1 // SPDX-License-Identifier: GPL-2.0 1 // SPDX-License-Identifier: GPL-2.0 2 2 3 use crate::helpers::*; 3 use crate::helpers::*; 4 use proc_macro::{token_stream, Delimiter, Lite 4 use proc_macro::{token_stream, Delimiter, Literal, TokenStream, TokenTree}; 5 use std::fmt::Write; 5 use std::fmt::Write; 6 6 7 fn expect_string_array(it: &mut token_stream:: 7 fn expect_string_array(it: &mut token_stream::IntoIter) -> Vec<String> { 8 let group = expect_group(it); 8 let group = expect_group(it); 9 assert_eq!(group.delimiter(), Delimiter::B 9 assert_eq!(group.delimiter(), Delimiter::Bracket); 10 let mut values = Vec::new(); 10 let mut values = Vec::new(); 11 let mut it = group.stream().into_iter(); 11 let mut it = group.stream().into_iter(); 12 12 13 while let Some(val) = try_string(&mut it) 13 while let Some(val) = try_string(&mut it) { 14 assert!(val.is_ascii(), "Expected ASCI 14 assert!(val.is_ascii(), "Expected ASCII string"); 15 values.push(val); 15 values.push(val); 16 match it.next() { 16 match it.next() { 17 Some(TokenTree::Punct(punct)) => a 17 Some(TokenTree::Punct(punct)) => assert_eq!(punct.as_char(), ','), 18 None => break, 18 None => break, 19 _ => panic!("Expected ',' or end o 19 _ => panic!("Expected ',' or end of array"), 20 } 20 } 21 } 21 } 22 values 22 values 23 } 23 } 24 24 25 struct ModInfoBuilder<'a> { 25 struct ModInfoBuilder<'a> { 26 module: &'a str, 26 module: &'a str, 27 counter: usize, 27 counter: usize, 28 buffer: String, 28 buffer: String, 29 } 29 } 30 30 31 impl<'a> ModInfoBuilder<'a> { 31 impl<'a> ModInfoBuilder<'a> { 32 fn new(module: &'a str) -> Self { 32 fn new(module: &'a str) -> Self { 33 ModInfoBuilder { 33 ModInfoBuilder { 34 module, 34 module, 35 counter: 0, 35 counter: 0, 36 buffer: String::new(), 36 buffer: String::new(), 37 } 37 } 38 } 38 } 39 39 40 fn emit_base(&mut self, field: &str, conte 40 fn emit_base(&mut self, field: &str, content: &str, builtin: bool) { 41 let string = if builtin { 41 let string = if builtin { 42 // Built-in modules prefix their m 42 // Built-in modules prefix their modinfo strings by `module.`. 43 format!( 43 format!( 44 "{module}.{field}={content}\0" 44 "{module}.{field}={content}\0", 45 module = self.module, 45 module = self.module, 46 field = field, 46 field = field, 47 content = content 47 content = content 48 ) 48 ) 49 } else { 49 } else { 50 // Loadable modules' modinfo strin 50 // Loadable modules' modinfo strings go as-is. 51 format!("{field}={content}\0", fie 51 format!("{field}={content}\0", field = field, content = content) 52 }; 52 }; 53 53 54 write!( 54 write!( 55 &mut self.buffer, 55 &mut self.buffer, 56 " 56 " 57 {cfg} 57 {cfg} 58 #[doc(hidden)] 58 #[doc(hidden)] 59 #[link_section = \".modinfo\"] 59 #[link_section = \".modinfo\"] 60 #[used] 60 #[used] 61 pub static __{module}_{counter 61 pub static __{module}_{counter}: [u8; {length}] = *{string}; 62 ", 62 ", 63 cfg = if builtin { 63 cfg = if builtin { 64 "#[cfg(not(MODULE))]" 64 "#[cfg(not(MODULE))]" 65 } else { 65 } else { 66 "#[cfg(MODULE)]" 66 "#[cfg(MODULE)]" 67 }, 67 }, 68 module = self.module.to_uppercase( 68 module = self.module.to_uppercase(), 69 counter = self.counter, 69 counter = self.counter, 70 length = string.len(), 70 length = string.len(), 71 string = Literal::byte_string(stri 71 string = Literal::byte_string(string.as_bytes()), 72 ) 72 ) 73 .unwrap(); 73 .unwrap(); 74 74 75 self.counter += 1; 75 self.counter += 1; 76 } 76 } 77 77 78 fn emit_only_builtin(&mut self, field: &st 78 fn emit_only_builtin(&mut self, field: &str, content: &str) { 79 self.emit_base(field, content, true) 79 self.emit_base(field, content, true) 