mirror of
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522 lines
19 KiB
C
522 lines
19 KiB
C
/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/*
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* Structures matching the in-memory representation of typelib structures.
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* http://www.mozilla.org/scriptable/typelib_file.html
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*/
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#ifndef __xpt_struct_h__
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#define __xpt_struct_h__
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#include "xpt_arena.h"
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#include <stdint.h>
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extern "C" {
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/*
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* Originally, I was going to have structures that exactly matched the on-disk
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* representation, but that proved difficult: different compilers can pack
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* their structs differently, and that makes overlaying them atop a
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* read-from-disk byte buffer troublesome. So now I just have some structures
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* that are used in memory, and we're going to write a nice XDR library to
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* write them to disk and stuff. It is pure joy. -- shaver
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*/
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/* Structures for the typelib components */
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typedef struct XPTHeader XPTHeader;
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typedef struct XPTInterfaceDirectoryEntry XPTInterfaceDirectoryEntry;
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typedef struct XPTInterfaceDescriptor XPTInterfaceDescriptor;
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typedef struct XPTConstDescriptor XPTConstDescriptor;
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typedef struct XPTMethodDescriptor XPTMethodDescriptor;
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typedef struct XPTParamDescriptor XPTParamDescriptor;
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typedef struct XPTTypeDescriptor XPTTypeDescriptor;
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typedef struct XPTTypeDescriptorPrefix XPTTypeDescriptorPrefix;
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typedef struct XPTString XPTString;
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typedef struct XPTAnnotation XPTAnnotation;
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#ifndef nsID_h__
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/*
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* We can't include nsID.h, because it's full of C++ goop and we're not doing
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* C++ here, so we define our own minimal struct. We protect against multiple
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* definitions of this struct, though, and use the same field naming.
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*/
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struct nsID {
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uint32_t m0;
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uint16_t m1;
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uint16_t m2;
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uint8_t m3[8];
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};
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typedef struct nsID nsID;
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#endif
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#define XPT_COPY_IID(to, from) \
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(to).m0 = (from).m0; \
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(to).m1 = (from).m1; \
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(to).m2 = (from).m2; \
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(to).m3[0] = (from).m3[0]; \
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(to).m3[1] = (from).m3[1]; \
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(to).m3[2] = (from).m3[2]; \
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(to).m3[3] = (from).m3[3]; \
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(to).m3[4] = (from).m3[4]; \
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(to).m3[5] = (from).m3[5]; \
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(to).m3[6] = (from).m3[6]; \
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(to).m3[7] = (from).m3[7];
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/*
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* Every XPCOM typelib file begins with a header.
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*/
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struct XPTHeader {
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uint8_t magic[16];
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uint8_t major_version;
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uint8_t minor_version;
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uint16_t num_interfaces;
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uint32_t file_length;
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XPTInterfaceDirectoryEntry *interface_directory;
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uint32_t data_pool;
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XPTAnnotation *annotations;
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};
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#define XPT_MAGIC "XPCOM\nTypeLib\r\n\032"
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/* For error messages. */
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#define XPT_MAGIC_STRING "XPCOM\\nTypeLib\\r\\n\\032"
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#define XPT_MAJOR_VERSION 0x01
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#define XPT_MINOR_VERSION 0x02
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/* Any file with a major version number of XPT_MAJOR_INCOMPATIBLE_VERSION
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* or higher is to be considered incompatible by this version of xpt and
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* we will refuse to read it. We will return a header with magic, major and
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* minor versions set from the file. num_interfaces and file_length will be
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* set to zero to confirm our inability to read the file; i.e. even if some
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* client of this library gets out of sync with us regarding the agreed upon
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* value for XPT_MAJOR_INCOMPATIBLE_VERSION, anytime num_interfaces and
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* file_length are both zero we *know* that this library refused to read the
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* file due to version imcompatibility.
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*/
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#define XPT_MAJOR_INCOMPATIBLE_VERSION 0x02
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/*
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* The "[-t version number]" cmd line parameter to the XPIDL compiler and XPT
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* linker specifies the major and minor version number of the output
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* type library.
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*
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* The goal is for the compiler to check that the input IDL file only uses
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* constructs that are supported in the version specified. The linker will
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* check that all typelib files it reads are of the version specified or
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* below.
