use std::env; use std::path::Path; /// Tells whether we're building for Windows. This is more suitable than a plain /// `cfg!(windows)`, since the latter does not properly handle cross-compilation /// /// Note that there is no way to know at compile-time which system we'll be /// targetting, and this test must be made at run-time (of the build script) See /// https://doc.rust-lang.org/cargo/reference/environment-variables.html#environment-variables-cargo-sets-for-build-scripts fn win_target() -> bool { env::var("CARGO_CFG_WINDOWS").is_ok() } /// Tells whether we're building for Android. /// See [`win_target`] #[cfg(any(feature = "bundled", feature = "bundled-windows"))] fn android_target() -> bool { env::var("CARGO_CFG_TARGET_OS").map_or(false, |v| v == "android") } /// Tells whether a given compiler will be used `compiler_name` is compared to /// the content of `CARGO_CFG_TARGET_ENV` (and is always lowercase) /// /// See [`win_target`] fn is_compiler(compiler_name: &str) -> bool { env::var("CARGO_CFG_TARGET_ENV").map_or(false, |v| v == compiler_name) } fn main() { let out_dir = env::var("OUT_DIR").unwrap(); let out_path = Path::new(&out_dir).join("bindgen.rs"); if cfg!(feature = "in_gecko") { // When inside mozilla-central, we are included into the build with // sqlite3.o directly, so we don't want to provide any linker arguments. std::fs::copy("sqlite3/bindgen_bundled_version.rs", out_path) .expect("Could not copy bindings to output directory"); return; } if cfg!(all( feature = "sqlcipher", not(feature = "bundled-sqlcipher") )) { if cfg!(feature = "bundled") || (win_target() && cfg!(feature = "bundled-windows")) { println!( "cargo:warning=For backwards compatibility, feature 'sqlcipher' overrides features 'bundled' and 'bundled-windows'. If you want a bundled build of SQLCipher (available for the moment only on Unix), use feature 'bundled-sqlcipher' or 'bundled-sqlcipher-vendored-openssl' to also bundle OpenSSL crypto." ); } build_linked::main(&out_dir, &out_path); } else if cfg!(feature = "bundled") || (win_target() && cfg!(feature = "bundled-windows")) || cfg!(feature = "bundled-sqlcipher") { #[cfg(any( feature = "bundled", feature = "bundled-windows", feature = "bundled-sqlcipher" ))] build_bundled::main(&out_dir, &out_path); #[cfg(not(any( feature = "bundled", feature = "bundled-windows", feature = "bundled-sqlcipher" )))] panic!("The runtime test should not run this branch, which has not compiled any logic.") } else { build_linked::main(&out_dir, &out_path); } } #[cfg(any( feature = "bundled", feature = "bundled-windows", feature = "bundled-sqlcipher" ))] mod build_bundled { use std::env; use std::ffi::OsString; use std::path::{Path, PathBuf}; use super::{is_compiler, win_target}; pub fn main(out_dir: &str, out_path: &Path) { let lib_name = super::lib_name(); // This is just a sanity check, the top level `main` should ensure this. assert!(!(cfg!(feature = "bundled-windows") && !cfg!(feature = "bundled") && !win_target()), "This module should not be used: we're not on Windows and the bundled feature has not been enabled"); #[cfg(feature = "buildtime_bindgen")] { use super::{bindings, HeaderLocation}; let header = HeaderLocation::FromPath(format!