/*
Copyright ( c ) 2009 Dave Gamble
Permission is hereby granted , free of charge , to any person obtaining a copy
of this software and associated documentation files ( the " Software " ) , to deal
in the Software without restriction , including without limitation the rights
to use , copy , modify , merge , publish , distribute , sublicense , and / or sell
copies of the Software , and to permit persons to whom the Software is
furnished to do so , subject to the following conditions :
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE .
*/
/* cJSON */
/* JSON parser in C. */
# include <math.h>
# include "../includes/cJSON.h"
# ifndef DBL_EPSILON
# define DBL_EPSILON 2.2204460492503131E-16
# endif
static const char * ep ;
long stripquotes ( char * str )
{
long len , offset ;
if ( str = = 0 )
return ( 0 ) ;
len = strlen ( str ) ;
if ( str [ 0 ] = = ' " ' & & str [ len - 1 ] = = ' " ' )
str [ len - 1 ] = 0 , offset = 1 ;
else offset = 0 ;
return ( offset ) ;
}
const char * cJSON_GetErrorPtr ( void ) { return ep ; }
static int32_t cJSON_strcasecmp ( const char * s1 , const char * s2 )
{
if ( ! s1 ) return ( s1 = = s2 ) ? 0 : 1 ; if ( ! s2 ) return 1 ;
for ( ; tolower ( ( int32_t ) ( * s1 ) ) = = tolower ( ( int32_t ) ( * s2 ) ) ; + + s1 , + + s2 ) if ( * s1 = = 0 ) return 0 ;
return tolower ( ( int32_t ) ( * ( const unsigned char * ) s1 ) ) - tolower ( ( int32_t ) ( * ( const unsigned char * ) s2 ) ) ;
}
void * LP_alloc ( uint64_t len ) ;
void LP_free ( void * ptr ) ;
static void * ( * cJSON_malloc ) ( size_t sz ) = ( void * ) LP_alloc ;
static void ( * cJSON_free ) ( void * ptr ) = LP_free ;
static char * cJSON_strdup ( const char * str )
{
size_t len ;
char * copy ;
len = strlen ( str ) + 1 ;
if ( ! ( copy = ( char * ) cJSON_malloc ( len + 1 ) ) ) return 0 ;
memcpy ( copy , str , len ) ;
return copy ;
}
void cJSON_InitHooks ( cJSON_Hooks * hooks )
{
if ( ! hooks ) { /* Reset hooks */
cJSON_malloc = malloc ;
cJSON_free = free ;
return ;
}
cJSON_malloc = ( hooks - > malloc_fn ) ? hooks - > malloc_fn : malloc ;
cJSON_free = ( hooks - > free_fn ) ? hooks - > free_fn : free ;
}
/* Internal constructor. */
static cJSON * cJSON_New_Item ( void )
{
cJSON * node = ( cJSON * ) cJSON_malloc ( sizeof ( cJSON ) ) ;
if ( node ) memset ( node , 0 , sizeof ( cJSON ) ) ;
return node ;
}
/* Delete a cJSON structure. */
void cJSON_Delete ( cJSON * c )
{
cJSON * next ;
while ( c )
{
next = c - > next ;
if ( ! ( c - > type & cJSON_IsReference ) & & c - > child ) cJSON_Delete ( c - > child ) ;
if ( ! ( c - > type & cJSON_IsReference ) & & c - > valuestring ) cJSON_free ( c - > valuestring ) ;
if ( c - > string ) cJSON_free ( c - > string ) ;
cJSON_free ( c ) ;
c = next ;
}
}
/* Parse the input text to generate a number, and populate the result into item. */
static const char * parse_number ( cJSON * item , const char * num )
{
double n = 0 , sign = 1 , scale = 0 ; int32_t subscale = 0 , signsubscale = 1 ;
if ( * num = = ' - ' ) sign = - 1 , num + + ; /* Has sign? */
if ( * num = = ' 0 ' ) num + + ; /* is zero */
if ( * num > = ' 1 ' & & * num < = ' 9 ' ) do n = ( n * 10.0 ) + ( * num + + - ' 0 ' ) ; while ( * num > = ' 0 ' & & * num < = ' 9 ' ) ; /* Number? */
if ( * num = = ' . ' & & num [ 1 ] > = ' 0 ' & & num [ 1 ] < = ' 9 ' ) { num + + ; do n = ( n * 10.0 ) + ( * num + + - ' 0 ' ) , scale - - ; while ( * num > = ' 0 ' & & * num < = ' 9 ' ) ; } /* Fractional part? */
if ( * num = = ' e ' | | * num = = ' E ' ) /* Exponent? */
{ num + + ; if ( * num = = ' + ' ) num + + ; else if ( * num = = ' - ' ) signsubscale = - 1 , num + + ; /* With sign? */
while ( * num > = ' 0 ' & & * num < = ' 9 ' ) subscale = ( subscale * 10 ) + ( * num + + - ' 0 ' ) ; /* Number? */
}
n = sign * n * pow ( 10.0 , ( scale + subscale * signsubscale ) ) ; /* number = +/- number.fraction * 10^+/- exponent */
item - > valuedouble = n ;
item - > valueint = ( int64_t ) n ;
item - > type = cJSON_Number ;
return num ;
}
/* Render the number nicely from the given item into a string. */
static char * print_number ( cJSON * item )
{
char * str ;
double d = item - > valuedouble ;
if ( fabs ( ( ( double ) item - > valueint ) - d ) < = DBL_EPSILON & & d > = ( 1. - DBL_EPSILON ) & & d < ( 1LL < < 62 ) ) //d <= INT_MAX && d >= INT_MIN )
{
str = ( char * ) cJSON_malloc ( 24 ) ; /* 2^64+1 can be represented in 21 chars + sign. */
if ( str ! = 0 )
sprintf ( str , " %lld " , ( long long ) item - > valueint ) ;
}
else
{
str = ( char * ) cJSON_malloc ( 66 ) ; /* This is a nice tradeoff. */
if ( str ! = 0 )
{
if ( fabs ( floor ( d ) - d ) < = DBL_EPSILON & & fabs ( d ) < 1.0e60 )
sprintf ( str , " %.0f " , d ) ;
//else if (fabs(d)<1.0e-6 || fabs(d)>1.0e9) sprintf(str,"%e",d);
else
sprintf ( str , " %.8f " , d ) ;
}
}
return str ;
}
static unsigned parse_hex4 ( const char * str )
{
unsigned h = 0 ;
if ( * str > = ' 0 ' & & * str < = ' 9 ' ) h + = ( * str ) - ' 0 ' ; else if ( * str > = ' A ' & & * str < = ' F ' ) h + = 10 + ( * str ) - ' A ' ; else if ( * str > = ' a ' & & * str < = ' f ' ) h + = 10 + ( * str ) - ' a ' ; else return 0 ;
h = h < < 4 ; str + + ;
if ( * str > = ' 0 ' & & * str < = ' 9 ' ) h + = ( * str ) - ' 0 ' ; else if ( * str > = ' A ' & & * str < = ' F ' ) h + = 10 + ( * str ) - ' A ' ; else if ( * str > = ' a ' & & * str < = ' f ' ) h + = 10 + ( * str ) - ' a ' ; else return 0 ;
h = h < < 4 ; str + + ;
if ( * str > = ' 0 ' & & * str < = ' 9 ' ) h + = ( * str ) - ' 0 ' ; else if ( * str > = ' A ' & & * str < = ' F ' ) h + = 10 + ( * str ) - ' A ' ; else if ( * str > = ' a ' & & * str < = ' f ' ) h + = 10 + ( * str ) - ' a ' ; else return 0 ;
