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Code Issues Releases Wiki Activity
construct/ircd/json.cc
Jason Volk b592b69b86 What is the Matrix? Control.
2017-03-10 17:51:18 -08:00

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/*
* charybdis: standing on the shoulders of giant build times
*
* Copyright (C) 2017 Charybdis Development Team
* Copyright (C) 2017 Jason Volk <jason@zemos.net>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice is present in all copies.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/karma.hpp>
#include <boost/fusion/include/std_pair.hpp>
#include <boost/fusion/adapted/std_pair.hpp>
#include <boost/fusion/adapted/std_tuple.hpp>
#include <ircd/lex_cast.h>
BOOST_FUSION_ADAPT_STRUCT
(
ircd::json::doc::member,
( decltype(ircd::json::doc::member::first), first )
( decltype(ircd::json::doc::member::second), second )
)
/*
BOOST_FUSION_ADAPT_STRUCT
(
ircd::json::obj::member,
( decltype(ircd::json::obj::member::first), first )
( decltype(ircd::json::obj::member::second), second )
)
*/
namespace ircd {
namespace json {
namespace spirit = boost::spirit;
namespace ascii = spirit::ascii;
namespace karma = spirit::karma;
namespace qi = spirit::qi;
using spirit::unused_type;
using qi::lit;
using qi::int_;
using qi::char_;
using qi::double_;
using qi::raw;
using qi::omit;
using qi::matches;
using qi::hold;
using qi::eoi;
using qi::eps;
using qi::attr;
using karma::lit;
using karma::char_;
using karma::maxwidth;
using karma::buffer;
using karma::eps;
template<class it>
struct input
:qi::grammar<it, string_view>
{
// insignificant whitespaces
qi::rule<it> SP { lit('\x20'), "space" };
qi::rule<it> HT { lit('\x09'), "horizontal tab" };
qi::rule<it> CR { lit('\x0D'), "carriage return" };
qi::rule<it> LF { lit('\x0A'), "line feed" };
// whitespace skipping
qi::rule<it> WS { SP | HT | CR | LF, "whitespace" };
qi::rule<it> ws { *(WS), "whitespace monoid" };
qi::rule<it> wsp { +(WS), "whitespace semigroup" };
// structural
qi::rule<it> object_begin { lit('{'), "object begin" };
qi::rule<it> object_end { lit('}'), "object end" };
qi::rule<it> array_begin;
qi::rule<it> array_end;
qi::rule<it> name_sep;
qi::rule<it> value_sep;
// literal
qi::rule<it, string_view> lit_true;
qi::rule<it, string_view> lit_false;
qi::rule<it, string_view> lit_null;
qi::rule<it> quote;
qi::rule<it, string_view> chars;
qi::rule<it, string_view> string;
qi::rule<it, string_view> boolean;
qi::rule<it, string_view> literal;
qi::rule<it, string_view> number;
qi::rule<it, string_view> array;
qi::rule<it, string_view> object;
qi::rule<it, string_view> name;
qi::rule<it, string_view> value;
qi::rule<it, doc::member> member;
qi::rule<it, int> type;
input();
};
template<class it>
input<it>::input()
:input<it>::base_type
{
object
}
,array_begin
{
lit('[')
,"array begin"
}
,array_end
{
lit(']')
,"array end"
}
,name_sep
{
lit(':')
,"name separator"
}
,value_sep
{
lit(',')
,"value separator"
}
,lit_true
{
lit("true")
,"literal true"
}
,lit_false
{
lit("false")
,"literal false"
}
,lit_null
{
lit("null")
,"literal null"
}
,quote
{
lit('\"')
,"quote"
}
,chars
{
raw[*(char_ - quote)]
,"string"
}
,string
{
quote >> chars >> quote
,"string"
}
,boolean
{
lit_true | lit_false
,"boolean"
}
,literal
{
lit_true | lit_false | lit_null
,"literal"
}
,number
{
raw[double_]
,"number"
}
,array
{
array_begin >> -(omit[ws >> value >> ws] % value_sep) >> ws >> array_end
,"array"
}
,object
{
object_begin >> -(omit[ws >> member >> ws] % value_sep) >> ws >> object_end
,"object"
}
,name
{
string
,"name"
}
,value
{
lit_false | lit_true | lit_null | object | array | number | string
,"value"
}
,member
{
name >> -ws >> name_sep >> -ws >> value
,"member"
}
,type
{
(omit[object_begin] >> attr(json::OBJECT)) |
(omit[quote] >> attr(json::STRING)) |
