glib/girepository/gitypelib-internal.h
2024-01-16 18:40:42 +01:00

1423 lines
42 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*-
* GObject introspection: struct definitions for the binary
* typelib format, validation
*
* Copyright (C) 2005 Matthias Clasen
* Copyright (C) 2008,2009 Red Hat, Inc.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#pragma once
#include <gmodule.h>
#include "girepository.h"
G_BEGIN_DECLS
/**
* SECTION:gitypelib-internal
* @title: GITypelib Internals
* @short_description: Layout and accessors for typelib
* @stability: Stable
*
* The typelib is a binary, readonly, memory-mappable database
* containing reflective information about a GObject library.
*
* What the typelib describes and the types used are the same for every
* platform so, apart the endianness of its scalar values, the typelib
* database must be considered architecture-independent.
*
* The format of GObject typelib is strongly influenced by the Mozilla XPCOM
* format.
*
* Some of the differences to XPCOM include:
*
* - Type information is stored not quite as compactly (XPCOM stores it inline
* in function descriptions in variable-sized blobs of 1 to n bytes. We store
* 16 bits of type information for each parameter, which is enough to encode
* simple types inline. Complex (e.g. recursive) types are stored out of line
* in a separate list of types.
* - String and complex type data is stored outside of typelib entry blobs,
* references are stored as offsets relative to the start of the typelib.
* One possibility is to store the strings and types in a pools at the end
* of the typelib.
*
* The typelib has the following general format:
*
* ```
* typelib ::= header, section-index, directory, blobs, attributes, attributedata
*
* directory ::= list of entries
*
* entry ::= blob type, name, namespace, offset
* blob ::= function|callback|struct|boxed|enum|flags|object|interface|constant|union
* attribute ::= offset, key, value
* attributedata ::= string data for attributes
* ```
*
* ## Details
*
* We describe the fragments that make up the typelib in the form of C structs
* (although some fall short of being valid C structs since they contain
* multiple flexible arrays).
*
* Since: 2.80
*/
/*
TYPELIB HISTORY
-----
Version 1.1
- Add ref/unref/set-value/get-value functions to Object, to be able
to support instantiatable fundamental types which are not GObject based.
Version 1.0
- Rename class_struct to gtype_struct, add to interfaces
Changes since 0.9:
- Add padding to structures
Changes since 0.8:
- Add class struct concept to ObjectBlob
- Add is_class_struct bit to StructBlob
Changes since 0.7:
- Add dependencies
Changes since 0.6:
- rename metadata to typelib, to follow xpcom terminology
Changes since 0.5:
- basic type cleanup:
+ remove GString
+ add [u]int, [u]long, [s]size_t
+ rename string to utf8, add filename
- allow blob_type to be zero for non-local entries
Changes since 0.4:
- add a UnionBlob
Changes since 0.3:
- drop short_name for ValueBlob
Changes since 0.2:
- make inline types 4 bytes after all, remove header->types and allow
types to appear anywhere
- allow error domains in the directory
Changes since 0.1:
- drop comments about _GOBJ_METADATA
- drop string pool, strings can appear anywhere
- use 'blob' as collective name for the various blob types
- rename 'type' field in blobs to 'blob_type'
- rename 'type_name' and 'type_init' fields to 'gtype_name', 'gtype_init'
- shrink directory entries to 12 bytes
- merge struct and boxed blobs
- split interface blobs into enum, object and interface blobs
- add an 'unregistered' flag to struct and enum blobs
- add a 'wraps_vfunc' flag to function blobs and link them to
the vfuncs they wrap
- restrict value blobs to only occur inside enums and flags again
- add constant blobs, allow them toplevel, in interfaces and in objects
- rename 'receiver_owns_value' and 'receiver_owns_container' to
'transfer_ownership' and 'transfer_container_ownership'
- add a 'struct_offset' field to virtual function and field blobs
- add 'dipper' and 'optional' flags to arg blobs
- add a 'true_stops_emit' flag to signal blobs
- add variable blob sizes to header
- store offsets to signature blobs instead of including them directly
- change the type offset to be measured in words rather than bytes
*/
/**
* GI_IR_MAGIC:
*
* Identifying prefix for the typelib.
*
* This was inspired by XPCOM, which in turn borrowed from PNG.
*
* Since: 2.80
*/
#define GI_IR_MAGIC "GOBJ\nMETADATA\r\n\032"
/**
* GITypelibBlobType:
* @BLOB_TYPE_INVALID: Should not appear in code
* @BLOB_TYPE_FUNCTION: A #FunctionBlob
* @BLOB_TYPE_CALLBACK: A #CallbackBlob
* @BLOB_TYPE_STRUCT: A #StructBlob
* @BLOB_TYPE_BOXED: Can be either a #StructBlob or #UnionBlob
* @BLOB_TYPE_ENUM: An #EnumBlob
* @BLOB_TYPE_FLAGS: An #EnumBlob
* @BLOB_TYPE_OBJECT: An #ObjectBlob
* @BLOB_TYPE_INTERFACE: An #InterfaceBlob
* @BLOB_TYPE_CONSTANT: A #ConstantBlob
* @BLOB_TYPE_INVALID_0: Deleted, used to be ErrorDomain.
