/* #FILENAME# #DESCRIPTION# Copyright (C) 2001 #AUTHOR# Author: #AUTHOR# Date: #DATE# 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: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif static __attribute__ ((unused)) const char rcsid[] = "$Id$"; #include #include #ifdef HAVE_UNISTD_H # include #endif #ifdef HAVE_IO_H # include #endif #include #include #include #ifdef HAVE_FCNTL_H # include #else # include #endif #include #include #include "QF/cmd.h" #include "QF/cvar.h" #include "QF/hash.h" #include "QF/pr_comp.h" #include "QF/progs.h" #include "QF/quakeio.h" #include "QF/sys.h" #include "QF/va.h" #include "QF/zone.h" #include "obj_file.h" #include "qfprogs.h" #include "reloc.h" const char *reloc_names[] = { "none", "op_a_def", "op_b_def", "op_c_def", "op_a_op", "op_b_op", "op_c_op", "def_op", "def_def", "def_func", "def_string", "def_field", "op_a_def_ofs", "op_b_def_ofs", "op_c_def_ofs", "def_def_ofs", }; int sorted = 0; int verbosity = 0; static const struct option long_options[] = { {"disassemble", no_argument, 0, 'd'}, {"globals", no_argument, 0, 'g'}, {"strings", no_argument, 0, 's'}, {"fields", no_argument, 0, 'f'}, {"functions", no_argument, 0, 'F'}, {"lines", no_argument, 0, 'l'}, {"modules", no_argument, 0, 'M'}, {"path", required_argument, 0, 'P'}, {"verbose", no_argument, 0, 'v'}, {"numeric", no_argument, 0, 'n'}, {NULL, 0, NULL, 0}, }; static edict_t *edicts; static int num_edicts; static int reserved_edicts = 1; static progs_t pr; static void *membase; static int memsize = 1024*1024; static pr_debug_header_t debug; static qfo_t *qfo; static dprograms_t progs; static const char *source_path = ""; static hashtab_t *func_tab; static QFile * open_file (const char *path, int *len) { QFile *file = Qopen (path, "rbz"); if (!file) return 0; *len = Qfilesize (file); return file; } static void file_error (progs_t *pr, const char *name) { perror (name); } static void * load_file (progs_t *pr, const char *name) { QFile *file; int size; void *sym; file = open_file (name, &size); if (!file) { file = open_file (va ("%s.gz", name), &size); if (!file) return 0; } sym = malloc (size); Qread (file, sym, size); return sym; } static void * allocate_progs_mem (progs_t *pr, int size) { return malloc (size); } static void free_progs_mem (progs_t *pr, void *mem) { free (mem); } static unsigned long func_hash (void *func, void *unused) { return ((dfunction_t *) func)->first_statement; } static int func_compare (void *f1, void *f2, void *unused) { return ((dfunction_t *) f1)->first_statement == ((dfunction_t *) f2)->first_statement; } dfunction_t * func_find (int st_ofs) { dfunction_t f; f.first_statement = st_ofs; return Hash_FindElement (func_tab, &f); } static void init_qf (void) { Cvar_Init_Hash (); Cmd_Init_Hash (); Cvar_Init (); Sys_Init_Cvars (); Cmd_Init (); membase = malloc (memsize); Memory_Init (membase, memsize); Cvar_Get ("pr_debug", va ("%d", verbosity), 0, 0, ""); Cvar_Get ("pr_source_path", source_path, 0, 0, ""); PR_Init_Cvars (); PR_Init (); pr.edicts = &edicts; pr.num_edicts = &num_edicts; pr.reserved_edicts = &reserved_edicts; pr.file_error = file_error; pr.load_file = load_file; pr.allocate_progs_mem = allocate_progs_mem; pr.free_progs_mem = free_progs_mem; func_tab = Hash_NewTable (1021, 0, 0, 0); Hash_SetHashCompare (func_tab, func_hash, func_compare); } static etype_t