h = h < < 4 ; str + + ;
if ( * str > = ' 0 ' & & * str < = ' 9 ' ) h + = ( * str ) - ' 0 ' ; else if ( * str > = ' A ' & & * str < = ' F ' ) h + = 10 + ( * str ) - ' A ' ; else if ( * str > = ' a ' & & * str < = ' f ' ) h + = 10 + ( * str ) - ' a ' ; else return 0 ;
return h ;
}
/* Parse the input text into an unescaped cstring, and populate item. */
static const unsigned char firstByteMark [ 7 ] = { 0x00 , 0x00 , 0xC0 , 0xE0 , 0xF0 , 0xF8 , 0xFC } ;
static const char * parse_string ( cJSON * item , const char * str )
{
const char * ptr = str + 1 ; char * ptr2 ; char * out ; int32_t len = 0 ; unsigned uc , uc2 ;
if ( * str ! = ' \" ' ) { ep = str ; return 0 ; } /* not a string! */
while ( * ptr ! = ' \" ' & & * ptr & & + + len ) if ( * ptr + + = = ' \\ ' ) ptr + + ; // Skip escaped quotes
out = ( char * ) cJSON_malloc ( len + 2 ) ; /* This is how long we need for the string, roughly. */
if ( ! out ) return 0 ;
ptr = str + 1 ; ptr2 = out ;
while ( * ptr ! = ' \" ' & & * ptr )
{
if ( * ptr ! = ' \\ ' )
{
if ( * ptr = = ' % ' & & is_hexstr ( ( char * ) & ptr [ 1 ] , 2 ) & & isprint ( _decode_hex ( ( char * ) & ptr [ 1 ] ) ) ! = 0 )
* ptr2 + + = _decode_hex ( ( char * ) & ptr [ 1 ] ) , ptr + = 3 ;
else * ptr2 + + = * ptr + + ;
}
else
{
ptr + + ;
switch ( * ptr )
{
case ' b ' : * ptr2 + + = ' \b ' ; break ;
case ' f ' : * ptr2 + + = ' \f ' ; break ;
case ' n ' : * ptr2 + + = ' \n ' ; break ;
case ' r ' : * ptr2 + + = ' \r ' ; break ;
case ' t ' : * ptr2 + + = ' \t ' ; break ;
case ' u ' : // transcode utf16 to utf8
uc = parse_hex4 ( ptr + 1 ) ; ptr + = 4 ; // get the unicode char
if ( ( uc > = 0xDC00 & & uc < = 0xDFFF ) | | uc = = 0 ) break ; // check for invalid
if ( uc > = 0xD800 & & uc < = 0xDBFF ) // UTF16 surrogate pairs
{
if ( ptr [ 1 ] ! = ' \\ ' | | ptr [ 2 ] ! = ' u ' ) break ; // missing second-half of surrogate.
uc2 = parse_hex4 ( ptr + 3 ) ; ptr + = 6 ;
if ( uc2 < 0xDC00 | | uc2 > 0xDFFF ) break ; // invalid second-half of surrogate
uc = 0x10000 + ( ( ( uc & 0x3FF ) < < 10 ) | ( uc2 & 0x3FF ) ) ;
}
len = 4 ; if ( uc < 0x80 ) len = 1 ; else if ( uc < 0x800 ) len = 2 ; else if ( uc < 0x10000 ) len = 3 ; ptr2 + = len ;
switch ( len ) {
case 4 : * - - ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc > > = 6 ;
case 3 : * - - ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc > > = 6 ;
case 2 : * - - ptr2 = ( ( uc | 0x80 ) & 0xBF ) ; uc > > = 6 ;
case 1 : * - - ptr2 = ( uc | firstByteMark [ len ] ) ;
}
ptr2 + = len ;
break ;
default : * ptr2 + + = * ptr ; break ;
}
ptr + + ;
}
}
* ptr2 = 0 ;
if ( * ptr = = ' \" ' ) ptr + + ;
item - > valuestring = out ;
item - > type = cJSON_String ;
return ptr ;
}
/* Render the cstring provided to an escaped version that can be printed. */
static char * print_string_ptr ( const char * str )
{
const char * ptr ; char * ptr2 , * out ; int32_t len = 0 ; unsigned char token ;
if ( ! str ) return cJSON_strdup ( " " ) ;
ptr = str ; while ( ( token = * ptr ) & & + + len ) { if ( strchr ( " \" \\ \b \f \n \r \t " , token ) ) len + + ; else if ( token < 32 ) len + = 5 ; ptr + + ; }
out = ( char * ) cJSON_malloc ( len + 3 + 1 ) ;
if ( ! out ) return 0 ;
ptr2 = out ; ptr = str ;
* ptr2 + + = ' \" ' ;
while ( * ptr )
{
if ( ( unsigned char ) * ptr > 31 & & * ptr ! = ' \" ' & & * ptr ! = ' \\ ' ) * ptr2 + + = * ptr + + ;
else
{
* ptr2 + + = ' \\ ' ;
switch ( token = * ptr + + )
{
case ' \\ ' : * ptr2 + + = ' \\ ' ; break ;
case ' \" ' : * ptr2 + + = ' \" ' ; break ;
case ' \b ' : * ptr2 + + = ' b ' ; break ;
case ' \f ' : * ptr2 + + = ' f ' ; break ;
case ' \n ' : * ptr2 + + = ' n ' ; break ;
case ' \r ' : * ptr2 + + = ' r ' ; break ;
case ' \t ' : * ptr2 + + = ' t ' ; break ;
default : sprintf ( ptr2 , " u%04x " , token ) ; ptr2 + = 5 ; break ; /* escape and print */
}
}
}
* ptr2 + + = ' \" ' ; * ptr2 + + = 0 ;
return out ;
}
/* Invote print_string_ptr (which is useful) on an item. */
static char * print_string ( cJSON * item ) { return print_string_ptr ( item - > valuestring ) ; }
/* Predeclare these prototypes. */
static const char * parse_value ( cJSON * item , const char * value ) ;
static char * print_value ( cJSON * item , int32_t depth , int32_t fmt ) ;
static const char * parse_array ( cJSON * item , const char * value ) ;
static char * print_array ( cJSON * item , int32_t depth , int32_t fmt ) ;
static const char * parse_object ( cJSON * item , const char * value ) ;
static char * print_object ( cJSON * item , int32_t depth , int32_t fmt ) ;
/* Utility to jump whitespace and cr/lf */
static const char * skip ( const char * in ) { while ( in & & * in & & ( unsigned char ) * in < = 32 ) in + + ; return in ; }
/* Parse an object - create a new root, and populate. */
cJSON * cJSON_ParseWithOpts ( const char * value , const char * * return_parse_end , int32_t require_null_terminated )
{
const char * end = 0 ;
cJSON * c = cJSON_New_Item ( ) ;
ep = 0 ;
if ( ! c ) return 0 ; /* memory fail */
end = parse_value ( c , skip ( value ) ) ;
if ( ! end ) { cJSON_Delete ( c ) ; return 0 ; } /* parse failure. ep is set. */
/* if we require null-terminated JSON without appended garbage, skip and then check for a null terminator */
if ( require_null_terminated ) { end = skip ( end ) ; if ( * end ) { cJSON_Delete ( c ) ; ep = end ; return 0 ; } }
if ( return_parse_end ) * return_parse_end = end ;
return c ;
}
/* Default options for cJSON_Parse */
cJSON * cJSON_Parse ( const char * value )
{
return ( cJSON_ParseWithOpts ( value , 0 , 0 ) ) ;
}
/* Render a cJSON item/entity/structure to text. */
