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|
// Copyright 2018 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#![recursion_limit = "256"]
extern crate proc_macro;
extern crate proc_macro2;
#[macro_use]
extern crate quote;
#[cfg_attr(test, macro_use)]
extern crate syn;
use std::string::String;
use std::vec::Vec;
use proc_macro::TokenStream;
use proc_macro2::{Span, TokenNode};
use quote::Tokens;
use syn::{Attribute, Data, DeriveInput, Fields, Ident};
type Result<T> = std::result::Result<T, String>;
/// The function that derives the actual implementation.
#[proc_macro_derive(BitField, attributes(passthrough))]
pub fn bitfield(input: TokenStream) -> TokenStream {
bitfield_impl(syn::parse(input).unwrap()).into()
}
fn bitfield_impl(ast: DeriveInput) -> Tokens {
if !ast.generics.params.is_empty() {
return quote! {
compile_error!("derive(BitField) does not support generic parameters");
};
}
let name = ast.ident.to_string();
let struct_name = match get_struct_name(name.as_str()) {
Some(name) => name,
None => {
return quote! {
compile_error!("Check schema name, it should end with Schema.");
};
}
};
let ident = Ident::new(struct_name, Span::call_site());
let test_mod_ident = Ident::new(format!("test_{}", struct_name).as_str(), Span::call_site());
// Name of the struct
let name = quote!(#ident);
let vis = ast.vis.clone();
let attrs = match get_attrs(ast.attrs.as_slice()) {
Ok(attrs) => attrs,
Err(err_str) => {
return quote! {
compile_error!(#err_str);
};
}
};
// Visibility.
let vis = quote!(#vis);
let fields = match get_struct_fields(ast) {
Ok(f) => f,
Err(err_str) => {
return quote! {
compile_error!(#err_str);
}
}
};
let struct_def = get_struct_def(&vis, &name, fields.as_slice());
let bits_impl = get_bits_impl(&name);
let fields_impl = get_fields_impl(fields.as_slice());
let tests_impl = get_tests_impl(&name, fields.as_slice());
quote!(
#(#attrs)*
#struct_def
#bits_impl
impl #name {
#(#fields_impl)*
}
#[cfg(test)]
mod #test_mod_ident {
use super::*;
#(#tests_impl)*
}
)
}
// Generate struct name from schema_name. "MyTypeSchema" -> "MyType".
fn get_struct_name(schema_name: &str) -> Option<&str> {
let struct_name = schema_name.trim_right_matches("Schema");
if struct_name.len() + "Schema".len() != schema_name.len() {
return None;
}
if struct_name.len() == 0 {
return None;
}
Some(struct_name)
}
// Unwrap ast to get the named fields. Anything unexpected will be treated as an
// error.
// We only care about field names and types.
// "myfield : BitField3" -> ("myfield", Token(BitField3))
fn get_struct_fields(ast: DeriveInput) -> Result<Vec<(String, Tokens)>> {
let fields = match ast.data {
Data::Struct(data_struct) => match data_struct.fields {
Fields::Named(fields_named) => fields_named.named,
_ => {
return Err(format!("Schema must have named fields."));
}
},
_ => {
return Err(format!("Schema must be a struct."));
}
};
let mut vec = Vec::new();
for field in fields {
let ident = match field.ident {
Some(ident) => ident,
None => {
return Err(format!(
"Unknown Error. bit_field_derive library might have a bug."
))
}
};
let ty = field.ty;
vec.push((ident.to_string(), quote!(#ty)));
}
Ok(vec)
}
// We only support attributes of the form #[passthrough(derive(Clone))].
