/* $OpenBSD: db_break.c,v 1.11 2001/11/28 16:13:29 art Exp $ */ /* $NetBSD: db_break.c,v 1.7 1996/03/30 22:30:03 christos Exp $ */ /* * Mach Operating System * Copyright (c) 1993,1992,1991,1990 Carnegie Mellon University * All Rights Reserved. * * Permission to use, copy, modify and distribute this software and its * documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie Mellon * the rights to redistribute these changes. * * Author: David B. Golub, Carnegie Mellon University * Date: 7/90 */ /* * Breakpoints. */ #include #include #include #include /* type definitions */ #include #include #include #include #include #define NBREAKPOINTS 100 struct db_breakpoint db_break_table[NBREAKPOINTS]; db_breakpoint_t db_next_free_breakpoint = &db_break_table[0]; db_breakpoint_t db_free_breakpoints = 0; db_breakpoint_t db_breakpoint_list = 0; db_breakpoint_t db_breakpoint_alloc() { register db_breakpoint_t bkpt; if ((bkpt = db_free_breakpoints) != 0) { db_free_breakpoints = bkpt->link; return (bkpt); } if (db_next_free_breakpoint == &db_break_table[NBREAKPOINTS]) { db_printf("All breakpoints used.\n"); return (0); } bkpt = db_next_free_breakpoint; db_next_free_breakpoint++; return (bkpt); } void db_breakpoint_free(bkpt) register db_breakpoint_t bkpt; { bkpt->link = db_free_breakpoints; db_free_breakpoints = bkpt; } void db_set_breakpoint(map, addr, count) struct vm_map *map; db_addr_t addr; int count; { register db_breakpoint_t bkpt; if (db_find_breakpoint(map, addr)) { db_printf("Already set.\n"); return; } #ifdef DB_VALID_BREAKPOINT if (!DB_VALID_BREAKPOINT(addr)) { db_printf("Not a valid address for a breakpoint.\n"); return; } #endif bkpt = db_breakpoint_alloc(); if (bkpt == 0) { db_printf("Too many breakpoints.\n"); return; } bkpt->map = map; bkpt->address = addr; bkpt->flags = 0; bkpt->init_count = count; bkpt->count = count; bkpt->link = db_breakpoint_list; db_breakpoint_list = bkpt; } void db_delete_breakpoint(map, addr) struct vm_map *map; db_addr_t addr; { register db_breakpoint_t bkpt; register db_breakpoint_t *prev; for (prev = &db_breakpoint_list; (bkpt = *prev) != 0; prev = &bkpt->link) { if (db_map_equal(bkpt->map, map) && (bkpt->address == addr)) { *prev = bkpt->link; break; } } if (bkpt == 0) { db_printf("Not set.\n"); return; } db_breakpoint_free(bkpt); } db_breakpoint_t db_find_breakpoint(map, addr) struct vm_map *map; db_addr_t addr; { register db_breakpoint_t bkpt; for (bkpt = db_breakpoint_list; bkpt != 0; bkpt = bkpt->link) { if (db_map_equal(bkpt->map, map) && (bkpt->address == addr)) return (bkpt); } return (0); } db_breakpoint_t db_find_breakpoint_here(addr) db_addr_t addr; { return db_find_breakpoint(db_map_addr(addr), addr); } boolean_t db_breakpoints_inserted = TRUE; void db_set_breakpoints() { register db_breakpoint_t bkpt; if (!db_breakpoints_inserted) { for (bkpt = db_breakpoint_list; bkpt != 0; bkpt = bkpt->link) if (db_map_current(bkpt->map)) { bkpt->bkpt_inst = db_get_value(bkpt->address, BKPT_SIZE, FALSE); db_put_value(bkpt->address, BKPT_SIZE, BKPT_SET(bkpt->bkpt_inst)); } db_breakpoints_inserted = TRUE; } } void