(omit[number] >> attr(json::NUMBER)) |
(omit[literal] >> attr(json::LITERAL)) |
(omit[array_begin] >> attr(json::ARRAY))
,"type"
}
{
array %= array_begin >> -(omit[ws >> value >> ws] % value_sep) >> ws >> array_end;
object %= object_begin >> -(omit[ws >> member >> ws] % value_sep) >> ws >> object_end;
}
template<class it>
struct output
:karma::grammar<it, unused_type>
{
template<class T = unused_type> using rule = karma::rule<it, T>;
rule<> NUL { lit('\0') ,"nul" };
// insignificant whitespaces
rule<> SP { lit('\x20') ,"space" };
rule<> HT { lit('\x09') ,"horizontal tab" };
rule<> CR { lit('\x0D') ,"carriage return" };
rule<> LF { lit('\x0A') ,"line feed" };
// whitespace skipping
rule<> WS { SP | HT | CR | LF ,"whitespace" };
rule<> ws { *(WS) ,"whitespace monoid" };
rule<> wsp { +(WS) ,"whitespace semigroup" };
// structural
rule<> object_begin { lit('{') ,"object begin" };
rule<> object_end { lit('}') ,"object end" };
rule<> array_begin { lit('[') ,"array begin" };
rule<> array_end { lit(']') ,"array end" };
rule<> name_sep { lit(':') ,"name separator" };
rule<> value_sep { lit(',') ,"value separator" };
rule<> quote { lit('"') ,"quote" };
rule<string_view> lit_true { karma::string("true") ,"literal true" };
rule<string_view> lit_false { karma::string("false") ,"literal false" };
rule<string_view> lit_null { karma::string("null") ,"literal null" };
rule<string_view> boolean { lit_true | lit_false ,"boolean" };
rule<string_view> literal { lit_true | lit_false | lit_null ,"literal" };
rule<string_view> chars { *(~char_("\"")) ,"chars" };
rule<string_view> string { quote << chars << quote ,"string" };
rule<string_view> name { string ,"name" };
rule<string_view> value { rule<string_view>{} ,"value" };
rule<const json::array &> elems { *(value % value_sep) ,"elements" };
rule<const json::array &> array { array_begin << elems << array_end ,"array" };
rule<doc::member> dmember { name << name_sep << value ,"member" };
rule<const json::doc &> dmembers { *(dmember % value_sep) ,"members" };
rule<const json::doc &> document { object_begin << dmembers << object_end ,"document" };
rule<doc::member> member { name << name_sep << value ,"member" };
rule<const json::obj &> members { *(member % value_sep) ,"members" };
rule<const json::obj &> object { object_begin << members << object_end ,"object" };
output()
:output::base_type{rule<>{}}
{
array %= array_begin << elems << array_end;
object %= object_begin << members << object_end;
document %= object_begin << dmembers << object_end;
}
};
} // namespace json
} // namespace ircd
namespace ircd {
namespace json {
struct parser
:input<const char *>
{
using input<const char *>::input;
}
const parser;
struct printer
:output<char *>
{
using output<char *>::output;
}
const printer;
struct ostreamer
:output<karma::ostream_iterator<char>>
{
using output<karma::ostream_iterator<char>>::output;
}
const ostreamer;
doc serialize(const obj &, char *const &start, char *const &stop);
size_t print(char *const &buf, const size_t &max, const obj &);
size_t print(char *const &buf, const size_t &max, const doc &);
std::ostream &operator<<(std::ostream &, const doc::member &);
std::ostream &operator<<(std::ostream &, const doc &);
std::ostream &operator<<(std::ostream &, const obj &);
} // namespace json
} // namespace ircd
size_t
ircd::json::print(char *const &buf,
const size_t &max,
const obj &obj)
{
const auto doc(serialize(obj, buf, buf + max));
return doc.size();
}
ircd::json::doc
ircd::json::serialize(const obj &obj,
char *const &start,
char *const &stop)
{
static const auto throws([]
{
throw print_error("The JSON generator failed to serialize object");
});
static const karma::rule<char *, std::pair<string_view, string_view>> generate_kv
{
printer.quote << +char_ << printer.quote << ':' << +char_
};
char *out(start);