char * cJSON_Print ( cJSON * item )
{
return ( print_value ( item , 0 , 1 ) ) ;
}
char * cJSON_PrintUnformatted ( cJSON * item ) { return print_value ( item , 0 , 0 ) ; }
/* Parser core - when encountering text, process appropriately. */
static const char * parse_value ( cJSON * item , const char * value )
{
if ( ! value ) return 0 ; /* Fail on null. */
if ( ! strncmp ( value , " null " , 4 ) ) { item - > type = cJSON_NULL ; return value + 4 ; }
if ( ! strncmp ( value , " false " , 5 ) ) { item - > type = cJSON_False ; return value + 5 ; }
if ( ! strncmp ( value , " true " , 4 ) ) { item - > type = cJSON_True ; item - > valueint = 1 ; return value + 4 ; }
if ( * value = = ' \" ' ) { return parse_string ( item , value ) ; }
if ( * value = = ' - ' | | ( * value > = ' 0 ' & & * value < = ' 9 ' ) ) { return parse_number ( item , value ) ; }
if ( * value = = ' [ ' ) { return parse_array ( item , value ) ; }
if ( * value = = ' { ' ) { return parse_object ( item , value ) ; }
ep = value ; return 0 ; /* failure. */
}
/* Render a value to text. */
static char * print_value ( cJSON * item , int32_t depth , int32_t fmt )
{
char * out = 0 ;
if ( ! item ) return 0 ;
switch ( ( item - > type ) & 255 )
{
case cJSON_NULL : out = cJSON_strdup ( " null " ) ; break ;
case cJSON_False : out = cJSON_strdup ( " false " ) ; break ;
case cJSON_True : out = cJSON_strdup ( " true " ) ; break ;
case cJSON_Number : out = print_number ( item ) ; break ;
case cJSON_String : out = print_string ( item ) ; break ;
case cJSON_Array : out = print_array ( item , depth , fmt ) ; break ;
case cJSON_Object : out = print_object ( item , depth , fmt ) ; break ;
}
return out ;
}
/* Build an array from input text. */
static const char * parse_array ( cJSON * item , const char * value )
{
cJSON * child ;
if ( * value ! = ' [ ' ) { ep = value ; return 0 ; } /* not an array! */
item - > type = cJSON_Array ;
value = skip ( value + 1 ) ;
if ( * value = = ' ] ' ) return value + 1 ; /* empty array. */
item - > child = child = cJSON_New_Item ( ) ;
if ( ! item - > child ) return 0 ; /* memory fail */
value = skip ( parse_value ( child , skip ( value ) ) ) ; /* skip any spacing, get the value. */
if ( ! value ) return 0 ;
while ( * value = = ' , ' )
{
cJSON * new_item ;
if ( ! ( new_item = cJSON_New_Item ( ) ) ) return 0 ; /* memory fail */
child - > next = new_item ; new_item - > prev = child ; child = new_item ;
value = skip ( parse_value ( child , skip ( value + 1 ) ) ) ;
if ( ! value ) return 0 ; /* memory fail */
}
if ( * value = = ' ] ' ) return value + 1 ; /* end of array */
ep = value ; return 0 ; /* malformed. */
}
/* Render an array to text */
static char * print_array ( cJSON * item , int32_t depth , int32_t fmt )
{
char * * entries ;
char * out = 0 , * ptr , * ret ; int32_t len = 5 ;
cJSON * child = item - > child ;
int32_t numentries = 0 , i = 0 , fail = 0 ;
/* How many entries in the array? */
while ( child ) numentries + + , child = child - > next ;
/* Explicitly handle numentries==0 */
if ( ! numentries )
{
out = ( char * ) cJSON_malloc ( 3 + 1 ) ;
if ( out ) strcpy ( out , " [] " ) ;
return out ;
}
/* Allocate an array to hold the values for each */
entries = ( char * * ) cJSON_malloc ( ( 1 + numentries ) * sizeof ( char * ) ) ;
if ( ! entries ) return 0 ;
memset ( entries , 0 , numentries * sizeof ( char * ) ) ;
/* Retrieve all the results: */
child = item - > child ;
while ( child & & ! fail )
{
ret = print_value ( child , depth + 1 , fmt ) ;
entries [ i + + ] = ret ;
if ( ret ) len + = strlen ( ret ) + 2 + ( fmt ? 1 : 0 ) ; else fail = 1 ;
child = child - > next ;
}
/* If we didn't fail, try to malloc the output string */
if ( ! fail ) out = ( char * ) cJSON_malloc ( len + 1 ) ;
/* If that fails, we fail. */
if ( ! out ) fail = 1 ;
/* Handle failure. */
if ( fail )
{
for ( i = 0 ; i < numentries ; i + + ) if ( entries [ i ] ) cJSON_free ( entries [ i ] ) ;
cJSON_free ( entries ) ;
return 0 ;
}
/* Compose the output array. */
* out = ' [ ' ;
ptr = out + 1 ; * ptr = 0 ;
for ( i = 0 ; i < numentries ; i + + )
{
strcpy ( ptr , entries [ i ] ) ; ptr + = strlen ( entries [ i ] ) ;
if ( i ! = numentries - 1 ) { * ptr + + = ' , ' ; if ( fmt ) * ptr + + = ' ' ; * ptr = 0 ; }
cJSON_free ( entries [ i ] ) ;
}
cJSON_free ( entries ) ;
* ptr + + = ' ] ' ; * ptr + + = 0 ;
return out ;
}
/* Build an object from the text. */
static const char * parse_object ( cJSON * item , const char * value )
{
cJSON * child ;
if ( * value ! = ' { ' ) { ep = value ; return 0 ; } /* not an object! */
item - > type = cJSON_Object ;
value = skip ( value + 1 ) ;
if ( * value = = ' } ' ) return value + 1 ; /* empty array. */
item - > child = child = cJSON_New_Item ( ) ;
if ( ! item - > child ) return 0 ;
value = skip ( parse_string ( child , skip ( value ) ) ) ;
if ( ! value ) return 0 ;
child - > string = child - > valuestring ; child - > valuestring = 0 ;
if ( * value ! = ' : ' ) { ep = value ; return 0 ; } /* fail! */
value = skip ( parse_value ( child , skip ( value + 1 ) ) ) ; /* skip any spacing, get the value. */
if ( ! value ) return 0 ;
while ( * value = = ' , ' )
{
cJSON * new_item ;
if ( ! ( new_item = cJSON_New_Item ( ) ) ) return 0 ; /* memory fail */
child - > next = new_item ; new_item - > prev = child ; child = new_item ;
value = skip ( parse_string ( child , skip ( value + 1 ) ) ) ;
if ( ! value ) return 0 ;
child - > string = child - > valuestring ; child - > valuestring = 0 ;
if ( * value ! = ' : ' ) { ep = value ; return 0 ; } /* fail! */
value = skip ( parse_value ( child , skip ( value + 1 ) ) ) ; /* skip any spacing, get the value. */
