Mercurial > repos > blastem
view debug.c @ 1931:374a5ae694e8 mame_interp
Merge from default
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Sat, 18 Apr 2020 11:42:53 -0700 |
| parents | 0a26f3657295 23394a890508 |
| children | a7b753e260a2 |
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#include "debug.h" #include "genesis.h" #include "68kinst.h" #include <stdlib.h> #include <string.h> #ifndef _WIN32 #include <sys/select.h> #endif #include "render.h" #include "util.h" #include "terminal.h" #include "z80inst.h" #ifdef NEW_CORE #define Z80_OPTS opts #else #define Z80_OPTS options #endif static bp_def * breakpoints = NULL; static bp_def * zbreakpoints = NULL; static uint32_t bp_index = 0; static uint32_t zbp_index = 0; bp_def ** find_breakpoint(bp_def ** cur, uint32_t address) { while (*cur) { if ((*cur)->address == address) { break; } cur = &((*cur)->next); } return cur; } bp_def ** find_breakpoint_idx(bp_def ** cur, uint32_t index) { while (*cur) { if ((*cur)->index == index) { break; } cur = &((*cur)->next); } return cur; } disp_def * displays = NULL; disp_def * zdisplays = NULL; uint32_t disp_index = 0; uint32_t zdisp_index = 0; void add_display(disp_def ** head, uint32_t *index, char format_char, char * param) { disp_def * ndisp = malloc(sizeof(*ndisp)); ndisp->format_char = format_char; ndisp->param = strdup(param); ndisp->next = *head; ndisp->index = *index++; *head = ndisp; } void remove_display(disp_def ** head, uint32_t index) { while (*head) { if ((*head)->index == index) { disp_def * del_disp = *head; *head = del_disp->next; free(del_disp->param); free(del_disp); } else { head = &(*head)->next; } } } char * find_param(char * buf) { for (; *buf; buf++) { if (*buf == ' ') { if (*(buf+1)) { return buf+1; } } } return NULL; } void strip_nl(char * buf) { for(; *buf; buf++) { if (*buf == '\n') { *buf = 0; return; } } } uint16_t m68k_read_word(uint32_t address, m68k_context *context) { return read_word(address, (void **)context->mem_pointers, &context->options->gen, context); } uint32_t m68k_read_long(uint32_t address, m68k_context *context) { return m68k_read_word(address, context) << 16 | m68k_read_word(address + 2, context); } void debugger_print(m68k_context *context, char format_char, char *param, uint32_t address) { uint32_t value; char format[8]; strcpy(format, "%s: %d\n"); switch (format_char) { case 'x': case 'X': case 'd': case 'c': format[5] = format_char; break; case '\0': break; default: fprintf(stderr, "Unrecognized format character: %c\n", format_char); } if (param[0] == 'd' && param[1] >= '0' && param[1] <= '7') { value = context->dregs[param[1]-'0']; if (param[2] == '.') { if (param[3] == 'w') { value &= 0xFFFF; } else if (param[3] == 'b') { value &= 0xFF; } } } else if (param[0] == 'a' && param[1] >= '0' && param[1] <= '7') { value = context->aregs[param[1]-'0']; if (param[2] == '.') { if (param[3] == 'w') { value &= 0xFFFF; } else if (param[3] == 'b') { value &= 0xFF; } } } else if (param[0] == 's' && param[1] == 'r') { value = (context->status << 8); for (int flag = 0; flag < 5; flag++) { value |= context->flags[flag] << (4-flag); } } else if(param[0] == 'c') { value = context->current_cycle; } else if(param[0] == 'f') { genesis_context *gen = context->system; value = gen->vdp->frame; } else if (param[0] == 'p' && param[1] == 'c') { value = address; } else if ((param[0] == '0' && param[1] == 'x') || param[0] == '$') { char *after; uint32_t p_addr = strtol(param+(param[0] == '0' ? 