get_auxtype (const char *type) { if (type[0] != 'F') { return ev_void; } else { switch (type[1]) { default: case 'v': return ev_void; case '*': return ev_string; case 'f': return ev_float; case 'V': return ev_vector; case 'E': return ev_entity; case 'F': return ev_field; case '(': return ev_func; case ':': return ev_sel; case '@': // id case '#': // class case '^': return ev_pointer; case 'Q': return ev_quaternion; case 'i': return ev_integer; case 'I': return ev_uinteger; case 's': return ev_short; case '{': return ev_struct; case '[': return ev_array; } } } static void convert_def (const qfo_def_t *def, ddef_t *ddef) { ddef->type = def->basic_type; ddef->ofs = def->ofs; ddef->s_name = def->name; if (!(def->flags & QFOD_NOSAVE) && !(def->flags & QFOD_CONSTANT) && (def->flags & QFOD_GLOBAL) && def->basic_type != ev_func && def->basic_type != ev_field) ddef->type |= DEF_SAVEGLOBAL; } static void convert_qfo (void) { int i, j, num_locals = 0, num_externs = 0; qfo_def_t *defs; ddef_t *ld; defs = malloc (qfo->num_defs * sizeof (qfo_def_t)); memcpy (defs, qfo->defs, qfo->num_defs * sizeof (qfo_def_t)); pr.progs = &progs; progs.version = PROG_VERSION; pr.pr_statements = malloc (qfo->code_size * sizeof (dstatement_t)); memcpy (pr.pr_statements, qfo->code, qfo->code_size * sizeof (dstatement_t)); progs.numstatements = qfo->code_size; pr.pr_strings = qfo->strings; progs.numstrings = qfo->strings_size; pr.pr_stringsize = qfo->strings_size; progs.numfunctions = qfo->num_funcs; pr.pr_functions = calloc (qfo->num_funcs, sizeof (dfunction_t)); pr.pr_functions = calloc (qfo->num_funcs, sizeof (dfunction_t)); pr.auxfunctions = calloc (qfo->num_funcs, sizeof (pr_auxfunction_t)); pr.auxfunction_map = calloc (qfo->num_funcs, sizeof (pr_auxfunction_t *)); ld = pr.local_defs = calloc (qfo->num_defs, sizeof (ddef_t)); for (i = 0; i < qfo->num_funcs; i++) { qfo_func_t *func = qfo->funcs + i; dfunction_t df; df.first_statement = func->builtin ? -func->builtin : func->code; df.parm_start = qfo->data_size; df.locals = func->locals_size; df.profile = 0; df.s_name = func->name; df.s_file = func->file; df.numparms = func->num_parms; memcpy (df.parm_size, func->parm_size, sizeof (df.parm_size)); if (df.locals > num_locals) num_locals = df.locals; pr.pr_functions[i] = df; pr.auxfunction_map[i] = pr.auxfunctions + i; pr.auxfunctions[i].function = i; pr.auxfunctions[i].source_line = func->line; pr.auxfunctions[i].line_info = func->line_info; pr.auxfunctions[i].local_defs = ld - pr.local_defs; pr.auxfunctions[i].num_locals = func->num_local_defs; for (j = 0; j < func->num_local_defs; j++) { qfo_def_t *d = defs + func->local_defs + j; convert_def (d, ld++); d->ofs += qfo->data_size; } } progs.numglobaldefs = 0; progs.numfielddefs = 0; progs.entityfields = 0; pr.pr_globaldefs = calloc (qfo->num_defs, sizeof (ddef_t)); pr.pr_fielddefs = calloc (qfo->num_defs, sizeof (ddef_t)); for (i = 0; i < qfo->num_defs; i++) { qfo_def_t *def = defs + i; ddef_t ddef; if (!