("{}/sqlite3.h", lib_name)); bindings::write_to_out_dir(header, out_path); } #[cfg(not(feature = "buildtime_bindgen"))] { use std::fs; fs::copy(format!("{lib_name}/bindgen_bundled_version.rs"), out_path) .expect("Could not copy bindings to output directory"); } // println!("cargo:rerun-if-changed=sqlite3/sqlite3.c"); // println!("cargo:rerun-if-changed=sqlcipher/sqlite3.c"); println!("cargo:rerun-if-changed={lib_name}/sqlite3.c"); println!("cargo:rerun-if-changed=sqlite3/wasm32-wasi-vfs.c"); let mut cfg = cc::Build::new(); cfg.file(format!("{lib_name}/sqlite3.c")) .flag("-DSQLITE_CORE") .flag("-DSQLITE_DEFAULT_FOREIGN_KEYS=1") .flag("-DSQLITE_ENABLE_API_ARMOR") .flag("-DSQLITE_ENABLE_COLUMN_METADATA") .flag("-DSQLITE_ENABLE_DBSTAT_VTAB") .flag("-DSQLITE_ENABLE_FTS3") .flag("-DSQLITE_ENABLE_FTS3_PARENTHESIS") .flag("-DSQLITE_ENABLE_FTS5") .flag("-DSQLITE_ENABLE_JSON1") .flag("-DSQLITE_ENABLE_LOAD_EXTENSION=1") .flag("-DSQLITE_ENABLE_MEMORY_MANAGEMENT") .flag("-DSQLITE_ENABLE_RTREE") .flag("-DSQLITE_ENABLE_STAT2") .flag("-DSQLITE_ENABLE_STAT4") .flag("-DSQLITE_SOUNDEX") .flag("-DSQLITE_THREADSAFE=1") .flag("-DSQLITE_USE_URI") .flag("-DHAVE_USLEEP=1") .flag("-D_POSIX_THREAD_SAFE_FUNCTIONS") // cross compile with MinGW .warnings(false); if cfg!(feature = "bundled-sqlcipher") { cfg.flag("-DSQLITE_HAS_CODEC").flag("-DSQLITE_TEMP_STORE=2"); let target = env::var("TARGET").unwrap(); let host = env::var("HOST").unwrap(); let is_windows = host.contains("windows") && target.contains("windows"); let is_apple = host.contains("apple") && target.contains("apple"); let lib_dir = env("OPENSSL_LIB_DIR").map(PathBuf::from); let inc_dir = env("OPENSSL_INCLUDE_DIR").map(PathBuf::from); let mut use_openssl = false; let (lib_dir, inc_dir) = match (lib_dir, inc_dir) { (Some(lib_dir), Some(inc_dir)) => { use_openssl = true; (lib_dir, inc_dir) } (lib_dir, inc_dir) => match find_openssl_dir(&host, &target) { None => { if is_windows && !cfg!(feature = "bundled-sqlcipher-vendored-openssl") { panic!("Missing environment variable OPENSSL_DIR or OPENSSL_DIR is not set") } else { (PathBuf::new(), PathBuf::new()) } } Some(openssl_dir) => { let lib_dir = lib_dir.unwrap_or_else(|| openssl_dir.join("lib")); let inc_dir = inc_dir.unwrap_or_else(|| openssl_dir.join("include")); assert!( Path::new(&lib_dir).exists(), "OpenSSL library directory does not exist: {}", lib_dir.to_string_lossy() ); if !Path::new(&inc_dir).exists() { panic!( "OpenSSL include directory does not exist: {}", inc_dir.to_string_lossy() ); } use_openssl = true; (lib_dir, inc_dir) } }, }; if cfg!(feature = "bundled-sqlcipher-vendored-openssl") { cfg.include(env::var("DEP_OPENSSL_INCLUDE").unwrap()); // cargo will resolve downstream to the static lib in // openssl-sys } else if use_openssl { cfg.include(inc_dir.to_string_lossy().as_ref()); let lib_name = if is_windows { "libcrypto" } else { "crypto" }; println!("cargo:rustc-link-lib=dylib={}", lib_name); println!("cargo:rustc-link-search={}", lib_dir.to_string_lossy()); } else if is_apple { cfg.flag("-DSQLCIPHER_CRYPTO_CC"); println!("cargo:rustc-link-lib=framework=Security"); println!("cargo:rustc-link-lib=framework=CoreFoundation"); } else { // branch not taken on Windows, just `crypto` is fine. println!