use chiptool::generate::CommonModule;
use chiptool::{generate, ir, transform};
use proc_macro2::TokenStream;
use regex::Regex;
use std::collections::{BTreeMap, HashMap, HashSet};
use std::fmt::{Debug, Write as _};
use std::fs;
use std::fs::File;
use std::io::Write;
use std::path::Path;
use std::path::PathBuf;
use std::str::FromStr;
mod data;
use data::*;
#[derive(Debug, Eq, PartialEq, Clone)]
struct Metadata<'a> {
name: &'a str,
family: &'a str,
line: &'a str,
memory: &'a [MemoryRegion],
peripherals: &'a [Peripheral],
interrupts: &'a [Interrupt],
dma_channels: &'a [DmaChannel],
}
pub struct Options {
pub chips: Vec<String>,
pub out_dir: PathBuf,
pub data_dir: PathBuf,
}
pub struct Gen {
opts: Options,
all_peripheral_versions: HashSet<(String, String)>,
metadata_dedup: HashMap<String, String>,
}
impl Gen {
pub fn new(opts: Options) -> Self {
Self {
opts,
all_peripheral_versions: HashSet::new(),
metadata_dedup: HashMap::new(),
}
}
fn gen_chip(&mut self, chip_core_name: &str, chip: &Chip, core: &Core, core_index: usize) {
let mut ir = ir::IR::new();
let mut dev = ir::Device {
interrupts: Vec::new(),
peripherals: Vec::new(),
};
let mut peripheral_versions: BTreeMap<String, String> = BTreeMap::new();
let gpio_base = core
.peripherals
.iter()
.find(|p| p.name == "GPIOA")
.unwrap()
.address as u32;
let gpio_stride = 0x400;
for p in &core.peripherals {
let mut ir_peri = ir::Peripheral {
name: p.name.clone(),
array: None,
base_address: p.address,
block: None,
description: None,
interrupts: HashMap::new(),
};
if let Some(bi) = &p.registers {
if let Some(old_version) =
peripheral_versions.insert(bi.kind.clone(), bi.version.clone())
{
if old_version != bi.version {
panic!(
"Peripheral {} has multiple versions: {} and {}",
bi.kind, old_version, bi.version
);
}
}
ir_peri.block = Some(format!("{}::{}", bi.kind, bi.block));
if bi.kind == "gpio" {
assert_eq!(0, (p.address as u32 - gpio_base) % gpio_stride);
}
}
dev.peripherals.push(ir_peri);
}
for irq in &core.interrupts {
dev.interrupts.push(ir::Interrupt {
name: irq.name.clone(),
description: None,
value: irq.number,
});
}
ir.devices.insert("".to_string(), dev);
let mut extra = format!(
"pub fn GPIO(n: usize) -> gpio::Gpio {{
gpio::Gpio(({} + {}*n) as _)
}}",
gpio_base, gpio_stride,
);
for (module, version) in &peripheral_versions {
self.all_peripheral_versions
.insert((module.clone(), version.clone()));
write!(
&mut extra,
"#[path=\"../../peripherals/{}_{}.rs\"] pub mod {};\n",
module, version, module
)
.unwrap();
}
write!(
&mut extra,
"pub const CORE_INDEX: usize = {};\n",
core_index
)
.unwrap();
// Cleanups!
transform::sort::Sort {}.run(&mut ir).unwrap();
transform::Sanitize {}.run(&mut ir).unwrap();
// ==============================
// Setup chip dir
let chip_dir = self
.opts
.out_dir
.join("src/chips")
.join(chip_core_name.to_ascii_lowercase());
fs::create_dir_all(&chip_dir).unwrap();
// ==============================
// generate pac.rs
let data = generate::render(&ir, &gen_opts()).unwrap().to_string();
let data = data.replace("] ", "]\n");
// Remove inner attributes like #![no_std]
let data = Regex::new("# *! *\\[.*\\]").unwrap().replace_all(&data, "");
let mut file = File::create(chip_dir.join("pac.rs")).unwrap();
file.write_all(data.as_bytes()).unwrap();
file.write_all(extra.as_bytes()).unwrap();
let mut device_x = String::new();
for irq in &core.interrupts {
write!(&mut device_x, "PROVIDE({} = DefaultHandler);\n", irq.name).unwrap();
}
// ==============================
// generate metadata.rs
// (peripherals, interrupts, dma_channels) are often equal across multiple chips.