db_clear_breakpoints() { register db_breakpoint_t bkpt; if (db_breakpoints_inserted) { for (bkpt = db_breakpoint_list; bkpt != 0; bkpt = bkpt->link) if (db_map_current(bkpt->map)) { db_put_value(bkpt->address, BKPT_SIZE, bkpt->bkpt_inst); } db_breakpoints_inserted = FALSE; } } /* * Set a temporary breakpoint. * The instruction is changed immediately, * so the breakpoint does not have to be on the breakpoint list. */ db_breakpoint_t db_set_temp_breakpoint(addr) db_addr_t addr; { db_breakpoint_t bkpt; #ifdef DB_VALID_BREAKPOINT if (!DB_VALID_BREAKPOINT(addr)) { db_printf("Not a valid address for a breakpoint.\n"); return (0); } #endif bkpt = db_breakpoint_alloc(); if (bkpt == 0) { db_printf("Too many breakpoints.\n"); return (0); } bkpt->map = NULL; bkpt->address = addr; bkpt->flags = BKPT_TEMP; bkpt->init_count = 1; bkpt->count = 1; bkpt->bkpt_inst = db_get_value(bkpt->address, BKPT_SIZE, FALSE); db_put_value(bkpt->address, BKPT_SIZE, BKPT_SET(bkpt->bkpt_inst)); return bkpt; } void db_delete_temp_breakpoint(bkpt) db_breakpoint_t bkpt; { db_put_value(bkpt->address, BKPT_SIZE, bkpt->bkpt_inst); db_breakpoint_free(bkpt); } /* * List breakpoints. */ void db_list_breakpoints() { register db_breakpoint_t bkpt; if (db_breakpoint_list == 0) { db_printf("No breakpoints set\n"); return; } db_printf(" Map Count Address\n"); for (bkpt = db_breakpoint_list; bkpt != 0; bkpt = bkpt->link) { db_printf("%s%p %5d ", db_map_current(bkpt->map) ? "*" : " ", bkpt->map, bkpt->init_count); db_printsym(bkpt->address, DB_STGY_PROC); db_printf("\n"); } } /* Delete breakpoint */ /*ARGSUSED*/ void db_delete_cmd(addr, have_addr, count, modif) db_expr_t addr; int have_addr; db_expr_t count; char * modif; { db_delete_breakpoint(db_map_addr(addr), (db_addr_t)addr); } /* Set breakpoint with skip count */ /*ARGSUSED*/ void db_breakpoint_cmd(addr, have_addr, count, modif) db_expr_t addr; int have_addr; db_expr_t count; char * modif; { if (count == -1) count = 1; db_set_breakpoint(db_map_addr(addr), (db_addr_t)addr, count); } /* list breakpoints */ /*ARGSUSED*/ void db_listbreak_cmd(addr, have_addr, count, modif) db_expr_t addr; int have_addr; db_expr_t count; char * modif; { db_list_breakpoints(); } /* * We want ddb to be usable before most of the kernel has been * initialized. In particular, current_thread() or kernel_map * (or both) may be null. */ boolean_t db_map_equal(map1, map2) struct vm_map *map1, *map2; { return ((map1 == map2) || ((map1 == NULL) && (map2 == kernel_map)) || ((map1 == kernel_map) && (map2 == NULL))); } boolean_t db_map_current(map) struct vm_map *map; { #if 0 thread_t thread; return ((map == NULL) || (map == kernel_map) || (((thread = current_thread()) != NULL) && (map == thread->proc->map))); #else return (1); #endif } struct vm_map * db_map_addr(addr) vaddr_t addr; { #if 0 thread_t thread; /* * We want to return kernel_map for all * non-user addresses, even when debugging * kernel tasks with their own maps. */ if ((VM_MIN_ADDRESS <= addr) && (addr < VM_MAX_ADDRESS) && ((thread = current_thread()) != NULL)) return thread->proc->map; else #endif return kernel_map; }