("cargo:rustc-link-lib=dylib=crypto"); } } // on android sqlite can't figure out where to put the temp files. // the bundled sqlite on android also uses `SQLITE_TEMP_STORE=3`. // https://android.googlesource.com/platform/external/sqlite/+/2c8c9ae3b7e6f340a19a0001c2a889a211c9d8b2/dist/Android.mk if super::android_target() { cfg.flag("-DSQLITE_TEMP_STORE=3"); } if cfg!(feature = "with-asan") { cfg.flag("-fsanitize=address"); } // If explicitly requested: enable static linking against the Microsoft Visual // C++ Runtime to avoid dependencies on vcruntime140.dll and similar libraries. if cfg!(target_feature = "crt-static") && is_compiler("msvc") { cfg.static_crt(true); } // Older versions of visual studio don't support c99 (including isnan), which // causes a build failure when the linker fails to find the `isnan` // function. `sqlite` provides its own implementation, using the fact // that x != x when x is NaN. // // There may be other platforms that don't support `isnan`, they should be // tested for here. if is_compiler("msvc") { use cc::windows_registry::{find_vs_version, VsVers}; let vs_has_nan = match find_vs_version() { Ok(ver) => ver != VsVers::Vs12, Err(_msg) => false, }; if vs_has_nan { cfg.flag("-DHAVE_ISNAN"); } } else { cfg.flag("-DHAVE_ISNAN"); } if !win_target() { cfg.flag("-DHAVE_LOCALTIME_R"); } // Target wasm32-wasi can't compile the default VFS if is_compiler("wasm32-wasi") { cfg.flag("-DSQLITE_OS_OTHER") // https://github.com/rust-lang/rust/issues/74393 .flag("-DLONGDOUBLE_TYPE=double"); if cfg!(feature = "wasm32-wasi-vfs") { cfg.file("sqlite3/wasm32-wasi-vfs.c"); } } if cfg!(feature = "unlock_notify") { cfg.flag("-DSQLITE_ENABLE_UNLOCK_NOTIFY"); } if cfg!(feature = "preupdate_hook") { cfg.flag("-DSQLITE_ENABLE_PREUPDATE_HOOK"); } if cfg!(feature = "session") { cfg.flag("-DSQLITE_ENABLE_SESSION"); } if let Ok(limit) = env::var("SQLITE_MAX_VARIABLE_NUMBER") { cfg.flag(&format!("-DSQLITE_MAX_VARIABLE_NUMBER={limit}")); } println!("cargo:rerun-if-env-changed=SQLITE_MAX_VARIABLE_NUMBER"); if let Ok(limit) = env::var("SQLITE_MAX_EXPR_DEPTH") { cfg.flag(&format!("-DSQLITE_MAX_EXPR_DEPTH={limit}")); } println!("cargo:rerun-if-env-changed=SQLITE_MAX_EXPR_DEPTH"); if let Ok(extras) = env::var("LIBSQLITE3_FLAGS") { for extra in extras.split_whitespace() { if extra.starts_with("-D") || extra.starts_with("-U") { cfg.flag(extra); } else if extra.starts_with("SQLITE_") { cfg.flag(&format!("-D{extra}")); } else { panic!("Don't understand {} in LIBSQLITE3_FLAGS", extra); } } } println!("cargo:rerun-if-env-changed=LIBSQLITE3_FLAGS"); cfg.compile(lib_name); println!("cargo:lib_dir={out_dir}"); } fn env(name: &str) -> Option { let prefix = env::var("TARGET").unwrap().to_uppercase().replace('-', "_"); let prefixed = format!("{prefix}_{name}"); let var = env::var_os(prefixed); match var { None => env::var_os(name), _ => var, } } fn find_openssl_dir(_host: &str, _target: &str) -> Option { let openssl_dir = env("OPENSSL_DIR"); openssl_dir.map(PathBuf::from) } } fn env_prefix() -> &'static str { if cfg!(any(feature = "sqlcipher", feature = "bundled-sqlcipher")) { "SQLCIPHER" } else { "SQLITE3" } } fn lib_name() -> &'static str { if cfg!