// Any other attribute will cause undefined behavior.
fn get_attrs(attrs: &[Attribute]) -> Result<Vec<Tokens>> {
let mut attr_tokens = Vec::new();
for a in attrs {
let tts = a.tts.clone();
for t in tts {
match t.kind {
TokenNode::Group(_d, g) => attr_tokens.push(quote!(#[#g])),
_ => return Err(format!("Unsupported attribute.")),
}
}
}
Ok(attr_tokens)
}
fn get_struct_def(vis: &Tokens, name: &Tokens, fields: &[(String, Tokens)]) -> Tokens {
let mut field_types = Vec::new();
for &(ref _name, ref ty) in fields {
field_types.push(ty.clone());
}
// It will be something like:
// "(BitField1::FIELD_WIDTH + BitField3::FIELD_WIDTH + BitField4::FIELD_WIDTH) / 8)"
let data_size_in_bytes = quote!(
( #( #field_types::FIELD_WIDTH as usize )+* ) / 8
);
quote! (
#vis struct #name {
data: [u8; #data_size_in_bytes],
}
impl #name {
pub fn new() -> #name {
#name { data: [0; #data_size_in_bytes], }
}
}
)
}
// Implement setter and getter for all fields.
fn get_fields_impl(fields: &[(String, Tokens)]) -> Vec<Tokens> {
let mut impls = Vec::new();
// This vec keeps track of types before this field, used to generate the offset.
let mut current_types = vec![quote!(BitField0)];
for &(ref name, ref ty) in fields {
// Creating two copies of current types. As they are going to be moved in quote!.
let ct0 = current_types.clone();
let ct1 = current_types.clone();
let getter_ident = Ident::new(format!("get_{}", name).as_str(), Span::call_site());
let setter_ident = Ident::new(format!("set_{}", name).as_str(), Span::call_site());
impls.push(quote!(
pub fn #getter_ident(&self) -> <#ty as BitFieldSpecifier>::DefaultFieldType {
let offset = #(#ct0::FIELD_WIDTH as usize)+*;
return self.get(offset, #ty::FIELD_WIDTH) as
<#ty as BitFieldSpecifier>::DefaultFieldType;
}
pub fn #setter_ident(&mut self, val: <#ty as BitFieldSpecifier>::DefaultFieldType) {
debug_assert!((val as u64) <= #ty::FIELD_MAX);
let offset = #(#ct1::FIELD_WIDTH as usize)+*;
return self.set(offset, #ty::FIELD_WIDTH, val as u64);
}
));
current_types.push(ty.clone());
}
impls
}
fn get_tests_impl(struct_name: &Tokens, fields: &[(String, Tokens)]) -> Vec<Tokens> {
let mut field_types = Vec::new();
for &(ref _name, ref ty) in fields {
field_types.push(ty.clone());
}
let field_types2 = field_types.clone();
let mut impls = Vec::new();
impls.push(quote!(
#[test]
fn test_total_size() {
let total_size = #(#field_types::FIELD_WIDTH as usize)+*;
assert_eq!(total_size % 8, 0);
}));
impls.push(quote!(#[test]
fn test_bits_boundary() {
let fields_sizes = vec![#(#field_types2::FIELD_WIDTH as usize),*];
let mut sum = 0usize;
for s in fields_sizes {
if sum % 64 == 0 {
assert!(s <= 64);
} else {
if (sum + s) % 64 != 0 {
assert_eq!(sum / 64, (sum + s) / 64);
}
}
sum += s;
}
}));
for &(ref name, ref ty) in fields {
let testname = Ident::new(
format!("test_{}", name.as_str()).as_str(),
Span::call_site(),
);
let getter_ident = Ident::new(format!("get_{}", name.as_str()).as_str(), Span::call_site());
let setter_ident = Ident::new(format!("set_{}", name.as_str()).as_str(), Span::call_site());
impls.push(quote!(
#[test]
fn #testname() {
let mut a = #struct_name::new();