if ( ! value ) return 0 ;
}
if ( * value = = ' } ' ) return value + 1 ; /* end of array */
ep = value ; return 0 ; /* malformed. */
}
/* Render an object to text. */
static char * print_object ( cJSON * item , int32_t depth , int32_t fmt )
{
char * * entries = 0 , * * names = 0 ;
char * out = 0 , * ptr , * ret , * str ; int32_t len = 7 , i = 0 , j ;
cJSON * child = item - > child , * firstchild ;
int32_t numentries = 0 , fail = 0 ;
// Count the number of entries
firstchild = child ;
while ( child )
{
numentries + + ;
child = child - > next ;
if ( child = = firstchild )
{
printf ( " cJSON infinite loop detected \n " ) ;
break ;
}
}
/* Explicitly handle empty object case */
if ( ! numentries )
{
out = ( char * ) cJSON_malloc ( fmt ? depth + 4 + 1 : 3 + 1 ) ;
if ( ! out ) return 0 ;
ptr = out ; * ptr + + = ' { ' ;
if ( fmt ) { * ptr + + = ' \n ' ; for ( i = 0 ; i < depth - 1 ; i + + ) * ptr + + = ' \t ' ; }
* ptr + + = ' } ' ; * ptr + + = 0 ;
return out ;
}
/* Allocate space for the names and the objects */
entries = ( char * * ) cJSON_malloc ( numentries * sizeof ( char * ) ) ;
if ( ! entries ) return 0 ;
names = ( char * * ) cJSON_malloc ( numentries * sizeof ( char * ) ) ;
if ( ! names ) { cJSON_free ( entries ) ; return 0 ; }
memset ( entries , 0 , sizeof ( char * ) * numentries ) ;
memset ( names , 0 , sizeof ( char * ) * numentries ) ;
/* Collect all the results into our arrays: */
child = item - > child ; depth + + ; if ( fmt ) len + = depth ;
while ( child )
{
names [ i ] = str = print_string_ptr ( child - > string ) ;
entries [ i + + ] = ret = print_value ( child , depth , fmt ) ;
if ( str & & ret ) len + = strlen ( ret ) + strlen ( str ) + 2 + ( fmt ? 2 + depth : 0 ) ; else fail = 1 ;
child = child - > next ;
if ( child = = firstchild )
break ;
}
/* Try to allocate the output string */
if ( ! fail ) out = ( char * ) cJSON_malloc ( len + 1 ) ;
if ( ! out ) fail = 1 ;
/* Handle failure */
if ( fail )
{
for ( i = 0 ; i < numentries ; i + + ) { if ( names [ i ] ) cJSON_free ( names [ i ] ) ; if ( entries [ i ] ) cJSON_free ( entries [ i ] ) ; }
cJSON_free ( names ) ; cJSON_free ( entries ) ;
return 0 ;
}
/* Compose the output: */
* out = ' { ' ; ptr = out + 1 ; if ( fmt ) * ptr + + = ' \n ' ; * ptr = 0 ;
for ( i = 0 ; i < numentries ; i + + )
{
if ( fmt ) for ( j = 0 ; j < depth ; j + + ) * ptr + + = ' \t ' ;
strcpy ( ptr , names [ i ] ) ; ptr + = strlen ( names [ i ] ) ;
* ptr + + = ' : ' ; if ( fmt ) * ptr + + = ' \t ' ;
strcpy ( ptr , entries [ i ] ) ; ptr + = strlen ( entries [ i ] ) ;
if ( i ! = numentries - 1 ) * ptr + + = ' , ' ;
if ( fmt ) * ptr + + = ' \n ' ; * ptr = 0 ;
cJSON_free ( names [ i ] ) ; cJSON_free ( entries [ i ] ) ;
}
cJSON_free ( names ) ; cJSON_free ( entries ) ;
if ( fmt ) for ( i = 0 ; i < depth - 1 ; i + + ) * ptr + + = ' \t ' ;
* ptr + + = ' } ' ; * ptr + + = 0 ;
return out ;
}
/* Get Array size/item / object item. */
int32_t cJSON_GetArraySize ( cJSON * array ) { cJSON * c ; if ( array = = 0 ) return ( 0 ) ; c = array - > child ; int32_t i = 0 ; while ( c ) i + + , c = c - > next ; return i ; }
cJSON * cJSON_GetArrayItem ( cJSON * array , int32_t item ) { cJSON * c = array - > child ; while ( c & & item > 0 ) item - - , c = c - > next ; return c ; }
cJSON * cJSON_GetObjectItem ( cJSON * object , const char * string ) { if ( object = = 0 ) return ( 0 ) ; cJSON * c = object - > child ; while ( c & & cJSON_strcasecmp ( c - > string , string ) ) c = c - > next ; return c ; }
/* Utility for array list handling. */
static void suffix_object ( cJSON * prev , cJSON * item ) { prev - > next = item ; item - > prev = prev ; }
/* Utility for handling references. */
static cJSON * create_reference ( cJSON * item ) { cJSON * ref = cJSON_New_Item ( ) ; if ( ! ref ) return 0 ; memcpy ( ref , item , sizeof ( cJSON ) ) ; ref - > string = 0 ; ref - > type | = cJSON_IsReference ; ref - > next = ref - > prev = 0 ; return ref ; }
/* Add item to array/object. */
void cJSON_AddItemToArray ( cJSON * array , cJSON * item ) { cJSON * c = array - > child ; if ( ! item ) return ; if ( ! c ) { array - > child = item ; } else { while ( c & & c - > next ) c = c - > next ; suffix_object ( c , item ) ; } }
void cJSON_AddItemToObject ( cJSON * object , const char * string , cJSON * item ) { if ( ! item ) return ; if ( item - > string ) cJSON_free ( item - > string ) ; item - > string = cJSON_strdup ( string ) ; cJSON_AddItemToArray ( object , item ) ; }
void cJSON_AddItemReferenceToArray ( cJSON * array , cJSON * item ) { cJSON_AddItemToArray ( array , create_reference ( item ) ) ; }
void cJSON_AddItemReferenceToObject ( cJSON * object , const char * string , cJSON * item ) { cJSON_AddItemToObject ( object , string , create_reference ( item ) ) ; }
cJSON * cJSON_DetachItemFromArray ( cJSON * array , int32_t which ) { cJSON * c = array - > child ; while ( c & & which > 0 ) c = c - > next , which - - ; if ( ! c ) return 0 ;
if ( c - > prev ) c - > prev - > next = c - > next ; if ( c - > next ) c - > next - > prev = c - > prev ; if ( c = = array - > child ) array - > child = c - > next ; c - > prev = c - > next = 0 ; return c ; }
void cJSON_DeleteItemFromArray ( cJSON * array , int32_t which ) { cJSON_Delete ( cJSON_DetachItemFromArray ( array , which ) ) ; }
cJSON * cJSON_DetachItemFromObject ( cJSON * object , const char * string ) { int32_t i = 0 ; cJSON * c = object - > child ; while ( c & & cJSON_strcasecmp ( c - > string , string ) ) i + + , c = c - > next ; if ( c ) return cJSON_DetachItemFromArray ( object , i ) ; return 0 ; }