80 } 80 } 81 81 82 fn emit_only_loadable(&mut self, field: &s 82 fn emit_only_loadable(&mut self, field: &str, content: &str) { 83 self.emit_base(field, content, false) 83 self.emit_base(field, content, false) 84 } 84 } 85 85 86 fn emit(&mut self, field: &str, content: & 86 fn emit(&mut self, field: &str, content: &str) { 87 self.emit_only_builtin(field, content) 87 self.emit_only_builtin(field, content); 88 self.emit_only_loadable(field, content 88 self.emit_only_loadable(field, content); 89 } 89 } 90 } 90 } 91 91 92 #[derive(Debug, Default)] 92 #[derive(Debug, Default)] 93 struct ModuleInfo { 93 struct ModuleInfo { 94 type_: String, 94 type_: String, 95 license: String, 95 license: String, 96 name: String, 96 name: String, 97 author: Option<String>, 97 author: Option<String>, 98 description: Option<String>, 98 description: Option<String>, 99 alias: Option<Vec<String>>, 99 alias: Option<Vec<String>>, 100 firmware: Option<Vec<String>>, 100 firmware: Option<Vec<String>>, 101 } 101 } 102 102 103 impl ModuleInfo { 103 impl ModuleInfo { 104 fn parse(it: &mut token_stream::IntoIter) 104 fn parse(it: &mut token_stream::IntoIter) -> Self { 105 let mut info = ModuleInfo::default(); 105 let mut info = ModuleInfo::default(); 106 106 107 const EXPECTED_KEYS: &[&str] = &[ 107 const EXPECTED_KEYS: &[&str] = &[ 108 "type", 108 "type", 109 "name", 109 "name", 110 "author", 110 "author", 111 "description", 111 "description", 112 "license", 112 "license", 113 "alias", 113 "alias", 114 "firmware", 114 "firmware", 115 ]; 115 ]; 116 const REQUIRED_KEYS: &[&str] = &["type 116 const REQUIRED_KEYS: &[&str] = &["type", "name", "license"]; 117 let mut seen_keys = Vec::new(); 117 let mut seen_keys = Vec::new(); 118 118 119 loop { 119 loop { 120 let key = match it.next() { 120 let key = match it.next() { 121 Some(TokenTree::Ident(ident)) 121 Some(TokenTree::Ident(ident)) => ident.to_string(), 122 Some(_) => panic!("Expected Id 122 Some(_) => panic!("Expected Ident or end"), 123 None => break, 123 None => break, 124 }; 124 }; 125 125 126 if seen_keys.contains(&key) { 126 if seen_keys.contains(&key) { 127 panic!( 127 panic!( 128 "Duplicated key \"{}\". Ke 128 "Duplicated key \"{}\". Keys can only be specified once.", 129 key 129 key 130 ); 130 ); 131 } 131 } 132 132 133 assert_eq!(expect_punct(it), ':'); 133 assert_eq!(expect_punct(it), ':'); 134 134 135 match key.as_str() { 135 match key.as_str() { 136 "type" => info.type_ = expect_ 136 "type" => info.type_ = expect_ident(it), 137 "name" => info.name = expect_s 137 "name" => info.name = expect_string_ascii(it), 138 "author" => info.author = Some 138 "author" => info.author = Some(expect_string(it)), 139 "description" => info.descript 139 "description" => info.description = Some(expect_string(it)), 140 "license" => info.license = ex 140 "license" => info.license = expect_string_ascii(it), 141 "alias" => info.alias = Some(e 141 "alias" => info.alias = Some(expect_string_array(it)), 142 "firmware" => info.firmware = 142 "firmware" => info.firmware = Some(expect_string_array(it)), 143 _ => panic!( 143 _ => panic!( 144 "Unknown key \"{}\". Valid 144 "Unknown key \"{}\". Valid keys are: {:?}.", 145 key, EXPECTED_KEYS 145 key, EXPECTED_KEYS 146 ), 146 ), 147 } 147 } 148 148 149 assert_eq!(expect_punct(it), ','); 149 assert_eq!(expect_punct(it), ','); 150 150 151 seen_keys.push(key); 151 seen_keys.push(key); 152 } 152 } 153 153 154 expect_end(it); 154 expect_end(it); 155 155 156 for key in REQUIRED_KEYS { 156 for key in REQUIRED_KEYS { 157 if !seen_keys.iter().any(|e| e == 157 if !seen_keys.iter().any(|e| e == key) { 158 panic!