/* Miranda NG: the free IM client for Microsoft* Windows* Copyright (C) 2012-22 Miranda NG team (https://miranda-ng.org), Copyright (c) 2000-12 Miranda IM project, all portions of this codebase are copyrighted to the people listed in contributors.txt. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "stdafx.h" #include "JSONNode.h" #include "JSONNode.inl" #include "JSONWorker.h" extern JSONNode nullNode; #ifdef JSON_VALIDATE JSONNode JSONWorker::validate(const json_string & json){ JSONNode res = parse(json); if (!res.validate()) { throw std::invalid_argument(EMPTY_STRING2); } return JSONNode(true, res); //forces it to simply return the original interal, even with ref counting off } #endif JSONNode JSONWorker::parse(const json_string & json){ json_auto s; #if defined JSON_DEBUG || defined JSON_SAFE json_char lastchar; s.set(RemoveWhiteSpace(json, lastchar)); #else s.set(RemoveWhiteSpace(json)); #endif #ifdef JSON_COMMENTS json_char firstchar = s.ptr[0]; json_string _comment; json_char * runner = s.ptr; if (firstchar == '\5') { //multiple comments will be consolidated into one newcomment: while(*(++runner) != '\5') { JSON_ASSERT(*runner, JSON_TEXT("Removing white space failed")); _comment += *runner; } firstchar = *(++runner); //step past the trailing tag if (firstchar == '\5') { _comment += '\n'; goto newcomment; } } #else const json_char firstchar = s.ptr[0]; #endif switch (firstchar){ case '{': case '[': #if defined JSON_DEBUG || defined JSON_SAFE if (firstchar == '[') { if (lastchar != ']') { JSON_FAIL(JSON_TEXT("Missing final ]")); break; } } else { if (lastchar != '}') { JSON_FAIL(JSON_TEXT("Missing final }")); break; } } #endif #ifdef JSON_COMMENTS JSONNode foo(runner); foo.set_comment(_comment); return JSONNode(true, foo); //forces it to simply return the original interal, even with ref counting off #else return JSONNode(s.ptr); #endif } JSON_FAIL(JSON_TEXT("Not JSON!")); return nullNode; } #define QUOTECASE()\ case JSON_TEXT('\"'):\ while (*(++p) != JSON_TEXT('\"')) {\ JSON_ASSERT_SAFE(*p, JSON_TEXT("Null terminator inside of a quotation"), return json_string::npos;);\ }\ break; #ifdef JSON_DEBUG #define NULLCASE(error)\ case JSON_TEXT('\0'):\ JSON_FAIL_SAFE(error, return json_string::npos;);\ break; #else #define NULLCASE(error) #endif #define BRACKET(left, right)\ case left: {\ size_t brac = 1;\ while (brac){\ switch (*(++p)) {\ case right:\ --brac;\ break;\ case left:\ ++brac;\ break;\ QUOTECASE()\ NULLCASE(JSON_TEXT("Null terminator inside of a bracket"))\ }\ }\ break;}\ case right:\ return json_string::npos; size_t JSONWorker::FindNextRelevant(json_char ch, const json_string & value_t, const size_t pos){ const json_char * start = value_t.c_str(); const json_char * p = start + pos; //start at the correct offset do { if (*p == ch) return p - start; switch (*p){ BRACKET(JSON_TEXT('['), JSON_TEXT(']')) BRACKET(JSON_TEXT('{'), JSON_TEXT('}')) QUOTECASE() } } while(*(++p)); return json_string::npos; } #ifdef JSON_COMMENTS #define COMMENT_DELIMITER() *runner++='\5' #define AND_RUNNER ,runner inline void SingleLineComment(const json_char * & p, json_char * & runner){ COMMENT_DELIMITER(); while((*(++p)) && (*p != JSON_TEXT('\n'))) { *runner++=*p; } COMMENT_DELIMITER(); } #else #define COMMENT_DELIMITER() (void)0 #define AND_RUNNER #endif inline void SingleLineComment(const json_char * & p){ while((*(++p)) && (*p != JSON_TEXT('\n'))); } #if defined JSON_DEBUG || defined JSON_SAFE json_char * JSONWorker::RemoveWhiteSpace(const json_string & value_t, json_char & last){ #else json_char * JSONWorker::RemoveWhiteSpace(const json_string & value_t){ #endif json_char * result; json_char * runner = result = json_malloc(value_t.length() + 1); //dealing with raw memory is faster than adding to a json_string JSON_ASSERT(result, JSON_TEXT("Out of memory")); const json_char * p = value_t.c_str(); while(*p){ switch(*p){ case JSON_TEXT(' '): //defined as white space case JSON_TEXT('\t'): //defined as white space case JSON_TEXT('\n'): //defined as white space case JSON_TEXT('\r'): //defined as white space break; case JSON_TEXT('/'): //a C comment if (*(++p) == JSON_TEXT('*')) { //a multiline comment COMMENT_DELIMITER(); while ((*(++p) != JSON_TEXT('*')) || (*(p + 1) != JSON_TEXT('/'))) { JSON_ASSERT_SAFE(*p, JSON_TEXT("Null terminator inside of a multiline quote"), COMMENT_DELIMITER(); goto endofloop;); *runner++=*p; } ++p; COMMENT_DELIMITER(); break; } //Should be a single line C comment, so let it fall through to use the bash comment stripper JSON_ASSERT_SAFE(*p == JSON_TEXT('/'), JSON_TEXT("stray / character, not quoted, or a comment"), goto endofloop;); case JSON_TEXT('#'): //a bash comment SingleLineComment(p AND_RUNNER); break; case JSON_TEXT('\"'): //a quote *runner++=JSON_TEXT('\"'); while(*(++p) != JSON_TEXT('\"')) { //find the end of the quotation, as white space is preserved within it JSON_ASSERT_SAFE(*p, JSON_TEXT("Null terminator inside of a quotation"), goto endofloop;); switch(*p){ case JSON_TEXT('\\'): *runner++=JSON_TEXT('\\'); *runner++=(*++p == JSON_TEXT('\"')) ? JSON_TEXT('\1') : *p; //an escaped quote will reak havoc will all of my searching functions, so change it into an illegal character in JSON for convertion later on break; default: *runner++=*p; break; } } //no break, let it fall through so that the trailing quote gets added default: JSON_ASSERT_SAFE((json_uchar)*p >= 32, JSON_TEXT("Invalid JSON character detected (lo)"), goto endofloop;); JSON_ASSERT_SAFE((json_uchar)*p <= 126, JSON_TEXT("Invalid JSON character detected (hi)"), goto endofloop;); *runner++=*p; break; } ++p; } #ifdef JSON_SAFE endofloop: #endif #if defined JSON_DEBUG || defined JSON_SAFE last = *(runner - 1); #endif *runner = JSON_TEXT('\0'); return result; } json_string JSONWorker::RemoveWhiteSpaceAndComments(const json_string & value_t){ json_string result; result.reserve(value_t.length()); const json_char * p = value_t.c_str(); while(*p){ switch(*p){ case JSON_TEXT(' '): //defined as white space case JSON_TEXT('\t'): //defined as white space case JSON_TEXT('\n'): //defined as white space case JSON_TEXT('\r'): //defined as white space break; case JSON_TEXT('/'): //a C comment if (*(++p) == JSON_TEXT('*')) { //a multiline comment while ((*(++p) != JSON_TEXT('*')) || (*(p + 1) != JSON_TEXT('/'))) { JSON_ASSERT_SAFE(*p, JSON_TEXT("Null terminator inside of a multiline quote"), goto endofloop;); } ++p; break; } //Should be a single line C comment, so let it fall through to use the bash comment stripper JSON_ASSERT_SAFE(*p == JSON_TEXT('/'), JSON_TEXT("stray / character, not quoted, or a comment"), goto endofloop;); case JSON_TEXT('#'): //a bash comment SingleLineComment(p); break; case JSON_TEXT('\"'): //a quote result += JSON_TEXT('\"'); while(*(++p) != JSON_TEXT('\"')) { //find the end of the quotation, as white space is preserved within it JSON_ASSERT(*p, JSON_TEXT("Null terminator inside of a quotation")); switch(*p){ case JSON_TEXT('\\'): result += JSON_TEXT('\\'); result += (*++p == JSON_TEXT('\"')) ? JSON_TEXT('\1') : *p; //an escaped quote will reak havoc will all of my searching functions, so change it into an illegal character in JSON for convertion later on break; default: result += *p; break; } } //no break, let it fall through so that the trailing quote gets added default: JSON_ASSERT_SAFE((json_uchar)*p >= 32, JSON_TEXT("Invalid JSON character detected (lo)"), goto endofloop;); JSON_ASSERT_SAFE((json_uchar)*p <= 126, JSON_TEXT("Invalid JSON character detected (hi)"), goto endofloop;); result += *p; break; } ++p; } #ifdef JSON_SAFE endofloop: #endif return result; } /* These three functions analyze json_string literals and convert them into std::strings This includes dealing with special characters and utf characters */ #ifdef JSON_UNICODE inline json_uchar SurrogatePair(const json_uchar hi, const json_uchar lo){ JSON_ASSERT(sizeof(unsigned int) == 4, JSON_TEXT("size of unsigned int is not 32-bit")); JSON_ASSERT(sizeof(json_uchar) == 4, JSON_TEXT("size of json_char is not 32-bit")); return (((hi << 10) & 0x1FFC00) + 0x10000) | lo & 0x3FF; } json_string JSONWorker::UTF(const json_char * & pos){ json_string result; json_uchar first = UTF8(pos); if ((*(pos + 1) == '\\') && (*(pos + 2) == 'u')) { pos += 2; json_uchar second = UTF8(pos); //surrogate pair, not two characters if ((first > 0xD800) && (first < 0xDBFF) && (second > 0xDC00) && (second < 0xDFFF)) { result += SurrogatePair(first, second); } else { result += first; result += second; } } else { result += first; } JSON_ASSERT(!result.empty(), JSON_TEXT("missing case, somehow UTF returned empty")); return result; } #endif json_uchar JSONWorker::UTF8(const json_char * & pos){ #ifdef JSON_UNICODE ++pos; json_uchar temp = Hex(pos) << 8; ++pos; return temp | Hex(pos); #else JSON_ASSERT(*(pos + 1) == JSON_TEXT('0'), JSON_TEXT("wide utf character (hihi)")); JSON_ASSERT(*(pos + 2) == JSON_TEXT('0'), JSON_TEXT("wide utf character (hilo)")); pos += 3; return Hex(pos); #endif } static json_char szU8Buffer[10]; json_char* JSONWorker::UTF8_2(const json_char * & pos){ #ifdef JSON_UNICODE ++pos; json_uchar temp = Hex(pos) << 8; ++pos; *szU8Buffer = temp | Hex(pos); szU8Buffer[1] = 0; return szU8Buffer; #else union { unsigned short uChar; unsigned char uByte[2]; }; pos++; strncpy(szU8Buffer+5,pos,4); szU8Buffer[9] = 0; uChar = strtoul(szU8Buffer+5,NULL,16); if (uChar<0x80) { szU8Buffer[0] = uChar; szU8Buffer[1] = 0; } else if (uChar<0x7ff) { szU8Buffer[0] = 0xc0+(uByte[1]<<2)+(uByte[0]>>6); szU8Buffer[1] = 0x80+(uByte[0]&0x3f); szU8Buffer[2] = 0; } else { szU8Buffer[0] = 0xe0+(uByte[1]>>4); szU8Buffer[1] = 0x80+((uByte[1]&0x0f)<<2)+(uByte[0]>>6); szU8Buffer[2] = 0x80+(uByte[0]&0x3f); szU8Buffer[3] = 0; } pos += 3; return szU8Buffer; #endif } json_char JSONWorker::Hex(const json_char * & pos){ /* takes the numeric value of the next two characters and convert them \u0058 becomes 0x58 In case of \u, it's SpecialChar's responsibility to move past the first two chars as this method is also used for \x */ //First character json_uchar hi = *pos++ - 48; if (hi > 48){ //A-F don't