void cJSON_DeleteItemFromObject ( cJSON * object , const char * string ) { cJSON_Delete ( cJSON_DetachItemFromObject ( object , string ) ) ; }
/* Replace array/object items with new ones. */
void cJSON_ReplaceItemInArray ( cJSON * array , int32_t which , cJSON * newitem ) { cJSON * c = array - > child ; while ( c & & which > 0 ) c = c - > next , which - - ; if ( ! c ) return ;
newitem - > next = c - > next ; newitem - > prev = c - > prev ; if ( newitem - > next ) newitem - > next - > prev = newitem ;
if ( c = = array - > child ) array - > child = newitem ; else newitem - > prev - > next = newitem ; c - > next = c - > prev = 0 ; cJSON_Delete ( c ) ; }
void cJSON_ReplaceItemInObject ( cJSON * object , const char * string , cJSON * newitem ) { int32_t i = 0 ; cJSON * c = object - > child ; while ( c & & cJSON_strcasecmp ( c - > string , string ) ) i + + , c = c - > next ; if ( c ) { newitem - > string = cJSON_strdup ( string ) ; cJSON_ReplaceItemInArray ( object , i , newitem ) ; } }
/* Create basic types: */
cJSON * cJSON_CreateNull ( void ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) item - > type = cJSON_NULL ; return item ; }
cJSON * cJSON_CreateTrue ( void ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) item - > type = cJSON_True ; return item ; }
cJSON * cJSON_CreateFalse ( void ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) item - > type = cJSON_False ; return item ; }
cJSON * cJSON_CreateBool ( int32_t b ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) item - > type = b ? cJSON_True : cJSON_False ; return item ; }
cJSON * cJSON_CreateNumber ( double num ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) { item - > type = cJSON_Number ; item - > valuedouble = num ; item - > valueint = ( int64_t ) num ; } return item ; }
cJSON * cJSON_CreateString ( const char * string ) { cJSON * item = cJSON_New_Item ( ) ; if ( item ) { item - > type = cJSON_String ; item - > valuestring = cJSON_strdup ( string ) ; } return item ; }
/* Create Arrays: */
cJSON * cJSON_CreateIntArray ( int64_t * numbers , int32_t count ) { int32_t i ; cJSON * n = 0 , * p = 0 , * a = cJSON_CreateArray ( ) ; for ( i = 0 ; a & & i < count ; i + + ) { n = cJSON_CreateNumber ( ( double ) numbers [ i ] ) ; if ( ! i ) a - > child = n ; else suffix_object ( p , n ) ; p = n ; } return a ; }
cJSON * cJSON_CreateFloatArray ( float * numbers , int32_t count ) { int32_t i ; cJSON * n = 0 , * p = 0 , * a = cJSON_CreateArray ( ) ; for ( i = 0 ; a & & i < count ; i + + ) { n = cJSON_CreateNumber ( numbers [ i ] ) ; if ( ! i ) a - > child = n ; else suffix_object ( p , n ) ; p = n ; } return a ; }
cJSON * cJSON_CreateDoubleArray ( double * numbers , int32_t count ) { int32_t i ; cJSON * n = 0 , * p = 0 , * a = cJSON_CreateArray ( ) ; for ( i = 0 ; a & & i < count ; i + + ) { n = cJSON_CreateNumber ( numbers [ i ] ) ; if ( ! i ) a - > child = n ; else suffix_object ( p , n ) ; p = n ; } return a ; }
cJSON * cJSON_CreateStringArray ( char * * strings , int32_t count ) { int32_t i ; cJSON * n = 0 , * p = 0 , * a = cJSON_CreateArray ( ) ; for ( i = 0 ; a & & i < count ; i + + ) { n = cJSON_CreateString ( strings [ i ] ) ; if ( ! i ) a - > child = n ; else suffix_object ( p , n ) ; p = n ; } return a ; }
/* Duplication */
cJSON * cJSON_Duplicate ( cJSON * item , int32_t recurse )
{
cJSON * newitem , * cptr , * nptr = 0 , * newchild ;
/* Bail on bad ptr */
if ( ! item ) return 0 ;
/* Create new item */
newitem = cJSON_New_Item ( ) ;
if ( ! newitem ) return 0 ;
/* Copy over all vars */
newitem - > type = item - > type & ( ~ cJSON_IsReference ) , newitem - > valueint = item - > valueint , newitem - > valuedouble = item - > valuedouble ;
if ( item - > valuestring ) { newitem - > valuestring = cJSON_strdup ( item - > valuestring ) ; if ( ! newitem - > valuestring ) { cJSON_Delete ( newitem ) ; return 0 ; } }
if ( item - > string ) { newitem - > string = cJSON_strdup ( item - > string ) ; if ( ! newitem - > string ) { cJSON_Delete ( newitem ) ; return 0 ; } }
/* If non-recursive, then we're done! */
if ( ! recurse ) return newitem ;
/* Walk the ->next chain for the child. */
cptr = item - > child ;
while ( cptr )
{
newchild = cJSON_Duplicate ( cptr , 1 ) ; /* Duplicate (with recurse) each item in the ->next chain */
if ( ! newchild ) { cJSON_Delete ( newitem ) ; return 0 ; }
if ( nptr ) { nptr - > next = newchild , newchild - > prev = nptr ; nptr = newchild ; } /* If newitem->child already set, then crosswire ->prev and ->next and move on */
else { newitem - > child = newchild ; nptr = newchild ; } /* Set newitem->child and move to it */
cptr = cptr - > next ;
}
return newitem ;
}
void cJSON_Minify ( char * json )
{
char * into = json ;
while ( * json )
{
if ( * json = = ' ' ) json + + ;
else if ( * json = = ' \t ' ) json + + ; // Whitespace characters.
else if ( * json = = ' \r ' ) json + + ;
else if ( * json = = ' \n ' ) json + + ;
else if ( * json = = ' / ' & & json [ 1 ] = = ' / ' ) while ( * json & & * json ! = ' \n ' ) json + + ; // double-slash comments, to end of line.
else if ( * json = = ' / ' & & json [ 1 ] = = ' * ' ) { while ( * json & & ! ( * json = = ' * ' & & json [ 1 ] = = ' / ' ) ) json + + ; json + = 2 ; } // multiline comments.
else if ( * json = = ' \" ' ) { * into + + = * json + + ; while ( * json & & * json ! = ' \" ' ) { if ( * json = = ' \\ ' ) * into + + = * json + + ; * into + + = * json + + ; } * into + + = * json + + ; } // string literals, which are \" sensitive.
else * into + + = * json + + ; // All other characters.
}
* into = 0 ; // and null-terminate.