assert_eq!(a.#getter_ident() as u64, 0);
a.#setter_ident(#ty::FIELD_MAX as <#ty as BitFieldSpecifier>::DefaultFieldType);
assert_eq!(a.#getter_ident() as u64, #ty::FIELD_MAX);
}
));
}
impls
}
fn get_bits_impl(name: &Tokens) -> Tokens {
quote!(
impl #name {
#[inline]
fn check_access(&self, offset: usize, width: u8) {
debug_assert!(width <= 64);
debug_assert!(offset / 8 < self.data.len());
debug_assert!((offset + (width as usize)) <= (self.data.len() * 8));
}
#[inline]
pub fn get_bit(&self, offset: usize) -> bool {
self.check_access(offset, 1);
let byte_index = offset / 8;
let bit_offset = offset % 8;
let byte = self.data[byte_index];
let mask = 1 << bit_offset;
byte & mask == mask
}
#[inline]
pub fn set_bit(&mut self, offset: usize, val: bool) {
self.check_access(offset, 1);
let byte_index = offset / 8;
let bit_offset = offset % 8;
let byte = &mut self.data[byte_index];
let mask = 1 << bit_offset;
if val {
*byte |= mask;
} else {
*byte &= !mask;
}
}
#[inline]
pub fn get(&self, offset: usize, width: u8) -> u64 {
self.check_access(offset, width);
let mut val = 0;
for i in 0..(width as usize) {
if self.get_bit(i + offset) {
val |= 1 << i;
}
}
val
}
#[inline]
pub fn set(&mut self, offset: usize, width: u8, val: u64) {
self.check_access(offset, width);
for i in 0..(width as usize) {
let mask = 1 << i;
let val_bit_is_set = val & mask == mask;
self.set_bit(i + offset, val_bit_is_set);
}
}
}
)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn struct_name_parsing_valid() {
assert_eq!(get_struct_name("MyBitFieldSchema"), Some("MyBitField"));
}
#[test]
fn struct_name_parsing_invalid() {
assert_eq!(get_struct_name("MyBitFieldS"), None);
}
#[test]
fn end_to_end() {
let input: DeriveInput = parse_quote! {
#[passthrough(derive(Clone))]
struct MyBitFieldSchema {
a: BitField1,
b: BitField2,
c: BitField5,
}
};
let expected = quote! {
#[derive(Clone)]
struct MyBitField {
data: [u8; (BitField1::FIELD_WIDTH as usize
+ BitField2::FIELD_WIDTH as usize
+ BitField5::FIELD_WIDTH as usize) / 8],
}
impl MyBitField {
pub fn new() -> MyBitField {
MyBitField {
data: [0; (BitField1::FIELD_WIDTH as usize
+ BitField2::FIELD_WIDTH as usize
+ BitField5::FIELD_WIDTH as usize) / 8],
}
}
}
impl MyBitField {
#[inline]
fn check_access(&self, offset: usize, width: u8) {
debug_assert!(width <= 64);
debug_assert!(offset / 8 < self.data.len());
debug_assert!((offset + (width as usize)) <= (self.data.len() * 8));
}
#[inline]
pub fn get_bit(&self, offset: usize) -> bool {
self.check_access(offset, 1);
let byte_index = offset / 8;
let bit_offset = offset % 8;
let byte = self.data[byte_index];
let mask = 1 << bit_offset;
byte & mask == mask
}
#[inline]
pub fn set_bit(&mut self, offset: usize, val: bool) {
self.check_access(offset, 1);
let byte_index = offset / 8;
let bit_offset = offset % 8;
let byte = &mut self.data[byte_index];
let mask = 1 << bit_offset;
if val {
*byte |= mask;
} else {
*byte &= !mask;
}
}
#[inline]
pub fn get(&self, offset: usize, width: u8) -> u64 {
self.check_access(offset, width);
let mut val = 0;
for i in 0..(width as usize) {
if self.get_bit(i + offset) {
val |= 1 << i;
}
}
val
}
#[inline]
