Пример #1
0
static void
test_bson_as_json (void)
{
   bson_oid_t oid;
   bson_decimal128_t decimal128;
   bson_t *b;
   bson_t *b2;
   char *str;
   size_t len;
   int i;

   decimal128.high = 0x3040000000000000ULL;
   decimal128.low  = 0x000000000000000B;
   bson_oid_init_from_string(&oid, "123412341234abcdabcdabcd");

   b = bson_new();
   assert(bson_append_utf8(b, "utf8", -1, "bar", -1));
   assert(bson_append_int32(b, "int32", -1, 1234));
   assert(bson_append_int64(b, "int64", -1, 4321));
   assert(bson_append_double(b, "double", -1, 123.4));
   assert(bson_append_undefined(b, "undefined", -1));
   assert(bson_append_null(b, "null", -1));
   assert(bson_append_oid(b, "oid", -1, &oid));
   assert(bson_append_bool(b, "true", -1, true));
   assert(bson_append_bool(b, "false", -1, false));
   assert(bson_append_time_t(b, "date", -1, time(NULL)));
   assert(bson_append_timestamp(b, "timestamp", -1, (uint32_t)time(NULL), 1234));
   assert(bson_append_regex(b, "regex", -1, "^abcd", "xi"));
   assert(bson_append_dbpointer(b, "dbpointer", -1, "mycollection", &oid));
   assert(bson_append_minkey(b, "minkey", -1));
   assert(bson_append_maxkey(b, "maxkey", -1));
   assert(bson_append_symbol(b, "symbol", -1, "var a = {};", -1));
   assert(bson_append_decimal128(b, "decimal128", -1, &decimal128));

   b2 = bson_new();
   assert(bson_append_int32(b2, "0", -1, 60));
   assert(bson_append_document(b, "document", -1, b2));
   assert(bson_append_array(b, "array", -1, b2));

   {
      const uint8_t binary[] = { 0, 1, 2, 3, 4 };
      assert(bson_append_binary(b, "binary", -1, BSON_SUBTYPE_BINARY,
                                binary, sizeof binary));
   }

   for (i = 0; i < 1000; i++) {
      str = bson_as_json(b, &len);
      bson_free(str);
   }

   bson_destroy(b);
   bson_destroy(b2);
}
Пример #2
0
static void
test_bson_append_undefined (void)
{
   bson_t *b;
   bson_t *b2;

   b = bson_new();
   assert(bson_append_undefined(b, "undefined", -1));
   b2 = get_bson("test25.bson");
   assert_bson_equal(b, b2);
   bson_destroy(b);
   bson_destroy(b2);
}
Пример #3
0
static void
test_undefined (void)
{
   bson_t bcon, expected;

   bson_init (&bcon);
   bson_init (&expected);

   bson_append_undefined (&expected, "foo", -1);

   BCON_APPEND (&bcon, "foo", BCON_UNDEFINED);

   bson_eq_bson (&bcon, &expected);

   bson_destroy (&bcon);
   bson_destroy (&expected);
}
Пример #4
0
int test_bson_generic( void ) {

   bson_iterator it, it2, it3;
   bson_oid_t oid;
   bson_timestamp_t ts;
   bson_timestamp_t ts_result;
   bson b[1];
   bson copy[1];
   bson scope[1];

   ts.i = 1;
   ts.t = 2;

   bson_init( b );
   bson_append_double( b, "d", 3.14 );
   bson_append_string( b, "s", "hello" );
   bson_append_string_n( b, "s_n", "goodbye cruel world", 7 );