* @BLOB_TYPE_UNION: A #UnionBlob
*
* The integral value of this enumeration appears in each "Blob" component of
* a typelib to identify its type.
*
* Since: 2.80
*/
typedef enum {
BLOB_TYPE_INVALID,
BLOB_TYPE_FUNCTION,
BLOB_TYPE_CALLBACK,
BLOB_TYPE_STRUCT,
BLOB_TYPE_BOXED,
BLOB_TYPE_ENUM,
BLOB_TYPE_FLAGS,
BLOB_TYPE_OBJECT,
BLOB_TYPE_INTERFACE,
BLOB_TYPE_CONSTANT,
BLOB_TYPE_INVALID_0,
BLOB_TYPE_UNION
} GITypelibBlobType;
#if defined (G_CAN_INLINE) && defined (G_ALWAYS_INLINE)
G_ALWAYS_INLINE
inline gboolean
_blob_is_registered_type (GITypelibBlobType blob_type)
{
switch (blob_type)
{
case BLOB_TYPE_STRUCT:
case BLOB_TYPE_UNION:
case BLOB_TYPE_ENUM:
case BLOB_TYPE_FLAGS:
case BLOB_TYPE_OBJECT:
case BLOB_TYPE_INTERFACE:
return TRUE;
default:
return FALSE;
}
}
#define BLOB_IS_REGISTERED_TYPE(blob) \
_blob_is_registered_type ((GITypelibBlobType) (blob)->blob_type)
#else
#define BLOB_IS_REGISTERED_TYPE(blob) \
((blob)->blob_type == BLOB_TYPE_STRUCT || \
(blob)->blob_type == BLOB_TYPE_UNION || \
(blob)->blob_type == BLOB_TYPE_ENUM || \
(blob)->blob_type == BLOB_TYPE_FLAGS || \
(blob)->blob_type == BLOB_TYPE_OBJECT || \
(blob)->blob_type == BLOB_TYPE_INTERFACE)
#endif /* defined (G_CAN_INLINE) && defined (G_ALWAYS_INLINE) */
/**
* Header:
* @magic: See #GI_IR_MAGIC.
* @major_version: The major version number of the typelib format. Major version
* number changes indicate incompatible changes to the tyeplib format.
* @minor_version: The minor version number of the typelib format. Minor version
* number changes indicate compatible changes and should still allow the
* typelib to be parsed by a parser designed for the same @major_version.
* @reserved: Reserved for future use.
* @n_entries: The number of entries in the directory.
* @n_local_entries: The number of entries referring to blobs in this typelib.
* The local entries must occur before the unresolved entries.
* @directory: Offset of the directory in the typelib.
* @n_attributes: Number of attribute blocks
* @attributes: Offset of the list of attributes in the typelib.
* @dependencies: Offset of a single string, which is the list of immediate
* dependencies, separated by the '|' character. The dependencies are
* required in order to avoid having programs consuming a typelib check for
* an "Unresolved" type return from every API call.
* @size: The size in bytes of the typelib.
* @namespace: Offset of the namespace string in the typelib.
* @nsversion: Offset of the namespace version string in the typelib.
* @shared_library: This field is the set of shared libraries associated with
* the typelib. The entries are separated by the '|' (pipe) character.
* @c_prefix: The prefix for the function names of the library
* @entry_blob_size: The sizes of fixed-size blobs. Recording this information
* here allows to write parser which continue to work if the format is
* extended by adding new fields to the end of the fixed-size blobs.
* @function_blob_size: See @entry_blob_size.
* @callback_blob_size: See @entry_blob_size.
* @signal_blob_size: See @entry_blob_size.
* @vfunc_blob_size: See @entry_blob_size.
* @arg_blob_size: See @entry_blob_size.
* @property_blob_size: See @entry_blob_size.
* @field_blob_size: See @entry_blob_size.
* @value_blob_size: See @entry_blob_size.
* @attribute_blob_size: See @entry_blob_size.
* @constant_blob_size: See @entry_blob_size.
* @error_domain_blob_size: See @entry_blob_size.
* @signature_blob_size: See @entry_blob_size.
* @enum_blob_size: See @entry_blob_size.
* @struct_blob_size: See @entry_blob_size.
* @object_blob_size: See @entry_blob_size.
* @interface_blob_size: For variable-size blobs, the size of the struct up to
* the first flexible array member. Recording this information here allows
* to write parser which continue to work if the format is extended by
* adding new fields before the first flexible array member in
* variable-size blobs.
* @union_blob_size: See @entry_blob_size.
* @sections: Offset of section blob array
* @padding: TODO
*
* The header structure appears exactly once at the beginning of a typelib. It is a
* collection of meta-information, such as the number of entries and dependencies.
