// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #pragma once #include #include #include #include "include/buffer_fwd.h" #include "msg/Message.h" namespace ceph { class Formatter; } struct Dencoder { virtual ~Dencoder() {} virtual std::string decode(bufferlist bl, uint64_t seek) = 0; virtual void encode(bufferlist& out, uint64_t features) = 0; virtual void dump(ceph::Formatter *f) = 0; virtual void copy() { std::cerr << "copy operator= not supported" << std::endl; } virtual void copy_ctor() { std::cerr << "copy ctor not supported" << std::endl; } virtual void generate() = 0; virtual int num_generated() = 0; virtual std::string select_generated(unsigned n) = 0; virtual bool is_deterministic() = 0; unsigned get_struct_v(bufferlist bl, uint64_t seek) const { auto p = bl.cbegin(seek); uint8_t struct_v = 0; ceph::decode(struct_v, p); return struct_v; } //virtual void print(ostream& out) = 0; }; template class DencoderBase : public Dencoder { protected: T* m_object; list m_list; bool stray_okay; bool nondeterministic; public: DencoderBase(bool stray_okay, bool nondeterministic) : m_object(new T), stray_okay(stray_okay), nondeterministic(nondeterministic) {} ~DencoderBase() override { delete m_object; } std::string decode(bufferlist bl, uint64_t seek) override { auto p = bl.cbegin(); p.seek(seek); try { using ceph::decode; decode(*m_object, p); } catch (buffer::error& e) { return e.what(); } if (!stray_okay && !p.end()) { ostringstream ss; ss << "stray data at end of buffer, offset " << p.get_off(); return ss.str(); } return {}; } void encode(bufferlist& out, uint64_t features) override = 0; void dump(ceph::Formatter *f) override { m_object->dump(f); } void generate() override { T::generate_test_instances(m_list); } int num_generated() override { return m_list.size(); } string select_generated(unsigned i) override { // allow 0- or 1-based (by wrapping) if (i == 0) i = m_list.size(); if ((i == 0) || (i > m_list.size())) return "invalid id for generated object"; m_object = *(std::next(m_list.begin(), i-1)); return string(); } bool is_deterministic() override { return !nondeterministic; } }; template class DencoderImplNoFeatureNoCopy : public DencoderBase { public: DencoderImplNoFeatureNoCopy(bool stray_ok, bool nondeterministic) : DencoderBase(stray_ok, nondeterministic) {} void encode(bufferlist& out, uint64_t features) override { out.clear(); using ceph::encode; encode(*this->m_object, out); } }; template class DencoderImplNoFeature : public DencoderImplNoFeatureNoCopy { public: DencoderImplNoFeature(bool stray_ok, bool nondeterministic) : DencoderImplNoFeatureNoCopy(stray_ok, nondeterministic) {} void copy() override { T *n = new T; *n = *this->m_object; delete this->m_object; this->m_object = n; } void copy_ctor() override { T *n = new T(*this->m_object); delete this->m_object; this->m_object = n; } }; template class DencoderImplFeaturefulNoCopy : public DencoderBase { public: DencoderImplFeaturefulNoCopy(bool stray_ok, bool nondeterministic) : DencoderBase(stray_ok, nondeterministic) {} void encode(bufferlist& out, uint64_t features) override { out.clear(); using ceph::encode; encode(*(this->m_object), out, features); } }; template class DencoderImplFeatureful : public DencoderImplFeaturefulNoCopy { public: DencoderImplFeatureful(bool stray_ok, bool nondeterministic) : DencoderImplFeaturefulNoCopy(stray_ok, nondeterministic) {} void copy() override { T *n = new T; *n = *this->m_object; delete this->m_object; this->m_object = n; } void copy_ctor() override { T *n = new T(*this->m_object); delete this->m_object; this->m_object = n; } }; template class MessageDencoderImpl : public Dencoder { ref_t m_object; list> m_list; public: MessageDencoderImpl() : m_object{make_message()} {} ~MessageDencoderImpl() override {} string decode(bufferlist bl, uint64_t seek) override { auto p = bl.cbegin(); p.seek(seek); try { ref_t n(decode_message(g_ceph_context, 0, p), false); if (!n) throw std::runtime_error("failed to decode"); if (n->get_type() != m_object->get_type()) { stringstream ss; ss << "decoded type " << n->get_type() << " instead of expected " << m_object->get_type(); throw std::runtime_error(ss.str()); } m_object = ref_cast(n); } catch (buffer::error& e) { return e.what(); } if (!p.end()) { ostringstream ss; ss << "stray data at end of buffer, offset " << p.get_off(); return ss.str(); } return string(); } void encode(bufferlist& out, uint64_t features) override { out.clear(); encode_message(m_object.get(), features, out); } void dump(ceph::Formatter *f) override { m_object->dump(f); } void generate() override { //T::generate_test_instances(m_list); } int num_generated() override { return m_list.size(); } string select_generated(unsigned i) override { // allow 0- or 1-based (by wrapping) if (i == 0) i = m_list.size(); if ((i == 0) || (i > m_list.size())) return "invalid id for generated object"; m_object = *(std::next(m_list.begin(), i-1)); return string(); } bool is_deterministic() override { return true; } //void print(ostream& out) { //out << m_object << std::endl; //} }; class DencoderRegistry { using dencoders_t = std::map; public: dencoders_t& get() { return dencoders; } void register_dencoder(std::string_view name, Dencoder* denc) { dencoders.emplace(name, denc); } private: dencoders_t dencoders; };