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itgmania212121/stepmania/src/disasm/mapconv.cpp
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// mapconv - symbolic debugging info generator for VirtualDub
// Copyright (C) 2002 Avery Lee, All Rights Reserved
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
#include <vector>
#include <algorithm>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define MAX_CNAMBUF (131072)
#define MAX_FNAMBUF (131072)
#define MAX_SEGMENTS (64)
#define MAX_GROUPS (64)
struct RVAEnt {
long rva;
char *line;
};
std::vector<RVAEnt> rvabuf;
char fnambuf[MAX_FNAMBUF];
char *fnamptr = fnambuf;
char cnambuf[MAX_CNAMBUF];
char *cnamptr = cnambuf;
long segbuf[MAX_SEGMENTS][2];
int segcnt=0;
int seggrp[MAX_SEGMENTS];
long grpstart[MAX_GROUPS];
char line[8192];
long codeseg_flags = 0;
FILE *f, *fo;
bool readline() {
if (!fgets(line, sizeof line, f))
return false;
int l = strlen(line);
if (l>0 && line[l-1]=='\n')
line[l-1]=0;
return true;
}
bool findline(const char *searchstr) {
while(readline()) {
if (strstr(line, searchstr))
return true;
}
return false;
}
///////////////////////////////////////////////////////////////////////////
void parsename(long rva, char *buf) {
char *func_name = NULL;
char *class_name = NULL;
char c;
int special_func = 0;
if (*buf++ != '?') {
func_name = buf;
} else {
if (*buf == '?') {
// ??0
// ??1
// ??_G
// ??_E
++buf;
c=*buf++;
special_func = 31;
if (c=='0')
special_func = 1; // constructor
else if (c=='1')
special_func = 2; // destructor
else if (c=='_') {
c = *buf++;
if (c == 'G')
special_func = 3; // scalar deleting destructor
else if (c == 'E')
special_func = 4; // vector deleting destructor?
}
} else {
func_name = buf;
while(*buf != '@') {
if (!*buf)
throw "bad decorated name";
++buf;
}
*buf++ = 0;
}
// Look for a class name.
if (*buf != '@') {
if (!*buf)
throw "bad decorated name";
class_name = buf;
while(*buf != '@') {
if (!*buf)
throw "bad decorated name (class)";
++buf;
}
*buf++ = 0;
}
}
// write out to buffers
if (class_name) {
char *csptr = cnambuf;
int idx = 0;
while(csptr < cnamptr) {
if (!strcmp(csptr, class_name)) {
break;
}
while(*csptr++);
++idx;
}
if (csptr >= cnamptr) {
strcpy(cnamptr, class_name);
while(*cnamptr++);
}
*fnamptr++ = 1 + (idx / 128);
*fnamptr++ = 1 + (idx % 128);
if (special_func)
*fnamptr++ = special_func;
}
if (func_name) {
strcpy(fnamptr, func_name);
while(*fnamptr++);
} else
*fnamptr++ = 0;
}
struct RVASorter {
bool operator()(const RVAEnt& e1, const RVAEnt& e2) {
return e1.rva < e2.rva;
}
};
int main(int argc, char **argv) {
int ver=0;
int i;
long load_addr;
if (argc<4) {
printf("mapconv <listing-file> <output-name> <disassembler module>\n");
return 0;
}
if (f=fopen("version.bin", "rb")) {
fread(&ver,4,1,f);
fclose(f);
} else {
printf("can't read version file\n");
return 20;
}
if (!(f=fopen(argv[1], "r"))) {
printf("can't open listing file \"%s\"\n", argv[1]);
return 20;
}
if (!(fo=fopen(argv[2], "wb"))) {
printf("can't open output file \"%s\"\n", argv[2]);
return 20;
}
int disasm_size = 0;
{
FILE *fd;
if (!(fd=fopen(argv[3], "rb"))) {
printf("can't open disassembler module \"%s\"\n", argv[3]);
return 20;
}
void *buf = malloc(32768);
int act;
while((act = fread(buf, 1, 32768, fd)) > 0) {
disasm_size += act;
fwrite(buf, act, 1, fo);
}
free(buf);
fclose(fd);
}
// Begin parsing file
try {
line[0] = 0;
// printf("Looking for segment list.\n");
if (!findline("Start Length"))