*
* Since: 2.80
*/
typedef struct {
char magic[16];
uint8_t major_version;
uint8_t minor_version;
uint16_t reserved;
uint16_t n_entries;
uint16_t n_local_entries;
uint32_t directory;
uint32_t n_attributes;
uint32_t attributes;
uint32_t dependencies;
uint32_t size;
uint32_t namespace;
uint32_t nsversion;
uint32_t shared_library;
uint32_t c_prefix;
uint16_t entry_blob_size;
uint16_t function_blob_size;
uint16_t callback_blob_size;
uint16_t signal_blob_size;
uint16_t vfunc_blob_size;
uint16_t arg_blob_size;
uint16_t property_blob_size;
uint16_t field_blob_size;
uint16_t value_blob_size;
uint16_t attribute_blob_size;
uint16_t constant_blob_size;
uint16_t error_domain_blob_size;
uint16_t signature_blob_size;
uint16_t enum_blob_size;
uint16_t struct_blob_size;
uint16_t object_blob_size;
uint16_t interface_blob_size;
uint16_t union_blob_size;
uint32_t sections;
uint16_t padding[6];
} Header;
/**
* SectionType:
* @GI_SECTION_END: TODO
* @GI_SECTION_DIRECTORY_INDEX: TODO
*
* TODO
*
* Since: 2.80
*/
typedef enum {
GI_SECTION_END = 0,
GI_SECTION_DIRECTORY_INDEX = 1
} SectionType;
/**
* Section:
* @id: A #SectionType
* @offset: Integer offset for this section
*
* A section is a blob of data that's (at least theoretically) optional,
* and may or may not be present in the typelib. Presently, just used
* for the directory index. This allows a form of dynamic extensibility
* with different tradeoffs from the format minor version.
*
* Since: 2.80
*/
typedef struct {
uint32_t id;
uint32_t offset;
} Section;
/**
* DirEntry:
* @blob_type: A #GITypelibBlobType
* @local: Whether this entry refers to a blob in this typelib.
* @reserved: Reserved for future use.
* @name: The name of the entry.
* @offset: If is_local is set, this is the offset of the blob in the typelib.
* Otherwise, it is the offset of the namespace in which the blob has to be
* looked up by name.
*
* References to directory entries are stored as 1-based 16-bit indexes.
*
* All blobs pointed to by a directory entry start with the same layout for
* the first 8 bytes (the reserved flags may be used by some blob types)
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t local : 1;
uint16_t reserved :15;
uint32_t name;
uint32_t offset;
} DirEntry;
/**
* SimpleTypeBlobFlags:
* @reserved: Reserved for future use.
* @reserved2: Reserved for future use.
* @pointer: TODO
* @reserved3: Reserved for future use.
* @tag: A #GITypeTag
*
* TODO
*
* Since: 2.80
*/
typedef struct {
unsigned reserved : 8;
unsigned reserved2 :16;
unsigned pointer : 1;
unsigned reserved3 : 2;
unsigned tag : 5;
} SimpleTypeBlobFlags;
union _SimpleTypeBlob
{
SimpleTypeBlobFlags flags;
uint32_t offset;
};
/**
* SimpleTypeBlob:
* @flags: TODO
* @offset: Offset relative to header->types that points to a TypeBlob.
* Unlike other offsets, this is in words (ie 32bit units) rather
* than bytes.
*
* The SimpleTypeBlob is the general purpose "reference to a type" construct,
* used in method parameters, returns, callback definitions, fields, constants,
* etc. It's actually just a 32 bit integer which you can see from the union
* definition. This is for efficiency reasons, since there are so many
* references to types.
*
* SimpleTypeBlob is divided into two cases; first, if "reserved" and
* "reserved2" are both zero, the type tag for a basic type is embedded in the
* "tag" bits. This allows e.g. GI_TYPE_TAG_UTF8, GI_TYPE_TAG_INT and the like
* to be embedded directly without taking up extra space.
*
* References to "interfaces" (objects, interfaces) are more complicated;
* In this case, the integer is actually an offset into the directory (see
* above). Because the header is larger than 2^8=256 bits, all offsets will
* have one of the upper 24 bits set.
*
* Since: 2.80
*/
typedef union _SimpleTypeBlob SimpleTypeBlob;
/**
* ArgBlob:
* @name: A suggested name for the parameter.
* @in: The parameter is an input to the function
* @out: The parameter is used to return an output of the function. Parameters
* can be both in and out. Out parameters implicitly add another level of
* indirection to the parameter type. Ie if the type is uint32 in an out
* parameter, the function actually takes an uint32*.
* @caller_allocates: The parameter is a pointer to a struct or object that
* will receive an output of the function.
* @nullable: Only meaningful for types which are passed as pointers. For an
* in parameter, indicates if it is ok to pass NULL in. Gor an out
* parameter, indicates whether it may return NULL. Note that NULL is a
* valid GList and GSList value, thus allow_none will normally be set
* for parameters of these types.
* @optional: For an out parameter, indicates that NULL may be passed in
* if the value is not needed.
* @transfer_ownership: For an in parameter, indicates that the function takes
* over ownership of the parameter value. For an out parameter, it indicates
* that the caller is responsible for freeing the return value.
* @transfer_container_ownership: For container types, indicates that the
* ownership of the container, but not of its contents is transferred.
* This is typically the case for out parameters returning lists of
* statically allocated things.
