Mercurial > repos > blastem
view dis.c @ 2069:8e51c0c3f2e3 segacd
Initial attempt at implementing the Sega CD graphics hardware
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Sun, 30 Jan 2022 19:55:33 -0800 |
| parents | 460e14497120 |
| children | 1ff67ce37085 |
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/* Copyright 2013 Michael Pavone This file is part of BlastEm. BlastEm is free software distributed under the terms of the GNU General Public License version 3 or greater. See COPYING for full license text. */ #include "68kinst.h" #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdarg.h> #include <ctype.h> #include "vos_program_module.h" #include "tern.h" #include "util.h" uint8_t visited[(16*1024*1024)/16]; uint16_t label[(16*1024*1024)/8]; void fatal_error(char *format, ...) { va_list args; va_start(args, format); vfprintf(stderr, format, args); va_end(args); exit(1); } void visit(uint32_t address) { address &= 0xFFFFFF; visited[address/16] |= 1 << ((address / 2) % 8); } void reference(uint32_t address) { address &= 0xFFFFFF; //printf("referenced: %X\n", address); label[address/16] |= 1 << (address % 16); } uint8_t is_visited(uint32_t address) { address &= 0xFFFFFF; return visited[address/16] & (1 << ((address / 2) % 8)); } uint16_t is_label(uint32_t address) { address &= 0xFFFFFF; return label[address/16] & (1 << (address % 16)); } typedef struct { uint32_t num_labels; uint32_t storage; char *labels[]; } label_names; tern_node * add_label(tern_node * head, char * name, uint32_t address) { char key[MAX_INT_KEY_SIZE]; address &= 0xFFFFFF; reference(address); tern_int_key(address, key); label_names * names = tern_find_ptr(head, key); if (names) { if (names->num_labels == names->storage) { names->storage = names->storage + (names->storage >> 1); names = realloc(names, sizeof(label_names) + names->storage * sizeof(char *)); } } else { names = malloc(sizeof(label_names) + 4 * sizeof(char *)); names->num_labels = 0; names->storage = 4; head = tern_insert_ptr(head, key, names); } names->labels[names->num_labels++] = strdup(name); return head; } typedef struct deferred { uint32_t address; struct deferred *next; } deferred; deferred * defer(uint32_t address, deferred * next) { if (is_visited(address) || address & 1) { return next; } //printf("deferring %X\n", address); deferred * d = malloc(sizeof(deferred)); d->address = address; d->next = next; return d; } void check_reference(m68kinst * inst, m68k_op_info * op) { switch(op->addr_mode) { case MODE_PC_DISPLACE: reference(inst->address + 2 + op->params.regs.displacement); break; case MODE_ABSOLUTE: case MODE_ABSOLUTE_SHORT: reference(op->params.immed); break; } } int label_fun(char *dst, uint32_t address, void * data) { tern_node * labels = data; char key[MAX_INT_KEY_SIZE]; label_names * names = tern_find_ptr(labels, tern_int_key(address & 0xFFFFFF, key)); if (names) { return sprintf(dst, "%s", names->labels[0]); } else { return m68k_default_label_fun(dst, address, NULL); } } char * strip_ws(char * text) { while (*text && (!isprint(*text) || isblank(*text))) { text++; } char * ret = text; text = ret + strlen(ret) - 1; while (text > ret && (!isprint(*text) || isblank(*text))) { *text = 0; text--; } return ret; } int main(int argc, char ** argv) { long filesize; unsigned short *filebuf; char disbuf[1024]; m68kinst instbuf; unsigned short * cur; deferred *def = NULL, *tmpd; uint8_t labels = 0, addr = 0, only = 0, vos = 0, reset = 0; tern_node * named_labels = NULL; uint32_t address_off = 0, address_end; for(uint8_t opt = 2; opt < argc; ++opt) { if (argv[opt][0] == '-') { FILE * address_log; switch (argv[opt][1]) { case 'l': labels = 1; break; case 'a': addr = 1; break; case 'o': only = 1; break; case 'v': vos = 1; break; case 'r': reset = 1; break; case 's': opt++; if (opt >= argc) { fputs("-s must be followed by an offset\n", stderr); exit(1); } address_off = strtol(argv[opt], NULL, 0); break; case 'f': opt++; if (opt >= argc) { fputs("-f must be followed by a filename\n", stderr); exit(1); } address_log = fopen(argv[opt], "r"); if (!address_log) { fprintf(stderr, "Failed to open %s for reading\n", argv[opt]); exit(1); } while (fgets(disbuf, sizeof(disbuf), address_log)) { if (disbuf[0]) { char *end; uint32_t address = strtol(disbuf, &end, 16); if (address) { def = defer(address, def); reference(address); if (*end == '=') { named_labels = add_label(named_labels, strip_ws(end+1), address); } } } } fclose(address_log); } } else { char *end; uint32_t address = strtol(argv[opt], &end, 16); def = defer(address, def); reference(address); if (*end == '=') { named_labels = add_label(named_labels, end+1, address); } } } FILE * f = fopen(argv[1], "rb"); fseek(f, 0, SEEK_END); filesize = ftell(f); fseek(f, 0, SEEK_SET); char int_key[MAX_INT_KEY_SIZE]; if (vos) { vos_program_module header; vos_read_header(f, &header); vos_read_alloc_module_map(f, &header); address_off = header.user_boundary; address_end = address_off + filesize - 0x1000; def = defer(header.main_entry_link.code_address, def); named_labels = add_label(named_labels, "main_entry_link", header.main_entry_link.code_address); for (int i = 0; i < header.n_modules; i++) { if (!reset || header.module_map_entries[i].code_address != header.user_boundary) { def = defer(header.module_map_entries[i].code_address, def); } named_labels = add_label(named_labels, header.module_map_entries[i].name.str, header.module_map_entries[i].code_address); } fseek(f, 0x1000, SEEK_SET); filebuf = malloc(filesize - 0x1000); if (fread(filebuf, 2, (filesize - 0x1000)/2, f) != (filesize - 0x1000)/2) { fprintf(stderr, "Failure while reading file %s\n", argv[1]); } fclose(f); for(cur = filebuf; cur - filebuf < ((filesize - 0x1000)/2); ++cur) { *cur = (*cur >> 8) | (*cur << 8); } if (reset) { def = defer(filebuf[2] << 16 | filebuf[3], def); named_labels = add_label(named_labels, "reset", filebuf[2] << 16 | filebuf[3]); } } else { address_end = address_off + filesize; filebuf = malloc(filesize); if (fread(filebuf, 2, filesize/2, f) != filesize/2) { fprintf(stderr, "Failure while reading file %s\n", argv[1]); } fclose(f); for(cur = filebuf; cur - filebuf < (filesize/2); ++cur) { *cur = (*cur >> 8) | (*cur << 8); } if (!address_off) { uint32_t start = filebuf[2] << 16 | filebuf[3]; uint32_t int_2 = filebuf[0x68/2] << 16 | filebuf[0x6A/2]; uint32_t int_4 = filebuf[0x70/2] << 16 | filebuf[0x72/2]; uint32_t int_6 = filebuf[0x78/2] << 16 | filebuf[0x7A/2]; named_labels = add_label(named_labels, "start", start); named_labels = add_label(named_labels, "int_2", int_2); named_labels = add_label(named_labels, "int_4", int_4); named_labels = add_label(named_labels, "int_6", int_6); if (!def || !only) { def = defer(start, def); def = defer(int_2, def); def = defer(int_4, def); def = defer(int_6, def); } } } uint16_t *encoded, *next; uint32_t size, tmp_addr; uint32_t address; while(def) { do { encoded = NULL; address = def->address; if (!is_visited(address)) { encoded = filebuf + ((address & 0xFFFFFF) - address_off)/2; } tmpd = def; def = def->next; free(tmpd); } while(def && encoded == NULL); if (!encoded) { break; } for(;;) { if ((address & 0xFFFFFF) > address_end || address < address_off) { break; } visit(address); next = m68k_decode(encoded, &instbuf, address); address += (next-encoded)*2; encoded = next; //m68k_disasm(&instbuf, disbuf); //printf("%X: %s\n", instbuf.address, disbuf); check_reference(&instbuf, &(instbuf.src)); check_reference(&instbuf, &(instbuf.dst)); if (instbuf.op == M68K_ILLEGAL || instbuf.op == M68K_RTS || instbuf.op == M68K_RTE || instbuf.op == M68K_INVALID) { break; } if (instbuf.op == M68K_BCC || instbuf.op == M68K_DBCC || instbuf.op == M68K_BSR) { if (instbuf.op == M68K_BCC && instbuf.extra.cond == COND_TRUE) { address = instbuf.address + 2 + instbuf.src.params.immed; encoded = filebuf + (address - address_off)/2; reference(address); if (is_visited(address)) { break; } } else { tmp_addr = instbuf.address + 2 + instbuf.src.params.immed; reference(tmp_addr); def = defer(tmp_addr, def); } } else if(instbuf.op == M68K_JMP) { if (instbuf.src.addr_mode == MODE_ABSOLUTE || instbuf.src.addr_mode == MODE_ABSOLUTE_SHORT) { address = instbuf.src.params.immed; encoded = filebuf + (address - address_off)/2; if (is_visited(address)) { break; } } else if (instbuf.src.addr_mode == MODE_PC_DISPLACE) { address = instbuf.src.params.regs.displacement + instbuf.address + 2; encoded = filebuf + (address - address_off)/2; if (is_visited(address)) { break; } } else { break; } } else if(instbuf.op == M68K_JSR) { if (instbuf.src.addr_mode == MODE_ABSOLUTE || instbuf.src.addr_mode == MODE_ABSOLUTE_SHORT) { def = defer(instbuf.src.params.immed, def); } else if (instbuf.src.addr_mode == MODE_PC_DISPLACE) { def = defer(instbuf.src.params.regs.displacement + instbuf.address + 2, def); } } } } if (labels) { for (address = 0; address < address_off; address++) { if (is_label(address)) { printf("ADR_%X equ $%X\n", address, address); } } for (address = filesize; address < (16*1024*1024); address++) { char key[MAX_INT_KEY_SIZE]; tern_int_key(address, key); label_names *names = tern_find_ptr(named_labels, key); if (names) { for (int i = 0; i < names->num_labels; i++) { printf("%s equ $%X\n", names->labels[i], address); } } else if (is_label(address)) { printf("ADR_%X equ $%X\n", address, address); } } puts(""); } for (address = address_off; address < address_end; address+=2) { if (is_visited(address)) { encoded = filebuf + (address-address_off)/2; m68k_decode(encoded, &instbuf, address); if (labels) { m68k_disasm_labels(&instbuf, disbuf, label_fun, named_labels); char keybuf[MAX_INT_KEY_SIZE]; label_names * names = tern_find_ptr(named_labels, tern_int_key(address, keybuf)); if (names) { for (int i = 0; i < names->num_labels; i++) { printf("%s:\n", names->labels[i]); } } else if (is_label(instbuf.address)) { printf("ADR_%X:\n", instbuf.address); } if (addr) { printf("\t%s\t;%X\n", disbuf, instbuf.address); } else { printf("\t%s\n", disbuf); } } else { m68k_disasm(&instbuf, disbuf); printf("%X: %s\n", instbuf.address, disbuf); } } } return 0; }