}
// the following written by jl777
/******************************************************************************
* Copyright © 2014 - 2017 The SuperNET Developers . *
* *
* See the AUTHORS , DEVELOPER - AGREEMENT and LICENSE files at *
* the top - level directory of this distribution for the individual copyright *
* holder information and the developer policies on copyright and licensing . *
* *
* Unless otherwise agreed in a custom licensing agreement , no part of the *
* SuperNET software , including this file may be copied , modified , propagated *
* or distributed except according to the terms contained in the LICENSE file *
* *
* Removal or modification of this copyright notice is prohibited . *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void copy_cJSON ( struct destbuf * dest , cJSON * obj )
{
char * str ;
int i ;
long offset ;
dest - > buf [ 0 ] = 0 ;
if ( obj ! = 0 )
{
str = cJSON_Print ( obj ) ;
if ( str ! = 0 )
{
offset = stripquotes ( str ) ;
//strcpy(dest,str+offset);
for ( i = 0 ; i < MAX_JSON_FIELD - 1 ; i + + )
if ( ( dest - > buf [ i ] = str [ offset + i ] ) = = 0 )
break ;
dest - > buf [ i ] = 0 ;
free ( str ) ;
}
}
}
void copy_cJSON2 ( char * dest , int32_t maxlen , cJSON * obj )
{
struct destbuf tmp ;
maxlen - - ;
dest [ 0 ] = 0 ;
if ( maxlen > sizeof ( tmp . buf ) )
maxlen = sizeof ( tmp . buf ) ;
copy_cJSON ( & tmp , obj ) ;
if ( strlen ( tmp . buf ) < maxlen )
strcpy ( dest , tmp . buf ) ;
else dest [ 0 ] = 0 ;
}
int64_t _get_cJSON_int ( cJSON * json )
{
struct destbuf tmp ;
if ( json ! = 0 )
{
copy_cJSON ( & tmp , json ) ;
if ( tmp . buf [ 0 ] ! = 0 )
return ( calc_nxt64bits ( tmp . buf ) ) ;
}
return ( 0 ) ;
}
int64_t get_cJSON_int ( cJSON * json , char * field )
{
cJSON * numjson ;
if ( json ! = 0 )
{
numjson = cJSON_GetObjectItem ( json , field ) ;
if ( numjson ! = 0 )
return ( _get_cJSON_int ( numjson ) ) ;
}
return ( 0 ) ;
}
int64_t _conv_cJSON_float ( cJSON * json )
{
int64_t conv_floatstr ( char * ) ;
struct destbuf tmp ;
if ( json ! = 0 )
{
copy_cJSON ( & tmp , json ) ;
return ( conv_floatstr ( tmp . buf ) ) ;
}
return ( 0 ) ;
}
int64_t conv_cJSON_float ( cJSON * json , char * field )
{
if ( json ! = 0 )
return ( _conv_cJSON_float ( cJSON_GetObjectItem ( json , field ) ) ) ;
return ( 0 ) ;
}
int32_t extract_cJSON_str ( char * dest , int32_t max , cJSON * json , char * field )
{
int32_t safecopy ( char * dest , char * src , long len ) ;
char * str ;
cJSON * obj ;
int32_t len ;
long offset ;
dest [ 0 ] = 0 ;
obj = cJSON_GetObjectItem ( json , field ) ;
if ( obj ! = 0 )
{
str = cJSON_Print ( obj ) ;
offset = stripquotes ( str ) ;
len = safecopy ( dest , str + offset , max ) ;
free ( str ) ;
return ( len ) ;
}
return ( 0 ) ;
}
cJSON * gen_list_json ( char * * list )
{
cJSON * array , * item ;
array = cJSON_CreateArray ( ) ;
while ( list ! = 0 & & * list ! = 0 & & * list [ 0 ] ! = 0 )
{
item = cJSON_CreateString ( * list + + ) ;
cJSON_AddItemToArray ( array , item ) ;
}
return ( array ) ;
}
uint64_t get_API_nxt64bits ( cJSON * obj )
{
uint64_t nxt64bits = 0 ;
struct destbuf tmp ;
if ( obj ! = 0 )
{
if ( is_cJSON_Number ( obj ) ! = 0 )
return ( ( uint64_t ) obj - > valuedouble ) ;
copy_cJSON ( & tmp , obj ) ;
nxt64bits = calc_nxt64bits ( tmp . buf ) ;
}
return ( nxt64bits ) ;
}
uint64_t j64bits ( cJSON * json , char * field ) { if ( field = = 0 ) return ( get_API_nxt64bits ( json ) ) ; return ( get_API_nxt64bits ( cJSON_GetObjectItem ( json , field ) ) ) ; }
uint64_t j64bitsi ( cJSON * json , int32_t i ) { return ( get_API_nxt64bits ( cJSON_GetArrayItem ( json , i ) ) ) ; }
uint64_t get_satoshi_obj ( cJSON * json , char * field )
{
int32_t i , n ;
uint64_t prev , satoshis , mult = 1 ;
struct destbuf numstr , checkstr ;
cJSON * numjson ;
numjson = cJSON_GetObjectItem ( json , field ) ;
copy_cJSON ( & numstr , numjson ) ;
satoshis = prev = 0 ; mult = 1 ; n = ( int32_t ) strlen ( numstr . buf ) ;
for ( i = n - 1 ; i > = 0 ; i - - , mult * = 10 )
{
satoshis + = ( mult * ( numstr . buf [ i ] - ' 0 ' ) ) ;
if ( satoshis < prev )
printf ( " get_satoshi_obj numstr.(%s) i.%d prev.%llu vs satoshis.%llu \n " , numstr . buf , i , ( unsigned long long ) prev , ( unsigned long long ) satoshis ) ;
prev = satoshis ;
}
sprintf ( checkstr . buf , " %llu " , ( long long ) satoshis ) ;
if ( strcmp ( checkstr . buf , numstr . buf ) ! = 0 )
{
printf ( " SATOSHI GREMLIN?? numstr.(%s) -> %.8f -> (%s) \n " , numstr . buf , dstr ( satoshis ) , checkstr . buf ) ;
}
return ( satoshis ) ;
}
void add_satoshis_json ( cJSON * json , char * field , uint64_t satoshis )
{
cJSON * obj ;
char numstr [ 64 ] ;
sprintf ( numstr , " %lld " , ( long long ) satoshis ) ;
obj = cJSON_CreateString ( numstr ) ;
cJSON_AddItemToObject ( json , field , obj ) ;
if ( satoshis ! = get_satoshi_obj ( json , field ) )
printf ( " error adding satoshi obj %ld -> %ld \n " , ( unsigned long ) satoshis , ( unsigned long ) get_satoshi_obj ( json , field ) ) ;
}
char * cJSON_str ( cJSON * json )
{
if ( json ! = 0 & & is_cJSON_String ( json ) ! = 0 )
return ( json - > valuestring ) ;
return ( 0 ) ;
}
void jadd ( cJSON * json , char * field , cJSON * item ) { if ( json ! = 0 ) cJSON_AddItemToObject ( json , field , item ) ; }