* @return_value: The parameter should be considered the return value of the
* function. Only out parameters can be marked as return value, and there
* can be at most one per function call. If an out parameter is marked as
* return value, the actual return value of the function should be either
* void or a boolean indicating the success of the call.
* @scope: A #GIScopeType. If the parameter is of a callback type, this denotes
* the scope of the user_data and the callback function pointer itself
* (for languages that emit code at run-time).
* @skip: Indicates that the parameter is only useful in C and should be skipped.
* @reserved: Reserved for future use.
* @closure: Index of the closure (user_data) parameter associated with the
* callback, or -1.
* @destroy: Index of the destroy notfication callback parameter associated
* with the callback, or -1.
* @padding: TODO
* @arg_type: Describes the type of the parameter. See details below.
*
* Types are specified by four bytes. If the three high bytes are zero,
* the low byte describes a basic type, otherwise the 32bit number is an
* offset which points to a TypeBlob.
*
* Since: 2.80
*/
typedef struct {
uint32_t name;
unsigned in : 1;
unsigned out : 1;
unsigned caller_allocates : 1;
unsigned nullable : 1;
unsigned optional : 1;
unsigned transfer_ownership : 1;
unsigned transfer_container_ownership : 1;
unsigned return_value : 1;
unsigned scope : 3;
unsigned skip : 1;
unsigned reserved :20;
int8_t closure;
int8_t destroy;
uint16_t padding;
SimpleTypeBlob arg_type;
} ArgBlob;
/**
* SignatureBlob:
* @return_type: Describes the type of the return value. See details below.
* @may_return_null: Only relevant for pointer types. Indicates whether the
* caller must expect NULL as a return value.
* @caller_owns_return_value: If set, the caller is responsible for freeing
* the return value if it is no longer needed.
* @caller_owns_return_container: This flag is only relevant if the return type
* is a container type. If the flag is set, the caller is resonsible for
* freeing the container, but not its contents.
* @skip_return: Indicates that the return value is only useful in C and should
* be skipped.
* @instance_transfer_ownership: When calling, the function assumes ownership of
* the instance parameter.
* @throws: Denotes the signature takes an additional #GError argument beyond
* the annotated arguments.
* @reserved: Reserved for future use.
* @n_arguments: The number of arguments that this function expects, also the
* length of the array of ArgBlobs.
* @arguments: An array of ArgBlob for the arguments of the function.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
SimpleTypeBlob return_type;
uint16_t may_return_null : 1;
uint16_t caller_owns_return_value : 1;
uint16_t caller_owns_return_container : 1;
uint16_t skip_return : 1;
uint16_t instance_transfer_ownership : 1;
uint16_t throws : 1;
uint16_t reserved :10;
uint16_t n_arguments;
ArgBlob arguments[];
} SignatureBlob;
/**
* CommonBlob:
* @blob_type: A #GITypelibBlobType
* @deprecated: Whether the blob is deprecated.
* @reserved: Reserved for future use.
* @name: The name of the blob.
*
* The #CommonBlob is shared between #FunctionBlob,
* #CallbackBlob, #SignalBlob.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type; /* 1 */
uint16_t deprecated : 1;
uint16_t reserved :15;
uint32_t name;
} CommonBlob;
/**
* FunctionBlob:
* @blob_type: #BLOB_TYPE_FUNCTION
* @deprecated: The function is deprecated.
* @setter: The function is a setter for a property. Language bindings may
* prefer to not bind individual setters and rely on the generic
* g_object_set().
* @getter: The function is a getter for a property. Language bindings may
* prefer to not bind individual getters and rely on the generic
* g_object_get().
* @constructor: The function acts as a constructor for the object it is
* contained in.
* @wraps_vfunc: The function is a simple wrapper for a virtual function.
* @throws: This is now additionally stored in the #SignatureBlob. (deprecated)
* @index: Index of the property that this function is a setter or getter of
* in the array of properties of the containing interface, or index
* of the virtual function that this function wraps.
* @name: TODO
* @symbol: The symbol which can be used to obtain the function pointer with
* dlsym().
* @signature: Offset of the SignatureBlob describing the parameter types and the
* return value type.
* @is_static: The function is a "static method"; in other words it's a pure
* function whose name is conceptually scoped to the object.
* @reserved: Reserved for future use.
* @reserved2: Reserved for future use.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type; /* 1 */
uint16_t deprecated : 1;
uint16_t setter : 1;
uint16_t getter : 1;
uint16_t constructor : 1;
uint16_t wraps_vfunc : 1;
uint16_t throws : 1;
uint16_t index :10;
/* Note the bits above need to match CommonBlob
* and are thus exhausted, extend things using
* the reserved block below. */
uint32_t name;
uint32_t symbol;
uint32_t signature;
uint16_t is_static : 1;
uint16_t reserved : 15;
uint16_t reserved2 : 16;
} FunctionBlob;
/**
* CallbackBlob:
* @blob_type: TODO
* @deprecated: TODO
* @reserved: Reserved for future use.