immediately follow 0-9, so have to pull them down a little hi -= 39; } else if (hi > 9){ //neither do a-f hi -= 7; } //second character json_uchar lo = *pos - 48; if (lo > 48){ //A-F don't immediately follow 0-9, so have to pull them down a little lo -= 39; } else if (lo > 9){ //neither do a-f lo -= 7; } //combine them return (json_char)((hi << 4) | lo); } inline json_char FromOctal(const json_char * & str){ JSON_ASSERT(json_strlen(str) > 3, JSON_TEXT("Octal will go out of bounds")); const json_uchar top = ((json_uchar)(*(str++) - 48)); const json_uchar middle = (json_uchar)(*(str++) - 48); const json_uchar bottom = (json_uchar)(*str - 48); return (json_char)((top << 6) | (middle << 3) | bottom); } void JSONWorker::SpecialChar(const json_char * & pos, json_string & res){ /* Since JSON uses forward slash escaping for special characters within strings, I have to convert these escaped characters into C characters */ switch(*pos){ case JSON_TEXT('\1'): //quote character (altered by RemoveWhiteSpace) res += JSON_TEXT('\"'); break; case JSON_TEXT('t'): //tab character res += JSON_TEXT('\t'); break; case JSON_TEXT('n'): //newline character res += JSON_TEXT('\n'); break; case JSON_TEXT('r'): //return character res += JSON_TEXT('\r'); break; case JSON_TEXT('\\'): //backslash res += JSON_TEXT('\\'); break; case JSON_TEXT('/'): //forward slash res += JSON_TEXT('/'); break; case JSON_TEXT('b'): //backspace res += JSON_TEXT('\b'); break; case JSON_TEXT('f'): //formfeed res += JSON_TEXT('\f'); break; case JSON_TEXT('v'): //vertical tab res += JSON_TEXT('\v'); break; case JSON_TEXT('\''): //apostrophe res += JSON_TEXT('\''); break; case JSON_TEXT('x'): //hexidecimal ascii code res += Hex(++pos); break; case JSON_TEXT('u'): //utf character #ifdef JSON_UNICODE res += UTF(pos); #else //res += UTF8(pos); res.append(UTF8_2(pos)); #endif break; //octal encoding case JSON_TEXT('1'): case JSON_TEXT('2'): case JSON_TEXT('3'): case JSON_TEXT('4'): case JSON_TEXT('5'): case JSON_TEXT('6'): case JSON_TEXT('7'): case JSON_TEXT('0'): res += FromOctal(pos); break; #ifdef JSON_DEBUG default: JSON_FAIL(JSON_TEXT("Unsupported escaped character")); #endif } } #ifdef JSON_LESS_MEMORY inline void doflag(const internalJSONNode * flag, bool which, bool x){ if (which){ flag -> _name_encoded = x; } else { flag -> _string_encoded = x; } } json_string JSONWorker::FixString(const json_string & value_t, const internalJSONNode * flag, bool which){ #define setflag(x) doflag(flag, which, x) #else json_string JSONWorker::FixString(const json_string & value_t, bool & flag){ #define setflag(x) flag = x #endif /* Do things like unescaping */ setflag(false); json_string res; res.reserve(value_t.length()); //since it goes one character at a time, want to reserve it first so that it doens't have to reallocating const json_char * p = value_t.c_str(); while(*p){ switch (*p){ case JSON_TEXT('\\'): setflag(true); SpecialChar(++p, res); break; default: res += *p; break; } ++p; } return res; } #ifdef JSON_UNICODE json_string JSONWorker::toSurrogatePair(json_uchar C){ JSON_ASSERT(sizeof(unsigned int) == 4, JSON_TEXT("size of unsigned int is not 32-bit")); JSON_ASSERT(sizeof(unsigned short) == 2, JSON_TEXT("size of unsigned short is not 16-bit")); JSON_ASSERT(sizeof(json_uchar) == 4, JSON_TEXT("json_char is not 32-bit")); //Compute the high surrogate const unsigned