addr, &found) < 0) return NULL; return found; } #ifndef OS_HAVE_BREAKPOINT_DATA int os_breakpoint_init(struct process *proc, struct breakpoint *sbp) { return 0; } void os_breakpoint_destroy(struct breakpoint *sbp) { } int os_breakpoint_clone(struct breakpoint *retp, struct breakpoint *sbp) { return 0; } #endif #ifndef ARCH_HAVE_BREAKPOINT_DATA int arch_breakpoint_init(struct process *proc, struct breakpoint *sbp) { return 0; } void arch_breakpoint_destroy(struct breakpoint *sbp) { } int arch_breakpoint_clone(struct breakpoint *retp, struct breakpoint *sbp) { return 0; } #endif static void breakpoint_init_base(struct breakpoint *bp, arch_addr_t addr, struct library_symbol *libsym) { bp->cbs = NULL; bp->addr = addr; memset(bp->orig_value, 0, sizeof(bp->orig_value)); bp->enabled = 0; bp->libsym = libsym; } /* On second thought, I don't think we need PROC. All the translation * (arch_translate_address in particular) should be doable using * static lookups of various sections in the ELF file. We shouldn't * need process for anything. */ int breakpoint_init(struct breakpoint *bp, struct process *proc, arch_addr_t addr, struct library_symbol *libsym) { breakpoint_init_base(bp, addr, libsym); if (os_breakpoint_init(proc, bp) < 0) return -1; if (arch_breakpoint_init(proc, bp) < 0) { os_breakpoint_destroy(bp); return -1; } return 0; } void breakpoint_set_callbacks(struct breakpoint *bp, struct bp_callbacks *cbs) { if (bp->cbs != NULL) assert(bp->cbs == NULL); bp->cbs = cbs; } void breakpoint_destroy(struct breakpoint *bp) { if (bp == NULL) return; arch_breakpoint_destroy(bp); os_breakpoint_destroy(bp); } int breakpoint_clone(struct breakpoint *retp, struct process *new_proc, struct breakpoint *bp) { struct library_symbol *libsym = NULL; if (bp->libsym != NULL) { int rc = proc_find_symbol(new_proc, bp->libsym, NULL, &libsym); assert(rc == 0); } breakpoint_init_base(retp, bp->addr, libsym); memcpy(retp->orig_value, bp->orig_value, sizeof(bp->orig_value)); retp->enabled = bp->enabled; if (os_breakpoint_clone(retp, bp) < 0) return -1; if (arch_breakpoint_clone(retp, bp) < 0) { os_breakpoint_destroy(retp); return -1; } breakpoint_set_callbacks(retp, bp->cbs); return 0; } int breakpoint_turn_on(struct breakpoint *bp, struct process *proc) { bp->enabled++; if (bp->enabled == 1) { assert(proc->pid != 0); enable_breakpoint(proc, bp); breakpoint_on_install(bp, proc); } return 0; } int breakpoint_turn_off(struct breakpoint *bp, struct process *proc) { bp->enabled--; if (bp->enabled == 0) disable_breakpoint(proc, bp); assert(bp->enabled >= 0); return 0; } struct breakpoint * create_default_return_bp(struct process *proc) { struct breakpoint *bp = malloc(sizeof *bp); arch_addr_t return_addr = get_return_addr(proc, proc->stack_pointer); if (return_addr == 0 || bp == NULL || breakpoint_init(bp, proc, return_addr, NULL) < 0) { free(bp); return NULL; } return bp; } struct breakpoint * insert_breakpoint_at(struct process *proc, arch_addr_t addr, struct library_symbol *libsym) { debug(DEBUG_FUNCTION, "insert_breakpoint_at(pid=%d, addr=%p, symbol=%s)", proc->pid, addr, libsym ? libsym->name : "NULL"); assert(addr != 0); struct breakpoint *bp = malloc(sizeof *bp); if (bp == NULL || breakpoint_init(bp, proc, addr, libsym) < 0) { free(bp); return NULL; } /* N.B. (and XXX): BP->addr might differ from ADDR. On ARM * this is a real possibility. The problem here is that to * create a return breakpoint ltrace calls get_return_addr and * then insert_breakpoint_at. So get_return_addr needs to * encode all the information necessary for breakpoint_init * into the address itself, so ADDR is potentially * mangled. */ struct breakpoint *tmp = insert_breakpoint(proc, bp); if (tmp != bp) { breakpoint_destroy(bp); free(bp); } return tmp; } struct breakpoint * insert_breakpoint(struct process *proc, struct breakpoint *bp) { /* Only the group leader should be getting the breakpoints and * thus have ->breakpoint initialized. */ struct process *leader = proc->leader; assert(leader != NULL); assert(leader->breakpoints != NULL); /* XXX