const auto generate_member([&out, &stop]
(const doc::member &member)
{
static const karma::rule<char *, std::pair<string_view, string_view>> generate_member
{
printer.value_sep << generate_kv
};
karma::generate(out, maxwidth(stop - out)[generate_member], member);
});
karma::generate(out, maxwidth(stop - out)[printer.object_begin] | eps[throws]);
if(obj.count())
{
const auto &front(*begin(obj));
karma::generate(out, maxwidth(stop - out)[generate_kv], front);
}
std::for_each(std::next(begin(obj), 1), end(obj), generate_member);
karma::generate(out, maxwidth(stop - out)[printer.object_end] | eps[throws]);
return string_view{start, out};
}
std::ostream &
ircd::json::operator<<(std::ostream &s, const obj &obj)
{
static const auto throws([]
{
throw print_error("The JSON generator failed to output object to stream");
});
karma::ostream_iterator<char> osi(s);
karma::generate(osi, ostreamer.object | eps[throws], obj);
return s;
}
ircd::json::obj::obj(const doc &doc)
:state{doc}
,idx{std::begin(doc), std::end(doc)}
,owns_state{false}
{
}
ircd::json::obj::obj(const obj &other)
:state{[&other]
{
const size_t size(other.size());
std::unique_ptr<char[]> buf(new char[size + 1]);
const auto ret(serialize(other, buf.get(), buf.get() + size));
buf.get()[size] = '\0';
buf.release();
return ret;
}()}
,idx{std::begin(state), std::end(state)}
,owns_state{true}
{
//TODO: if idx throws state.data() will leak
}
ircd::json::obj::~obj()
noexcept
{
if(owns_state)
delete[] state.data();
for(const auto &member : idx)
{
if(member.owns_first) delete[] member.first.data();
if(member.owns_second) delete[] member.second.data();
}
}
bool
ircd::json::obj::serialized()
const
{
return std::all_of(std::begin(idx), std::end(idx), [this]
(const auto &member)
{
return state.contains(member.first) && state.contains(member.second);
});
}
size_t
ircd::json::obj::size()
const
{
const size_t ret(1 + idx.empty());
return std::accumulate(std::begin(idx), std::end(idx), ret, []
(auto ret, const auto &member)
{
return ret += 1 + member.first.size() + 1 + 1 + member.second.size() + 1;
});
}
ircd::json::obj::delta
ircd::json::obj::operator[](const char *const &name)
{
auto pit(idx.emplace(string_view{name}, string_view{}));
auto &member(const_cast<obj::member &>(*pit.first));
/*
if(pit.second)
{
const size_t size(strlen(name));
std::unique_ptr<char[]> rename(new char[size + 1]);
strlcpy(rename.get(), name, size + 1);
member.first = { rename.get(), size };
member.owns_first = true;
rename.release();
}
*/
return { *this, member, member.second };
}
ircd::json::obj::delta
ircd::json::obj::at(const char *const &name)
{
const auto it(idx.find(string_view{name}));
if(unlikely(it == idx.end()))
throw not_found("name \"%s\"", name);
auto &member(const_cast<obj::member &>(*it));
return { *this, member, member.second };
}
ircd::json::obj::iterator
ircd::json::obj::begin()
{
return { *this, std::begin(idx) };
}
ircd::json::obj::iterator
ircd::json::obj::end()
{
return { *this, std::end(idx) };
}
ircd::json::obj::const_iterator
ircd::json::obj::cbegin()
{
return { std::begin(idx) };
}
ircd::json::obj::const_iterator
ircd::json::obj::cend()
{
return { std::end(idx) };
}
ircd::json::obj::const_iterator
ircd::json::obj::begin()
const
{
return { std::begin(idx) };
}
ircd::json::obj::const_iterator
ircd::json::obj::end()
const
{
return { std::end(idx) };
}
ircd::json::obj::iterator::iterator(struct obj &obj,
obj::index::iterator it)
:obj{&obj}
,it{it}
{
}
ircd::json::obj::iterator::value_type *
ircd::json::obj::iterator::operator->()
{
auto &member(const_cast<obj::member &>(*it));
state = proxy
{
{ *obj, member, member.first },
{ *obj, member, member.second }
};
return &state;
}
ircd::json::obj::iterator &
ircd::json::obj::iterator::operator++()
{
++it;
return *this;
}
ircd::json::obj::delta::delta(struct obj &obj,