   {
       bson_append_start_object( b, "o" );
       bson_append_start_array( b, "a" );
       bson_append_binary( b, "0", 8, "w\0rld", 5 );
       bson_append_finish_object( b );
       bson_append_finish_object( b );
   }

   bson_append_undefined( b, "u" );

   bson_oid_from_string( &oid, "010203040506070809101112" );
   ASSERT( !memcmp( oid.bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12 ) );
   bson_append_oid( b, "oid", &oid );

   bson_append_bool( b, "b", 1 );
   bson_append_date( b, "date", 0x0102030405060708 );
   bson_append_null( b, "n" );
   bson_append_regex( b, "r", "^asdf", "imx" );
   /* no dbref test (deprecated) */
   bson_append_code( b, "c", "function(){}" );
   bson_append_code_n( b, "c_n", "function(){}garbage", 12 );
   bson_append_symbol( b, "symbol", "symbol" );
   bson_append_symbol_n( b, "symbol_n", "symbol and garbage", 6 );

   {
       bson_init( scope );
       bson_append_int( scope, "i", 123 );
       bson_finish( scope );

       bson_append_code_w_scope( b, "cws", "function(){return i}", scope );
       bson_destroy( scope );
   }

   bson_append_timestamp( b, "timestamp", &ts );
   bson_append_long( b, "l", 0x1122334455667788 );

   /* Ensure that we can't copy a non-finished object. */
   ASSERT( bson_copy( copy, b ) == BSON_ERROR );

   bson_finish( b );

   ASSERT( b->err == BSON_VALID );

   /* Test append after finish. */
   ASSERT( bson_append_string( b, "foo", "bar" ) == BSON_ERROR );
   ASSERT( b->err & BSON_ALREADY_FINISHED );

   ASSERT( bson_copy( copy, b ) == BSON_OK );

   ASSERT( 1 == copy->finished );
   ASSERT( 0 == copy->err );

   bson_destroy( copy );

   bson_print( b );

   bson_iterator_init( &it, b );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
   ASSERT( bson_iterator_type( &it ) == BSON_DOUBLE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "d" ) );
   ASSERT( bson_iterator_double( &it ) == 3.14 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_STRING );
   ASSERT( bson_iterator_type( &it ) == BSON_STRING );
   ASSERT( !strcmp( bson_iterator_key( &it ), "s" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "hello" ) );
   ASSERT( strcmp( bson_iterator_string( &it ), "" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_STRING );
   ASSERT( bson_iterator_type( &it ) == BSON_STRING );
   ASSERT( !strcmp( bson_iterator_key( &it ), "s_n" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "goodbye" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_OBJECT );
   ASSERT( bson_iterator_type( &it ) == BSON_OBJECT );
   ASSERT( !strcmp( bson_iterator_key( &it ), "o" ) );
   bson_iterator_subiterator( &it, &it2 );

   ASSERT( bson_iterator_more( &it2 ) );
   ASSERT( bson_iterator_next( &it2 ) == BSON_ARRAY );
   ASSERT( bson_iterator_type( &it2 ) == BSON_ARRAY );
   ASSERT( !strcmp( bson_iterator_key( &it2 ), "a" ) );
   bson_iterator_subiterator( &it2, &it3 );

   ASSERT( bson_iterator_more( &it3 ) );
   ASSERT( bson_iterator_next( &it3 ) == BSON_BINDATA );
   ASSERT( bson_iterator_type( &it3 ) == BSON_BINDATA );
   ASSERT( !strcmp( bson_iterator_key( &it3 ), "0" ) );
   ASSERT( bson_iterator_bin_type( &it3 ) == 8 );
   ASSERT( bson_iterator_bin_len( &it3 ) == 5 );
   ASSERT( !memcmp( bson_iterator_bin_data( &it3 ), "w\0rld", 5 ) );

   ASSERT( bson_iterator_more( &it3 ) );
   ASSERT( bson_iterator_next( &it3 ) == BSON_EOO );
   ASSERT( bson_iterator_type( &it3 ) == BSON_EOO );
   ASSERT( !bson_iterator_more( &it3 ) );