(any(feature = "sqlcipher", feature = "bundled-sqlcipher")) { "sqlcipher" } else if cfg!(all(windows, feature = "winsqlite3")) { "winsqlite3" } else { "sqlite3" } } pub enum HeaderLocation { FromEnvironment, Wrapper, FromPath(String), } impl From for String { fn from(header: HeaderLocation) -> String { match header { HeaderLocation::FromEnvironment => { let prefix = env_prefix(); let mut header = env::var(format!("{prefix}_INCLUDE_DIR")).unwrap_or_else(|_| { panic!( "{}_INCLUDE_DIR must be set if {}_LIB_DIR is set", prefix, prefix ) }); header.push_str("/sqlite3.h"); header } HeaderLocation::Wrapper => "wrapper.h".into(), HeaderLocation::FromPath(path) => path, } } } mod build_linked { #[cfg(feature = "vcpkg")] extern crate vcpkg; use super::{bindings, env_prefix, is_compiler, lib_name, win_target, HeaderLocation}; use std::env; use std::path::Path; pub fn main(_out_dir: &str, out_path: &Path) { let header = find_sqlite(); if (cfg!(any( feature = "bundled_bindings", feature = "bundled", feature = "bundled-sqlcipher" )) || (win_target() && cfg!(feature = "bundled-windows"))) && !cfg!(feature = "buildtime_bindgen") { // Generally means the `bundled_bindings` feature is enabled. // Most users are better off with turning // on buildtime_bindgen instead, but this is still supported as we // have runtime version checks and there are good reasons to not // want to run bindgen. std::fs::copy( format!("{}/bindgen_bundled_version.rs", lib_name()), out_path, ) .expect("Could not copy bindings to output directory"); } else { bindings::write_to_out_dir(header, out_path); } } fn find_link_mode() -> &'static str { // If the user specifies SQLITE3_STATIC (or SQLCIPHER_STATIC), do static // linking, unless it's explicitly set to 0. match &env::var(format!("{}_STATIC", env_prefix())) { Ok(v) if v != "0" => "static", _ => "dylib", } } // Prints the necessary cargo link commands and returns the path to the header. fn find_sqlite() -> HeaderLocation { let link_lib = lib_name(); println!("cargo:rerun-if-env-changed={}_INCLUDE_DIR", env_prefix()); println!("cargo:rerun-if-env-changed={}_LIB_DIR", env_prefix()); println!("cargo:rerun-if-env-changed={}_STATIC", env_prefix()); if cfg!(feature = "vcpkg") && is_compiler("msvc") { println!("cargo:rerun-if-env-changed=VCPKGRS_DYNAMIC"); } // dependents can access `DEP_SQLITE3_LINK_TARGET` (`sqlite3` being the // `links=` value in our Cargo.toml) to get this value. This might be // useful if you need to ensure whatever crypto library sqlcipher relies // on is available, for example. println!("cargo:link-target={link_lib}"); if win_target() && cfg!(feature = "winsqlite3") { println!("cargo:rustc-link-lib=dylib={link_lib}"); return HeaderLocation::Wrapper; } // Allow users to specify where to find SQLite. if let Ok(dir) = env::var(format!("{}_LIB_DIR", env_prefix())) { // Try to use pkg-config to determine link commands let pkgconfig_path = Path::new(&dir).join("pkgconfig"); env::set_var("PKG_CONFIG_PATH", pkgconfig_path); if pkg_config::Config::new().probe(link_lib).is_err() { // Otherwise just emit the bare minimum link commands. println!("cargo:rustc-link-lib={}={link_lib}", find_link_mode()); println!