* @name: TODO
* @signature: Offset of the #SignatureBlob describing the parameter types and
* the return value type.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type; /* 2 */
uint16_t deprecated : 1;
uint16_t reserved :15;
uint32_t name;
uint32_t signature;
} CallbackBlob;
/**
* InterfaceTypeBlob:
* @pointer: Whether this type represents an indirection
* @reserved: Reserved for future use.
* @tag: A #GITypeTag
* @reserved2: Reserved for future use.
* @interface: Index of the directory entry for the interface.
*
* If the interface is an enum of flags type, is_pointer is 0, otherwise it is 1.
*
* Since: 2.80
*/
typedef struct {
uint8_t pointer :1;
uint8_t reserved :2;
uint8_t tag :5;
uint8_t reserved2;
uint16_t interface;
} InterfaceTypeBlob;
/**
* ArrayTypeDimension:
* @length: TODO
* @size: TODO
*
* TODO
*
* Since: 2.80
*/
typedef union {
uint16_t length;
uint16_t size;
} ArrayTypeDimension;
/**
* ArrayTypeBlob:
* @pointer: TODO
* @reserved: Reserved for future use.
* @tag: TODO
* @zero_terminated: Indicates that the array must be terminated by a suitable
* #NULL value.
* @has_length: Indicates that length points to a parameter specifying the
* length of the array. If both has_length and zero_terminated are set, the
* convention is to pass -1 for the length if the array is zero-terminated.
* @has_size: Indicates that size is the fixed size of the array.
* @array_type: Indicates whether this is a C array, GArray, GPtrArray, or
* GByteArray. If something other than a C array, the length and element
* size are implicit in the structure.
* @reserved2: Reserved for future use.
* @dimensions: TODO
* @type: TODO
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t pointer :1;
uint16_t reserved :2;
uint16_t tag :5;
uint16_t zero_terminated :1;
uint16_t has_length :1;
uint16_t has_size :1;
uint16_t array_type :2;
uint16_t reserved2 :3;
ArrayTypeDimension dimensions;
SimpleTypeBlob type;
} ArrayTypeBlob;
/**
* ParamTypeBlob:
* @pointer: TODO
* @reserved: Reserved for future use.
* @tag: TODO
* @reserved2: Reserved for future use.
* @n_types: The number of parameter types to follow.
* @type: Describes the type of the list elements.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint8_t pointer :1;
uint8_t reserved :2;
uint8_t tag :5;
uint8_t reserved2;
uint16_t n_types;
SimpleTypeBlob type[];
} ParamTypeBlob;
/**
* ErrorTypeBlob:
* @pointer: TODO
* @reserved: TODO
* @tag: TODO
* @reserved2: TODO
* @n_domains: TODO: must be 0
* @domains: TODO
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint8_t pointer :1;
uint8_t reserved :2;
uint8_t tag :5;
uint8_t reserved2;
uint16_t n_domains; /* Must be 0 */
uint16_t domains[];
} ErrorTypeBlob;
/**
* ValueBlob:
* @deprecated: Whether this value is deprecated
* @unsigned_value: if set, value is a 32-bit unsigned integer cast to int32_t
* @reserved: Reserved for future use.
* @name: Name of blob
* @value: The numerical value
*
* Values commonly occur in enums and flags.
*
* Since: 2.80
*/
typedef struct {
uint32_t deprecated : 1;
uint32_t unsigned_value : 1;
uint32_t reserved :30;
uint32_t name;
int32_t value;
} ValueBlob;
/**
* FieldBlob:
* @name: The name of the field.
* @readable: TODO
* @writable: How the field may be accessed.
* @has_embedded_type: An anonymous type follows the FieldBlob.
* @reserved: Reserved for future use.
* @bits: If this field is part of a bitfield, the number of bits which it
* uses, otherwise 0.
* @struct_offset: The offset of the field in the struct. The value 0xFFFF
* indicates that the struct offset is unknown.
* @reserved2: Reserved for future use.
* @type: The type of the field.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint32_t name;
uint8_t readable :1;
uint8_t writable :1;
uint8_t has_embedded_type :1;
uint8_t reserved :5;
uint8_t bits;
uint16_t struct_offset;
uint32_t reserved2;
SimpleTypeBlob type;
} FieldBlob;
/**
* RegisteredTypeBlob:
* @blob_type: TODO
* @deprecated: TODO
* @unregistered: TODO
* @reserved: Reserved for future use.
* @name: TODO
* @gtype_name: The name under which the type is registered with GType.
* @gtype_init: The symbol name of the get_type<!-- -->() function which registers the
* type.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t deprecated : 1;
uint16_t unregistered : 1;
uint16_t reserved :14;
uint32_t name;
uint32_t gtype_name;
uint32_t gtype_init;
} RegisteredTypeBlob;
/**
* StructBlob:
* @blob_type: #BLOB_TYPE_STRUCT
* @deprecated: Whether this structure is deprecated
* @unregistered: If this is set, the type is not registered with GType.
* @is_gtype_struct: Whether this structure is the class or interface layout
* for a GObject
* @alignment: The byte boundary that the struct is aligned to in memory
* @foreign: If the type is foreign, eg if it's expected to be overridden by
* a native language binding instead of relying of introspected bindings.
