gecko-dev/xpcom/idl-parser/xpidl/rust.py
Nika Layzell f2d9e32b48 Bug 1530028 - Remove now-unnecessary NsresultExt trait, r=froydnj
Differential Revision: https://phabricator.services.mozilla.com/D20880

--HG--
extra : moz-landing-system : lando
2019-02-25 15:50:14 +00:00

573 lines
18 KiB
Python

# rust.py - Generate rust bindings from IDL.
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
"""Print a runtime Rust bindings file for the IDL file specified"""
# --- Safety Hazards ---
# We currently don't generate some bindings for some IDL methods in rust code,
# due to there being ABI safety hazards if we were to do so. This is the
# documentation for the reasons why we don't generate certain types of bindings,
# so that we don't accidentally start generating them in the future.
# notxpcom methods and attributes return their results directly by value. The x86
# windows stdcall ABI returns aggregates by value differently for methods than
# functions, and rust only exposes the function ABI, so that's the one we're
# using. The correct ABI can be emulated for notxpcom methods returning aggregates
# by passing an &mut ReturnType parameter as the second parameter. This strategy
# is used by the winapi-rs crate.
# https://github.com/retep998/winapi-rs/blob/7338a5216a6a7abeefcc6bb1bc34381c81d3e247/src/macros.rs#L220-L231
#
# Right now we can generate code for notxpcom methods and attributes, as we don't
# support passing aggregates by value over these APIs ever (the types which are
# allowed in xpidl.py shouldn't include any aggregates), so the code is
# correct. In the future if we want to start supporting returning aggregates by
# value, we will need to use a workaround such as the one used by winapi.rs.
# nostdcall methods on x86 windows will use the thiscall ABI, which is not
# stable in rust right now, so we cannot generate bindings to them.
# In general, passing C++ objects by value over the C ABI is not a good idea,
# and when possible we should avoid doing so. We don't generate bindings for
# these methods here currently.
import os.path
import re
import xpidl
class AutoIndent(object):
"""A small autoindenting wrapper around a fd.
Used to make the code output more readable."""
def __init__(self, fd):
self.fd = fd
self.indent = 0
def write(self, string):
"""A smart write function which automatically adjusts the
indentation of each line as it is written by counting braces"""
for s in string.split('\n'):
s = s.strip()
indent = self.indent
if len(s) == 0:
indent = 0
elif s[0] == '}':
indent -= 1
self.fd.write(" " * indent + s + "\n")
for c in s:
if c == '(' or c == '{' or c == '[':
self.indent += 1
elif c == ')' or c == '}' or c == ']':
self.indent -= 1
def rustSanitize(s):
keywords = [
"abstract", "alignof", "as", "become", "box",
"break", "const", "continue", "crate", "do",
"else", "enum", "extern", "false", "final",
"fn", "for", "if", "impl", "in",
"let", "loop", "macro", "match", "mod",
"move", "mut", "offsetof", "override", "priv",
"proc", "pub", "pure", "ref", "return",
"Self", "self", "sizeof", "static", "struct",
"super", "trait", "true", "type", "typeof",
"unsafe", "unsized", "use", "virtual", "where",
"while", "yield"
]
if s in keywords:
return s + "_"
return s
# printdoccomments = False
printdoccomments = True
if printdoccomments:
def printComments(fd, clist, indent):
fd.write("%s%s" % (indent, doccomments(clist)))
def doccomments(clist):
if len(clist) == 0:
return ""
s = "/// ```text"
for c in clist:
for cc in c.splitlines():
s += "\n/// " + cc
s += "\n/// ```\n///\n"
return s
else:
def printComments(fd, clist, indent):
pass
def doccomments(clist):
return ""
def firstCap(str):
return str[0].upper() + str[1:]
# Attribute VTable Methods
def attributeNativeName(a, getter):
binaryname = rustSanitize(a.binaryname if a.binaryname else firstCap(a.name))
return "%s%s" % ('Get' if getter else 'Set', binaryname)