obj::member &member,
const string_view &current)
:string_view{current}
,obj{&obj}
,member{&member}
{
}
void
ircd::json::obj::delta::set(const string_view &value)
{
commit(value);
}
void
ircd::json::obj::delta::set(const char *const &string)
{
const auto size(strlen(string));
const auto max(size + 1);
std::unique_ptr<char[]> restart(new char[max]);
strlcpy(restart.get(), string, max);
commit(string_view(restart.get(), restart.get() + size));
member->owns_second = true;
restart.release();
}
void
ircd::json::obj::delta::set(const std::string &string)
{
const auto max(string.size() + 1);
std::unique_ptr<char[]> restart(new char[max]);
strlcpy(restart.get(), string.data(), max);
commit(string_view(restart.get(), restart.get() + string.size()));
member->owns_second = true;
restart.release();
}
void
ircd::json::obj::delta::set(const bool &boolean)
{
static const char *const true_p("true");
static const char *const false_p("false");
const auto ptr(boolean? true_p : false_p);
commit(string_view(ptr));
}
void
ircd::json::obj::delta::set(const int32_t &number)
{
static const size_t max(16);
using array = std::array<char, max>;
std::unique_ptr<char[]> restart(new char[max]);
auto &a(*reinterpret_cast<array *>(restart.get()));
a = lex_cast<array>(number);
const auto size(strlen(restart.get()));
commit(string_view(restart.get(), restart.get() + size));
member->owns_second = true;
restart.release();
}
void
ircd::json::obj::delta::set(const uint64_t &number)
{
static const size_t max(32);
using array = std::array<char, max>;
std::unique_ptr<char[]> restart(new char[max]);
auto &a(*reinterpret_cast<array *>(restart.get()));
a = lex_cast<array>(number);
const auto size(strlen(restart.get()));
commit(string_view(restart.get(), restart.get() + size));
member->owns_second = true;
restart.release();
}
void
ircd::json::obj::delta::set(const double &number)
{
static const size_t max(64);
using array = std::array<char, max>;
std::unique_ptr<char[]> restart(new char[max]);
auto &a(*reinterpret_cast<array *>(restart.get()));
a = lex_cast<array>(number);
const auto size(strlen(restart.get()));
commit(string_view(restart.get(), restart.get() + size));
member->owns_second = true;
restart.release();
}
void
ircd::json::obj::delta::commit(const string_view &buf)
{
if(member->owns_second)
{
delete[] member->second.data();
member->owns_second = false;
}
static_cast<string_view &>(*this) = buf;
member->second = buf;
}
size_t
ircd::json::print(char *const &buf,
const size_t &max,
const doc &doc)
{
static const auto throws([]
{
throw print_error("The JSON generator failed to print document");
});
char *out(buf);
karma::generate(out, maxwidth(max)[printer.document] | eps[throws], doc);
return std::distance(buf, out);
}
std::ostream &
ircd::json::operator<<(std::ostream &s, const doc &doc)
{
static const auto throws([]
{
throw print_error("The JSON generator failed to output document to stream");
});
karma::ostream_iterator<char> osi(s);
karma::generate(osi, ostreamer.document | eps[throws], doc);
return s;
}
std::ostream &
ircd::json::operator<<(std::ostream &s, const doc::member &member)
{
static const auto throws([]
{
throw print_error("The JSON generator failed to output document member to stream");
});
karma::ostream_iterator<char> osi(s);
karma::generate(osi, ostreamer.dmember | eps[throws], member);
return s;
}
ircd::json::doc::iterator &
ircd::json::doc::iterator::operator++()
{
static const qi::rule<const char *, json::doc::member> member
{
parser.name >> parser.ws >> parser.name_sep >> parser.ws >> raw[parser.value]
};
static const qi::rule<const char *, json::doc::member> parse_next
{
parser.object_end | (parser.value_sep >> parser.ws >> member)
};
state.first = string_view{};
state.second = string_view{};