   ASSERT( bson_iterator_more( &it2 ) );
   ASSERT( bson_iterator_next( &it2 ) == BSON_EOO );
   ASSERT( bson_iterator_type( &it2 ) == BSON_EOO );
   ASSERT( !bson_iterator_more( &it2 ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_UNDEFINED );
   ASSERT( bson_iterator_type( &it ) == BSON_UNDEFINED );
   ASSERT( !strcmp( bson_iterator_key( &it ), "u" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_OID );
   ASSERT( bson_iterator_type( &it ) == BSON_OID );
   ASSERT( !strcmp( bson_iterator_key( &it ), "oid" ) );
   ASSERT( !memcmp( bson_iterator_oid( &it )->bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12 ) );
   ASSERT( bson_iterator_oid( &it )->ints[0] == oid.ints[0] );
   ASSERT( bson_iterator_oid( &it )->ints[1] == oid.ints[1] );
   ASSERT( bson_iterator_oid( &it )->ints[2] == oid.ints[2] );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_BOOL );
   ASSERT( bson_iterator_type( &it ) == BSON_BOOL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "b" ) );
   ASSERT( bson_iterator_bool( &it ) == 1 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_DATE );
   ASSERT( bson_iterator_type( &it ) == BSON_DATE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "date" ) );
   ASSERT( bson_iterator_date( &it ) == 0x0102030405060708 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_NULL );
   ASSERT( bson_iterator_type( &it ) == BSON_NULL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "n" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_REGEX );
   ASSERT( bson_iterator_type( &it ) == BSON_REGEX );
   ASSERT( !strcmp( bson_iterator_key( &it ), "r" ) );
   ASSERT( !strcmp( bson_iterator_regex( &it ), "^asdf" ) );
   ASSERT( !strcmp( bson_iterator_regex_opts( &it ), "imx" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_CODE );
   ASSERT( bson_iterator_type( &it ) == BSON_CODE );
   ASSERT( !strcmp( bson_iterator_code(&it), "function(){}") );
   ASSERT( !strcmp( bson_iterator_key( &it ), "c" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_CODE );
   ASSERT( bson_iterator_type( &it ) == BSON_CODE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "c_n" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "" ) );
   ASSERT( !strcmp( bson_iterator_code( &it ), "function(){}" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_SYMBOL );
   ASSERT( bson_iterator_type( &it ) == BSON_SYMBOL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "symbol" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "symbol" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_SYMBOL );
   ASSERT( bson_iterator_type( &it ) == BSON_SYMBOL );
   ASSERT( !strcmp( bson_iterator_key( &it ), "symbol_n" ) );
   ASSERT( !strcmp( bson_iterator_string( &it ), "symbol" ) );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_CODEWSCOPE );
   ASSERT( bson_iterator_type( &it ) == BSON_CODEWSCOPE );
   ASSERT( !strcmp( bson_iterator_key( &it ), "cws" ) );
   ASSERT( !strcmp( bson_iterator_code( &it ), "function(){return i}" ) );

   {
       bson scope;
       bson_iterator_code_scope( &it, &scope );
       bson_iterator_init( &it2, &scope );

       ASSERT( bson_iterator_more( &it2 ) );
       ASSERT( bson_iterator_next( &it2 ) == BSON_INT );
       ASSERT( bson_iterator_type( &it2 ) == BSON_INT );
       ASSERT( !strcmp( bson_iterator_key( &it2 ), "i" ) );
       ASSERT( bson_iterator_int( &it2 ) == 123 );

       ASSERT( bson_iterator_more( &it2 ) );
       ASSERT( bson_iterator_next( &it2 ) == BSON_EOO );
       ASSERT( bson_iterator_type( &it2 ) == BSON_EOO );
       ASSERT( !bson_iterator_more( &it2 ) );
   }

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_TIMESTAMP );
   ASSERT( bson_iterator_type( &it ) == BSON_TIMESTAMP );
   ASSERT( !strcmp( bson_iterator_key( &it ), "timestamp" ) );
   ts_result = bson_iterator_timestamp( &it );
   ASSERT( ts_result.i == 1 );
   ASSERT( ts_result.t == 2 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_LONG );
   ASSERT( bson_iterator_type( &it ) == BSON_LONG );
   ASSERT( !strcmp( bson_iterator_key( &it ), "l" ) );
   ASSERT( bson_iterator_long( &it ) == 0x1122334455667788 );