2 : 1), &after, 16); if (after[0] == '.' && after[1] == 'l') { value = m68k_read_long(p_addr, context); } else { value = m68k_read_word(p_addr, context); } } else if(param[0] == '(' && (param[1] == 'a' || param[1] == 'd') && param[2] >= '0' && param[2] <= '7' && param[3] == ')') { uint8_t reg = param[2] - '0'; uint32_t p_addr = param[1] == 'a' ? context->aregs[reg] : context->dregs[reg]; if (param[4] == '.' && param[5] == 'l') { value = m68k_read_long(p_addr, context); } else { value = m68k_read_word(p_addr, context); } } else { fprintf(stderr, "Unrecognized parameter to p: %s\n", param); return; } printf(format, param, value); } #ifndef NO_Z80 void zdebugger_print(z80_context * context, char format_char, char * param) { uint32_t value; char format[8]; strcpy(format, "%s: %d\n"); genesis_context *system = context->system; switch (format_char) { case 'x': case 'X': case 'd': case 'c': format[5] = format_char; break; case '\0': break; default: fprintf(stderr, "Unrecognized format character: %c\n", format_char); } switch (param[0]) { #ifndef NEW_CORE case 'a': if (param[1] == 'f') { if(param[2] == '\'') { value = context->alt_regs[Z80_A] << 8; value |= context->alt_flags[ZF_S] << 7; value |= context->alt_flags[ZF_Z] << 6; value |= context->alt_flags[ZF_H] << 4; value |= context->alt_flags[ZF_PV] << 2; value |= context->alt_flags[ZF_N] << 1; value |= context->alt_flags[ZF_C]; } else { value = context->regs[Z80_A] << 8; value |= context->flags[ZF_S] << 7; value |= context->flags[ZF_Z] << 6; value |= context->flags[ZF_H] << 4; value |= context->flags[ZF_PV] << 2; value |= context->flags[ZF_N] << 1; value |= context->flags[ZF_C]; } } else if(param[1] == '\'') { value = context->alt_regs[Z80_A]; } else { value = context->regs[Z80_A]; } break; case 'b': if (param[1] == 'c') { if(param[2] == '\'') { value = context->alt_regs[Z80_B] << 8; value |= context->alt_regs[Z80_C]; } else { value = context->regs[Z80_B] << 8; value |= context->regs[Z80_C]; } } else if(param[1] == '\'') { value = context->alt_regs[Z80_B]; } else if(param[1] == 'a') { value = context->bank_reg << 15; } else { value = context->regs[Z80_B]; } break; case 'c': if(param[1] == '\'') { value = context->alt_regs[Z80_C]; } else if(param[1] == 'y') { value = context->current_cycle; } else { value = context->regs[Z80_C]; } break; case 'd': if (param[1] == 'e') { if(param[2] == '\'') { value = context->alt_regs[Z80_D] << 8; value |= context->alt_regs[Z80_E]; } else { value = context->regs[Z80_D] << 8; value |= context->regs[Z80_E]; } } else if(param[1] == '\'') { value = context->alt_regs[Z80_D]; } else { value = context->regs[Z80_D]; } break; case 'e': if(param[1] == '\'') { value = context->alt_regs[Z80_E]; } else { value = context->regs[Z80_E]; } break; case 'f': if(param[2] == '\'') { value = context->alt_flags[ZF_S] << 7; value |= context->alt_flags[ZF_Z] << 6; value |= context->alt_flags[ZF_H] << 4; value |= context->alt_flags[ZF_PV] << 2; value |= context->alt_flags[ZF_N] << 1; value |= context->alt_flags[ZF_C]; } else { value = context->flags[ZF_S] << 7; value |= context->flags[ZF_Z] << 6; value |= context->flags[ZF_H] << 4; value |= context->flags[ZF_PV] << 2; value |= context->flags[ZF_N] << 1; value |= context->flags[ZF_C]; } break; case 'h': if (param[1] == 'l') { if(param[2] == '\'') { value = context->alt_regs[Z80_H] << 8; value |= context->alt_regs[Z80_L]; } else { value = context->regs[Z80_H] << 8; value |= context->regs[Z80_L]; } } else if(param[1] == '\'') { value = context->alt_regs[Z80_H]; } else { value = context->regs[Z80_H]; } break; case 'l': if(param[1] == '\'') { value = context->alt_regs[Z80_L]; } else { value = context->regs[Z80_L]; } break; case 'i': if(param[1] == 'x') { if (param[2] == 'h') { value = context->regs[Z80_IXH]; } else if(param[2] == 'l') { value = context->regs[Z80_IXL]; } else { value = context->regs[Z80_IXH] << 8; value |= context->regs[Z80_IXL]; } } else if(param[1] == 'y') { if (param[2] == 'h') { value = context->regs[Z80_IYH]; } else if(param[2] == 'l') { value = context->regs[Z80_IYL]; } else { value = context->regs[Z80_IYH] << 8; value |= context->regs[Z80_IYL]; } } else if(param[1] == 'n') { value = context->int_cycle; } else if(param[1] == 'f' && param[2] == 'f' && param[3] == '1') { value = context->iff1; } else if(param[1] == 'f' && param[2] == 'f' && param[3] == '2') { value = context->iff2; } else { value = context->im; } break; #endif case 's': if (param[1] == 'p') { value = context->sp; } break; case '0': if (param[1] == 'x') { uint16_t p_addr = strtol(param+2, NULL, 16); value = read_byte(p_addr, (void **)context->mem_pointers, &context->options->gen, context); } break; } printf(format, param, value); } z80_context * zdebugger(z80_context * context, uint16_t address) { static char last_cmd[1024]; char input_buf[1024]; static uint16_t branch_t; static uint16_t branch_f; z80inst inst; genesis_context *system = context->system; init_terminal(); //Check if this is a user set breakpoint, or just a temporary one bp_def ** this_bp = find_breakpoint(&zbreakpoints, address); if (*this_bp) { printf("Z80 Breakpoint %d hit\n", (*this_bp)->index); } else { zremove_breakpoint(context, address); } uint8_t * pc = get_native_pointer(address, (void **)context->mem_pointers, &context->Z80_OPTS->gen); if (!pc) { fatal_error("Failed to get native pointer on entering Z80 debugger at address %X\n", address); } for (disp_def * cur = zdisplays; cur; cur = cur->next) { zdebugger_print(context, cur->format_char, cur->param); } uint8_t * after_pc = z80_decode(pc, &inst); z80_disasm(&inst, input_buf, address); printf("%X:\t%s\n", address, input_buf); uint16_t after = address + (after_pc-pc); int debugging = 1; while(debugging) { fputs(">", stdout); if (!fgets(input_buf, sizeof(input_buf), stdin)) { fputs("fgets failed", stderr); break; } strip_nl(input_buf); //hitting enter repeats last command if (input_buf[0]) { strcpy(last_cmd, input_buf); } else { strcpy(input_buf, last_cmd); } char * param; char format[8]; uint32_t value; bp_def * new_bp; switch(input_buf[0]) { case 'a': param = find_param(input_buf); if (!param) { fputs("a command requires a parameter\n", stderr); break; } value = strtol(param, NULL, 16); zinsert_breakpoint(context, value, (uint8_t *)zdebugger); debugging = 0; break; case 'b': param = find_param(input_buf); if (!param) { fputs("b command requires a parameter\n", stderr); break; } value = strtol(param, NULL, 16); zinsert_breakpoint(context, value, (uint8_t *)zdebugger); new_bp = malloc(sizeof(bp_def)); new_bp->next = zbreakpoints; new_bp->address = value; new_bp->index = zbp_index++; new_bp->commands = NULL; zbreakpoints = new_bp; printf("Z80 Breakpoint %d set at %X\n", new_bp->index, value); break; case 'c': puts("Continuing"); debugging = 0; break; case 'd': if (input_buf[1] == 'i') { char format_char = 0; for(int i = 2; input_buf[i] != 0 && input_buf[i] != ' '; i++) { if (input_buf[i] == '/') { format_char = input_buf[i+1]; break; } } param = find_param(input_buf); if (!param) { fputs("display command requires a parameter\n", stderr); break; } zdebugger_print(context, format_char, param); add_display(&zdisplays, &zdisp_index, format_char, param); } else if (input_buf[1] == 'e' || input_buf[1] == ' ') { param = find_param(input_buf); if (!param) { fputs("delete command requires a parameter\n", stderr); break; } if (param[0] >= '0' && param[0] <= '9') { value = atoi(param); this_bp = find_breakpoint_idx(&zbreakpoints, value); if (!*this_bp) { fprintf(stderr, "Breakpoint %d does not exist\n", value); break; } new_bp = *this_bp; zremove_breakpoint(context, new_bp->address); *this_bp = new_bp->next; free(new_bp); } else if (param[0] == 'd') { param = find_param(param); if (!param) { fputs("delete display command requires a parameter\n", stderr); break; } remove_display(&zdisplays, atoi(param)); } } break; case 'n': //TODO: Handle conditional branch instructions if (inst.op == Z80_JP) { if (inst.addr_mode == Z80_IMMED) { after = inst.immed; } else if (inst.ea_reg == Z80_HL) { #ifndef NEW_CORE after = context->regs[Z80_H] << 8 | context->regs[Z80_L]; } else if (inst.ea_reg == Z80_IX) { after = context->regs[Z80_IXH] << 8 | context->regs[Z80_IXL]; } else if (inst.ea_reg == Z80_IY) { after = context->regs[Z80_IYH] << 8 | context->regs[Z80_IYL]; #endif } } else if(inst.op == Z80_JR) { after += inst.immed; } else if(inst.op == Z80_RET) { uint8_t *sp = get_native_pointer(context->sp, (void **)context->mem_pointers, &context->Z80_OPTS->gen); if (sp) { after = *sp; sp = get_native_pointer((context->sp + 1) & 0xFFFF, (void **)context->mem_pointers, &context->Z80_OPTS->gen); if (sp) { after |= *sp << 8; } } } zinsert_breakpoint(context, after, (uint8_t *)zdebugger); debugging = 0; break; case 'p': param = find_param(input_buf); if (!param) { fputs("p command requires a parameter\n", stderr); break; } zdebugger_print(context, input_buf[1] == '/' ? input_buf[2] : 0, param); break; case 'q': puts("Quitting"); exit(0); break; case 's': { param = find_param(input_buf); if (!param) { fputs("s command requires a file name\n", stderr); break; } memmap_chunk const *ram_chunk = NULL; for (int i = 0; i < context->Z80_OPTS->gen.memmap_chunks; i++) { memmap_chunk const *cur = context->Z80_OPTS->gen.memmap + i; if (cur->flags & MMAP_WRITE) { ram_chunk = cur; break; } } if (ram_chunk) { uint32_t size = ram_chunk->end - ram_chunk->start; if (size > ram_chunk->mask) { size = ram_chunk->mask+1; } uint8_t *buf = get_native_pointer(ram_chunk->start, (void **)context->mem_pointers, &context->Z80_OPTS->gen); FILE * f = fopen(param, "wb"); if (f) { if(fwrite(buf, 1, size, f) != size) { fputs("Error writing file\n", stderr); } fclose(f); printf("Wrote %d bytes to %s\n", size, param); } else { fprintf(stderr, "Could not open %s for writing\n", param); } } else { fputs("Failed to find a RAM memory chunk\n", stderr); } break; } case '?': print_z80_help(); break; default: if ( !context->Z80_OPTS->gen.debug_cmd_handler || !context->Z80_OPTS->gen.debug_cmd_handler(&system->header, input_buf) ) { fprintf(stderr, "Unrecognized debugger command %s\nUse '?' for help.