// XXX buffers_static doesnt constructs the correct string in this callback static int tostring(RDiff *d, void *user, RDiffOp *op) { RDiffUser *u = (RDiffUser*)user; if (op->a_len > 0) { char *a_str = r_str_ndup ((const char *)op->a_buf + op->a_off, op->a_len); u->str = r_str_appendf (u->str, "+(%s)", a_str); #if 0 char *bufasm = r_str_prefix_all (a_str, "- "); u->str = r_str_appendf (u->str, "-(%s)", bufasm); free (bufasm); #endif free (a_str); } if (op->b_len > 0) { char *b_str = r_str_ndup ((const char *)op->b_buf + op->b_off, op->b_len); u->str = r_str_appendf (u->str, "+(%s)", b_str); #if 0 char *bufasm = r_str_prefix_all (b_str, "+ "); u->str = r_str_appendf (u->str, "+(%s)", bufasm); free (bufasm); #endif free (b_str); } if (op->a_len == op->b_len) { char *b_str = r_str_ndup ((const char *)op->a_buf + op->a_off, op->a_len); // char *bufasm = r_str_prefix_all (b_str, " "); u->str = r_str_appendf (u->str, "%s", b_str); // free (bufasm); free (b_str); } return 1; }
R_API int r_core_pseudo_code(RCore *core, const char *input) { Sdb *db; ut64 queuegoto = 0LL; const char *blocktype = "else"; RAnalFunction *fcn = r_anal_get_fcn_in (core->anal, core->offset, R_ANAL_FCN_TYPE_NULL); RConfigHold *hc = r_config_hold_new (core->config); if (!hc) { return false; } r_config_save_num (hc, "asm.pseudo", "asm.decode", "asm.lines", "asm.bytes", NULL); r_config_save_num (hc, "asm.offset", "asm.flags", "asm.fcnlines", "asm.comments", NULL); r_config_save_num (hc, "asm.functions", "asm.section", "asm.cmtcol", "asm.filter", NULL); r_config_save_num (hc, "scr.color", "asm.emustr", "asm.emu", "asm.emuwrite", NULL); if (!fcn) { eprintf ("Cannot find function in 0x%08"PFMT64x"\n", core->offset); r_config_hold_free (hc); return false; } r_config_set_i (core->config, "scr.color", 0); r_config_set_i (core->config, "asm.pseudo", 1); r_config_set_i (core->config, "asm.decode", 0); r_config_set_i (core->config, "asm.filter", 1); r_config_set_i (core->config, "asm.lines", 0); r_config_set_i (core->config, "asm.bytes", 0); r_config_set_i (core->config, "asm.offset", 0); r_config_set_i (core->config, "asm.flags", 0); r_config_set_i (core->config, "asm.emu", 1); r_config_set_i (core->config, "asm.emustr", 1); r_config_set_i (core->config, "asm.emuwrite", 1); r_config_set_i (core->config, "asm.fcnlines", 0); r_config_set_i (core->config, "asm.comments", 1); r_config_set_i (core->config, "asm.functions", 0); r_config_set_i (core->config, "asm.tabs", 0); r_config_set_i (core->config, "asm.section", 0); r_config_set_i (core->config, "asm.cmtcol", 30); r_core_cmd0 (core, "aeim"); db = sdb_new0 (); /* */ // walk all basic blocks // define depth level for each block // use it for indentation // asm.pseudo=true // asm.decode=true RAnalBlock *bb = r_list_first (fcn->bbs); char indentstr[1024]; int n_bb = r_list_length (fcn->bbs); r_cons_printf ("function %s () {", fcn->name); int indent = 1; int nindent = 1; do { #define I_TAB 4 #define K_MARK(x) sdb_fmt(0,"mark.%"PFMT64x,x) #define K_ELSE(x) sdb_fmt(0,"else.%"PFMT64x,x) #define K_INDENT(x) sdb_fmt(0,"loc.