   ASSERT( bson_iterator_more( &it ) );
   ASSERT( bson_iterator_next( &it ) == BSON_EOO );
   ASSERT( bson_iterator_type( &it ) == BSON_EOO );
   ASSERT( !bson_iterator_more( &it ) );

   bson_destroy( b );

   {
       bson bsrc[1];
       bson_init( bsrc );
       bson_append_double( bsrc, "d", 3.14 );
       bson_finish( bsrc );
       ASSERT( bsrc->err == BSON_VALID );
       bson_init( b );
       bson_append_double( b, "", 3.14 ); /* test empty name (in general) */
       bson_iterator_init( &it, bsrc );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( bson_iterator_type( &it ) == BSON_DOUBLE );
       bson_append_element( b, "d", &it );
       bson_append_element( b, 0, &it ); /* test null */
       bson_append_element( b, "", &it ); /* test empty name */
       bson_finish( b );
       ASSERT( b->err == BSON_VALID );
       /* bson_print( b ); */
       bson_iterator_init( &it, b );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "d" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "d" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_DOUBLE );
       ASSERT( !strcmp( bson_iterator_key( &it ), "" ) );
       ASSERT( bson_iterator_double( &it ) == 3.14 );
       ASSERT( bson_iterator_more( &it ) );
       ASSERT( bson_iterator_next( &it ) == BSON_EOO );
       ASSERT( !bson_iterator_more( &it ) );
       bson_destroy( bsrc );
       bson_destroy( b );
   }

   return 0;
}
Пример #5
0
int main(int argc, char *argv[])
{
    bson_buffer bb;
    bson b;
    bson_iterator it, it2, it3;
    bson_oid_t oid;

    bson_buffer_init(&bb);
    bson_append_double(&bb, "d", 3.14);
    bson_append_string(&bb, "s", "hello");

    {
        bson_buffer *obj = bson_append_start_object(&bb, "o");
        bson_buffer *arr = bson_append_start_array(obj, "a");
        bson_append_binary(arr, "0", 8, "w\0rld", 5);
        bson_append_finish_object(arr);
        bson_append_finish_object(obj);
    }

    bson_append_undefined(&bb, "u");

    bson_oid_from_string(&oid, "010203040506070809101112");
    ASSERT(!memcmp(oid.bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12));
    bson_append_oid(&bb, "oid", &oid);

    bson_append_bool(&bb, "b", 1);
    bson_append_date(&bb, "date", 0x0102030405060708ULL);
    bson_append_null(&bb, "n");
    bson_append_regex(&bb, "r", "^asdf", "imx");
    /* no dbref test (deprecated) */
    bson_append_code(&bb, "c", "function(){}");
    bson_append_symbol(&bb, "symbol", "SYMBOL");

    {
        bson_buffer scope_buf;
        bson scope;
        bson_buffer_init(&scope_buf);
        bson_append_int(&scope_buf, "i", 123);
        bson_from_buffer(&scope, &scope_buf);

        bson_append_code_w_scope(&bb, "cws", "function(){return i}", &scope);
        bson_destroy(&scope);
    }

    /* no timestamp test (internal) */
    bson_append_long(&bb, "l", 0x1122334455667788ULL);

    bson_from_buffer(&b, &bb);

    bson_iterator_init(&it, b.data);
    
    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_double);
    ASSERT(bson_iterator_type(&it) == bson_double);
    ASSERT(!strcmp(bson_iterator_key(&it), "d"));
    ASSERT(bson_iterator_double(&it) == 3.14);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_string);
    ASSERT(bson_iterator_type(&it) == bson_string);
    ASSERT(!strcmp(bson_iterator_key(&it), "s"));
    ASSERT(!strcmp(bson_iterator_string(&it), "hello"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_object);
    ASSERT(bson_iterator_type(&it) == bson_object);
    ASSERT(!strcmp(bson_iterator_key(&it), "o"));
    bson_iterator_subiterator(&it, &it2);

