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Diffstat (limited to 'third_party/msgpack/include/msgpack/v2/parse.hpp')
-rw-r--r-- | third_party/msgpack/include/msgpack/v2/parse.hpp | 1072 |
1 files changed, 1072 insertions, 0 deletions
diff --git a/third_party/msgpack/include/msgpack/v2/parse.hpp b/third_party/msgpack/include/msgpack/v2/parse.hpp new file mode 100644 index 0000000000..becbed4569 --- /dev/null +++ b/third_party/msgpack/include/msgpack/v2/parse.hpp @@ -0,0 +1,1072 @@ +// +// MessagePack for C++ deserializing routine +// +// Copyright (C) 2016-2017 KONDO Takatoshi +// +// Distributed under the Boost Software License, Version 1.0. +// (See accompanying file LICENSE_1_0.txt or copy at +// http://www.boost.org/LICENSE_1_0.txt) +// +#ifndef MSGPACK_V2_PARSE_HPP +#define MSGPACK_V2_PARSE_HPP + +#if MSGPACK_DEFAULT_API_VERSION >= 2 + +#include <cstddef> + +#include "msgpack/unpack_define.h" +#include "msgpack/parse_return.hpp" +#include "msgpack/unpack_exception.hpp" +#include "msgpack/unpack_decl.hpp" + +namespace msgpack { + +/// @cond +MSGPACK_API_VERSION_NAMESPACE(v2) { +/// @endcond + +namespace detail { + +using v1::detail::fix_tag; +using v1::detail::value; +using v1::detail::load; + +template <typename VisitorHolder> +class context { +public: + context() + :m_trail(0), m_cs(MSGPACK_CS_HEADER) + { + } + + void init() + { + m_cs = MSGPACK_CS_HEADER; + m_trail = 0; + m_stack.clear(); + holder().visitor().init(); + } + + parse_return execute(const char* data, std::size_t len, std::size_t& off); + +private: + template <typename T> + static uint32_t next_cs(T p) + { + return static_cast<uint32_t>(*p) & 0x1f; + } + + VisitorHolder& holder() { + return static_cast<VisitorHolder&>(*this); + } + + template <typename T, typename StartVisitor, typename EndVisitor> + parse_return start_aggregate( + StartVisitor const& sv, + EndVisitor const& ev, + const char* load_pos, + std::size_t& off) { + typename value<T>::type size; + load<T>(size, load_pos); + ++m_current; + if (size == 0) { + if (!sv(size)) { + off = m_current - m_start; + return PARSE_STOP_VISITOR; + } + if (!ev()) { + off = m_current - m_start; + return PARSE_STOP_VISITOR; + } + parse_return ret = m_stack.consume(holder()); + if (ret != PARSE_CONTINUE) { + off = m_current - m_start; + return ret; + } + } + else { + if (!sv(size)) { + off = m_current - m_start; + return PARSE_STOP_VISITOR; + } + parse_return ret = m_stack.push(holder(), sv.type(), static_cast<uint32_t>(size)); + if (ret != PARSE_CONTINUE) { + off = m_current - m_start; + return ret; + } + } + m_cs = MSGPACK_CS_HEADER; + return PARSE_CONTINUE; + } + + parse_return after_visit_proc(bool visit_result, std::size_t& off) { + ++m_current; + if (!visit_result) { + off = m_current - m_start; + return PARSE_STOP_VISITOR; + } + parse_return ret = m_stack.consume(holder()); + if (ret != PARSE_CONTINUE) { + off = m_current - m_start; + } + m_cs = MSGPACK_CS_HEADER; + return ret; + } + + struct array_sv { + array_sv(VisitorHolder& visitor_holder):m_visitor_holder(visitor_holder) {} + bool operator()(uint32_t size) const { + return m_visitor_holder.visitor().start_array(size); + } + msgpack_container_type type() const { return MSGPACK_CT_ARRAY_ITEM; } + private: + VisitorHolder& m_visitor_holder; + }; + struct array_ev { + array_ev(VisitorHolder& visitor_holder):m_visitor_holder(visitor_holder) {} + bool operator()() const { + return m_visitor_holder.visitor().end_array(); + } + private: + VisitorHolder& m_visitor_holder; + }; + struct map_sv { + map_sv(VisitorHolder& visitor_holder):m_visitor_holder(visitor_holder) {} + bool operator()(uint32_t size) const { + return m_visitor_holder.visitor().start_map(size); + } + msgpack_container_type type() const { return MSGPACK_CT_MAP_KEY; } + private: + VisitorHolder& m_visitor_holder; + }; + struct map_ev { + map_ev(VisitorHolder& visitor_holder):m_visitor_holder(visitor_holder) {} + bool operator()() const { + return m_visitor_holder.visitor().end_map(); + } + private: + VisitorHolder& m_visitor_holder; + }; + + struct unpack_stack { + struct stack_elem { + stack_elem(msgpack_container_type type, uint32_t rest):m_type(type), m_rest(rest) {} + msgpack_container_type m_type; + uint32_t m_rest; + }; + unpack_stack() { + m_stack.reserve(MSGPACK_EMBED_STACK_SIZE); + } + parse_return push(VisitorHolder& visitor_holder, msgpack_container_type type, uint32_t rest) { + m_stack.push_back(stack_elem(type, rest)); + switch (type) { + case MSGPACK_CT_ARRAY_ITEM: + return visitor_holder.visitor().start_array_item() ? PARSE_CONTINUE : PARSE_STOP_VISITOR; + case MSGPACK_CT_MAP_KEY: + return visitor_holder.visitor().start_map_key() ? PARSE_CONTINUE : PARSE_STOP_VISITOR; + case MSGPACK_CT_MAP_VALUE: + assert(0); + return PARSE_STOP_VISITOR; + } + assert(0); + return PARSE_STOP_VISITOR; + } + parse_return consume(VisitorHolder& visitor_holder) { + while (!m_stack.empty()) { + stack_elem& e = m_stack.back(); + switch (e.m_type) { + case MSGPACK_CT_ARRAY_ITEM: + if (!visitor_holder.visitor().end_array_item()) return PARSE_STOP_VISITOR; + if (--e.m_rest == 0) { + m_stack.pop_back(); + if (!visitor_holder.visitor().end_array()) return PARSE_STOP_VISITOR; + } + else { + if (!visitor_holder.visitor().start_array_item()) return PARSE_STOP_VISITOR; + return PARSE_CONTINUE; + } + break; + case MSGPACK_CT_MAP_KEY: + if (!visitor_holder.visitor().end_map_key()) return PARSE_STOP_VISITOR; + if (!visitor_holder.visitor().start_map_value()) return PARSE_STOP_VISITOR; + e.m_type = MSGPACK_CT_MAP_VALUE; + return PARSE_CONTINUE; + case MSGPACK_CT_MAP_VALUE: + if (!visitor_holder.visitor().end_map_value()) return PARSE_STOP_VISITOR; + if (--e.m_rest == 0) { + m_stack.pop_back(); + if (!visitor_holder.visitor().end_map()) return PARSE_STOP_VISITOR; + } + else { + e.m_type = MSGPACK_CT_MAP_KEY; + if (!visitor_holder.visitor().start_map_key()) return PARSE_STOP_VISITOR; + return PARSE_CONTINUE; + } + break; + } + } + return PARSE_SUCCESS; + } + bool empty() const { return m_stack.empty(); } + void clear() { m_stack.clear(); } + private: + std::vector<stack_elem> m_stack; + }; + + char const* m_start; + char const* m_current; + + std::size_t m_trail; + uint32_t m_cs; + uint32_t m_num_elements; + unpack_stack m_stack; +}; + +template <std::size_t N> +inline void check_ext_size(std::size_t /*size*/) { +} + +template <> +inline void check_ext_size<4>(std::size_t size) { + if (size == 0xffffffff) throw msgpack::ext_size_overflow("ext size overflow"); +} + +template <typename VisitorHolder> +inline parse_return context<VisitorHolder>::execute(const char* data, std::size_t len, std::size_t& off) +{ + assert(len >= off); + + m_start = data; + m_current = data + off; + const char* const pe = data + len; + const char* n = MSGPACK_NULLPTR; + + msgpack::object obj; + + if(m_current == pe) { + off = m_current - m_start; + return PARSE_CONTINUE; + } + bool fixed_trail_again = false; + do { + if (m_cs == MSGPACK_CS_HEADER) { + fixed_trail_again = false; + int selector = *reinterpret_cast<const unsigned char*>(m_current); + if (0x00 <= selector && selector <= 0x7f) { // Positive Fixnum + uint8_t tmp = *reinterpret_cast<const uint8_t*>(m_current); + bool visret = holder().visitor().visit_positive_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } else if(0xe0 <= selector && selector <= 0xff) { // Negative Fixnum + int8_t tmp = *reinterpret_cast<const int8_t*>(m_current); + bool visret = holder().visitor().visit_negative_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } else if (0xc4 <= selector && selector <= 0xdf) { + const uint32_t trail[] = { + 1, // bin 8 0xc4 + 2, // bin 16 0xc5 + 4, // bin 32 0xc6 + 1, // ext 8 0xc7 + 2, // ext 16 0xc8 + 4, // ext 32 0xc9 + 4, // float 32 0xca + 8, // float 64 0xcb + 1, // uint 8 0xcc + 2, // uint 16 0xcd + 4, // uint 32 0xce + 8, // uint 64 0xcf + 1, // int 8 0xd0 + 2, // int 16 0xd1 + 4, // int 32 0xd2 + 8, // int 64 0xd3 + 2, // fixext 1 0xd4 + 3, // fixext 2 0xd5 + 5, // fixext 4 0xd6 + 9, // fixext 8 0xd7 + 17,// fixext 16 0xd8 + 1, // str 8 0xd9 + 2, // str 16 0xda + 4, // str 32 0xdb + 2, // array 16 0xdc + 4, // array 32 0xdd + 2, // map 16 0xde + 4, // map 32 0xdf + }; + m_trail = trail[selector - 0xc4]; + m_cs = next_cs(m_current); + fixed_trail_again = true; + } else if(0xa0 <= selector && selector <= 0xbf) { // FixStr + m_trail = static_cast<uint32_t>(*m_current) & 0x1f; + if(m_trail == 0) { + bool visret = holder().visitor().visit_str(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_STR_VALUE; + fixed_trail_again = true; + } + } else if(0x90 <= selector && selector <= 0x9f) { // FixArray + parse_return ret = start_aggregate<fix_tag>(array_sv(holder()), array_ev(holder()), m_current, off); + if (ret != PARSE_CONTINUE) return ret; + } else if(0x80 <= selector && selector <= 0x8f) { // FixMap + parse_return ret = start_aggregate<fix_tag>(map_sv(holder()), map_ev(holder()), m_current, off); + if (ret != PARSE_CONTINUE) return ret; + } else if(selector == 0xc2) { // false + bool visret = holder().visitor().visit_boolean(false); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } else if(selector == 0xc3) { // true + bool visret = holder().visitor().visit_boolean(true); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } else if(selector == 0xc0) { // nil + bool visret = holder().visitor().visit_nil(); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } else { + off = m_current - m_start; + holder().visitor().parse_error(off - 1, off); + return PARSE_PARSE_ERROR; + } + // end MSGPACK_CS_HEADER + } + if (m_cs != MSGPACK_CS_HEADER || fixed_trail_again) { + if (fixed_trail_again) { + ++m_current; + fixed_trail_again = false; + } + if(static_cast<std::size_t>(pe - m_current) < m_trail) { + off = m_current - m_start; + return PARSE_CONTINUE; + } + n = m_current; + m_current += m_trail - 1; + switch(m_cs) { + //case MSGPACK_CS_ + //case MSGPACK_CS_ + case MSGPACK_CS_FLOAT: { + union { uint32_t i; float f; } mem; + load<uint32_t>(mem.i, n); + bool visret = holder().visitor().visit_float32(mem.f); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_DOUBLE: { + union { uint64_t i; double f; } mem; + load<uint64_t>(mem.i, n); +#if defined(TARGET_OS_IPHONE) + // ok +#elif defined(__arm__) && !(__ARM_EABI__) // arm-oabi + // https://github.com/msgpack/msgpack-perl/pull/1 + mem.i = (mem.i & 0xFFFFFFFFUL) << 32UL | (mem.i >> 32UL); +#endif + bool visret = holder().visitor().visit_float64(mem.f); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_UINT_8: { + uint8_t tmp; + load<uint8_t>(tmp, n); + bool visret = holder().visitor().visit_positive_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_UINT_16: { + uint16_t tmp; + load<uint16_t>(tmp, n); + bool visret = holder().visitor().visit_positive_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_UINT_32: { + uint32_t tmp; + load<uint32_t>(tmp, n); + bool visret = holder().visitor().visit_positive_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_UINT_64: { + uint64_t tmp; + load<uint64_t>(tmp, n); + bool visret = holder().visitor().visit_positive_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_INT_8: { + int8_t tmp; + load<int8_t>(tmp, n); + bool visret = holder().visitor().visit_negative_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_INT_16: { + int16_t tmp; + load<int16_t>(tmp, n); + bool visret = holder().visitor().visit_negative_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_INT_32: { + int32_t tmp; + load<int32_t>(tmp, n); + bool visret = holder().visitor().visit_negative_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_INT_64: { + int64_t tmp; + load<int64_t>(tmp, n); + bool visret = holder().visitor().visit_negative_integer(tmp); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_FIXEXT_1: { + bool visret = holder().visitor().visit_ext(n, 1+1); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_FIXEXT_2: { + bool visret = holder().visitor().visit_ext(n, 2+1); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_FIXEXT_4: { + bool visret = holder().visitor().visit_ext(n, 