#[cfg_attr(windows, path = "windows_build.rs")] #[cfg_attr(not(windows), path = "unix_build.rs")] mod impl_; use std::{ env, fs::File, io::{BufWriter, Write}, path::{Path, PathBuf}, process::Command, str::FromStr, }; use anyhow::{anyhow, bail, Context, Result}; use bindgen::RustTarget; use impl_::Provider; const MIN_PHP_API_VER: u32 = 20200930; const MAX_PHP_API_VER: u32 = 20220829; pub trait PHPProvider<'a>: Sized { /// Create a new PHP provider. fn new(info: &'a PHPInfo) -> Result; /// Retrieve a list of absolute include paths. fn get_includes(&self) -> Result>; /// Retrieve a list of macro definitions to pass to the compiler. fn get_defines(&self) -> Result>; /// Writes the bindings to a file. fn write_bindings(&self, bindings: String, writer: &mut impl Write) -> Result<()> { for line in bindings.lines() { writeln!(writer, "{line}")?; } Ok(()) } /// Prints any extra link arguments. fn print_extra_link_args(&self) -> Result<()> { Ok(()) } } /// Finds the location of an executable `name`. pub fn find_executable(name: &str) -> Option { const WHICH: &str = if cfg!(windows) { "where" } else { "which" }; let cmd = Command::new(WHICH).arg(name).output().ok()?; if cmd.status.success() { let stdout = String::from_utf8_lossy(&cmd.stdout); Some(stdout.trim().into()) } else { None } } /// Returns an environment variable's value as a PathBuf pub fn path_from_env(key: &str) -> Option { std::env::var_os(key).map(PathBuf::from) } /// Finds the location of the PHP executable. fn find_php() -> Result { // If path is given via env, it takes priority. if let Some(path) = path_from_env("PHP") { if !path.try_exists()? { // If path was explicitly given and it can't be found, this is a hard error bail!("php executable not found at {:?}", path); } return Ok(path); } find_executable("php").with_context(|| { "Could not find PHP executable. \ Please ensure `php` is in your PATH or the `PHP` environment variable is set." }) } pub struct PHPInfo(String); impl PHPInfo { pub fn get(php: &Path) -> Result { let cmd = Command::new(php) .arg("-i") .output() .context("Failed to call `php -i`")?; if !cmd.status.success() { bail!("Failed to call `php -i` status code {}", cmd.status); } let stdout = String::from_utf8_lossy(&cmd.stdout); Ok(Self(stdout.to_string())) } // Only present on Windows. #[cfg(windows)] pub fn architecture(&self) -> Result { use std::convert::TryInto; self.get_key("Architecture") .context("Could not find architecture of PHP")? .try_into() } pub fn thread_safety(&self) -> Result { Ok(self .get_key("Thread Safety") .context("Could not find thread safety of PHP")? == "enabled") } pub fn debug(&self) -> Result { Ok(self .get_key("Debug Build") .context("Could not find debug build of PHP")? == "yes") } pub fn version(&self) -> Result<&str> { self.get_key("PHP Version") .context("Failed to get PHP version") } pub fn zend_version(&self) -> Result { self.get_key("PHP API") .context("Failed to get Zend version") .and_then(|s| u32::from_str(s).context("Failed to convert Zend version to integer")) } fn get_key(&self, key: &str) -> Option<&str> { let split = format!("{key} => "); for line in self.0.lines() { let components: Vec<_> = line.split(&split).collect(); if components.len() > 1 { return Some(components[1]); } } None } } /// Builds the wrapper library. fn build_wrapper(defines: &[(&str, &str)], includes: &[PathBuf]) -> Result<()> { let mut build = cc::Build::new(); for (var, val) in defines { build.define(var, *val); } build .file("src/wrapper.c") .includes(includes) .try_compile("wrapper") .context("Failed to compile ext-php-rs C interface")?; Ok(()) } /// Generates bindings to the Zend API. fn generate_bindings(defines: &[(&str, &str)], includes: &[PathBuf]) -> Result { let mut bindgen = bindgen::Builder::default() .header("src/wrapper.h") .clang_args( includes .iter() .map(|inc| format!("-I{}", inc.to_string_lossy())), ) .clang_args(defines.iter().map(|(var, val)| format!