    ASSERT(bson_iterator_more(&it2));
    ASSERT(bson_iterator_next(&it2) == bson_array);
    ASSERT(bson_iterator_type(&it2) == bson_array);
    ASSERT(!strcmp(bson_iterator_key(&it2), "a"));
    bson_iterator_subiterator(&it2, &it3);

    ASSERT(bson_iterator_more(&it3));
    ASSERT(bson_iterator_next(&it3) == bson_bindata);
    ASSERT(bson_iterator_type(&it3) == bson_bindata);
    ASSERT(!strcmp(bson_iterator_key(&it3), "0"));
    ASSERT(bson_iterator_bin_type(&it3) == 8);
    ASSERT(bson_iterator_bin_len(&it3) == 5);
    ASSERT(!memcmp(bson_iterator_bin_data(&it3), "w\0rld", 5));
    
    ASSERT(bson_iterator_more(&it3));
    ASSERT(bson_iterator_next(&it3) == bson_eoo);
    ASSERT(bson_iterator_type(&it3) == bson_eoo);
    ASSERT(!bson_iterator_more(&it3));

    ASSERT(bson_iterator_more(&it2));
    ASSERT(bson_iterator_next(&it2) == bson_eoo);
    ASSERT(bson_iterator_type(&it2) == bson_eoo);
    ASSERT(!bson_iterator_more(&it2));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_undefined);
    ASSERT(bson_iterator_type(&it) == bson_undefined);
    ASSERT(!strcmp(bson_iterator_key(&it), "u"));


    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_oid);
    ASSERT(bson_iterator_type(&it) == bson_oid);
    ASSERT(!strcmp(bson_iterator_key(&it), "oid"));
    ASSERT(!memcmp(bson_iterator_oid(&it)->bytes, "\x001\x002\x003\x004\x005\x006\x007\x008\x009\x010\x011\x012", 12));
    ASSERT(bson_iterator_oid(&it)->ints[0] == oid.ints[0]);
    ASSERT(bson_iterator_oid(&it)->ints[1] == oid.ints[1]);
    ASSERT(bson_iterator_oid(&it)->ints[2] == oid.ints[2]);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_bool);
    ASSERT(bson_iterator_type(&it) == bson_bool);
    ASSERT(!strcmp(bson_iterator_key(&it), "b"));
    ASSERT(bson_iterator_bool(&it) == 1);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_date);
    ASSERT(bson_iterator_type(&it) == bson_date);
    ASSERT(!strcmp(bson_iterator_key(&it), "date"));
    ASSERT(bson_iterator_date(&it) == 0x0102030405060708ULL);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_null);
    ASSERT(bson_iterator_type(&it) == bson_null);
    ASSERT(!strcmp(bson_iterator_key(&it), "n"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_regex);
    ASSERT(bson_iterator_type(&it) == bson_regex);
    ASSERT(!strcmp(bson_iterator_key(&it), "r"));
    ASSERT(!strcmp(bson_iterator_regex(&it), "^asdf"));
    ASSERT(!strcmp(bson_iterator_regex_opts(&it), "imx"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_code);
    ASSERT(bson_iterator_type(&it) == bson_code);
    ASSERT(!strcmp(bson_iterator_key(&it), "c"));
    ASSERT(!strcmp(bson_iterator_string(&it), "function(){}"));
    ASSERT(!strcmp(bson_iterator_code(&it), "function(){}"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_symbol);
    ASSERT(bson_iterator_type(&it) == bson_symbol);
    ASSERT(!strcmp(bson_iterator_key(&it), "symbol"));
    ASSERT(!strcmp(bson_iterator_string(&it), "SYMBOL"));

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_codewscope);
    ASSERT(bson_iterator_type(&it) == bson_codewscope);
    ASSERT(!strcmp(bson_iterator_key(&it), "cws"));
    ASSERT(!strcmp(bson_iterator_code(&it), "function(){return i}"));