what we need to do instead is have a list of * breakpoints that are enabled at this address. The * following works if every breakpoint is the same and there's * no extra data, but that doesn't hold anymore. For now it * will suffice, about the only realistic case where we need * to have more than one breakpoint per address is return from * a recursive library call. */ struct breakpoint *ext_bp = bp; if (DICT_FIND_VAL(leader->breakpoints, &bp->addr, &ext_bp) != 0) { if (proc_add_breakpoint(leader, bp) < 0) return NULL; ext_bp = bp; } if (breakpoint_turn_on(ext_bp, proc) < 0) { if (ext_bp != bp) proc_remove_breakpoint(leader, bp); return NULL; } return ext_bp; } void delete_breakpoint_at(struct process *proc, arch_addr_t addr) { debug(DEBUG_FUNCTION, "delete_breakpoint_at(pid=%d, addr=%p)", proc->pid, addr); struct process *leader = proc->leader; assert(leader != NULL); struct breakpoint *bp = NULL; DICT_FIND_VAL(leader->breakpoints, &addr, &bp); assert(bp != NULL); if (delete_breakpoint(proc, bp) < 0) { fprintf(stderr, "Couldn't turn off the breakpoint %s@%p\n", breakpoint_name(bp), bp->addr); } } int delete_breakpoint(struct process *proc, struct breakpoint *bp) { struct process *leader = proc->leader; assert(leader != NULL); if (breakpoint_turn_off(bp, proc) < 0) return -1; if (bp->enabled == 0) { proc_remove_breakpoint(leader, bp); breakpoint_destroy(bp); free(bp); } return 0; } const char * breakpoint_name(const struct breakpoint *bp) { assert(bp != NULL); return bp->libsym != NULL ? bp->libsym->name : NULL; } struct library * breakpoint_library(const struct breakpoint *bp) { assert(bp != NULL); return bp->libsym != NULL ? bp->libsym->lib : NULL; } static enum callback_status disable_bp_cb(arch_addr_t *addr, struct breakpoint **bpp, void *data) { struct process *proc = data; debug(DEBUG_FUNCTION, "disable_bp_cb(pid=%d)", proc->pid); if ((*bpp)->enabled) disable_breakpoint(proc, *bpp); return CBS_CONT; } void disable_all_breakpoints(struct process *proc) { debug(DEBUG_FUNCTION, "disable_all_breakpoints(pid=%d)", proc->pid); assert(proc->leader == proc); DICT_EACH(proc->breakpoints, arch_addr_t, struct breakpoint *, NULL, disable_bp_cb, proc); } static void entry_breakpoint_on_hit(struct breakpoint *bp, struct process *proc) { if (proc == NULL || proc->leader == NULL) return; delete_breakpoint_at(proc, bp->addr); process_hit_start(proc); } int entry_breakpoint_init(struct process *proc, struct breakpoint *bp, arch_addr_t addr, struct library *lib) { assert(addr != 0); int err = breakpoint_init(bp, proc, addr, NULL); if (err < 0) return err; static struct bp_callbacks entry_callbacks = { .on_hit = entry_breakpoint_on_hit, }; bp->cbs = &entry_callbacks; return 0; } int breakpoints_init(struct process *proc) { debug(DEBUG_FUNCTION, "breakpoints_init(pid=%d)", proc->pid); /* XXX breakpoint dictionary should be initialized * outside. Here we just put in breakpoints. */ assert(proc->breakpoints != NULL); /* Only the thread group leader should hold the breakpoints. */ assert(proc->leader == proc); /* N.B. the following used to be conditional on this, and * maybe it still needs to be. */ assert(proc->filename != NULL); struct library *lib = ltelf_read_main_binary(proc, proc->filename); struct breakpoint *entry_bp = NULL; int bp_state = 0; int result = -1; switch ((int)(lib != NULL)) { fail: switch (bp_state) { case 2: proc_remove_library(proc, lib); proc_remove_breakpoint(proc, entry_bp); case 1: breakpoint_destroy(entry_bp); } library_destroy(lib); free(entry_bp); case 0: return result; } entry_bp = malloc(sizeof(*entry_bp)); if (entry_bp == NULL || (entry_breakpoint_init(proc, entry_bp, lib->entry, lib)) < 0) { fprintf(stderr, "Couldn't initialize entry breakpoint for PID %d.\n" "Some tracing events may be missed.\n", proc->pid); free(entry_bp); } else { ++bp_state; if ((result = proc_add_breakpoint(proc, entry_bp)) < 0) goto fail; ++bp_state; if ((result = breakpoint_turn_on(entry_bp, proc)) < 0) goto fail; } proc_add_library(proc, lib); proc->callstack_depth = 0; return 0; }