("-D{var}={val}"))) .formatter(bindgen::Formatter::Rustfmt) .no_copy("_zval_struct") .no_copy("_zend_string") .no_copy("_zend_array") .no_debug("_zend_function_entry") // On Windows when the handler uses vectorcall, Debug cannot be derived so we do it in code. .layout_tests(env::var("EXT_PHP_RS_TEST").is_ok()) .rust_target(RustTarget::Nightly); for binding in ALLOWED_BINDINGS.iter() { bindgen = bindgen .allowlist_function(binding) .allowlist_type(binding) .allowlist_var(binding); } let bindings = bindgen .generate() .map_err(|_| anyhow!("Unable to generate bindings for PHP"))? .to_string(); Ok(bindings) } /// Checks the PHP Zend API version for compatibility with ext-php-rs, setting /// any configuration flags required. fn check_php_version(info: &PHPInfo) -> Result<()> { let version = info.zend_version()?; if !(MIN_PHP_API_VER..=MAX_PHP_API_VER).contains(&version) { bail!("The current version of PHP is not supported. Current PHP API version: {}, requires a version between {} and {}", version, MIN_PHP_API_VER, MAX_PHP_API_VER); } // Infra cfg flags - use these for things that change in the Zend API that don't // rely on a feature and the crate user won't care about (e.g. struct field // changes). Use a feature flag for an actual feature (e.g. enums being // introduced in PHP 8.1). // // PHP 8.0 is the baseline - no feature flags will be introduced here. // // The PHP version cfg flags should also stack - if you compile on PHP 8.2 you // should get both the `php81` and `php82` flags. const PHP_81_API_VER: u32 = 20210902; const PHP_82_API_VER: u32 = 20220829; println!("cargo:rustc-cfg=php80"); if (PHP_81_API_VER..PHP_82_API_VER).contains(&version) { println!("cargo:rustc-cfg=php81"); } if version >= PHP_82_API_VER { println!("cargo:rustc-cfg=php82"); } Ok(()) } fn main() -> Result<()> { let out_dir = env::var_os("OUT_DIR").context("Failed to get OUT_DIR")?; let out_path = PathBuf::from(out_dir).join("bindings.rs"); let manifest: PathBuf = std::env::var("CARGO_MANIFEST_DIR").unwrap().into(); for path in [ manifest.join("src").join("wrapper.h"), manifest.join("src").join("wrapper.c"), manifest.join("allowed_bindings.rs"), manifest.join("windows_build.rs"), manifest.join("unix_build.rs"), ] { println!("cargo:rerun-if-changed={}", path.to_string_lossy()); } for env_var in ["PHP", "PHP_CONFIG", "PATH"] { println!("cargo:rerun-if-env-changed={env_var}"); } println!("cargo:rerun-if-changed=build.rs"); // docs.rs runners only have PHP 7.4 - use pre-generated bindings if env::var("DOCS_RS").is_ok() { println!("cargo:warning=docs.rs detected - using stub bindings"); println!("cargo:rustc-cfg=php_debug"); println!("cargo:rustc-cfg=php82"); std::fs::copy("docsrs_bindings.rs", out_path) .expect("failed to copy docs.rs stub bindings to out directory"); return Ok(()); } let php = find_php()?; let info = PHPInfo::get(&php)?; let provider = Provider::new(&info)?; let includes = provider.get_includes()?; let defines = provider.get_defines()?; check_php_version(&info)?; build_wrapper(&defines, &includes)?; let bindings = generate_bindings(&defines, &includes)?; let out_file = File::create(&out_path).context("Failed to open output bindings file for writing")?; let mut out_writer = BufWriter::new(out_file); provider.write_bindings(bindings, &mut out_writer)?; if info.debug()? { println!("cargo:rustc-cfg=php_debug"); } if info.thread_safety()? { println!("cargo:rustc-cfg=php_zts"); } provider.print_extra_link_args()?; // Generate guide tests let test_md = skeptic::markdown_files_of_directory("guide"); #[cfg(not(feature = "closure"))] let test_md: Vec<_> = test_md .into_iter() .filter(|p| p.file_stem() != Some(std::ffi::OsStr::new("closure"))) .collect(); skeptic::generate_doc_tests(&test_md); Ok(()) } // Mock macro for the `allowed_bindings.rs` script. macro_rules! bind { ($($s: ident),*) => { &[$( stringify!($s), )*] } } /// Array of functions/types used in `ext-php-rs` - used to allowlist when /// generating bindings, as we don't want to generate bindings for everything /// (i.e. stdlib headers). const ALLOWED_BINDINGS: &[&str] = include!("allowed_bindings.rs");