// To reduce bloat, deduplicate them.
let mut data = String::new();
write!(
&mut data,
"
const PERIPHERALS: &'static [Peripheral] = {};
const INTERRUPTS: &'static [Interrupt] = {};
const DMA_CHANNELS: &'static [DmaChannel] = {};
",
stringify(&core.peripherals),
stringify(&core.interrupts),
stringify(&core.dma_channels),
)
.unwrap();
let out_dir = self.opts.out_dir.clone();
let n = self.metadata_dedup.len();
let deduped_file = self.metadata_dedup.entry(data.clone()).or_insert_with(|| {
let file = format!("metadata_{:04}.rs", n);
let path = out_dir.join("src/chips").join(&file);
fs::write(path, data).unwrap();
file
});
let data = format!(
"include!(\"../{}\");
pub const METADATA: Metadata = Metadata {{
name: {:?},
family: {:?},
line: {:?},
memory: {},
peripherals: PERIPHERALS,
interrupts: INTERRUPTS,
dma_channels: DMA_CHANNELS,
}};",
deduped_file,
&chip.name,
&chip.family,
&chip.line,
stringify(&chip.memory),
);
let mut file = File::create(chip_dir.join("metadata.rs")).unwrap();
file.write_all(data.as_bytes()).unwrap();
// ==============================
// generate device.x
File::create(chip_dir.join("device.x"))
.unwrap()
.write_all(device_x.as_bytes())
.unwrap();
// ==============================
// generate default memory.x
gen_memory_x(&chip_dir, &chip);
}
fn load_chip(&mut self, name: &str) -> Chip {
let chip_path = self
.opts
.data_dir
.join("chips")
.join(&format!("{}.json", name));
let chip = fs::read(chip_path).expect(&format!("Could not load chip {}", name));
serde_yaml::from_slice(&chip).unwrap()
}
pub fn gen(&mut self) {
fs::create_dir_all(self.opts.out_dir.join("src/peripherals")).unwrap();
fs::create_dir_all(self.opts.out_dir.join("src/chips")).unwrap();
let mut chip_core_names: Vec<String> = Vec::new();
for chip_name in &self.opts.chips.clone() {
println!("Generating {}...", chip_name);
let mut chip = self.load_chip(chip_name);
// Cleanup
for core in &mut chip.cores {
for irq in &mut core.interrupts {
irq.name = irq.name.to_ascii_uppercase();
}
for p in &mut core.peripherals {
for irq in &mut p.interrupts {
irq.interrupt = irq.interrupt.to_ascii_uppercase();
}
}
}
// Generate
for (core_index, core) in chip.cores.iter().enumerate() {
let chip_core_name = match chip.cores.len() {
1 => chip_name.clone(),
_ => format!("{}-{}", chip_name, core.name),
};
chip_core_names.push(chip_core_name.clone());
self.gen_chip(&chip_core_name, &chip, core, core_index)
}
}
for (module, version) in &self.all_peripheral_versions {
println!("loading {} {}", module, version);
let regs_path = Path::new(&self.opts.data_dir)
.join("registers")
.join(&format!("{}_{}.yaml", module, version));
let mut ir: ir::IR = serde_yaml::from_reader(File::open(regs_path).unwrap()).unwrap();
transform::expand_extends::ExpandExtends {}
.run(&mut ir)
.unwrap();
transform::map_names(&mut ir, |k, s| match k {
transform::NameKind::Block => *s = format!("{}", s),