def attributeReturnType(a, getter):
if a.notxpcom:
if getter:
return a.realtype.rustType('in').strip()
return "::libc::c_void"
return "::nserror::nsresult"
def attributeParamName(a):
return "a" + firstCap(a.name)
def attributeRawParamList(iface, a, getter):
if getter and a.notxpcom:
l = []
else:
l = [(attributeParamName(a),
a.realtype.rustType('out' if getter else 'in'))]
if a.implicit_jscontext:
raise xpidl.RustNoncompat("jscontext is unsupported")
if a.nostdcall:
raise xpidl.RustNoncompat("nostdcall is unsupported")
return l
def attributeParamList(iface, a, getter):
l = ["this: *const " + iface.name]
l += ["%s: %s" % x for x in attributeRawParamList(iface, a, getter)]
return ", ".join(l)
def attrAsVTableEntry(iface, m, getter):
try:
return "pub %s: unsafe extern \"system\" fn (%s) -> %s" % \
(attributeNativeName(m, getter),
attributeParamList(iface, m, getter),
attributeReturnType(m, getter))
except xpidl.RustNoncompat as reason:
return """\
/// Unable to generate binding because `%s`
pub %s: *const ::libc::c_void""" % (reason, attributeNativeName(m, getter))
# Method VTable generation functions
def methodNativeName(m):
binaryname = m.binaryname is not None and m.binaryname or firstCap(m.name)
return rustSanitize(binaryname)
def methodReturnType(m):
if m.notxpcom:
return m.realtype.rustType('in').strip()
return "::nserror::nsresult"
def methodRawParamList(iface, m):
l = [(rustSanitize(p.name), p.rustType()) for p in m.params]
if m.implicit_jscontext:
raise xpidl.RustNoncompat("jscontext is unsupported")
if m.optional_argc:
raise xpidl.RustNoncompat("optional_argc is unsupported")
if m.nostdcall:
raise xpidl.RustNoncompat("nostdcall is unsupported")
if not m.notxpcom and m.realtype.name != 'void':
l.append(("_retval", m.realtype.rustType('out')))
return l
def methodParamList(iface, m):
l = ["this: *const %s" % iface.name]
l += ["%s: %s" % x for x in methodRawParamList(iface, m)]
return ", ".join(l)
def methodAsVTableEntry(iface, m):
try:
return "pub %s: unsafe extern \"system\" fn (%s) -> %s" % \
(methodNativeName(m),
methodParamList(iface, m),
methodReturnType(m))
except xpidl.RustNoncompat as reason:
return """\
/// Unable to generate binding because `%s`
pub %s: *const ::libc::c_void""" % (reason, methodNativeName(m))
method_impl_tmpl = """\
#[inline]
pub unsafe fn %(name)s(&self, %(params)s) -> %(ret_ty)s {
((*self.vtable).%(name)s)(self, %(args)s)
}
"""
def methodAsWrapper(iface, m):
try:
param_list = methodRawParamList(iface, m)
params = ["%s: %s" % x for x in param_list]
args = [x[0] for x in param_list]
return method_impl_tmpl % {
'name': methodNativeName(m),
'params': ', '.join(params),
'ret_ty': methodReturnType(m),
'args': ', '.join(args),
}
except xpidl.RustNoncompat:
# Dummy field for the doc comments to attach to.
# Private so that it's not shown in rustdoc.
return "const _%s: () = ();" % methodNativeName(m)
infallible_impl_tmpl = """\
#[inline]
pub unsafe fn %(name)s(&self) -> %(realtype)s {
let mut result = <%(realtype)s as ::std::default::Default>::default();
let _rv = ((*self.vtable).%(name)s)(self, &mut result);
debug_assert!(_rv.succeeded());
result
}
"""
def attrAsWrapper(iface, m, getter):
try:
if m.implicit_jscontext:
raise xpidl.RustNoncompat("jscontext is unsupported")
if m.nostdcall:
raise xpidl.RustNoncompat("nostdcall is unsupported")
name = attributeParamName(m)
if getter and m.infallible and m.realtype.kind == 'builtin':
# NOTE: We don't support non-builtin infallible getters in Rust code.
return infallible_impl_tmpl % {
'name': attributeNativeName(m, getter),
'realtype': m.realtype.rustType('in'),
}
param_list = attributeRawParamList(iface, m, getter)
params = ["%s: %s" % x for x in param_list]
return method_impl_tmpl % {
'name': attributeNativeName(m, getter),
'params': ', '.join(params),
'ret_ty': attributeReturnType(m, getter),
'args': '' if getter and m.notxpcom else name,
}
except xpidl.RustNoncompat:
# Dummy field for the doc comments to attach to.
# Private so that it's not shown in rustdoc.
return "const _%s: () = ();" % attributeNativeName(m, getter)
header = """\
//
// DO NOT EDIT. THIS FILE IS GENERATED FROM %(filename)s
//
"""
def idl_basename(f):
"""returns the base name of a file with the last extension stripped"""
return os.path.splitext(os.path.basename(f))[0]
def print_rust_bindings(idl, fd, filename):
fd = AutoIndent(fd)
fd.write(header % {'filename': filename})
# All of the idl files will be included into the same rust module, as we
# can't do forward declarations. Because of this, we want to ignore all
# import statements
for p in idl.productions:
if p.kind == 'include' or p.kind == 'cdata' or p.kind == 'forward':
continue
if p.kind == 'interface':
write_interface(p, fd)
continue
if p.kind == 'typedef':
try:
# We have to skip the typedef of bool to bool (it doesn't make any sense anyways)
if p.name == "bool":
continue
if printdoccomments:
fd.write("/// `typedef %s %s;`\n///\n" %
(p.realtype.nativeType('in'), p.name))
fd.write(doccomments(p.doccomments))
fd.write("pub type %s = %s;\n\n" % (p.name, p.realtype.rustType('in')))
except xpidl.RustNoncompat as reason:
fd.write("/* unable to generate %s typedef because `%s` */\n\n" %
(p.name, reason))
base_vtable_tmpl = """
/// We need to include the members from the base interface's vtable at the start
/// of the VTable definition.
pub __base: %sVTable,
"""
vtable_tmpl = """\
// This struct represents the interface's VTable. A pointer to a statically
// allocated version of this struct is at the beginning of every %(name)s
// object. It contains one pointer field for each method in the interface. In
// the case where we can't generate a binding for a method, we include a void
// pointer.
#[doc(hidden)]
#[repr(C)]
pub struct %(name)sVTable {%(base)s%(entries)s}
"""
# NOTE: This template is not generated for nsISupports, as it has no base interfaces.
deref_tmpl = """\
// Every interface struct type implements `Deref` to its base interface. This
// causes methods on the base interfaces to be directly avaliable on the
// object. For example, you can call `.AddRef` or `.QueryInterface` directly
// on any interface which inherits from `nsISupports`.
impl ::std::ops::Deref for %(name)s {
type Target = %(base)s;
#[inline]
fn deref(&self) -> &%(base)s {
unsafe {
::std::mem::transmute(self)
}
}
}
// Ensure we can use .coerce() to cast to our base types as well. Any type which
// our base interface can coerce from should be coercable from us as well.
impl<T: %(base)sCoerce> %(name)sCoerce for T {
#[inline]
fn coerce_from(v: &%(name)s) -> &Self {
T::coerce_from(v)
}
}
"""
struct_tmpl = """\
// The actual type definition for the interface. This struct has methods
// declared on it which will call through its vtable. You never want to pass
// this type around by value, always pass it behind a reference.
#[repr(C)]
pub struct %(name)s {
vtable: *const %(name)sVTable,
/// This field is a phantomdata to ensure that the VTable type and any
/// struct containing it is not safe to send across threads, as XPCOM is
/// generally not threadsafe.
///
/// XPCOM interfaces in general are not safe to send across threads.
__nosync: ::std::marker::PhantomData<::std::rc::Rc<u8>>,
}
// Implementing XpCom for an interface exposes its IID, which allows for easy
// use of the `.query_interface<T>` helper method. This also defines that
// method for %(name)s.
unsafe impl XpCom for %(name)s {
const IID: nsIID = nsID(0x%(m0)s, 0x%(m1)s, 0x%(m2)s,
[%(m3joined)s]);
}
// We need to implement the RefCounted trait so we can be used with `RefPtr`.
// This trait teaches `RefPtr` how to manage our memory.
unsafe impl RefCounted for %(name)s {
#[inline]
unsafe fn addref(&self) {
self.AddRef();
}
#[inline]
unsafe fn release(&self) {
self.Release();
}
}
// This trait is implemented on all types which can be coerced to from %(name)s.
// It is used in the implementation of `fn coerce<T>`. We hide it from the
// documentation, because it clutters it up a lot.