    {
        bson scope;
        bson_iterator_code_scope(&it, &scope);
        bson_iterator_init(&it2, scope.data);

        ASSERT(bson_iterator_more(&it2));
        ASSERT(bson_iterator_next(&it2) == bson_int);
        ASSERT(bson_iterator_type(&it2) == bson_int);
        ASSERT(!strcmp(bson_iterator_key(&it2), "i"));
        ASSERT(bson_iterator_int(&it2) == 123);

        ASSERT(bson_iterator_more(&it2));
        ASSERT(bson_iterator_next(&it2) == bson_eoo);
        ASSERT(bson_iterator_type(&it2) == bson_eoo);
        ASSERT(!bson_iterator_more(&it2));
    }

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_long);
    ASSERT(bson_iterator_type(&it) == bson_long);
    ASSERT(!strcmp(bson_iterator_key(&it), "l"));
    ASSERT(bson_iterator_long(&it) == 0x1122334455667788ULL);

    ASSERT(bson_iterator_more(&it));
    ASSERT(bson_iterator_next(&it) == bson_eoo);
    ASSERT(bson_iterator_type(&it) == bson_eoo);
    ASSERT(!bson_iterator_more(&it));
    
    return 0;
}
Пример #6
0
static void lua_val_to_bson(lua_State *L, const char *key, int vpos, bson *bs, int tref) {
    int vtype = lua_type(L, vpos);
    char nbuf[TCNUMBUFSIZ];
    if (key == NULL && vtype != LUA_TTABLE) {
        luaL_error(L, "lua_val_to_bson: Table must be on top of lua stack");
        return;
    }
    switch (vtype) {
        case LUA_TTABLE:
        {
            if (vpos < 0) {
                vpos = lua_gettop(L) + vpos + 1;
            }
            lua_checkstack(L, 3);
            int bsontype_found = luaL_getmetafield(L, vpos, "__bsontype");
            if (!bsontype_found) {
                lua_rawgeti(L, LUA_REGISTRYINDEX, tref); //+ reg table
                lua_pushvalue(L, vpos); //+ val
                lua_rawget(L, -2); //-val +reg table val
                if (lua_toboolean(L, -1)) { //already traversed
                    lua_pop(L, 2);
                    break;
                }
                lua_pop(L, 1); //-reg table val
                lua_pushvalue(L, vpos);
                lua_pushboolean(L, 1);
                lua_rawset(L, -3);
                lua_pop(L, 1); //-reg table

                int len = 0;
                bool query = false;
                bool array = true;

                if (luaL_getmetafield(L, vpos, "__query")) {
                    lua_pop(L, 1);
                    query = true;
                    array = false;
                }
                if (array) {
                    for (lua_pushnil(L); lua_next(L, vpos); lua_pop(L, 1)) {
                        ++len;
                        if ((lua_type(L, -2) != LUA_TNUMBER) || (lua_tointeger(L, -2) != len)) {
                            lua_pop(L, 2);
                            array = false;
                            break;
                        }
                    }
                }
                if (array) {
                    if (key) bson_append_start_array(bs, key);
                    int i;
                    for (i = 1; i <= len; ++i, lua_pop(L, 1)) {
                        lua_rawgeti(L, vpos, i);
                        bson_numstrn(nbuf, TCNUMBUFSIZ, (int64_t) i);
                        lua_val_to_bson(L, nbuf, -1, bs, tref);
                    }
                    if (key) bson_append_finish_array(bs);
                } else if (query) { //special query builder case
                    //oarr format:
                    //{ {fname1, v1, v2...}, {fname2, v21, v22,..}, ... }
                    //where: vN: {op, val} OR {val} with '__bval' metafield
                    //Eg: {fname : {$inc : {...}, $dec : {...}}} -> {fname, {$inc, {}}, {$dec, {}}}

