/* * Compression Transform * (C) 2014 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include #include namespace Botan { void* Compression_Alloc_Info::do_malloc(size_t n, size_t size) { const size_t total_sz = n * size; void* ptr = std::malloc(total_sz); m_current_allocs[ptr] = total_sz; return ptr; } void Compression_Alloc_Info::do_free(void* ptr) { if(ptr) { auto i = m_current_allocs.find(ptr); if(i == m_current_allocs.end()) throw std::runtime_error("Compression_Alloc_Info::free got pointer not allocated by us"); zero_mem(ptr, i->second); std::free(ptr); m_current_allocs.erase(i); } } namespace { Compressor_Transform* do_make_compressor(const std::string& type, const std::string suffix) { const std::map trans{ {"zlib", "Zlib"}, {"deflate", "Deflate"}, {"gzip", "Gzip"}, {"gz", "Gzip"}, {"bzip2", "Bzip2"}, {"bz2", "Bzip2"}, {"lzma", "LZMA"}, {"xz", "LZMA"}}; auto i = trans.find(type); if(i == trans.end()) return nullptr; const std::string t_name = i->second + suffix; std::unique_ptr t(get_transform(t_name)); if(!t) return nullptr; Compressor_Transform* r = dynamic_cast(t.get()); if(!r) throw std::runtime_error("Bad cast of compression object " + t_name); t.release(); return r; } } Compressor_Transform* make_compressor(const std::string& type, size_t level) { return do_make_compressor(type, "_Compression(" + std::to_string(level) + ")"); } Compressor_Transform* make_decompressor(const std::string& type) { return do_make_compressor(type, "_Decompression"); } void Stream_Compression::clear() { m_stream.reset(); } secure_vector Stream_Compression::start_raw(const byte[], size_t nonce_len) { if(!valid_nonce_length(nonce_len)) throw Invalid_IV_Length(name(), nonce_len); m_stream.reset(make_stream()); return secure_vector(); } void Stream_Compression::process(secure_vector& buf, size_t offset, u32bit flags) { BOTAN_ASSERT(m_stream, "Initialized"); BOTAN_ASSERT(buf.size() >= offset, "Offset is sane"); if(m_buffer.size() < buf.size() + offset) m_buffer.resize(buf.size() + offset); m_stream->next_in(&buf[offset], buf.size() - offset); m_stream->next_out(&m_buffer[offset], m_buffer.size() - offset); while(true) { m_stream->run(flags); if(m_stream->avail_out() == 0) { const size_t added = 8 + m_buffer.size(); m_buffer.resize(m_buffer.size() + added); m_stream->next_out(&m_buffer[m_buffer.size() - added], added); } else if(m_stream->avail_in() == 0) { m_buffer.resize(m_buffer.size() - m_stream->avail_out()); break; } } copy_mem(&m_buffer[0], &buf[0], offset); buf.swap(m_buffer); } void Stream_Compression::update(secure_vector& buf, size_t offset) { BOTAN_ASSERT(m_stream, "Initialized"); process(buf, offset, m_stream->run_flag()); } void Stream_Compression::flush(secure_vector& buf, size_t offset) { BOTAN_ASSERT(m_stream, "Initialized"); process(buf, offset, m_stream->flush_flag()); } void Stream_Compression::finish(secure_vector& buf, size_t offset) { BOTAN_ASSERT(m_stream, "Initialized"); process(buf, offset, m_stream->finish_flag()); clear(); } void Stream_Decompression::clear() { m_stream.reset(); } secure_vector Stream_Decompression::start_raw(const byte[], size_t nonce_len) { if(!valid_nonce_length(nonce_len)) throw Invalid_IV_Length(name(), nonce_len); m_stream.reset(make_stream()); return secure_vector(); } void Stream_Decompression::process(secure_vector& buf, size_t offset, u32bit flags) { BOTAN_ASSERT(m_stream, "Initialized"); BOTAN_ASSERT(buf.size() >= offset, "Offset is sane"); if(m_buffer.size() < buf.size() + offset) m_buffer.resize(buf.size() + offset); m_stream->next_in(&buf[offset], buf.size() - offset); m_stream->next_out(&m_buffer[offset], m_buffer.size() - offset); while(true) { const bool stream_end = m_stream->run(flags); if(stream_end) { if(m_stream->avail_in() == 0) // all data consumed? { m_buffer.resize(m_buffer.size() - m_stream->avail_out()); clear(); break; } // More data follows: try to process as a following stream const size_t read = (buf.size() - offset) - m_stream->avail_in(); start(); m_stream->next_in(&buf[offset + read], buf.size() - offset - read); } if(m_stream->avail_out() == 0) { const size_t added = 8 + m_buffer.size(); m_buffer.resize(m_buffer.size() + added); m_stream->next_out(&m_buffer[m_buffer.size() - added], added); } else if(m_stream->avail_in() == 0) { m_buffer.resize(m_buffer.size() - m_stream->avail_out()); break; } } copy_mem(&m_buffer[0], &buf[0], offset); buf.swap(m_buffer); } void Stream_Decompression::update(secure_vector& buf, size_t offset) { process(buf, offset, m_stream->run_flag()); } void Stream_Decompression::finish(secure_vector& buf, size_t offset) { if(buf.size() != offset || m_stream.get()) process(buf, offset, m_stream->finish_flag()); if(m_stream.get()) throw std::runtime_error(name() + " finished but not at stream end"); } }