void jaddstr ( cJSON * json , char * field , char * str ) { if ( json ! = 0 & & str ! = 0 ) cJSON_AddItemToObject ( json , field , cJSON_CreateString ( str ) ) ; }
void jaddnum ( cJSON * json , char * field , double num ) { if ( json ! = 0 ) cJSON_AddItemToObject ( json , field , cJSON_CreateNumber ( num ) ) ; }
void jadd64bits ( cJSON * json , char * field , uint64_t nxt64bits ) { char numstr [ 64 ] ; sprintf ( numstr , " %llu " , ( long long ) nxt64bits ) , jaddstr ( json , field , numstr ) ; }
void jaddi ( cJSON * json , cJSON * item ) { if ( json ! = 0 ) cJSON_AddItemToArray ( json , item ) ; }
void jaddistr ( cJSON * json , char * str ) { if ( json ! = 0 ) cJSON_AddItemToArray ( json , cJSON_CreateString ( str ) ) ; }
void jaddinum ( cJSON * json , double num ) { if ( json ! = 0 ) cJSON_AddItemToArray ( json , cJSON_CreateNumber ( num ) ) ; }
void jaddi64bits ( cJSON * json , uint64_t nxt64bits ) { char numstr [ 64 ] ; sprintf ( numstr , " %llu " , ( long long ) nxt64bits ) , jaddistr ( json , numstr ) ; }
char * jstr ( cJSON * json , char * field ) { if ( json = = 0 ) return ( 0 ) ; if ( field = = 0 ) return ( cJSON_str ( json ) ) ; return ( cJSON_str ( cJSON_GetObjectItem ( json , field ) ) ) ; }
char * jstri ( cJSON * json , int32_t i ) { return ( cJSON_str ( cJSON_GetArrayItem ( json , i ) ) ) ; }
char * jprint ( cJSON * json , int32_t freeflag )
{
char * str ;
/*static portable_mutex_t mutex; static int32_t initflag;
if ( initflag = = 0 )
{
portable_mutex_init ( & mutex ) ;
initflag = 1 ;
} */
if ( json = = 0 )
return ( clonestr ( ( char * ) " {} " ) ) ;
//portable_mutex_lock(&mutex);
//usleep(5000);
str = cJSON_Print ( json ) , _stripwhite ( str , ' ' ) ;
if ( freeflag ! = 0 )
free_json ( json ) ;
//retstr = LP_alloc(strlen(str) + 1);
//strcpy(retstr,str);
//cJSON_free(str); garbage collected
//portable_mutex_unlock(&mutex);
return ( str ) ;
}
bits256 get_API_bits256 ( cJSON * obj )
{
bits256 hash ; char * str ;
memset ( hash . bytes , 0 , sizeof ( hash ) ) ;
if ( obj ! = 0 )
{
if ( is_cJSON_String ( obj ) ! = 0 & & ( str = obj - > valuestring ) ! = 0 & & strlen ( str ) = = 64 )
decode_hex ( hash . bytes , sizeof ( hash ) , str ) ;
}
return ( hash ) ;
}
bits256 jbits256 ( cJSON * json , char * field ) { if ( field = = 0 ) return ( get_API_bits256 ( json ) ) ; return ( get_API_bits256 ( json ! = 0 ? cJSON_GetObjectItem ( json , field ) : 0 ) ) ; }
bits256 jbits256i ( cJSON * json , int32_t i ) { return ( get_API_bits256 ( cJSON_GetArrayItem ( json , i ) ) ) ; }
void jaddbits256 ( cJSON * json , char * field , bits256 hash ) { char str [ 65 ] ; bits256_str ( str , hash ) , jaddstr ( json , field , str ) ; }
void jaddibits256 ( cJSON * json , bits256 hash ) { char str [ 65 ] ; bits256_str ( str , hash ) , jaddistr ( json , str ) ; }
char * get_cJSON_fieldname ( cJSON * obj )
{
if ( obj ! = 0 )
{
if ( obj - > child ! = 0 & & obj - > child - > string ! = 0 )
return ( obj - > child - > string ) ;
else if ( obj - > string ! = 0 )
return ( obj - > string ) ;
}
return ( ( char * ) " <no cJSON string field> " ) ;
}
int32_t jnum ( cJSON * obj , char * field )
{
char * str ; int32_t polarity = 1 ;
if ( field ! = 0 )
obj = jobj ( obj , field ) ;
if ( obj ! = 0 )
{
if ( is_cJSON_Number ( obj ) ! = 0 )
return ( obj - > valuedouble ) ;
else if ( is_cJSON_String ( obj ) ! = 0 & & ( str = jstr ( obj , 0 ) ) ! = 0 )
{
if ( str [ 0 ] = = ' - ' )
polarity = - 1 , str + + ;
return ( polarity * ( int32_t ) calc_nxt64bits ( str ) ) ;
}
}
return ( 0 ) ;
}
void ensure_jsonitem ( cJSON * json , char * field , char * value )
{
cJSON * obj ;
if ( json ! = 0 )
{
obj = cJSON_GetObjectItem ( json , field ) ;
if ( obj = = 0 )
cJSON_AddItemToObject ( json , field , cJSON_CreateString ( value ) ) ;
else cJSON_ReplaceItemInObject ( json , field , cJSON_CreateString ( value ) ) ;
}
}
int32_t in_jsonarray ( cJSON * array , char * value )
{
int32_t i , n ;
struct destbuf remote ;
if ( array ! = 0 & & is_cJSON_Array ( array ) ! = 0 )
{
n = cJSON_GetArraySize ( array ) ;
for ( i = 0 ; i < n ; i + + )
{
if ( array = = 0 | | n = = 0 )
break ;
copy_cJSON ( & remote , cJSON_GetArrayItem ( array , i ) ) ;
if ( strcmp ( remote . buf , value ) = = 0 )
return ( 1 ) ;
}
}
return ( 0 ) ;
}
int32_t myatoi ( char * str , int32_t range )
{
long x ; char * ptr ;
x = strtol ( str , & ptr , 10 ) ;
if ( range ! = 0 & & x > = range )
x = ( range - 1 ) ;
return ( ( int32_t ) x ) ;
}
int32_t get_API_int ( cJSON * obj , int32_t val )
{
struct destbuf buf ;
if ( obj ! = 0 )
{
if ( is_cJSON_Number ( obj ) ! = 0 )
return ( ( int32_t ) obj - > valuedouble ) ;
copy_cJSON ( & buf , obj ) ;
val = myatoi ( buf . buf , 0 ) ;
if ( val < 0 )
val = 0 ;
}
return ( val ) ;
}
int32_t jint ( cJSON * json , char * field ) { if ( json = = 0 ) return ( 0 ) ; if ( field = = 0 ) return ( get_API_int ( json , 0 ) ) ; return ( get_API_int ( cJSON_GetObjectItem ( json , field ) , 0 ) ) ; }
int32_t jinti ( cJSON * json , int32_t i ) { if ( json = = 0 ) return ( 0 ) ; return ( get_API_int ( cJSON_GetArrayItem ( json , i ) , 0 ) ) ; }
uint32_t get_API_uint ( cJSON * obj , uint32_t val )
{
struct destbuf buf ;
if ( obj ! = 0 )
{
if ( is_cJSON_Number ( obj ) ! = 0 )