\n", input_buf); } break; } } return context; } #endif static uint32_t branch_t; static uint32_t branch_f; int run_debugger_command(m68k_context *context, uint32_t address, char *input_buf, m68kinst inst, uint32_t after) { char * param; char format_char; genesis_context *system = context->system; uint32_t value; bp_def *new_bp, **this_bp; switch(input_buf[0]) { case 'c': if (input_buf[1] == 0 || input_buf[1] == 'o' && input_buf[2] == 'n') { puts("Continuing"); return 0; } else if (input_buf[1] == 'o' && input_buf[2] == 'm') { param = find_param(input_buf); if (!param) { fputs("com command requires a parameter\n", stderr); break; } bp_def **target = find_breakpoint_idx(&breakpoints, atoi(param)); if (!target) { fprintf(stderr, "Breakpoint %s does not exist!\n", param); break; } printf("Enter commands for breakpoing %d, type end when done\n", atoi(param)); char cmd_buf[1024]; char *commands = NULL; for (;;) { fputs(">>", stdout); fflush(stdout); fgets(cmd_buf, sizeof(cmd_buf), stdin); if (strcmp(cmd_buf, "end\n")) { if (commands) { char *tmp = commands; commands = alloc_concat(commands, cmd_buf); free(tmp); } else { commands = strdup(cmd_buf); } } else { break; } } (*target)->commands = commands; } else { } break; case 'b': if (input_buf[1] == 't') { uint32_t stack = context->aregs[7]; if (stack >= 0xE00000) { stack &= 0xFFFF; uint8_t non_adr_count = 0; do { uint32_t bt_address = system->work_ram[stack/2] << 16 | system->work_ram[stack/2+1]; bt_address = get_instruction_start(context->options, bt_address - 2); if (bt_address) { stack += 4; non_adr_count = 0; uint16_t *bt_pc = NULL; if (bt_address < 0x400000) { bt_pc = system->cart + bt_address/2; } else if(bt_address > 0xE00000) { bt_pc = system->work_ram + (bt_address & 0xFFFF)/2; } m68k_decode(bt_pc, &inst, bt_address); m68k_disasm(&inst, input_buf); printf("%X: %s\n", bt_address, input_buf); } else { //non-return address value on stack can be word wide stack += 2; non_adr_count++; } stack &= 0xFFFF; } while (stack && non_adr_count < 6); } } else { param = find_param(input_buf); if (!param) { fputs("b command requires a parameter\n", stderr); break; } value = strtol(param, NULL, 16); insert_breakpoint(context, value, debugger); new_bp = malloc(sizeof(bp_def)); new_bp->next = breakpoints; new_bp->address = value; new_bp->index = bp_index++; new_bp->commands = NULL; breakpoints = new_bp; printf("68K Breakpoint %d set at %X\n", new_bp->index, value); } break; case 'a': param = find_param(input_buf); if (!param) { fputs("a command requires a parameter\n", stderr); break; } value = strtol(param, NULL, 16); insert_breakpoint(context, value, debugger); return 0; case 'd': if (input_buf[1] == 'i') { format_char = 0; for(int i = 2; input_buf[i] != 0 && input_buf[i] != ' '; i++) { if (input_buf[i] == '/') { format_char = input_buf[i+1]; break; } } param = find_param(input_buf); if (!param) { fputs("display command requires a parameter\n", stderr); break; } debugger_print(context, format_char, param, address); add_display(&displays, &disp_index, format_char, param); } else { param = find_param(input_buf); if (!param) { fputs("d command requires a parameter\n", stderr); break; } value = atoi(param); this_bp = find_breakpoint_idx(&breakpoints, value); if (!