* @reserved: Reserved for future use.
* @name: TODO
* @gtype_name: String name of the associated #GType
* @gtype_init: String naming the symbol which gets the runtime #GType
* @size: The size of the struct in bytes.
* @n_fields: TODO
* @n_methods: TODO
* @copy_func: String pointing to a function which can be called to copy
* the contents of this struct type
* @free_func: String pointing to a function which can be called to free
* the contents of this struct type
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t deprecated : 1;
uint16_t unregistered : 1;
uint16_t is_gtype_struct : 1;
uint16_t alignment : 6;
uint16_t foreign : 1;
uint16_t reserved : 6;
uint32_t name;
uint32_t gtype_name;
uint32_t gtype_init;
uint32_t size;
uint16_t n_fields;
uint16_t n_methods;
uint32_t copy_func;
uint32_t free_func;
} StructBlob;
/**
* UnionBlob:
* @blob_type: TODO
* @deprecated: TODO
* @unregistered: If this is set, the type is not registered with GType.
* @discriminated: Is set if the union is discriminated
* @alignment: The byte boundary that the union is aligned to in memory
* @reserved: Reserved for future use.
* @name: TODO
* @gtype_name: String name of the associated #GType
* @gtype_init: String naming the symbol which gets the runtime #GType
* @size: TODO
* @n_fields: Length of the arrays
* @n_functions: TODO
* @copy_func: String pointing to a function which can be called to copy
* the contents of this union type
* @free_func: String pointing to a function which can be called to free
* the contents of this union type
* @discriminator_offset: Offset from the beginning of the union where the
* discriminator of a discriminated union is located. The value 0xFFFF
* indicates that the discriminator offset is unknown.
* @discriminator_type: Type of the discriminator
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t deprecated : 1;
uint16_t unregistered : 1;
uint16_t discriminated : 1;
uint16_t alignment : 6;
uint16_t reserved : 7;
uint32_t name;
uint32_t gtype_name;
uint32_t gtype_init;
uint32_t size;
uint16_t n_fields;
uint16_t n_functions;
uint32_t copy_func;
uint32_t free_func;
int32_t discriminator_offset;
SimpleTypeBlob discriminator_type;
} UnionBlob;
/**
* EnumBlob:
* @blob_type: TODO
* @deprecated: TODO
* @unregistered: If this is set, the type is not registered with GType.
* @storage_type: The tag of the type used for the enum in the C ABI
* (will be a signed or unsigned integral type)
* @reserved: Reserved for future use.
* @name: TODO
* @gtype_name: String name of the associated #GType
* @gtype_init: String naming the symbol which gets the runtime #GType
* @n_values: The length of the values array.
* @n_methods: The length of the methods array.
* @error_domain: String naming the #GError domain this enum is associated with
* @values: TODO
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t deprecated : 1;
uint16_t unregistered : 1;
uint16_t storage_type : 5;
uint16_t reserved : 9;
uint32_t name;
uint32_t gtype_name;
uint32_t gtype_init;
uint16_t n_values;
uint16_t n_methods;
uint32_t error_domain;
ValueBlob values[];
} EnumBlob;
#define ACCESSOR_SENTINEL 0x3ff
/**
* PropertyBlob:
* @name: The name of the property.
* @deprecated: TODO
* @readable: TODO
* @writable: TODO
* @construct: TODO
* @construct_only: The ParamFlags used when registering the property.
* @transfer_ownership: When writing, the type containing the property takes
* ownership of the value. When reading, the returned value needs to be
* released by the caller.
* @transfer_container_ownership: For container types indicates that the
* ownership of the container, but not of its contents, is transferred.
* This is typically the case when reading lists of statically allocated
* things.
* @setter: the index of the setter function for this property, if @writable
* is set; if the method is not known, the value will be set to %ACCESSOR_SENTINEL
* @getter: ths index of the getter function for this property, if @readable
* is set; if the method is not known, the value will be set to %ACCESSOR_SENTINEL
* @reserved: Reserved for future use.
* @reserved2: Reserved for future use.
* @type: Describes the type of the property.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint32_t name;
uint32_t deprecated : 1;
uint32_t readable : 1;
uint32_t writable : 1;
uint32_t construct : 1;
uint32_t construct_only : 1;
uint32_t transfer_ownership : 1;
uint32_t transfer_container_ownership : 1;
uint32_t setter :10;
uint32_t getter :10;
uint32_t reserved : 5;
uint32_t reserved2;
SimpleTypeBlob type;
} PropertyBlob;
/**
* SignalBlob:
* @deprecated: TODO
* @run_first: TODO
* @run_last: TODO
* @run_cleanup: TODO
* @no_recurse: TODO
* @detailed: TODO
* @action: TODO
* @no_hooks: The flags used when registering the signal.
* @has_class_closure: Set if the signal has a class closure.
* @true_stops_emit: Whether the signal has true-stops-emit semantics
* @reserved: Reserved for future use.
* @class_closure: The index of the class closure in the list of virtual
* functions of the object or interface on which the signal is defined.
* @name: The name of the signal.
