6 static BPSLIST *bps[BPSTABSIZE];
8 unsigned adrhash(WORD adr)
12 key[0] = malloc_chk(sizeof(HKEY), "adrhash.key");
15 h = hash(1, key, BPSTABSIZE);
24 for(p = bps[adrhash(adr)]; p != NULL; p = p->next) {
37 /* 登録されたラベルを検索。すでに登録されている場合は終了 */
38 if(getbps(adr) == true) {
39 fprintf(stderr, "%04X: Breakpoint is already defined.\n", adr);
43 p = malloc_chk(sizeof(BPSLIST), "bps.next");
47 p->next = bps[h = adrhash(adr)];
58 p = bps[h = adrhash(adr)];
69 for(; p->next != NULL; p = p->next) {
88 fprintf(stdout, "List of breakpoints\n");
89 for(i = 0; i < BPSTABSIZE; i++) {
90 for(p = bps[i]; p != NULL; p = p->next) {
91 fprintf(stdout, "#%04X\n", p->adr);
96 fprintf(stdout, "(No breakpoints.)\n");
100 void freebpslist(BPSLIST *head)
103 for(p = head; p != NULL; p = q) {
112 for(i = 0; i < BPSTABSIZE; i++) {
118 MONARGS *monargstok(const char *str)
120 MONARGS *args = malloc_chk(sizeof(MONARGS), "args");
121 char *p, *q, *r, *sepp; /* pは文字列全体の先頭位置、qはトークンの先頭位置、rは文字の位置 */
128 p = q = r = strdup_chk(str, "argstok.p");
130 while(*q == ' ' || *q == '\t'){
133 sepp = r + strcspn(r, " ");
136 args->argv[++(args->argc)-1] = strdup_chk(q, "args.argv[]");
138 } while(sepc == ' ');
143 MONCMDLINE *monlinetok(const char *line)
147 MONCMDLINE *moncmdl = NULL;
149 if(*line == '\n' || *line == '\0') {
152 p = tokens = strdup_chk(line, "tokens");
153 moncmdl = malloc_chk(sizeof(MONCMDLINE), "moncmdl");
155 moncmdl->cmd = malloc_chk((l = strcspn(p, " \t\n")) + 1, "moncmdl.cmd");
156 strncpy(moncmdl->cmd, p, l);
157 /* コマンドと引数の間の空白をスキップ */
159 while(*p == ' ' || *p == '\t') {
162 /* 引数として、改行までの文字列を取得 */
163 if((l = strcspn(p, "\n")) > 0) {
164 moncmdl->args = monargstok(p);
166 moncmdl->args = malloc_chk(sizeof(MONARGS), "moncmdl.args");
167 moncmdl->args->argc = 0;
173 bool stracmp(char *str1, int str2c, char *str2v[])
179 for(i = 0; i < str2c; i++) {
180 if(strcmp(str1, str2v[i]) == 0) {
187 void mon_break(int argc, char *argv[])
190 if(stracmp(argv[0], 2, (char* []){"l", "list"})) {
192 } else if(stracmp(argv[0], 2, (char* []){"r", "reset"})) {
194 fprintf(stdout, "All breakpoints are deleted.\n");
197 if((w = nh2word(argv[1])) == 0x0) {
198 fprintf(stderr, "%s: address error\n", argv[1]);
201 if(stracmp(argv[0], 2, (char* []){"a", "add"})) {
202 if(addbps(w) == true) {
203 fprintf(stdout, "#%04X: breakpoint added\n", w);
205 fprintf(stdout, "No breakpoint added\n");
207 } else if(stracmp(argv[0], 2, (char* []){"d", "del"})) {
208 if(delbps(w) == true) {
209 fprintf(stdout, "#%04X: breakpoint deleted\n", w);
211 fprintf(stdout, "No breakpoint deleted\n");
213 } else if(stracmp(argv[0], 3, (char* []){"?", "h", "help"})) {
214 fprintf(stdout, "breakpoint manipulate:\n");
215 fprintf(stdout, " b[reak] a[dd] <address>\n");
216 fprintf(stdout, " b[reak] d[el] <address>\n");
217 fprintf(stdout, " b[reak] l[ist]\n");
218 fprintf(stdout, " b[reak] r[eset]\n");
220 fprintf(stderr, "%s: Not breakpoint manipulate command. see `b ?'.\n", argv[0]);
225 MONCMDTYPE monitorcmd(char *cmd, MONARGS *args)