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*
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* Both the compiler and the linker will report errors and abort if these
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* checks fail.
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*
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* When you rev up major or minor versions of the type library in the future,
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* think about the new stuff that you added to the type library and add checks
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* to make sure that occurrences of that new "stuff" will get caught when [-t
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* version number] is used with the compiler. Here's what you'll probably
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* have to do each time you rev up major/minor versions:
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*
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* 1) Add the current version number string (before your change) to the
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* XPT_TYPELIB_VERSIONS list.
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*
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* 2) Do your changes add new features to XPIDL? Ensure that those new
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* features are rejected by the XPIDL compiler when any version number in
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* the XPT_TYPELIB_VERSIONS list is specified on the command line. The
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* one place that currently does this kind of error checking is the function
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* verify_type_fits_version() in xpidl_util.c. It currently checks
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* attribute types, parameter types, and return types. You'll probably have
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* to add to it or generalize it further based on what kind of changes you
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* are making.
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*
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* 3) You will probably NOT need to make any changes to the error checking
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* in the linker.
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*/
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#define XPT_VERSION_UNKNOWN 0
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#define XPT_VERSION_UNSUPPORTED 1
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#define XPT_VERSION_OLD 2
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#define XPT_VERSION_CURRENT 3
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typedef struct {
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const char* str;
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uint8_t major;
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uint8_t minor;
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uint16_t code;
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} XPT_TYPELIB_VERSIONS_STRUCT;
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/* Currently accepted list of versions for typelibs */
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#define XPT_TYPELIB_VERSIONS { \
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{"1.0", 1, 0, XPT_VERSION_UNSUPPORTED}, \
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{"1.1", 1, 1, XPT_VERSION_OLD}, \
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{"1.2", 1, 2, XPT_VERSION_CURRENT} \
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}
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extern XPT_PUBLIC_API(uint16_t)
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XPT_ParseVersionString(const char* str, uint8_t* major, uint8_t* minor);
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extern XPT_PUBLIC_API(XPTHeader *)
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XPT_NewHeader(XPTArena *arena, uint16_t num_interfaces,
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uint8_t major_version, uint8_t minor_version);
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extern XPT_PUBLIC_API(void)
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XPT_FreeHeader(XPTArena *arena, XPTHeader* aHeader);
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/* size of header and annotations */
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extern XPT_PUBLIC_API(uint32_t)
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XPT_SizeOfHeader(XPTHeader *header);
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/* size of header and annotations and InterfaceDirectoryEntries */
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extern XPT_PUBLIC_API(uint32_t)
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XPT_SizeOfHeaderBlock(XPTHeader *header);
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/*
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* A contiguous array of fixed-size InterfaceDirectoryEntry records begins at
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* the byte offset identified by the interface_directory field in the file
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* header. The array is used to quickly locate an interface description
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* using its IID. No interface should appear more than once in the array.
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*/
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struct XPTInterfaceDirectoryEntry {
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nsID iid;
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char *name;
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char *name_space;
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XPTInterfaceDescriptor *interface_descriptor;
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#if 0 /* not yet */
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/* not stored on disk */
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uint32_t offset; /* the offset for an ID still to be read */
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#endif
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};
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extern XPT_PUBLIC_API(PRBool)
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XPT_FillInterfaceDirectoryEntry(XPTArena *arena,
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XPTInterfaceDirectoryEntry *ide,
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nsID *iid, const char *name,
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const char *name_space,
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XPTInterfaceDescriptor *descriptor);
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extern XPT_PUBLIC_API(void)
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XPT_DestroyInterfaceDirectoryEntry(XPTArena *arena,
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XPTInterfaceDirectoryEntry* ide);
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/*
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* An InterfaceDescriptor is a variable-size record used to describe a
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* single XPCOM interface, including all of its methods.
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*/
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struct XPTInterfaceDescriptor {
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/* This field ordering minimizes the size of this struct.
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* The fields are serialized on disk in a different order.
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* See DoInterfaceDescriptor().