%"PFMT64x,x) #define SET_INDENT(x) { memset (indentstr, ' ', x*I_TAB); indentstr [(x*I_TAB)-2] = 0; } if (!bb) break; r_cons_push (); char *code = r_core_cmd_str (core, sdb_fmt (0, "pD %d @ 0x%08"PFMT64x"\n", bb->size, bb->addr)); r_cons_pop (); memset (indentstr, ' ', indent * I_TAB); indentstr [(indent * I_TAB) - 2] = 0; code = r_str_prefix_all (code, indentstr); int len = strlen (code); code[len - 1] = 0; // chop last newline //r_cons_printf ("\n%s loc_0x%llx:\n", indentstr, bb->addr); //if (nindent != indent) { // r_cons_printf ("\n%s loc_0x%llx:\n", indentstr, bb->addr); //} find_and_change (code, len); if (!sdb_const_get (db, K_MARK (bb->addr), 0)) { bool mustprint = !queuegoto || queuegoto != bb->addr; if (mustprint) { if (queuegoto) { r_cons_printf ("\n%s goto loc_0x%llx", indentstr, queuegoto); queuegoto = 0LL; } r_cons_printf ("\n%s loc_0x%llx:\n", indentstr, bb->addr); indentstr[(indent * I_TAB) - 2] = 0; r_cons_printf ("\n%s", code); free (code); sdb_num_set (db, K_MARK (bb->addr), 1, 0); } } if (sdb_const_get (db, K_INDENT (bb->addr), 0)) { // already analyzed, go pop and continue // XXX check if cant pop //eprintf ("%s// 0x%08llx already analyzed\n", indentstr, bb->addr); ut64 addr = sdb_array_pop_num (db, "indent", NULL); if (addr == UT64_MAX) { int i; nindent = 1; for (i = indent; i != nindent; i--) { SET_INDENT (i); r_cons_printf ("\n%s}", indentstr); } r_cons_printf ("\n%sreturn;\n", indentstr); break; } if (sdb_num_get (db, K_ELSE (bb->addr), 0)) { if (!strcmp (blocktype, "else")) { r_cons_printf ("\n%s } %s {", indentstr, blocktype); } else { r_cons_printf ("\n%s } %s (?);", indentstr, blocktype); } } else { r_cons_printf ("\n%s}", indentstr); } if (addr != bb->addr) { queuegoto = addr; //r_cons_printf ("\n%s goto loc_0x%llx", indentstr, addr); } bb = r_anal_bb_from_offset (core->anal, addr); if (!bb) { eprintf ("failed block\n"); break; } //eprintf ("next is %llx\n", addr); nindent = sdb_num_get (db, K_INDENT (addr), NULL); if (indent > nindent && !strcmp (blocktype, "else")) { int i; for (i = indent; i != nindent; i--) { SET_INDENT (i); r_cons_printf ("\n%s }", indentstr); } } indent = nindent; } else { sdb_set (db, K_INDENT (bb->addr), "passed", 0); if (bb->jump != UT64_MAX) { int swap = 1; // TODO: determine which branch take first ut64 jump = swap ? bb->jump : bb->fail; ut64 fail = swap ? bb->fail : bb->jump; // if its from another function chop it! RAnalFunction *curfcn = r_anal_get_fcn_in (core->anal, jump, R_ANAL_FCN_TYPE_NULL); if (curfcn != fcn) { // chop that branch r_cons_printf ("\n // chop\n"); break; } if (sdb_get (db, K_INDENT (jump), 0)) { // already tracekd if (!sdb_get (db, K_INDENT (fail), 0)) { bb = r_anal_bb_from_offset (core->anal, fail); } } else { bb = r_anal_bb_from_offset (core->anal, jump); if (!bb) { eprintf ("failed to retrieve blcok at 0x%"PFMT64x"\n", jump); break; } if (fail != UT64_MAX) { // do not push if already pushed indent++; if (sdb_get (db, K_INDENT (bb->fail), 0)) { /* do nothing here */ eprintf ("BlockAlready 0x%"PFMT64x"\n", bb->addr); } else { // r_cons_printf (" { RADICAL %llx\n", bb->addr); sdb_array_push_num (db, "indent", fail, 0); sdb_num_set (db, K_INDENT (fail), indent, 0); sdb_num_set (db, K_ELSE (fail), 1, 0); SET_INDENT (indent); r_cons_printf ("\n%s {", indentstr); } } else { r_cons_printf ("\n%s do", indentstr); sdb_array_push_num (db, "indent", jump, 0); sdb_num_set (db, K_INDENT (jump), indent, 0); sdb_num_set (db, K_ELSE (jump), 1, 0); if (jump <= bb->addr) { blocktype = "while"; } else { blocktype = "else"; } r_cons_printf ("\n%s {", indentstr); indent++; } } } else { ut64 addr = sdb_array_pop_num (db, "indent", NULL); if (addr == UT64_MAX) { //r_cons_printf ("\nbreak\n"); break; } bb = r_anal_bb_from_offset (core->anal, addr); nindent = sdb_num_get (db, K_INDENT (addr), NULL); if (indent > nindent) { int i; for (i = indent; i != nindent; i--) { SET_INDENT (i); r_cons_printf ("\n%s}", indentstr); } } if (nindent != indent) { r_cons_printf ("\n%s} else {\n", indentstr); } indent = nindent; } } //n_bb --; } while (n_bb > 0); r_cons_printf ("\n}\n"); r_config_restore (hc); r_config_hold_free (hc); sdb_free (db); return true; }
R_API int r_core_pseudo_code (RCore *core, const char *input) { Sdb *db; RAnalFunction *fcn = r_anal_get_fcn_in (core->anal, core->offset, R_ANAL_FCN_TYPE_NULL); int asmpseudo = r_config_get_i (core->config, "asm.pseudo"); int asmdecode = r_config_get_i (core->config, "asm.decode"); int asmlines = r_config_get_i (core->config, "asm.lines"); int asmbytes = r_config_get_i (core->config, "asm.bytes"); int asmoffset = r_config_get_i (core->config, "asm.offset"); int asmflags = r_config_get_i (core->config, "asm.flags"); int asmfcnlines = r_config_get_i (core->config, "asm.fcnlines"); int asmcomments = r_config_get_i (core->config, "asm.comments"); int asmfunctions = r_config_get_i (core->config, "asm.functions"); if (!fcn) { eprintf ("Cannot find function in 0x%08"PFMT64x"\n", core->offset); return R_FALSE; } r_config_set_i (core->config, "asm.pseudo", 1); r_config_set_i (core->config, "asm.decode", 0); r_config_set_i (core->config, "asm.lines", 0); r_config_set_i (core->config, "asm.bytes", 0); r_config_set_i (core->config, "asm.offset", 0); r_config_set_i (core->config, "asm.flags", 0); r_config_set_i (core->config, "asm.fcnlines", 0); r_config_set_i (core->config, "asm.comments", 0); r_config_set_i (core->config, "asm.functions", 0); db = sdb_new0 (); /* */ // walk all basic blocks // define depth level for each block // use it for indentation // asm.pseudo=true // asm.decode=true RAnalBlock *bb = r_list_first (fcn->bbs); char indentstr[1024]; int n_bb = r_list_length (fcn->bbs); r_cons_printf ("function %s () {", fcn->name); int indent = 1; int nindent = 1; do { #define I_TAB 4 #define K_ELSE(x) sdb_fmt(0,"else.%"PFMT64x,x) #define K_INDENT(x) sdb_fmt(0,"loc.%"PFMT64x,x) #define SET_INDENT(x) { memset (indentstr, ' ', x*I_TAB); indentstr [(x*I_TAB)-2] = 0; } if (!bb) break; r_cons_push (); char *code = r_core_cmd_str (core, sdb_fmt(0, "pDI %d @ 0x%08"PFMT64x"\n", bb->size, bb->addr)); r_cons_pop (); memset (indentstr, ' ', indent*I_TAB); indentstr [(indent*I_TAB)-2] = 0; code = r_str_prefix_all (code, indentstr); code[strlen(code)-1] = 0; // chop last newline //r_cons_printf ("\n%s loc_0x%llx:\n", indentstr, bb->addr); //if (nindent != indent) { // r_cons_printf ("\n%s loc_0x%llx:\n", indentstr, bb->addr); //} r_cons_printf ("\n%s loc_0x%llx:\n", indentstr, bb->addr); indentstr[(indent*I_TAB)-2] = 0; r_cons_printf ("\n%s", code); free (code); if (sdb_get (db, K_INDENT(bb->addr), 0)) { // already analyzed, go pop and continue // XXX check if cant pop //eprintf ("%s// 0x%08llx already analyzed\n", indentstr, bb->addr); ut64 addr = sdb_array_pop_num (db, "indent", NULL); if (addr==UT64_MAX) { int i; nindent = 1; for (i=indent; i!