*this_bp) { fprintf(stderr, "Breakpoint %d does not exist\n", value); break; } new_bp = *this_bp; *this_bp = (*this_bp)->next; if (new_bp->commands) { free(new_bp->commands); } free(new_bp); } break; case 'p': format_char = 0; for(int i = 1; input_buf[i] != 0 && input_buf[i] != ' '; i++) { if (input_buf[i] == '/') { format_char = input_buf[i+1]; break; } } param = find_param(input_buf); if (param) { debugger_print(context, format_char, param, address); } else { m68k_disasm(&inst, input_buf); printf("%X: %s\n", address, input_buf); } break; case 'n': if (inst.op == M68K_RTS) { after = m68k_read_long(context->aregs[7], context); } else if (inst.op == M68K_RTE || inst.op == M68K_RTR) { after = m68k_read_long(context->aregs[7] + 2, context); } else if(m68k_is_noncall_branch(&inst)) { if (inst.op == M68K_BCC && inst.extra.cond != COND_TRUE) { branch_f = after; branch_t = m68k_branch_target(&inst, context->dregs, context->aregs); insert_breakpoint(context, branch_t, debugger); } else if(inst.op == M68K_DBCC) { if ( inst.extra.cond == COND_FALSE) { if (context->dregs[inst.dst.params.regs.pri] & 0xFFFF) { after = m68k_branch_target(&inst, context->dregs, context->aregs); } } else { branch_t = after; branch_f = m68k_branch_target(&inst, context->dregs, context->aregs); insert_breakpoint(context, branch_f, debugger); } } else { after = m68k_branch_target(&inst, context->dregs, context->aregs); } } insert_breakpoint(context, after, debugger); return 0; case 'o': if (inst.op == M68K_RTS) { after = m68k_read_long(context->aregs[7], context); } else if (inst.op == M68K_RTE || inst.op == M68K_RTR) { after = m68k_read_long(context->aregs[7] + 2, context); } else if(m68k_is_noncall_branch(&inst)) { if (inst.op == M68K_BCC && inst.extra.cond != COND_TRUE) { branch_t = m68k_branch_target(&inst, context->dregs, context->aregs) & 0xFFFFFF; if (branch_t < after) { branch_t = 0; } else { branch_f = after; insert_breakpoint(context, branch_t, debugger); } } else if(inst.op == M68K_DBCC) { uint32_t target = m68k_branch_target(&inst, context->dregs, context->aregs) & 0xFFFFFF; if (target > after) { if (inst.extra.cond == COND_FALSE) { after = target; } else { branch_f = target; branch_t = after; insert_breakpoint(context, branch_f, debugger); } } } else { after = m68k_branch_target(&inst, context->dregs, context->aregs) & 0xFFFFFF; } } insert_breakpoint(context, after, debugger); return 0; case 's': if (input_buf[1] == 'e') { param = find_param(input_buf); if (!param) { fputs("Missing destination parameter for set\n", stderr); return 1; } char *val = find_param(param); if (!val) { fputs("Missing value parameter for set\n", stderr); return 1; } long int_val; int reg_num; switch (val[0]) { case 'd': case 'a': reg_num = val[1] - '0'; if (reg_num < 0 || reg_num > 8) { fprintf(stderr, "Invalid register %s\n", val); return 1; } int_val = (val[0] == 'd' ? context->dregs : context->aregs)[reg_num]; break; case '$': int_val = strtol(val+1, NULL, 16); break; case '0': if (val[1] == 'x') { int_val = strtol(val+2, NULL, 16); break; } default: int_val = strtol(val, NULL, 10); } switch(param[0]) { case 'd': case 'a': reg_num = param[1] - '0'; if (reg_num < 0 || reg_num > 8) { fprintf(stderr, "Invalid register %s\n", param); return 1; } (param[0] == 'd' ? context->dregs : context->aregs)[reg_num] = int_val; break; default: fprintf(stderr, "Invalid destinatino %s\n", param); } break; } else if (input_buf[1] == 'r') { system->header.soft_reset(&system->header); return 0; } else { if (inst.op == M68K_RTS) { after = m68k_read_long(context->aregs[7], context); } else if (inst.op == M68K_RTE || inst.op == M68K_RTR) { after = m68k_read_long(context->aregs[7] + 2, context); } else if(m68k_is_branch(&inst)) { if (inst.op == M68K_BCC && inst.extra.cond != COND_TRUE) { branch_f = after; branch_t = m68k_branch_target(&inst, context->dregs, context->aregs) & 0xFFFFFF; insert_breakpoint(context, branch_t, debugger); } else if(inst.op == M68K_DBCC) { if (inst.extra.cond == COND_FALSE) { if (context->dregs[inst.dst.params.regs.pri] & 0xFFFF) { after = m68k_branch_target(&inst, context->dregs, context->aregs); } } else { branch_t = after; branch_f = m68k_branch_target(&inst, context->dregs, context->aregs); insert_breakpoint(context, branch_f, debugger); } } else { after = m68k_branch_target(&inst, context->dregs, context->aregs) & 0xFFFFFF; } } insert_breakpoint(context, after, debugger); return 0; } case 'v': { genesis_context * gen = context->system; //VDP debug commands switch(input_buf[1]) { case 's': vdp_print_sprite_table(gen->vdp); break; case 'r': vdp_print_reg_explain(gen->vdp); break; } break; } case 'y': { genesis_context * gen = context->system; //YM-2612 debug commands switch(input_buf[1]) { case 'c': if (input_buf[2] == ' ') { int channel = atoi(input_buf+3)-1; ym_print_channel_info(gen->ym, channel); } else { for (int i = 0; i < 6; i++) { ym_print_channel_info(gen->ym, i); } } break; case 't': ym_print_timer_info(gen->ym); break; } break; } #ifndef NO_Z80 case 'z': { genesis_context * gen = context->system; //Z80 debug commands switch(input_buf[1]) { case 'b': param = find_param(input_buf); if (!param) { fputs("zb command requires a parameter\n", stderr); break; } value = strtol(param, NULL, 16); zinsert_breakpoint(gen->z80, value, (uint8_t *)zdebugger); new_bp = malloc(sizeof(bp_def)); new_bp->next = zbreakpoints; new_bp->address = value; new_bp->index = zbp_index++; zbreakpoints = new_bp; printf("Z80 Breakpoint %d set at %X\n", new_bp->index, value); break; case 'p': param = find_param(input_buf); if (!param) { fputs("zp command requires a parameter\n", stderr); break; } zdebugger_print(gen->z80, input_buf[2] == '/' ? input_buf[3] : 0, param); } break; } #endif case '?': print_m68k_help(); break; case 'q': puts("Quitting"); exit(0); break; default: fprintf(stderr, "Unrecognized debugger command %s\nUse '?' for help.\n", input_buf); break; } return 1; } void print_m68k_help() { printf("M68k Debugger Commands\n"); printf(" b ADDRESS - Set a breakpoint at ADDRESS\n"); printf(" d BREAKPOINT - Delete a 68K breakpoint\n"); printf(" co BREAKPOINT - Run a list of debugger commands each time\n"); printf(" BREAKPOINT is hit\n"); printf(" a ADDRESS - Advance to address\n"); printf(" n - Advance to next instruction\n"); printf(" o - Advance to next instruction ignoring branches to\n"); printf(" lower addresses (good for breaking out of loops)\n"); printf(" s - Advance to next instruction (follows bsr/jsr)\n"); printf(" se REG|ADDRESS VALUE - Set value\n"); printf(" sr - Soft reset\n"); printf(" c - Continue\n"); printf(" bt - Print a backtrace\n"); printf(" p[/(x|X|d|c)] VALUE - Print a register or memory location\n"); printf(" di[/(x|X|d|c)] VALUE - Print a register or memory location