("Missing required key \ 158 panic!("Missing required key \"{}\".", key); 159 } 159 } 160 } 160 } 161 161 162 let mut ordered_keys: Vec<&str> = Vec: 162 let mut ordered_keys: Vec<&str> = Vec::new(); 163 for key in EXPECTED_KEYS { 163 for key in EXPECTED_KEYS { 164 if seen_keys.iter().any(|e| e == k 164 if seen_keys.iter().any(|e| e == key) { 165 ordered_keys.push(key); 165 ordered_keys.push(key); 166 } 166 } 167 } 167 } 168 168 169 if seen_keys != ordered_keys { 169 if seen_keys != ordered_keys { 170 panic!( 170 panic!( 171 "Keys are not ordered as expec 171 "Keys are not ordered as expected. Order them like: {:?}.", 172 ordered_keys 172 ordered_keys 173 ); 173 ); 174 } 174 } 175 175 176 info 176 info 177 } 177 } 178 } 178 } 179 179 180 pub(crate) fn module(ts: TokenStream) -> Token 180 pub(crate) fn module(ts: TokenStream) -> TokenStream { 181 let mut it = ts.into_iter(); 181 let mut it = ts.into_iter(); 182 182 183 let info = ModuleInfo::parse(&mut it); 183 let info = ModuleInfo::parse(&mut it); 184 184 185 let mut modinfo = ModInfoBuilder::new(info 185 let mut modinfo = ModInfoBuilder::new(info.name.as_ref()); 186 if let Some(author) = info.author { 186 if let Some(author) = info.author { 187 modinfo.emit("author", &author); 187 modinfo.emit("author", &author); 188 } 188 } 189 if let Some(description) = info.descriptio 189 if let Some(description) = info.description { 190 modinfo.emit("description", &descripti 190 modinfo.emit("description", &description); 191 } 191 } 192 modinfo.emit("license", &info.license); 192 modinfo.emit("license", &info.license); 193 if let Some(aliases) = info.alias { 193 if let Some(aliases) = info.alias { 194 for alias in aliases { 194 for alias in aliases { 195 modinfo.emit("alias", &alias); 195 modinfo.emit("alias", &alias); 196 } 196 } 197 } 197 } 198 if let Some(firmware) = info.firmware { 198 if let Some(firmware) = info.firmware { 199 for fw in firmware { 199 for fw in firmware { 200 modinfo.emit("firmware", &fw); 200 modinfo.emit("firmware", &fw); 201 } 201 } 202 } 202 } 203 203 204 // Built-in modules also export the `file` 204 // Built-in modules also export the `file` modinfo string. 205 let file = 205 let file = 206 std::env::var("RUST_MODFILE").expect(" 206 std::env::var("RUST_MODFILE").expect("Unable to fetch RUST_MODFILE environmental variable"); 207 modinfo.emit_only_builtin("file", &file); 207 modinfo.emit_only_builtin("file", &file); 208 208 209 format!( 209 format!( 210 " 210 " 211 /// The module name. 211 /// The module name. 212 /// 212 /// 213 /// Used by the printing macros, e 213 /// Used by the printing macros, e.g. [`info!`]. 214 const __LOG_PREFIX: &[u8] = b\"{na 214 const __LOG_PREFIX: &[u8] = b\"{name}\\0\"; 215 215 216 // SAFETY: `__this_module` is cons 216 // SAFETY: `__this_module` is constructed by the kernel at load time and will not be 217 // freed until the module is unloa 217 // freed until the module is unloaded. 218 #[cfg(MODULE)] 218 #[cfg(MODULE)] 219 static THIS_MODULE: kernel::ThisMo 219 static THIS_MODULE: kernel::ThisModule = unsafe {{ 220 extern \"C\" {{ 220 extern \"C\" {{ 221 static __this_module: kern 221 static __this_module: kernel::types::Opaque<kernel::bindings::module>; 222 }} 222 }} 223 223 224 kernel::ThisModule::from_ptr(_ 224 kernel::ThisModule::from_ptr(__this_module.get()) 225 }}; 225 }}; 226 #[cfg(not(MODULE))] 226 #[cfg(not(MODULE))] 227 static THIS_MODULE: kernel::ThisMo 227 static THIS_MODULE: kernel::ThisModule = unsafe {{ 228 kernel::ThisModule::from_ptr(c 228 kernel::ThisModule::from_ptr(core::ptr::null_mut()) 229 }}; 229 }}; 230 230 231 // Double nested modules, since th 231 // Double nested modules, since then nobody can access the public items inside. 