4+1); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_FIXEXT_8: { + bool visret = holder().visitor().visit_ext(n, 8+1); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_FIXEXT_16: { + bool visret = holder().visitor().visit_ext(n, 16+1); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_STR_8: { + uint8_t tmp; + load<uint8_t>(tmp, n); + m_trail = tmp; + if(m_trail == 0) { + bool visret = holder().visitor().visit_str(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_STR_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_BIN_8: { + uint8_t tmp; + load<uint8_t>(tmp, n); + m_trail = tmp; + if(m_trail == 0) { + bool visret = holder().visitor().visit_bin(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_BIN_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_EXT_8: { + uint8_t tmp; + load<uint8_t>(tmp, n); + m_trail = tmp + 1; + if(m_trail == 0) { + bool visret = holder().visitor().visit_ext(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_EXT_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_STR_16: { + uint16_t tmp; + load<uint16_t>(tmp, n); + m_trail = tmp; + if(m_trail == 0) { + bool visret = holder().visitor().visit_str(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_STR_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_BIN_16: { + uint16_t tmp; + load<uint16_t>(tmp, n); + m_trail = tmp; + if(m_trail == 0) { + bool visret = holder().visitor().visit_bin(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_BIN_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_EXT_16: { + uint16_t tmp; + load<uint16_t>(tmp, n); + m_trail = tmp + 1; + if(m_trail == 0) { + bool visret = holder().visitor().visit_ext(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_EXT_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_STR_32: { + uint32_t tmp; + load<uint32_t>(tmp, n); + m_trail = tmp; + if(m_trail == 0) { + bool visret = holder().visitor().visit_str(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_STR_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_BIN_32: { + uint32_t tmp; + load<uint32_t>(tmp, n); + m_trail = tmp; + if(m_trail == 0) { + bool visret = holder().visitor().visit_bin(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_BIN_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_CS_EXT_32: { + uint32_t tmp; + load<uint32_t>(tmp, n); + check_ext_size<sizeof(std::size_t)>(tmp); + m_trail = tmp; + ++m_trail; + if(m_trail == 0) { + bool visret = holder().visitor().visit_ext(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } + else { + m_cs = MSGPACK_ACS_EXT_VALUE; + fixed_trail_again = true; + } + } break; + case MSGPACK_ACS_STR_VALUE: { + bool visret = holder().visitor().visit_str(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_ACS_BIN_VALUE: { + bool visret = holder().visitor().visit_bin(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_ACS_EXT_VALUE: { + bool visret = holder().visitor().visit_ext(n, static_cast<uint32_t>(m_trail)); + parse_return upr = after_visit_proc(visret, off); + if (upr != PARSE_CONTINUE) return upr; + } break; + case MSGPACK_CS_ARRAY_16: { + parse_return ret = start_aggregate<uint16_t>(array_sv(holder()), array_ev(holder()), n, off); + if (ret != PARSE_CONTINUE) return ret; + + } break; + case MSGPACK_CS_ARRAY_32: { + parse_return ret = start_aggregate<uint32_t>(array_sv(holder()), array_ev(holder()), n, off); + if (ret != PARSE_CONTINUE) return ret; + } break; + case MSGPACK_CS_MAP_16: { + parse_return ret = start_aggregate<uint16_t>(map_sv(holder()), map_ev(holder()), n, off); + if (ret != PARSE_CONTINUE) return ret; + } break; + case MSGPACK_CS_MAP_32: { + parse_return ret = start_aggregate<uint32_t>(map_sv(holder()), map_ev(holder()), n, off); + if (ret != PARSE_CONTINUE) return ret; + } break; + default: + off = m_current - m_start; + holder().visitor().parse_error(n - m_start - 1, n - m_start); + return PARSE_PARSE_ERROR; + } + } + } while(m_current != pe); + + off = m_current - m_start; + return PARSE_CONTINUE; +} + +} // detail + + +/// Parsing class for a stream deserialization. + +template <typename VisitorHolder, typename ReferencedBufferHook> +class parser : public detail::context<VisitorHolder> { + typedef parser<VisitorHolder, ReferencedBufferHook> this_type; + typedef detail::context<VisitorHolder> context_type; +public: + /// Constructor + /** + * @param hook The handler that is called when buffer is allocated internally. + * `hook` should be callable with char* parameter. + * `parser` gives a chance to prepare finalizer. + * See https://github.com/msgpack/msgpack-c/wiki/v2_0_cpp_visitor#parse-api + * @param initial_buffer_size The memory size to allocate when unpacker is constructed. + * + */ + parser(ReferencedBufferHook& hook, + std::size_t initial_buffer_size = MSGPACK_UNPACKER_INIT_BUFFER_SIZE); + +#if !defined(MSGPACK_USE_CPP03) + parser(this_type&& other); + this_type& operator=(this_type&& other); +#endif // !defined(MSGPACK_USE_CPP03) + + ~parser(); + +public: + /// Reserve a buffer memory. + /** + * @param size The size of allocating memory. + * + * After returning this function, buffer_capacity() returns at least 'size'. + * See: + * https://github.com/msgpack/msgpack-c/wiki/v1_1_cpp_unpacker#msgpack-controls-a-buffer + */ + void reserve_buffer(std::size_t size = MSGPACK_UNPACKER_RESERVE_SIZE); + + /// Get buffer pointer. + /** + * You need to care about the memory is enable between buffer() and buffer() + buffer_capacity() + * See: + * https://github.com/msgpack/msgpack-c/wiki/v1_1_cpp_unpacker#msgpack-controls-a-buffer + */ + char* buffer(); + + /// Get buffer capacity. + /** + * @return The memory size that you can write. + * + * See: + * https://github.com/msgpack/msgpack-c/wiki/v1_1_cpp_unpacker#msgpack-controls-a-buffer + */ + std::size_t buffer_capacity() const; + + /// Notify a buffer consumed information to msgpack::unpacker. + /** + * @param size The size of memory that you consumed. + * + * After copying the data to the memory that is pointed by buffer(), you need to call the + * function to notify how many bytes are consumed. Then you can call next() functions. + * + * See: + * https://github.com/msgpack/msgpack-c/wiki/v1_1_cpp_unpacker#msgpack-controls-a-buffer + */ + void buffer_consumed(std::size_t size); + + /// Unpack one msgpack::object. + /** + * + * + * @return If one msgpack::object is unpacked, then return true, if msgpack::object is incomplete + * and additional data is required, then return false. If data format is invalid, throw + * msgpack::parse_error. + * + * See: + * https://github.com/msgpack/msgpack-c/wiki/v1_1_cpp_unpacker#msgpack-controls-a-buffer + */ + bool next(); + + /// Get message size. + /** + * @return Returns parsed_size() + nonparsed_size() + */ + std::size_t message_size() const; + +public: + /// Get parsed message size. + /** + * @return Parsed message size. + * + * This function is usable when non-MessagePack message follows after + * MessagePack message. + */ + std::size_t parsed_size() const; + + /// Get the address that is not parsed in the buffer. + /** + * @return Address of the buffer that is not parsed + * + * This function is usable when non-MessagePack message follows after + * MessagePack message. + */ + char* nonparsed_buffer(); + + /// Get the size of the buffer that is not parsed. + /** + * @return Size of the buffer that is not parsed + * + * This function is usable when non-MessagePack message follows after + * MessagePack message. + */ + std::size_t nonparsed_size() const; + + /// Skip the specified size of non-parsed buffer. + /** + * @param size to skip + * + * Note that the `size' argument must be smaller than nonparsed_size(). + * This function is usable when non-MessagePack message follows after + * MessagePack message. + */ + void skip_nonparsed_buffer(std::size_t size); + + /// Remove nonparsed buffer and reset the current position as a new start point. + /** + * This function is usable when non-MessagePack message follows after + * MessagePack message. + */ + void remove_nonparsed_buffer(); + + void reset(); + +protected: + char* get_raw_buffer() { + return