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*/
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XPTMethodDescriptor *method_descriptors;
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XPTConstDescriptor *const_descriptors;
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XPTTypeDescriptor *additional_types;
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uint16_t parent_interface;
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uint16_t num_methods;
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uint16_t num_constants;
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uint8_t flags;
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/* additional_types are used for arrays where we may need multiple
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* XPTTypeDescriptors for a single XPTMethodDescriptor. Since we still
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* want to have a simple array of XPTMethodDescriptor (each with a single
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* embedded XPTTypeDescriptor), a XPTTypeDescriptor can have a reference
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* to an 'additional_type'. That reference is an index in this
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* "additional_types" array. So a given XPTMethodDescriptor might have
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* a whole chain of these XPTTypeDescriptors to represent, say, a multi
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* dimensional array.
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*
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* Note that in the typelib file these additional types are stored 'inline'
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* in the MethodDescriptor. But, in the typelib MethodDescriptors can be
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* of varying sizes, where in XPT's in memory mapping of the data we want
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* them to be of fixed size. This additional_types scheme is here to allow
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* for that.
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*/
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uint16_t num_additional_types;
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};
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#define XPT_ID_SCRIPTABLE 0x80
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#define XPT_ID_FUNCTION 0x40
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#define XPT_ID_BUILTINCLASS 0x20
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#define XPT_ID_MAIN_PROCESS_SCRIPTABLE_ONLY 0x10
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#define XPT_ID_FLAGMASK 0xf0
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#define XPT_ID_IS_SCRIPTABLE(flags) (!!(flags & XPT_ID_SCRIPTABLE))
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#define XPT_ID_IS_FUNCTION(flags) (!!(flags & XPT_ID_FUNCTION))
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#define XPT_ID_IS_BUILTINCLASS(flags) (!!(flags & XPT_ID_BUILTINCLASS))
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#define XPT_ID_IS_MAIN_PROCESS_SCRIPTABLE_ONLY(flags) (!!(flags & XPT_ID_MAIN_PROCESS_SCRIPTABLE_ONLY))
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extern XPT_PUBLIC_API(PRBool)
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XPT_GetInterfaceIndexByName(XPTInterfaceDirectoryEntry *ide_block,
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uint16_t num_interfaces, const char *name,
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uint16_t *indexp);
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extern XPT_PUBLIC_API(XPTInterfaceDescriptor *)
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XPT_NewInterfaceDescriptor(XPTArena *arena,
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uint16_t parent_interface, uint16_t num_methods,
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uint16_t num_constants, uint8_t flags);
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extern XPT_PUBLIC_API(void)
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XPT_FreeInterfaceDescriptor(XPTArena *arena, XPTInterfaceDescriptor* id);
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extern XPT_PUBLIC_API(PRBool)
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XPT_InterfaceDescriptorAddTypes(XPTArena *arena, XPTInterfaceDescriptor *id,
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uint16_t num);
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extern XPT_PUBLIC_API(PRBool)
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XPT_InterfaceDescriptorAddMethods(XPTArena *arena, XPTInterfaceDescriptor *id,
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uint16_t num);
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extern XPT_PUBLIC_API(PRBool)
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XPT_InterfaceDescriptorAddConsts(XPTArena *arena, XPTInterfaceDescriptor *id,
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uint16_t num);
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/*
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* This is our special string struct with a length value associated with it,
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* which means that it can contains embedded NULs.
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*/
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struct XPTString {
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uint16_t length;
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char *bytes;
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};
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extern XPT_PUBLIC_API(XPTString *)
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XPT_NewString(XPTArena *arena, uint16_t length, const char *bytes);
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extern XPT_PUBLIC_API(XPTString *)
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XPT_NewStringZ(XPTArena *arena, const char *bytes);
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/*
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* A TypeDescriptor is a variable-size record used to identify the type of a
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* method argument or return value.
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*
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* There are three types of TypeDescriptors:
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*
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* SimpleTypeDescriptor
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* InterfaceTypeDescriptor
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* InterfaceIsTypeDescriptor
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*
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* The tag field in the prefix indicates which of the variant TypeDescriptor
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* records is being used, and hence the way any remaining fields should be
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* parsed. Values from 0 to 17 refer to SimpleTypeDescriptors. The value 18
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* designates an InterfaceTypeDescriptor, while 19 represents an
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* InterfaceIsTypeDescriptor.
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*/
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/* why bother with a struct? - other code relies on this being a struct */
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struct XPTTypeDescriptorPrefix {
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uint8_t flags;
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};
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/* flag bits -- fur and jband were right, I was miserably wrong */
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// THESE TWO FLAGS ARE DEPRECATED. DO NOT USE THEM. See bug 692342.