232 mod __module_init {{ 232 mod __module_init {{ 233 mod __module_init {{ 233 mod __module_init {{ 234 use super::super::{type_}; 234 use super::super::{type_}; 235 235 236 /// The \"Rust loadable mo 236 /// The \"Rust loadable module\" mark. 237 // 237 // 238 // This may be best done a 238 // This may be best done another way later on, e.g. as a new modinfo 239 // key or a new section. F 239 // key or a new section. For the moment, keep it simple. 240 #[cfg(MODULE)] 240 #[cfg(MODULE)] 241 #[doc(hidden)] 241 #[doc(hidden)] 242 #[used] 242 #[used] 243 static __IS_RUST_MODULE: ( 243 static __IS_RUST_MODULE: () = (); 244 244 245 static mut __MOD: Option<{ 245 static mut __MOD: Option<{type_}> = None; 246 246 247 // Loadable modules need t 247 // Loadable modules need to export the `{{init,cleanup}}_module` identifiers. 248 /// # Safety 248 /// # Safety 249 /// 249 /// 250 /// This function must not 250 /// This function must not be called after module initialization, because it may be 251 /// freed after that compl 251 /// freed after that completes. 252 #[cfg(MODULE)] 252 #[cfg(MODULE)] 253 #[doc(hidden)] 253 #[doc(hidden)] 254 #[no_mangle] 254 #[no_mangle] 255 #[link_section = \".init.t 255 #[link_section = \".init.text\"] 256 pub unsafe extern \"C\" fn 256 pub unsafe extern \"C\" fn init_module() -> core::ffi::c_int {{ 257 // SAFETY: This functi 257 // SAFETY: This function is inaccessible to the outside due to the double 258 // module wrapping it. 258 // module wrapping it. It is called exactly once by the C side via its 259 // unique name. 259 // unique name. 260 unsafe {{ __init() }} 260 unsafe {{ __init() }} 261 }} 261 }} 262 262 263 #[cfg(MODULE)] 263 #[cfg(MODULE)] 264 #[doc(hidden)] 264 #[doc(hidden)] 265 #[used] << 266 #[link_section = \".init.d << 267 static __UNIQUE_ID___addre << 268 << 269 #[cfg(MODULE)] << 270 #[doc(hidden)] << 271 #[no_mangle] 265 #[no_mangle] 272 pub extern \"C\" fn cleanu 266 pub extern \"C\" fn cleanup_module() {{ 273 // SAFETY: 267 // SAFETY: 274 // - This function is 268 // - This function is inaccessible to the outside due to the double 275 // module wrapping i 269 // module wrapping it. It is called exactly once by the C side via its 276 // unique name, 270 // unique name, 277 // - furthermore it is 271 // - furthermore it is only called after `init_module` has returned `0` 278 // (which delegates 272 // (which delegates to `__init`). 279 unsafe {{ __exit() }} 273 unsafe {{ __exit() }} 280 }} 274 }} 281 << 282 #[cfg(MODULE)] << 283 #[doc(hidden)] << 284 #[used] << 285 #[link_section = \".exit.d << 286 static __UNIQUE_ID___addre << 287 275 288 // Built-in modules are in 276 // Built-in modules are initialized through an initcall pointer 289 // and the identifiers nee 277 // and the identifiers need to be unique. 290 #[cfg(not(MODULE))] 278 #[cfg(not(MODULE))] 291 #[cfg(not(CONFIG_HAVE_ARCH 279 #[cfg(not(CONFIG_HAVE_ARCH_PREL32_RELOCATIONS))] 292 #[doc(hidden)] 280 #[doc(hidden)] 293 #[link_section = \"{initca 281 #[link_section = \"{initcall_section}\"] 294 #[used] 282 #[used] 295 pub static __{name}_initca 283 pub static __{name}_initcall: extern \"C\" fn() -> core::ffi::c_int = __{name}_init; 296 284 297 #[cfg(not(MODULE))] 285 #[cfg(not(MODULE))] 298 #[cfg(CONFIG_HAVE_ARCH_PRE 286 #[cfg(CONFIG_HAVE_ARCH_PREL32_RELOCATIONS)] 299 core::arch::global_asm!( 287 core::arch::global_asm!( 300 r#\".section \"{initca 288 r#\".section \"{initcall_section}\", \"a\" 301 __{name}_initcall: 289 __{name}_initcall: 302 .long __{name}_i 290 .long __{name}_init - . 