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[/] [or1k/] [tags/] [start/] [gdb-5.0/] [utils/] [amd-udi/] [mondfe/] [bkpt.c] - Rev 1765
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static char _[] = " @(#)bkpt.c 5.20 93/07/30 16:38:20, Srini, AMD "; /****************************************************************************** * Copyright 1991 Advanced Micro Devices, Inc. * * This software is the property of Advanced Micro Devices, Inc (AMD) which * specifically grants the user the right to modify, use and distribute this * software provided this notice is not removed or altered. All other rights * are reserved by AMD. * * AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS * SOFTWARE. IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL * DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR * USE OF THIS SOFTWARE. * * So that all may benefit from your experience, please report any problems * or suggestions about this software to the 29K Technical Support Center at * 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131 in the UK, or * 0031-11-1129 in Japan, toll free. The direct dial number is 512-462-4118. * * Advanced Micro Devices, Inc. * 29K Support Products * Mail Stop 573 * 5900 E. Ben White Blvd. * Austin, TX 78741 * 800-292-9263 ***************************************************************************** * Engineer: Srini Subramanian. ***************************************************************************** ** This module contains the functions used to provide breakpointing ** capability. ***************************************************************************** */ #include <stdio.h> #include <ctype.h> #include "memspcs.h" #include "main.h" #include "monitor.h" #include "miniint.h" #include "error.h" #ifdef MSDOS #include <stdlib.h> #include <string.h> #else #include <strings.h> #endif /* ** Definitions */ int get_addr_29k_m PARAMS((char *, struct addr_29k_t *, INT32)); int addr_29k_ok PARAMS((struct addr_29k_t *)); int get_word PARAMS((char *, INT32 *)); int get_word_decimal PARAMS((char *, INT32 *)); INT32 clear_table PARAMS((void)); INT32 clear_bkpt PARAMS((struct addr_29k_t)); INT32 show_table PARAMS((void)); INT32 set_bkpt PARAMS((struct addr_29k_t, INT32, INT32)); INT32 match_entry PARAMS((ADDR32 offset, INT32 space, int *id)); INT32 remove_from_table PARAMS((int id)); INT32 add_to_table PARAMS((ADDR32 offset, INT32 space, INT32 passcnt, INT32 bktype, int id)); extern struct bkpt_t *bkpt_table; /* ** The function below is used in manipulating breakpoints. ** This function is called in the main command loop parser ** of the monitor. The parameters passed to this function ** are: ** ** token - This is an array of pointers to strings. Each string ** referenced by this array is a "token" of the user's ** input, translated to lower case. ** ** token_count - This is the number of tokens in "token". ** */ INT32 bkpt_cmd(token, token_count) char *token[]; int token_count; { INT32 result; struct addr_29k_t addr_29k; INT32 pass_count; INT32 bkpt_type; /* ** Clear breakpoint(s) */ if (strcmp(token[0], "bc") == 0) { if (token_count == 1) { result = clear_table(); return (result); } else /* Clear a specific breakpoints */ if (token_count == 2) { result = get_addr_29k_m(token[1], &addr_29k, I_MEM); if (result != 0) return (result); result = addr_29k_ok(&addr_29k); if (result != 0) return (result); if (addr_29k.memory_space == (INT32) GENERIC_SPACE) addr_29k.memory_space = (INT32) I_MEM; result = clear_bkpt(addr_29k); return (result); } else /* token_count != 1 or 2 */ return (EMSYNTAX); } else /* ** Set breakpoint(s) */ if ((strcmp(token[0], "b") == 0) || (strcmp(token[0], "b050p") == 0) || (strcmp(token[0], "b050v") == 0) || (strcmp(token[0], "b050") == 0)) { /* b050 defaults to b050p */ if (strcmp(token[0], "b") == 0) bkpt_type = BKPT_29000; else if (strcmp(token[0], "b050p") == 0) bkpt_type = BKPT_29050_BTE_0; /* translation disabled */ else if (strcmp(token[0], "b050v") == 0) bkpt_type = BKPT_29050_BTE_1; else if (strcmp(token[0], "b050") == 0) bkpt_type = BKPT_29050_BTE_0; /* translation disabled */ else return (EMSYNTAX); if (token_count == 1) { result = show_table(); return (result); } else /* Set breakpoint with pass count of 1 */ if (token_count == 2) { result = get_addr_29k_m(token[1], &addr_29k, I_MEM); if (result != 0) return (result); result = addr_29k_ok(&addr_29k); if (result != 0) return (result); /* The TIP checks the memory space for acceptance */ if (addr_29k.memory_space == (INT32) GENERIC_SPACE) addr_29k.memory_space = (INT32) I_MEM; result = set_bkpt(addr_29k, (INT32) 1, bkpt_type); return (result); } else /* Set breakpoint with pass count */ if (token_count == 3) { result = get_addr_29k_m(token[1], &addr_29k, I_MEM); if (result != 0) return (result); result = addr_29k_ok(&addr_29k); if (result != 0) return (result); result = get_word_decimal(token[2], &pass_count); if (result != 0) return (EMSYNTAX); if (addr_29k.memory_space == (INT32) GENERIC_SPACE) addr_29k.memory_space = (INT32) I_MEM; result = set_bkpt(addr_29k, pass_count, bkpt_type); return (result); } else /* too many parms for set breakpoint */ return (EMSYNTAX); } else /* not a proper 'b" command */ return (EMSYNTAX); } /* end bkpt_cmd() */ /* ** Functions used by bkpt_cmd() */ /* ** This function is used to remove a breakpoint from the ** target and from the host breakpoint table. */ INT32 clear_bkpt(addr_29k) struct addr_29k_t addr_29k; { int breakid; INT32 retval; (void) match_entry (addr_29k.address, addr_29k.memory_space, &breakid); /* Did we find the breakpoint? */ if (breakid <= (int) 0) { warning (EMBKPTRM); return (FAILURE); }; /* if a valid breakpoint entry is found */ if ((retval = Mini_bkpt_rm (breakid)) != SUCCESS) { return(FAILURE); } else if (retval == SUCCESS) { /* remove breakpoint from table */ if (remove_from_table(breakid) != SUCCESS) { /* this shouldn't occur */ return(FAILURE); }; return(SUCCESS); }; } /* end clear_bkpt() */ /* ** This function is used to set a breakpoint on the ** target and in the host breakpoint table. */ INT32 set_bkpt(addr_29k, pass_count, bkpt_type) struct addr_29k_t addr_29k; INT32 pass_count; INT32 bkpt_type; { INT32 retval; int breakid; /* is there one already at the same place */ (void) match_entry(addr_29k.address, addr_29k.memory_space, &breakid); if (breakid > (int) 0) { warning (EMBKPTUSED); return (FAILURE); }; /* else set the breakpoint */ breakid = (int) 0; if ((retval = Mini_bkpt_set (addr_29k.memory_space, addr_29k.address, pass_count, bkpt_type, &breakid)) != SUCCESS) { return(FAILURE); } else { /* Add breakpoint to table */ if (breakid > (int) 0) { /* double checking */ return (add_to_table(addr_29k.address, addr_29k.memory_space, pass_count, bkpt_type, breakid)); }; return(FAILURE); }; } /* end set_bkpt() */ INT32 add_to_table(offset, space, passcnt, bktype, id ) ADDR32 offset; INT32 space; INT32 passcnt; INT32 bktype; int id; { struct bkpt_t *temp, *temp2; if ((temp = (struct bkpt_t *) malloc (sizeof(struct bkpt_t))) == NULL) { return(EMALLOC); } else { temp->break_id = id; temp->memory_space = space; temp->address = offset; temp->pass_count = passcnt; temp->curr_count = passcnt; temp->bkpt_type = bktype; temp->next = NULL; }; if (bkpt_table == NULL) { /* first element */ bkpt_table = temp; } else { /* add at end */ temp2 = bkpt_table; while (temp2->next != NULL) temp2 = temp2->next; temp2->next = temp; /* add */ } return(SUCCESS); } INT32 match_entry(offset, space, id) ADDR32 offset; INT32 space; int *id; { struct bkpt_t *temp; if (bkpt_table == NULL) { /* empty, so no match */ *id = (int) 0; return(SUCCESS); } else { temp = bkpt_table; if ((temp->address == offset) && (temp->memory_space == space)) { /* match */ *id = temp->break_id; return(SUCCESS); } else { while (temp->next != NULL) { if ((temp->next->address == offset) && (temp->next->memory_space == space)) { *id = temp->next->break_id; return(SUCCESS); } else { temp = temp->next; }; } *id = (int) 0; return(SUCCESS); }; }; } INT32 remove_from_table(id) int id; { struct bkpt_t *temp; if (bkpt_table == NULL) { /* empty table */ return(FAILURE); } else { temp = bkpt_table; if (bkpt_table->break_id == id) { /* remove first element */ bkpt_table = bkpt_table->next; return(SUCCESS); } else { while (temp->next != NULL) { if (temp->next->break_id == id) { temp->next = temp->next->next; return(SUCCESS); } else { temp = temp->next; }; } return(FAILURE); }; } } INT32 clear_table() { struct bkpt_t *tmp; INT32 retval; if (bkpt_table == NULL) { /* no entries */ fprintf(stderr, "no breakpoints in use.\n"); if (io_config.echo_mode == (INT32) TRUE) fprintf(io_config.echo_file, "no breakpoints in use.\n"); } else { while (bkpt_table) { if ((retval = Mini_bkpt_rm (bkpt_table->break_id)) != SUCCESS) { return(FAILURE); } else if (retval == SUCCESS) { /* remove breakpoint from table */ tmp = bkpt_table; bkpt_table = bkpt_table->next; (void) free ((char *) tmp); }; }; } return(SUCCESS); } INT32 show_table() { struct bkpt_t *temp; INT32 retval; ADDR32 temp_addr; INT32 temp_space; INT32 curr_count; INT32 temp_passcnt, temp_bktype; int i; if (bkpt_table == NULL) { /* no entries */ } else { do { temp = bkpt_table; bkpt_table = bkpt_table->next; (void) free ((char *) temp); } while (bkpt_table != NULL); }; for (i = 1;1;i++) { retval = Mini_bkpt_stat( i, &temp_addr, &temp_space, &temp_passcnt, &temp_bktype, &curr_count); if ((retval == (INT32) MONBreakInvalid) || (retval == (INT32) FAILURE)) { continue; } else if (retval == (INT32) MONBreakNoMore) { return (SUCCESS); } else { /* add entry in the table */ if ((retval = add_to_table ((ADDR32) temp_addr, (INT32) temp_space, (INT32) temp_passcnt, (INT32) temp_bktype, i)) != SUCCESS) return (retval); /* Mark Am29050 breakpoints with a '*' */ if (temp_bktype == BKPT_29050) fprintf(stderr, "*"); else fprintf(stderr, " "); fprintf(stderr, "(%#05d: %#08lx[%#02d])\n", i, temp_addr, temp_passcnt); if (io_config.echo_mode == (INT32) TRUE) { if (temp_bktype == BKPT_29050) fprintf(io_config.echo_file, "*"); else fprintf(io_config.echo_file, " "); fprintf(io_config.echo_file, "(%#05d: %#08lx[%#02d])\n", i, temp_addr, temp_passcnt); } }; } return(SUCCESS); }