227 MONCMDTYPE cmdtype = MONREPEAT;
228 if(stracmp(cmd, 2, (char* []){"s", "step"})) {
229 execmode.step = true;
231 } else if(stracmp(cmd, 2, (char* []){"b", "break"})) {
232 mon_break(args->argc, args->argv);
233 } else if(stracmp(cmd, 2, (char* []){"c", "continue"})) {
234 execmode.step = false;
236 } else if(stracmp(cmd, 2, (char* []){"t", "trace"})) {
237 if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"a", "auto"})) {
238 execmode.logical = false;
239 execmode.trace = true;
240 } else if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"no", "noauto"})) {
241 execmode.trace = false;
243 fprintf(stdout, "#%04X: Register::::\n", sys->cpu->pr);
246 } else if(stracmp(cmd, 2, (char* []){"T", "tracelogical"})) {
247 if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"a", "auto"})) {
248 execmode.logical = true;
249 execmode.trace = true;
250 } else if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"no", "noauto"})) {
251 execmode.trace = false;
253 fprintf(stdout, "#%04X: Register::::\n", sys->cpu->pr);
256 } else if(stracmp(cmd, 2, (char* []){"d", "dump"})) {
257 if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"a", "auto"})) {
258 execmode.dump = true;
259 } else if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"no", "noauto"})) {
260 execmode.dump = false;
261 } else if(args->argc == 1) {
262 dumpmemory(nh2word(args->argv[0]), 0xFFFF);
263 } else if(args->argc > 1) {
264 dumpmemory(nh2word(args->argv[0]), nh2word(args->argv[1]));
266 } else if(stracmp(cmd, 2, (char* []){"r", "reverse"})) {
267 if(args->argc == 2) {
268 disassemble_memory(nh2word(args->argv[0]), nh2word(args->argv[1]));
270 } else if(stracmp(cmd, 2, (char* []){"q", "quit"})) {
271 fprintf(stdout, "Quit: COMET II monitor\n");
273 } else if(stracmp(cmd, 3, (char* []){"?", "h", "help"})) {
274 fprintf(stdout, "b[reak] -- Manipulate Breakpoints. Details in `b ?'.\n");
275 fprintf(stdout, "s[tep] -- Step by step running your program until next interaction.\n");
276 fprintf(stdout, "c[ontinue] -- Continue running your program.\n");
277 fprintf(stdout, "t[race] -- Display CPU register. `t[race] a[uto]/n[oauto]' set auto/noauto display. \n");
278 fprintf(stdout, "d[ump] -- Display memory dump. `d[ump] a[uto]/n[oauto]' set auto/noauto display.\n");
279 fprintf(stdout, "?/h[elp] -- Display this help.\n");
284 void free_moncmdline(MONCMDLINE *moncmdl)
287 assert(moncmdl != NULL);
288 if(moncmdl->args != NULL) {
289 for(i = 0; i < moncmdl->args->argc; i++) {
290 FREE(moncmdl->args->argv[i]);
294 if(moncmdl->cmd != NULL) {
297 if(moncmdl != NULL) {
306 MONCMDTYPE cmdtype = MONREPEAT;
308 fprintf(stdout, "COMET II (Type ? for help) > ");
309 buf = malloc_chk(MONINSIZE + 1, "monitor.buf");
310 fgets(buf, MONINSIZE, stdin);
311 if((p = strchr(buf, '\n')) != NULL) {
314 if((moncmdl = monlinetok(buf)) != NULL) {
315 cmdtype = monitorcmd(moncmdl->cmd, moncmdl->args);
316 free_moncmdline(moncmdl);
319 if(cmdtype == MONQUIT) {
326 } while(cmdtype == MONREPEAT);