303 .previous 291 .previous 304 \"# 292 \"# 305 ); 293 ); 306 294 307 #[cfg(not(MODULE))] 295 #[cfg(not(MODULE))] 308 #[doc(hidden)] 296 #[doc(hidden)] 309 #[no_mangle] 297 #[no_mangle] 310 pub extern \"C\" fn __{nam 298 pub extern \"C\" fn __{name}_init() -> core::ffi::c_int {{ 311 // SAFETY: This functi 299 // SAFETY: This function is inaccessible to the outside due to the double 312 // module wrapping it. 300 // module wrapping it. It is called exactly once by the C side via its 313 // placement above in 301 // placement above in the initcall section. 314 unsafe {{ __init() }} 302 unsafe {{ __init() }} 315 }} 303 }} 316 304 317 #[cfg(not(MODULE))] 305 #[cfg(not(MODULE))] 318 #[doc(hidden)] 306 #[doc(hidden)] 319 #[no_mangle] 307 #[no_mangle] 320 pub extern \"C\" fn __{nam 308 pub extern \"C\" fn __{name}_exit() {{ 321 // SAFETY: 309 // SAFETY: 322 // - This function is 310 // - This function is inaccessible to the outside due to the double 323 // module wrapping i 311 // module wrapping it. It is called exactly once by the C side via its 324 // unique name, 312 // unique name, 325 // - furthermore it is 313 // - furthermore it is only called after `__{name}_init` has returned `0` 326 // (which delegates 314 // (which delegates to `__init`). 327 unsafe {{ __exit() }} 315 unsafe {{ __exit() }} 328 }} 316 }} 329 317 330 /// # Safety 318 /// # Safety 331 /// 319 /// 332 /// This function must onl 320 /// This function must only be called once. 333 unsafe fn __init() -> core 321 unsafe fn __init() -> core::ffi::c_int {{ 334 match <{type_} as kern 322 match <{type_} as kernel::Module>::init(&super::super::THIS_MODULE) {{ 335 Ok(m) => {{ 323 Ok(m) => {{ 336 // SAFETY: No 324 // SAFETY: No data race, since `__MOD` can only be accessed by this 337 // module and 325 // module and there only `__init` and `__exit` access it. These 338 // functions a 326 // functions are only called once and `__exit` cannot be called 339 // before or d 327 // before or during `__init`. 340 unsafe {{ 328 unsafe {{ 341 __MOD = So 329 __MOD = Some(m); 342 }} 330 }} 343 return 0; 331 return 0; 344 }} 332 }} 345 Err(e) => {{ 333 Err(e) => {{ 346 return e.to_er 334 return e.to_errno(); 347 }} 335 }} 348 }} 336 }} 349 }} 337 }} 350 338 351 /// # Safety 339 /// # Safety 352 /// 340 /// 353 /// This function must 341 /// This function must 354 /// - only be called once, 342 /// - only be called once, 355 /// - be called after `__i 343 /// - be called after `__init` has been called and returned `0`. 356 unsafe fn __exit() {{ 344 unsafe fn __exit() {{ 357 // SAFETY: No data rac 345 // SAFETY: No data race, since `__MOD` can only be accessed by this module 358 // and there only `__i 346 // and there only `__init` and `__exit` access it. These functions are only 359 // called once and `__ 347 // called once and `__init` was already called. 360 unsafe {{ 348 unsafe {{ 361 // Invokes `drop() 349 // Invokes `drop()` on `__MOD`, which should be used for cleanup. 362 __MOD = None; 350 __MOD = None; 363 }} 351 }} 364 }} 352 }} 365 353 366 {modinfo} 354 {modinfo} 367 }} 355 }} 368 }} 356 }} 369 ", 357 ", 370 type_ = info.type_, 358 type_ = info.type_, 371 name = info.name, 359 name = info.name, 372 modinfo = modinfo.buffer, 360 modinfo = modinfo.buffer, 373 initcall_section = ".initcall6.init" 361 initcall_section = ".initcall6.init" 374 ) 362 ) 375 .parse() 363 .parse() 376 .expect("Error parsing formatted string in 364 .expect("Error parsing formatted string into token stream.") 377 } 365 }
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