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trezor-firmware/core/embed/rust/build.rs

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#[cfg(feature = "test")]
use std::ffi::OsStr;
use std::{env, path::PathBuf, process::Command};
fn main() {
generate_qstr_bindings();
generate_micropython_bindings();
#[cfg(feature = "test")]
link_core_objects();
}
/// Generates Rust module that exports QSTR constants used in firmware.
fn generate_qstr_bindings() {
let out_path = env::var("OUT_DIR").unwrap();
// Tell cargo to invalidate the built crate whenever the header changes.
println!("cargo:rerun-if-changed=qstr.h");
bindgen::Builder::default()
.header("qstr.h")
// Build the Qstr enum as a newtype so we can define method on it.
.default_enum_style(bindgen::EnumVariation::NewType { is_bitfield: false })
// Pass in correct include paths.
.clang_args(&[
"-I",
if is_firmware() {
"../../build/firmware"
} else {
"../../build/unix"
},
])
// Customize the standard types.
.use_core()
.ctypes_prefix("cty")
.size_t_is_usize(true)
// Tell cargo to invalidate the built crate whenever any of the
// included header files change.
.parse_callbacks(Box::new(bindgen::CargoCallbacks))
.generate()
.expect("Unable to generate Rust QSTR bindings")
.write_to_file(PathBuf::from(out_path).join("qstr.rs"))
.unwrap();
}
fn generate_micropython_bindings() {
let out_path = env::var("OUT_DIR").unwrap();
// Tell cargo to invalidate the built crate whenever the header changes.
println!("cargo:rerun-if-changed=micropython.h");
let mut bindings = bindgen::Builder::default()
.header("micropython.h")
// obj
.new_type_alias("mp_obj_t")
.allowlist_type("mp_obj_type_t")
.allowlist_type("mp_obj_base_t")
.allowlist_function("mp_obj_new_int")
.allowlist_function("mp_obj_new_int_from_ll")
.allowlist_function("mp_obj_new_int_from_ull")
.allowlist_function("mp_obj_new_int_from_uint")
.allowlist_function("mp_obj_new_bytes")
.allowlist_function("mp_obj_new_str")
.allowlist_function("mp_obj_new_tuple")
.allowlist_function("mp_obj_get_int_maybe")
.allowlist_function("mp_obj_is_true")
.allowlist_function("mp_call_function_n_kw")
.allowlist_function("trezor_obj_get_ll_checked")
.allowlist_function("trezor_obj_get_ull_checked")
.allowlist_function("trezor_obj_str_from_rom_text")
// buffer
.allowlist_function("mp_get_buffer")
.allowlist_var("MP_BUFFER_READ")
.allowlist_var("MP_BUFFER_WRITE")
.allowlist_var("MP_BUFFER_RW")
.allowlist_var("mp_type_str")
// dict
.allowlist_type("mp_obj_dict_t")
.allowlist_function("mp_obj_new_dict")
.allowlist_function("mp_obj_dict_store")
.allowlist_var("mp_type_dict")
// fun
.allowlist_type("mp_obj_fun_builtin_fixed_t")
.allowlist_var("mp_type_fun_builtin_1")
.allowlist_var("mp_type_fun_builtin_2")
.allowlist_var("mp_type_fun_builtin_3")
.allowlist_type("mp_obj_fun_builtin_var_t")
.allowlist_var("mp_type_fun_builtin_var")
// gc
.allowlist_function("gc_alloc")
// iter
.allowlist_type("mp_obj_iter_buf_t")
.allowlist_function("mp_getiter")
.allowlist_function("mp_iternext")
// list
.allowlist_type("mp_obj_list_t")
.allowlist_function("mp_obj_new_list")
.allowlist_function("mp_obj_list_append")
.allowlist_var("mp_type_list")
// map
.allowlist_type("mp_map_elem_t")
.allowlist_type("mp_map_lookup_kind_t")
.allowlist_function("mp_map_init")
.allowlist_function("mp_map_init_fixed_table")
.allowlist_function("mp_map_lookup")
// exceptions
.allowlist_function("nlr_jump")
.allowlist_function("mp_obj_new_exception")
.allowlist_function("mp_obj_new_exception_args")
.allowlist_function("trezor_obj_call_protected")
.allowlist_var("mp_type_AttributeError")
.allowlist_var("mp_type_KeyError")
.allowlist_var("mp_type_MemoryError")
.allowlist_var("mp_type_OverflowError")
.allowlist_var("mp_type_ValueError")
.allowlist_var("mp_type_TypeError")
// time
.allowlist_function("mp_hal_ticks_ms")
.allowlist_function("mp_hal_delay_ms")
// typ
.allowlist_var("mp_type_type")
// module
.allowlist_type("mp_obj_module_t")
.allowlist_var("mp_type_module");
// `ffi::mp_map_t` type is not allowed to be `Clone` or `Copy` because we tie it
// to the data lifetimes with the `MapRef` type, see `src/micropython/map.rs`.