=nindent; i--) { SET_INDENT (i); r_cons_printf ("\n%s}", indentstr); } r_cons_printf ("\n%sreturn;\n", indentstr); break; } if (sdb_num_get (db, K_ELSE(bb->addr), 0)) { r_cons_printf ("\n%s} else {", indentstr); } else { r_cons_printf ("\n%s}", indentstr); } r_cons_printf ("\n%s goto loc_0x%llx", indentstr, addr); bb = r_anal_bb_from_offset (core->anal, addr); if (!bb) { eprintf ("failed block\n"); break; } //eprintf ("next is %llx\n", addr); nindent = sdb_num_get (db, K_INDENT(addr), NULL); if (indent>nindent) { int i; for (i=indent; i!=nindent; i--) { SET_INDENT (i); r_cons_printf ("\n%s}", indentstr); } } indent = nindent; } else { sdb_set (db, K_INDENT(bb->addr), "passed", 0); if (bb->jump != UT64_MAX) { int swap = 1; // TODO: determine which branch take first ut64 jump = swap? bb->jump: bb->fail; ut64 fail = swap? bb->fail: bb->jump; // if its from another function chop it! RAnalFunction *curfcn = r_anal_get_fcn_in (core->anal, jump, R_ANAL_FCN_TYPE_NULL); if (curfcn != fcn) { // chop that branch r_cons_printf ("\n // chop\n"); break; } if (sdb_get (db, K_INDENT(jump), 0)) { // already tracekd if (!sdb_get (db, K_INDENT(fail), 0)) { bb = r_anal_bb_from_offset (core->anal, fail); } } else { bb = r_anal_bb_from_offset (core->anal, jump); if (!bb) { eprintf ("failed to retrieve blcok at 0x%"PFMT64x"\n", jump); break; } if (fail != UT64_MAX) { // do not push if already pushed indent++; if (sdb_get (db, K_INDENT(bb->fail), 0)) { /* do nothing here */ eprintf ("BlockAlready 0x%"PFMT64x"\n", bb->addr); } else { // r_cons_printf (" { RADICAL %llx\n", bb->addr); sdb_array_push_num (db, "indent", fail, 0); sdb_num_set (db, K_INDENT(fail), indent, 0); sdb_num_set (db, K_ELSE(fail), 1, 0); r_cons_printf (" {"); } } else { r_cons_printf (" do"); sdb_array_push_num (db, "indent", jump, 0); sdb_num_set (db, K_INDENT(jump), indent, 0); sdb_num_set (db, K_ELSE(jump), 1, 0); r_cons_printf (" {"); indent++; } } } else { ut64 addr = sdb_array_pop_num (db, "indent", NULL); if (addr==UT64_MAX) { r_cons_printf ("\nbreak\n"); break; } bb = r_anal_bb_from_offset (core->anal, addr); nindent = sdb_num_get (db, K_INDENT(addr), NULL); if (indent>nindent) { int i; for (i=indent; i!=nindent; i--) { SET_INDENT (i); r_cons_printf ("\n%s}", indentstr); } } if (nindent != indent) { r_cons_printf ("\n%s} else {\n", indentstr); } indent = nindent; } } //n_bb --; } while (n_bb>0); r_cons_printf ("}\n"); r_cons_flush (); r_config_set_i (core->config, "asm.pseudo", asmpseudo); r_config_set_i (core->config, "asm.decode", asmdecode); r_config_set_i (core->config, "asm.lines", asmlines); r_config_set_i (core->config, "asm.bytes", asmbytes); r_config_set_i (core->config, "asm.offset", asmoffset); r_config_set_i (core->config, "asm.flags", asmflags); r_config_set_i (core->config, "asm.fcnlines", asmfcnlines); r_config_set_i (core->config, "asm.comments", asmcomments); r_config_set_i (core->config, "asm.functions", asmfunctions); sdb_free (db); return R_TRUE; }