pub fn set(&mut self, offset: usize, width: u8, val: u64) {
self.check_access(offset, width);
for i in 0..(width as usize) {
let mask = 1 << i;
let val_bit_is_set = val & mask == mask;
self.set_bit(i + offset, val_bit_is_set);
}
}
}
impl MyBitField {
pub fn get_a(&self) -> <BitField1 as BitFieldSpecifier>::DefaultFieldType {
let offset = BitField0::FIELD_WIDTH as usize;
return self.get(offset, BitField1::FIELD_WIDTH)
as <BitField1 as BitFieldSpecifier>::DefaultFieldType;
}
pub fn set_a(&mut self, val: <BitField1 as BitFieldSpecifier>::DefaultFieldType) {
debug_assert!((val as u64) <= BitField1::FIELD_MAX);
let offset = BitField0::FIELD_WIDTH as usize;
return self.set(offset, BitField1::FIELD_WIDTH, val as u64);
}
pub fn get_b(&self) -> <BitField2 as BitFieldSpecifier>::DefaultFieldType {
let offset = BitField0::FIELD_WIDTH as usize + BitField1::FIELD_WIDTH as usize;
return self.get(offset, BitField2::FIELD_WIDTH)
as <BitField2 as BitFieldSpecifier>::DefaultFieldType;
}
pub fn set_b(&mut self, val: <BitField2 as BitFieldSpecifier>::DefaultFieldType) {
debug_assert!((val as u64) <= BitField2::FIELD_MAX);
let offset = BitField0::FIELD_WIDTH as usize + BitField1::FIELD_WIDTH as usize;
return self.set(offset, BitField2::FIELD_WIDTH, val as u64);
}
pub fn get_c(&self) -> <BitField5 as BitFieldSpecifier>::DefaultFieldType {
let offset = BitField0::FIELD_WIDTH as usize
+ BitField1::FIELD_WIDTH as usize
+ BitField2::FIELD_WIDTH as usize;
return self.get(offset, BitField5::FIELD_WIDTH)
as <BitField5 as BitFieldSpecifier>::DefaultFieldType;
}
pub fn set_c(&mut self, val: <BitField5 as BitFieldSpecifier>::DefaultFieldType) {
debug_assert!((val as u64) <= BitField5::FIELD_MAX);
let offset = BitField0::FIELD_WIDTH as usize
+ BitField1::FIELD_WIDTH as usize
+ BitField2::FIELD_WIDTH as usize;
return self.set(offset, BitField5::FIELD_WIDTH, val as u64);
}
}
#[cfg(test)]
mod test_MyBitField {
use super::*;
#[test]
fn test_total_size() {
let total_size = BitField1::FIELD_WIDTH as usize
+ BitField2::FIELD_WIDTH as usize
+ BitField5::FIELD_WIDTH as usize;
assert_eq!(total_size % 8, 0);
}
#[test]
fn test_bits_boundary() {
let fields_sizes = vec![
BitField1::FIELD_WIDTH as usize,
BitField2::FIELD_WIDTH as usize,
BitField5::FIELD_WIDTH as usize
];
let mut sum = 0usize;
for s in fields_sizes {
if sum % 64 == 0 {
assert!(s <= 64);
} else {
if (sum + s) % 64 != 0 {
assert_eq!(sum / 64, (sum + s) / 64);
}
}
sum += s;
}
}
#[test]
fn test_a() {
let mut a = MyBitField::new();
assert_eq!(a.get_a() as u64, 0);
a.set_a(BitField1::FIELD_MAX as
<BitField1 as BitFieldSpecifier>::DefaultFieldType);
assert_eq!(a.get_a() as u64, BitField1::FIELD_MAX);
}
#[test]
fn test_b() {
let mut a = MyBitField::new();
assert_eq!(a.get_b() as u64, 0);
a.set_b(BitField2::FIELD_MAX as
<BitField2 as BitFieldSpecifier>::DefaultFieldType);
assert_eq!(a.get_b() as u64, BitField2::FIELD_MAX);
}
#[test]
fn test_c() {
let mut a = MyBitField::new();
assert_eq!(a.get_c() as u64, 0);
a.set_c(BitField5::FIELD_MAX as
<BitField5 as BitFieldSpecifier>::DefaultFieldType);
assert_eq!(a.get_c() as u64, BitField5::FIELD_MAX);
}
}
};
assert_eq!(bitfield_impl(input), expected);
}
}
|