(def->flags & QFOD_LOCAL) && def->name) { if (def->flags & QFOD_EXTERNAL) { int size = pr_type_size[def->basic_type]; //FIXME struct etc if (!size) size = 1; def->ofs += qfo->data_size + num_locals + num_externs; num_externs += size; } convert_def (def, &ddef); pr.pr_globaldefs[progs.numglobaldefs++] = ddef; if (ddef.type == ev_field) { ddef.type = get_auxtype (qfo->types + def->full_type); progs.entityfields += pr_type_size[ddef.type]; ddef.ofs = qfo->data[ddef.ofs].integer_var; pr.pr_fielddefs[progs.numfielddefs++] = ddef; } } for (j = 0; j < def->num_relocs; j++) { qfo_reloc_t *reloc = qfo->relocs + def->relocs + j; switch ((reloc_type)reloc->type) { case rel_none: break; case rel_op_a_def: pr.pr_statements[reloc->ofs].a = def->ofs; break; case rel_op_b_def: pr.pr_statements[reloc->ofs].b = def->ofs; break; case rel_op_c_def: pr.pr_statements[reloc->ofs].c = def->ofs; break; case rel_op_a_def_ofs: pr.pr_statements[reloc->ofs].a += def->ofs; break; case rel_op_b_def_ofs: pr.pr_statements[reloc->ofs].b += def->ofs; break; case rel_op_c_def_ofs: pr.pr_statements[reloc->ofs].c += def->ofs; break; case rel_def_def: pr.pr_globals[reloc->ofs].integer_var = def->ofs; break; case rel_def_def_ofs: pr.pr_globals[reloc->ofs].integer_var += def->ofs; break; // these are relative and fixed up before the .qfo is written case rel_op_a_op: case rel_op_b_op: case rel_op_c_op: // these aren't relevant here case rel_def_func: case rel_def_op: case rel_def_string: case rel_def_field: break; } } } progs.numglobals = qfo->data_size; pr.globals_size = progs.numglobals + num_locals + num_externs; pr.pr_globals = calloc (pr.globals_size, sizeof (pr_type_t)); memcpy (pr.pr_globals, qfo->data, qfo->data_size * sizeof (pr_type_t)); pr.pr_edict_size = progs.entityfields * 4; pr.linenos = qfo->lines; debug.num_auxfunctions = qfo->num_funcs; debug.num_linenos = qfo->num_lines; debug.num_locals = ld - pr.local_defs; if (verbosity) pr.debug = &debug; } static int load_progs (const char *name) { QFile *file; int i, size; char buff[5]; Hash_FlushTable (func_tab); file = open_file (name, &size); if (!file) { perror (name); return 0; } Qread (file, buff, 4); buff[4] = 0; Qseek (file, 0, SEEK_SET); if (!strcmp (buff, QFO)) { qfo = qfo_read (file); Qclose (file); if (!qfo) return 0; convert_qfo (); } else { pr.progs_name = name; PR_LoadProgsFile (&pr, file, size, 1, 0); Qclose (file); if (!pr.progs) return 0; PR_LoadStrings (&pr); PR_LoadDebug (&pr); } for (i = 0; i < pr.progs->numfunctions; i++) { // don't bother with builtins if (pr.pr_functions[i].first_statement > 0) Hash_AddElement (func_tab, &pr.pr_functions[i]); } return 1; } typedef struct { void (*progs) (progs_t *pr); void (*qfo) (qfo_t *qfo); } operation_t; operation_t operations[] = { {disassemble_progs, 0}, // disassemble {dump_globals, 0}, // globals {dump_strings, 0}, // strings {dump_fields, 0}, // fields {dump_functions, 0}, // functions {dump_lines, 0}, // lines {dump_modules, 0}, // modules }; int main (int argc, char **argv) { int c; operation_t *func = &operations[0]; while ((c = getopt_long (argc, argv, "dgsfFlMP:vn", long_options, 0)) != EOF) { switch (c) { case 'd': func = &operations[0]; break; case 'g': func = &operations[1]; break; case 's': func = &operations[2]; break; case 'f': func = &operations[3]; break; case 'F': func = &operations[4]; break; case 'l': func = &operations[5]; break; case 'M': func = &operations[6]; break; case 'P': source_path = strdup (optarg); break; case 'v': verbosity++; break; case 'n': sorted = 1; break; default: return 1; } } init_qf (); while (optind < argc) { if (!load_progs (argv[optind++])) return 1; if (qfo && func->qfo) func->qfo (qfo); else func->progs (&pr); } return 0; }