transform::NameKind::Fieldset => *s = format!("regs::{}", s),
transform::NameKind::Enum => *s = format!("vals::{}", s),
_ => {}
});
transform::sort::Sort {}.run(&mut ir).unwrap();
transform::Sanitize {}.run(&mut ir).unwrap();
let items = generate::render(&ir, &gen_opts()).unwrap();
let mut file = File::create(
self.opts
.out_dir
.join("src/peripherals")
.join(format!("{}_{}.rs", module, version)),
)
.unwrap();
let data = items.to_string().replace("] ", "]\n");
// Remove inner attributes like #![no_std]
let re = Regex::new("# *! *\\[.*\\]").unwrap();
let data = re.replace_all(&data, "");
file.write_all(data.as_bytes()).unwrap();
}
// Generate Cargo.toml
const BUILDDEP_BEGIN: &[u8] = b"# BEGIN BUILD DEPENDENCIES";
const BUILDDEP_END: &[u8] = b"# END BUILD DEPENDENCIES";
let mut contents = include_bytes!("../../stm32-metapac/Cargo.toml").to_vec();
let begin = bytes_find(&contents, BUILDDEP_BEGIN).unwrap();
let end = bytes_find(&contents, BUILDDEP_END).unwrap() + BUILDDEP_END.len();
contents.drain(begin..end);
fs::write(self.opts.out_dir.join("Cargo.toml"), contents).unwrap();
// copy misc files
fs::write(
self.opts.out_dir.join("build.rs"),
include_bytes!("../../stm32-metapac/build_pregenerated.rs"),
)
.unwrap();
fs::write(
self.opts.out_dir.join("src/lib.rs"),
include_bytes!("../../stm32-metapac/src/lib.rs"),
)
.unwrap();
fs::write(
self.opts.out_dir.join("src/common.rs"),
include_bytes!("../../stm32-metapac/src/common.rs"),
)
.unwrap();
fs::write(
self.opts.out_dir.join("src/metadata.rs"),
include_bytes!("../../stm32-metapac/src/metadata.rs"),
)
.unwrap();
}
}
fn bytes_find(haystack: &[u8], needle: &[u8]) -> Option<usize> {
haystack
.windows(needle.len())
.position(|window| window == needle)
}
fn stringify<T: Debug>(metadata: T) -> String {
let mut metadata = format!("{:?}", metadata);
if metadata.starts_with('[') {
metadata = format!("&{}", metadata);
}
metadata = metadata.replace(": [", ": &[");
metadata = metadata.replace("kind: Ram", "kind: MemoryRegionKind::Ram");
metadata = metadata.replace("kind: Flash", "kind: MemoryRegionKind::Flash");
metadata
}
fn gen_opts() -> generate::Options {
generate::Options {
common_module: CommonModule::External(TokenStream::from_str("crate::common").unwrap()),
}
}
fn gen_memory_x(out_dir: &PathBuf, chip: &Chip) {
let mut memory_x = String::new();
let flash = chip.memory.iter().find(|r| r.name == "BANK_1").unwrap();
let ram = chip.memory.iter().find(|r| r.name == "SRAM").unwrap();
write!(memory_x, "MEMORY\n{{\n").unwrap();
write!(
memory_x,
" FLASH : ORIGIN = 0x{:x}, LENGTH = {}\n",
flash.address, flash.size,
)
.unwrap();
write!(
memory_x,
" RAM : ORIGIN = 0x{:x}, LENGTH = {}\n",
ram.address, ram.size,
)
.unwrap();
write!(memory_x, "}}").unwrap();
fs::create_dir_all(out_dir.join("memory_x")).unwrap();
let mut file = File::create(out_dir.join("memory_x").join("memory.x")).unwrap();
file.write_all(memory_x.as_bytes()).unwrap();
}