* @reserved2: Reserved for future use.
* @signature: Offset of the SignatureBlob describing the parameter types
* and the return value type.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t deprecated : 1;
uint16_t run_first : 1;
uint16_t run_last : 1;
uint16_t run_cleanup : 1;
uint16_t no_recurse : 1;
uint16_t detailed : 1;
uint16_t action : 1;
uint16_t no_hooks : 1;
uint16_t has_class_closure : 1;
uint16_t true_stops_emit : 1;
uint16_t reserved : 6;
uint16_t class_closure;
uint32_t name;
uint32_t reserved2;
uint32_t signature;
} SignalBlob;
/**
* VFuncBlob:
* @name: The name of the virtual function.
* @must_chain_up: If set, every implementation of this virtual function must
* chain up to the implementation of the parent class.
* @must_be_implemented: If set, every derived class must override this virtual
* function.
* @must_not_be_implemented: If set, derived class must not override this
* virtual function.
* @class_closure: Set if this virtual function is the class closure of a
* signal.
* @throws: This is now additionally stored in the #SignatureBlob. (deprecated)
* @reserved: Reserved for future use.
* @signal: The index of the signal in the list of signals of the object or
* interface to which this virtual function belongs.
* @struct_offset: The offset of the function pointer in the class struct.
* The value 0xFFFF indicates that the struct offset is unknown.
* @invoker: If a method invoker for this virtual exists, this is the offset
* in the class structure of the method. If no method is known, this value
* will be 0x3ff.
* @reserved2: Reserved for future use.
* @reserved3: Reserved for future use.
* @signature: Offset of the SignatureBlob describing the parameter types and
* the return value type.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint32_t name;
uint16_t must_chain_up : 1;
uint16_t must_be_implemented : 1;
uint16_t must_not_be_implemented : 1;
uint16_t class_closure : 1;
uint16_t throws : 1;
uint16_t reserved :11;
uint16_t signal;
uint16_t struct_offset;
uint16_t invoker : 10; /* Number of bits matches @index in FunctionBlob */
uint16_t reserved2 : 6;
uint32_t reserved3;
uint32_t signature;
} VFuncBlob;
/**
* ObjectBlob:
* @blob_type: #BLOB_TYPE_OBJECT
* @deprecated: whether the type is deprecated
* @abstract: whether the type can be instantiated
* @fundamental: this object is not a GObject derived type, instead it's
* an additional fundamental type.
* @final_: whether the type can be derived
* @reserved: Reserved for future use.
* @name: TODO
* @gtype_name: String name of the associated #GType
* @gtype_init: String naming the symbol which gets the runtime #GType
* @parent: The directory index of the parent type. This is only set for
* objects. If an object does not have a parent, it is zero.
* @gtype_struct: TODO
* @n_interfaces: TODO
* @n_fields: TODO
* @n_properties: TODO
* @n_methods: TODO
* @n_signals: TODO
* @n_vfuncs: TODO
* @n_constants: The lengths of the arrays.Up to 16bits of padding may be
* inserted between the arrays to ensure that they start on a 32bit
* boundary.
* @n_field_callbacks: The number of n_fields which are also callbacks.
* This is used to calculate the fields section size in constant time.
* @ref_func: String pointing to a function which can be called to increase
* the reference count for an instance of this object type.
* @unref_func: String pointing to a function which can be called to decrease
* the reference count for an instance of this object type.
* @set_value_func: String pointing to a function which can be called to
* convert a pointer of this object to a GValue
* @get_value_func: String pointing to a function which can be called to
* convert extract a pointer to this object from a GValue
* @reserved3: Reserved for future use.
* @reserved4: Reserved for future use.
* @interfaces: An array of indices of directory entries for the implemented
* interfaces.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type; /* 7 */
uint16_t deprecated : 1;
uint16_t abstract : 1;
uint16_t fundamental : 1;
uint16_t final_ : 1;
uint16_t reserved :12;
uint32_t name;
uint32_t gtype_name;
uint32_t gtype_init;
uint16_t parent;
uint16_t gtype_struct;
uint16_t n_interfaces;
uint16_t n_fields;
uint16_t n_properties;
uint16_t n_methods;
uint16_t n_signals;
uint16_t n_vfuncs;
uint16_t n_constants;
uint16_t n_field_callbacks;
uint32_t ref_func;
uint32_t unref_func;
uint32_t set_value_func;
uint32_t get_value_func;
uint32_t reserved3;
uint32_t reserved4;
uint16_t interfaces[];
} ObjectBlob;
/**
* InterfaceBlob:
* @blob_type: TODO
* @deprecated: TODO
* @reserved: Reserved for future use.
* @name: TODO
* @gtype_name: TODO
* @gtype_init: TODO
* @gtype_struct: Name of the interface "class" C structure
* @n_prerequisites: Number of prerequisites
* @n_properties: Number of properties
* @n_methods: Number of methods
* @n_signals: Number of signals
* @n_vfuncs: Number of virtual functions
* @n_constants: The lengths of the arrays. Up to 16bits of padding may be
* inserted between the arrays to ensure that they start on a 32bit
* boundary.