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#define XPT_TDP_POINTER 0x80
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#define XPT_TDP_REFERENCE 0x20
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#define XPT_TDP_FLAGMASK 0xe0
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#define XPT_TDP_TAGMASK (~XPT_TDP_FLAGMASK)
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#define XPT_TDP_TAG(tdp) ((tdp).flags & XPT_TDP_TAGMASK)
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#define XPT_TDP_IS_POINTER(flags) (flags & XPT_TDP_POINTER)
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#define XPT_TDP_IS_REFERENCE(flags) (flags & XPT_TDP_REFERENCE)
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/*
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* The following enum maps mnemonic names to the different numeric values
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* of XPTTypeDescriptor->tag.
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*/
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enum XPTTypeDescriptorTags {
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TD_INT8 = 0,
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TD_INT16 = 1,
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TD_INT32 = 2,
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TD_INT64 = 3,
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TD_UINT8 = 4,
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TD_UINT16 = 5,
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TD_UINT32 = 6,
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TD_UINT64 = 7,
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TD_FLOAT = 8,
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TD_DOUBLE = 9,
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TD_BOOL = 10,
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TD_CHAR = 11,
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TD_WCHAR = 12,
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TD_VOID = 13,
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TD_PNSIID = 14,
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TD_DOMSTRING = 15,
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TD_PSTRING = 16,
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TD_PWSTRING = 17,
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TD_INTERFACE_TYPE = 18,
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TD_INTERFACE_IS_TYPE = 19,
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TD_ARRAY = 20,
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TD_PSTRING_SIZE_IS = 21,
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TD_PWSTRING_SIZE_IS = 22,
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TD_UTF8STRING = 23,
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TD_CSTRING = 24,
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TD_ASTRING = 25,
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TD_JSVAL = 26
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};
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struct XPTTypeDescriptor {
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XPTTypeDescriptorPrefix prefix;
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uint8_t argnum; /* used for iid_is and size_is */
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uint8_t argnum2; /* used for length_is */
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union {
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uint16_t iface; /* used for TD_INTERFACE_TYPE */
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uint16_t additional_type; /* used for TD_ARRAY */
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} type;
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};
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#define XPT_COPY_TYPE(to, from) \
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(to).prefix.flags = (from).prefix.flags; \
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(to).argnum = (from).argnum; \
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(to).argnum2 = (from).argnum2; \
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(to).type.additional_type = (from).type.additional_type;
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/*
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* A ConstDescriptor is a variable-size record that records the name and
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* value of a scoped interface constant.
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*
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* The types of the method parameter are restricted to the following subset
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* of TypeDescriptors:
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*
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* int8_t, uint8_t, int16_t, uint16_t, int32_t, uint32_t,
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* int64_t, uint64_t, wchar_t, char, string
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*
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* The type (and thus the size) of the value record is determined by the
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* contents of the associated TypeDescriptor record. For instance, if type
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* corresponds to int16_t, then value is a two-byte record consisting of a
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* 16-bit signed integer. For a ConstDescriptor type of string, the value
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* record is of type String*, i.e. an offset within the data pool to a
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* String record containing the constant string.
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*/
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union XPTConstValue {
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int8_t i8;
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uint8_t ui8;
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int16_t i16;
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uint16_t ui16;
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int32_t i32;
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uint32_t ui32;
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int64_t i64;
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uint64_t ui64;
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float flt;
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double dbl;
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PRBool bul;
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char ch;
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uint16_t wch;
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nsID *iid;
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XPTString *string;
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char *str;
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uint16_t *wstr;
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}; /* varies according to type */
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struct XPTConstDescriptor {
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char *name;
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XPTTypeDescriptor type;
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union XPTConstValue value;
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};
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/*
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* A ParamDescriptor is a variable-size record used to describe either a
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* single argument to a method or a method's result.