each time\n"); printf(" a breakpoint is hit\n"); printf(" vs - Print VDP sprite list\n"); printf(" vr - Print VDP register info\n"); printf(" yc [CHANNEL NUM] - Print YM-2612 channel info\n"); printf(" yt - Print YM-2612 timer info\n"); printf(" zb ADDRESS - Set a Z80 breakpoint\n"); printf(" zp[/(x|X|d|c)] VALUE - Display a Z80 value\n"); printf(" ? - Display help\n"); printf(" q - Quit BlastEm\n"); } void print_z80_help() { printf("Z80 Debugger Commands\n"); printf(" b ADDRESS - Set a breakpoint at ADDRESS\n"); printf(" de BREAKPOINT - Delete a Z80 breakpoint\n"); printf(" a ADDRESS - Advance to address\n"); printf(" n - Advance to next instruction\n"); printf(" c - Continue\n"); printf(" p[/(x|X|d|c)] VALUE - Print a register or memory location\n"); printf(" di[/(x|X|d|c)] VALUE - Print a register or memory location each time\n"); printf(" a breakpoint is hit\n"); printf(" q - Quit BlastEm\n"); } void debugger(m68k_context * context, uint32_t address) { static char last_cmd[1024]; char input_buf[1024]; m68kinst inst; init_terminal(); sync_components(context, 0); genesis_context *gen = context->system; vdp_force_update_framebuffer(gen->vdp); //probably not necessary, but let's play it safe address &= 0xFFFFFF; if (address == branch_t) { bp_def ** f_bp = find_breakpoint(&breakpoints, branch_f); if (!*f_bp) { remove_breakpoint(context, branch_f); } branch_t = branch_f = 0; } else if(address == branch_f) { bp_def ** t_bp = find_breakpoint(&breakpoints, branch_t); if (!*t_bp) { remove_breakpoint(context, branch_t); } branch_t = branch_f = 0; } uint16_t * pc = get_native_pointer(address, (void **)context->mem_pointers, &context->options->gen); if (!pc) { fatal_error("Entered 68K debugger at address %X\n", address); } uint16_t * after_pc = m68k_decode(pc, &inst, address); uint32_t after = address + (after_pc-pc)*2; int debugging = 1; //Check if this is a user set breakpoint, or just a temporary one bp_def ** this_bp = find_breakpoint(&breakpoints, address); if (*this_bp) { if ((*this_bp)->commands) { char *commands = strdup((*this_bp)->commands); char *copy = commands; while (debugging && *commands) { char *cmd = commands; strip_nl(cmd); commands += strlen(cmd) + 1; debugging = run_debugger_command(context, address, cmd, inst, after); } free(copy); } if (debugging) { printf("68K Breakpoint %d hit\n", (*this_bp)->index); } else { return; } } else { remove_breakpoint(context, address); } for (disp_def * cur = displays; cur; cur = cur->next) { debugger_print(context, cur->format_char, cur->param, address); } m68k_disasm(&inst, input_buf); printf("%X: %s\n", address, input_buf); #ifdef _WIN32 #define prompt 1 #else int prompt = 1; fd_set read_fds; FD_ZERO(&read_fds); struct timeval timeout; #endif while (debugging) { if (prompt) { fputs(">", stdout); fflush(stdout); } process_events(); #ifndef _WIN32 timeout.tv_sec = 0; timeout.tv_usec = 16667; FD_SET(fileno(stdin), &read_fds); if(select(fileno(stdin) + 1, &read_fds, NULL, NULL, &timeout) < 1) { prompt = 0; continue; } else { prompt = 1; } #endif if (!fgets(input_buf, sizeof(input_buf), stdin)) { fputs("fgets failed", stderr); break; } strip_nl(input_buf); //hitting enter repeats last command if (input_buf[0]) { strcpy(last_cmd, input_buf); } else { strcpy(input_buf, last_cmd); } debugging = run_debugger_command(context, address, input_buf, inst, after); } return; }