int U = (C >> 16) & 31; unsigned short HiSurrogate = 0xD800 | (((unsigned short)U - 1) << 6) | ((unsigned short)C) >> 10; //compute the low surrogate unsigned short LoSurrogate = (unsigned short) (0xDC00 | ((unsigned short)C) & 1023); json_string res; res += toUTF8(HiSurrogate); res += toUTF8(LoSurrogate); return res; } #endif json_string JSONWorker::toUTF8(json_uchar p){ #ifdef JSON_UNICODE if (p > 0xFFFF) return toSurrogatePair(p); #endif json_string res(JSON_TEXT("\\u")); #ifdef JSON_UNICODE json_uchar hihi = ((p & 0xF000) >> 12) + 48; if (hihi > 57) hihi += 7; //A-F don't immediately follow 0-9, so have to further adjust those json_uchar hilo = ((p & 0x0F00) >> 8) + 48; if (hilo > 57) hilo += 7; //A-F don't immediately follow 0-9, so have to further adjust those res += hihi; res += hilo; json_uchar hi = ((p & 0x00F0) >> 4) + 48; #else res += JSON_TEXT("00"); json_uchar hi = (p >> 4) + 48; #endif //convert the character to be escaped into two digits between 0 and 15 if (hi > 57) hi += 7; //A-F don't immediately follow 0-9, so have to further adjust those json_uchar lo = (p & 0x000F) + 48; if (lo > 57) lo += 7; //A-F don't immediately follow 0-9, so have to further adjust those res += hi; res += lo; return res; } json_string JSONWorker::UnfixString(const json_string & value_t, bool flag){ if (!flag) return value_t; /* Re-escapes a json_string so that it can be written out into a JSON file */ json_string res; res.reserve(value_t.length()); //since it goes one character at a time, want to reserve it first so that it doens't have to reallocating const json_char * p = value_t.c_str(); while(*p){ switch(*p){ case JSON_TEXT('\"'): // quote character res += JSON_TEXT("\\\""); break; case JSON_TEXT('\t'): // tab character res += JSON_TEXT("\\t"); break; case JSON_TEXT('\n'): // newline character res += JSON_TEXT("\\n"); break; case JSON_TEXT('\r'): // return character res += JSON_TEXT("\\r"); break; case JSON_TEXT('\\'): // backslash res += JSON_TEXT("\\\\"); break; case JSON_TEXT('/'): // forward slash res += JSON_TEXT("\\/"); break; case JSON_TEXT('\b'): // backspace res += JSON_TEXT("\\b"); break; case JSON_TEXT('\f'): // formfeed res += JSON_TEXT("\\f"); break; case JSON_TEXT('\v'): // vertical tab res += JSON_TEXT("\\v"); break; default: /*if (((json_uchar)(*p) < 32) || ((json_uchar)(*p) > 126)) { //res += toUTF8((json_uchar)(*p)); } else*/ { res += *p; } break; } ++p; } return res; } //Create a childnode #ifdef JSON_COMMENTS #define ARRAY_PARAM bool array //Just to supress warnings #else #define ARRAY_PARAM bool #endif inline void JSONWorker::NewNode(const internalJSONNode * parent, const json_string & name, const json_string & value, ARRAY_PARAM){ #ifdef JSON_COMMENTS const json_char * runner = (array) ? value.c_str() : name.c_str(); json_string _comment; if (*runner == '\5') { //multiple comments will be consolidated into one newcomment: while(*(++runner) != '\5') { JSON_ASSERT(*runner, JSON_TEXT("Removing white space failed")); _comment += *runner; } if (*(++runner) == '\5') { //step past the trailing tag _comment += '\n'; goto newcomment; } } internalJSONNode * myinternal; if (array){ myinternal = internalJSONNode::newInternal(name, runner); } else { myinternal = internalJSONNode::newInternal(++runner, value); } JSONNode * child = JSONNode::newJSONNode(myinternal); child -> set_comment(_comment); const_cast(parent) -> Children.push_back(child); //attach it to the parent node #else const_cast(parent) -> Children.push_back(JSONNode::newJSONNode(internalJSONNode::newInternal(name.c_str() + 1, value))); //attach it to the parent node #endif } //Create a subarray void JSONWorker::DoArray(const internalJSONNode * parent, const json_string & value_t){ /* This takes an array and creates nodes out of them */ JSON_ASSERT(!value_t.empty(), JSON_TEXT("DoArray is empty")); JSON_ASSERT_SAFE(value_t[0] == JSON_TEXT('['), JSON_TEXT("DoArray is not an array"), parent -> Nullify(); return;); const size_t len = value_t.length(); if (len <= 2) return; // just a [] (blank array) //Not sure what's in the array, so we have to use commas size_t starting = 1; //ignore the [ size_t ending = FindNextRelevant(JSON_TEXT(','), value_t, 1); while (ending != json_string::npos){ #ifdef JSON_SAFE json_string newValue = value_t.substr(starting, ending - starting); JSON_ASSERT_SAFE(FindNextRelevant(JSON_TEXT(':'), newValue, 0) == json_string::npos, JSON_TEXT("Key/Value pairs are not allowed in arrays"), parent -> Nullify(); return;); NewNode(parent, JSON_TEXT(""), newValue, true); #else NewNode(parent, JSON_TEXT(""), value_t.substr(starting, ending - starting), true); #endif starting = ending + 1; ending = FindNextRelevant(JSON_TEXT(','), value_t, starting); } //since the last one will not find the comma, we have to add it here, but ignore the final ] #ifdef JSON_SAFE json_string newValue = value_t.substr(starting, len - starting - 1); JSON_ASSERT_SAFE(FindNextRelevant(JSON_TEXT(':'), newValue, 0) == json_string::npos, JSON_TEXT("Key/Value pairs are not allowed in arrays"), parent -> Nullify(); return;); NewNode(parent, JSON_TEXT(""), newValue, true); #else NewNode(parent, JSON_TEXT(""), value_t.substr(starting, len - starting - 1), true); #endif } //Create all child nodes void JSONWorker::DoNode(const internalJSONNode * parent, const json_string & value_t){ /* This take a node and creates its members and such */ JSON_ASSERT(!value_t.empty(), JSON_TEXT("DoNode is empty")); JSON_ASSERT_SAFE(value_t[0] == JSON_TEXT('{'), JSON_TEXT("DoNode is not an node"), parent -> Nullify(); return;); const size_t len = value_t.length(); if (len <= 2) return; // just a {} (blank node) size_t name_starting = 1; //ignore the { size_t name_ending = FindNextRelevant(JSON_TEXT(':'), value_t, 1); //find where the name ends JSON_ASSERT_SAFE(name_ending != json_string::npos, JSON_TEXT("Missing :"), parent -> Nullify(); return;); json_string name = value_t.substr(name_starting, name_ending - 2); //pull the name out size_t value_ending = FindNextRelevant(JSON_TEXT(','), value_t, name_ending); //find the end of the value while (value_ending != json_string::npos){ NewNode(parent, name, value_t.substr(name_ending + 1, value_ending - name_ending - 1), false); name_starting = value_ending + 1; name_ending = FindNextRelevant(JSON_TEXT(':'), value_t, name_starting); JSON_ASSERT_SAFE(name_ending != json_string::npos, JSON_TEXT("Missing :"), parent -> Nullify(); return;); name = value_t.substr(name_starting, name_ending - name_starting - 1); value_ending = FindNextRelevant(JSON_TEXT(','), value_t, name_ending); } //since the last one will not find the comma, we have to add it here NewNode(parent, name, value_t.substr(name_ending + 1, len - name_ending - 2), false); }