                    lua_getfield(L, vpos, "_oarr"); //+oarr
                    if (!lua_istable(L, -1)) { //it is not array
                        lua_pop(L, 1);
                        break;
                    }
                    if (key) bson_append_start_object(bs, key);
                    //iterate over _oarr
                    int ipos = lua_gettop(L);
                    size_t ilen = lua_objlen(L, ipos);
                    lua_checkstack(L, 2);
                    size_t i;
                    for (i = 1; i <= ilen; ++i, lua_pop(L, 1)) {
                        lua_rawgeti(L, ipos, i);
                        //gettop == 3
                        if (!lua_istable(L, -1)) continue;
                        char *fname = NULL;
                        int jpos = lua_gettop(L);
                        size_t jlen = lua_objlen(L, jpos);
                        lua_checkstack(L, 3);
                        bool wrapped = false;
                        size_t j;
                        for (j = 1; j <= jlen; ++j, lua_pop(L, 1)) {
                            lua_rawgeti(L, jpos, j);
                            if (j == 1) {
                                fname = strdup(lua_tostring(L, -1));
                                continue;
                            }
                            if (!fname || !lua_istable(L, -1)) { //invalid state
                                lua_pop(L, 1); //pop val
                                break;
                            }
                            int vblkpos = lua_gettop(L);
                            if (j == 2 && luaL_getmetafield(L, -1, "__bval")) { //{val} single value +metafield
                                lua_pop(L, 1); //-metafield
                                lua_rawgeti(L, vblkpos, 1); //+val
                                lua_val_to_bson(L, fname, lua_gettop(L), bs, tref);
                                lua_pop(L, 2); //-val -lua_rawgeti
                                break; //Terminate due single val
                            } else { //{op, val} value
                                if (!wrapped) {
                                    bson_append_start_object(bs, fname);
                                    wrapped = true;
                                }
                                lua_rawgeti(L, vblkpos, 1); //+op
                                const char *op = lua_tostring(L, -1);
                                if (op) {
                                    lua_rawgeti(L, vblkpos, 2); //+val
                                    lua_val_to_bson(L, op, lua_gettop(L), bs, tref);
                                    lua_pop(L, 1); //-val
                                }
                                lua_pop(L, 1); //-op
                            }
                        }
                        if (wrapped) {
                            bson_append_finish_object(bs);
                        }
                        if (fname) {
                            free(fname);
                            fname = NULL;
                        }
                    }
                    if (key) bson_append_finish_object(bs);
                    lua_pop(L, 1); //-oarr
                } else {
                    if (key) bson_append_start_object(bs, key);
                    TCLIST *keys = tclistnew();
                    //we need to sort keys due to unordered nature of lua tables
                    for (lua_pushnil(L); lua_next(L, vpos);) {
                        lua_pop(L, 1); //-val
                        size_t ksize = 0;
                        int ktype = lua_type(L, -1);
                        if (ktype == LUA_TSTRING) { //accept only string keys
                            const char* key = lua_tolstring(L, -1, &ksize);
                            tclistpush(keys, key, ksize);
                        }
                    }
                    tclistsort(keys);
                    int i;
                    for (i = 0; i < TCLISTNUM(keys); ++i) {
                        int vkeysz = TCLISTVALSIZ(keys, i);
                        const char *vkey = TCLISTVALPTR(keys, i);
                        lua_pushlstring(L, vkey, vkeysz);
                        lua_rawget(L, vpos); //+val
                        if (key == NULL && lua_type(L, -1) == LUA_TSTRING &&
                                vkeysz == JDBIDKEYNAMEL && !strcmp(JDBIDKEYNAME, vkey)) { //root level OID as string
                            //pack OID as type table
                            lua_push_bsontype_table(L, BSON_OID); //+type table
                            lua_pushvalue(L, -2); //dup oid(val) on stack
                            lua_rawseti(L, -2, 1); //pop oid val
                            if (ejdbisvalidoidstr(lua_tostring(L, -2))) {
                                lua_val_to_bson(L, vkey, lua_gettop(L), bs, tref);
