%ignore cancellable_graph_t::check_cancel; %ignore gdl_graph_t::gen_gdl; %ignore gdl_graph_t::gen_gdl; %ignore gdl_graph_t::path; %ignore gdl_graph_t::path_exists; %ignore intmap_t::dstr; %ignore intmap_t::print; %ignore intseq_t::add_block; %ignore intseq_t::add_unique; %ignore intseq_t::del; %ignore intseq_t::dstr; %ignore intseq_t::print; %ignore intseq_t::remove_block; %ignore intset_t::dstr; %ignore intset_t::print; %ignore node_set_t::add; %ignore node_set_t::extract; %ignore node_set_t::intersect; %ignore node_set_t::node_set_t; %ignore node_set_t::sub; %ignore qflow_chart_t::blocks; %ignore flow_chart_t; %ignore setup_graph_subsystem; %ignore qbasic_block_t::succ; %ignore qbasic_block_t::pred; %include "gdl.hpp" %extend qflow_chart_t { qbasic_block_t *__getitem__(int n) { return &(self->blocks[n]); } } %pythoncode %{ # ----------------------------------------------------------------------- class BasicBlock: def __init__(self, id, bb, f): self._f = f self.id = id """Basic block ID""" self.startEA = bb.startEA """startEA of basic block""" self.endEA = bb.endEA """endEA of basic block""" self.type = self._f._q.calc_block_type(self.id) """Block type (check fc_block_type_t enum)""" def preds(self): """ Iteratres the predecessors list """ q = self._f._q for i in xrange(0, self._f._q.npred(self.id)): yield self._f[q.pred(self.id, i)] def succs(self): """ Iteratres the successors list """ q = self._f._q for i in xrange(0, q.nsucc(self.id)): yield self._f[q.succ(self.id, i)] # ----------------------------------------------------------------------- class FlowChart: """ Flowchart class used to determine basic blocks """ def __init__(self, f=None, bounds=None, flags=0): """ Constructor @param f: A func_t type, use get_func(ea) to get a reference @param bounds: A tuple of the form (start, end). Used if "f" is None @param flags: one of the FC_xxxx flags. One interesting flag is FC_PREDS """ if (not f) and (not bounds or type(bounds) != types.TupleType): raise Exception("Please specifiy either a function or start/end pair") if not bounds: bounds = (BADADDR, BADADDR) # create the flowchart self._q = qflow_chart_t("", f, bounds[0], bounds[1], flags) self.size = self._q.size() def refresh(): self._q.refresh() self.size = self._q.size() def __getitem__(self, index): """ Returns a basic block @return: BasicBlock """ if index >= self.size: raise StopIteration return BasicBlock(index, self._q[index], self) %}