/* -*- 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 #include "girepository.h" #include "girepository-private.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 { /* The values here must be kept in sync with GIInfoType */ 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; GIInfoType gi_typelib_blob_type_to_info_type (GITypelibBlobType blob_type); #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 >*/ gatomicrefcount ref_count; const uint8_t *data; /* just a cached pointer to inside @bytes */ size_t len; GBytes *bytes; /* (owned) */ GList *modules; gboolean open_attempted; GPtrArray *library_paths; /* (element-type filename) (owned) (nullable) */ }; 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_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