* @padding: TODO
* @reserved2: Reserved for future use.
* @reserved3: Reserved for future use.
* @prerequisites: An array of indices of directory entries for required
* interfaces.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t deprecated : 1;
uint16_t reserved :15;
uint32_t name;
uint32_t gtype_name;
uint32_t gtype_init;
uint16_t gtype_struct;
uint16_t n_prerequisites;
uint16_t n_properties;
uint16_t n_methods;
uint16_t n_signals;
uint16_t n_vfuncs;
uint16_t n_constants;
uint16_t padding;
uint32_t reserved2;
uint32_t reserved3;
uint16_t prerequisites[];
} InterfaceBlob;
/**
* ConstantBlob:
* @blob_type: TODO
* @deprecated: TODO
* @reserved: Reserved for future use.
* @name: TODO
* @type: The type of the value. In most cases this should be a numeric type
* or string.
* @size: The size of the value in bytes.
* @offset: The offset of the value in the typelib.
* @reserved2: Reserved for future use.
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint16_t blob_type;
uint16_t deprecated : 1;
uint16_t reserved :15;
uint32_t name;
SimpleTypeBlob type;
uint32_t size;
uint32_t offset;
uint32_t reserved2;
} ConstantBlob;
/**
* AttributeBlob:
* @offset: The offset of the typelib entry to which this attribute refers.
* Attributes are kept sorted by offset, so that the attributes of an
* entry can be found by a binary search.
* @name: The name of the attribute, a string.
* @value: The value of the attribute (also a string)
*
* TODO
*
* Since: 2.80
*/
typedef struct {
uint32_t offset;
uint32_t name;
uint32_t value;
} AttributeBlob;
struct _GITypelib {
/*< private >*/
guchar *data;
gsize len;
gboolean owns_memory;
GMappedFile *mfile;
GList *modules;
gboolean open_attempted;
};
DirEntry *gi_typelib_get_dir_entry (GITypelib *typelib,
uint16_t index);
DirEntry *gi_typelib_get_dir_entry_by_name (GITypelib *typelib,
const char *name);
DirEntry *gi_typelib_get_dir_entry_by_gtype_name (GITypelib *typelib,
const char *gtype_name);
DirEntry *gi_typelib_get_dir_entry_by_error_domain (GITypelib *typelib,
GQuark error_domain);
gboolean gi_typelib_matches_gtype_name_prefix (GITypelib *typelib,
const char *gtype_name);
GI_AVAILABLE_IN_ALL
void gi_typelib_check_format (void);
/**
* gi_typelib_get_string:
* @typelib: TODO
* @offset: TODO
*
* TODO
*
* Returns: TODO
* Since: 2.80
*/
#define gi_typelib_get_string(typelib,offset) ((const char*)&(typelib->data)[(offset)])
/**
* GITypelibError:
* @GI_TYPELIB_ERROR_INVALID: the typelib is invalid
* @GI_TYPELIB_ERROR_INVALID_HEADER: the typelib header is invalid
* @GI_TYPELIB_ERROR_INVALID_DIRECTORY: the typelib directory is invalid
* @GI_TYPELIB_ERROR_INVALID_ENTRY: a typelib entry is invalid
* @GI_TYPELIB_ERROR_INVALID_BLOB: a typelib blob is invalid
*
* A error set while validating the #GITypelib
*
* Since: 2.80
*/
typedef enum
{
GI_TYPELIB_ERROR_INVALID,
GI_TYPELIB_ERROR_INVALID_HEADER,
GI_TYPELIB_ERROR_INVALID_DIRECTORY,
GI_TYPELIB_ERROR_INVALID_ENTRY,
GI_TYPELIB_ERROR_INVALID_BLOB
} GITypelibError;
/**
* GI_TYPELIB_ERROR:
*
* TODO
*
* Since: 2.80
*/
#define GI_TYPELIB_ERROR (gi_typelib_error_quark ())
GQuark gi_typelib_error_quark (void);
GI_AVAILABLE_IN_ALL
gboolean gi_typelib_validate (GITypelib *typelib,
GError **error);
/* defined in gibaseinfo.c */
AttributeBlob *_attribute_blob_find_first (GIBaseInfo *info,
uint32_t blob_offset);
/**
* GITypelibHashBuilder:
*
* TODO
*
* Since: 2.80
*/
typedef struct _GITypelibHashBuilder GITypelibHashBuilder;
GITypelibHashBuilder * gi_typelib_hash_builder_new (void);
void gi_typelib_hash_builder_add_string (GITypelibHashBuilder *builder, const char *str, uint16_t value);
gboolean gi_typelib_hash_builder_prepare (GITypelibHashBuilder *builder);
uint32_t gi_typelib_hash_builder_get_buffer_size (GITypelibHashBuilder *builder);
void gi_typelib_hash_builder_pack (GITypelibHashBuilder *builder, uint8_t* mem, uint32_t size);
void gi_typelib_hash_builder_destroy (GITypelibHashBuilder *builder);
uint16_t gi_typelib_hash_search (uint8_t* memory, const char *str, uint32_t n_entries);
G_END_DECLS