                            } else {
                                luaL_error(L, "OID _id='%s' is not valid", lua_tostring(L, -2));
                            }
                            lua_pop(L, 1); //-type table
                        } else {
                            lua_val_to_bson(L, vkey, lua_gettop(L), bs, tref);
                        }
                        lua_pop(L, 1); //-val
                    }
                    tclistdel(keys);
                    if (key) bson_append_finish_object(bs);
                }
            } else { //metafield __bsontype on top
                int bson_type = lua_tointeger(L, -1);
                if (!key && bson_type != BSON_OBJECT && bson_type != BSON_ARRAY) {
                    lua_pop(L, 1);
                    luaL_error(L, "Invalid object structure");
                }
                lua_pop(L, 1); //-metafield __bsontype
                lua_rawgeti(L, -1, 1); //get first value
                switch (bson_type) {
                    case BSON_OID:
                    {
                        const char* boid = lua_tostring(L, -1);
                        if (boid && strlen(boid) == 24) {
                            bson_oid_t oid;
                            bson_oid_from_string(&oid, boid);
                            bson_append_oid(bs, key, &oid);
                        }
                        break;
                    }
                    case BSON_DATE:
                        bson_append_date(bs, key, (bson_date_t) lua_tonumber(L, -1));
                        break;
                    case BSON_REGEX:
                    {
                        const char* regex = lua_tostring(L, -1);
                        lua_rawgeti(L, -2, 2); // re opts
                        const char* options = lua_tostring(L, -1);
                        if (regex && options) {
                            bson_append_regex(bs, key, regex, options);
                        }
                        lua_pop(L, 1);
                        break;
                    }
                    case BSON_BINDATA:
                    {
                        size_t len;
                        const char* cbuf = lua_tolstring(L, -1, &len);
                        bson_append_binary(bs, key, BSON_BIN_BINARY, cbuf, len);
                        break;
                    }
                    case BSON_NULL:
                        bson_append_null(bs, key);
                        break;
                    case BSON_UNDEFINED:
                        bson_append_undefined(bs, key);
                        break;
                    case BSON_OBJECT:
                        if (key) bson_append_start_object(bs, key);
                        lua_val_to_bson(L, NULL, vpos, bs, tref);
                        if (key) bson_append_finish_object(bs);
                        break;
                    case BSON_ARRAY:
                        if (key) bson_append_start_array(bs, key);
                        lua_val_to_bson(L, NULL, vpos, bs, tref);
                        if (key) bson_append_finish_array(bs);
                        break;
                    case BSON_DOUBLE:
                        bson_append_double(bs, key, (double) lua_tonumber(L, -1));
                        break;
                    case BSON_INT:
                        bson_append_int(bs, key, (int32_t) lua_tonumber(L, -1));
                        break;
                    case BSON_LONG:
                        bson_append_long(bs, key, (int64_t) lua_tonumber(L, -1));
                        break;
                    case BSON_BOOL:
                        bson_append_bool(bs, key, lua_toboolean(L, -1));
                        break;
                    default:
                        break;
                }
                lua_pop(L, 1); //-1 first value
            }
            break;
        }
        case LUA_TNIL:
            bson_append_null(bs, key);
            break;
        case LUA_TNUMBER:
        {
            lua_Number numval = lua_tonumber(L, vpos);
            if (numval == floor(numval)) {
                int64_t iv = (int64_t) numval;
                if (-(1LL << 31) <= iv && iv <= (1LL << 31)) {
                    bson_append_int(bs, key, iv);
                } else {
                    bson_append_long(bs, key, iv);
                }
            } else {
                bson_append_double(bs, key, numval);
            }
            break;
        }
        case LUA_TBOOLEAN:
            bson_append_bool(bs, key, lua_toboolean(L, vpos));
            break;

        case LUA_TSTRING:
            bson_append_string(bs, key, lua_tostring(L, vpos));
            break;
    }
}
Пример #7
0
void core::append(const types::b_undefined&) {
    stdx::string_view key = _impl->next_key();

    bson_append_undefined(_impl->back(), key.data(), key.length());
}