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*/
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struct XPTParamDescriptor {
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uint8_t flags;
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XPTTypeDescriptor type;
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};
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/* flag bits -- jband and fur were right, and I was miserably wrong */
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#define XPT_PD_IN 0x80
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#define XPT_PD_OUT 0x40
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#define XPT_PD_RETVAL 0x20
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#define XPT_PD_SHARED 0x10
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#define XPT_PD_DIPPER 0x08
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#define XPT_PD_OPTIONAL 0x04
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#define XPT_PD_FLAGMASK 0xfc
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#define XPT_PD_IS_IN(flags) (flags & XPT_PD_IN)
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#define XPT_PD_IS_OUT(flags) (flags & XPT_PD_OUT)
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#define XPT_PD_IS_RETVAL(flags) (flags & XPT_PD_RETVAL)
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#define XPT_PD_IS_SHARED(flags) (flags & XPT_PD_SHARED)
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#define XPT_PD_IS_DIPPER(flags) (flags & XPT_PD_DIPPER)
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#define XPT_PD_IS_OPTIONAL(flags) (flags & XPT_PD_OPTIONAL)
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extern XPT_PUBLIC_API(PRBool)
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XPT_FillParamDescriptor(XPTArena *arena,
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XPTParamDescriptor *pd, uint8_t flags,
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XPTTypeDescriptor *type);
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/*
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* A MethodDescriptor is a variable-size record used to describe a single
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* interface method.
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*/
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struct XPTMethodDescriptor {
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char *name;
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XPTParamDescriptor *params;
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XPTParamDescriptor result;
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uint8_t flags;
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uint8_t num_args;
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};
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/* flag bits -- jband and fur were right, and I was miserably wrong */
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#define XPT_MD_GETTER 0x80
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#define XPT_MD_SETTER 0x40
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#define XPT_MD_NOTXPCOM 0x20
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#define XPT_MD_CTOR 0x10
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#define XPT_MD_HIDDEN 0x08
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#define XPT_MD_OPT_ARGC 0x04
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#define XPT_MD_CONTEXT 0x02
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#define XPT_MD_FLAGMASK 0xfe
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#define XPT_MD_IS_GETTER(flags) (flags & XPT_MD_GETTER)
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#define XPT_MD_IS_SETTER(flags) (flags & XPT_MD_SETTER)
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#define XPT_MD_IS_NOTXPCOM(flags) (flags & XPT_MD_NOTXPCOM)
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#define XPT_MD_IS_CTOR(flags) (flags & XPT_MD_CTOR)
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#define XPT_MD_IS_HIDDEN(flags) (flags & XPT_MD_HIDDEN)
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#define XPT_MD_WANTS_OPT_ARGC(flags) (flags & XPT_MD_OPT_ARGC)
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#define XPT_MD_WANTS_CONTEXT(flags) (flags & XPT_MD_CONTEXT)
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extern XPT_PUBLIC_API(PRBool)
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XPT_FillMethodDescriptor(XPTArena *arena,
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XPTMethodDescriptor *meth, uint8_t flags,
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const char *name, uint8_t num_args);
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/*
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* Annotation records are variable-size records used to store secondary
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* information about the typelib, e.g. such as the name of the tool that
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* generated the typelib file, the date it was generated, etc. The
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* information is stored with very loose format requirements so as to
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* allow virtually any private data to be stored in the typelib.
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*
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* There are two types of Annotations:
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*
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* EmptyAnnotation
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* PrivateAnnotation
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|
*
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* The tag field of the prefix discriminates among the variant record
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|
* types for Annotation's. If the tag is 0, this record is an
|
|
* EmptyAnnotation. EmptyAnnotation's are ignored - they're only used to
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* indicate an array of Annotation's that's completely empty. If the tag
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|
* is 1, the record is a PrivateAnnotation.
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|
*/
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struct XPTAnnotation {
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XPTAnnotation *next;
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|
uint8_t flags;
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/* remaining fields are present in typelib iff XPT_ANN_IS_PRIVATE */
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|
XPTString *creator;
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|
XPTString *private_data;
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};
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#define XPT_ANN_LAST 0x80
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#define XPT_ANN_IS_LAST(flags) (flags & XPT_ANN_LAST)
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#define XPT_ANN_PRIVATE 0x40
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#define XPT_ANN_IS_PRIVATE(flags) (flags & XPT_ANN_PRIVATE)
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|
|
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extern XPT_PUBLIC_API(XPTAnnotation *)
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|
XPT_NewAnnotation(XPTArena *arena, uint8_t flags, XPTString *creator,
|
|
XPTString *private_data);
|
|
|
|
}
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|
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#endif /* __xpt_struct_h__ */
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