m_buffer; + } +private: + void expand_buffer(std::size_t size); + parse_return execute_imp(); + +private: + char* m_buffer; + std::size_t m_used; + std::size_t m_free; + std::size_t m_off; + std::size_t m_parsed; + std::size_t m_initial_buffer_size; + ReferencedBufferHook& m_referenced_buffer_hook; + +#if defined(MSGPACK_USE_CPP03) +private: + parser(const this_type&); + this_type& operator=(const this_type&); +#else // defined(MSGPACK_USE_CPP03) +public: + parser(const this_type&) = delete; + this_type& operator=(const this_type&) = delete; +#endif // defined(MSGPACK_USE_CPP03) +}; + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline parser<VisitorHolder, ReferencedBufferHook>::parser( + ReferencedBufferHook& hook, + std::size_t initial_buffer_size) + :m_referenced_buffer_hook(hook) +{ + if(initial_buffer_size < COUNTER_SIZE) { + initial_buffer_size = COUNTER_SIZE; + } + + char* buffer = static_cast<char*>(::malloc(initial_buffer_size)); + if(!buffer) { + throw std::bad_alloc(); + } + + m_buffer = buffer; + m_used = COUNTER_SIZE; + m_free = initial_buffer_size - m_used; + m_off = COUNTER_SIZE; + m_parsed = 0; + m_initial_buffer_size = initial_buffer_size; + + detail::init_count(m_buffer); +} + +#if !defined(MSGPACK_USE_CPP03) +// Move constructor and move assignment operator + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline parser<VisitorHolder, ReferencedBufferHook>::parser(this_type&& other) + :context_type(std::move(other)), + m_buffer(other.m_buffer), + m_used(other.m_used), + m_free(other.m_free), + m_off(other.m_off), + m_parsed(other.m_parsed), + m_initial_buffer_size(other.m_initial_buffer_size), + m_referenced_buffer_hook(other.m_referenced_buffer_hook) { + other.m_buffer = MSGPACK_NULLPTR; + other.m_used = 0; + other.m_free = 0; + other.m_off = 0; + other.m_parsed = 0; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline parser<VisitorHolder, ReferencedBufferHook>& parser<VisitorHolder, ReferencedBufferHook>::operator=(this_type&& other) { + this->~parser(); + new (this) this_type(std::move(other)); + return *this; +} + +#endif // !defined(MSGPACK_USE_CPP03) + + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline parser<VisitorHolder, ReferencedBufferHook>::~parser() +{ + // These checks are required for move operations. + if (m_buffer) detail::decr_count(m_buffer); +} + + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline void parser<VisitorHolder, ReferencedBufferHook>::reserve_buffer(std::size_t size) +{ + if(m_free >= size) return; + expand_buffer(size); +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline void parser<VisitorHolder, ReferencedBufferHook>::expand_buffer(std::size_t size) +{ + if(m_used == m_off && detail::get_count(m_buffer) == 1 + && !static_cast<VisitorHolder&>(*this).visitor().referenced()) { + // rewind buffer + m_free += m_used - COUNTER_SIZE; + m_used = COUNTER_SIZE; + m_off = COUNTER_SIZE; + + if(m_free >= size) return; + } + + if(m_off == COUNTER_SIZE) { + std::size_t next_size = (m_used + m_free) * 2; // include COUNTER_SIZE + while(next_size < size + m_used) { + std::size_t tmp_next_size = next_size * 2; + if (tmp_next_size <= next_size) { + next_size = size + m_used; + break; + } + next_size = tmp_next_size; + } + + char* tmp = static_cast<char*>(::realloc(m_buffer, next_size)); + if(!tmp) { + throw std::bad_alloc(); + } + + m_buffer = tmp; + m_free = next_size - m_used; + + } else { + std::size_t next_size = m_initial_buffer_size; // include COUNTER_SIZE + std::size_t not_parsed = m_used - m_off; + while(next_size < size + not_parsed + COUNTER_SIZE) { + std::size_t tmp_next_size = next_size * 2; + if (tmp_next_size <= next_size) { + next_size = size + not_parsed + COUNTER_SIZE; + break; + } + next_size = tmp_next_size; + } + + char* tmp = static_cast<char*>(::malloc(next_size)); + if(!tmp) { + throw std::bad_alloc(); + } + + detail::init_count(tmp); + + std::memcpy(tmp+COUNTER_SIZE, m_buffer + m_off, not_parsed); + + if(static_cast<VisitorHolder&>(*this).referenced()) { + try { + m_referenced_buffer_hook(m_buffer); + } + catch (...) { + ::free(tmp); + throw; + } + static_cast<VisitorHolder&>(*this).set_referenced(false); + } else { + detail::decr_count(m_buffer); + } + + m_buffer = tmp; + m_used = not_parsed + COUNTER_SIZE; + m_free = next_size - m_used; + m_off = COUNTER_SIZE; + } +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline char* parser<VisitorHolder, ReferencedBufferHook>::buffer() +{ + return m_buffer + m_used; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline std::size_t parser<VisitorHolder, ReferencedBufferHook>::buffer_capacity() const +{ + return m_free; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline void parser<VisitorHolder, ReferencedBufferHook>::buffer_consumed(std::size_t size) +{ + m_used += size; + m_free -= size; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> + inline bool parser<VisitorHolder, ReferencedBufferHook>::next() +{ + parse_return ret = execute_imp(); + return ret == PARSE_SUCCESS; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline parse_return parser<VisitorHolder, ReferencedBufferHook>::execute_imp() +{ + std::size_t off = m_off; + parse_return ret = context_type::execute(m_buffer, m_used, m_off); + if(m_off > off) { + m_parsed += m_off - off; + } + return ret; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline void parser<VisitorHolder, ReferencedBufferHook>::reset() +{ + context_type::init(); + // don't reset referenced flag + m_parsed = 0; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline std::size_t parser<VisitorHolder, ReferencedBufferHook>::message_size() const +{ + return m_parsed - m_off + m_used; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline std::size_t parser<VisitorHolder, ReferencedBufferHook>::parsed_size() const +{ + return m_parsed; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline char* parser<VisitorHolder, ReferencedBufferHook>::nonparsed_buffer() +{ + return m_buffer + m_off; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline std::size_t parser<VisitorHolder, ReferencedBufferHook>::nonparsed_size() const +{ + return m_used - m_off; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline void parser<VisitorHolder, ReferencedBufferHook>::skip_nonparsed_buffer(std::size_t size) +{ + m_off += size; +} + +template <typename VisitorHolder, typename ReferencedBufferHook> +inline void parser<VisitorHolder, ReferencedBufferHook>::remove_nonparsed_buffer() +{ + m_used = m_off; +} + +template <typename Visitor> +inline bool parse(const char* data, size_t len, size_t& off, Visitor& v) { + parse_return ret = msgpack::detail::parse_imp(data, len, off, v); + return ret == PARSE_SUCCESS || ret == PARSE_EXTRA_BYTES; +} + +template <typename Visitor> +inline bool parse(const char* data, size_t len, Visitor& v) { + std::size_t off = 0; + return msgpack::parse(data, len, off, v); +} + +namespace detail { + +template <typename Visitor> +struct parse_helper : detail::context<parse_helper<Visitor> > { + parse_helper(Visitor& v):m_visitor(v) {} + parse_return execute(const char* data, std::size_t len, std::size_t& off) { + return detail::context<parse_helper<Visitor> >::execute(data, len, off); + } + Visitor& visitor() const { return m_visitor; } + Visitor& m_visitor; +}; + +template <typename Visitor> +inline parse_return +parse_imp(const char* data, size_t len, size_t& off, Visitor& v) { + std::size_t noff = off; + + if(len <= noff) { + // FIXME + v.insufficient_bytes(noff, noff); + return PARSE_CONTINUE; + } + detail::parse_helper<Visitor> h(v); + parse_return ret = h.execute(data, len, noff); + switch (ret) { + case PARSE_CONTINUE: + off = noff; + v.insufficient_bytes(noff - 1, noff); + return ret; + case PARSE_SUCCESS: + off = noff; + if(noff < len) { + return PARSE_EXTRA_BYTES; + } + return ret; + default: + return ret; + } +} + +} // detail + + +/// @cond +} // MSGPACK_API_VERSION_NAMESPACE(v2) +/// @endcond + +} // namespace msgpack + +#endif // MSGPACK_DEFAULT_API_VERSION >= 2 + +#endif // MSGPACK_V2_PARSE_HPP |