if(!qi::phrase_parse(start, stop, parse_next, parser.WS, state))
start = stop;
return *this;
}
ircd::json::doc::iterator
ircd::json::doc::begin()
const
{
static const qi::rule<const char *, json::doc::member> member
{
parser.name >> parser.ws >> parser.name_sep >> parser.ws >> raw[parser.value]
};
static const qi::rule<const char *, json::doc::member> parse_begin
{
parser.object_begin >> parser.ws >> (parser.object_end | member)
};
iterator ret(string_view::begin(), string_view::end());
if(!qi::phrase_parse(ret.start, ret.stop, parse_begin, parser.WS, ret.state))
ret.start = ret.stop;
return ret;
}
ircd::json::doc::iterator
ircd::json::doc::end()
const
{
return { string_view::end(), string_view::end() };
}
ircd::json::array::const_iterator &
ircd::json::array::const_iterator::operator++()
{
static const qi::rule<const char *, string_view> parse_next
{
(parser.array_end | (parser.value_sep >> parser.ws >> raw[parser.value]))
};
state = string_view{};
if(!qi::phrase_parse(start, stop, parse_next, parser.WS, state))
start = stop;
return *this;
}
ircd::json::array::const_iterator
ircd::json::array::begin()
const
{
static const qi::rule<const char *, string_view> parse_begin
{
parser.array_begin >> parser.ws >> (parser.array_end | raw[parser.value])
};
iterator ret(state.begin(), state.end());
if(!qi::phrase_parse(ret.start, ret.stop, parse_begin, parser.WS, ret.state))
ret.start = ret.stop;
return ret;
}
ircd::json::array::const_iterator
ircd::json::array::end()
const
{
return { state.end(), state.end() };
}
enum ircd::json::type
ircd::json::type(const string_view &buf)
{
static const auto flag(qi::skip_flag::dont_postskip);
enum type ret;
if(!qi::phrase_parse(begin(buf), end(buf), parser.type, parser.WS, flag, ret))
throw type_error("Failed to get type from buffer");
return ret;
}
///////////////////////////////////////////////////////////////////////////////
//
// ircd/json.h
//
/*
const char *const packet_test
{R"({
"betty": 1,
"boop": "beep"
})"};
*/
const char *const packet_test[]
{
R"({"type":"m.login.password"})",
R"({"type":"m.login.password","user":"jzk","password":"foobar"})",
R"({"type":"m.login.password","user":"jzk","password":1.337,"number":1337})",
R"({"user":{"name":"jzk"},"pass":true})",
R"({"type":"m.login.password","user":{"name":{"text":"jzk"}}})",
R"({"type":"m.login.password","bap":"boop","user":{"name":"jzk"},"password":"hi"})",
R"({"type":"m.login.password","user":{"name":"jzk","profile":{"foo":"bar"}},"password":1.337,"logins":1337})",
R"({"user":{"name":"jzk"}})",
R"({ "versions": [ "r0.0.1" , "r0.1.0" , "r0.2.0" ] })",
R"(
{
"origin_server_ts": 1444812213737,
"user_id": "@alice:example.com",
"event_id": "$1444812213350496Caaaa:example.com",
"content": {
"body": "hello world",
"msgtype":"m.text"
},
"room_id":"!Xq3620DUiqCaoxq:example.com",
"type":"m.room.message",
"age": 1042
}
)",
};
void
ircd::json::test()
{
static char packet[4096] {0};
strcpy(packet, packet_test[9]);
const auto max(strlen(packet));
printf("packet(%zu) @%p [%s]\n\n", max, packet, packet);
std::cout << std::endl;
std::cout << std::endl;
const char *ptr(packet);
const char *const stop(packet + max);
const json::doc doc
{
string_view { ptr, stop }
};
const json::obj obj{doc};
std::cout << obj["type"] << std::endl;
//json::delta foo(doc.find("type")->first, 1234);
//std::cout << "[" << foo.first << "]" << std::endl;
//std::cout << "[" << foo.second << "]" << std::endl;
//std::cout << "[" << obj["type"] << "]" << std::endl;
//obj["type"] = "cya";
//std::cout << "[" << obj["type"] << "]" << std::endl;
//printf("test (%zu)\n", ret.size());
// for(const auto &sv : ret)
// printf("[%s]\n", sv.data());
//printf("[%s]\n", ret.data());
}
namespace ircd {
namespace json {
} // namespace json
} // namespace ircd
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