// TODO: We should disable `Clone` and `Copy` for all types and only allow-list
// the specific cases we require.
bindings = bindings.no_copy("_mp_map_t");
// Pass in correct include paths and defines.
if is_firmware() {
bindings = bindings.clang_args(&[
"-nostdinc",
"-I../firmware",
"-I../trezorhal",
"-I../../build/firmware",
"-I../../vendor/micropython",
"-I../../vendor/micropython/lib/stm32lib/STM32F4xx_HAL_Driver/Inc",
"-I../../vendor/micropython/lib/stm32lib/CMSIS/STM32F4xx/Include",
"-I../../vendor/micropython/lib/cmsis/inc",
"-DTREZOR_MODEL_T",
"-DSTM32F405xx",
"-DUSE_HAL_DRIVER",
"-DSTM32_HAL_H=<stm32f4xx.h>",
]);
// Append gcc-arm-none-eabi's include paths.
let cc_output = Command::new("arm-none-eabi-gcc")
.arg("-E")
.arg("-Wp,-v")
.arg("-")
.output()
.expect("arm-none-eabi-gcc failed to execute");
if !cc_output.status.success() {
panic!("arm-none-eabi-gcc failed");
}
let include_paths =
String::from_utf8(cc_output.stderr).expect("arm-none-eabi-gcc returned invalid output");
let include_args = include_paths
.lines()
.skip_while(|s| !s.contains("search starts here:"))
.take_while(|s| !s.contains("End of search list."))
.filter(|s| s.starts_with(' '))
.map(|s| format!("-I{}", s.trim()));
bindings = bindings.clang_args(include_args);
} else {
bindings = bindings.clang_args(&[
"-I../unix",
"-I../../build/unix",
"-I../../vendor/micropython",
"-I../../vendor/micropython/ports/unix",
]);
}
bindings
// Customize the standard types.
.use_core()
.ctypes_prefix("cty")
.size_t_is_usize(true)
// Disable the layout tests. They spew out a lot of code-style bindings, and are not too
// relevant for our use-case.
.layout_tests(false)
// Tell cargo to invalidate the built crate whenever any of the
// included header files change.
.parse_callbacks(Box::new(bindgen::CargoCallbacks))
// Write the bindings to a file in the OUR_DIR.
.generate()
.expect("Unable to generate Rust Micropython bindings")
.write_to_file(PathBuf::from(out_path).join("micropython.rs"))
.unwrap();
}
fn is_firmware() -> bool {
let target = env::var("TARGET").unwrap();
target.starts_with("thumbv7")
}
#[cfg(feature = "test")]
fn link_core_objects() {
let crate_path = env::var("CARGO_MANIFEST_DIR").unwrap();
let build_path = format!("{}/../../build/unix", crate_path);
// List of object filenames to ignore in the `embed` and `vendor` directory
let embed_blocklist = [OsStr::new("main_main.o")];
let vendor_blocklist = [OsStr::new("gen_context.o")];
// Collect all objects that the `core` library uses, and link it in. We have to
// make sure to avoid the object with the `_main` symbol, so we don't get any
// duplicates.
let mut cc = cc::Build::new();
for obj in glob::glob(&format!("{}/embed/**/*.o", build_path)).unwrap() {
let obj = obj.unwrap();
if embed_blocklist.contains(&obj.file_name().unwrap()) {
// Ignore.
} else {
cc.object(obj);
}
}
for obj in glob::glob(&format!("{}/vendor/**/*.o", build_path)).unwrap() {
let obj = obj.unwrap();
if vendor_blocklist.contains(&obj.file_name().unwrap()) {
// Ignore.
} else {
cc.object(obj);
}
}
// Compile all the objects into a static library and link it in automatically.
cc.compile("core_lib");
println!("cargo:rustc-link-lib=SDL2");
println!("cargo:rustc-link-lib=SDL2_image");
}