#[doc(hidden)]
pub trait %(name)sCoerce {
/// Cheaply cast a value of this type from a `%(name)s`.
fn coerce_from(v: &%(name)s) -> &Self;
}
// The trivial implementation: We can obviously coerce ourselves to ourselves.
impl %(name)sCoerce for %(name)s {
#[inline]
fn coerce_from(v: &%(name)s) -> &Self {
v
}
}
impl %(name)s {
/// Cast this `%(name)s` to one of its base interfaces.
#[inline]
pub fn coerce<T: %(name)sCoerce>(&self) -> &T {
T::coerce_from(self)
}
}
"""
wrapper_tmpl = """\
// The implementations of the function wrappers which are exposed to rust code.
// Call these methods rather than manually calling through the VTable struct.
impl %(name)s {
%(consts)s
%(methods)s
}
"""
vtable_entry_tmpl = """\
/* %(idl)s */
%(entry)s,
"""
const_wrapper_tmpl = """\
%(docs)s
pub const %(name)s: i64 = %(val)s;
"""
method_wrapper_tmpl = """\
%(docs)s
/// `%(idl)s`
%(wrapper)s
"""
uuid_decoder = re.compile(r"""(?P<m0>[a-f0-9]{8})-
(?P<m1>[a-f0-9]{4})-
(?P<m2>[a-f0-9]{4})-
(?P<m3>[a-f0-9]{4})-
(?P<m4>[a-f0-9]{12})$""", re.X)
def write_interface(iface, fd):
if iface.namemap is None:
raise Exception("Interface was not resolved.")
# if we see a base class-less type other than nsISupports, we just need
# to discard anything else about it other than its constants.
if iface.base is None and iface.name != "nsISupports":
assert len([m for m in iface.members
if type(m) == xpidl.Attribute or type(m) == xpidl.Method]) == 0
return
# Extract the UUID's information so that it can be written into the struct definition
names = uuid_decoder.match(iface.attributes.uuid).groupdict()
m3str = names['m3'] + names['m4']
names['m3joined'] = ", ".join(["0x%s" % m3str[i:i+2] for i in xrange(0, 16, 2)])
names['name'] = iface.name
if printdoccomments:
if iface.base is not None:
fd.write("/// `interface %s : %s`\n///\n" %
(iface.name, iface.base))
else:
fd.write("/// `interface %s`\n///\n" %
iface.name)
printComments(fd, iface.doccomments, '')
fd.write(struct_tmpl % names)
if iface.base is not None:
fd.write(deref_tmpl % {
'name': iface.name,
'base': iface.base,
})
entries = []
for member in iface.members:
if type(member) == xpidl.Attribute:
entries.append(vtable_entry_tmpl % {
'idl': member.toIDL(),
'entry': attrAsVTableEntry(iface, member, True),
})
if not member.readonly:
entries.append(vtable_entry_tmpl % {
'idl': member.toIDL(),
'entry': attrAsVTableEntry(iface, member, False),
})
elif type(member) == xpidl.Method:
entries.append(vtable_entry_tmpl % {
'idl': member.toIDL(),
'entry': methodAsVTableEntry(iface, member),
})
fd.write(vtable_tmpl % {
'name': iface.name,
'base': base_vtable_tmpl % iface.base if iface.base is not None else "",
'entries': '\n'.join(entries),
})
# Get all of the constants
consts = []
for member in iface.members:
if type(member) == xpidl.ConstMember:
consts.append(const_wrapper_tmpl % {
'docs': doccomments(member.doccomments),
'name': member.name,
'val': member.getValue(),
})
methods = []
for member in iface.members:
if type(member) == xpidl.Attribute:
methods.append(method_wrapper_tmpl % {
'docs': doccomments(member.doccomments),
'idl': member.toIDL(),
'wrapper': attrAsWrapper(iface, member, True),
})
if not member.readonly:
methods.append(method_wrapper_tmpl % {
'docs': doccomments(member.doccomments),
'idl': member.toIDL(),
'wrapper': attrAsWrapper(iface, member, False),
})
elif type(member) == xpidl.Method:
methods.append(method_wrapper_tmpl % {
'docs': doccomments(member.doccomments),
'idl': member.toIDL(),
'wrapper': methodAsWrapper(iface, member),
})
fd.write(wrapper_tmpl % {
'name': iface.name,
'consts': '\n'.join(consts),
'methods': '\n'.join(methods),
})