return ( ( uint32_t ) obj - > valuedouble ) ;
copy_cJSON ( & buf , obj ) ;
val = myatoi ( buf . buf , 0 ) ;
}
return ( val ) ;
}
uint32_t juint ( cJSON * json , char * field ) { if ( json = = 0 ) return ( 0 ) ; if ( field = = 0 ) return ( get_API_uint ( json , 0 ) ) ; return ( get_API_uint ( cJSON_GetObjectItem ( json , field ) , 0 ) ) ; }
uint32_t juinti ( cJSON * json , int32_t i ) { if ( json = = 0 ) return ( 0 ) ; return ( get_API_uint ( cJSON_GetArrayItem ( json , i ) , 0 ) ) ; }
double get_API_float ( cJSON * obj )
{
double val = 0. ;
struct destbuf buf ;
if ( obj ! = 0 )
{
if ( is_cJSON_Number ( obj ) ! = 0 )
return ( obj - > valuedouble ) ;
copy_cJSON ( & buf , obj ) ;
val = atof ( buf . buf ) ;
}
return ( val ) ;
}
double jdouble ( cJSON * json , char * field )
{
if ( json ! = 0 )
{
if ( field = = 0 )
return ( get_API_float ( json ) ) ;
else return ( get_API_float ( cJSON_GetObjectItem ( json , field ) ) ) ;
} else return ( 0. ) ;
}
double jdoublei ( cJSON * json , int32_t i )
{
if ( json ! = 0 )
return ( get_API_float ( cJSON_GetArrayItem ( json , i ) ) ) ;
else return ( 0. ) ;
}
cJSON * jobj ( cJSON * json , char * field ) { if ( json ! = 0 ) return ( cJSON_GetObjectItem ( json , field ) ) ; return ( 0 ) ; }
void jdelete ( cJSON * json , char * field )
{
if ( jobj ( json , field ) ! = 0 )
cJSON_DeleteItemFromObject ( json , field ) ;
}
cJSON * jduplicate ( cJSON * json ) { return ( cJSON_Duplicate ( json , 1 ) ) ; }
cJSON * jitem ( cJSON * array , int32_t i ) { if ( array ! = 0 & & is_cJSON_Array ( array ) ! = 0 & & cJSON_GetArraySize ( array ) > i ) return ( cJSON_GetArrayItem ( array , i ) ) ; return ( 0 ) ; }
cJSON * jarray ( int32_t * nump , cJSON * json , char * field )
{
cJSON * array ;
if ( json ! = 0 )
{
if ( field = = 0 )
array = json ;
else array = cJSON_GetObjectItem ( json , field ) ;
if ( array ! = 0 & & is_cJSON_Array ( array ) ! = 0 & & ( * nump = cJSON_GetArraySize ( array ) ) > 0 )
return ( array ) ;
}
* nump = 0 ;
return ( 0 ) ;
}
int32_t expand_nxt64bits ( char * NXTaddr , uint64_t nxt64bits )
{
int32_t i , n ;
uint64_t modval ;
char rev [ 64 ] ;
for ( i = 0 ; nxt64bits ! = 0 ; i + + )
{
modval = nxt64bits % 10 ;
rev [ i ] = ( char ) ( modval + ' 0 ' ) ;
nxt64bits / = 10 ;
}
n = i ;
for ( i = 0 ; i < n ; i + + )
NXTaddr [ i ] = rev [ n - 1 - i ] ;
NXTaddr [ i ] = 0 ;
return ( n ) ;
}
char * nxt64str ( uint64_t nxt64bits )
{
static char NXTaddr [ 64 ] ;
expand_nxt64bits ( NXTaddr , nxt64bits ) ;
return ( NXTaddr ) ;
}
char * nxt64str2 ( uint64_t nxt64bits )
{
static char NXTaddr [ 64 ] ;
expand_nxt64bits ( NXTaddr , nxt64bits ) ;
return ( NXTaddr ) ;
}
int32_t cmp_nxt64bits ( const char * str , uint64_t nxt64bits )
{
char expanded [ 64 ] ;
if ( str = = 0 ) //|| str[0] == 0 || nxt64bits == 0 )
return ( - 1 ) ;
if ( nxt64bits = = 0 & & str [ 0 ] = = 0 )
return ( 0 ) ;
expand_nxt64bits ( expanded , nxt64bits ) ;
return ( strcmp ( str , expanded ) ) ;
}
uint64_t calc_nxt64bits ( const char * NXTaddr )
{
int32_t c ;
int64_t n , i , polarity = 1 ;
uint64_t lastval , mult , nxt64bits = 0 ;
if ( NXTaddr = = 0 )
{
printf ( " calling calc_nxt64bits with null ptr! \n " ) ;
return ( 0 ) ;
}
n = strlen ( NXTaddr ) ;
if ( n > = 22 )
{
printf ( " calc_nxt64bits: illegal NXTaddr.(%s) too long \n " , NXTaddr ) ;
return ( 0 ) ;
}
else if ( strcmp ( NXTaddr , " 0 " ) = = 0 | | strcmp ( NXTaddr , " false " ) = = 0 )
{
// printf("zero address?\n"); getchar();
return ( 0 ) ;
}
if ( NXTaddr [ 0 ] = = ' - ' )
polarity = - 1 , NXTaddr + + , n - - ;
mult = 1 ;
lastval = 0 ;
for ( i = n - 1 ; i > = 0 ; i - - , mult * = 10 )
{
c = NXTaddr [ i ] ;
if ( c < ' 0 ' | | c > ' 9 ' )
{
//printf("calc_nxt64bits: illegal char.(%c %d) in (%s).%d\n",c,c,NXTaddr,(int32_t)i);
# ifdef __APPLE__
//while ( 1 )
{
//sleep(60);
//printf("calc_nxt64bits: illegal char.(%c %d) in (%s).%d\n",c,c,NXTaddr,(int32_t)i);
}
# endif
return ( 0 ) ;
}
nxt64bits + = mult * ( c - ' 0 ' ) ;
if ( nxt64bits < lastval )
printf ( " calc_nxt64bits: warning: 64bit overflow %llx < %llx \n " , ( long long ) nxt64bits , ( long long ) lastval ) ;
lastval = nxt64bits ;
}
while ( * NXTaddr = = ' 0 ' & & * NXTaddr ! = 0 )
NXTaddr + + ;
if ( cmp_nxt64bits ( NXTaddr , nxt64bits ) ! = 0 )
printf ( " error calculating nxt64bits: %s -> %llx -> %s \n " , NXTaddr , ( long long ) nxt64bits , nxt64str ( nxt64bits ) ) ;
if ( polarity < 0 )
return ( - ( int64_t ) nxt64bits ) ;
return ( nxt64bits ) ;
}
cJSON * addrs_jsonarray ( uint64_t * addrs , int32_t num )
{
int32_t j ; cJSON * array ;
array = cJSON_CreateArray ( ) ;
for ( j = 0 ; j < num ; j + + )
jaddi64bits ( array , addrs [ j ] ) ;
return ( array ) ;
}
cJSON * cJSON_CreateArray ( void )
{
cJSON * item = cJSON_New_Item ( ) ;
if ( item )
item - > type = cJSON_Array ;
//#ifdef CJSON_GARBAGECOLLECTION
// cJSON_register(item);
//#endif
return ( item ) ;
}
cJSON * cJSON_CreateObject ( void )
{
cJSON * item = cJSON_New_Item ( ) ;
if ( item )
item - > type = cJSON_Object ;
//#ifdef CJSON_GARBAGECOLLECTION
// cJSON_register(item);
//#endif
return item ;
}
void free_json ( cJSON * item )
{
//#ifdef CJSON_GARBAGECOLLECTION
// cJSON_unregister(item);
//#endif
if ( item ! = 0 )
cJSON_Delete ( item ) ;
}