throw "can't find segment list";
// printf("Reading in segment list.\n");
while(readline()) {
long grp, start, len;
if (3!=sscanf(line, "%lx:%lx %lx", &grp, &start, &len))
break;
if (strstr(line+49, "CODE")) {
// printf("%04x:%08lx %08lx type code\n", grp, start, len);
codeseg_flags |= 1<<grp;
segbuf[segcnt][0] = start;
segbuf[segcnt][1] = len;
seggrp[segcnt] = grp;
++segcnt;
}
}
// printf("Looking for public symbol list.\n");
if (!findline("Publics by Value"))
throw "Can't find public symbol list.";
readline();
// printf("Found public symbol list.\n");
while(readline()) {
long grp, start, rva;
char symname[2048];
int i;
if (4!=sscanf(line, "%lx:%lx %s %lx", &grp, &start, symname, &rva))
break;
if (!(codeseg_flags & (1<<grp)))
continue;
RVAEnt entry = { rva, strdup(line) };
rvabuf.push_back(entry);
// parsename(rva,symname);
}
// printf("Looking for static symbol list.\n");
if (!findline("Static symbols"))
printf("WARNING: No static symbols found!\n");
else {
readline();
while(readline()) {
long grp, start, rva;
char symname[4096];
if (4!=sscanf(line, "%lx:%lx %s %lx", &grp, &start, symname, &rva))
break;
if (!(codeseg_flags & (1<<grp)))
continue;
RVAEnt entry = { rva, strdup(line) };
rvabuf.push_back(entry);
// parsename(rva,symname);
}
}
// printf("Sorting RVA entries...\n");
std::sort(rvabuf.begin(), rvabuf.end(), RVASorter());
// printf("Processing RVA entries...\n");
for(i=0; i<rvabuf.size(); i++) {
long grp, start, rva;
char symname[4096];
sscanf(rvabuf[i].line, "%lx:%lx %s %lx", &grp, &start, symname, &rva);
grpstart[grp] = rva - start;
parsename(rva, symname);
}
// printf("Processing segment entries...\n");
for(i=0; i<segcnt; i++) {
segbuf[i][0] += grpstart[seggrp[i]];
// printf("\t#%-2d %08lx-%08lx\n", i+1, segbuf[i][0], segbuf[i][0]+segbuf[i][1]-1);
}
/*
printf("Raw statistics:\n");
printf("\tDisassembler: %ld bytes\n", disasm_size);
printf("\tRVA bytes: %ld\n", rvabuf.size()*4);
printf("\tClass name bytes: %ld\n", cnamptr - cnambuf);
printf("\tFunc name bytes: %ld\n", fnamptr - fnambuf);
printf("\nPacking RVA data..."); fflush(stdout);
*/
std::vector<RVAEnt>::iterator itRVA = rvabuf.begin(), itRVAEnd = rvabuf.end();
std::vector<char> rvaout;
long firstrva = (*itRVA++).rva;
long lastrva = firstrva;
for(; itRVA != itRVAEnd; ++itRVA) {
long rvadiff = (*itRVA).rva - lastrva;
lastrva += rvadiff;
if (rvadiff & 0xF0000000) rvaout.push_back((char)(0x80 | ((rvadiff>>28) & 0x7F)));
if (rvadiff & 0xFFE00000) rvaout.push_back((char)(0x80 | ((rvadiff>>21) & 0x7F)));
if (rvadiff & 0xFFFFC000) rvaout.push_back((char)(0x80 | ((rvadiff>>14) & 0x7F)));
if (rvadiff & 0xFFFFFF80) rvaout.push_back((char)(0x80 | ((rvadiff>> 7) & 0x7F)));
rvaout.push_back((char)(rvadiff & 0x7F));
}
// printf("%ld bytes\n", rvaout.size());
// dump data
long t;
static const char header[64]="[01|01] VirtualDub symbolic debug information\r\n\x1A";
fwrite(header, 64, 1, fo);
t = ver;
fwrite(&t, 4, 1, fo);
t = rvaout.size() + 4;
fwrite(&t, 4, 1, fo);
t = cnamptr - cnambuf;
fwrite(&t, 4, 1, fo);
t = fnamptr - fnambuf;
fwrite(&t, 4, 1, fo);
t = segcnt;
fwrite(&t, 4, 1, fo);
fwrite(&firstrva, 4, 1, fo);
fwrite(&rvaout[0], rvaout.size(), 1, fo);
fwrite(cnambuf, cnamptr - cnambuf, 1, fo);
fwrite(fnambuf, fnamptr - fnambuf, 1, fo);
fwrite(segbuf, segcnt*8, 1, fo);
// really all done
if (fclose(fo))
throw "output file close failed";
} catch(const char *s) {
fprintf(stderr, "%s: %s\n", argv[1], s);
}
fclose(f);
return 0;
}