("cargo:rustc-link-search={dir}"); } return HeaderLocation::FromEnvironment; } if let Some(header) = try_vcpkg() { return header; } // See if pkg-config can do everything for us. if let Ok(mut lib) = pkg_config::Config::new() .print_system_libs(false) .probe(link_lib) { if let Some(mut header) = lib.include_paths.pop() { header.push("sqlite3.h"); HeaderLocation::FromPath(header.to_string_lossy().into()) } else { HeaderLocation::Wrapper } } else { // No env var set and pkg-config couldn't help; just output the link-lib // request and hope that the library exists on the system paths. We used to // output /usr/lib explicitly, but that can introduce other linking problems; // see https://github.com/rusqlite/rusqlite/issues/207. println!("cargo:rustc-link-lib={}={link_lib}", find_link_mode()); HeaderLocation::Wrapper } } fn try_vcpkg() -> Option { if cfg!(feature = "vcpkg") && is_compiler("msvc") { // See if vcpkg can find it. if let Ok(mut lib) = vcpkg::Config::new().probe(lib_name()) { if let Some(mut header) = lib.include_paths.pop() { header.push("sqlite3.h"); return Some(HeaderLocation::FromPath(header.to_string_lossy().into())); } } None } else { None } } } #[cfg(not(feature = "buildtime_bindgen"))] mod bindings { #![allow(dead_code)] use super::HeaderLocation; use std::fs; use std::path::Path; static PREBUILT_BINDGEN_PATHS: &[&str] = &["bindgen-bindings/bindgen_3.14.0.rs"]; pub fn write_to_out_dir(_header: HeaderLocation, out_path: &Path) { let in_path = PREBUILT_BINDGEN_PATHS[PREBUILT_BINDGEN_PATHS.len() - 1]; fs::copy(in_path, out_path).expect("Could not copy bindings to output directory"); } } #[cfg(feature = "buildtime_bindgen")] mod bindings { use super::HeaderLocation; use bindgen::callbacks::{IntKind, ParseCallbacks}; use std::fs::OpenOptions; use std::io::Write; use std::path::Path; use super::win_target; #[derive(Debug)] struct SqliteTypeChooser; impl ParseCallbacks for SqliteTypeChooser { fn int_macro(&self, _name: &str, value: i64) -> Option { if value >= i32::MIN as i64 && value <= i32::MAX as i64 { Some(IntKind::I32) } else { None } } fn item_name(&self, original_item_name: &str) -> Option { original_item_name .strip_prefix("sqlite3_index_info_") .map(|s| s.to_owned()) } } // Are we generating the bundled bindings? Used to avoid emitting things // that would be problematic in bundled builds. This env var is set by // `upgrade.sh`. fn generating_bundled_bindings() -> bool { // Hacky way to know if we're generating the bundled bindings println!("cargo:rerun-if-env-changed=LIBSQLITE3_SYS_BUNDLING"); match std::env::var("LIBSQLITE3_SYS_BUNDLING") { Ok(v) => v != "0", Err(_) => false, } } pub fn write_to_out_dir(header: HeaderLocation, out_path: &Path) { let header: String = header.into(); let mut output = Vec::new(); let mut bindings = bindgen::builder() .trust_clang_mangling(false) .header(header.clone()) .parse_callbacks(Box::new(SqliteTypeChooser)) .blocklist_function("sqlite3_auto_extension") .raw_line( r#"extern "C" { pub fn sqlite3_auto_extension( xEntryPoint: ::std::option::Option< unsafe extern "C" fn( db: *mut sqlite3, pzErrMsg: *mut *const ::std::os::raw::c_char, pThunk: *const sqlite3_api_routines, ) -> ::std::os::raw::c_int, >, ) -> ::std::os::raw::c_int; }"#, ) .blocklist_function("sqlite3_cancel_auto_extension") .raw_line( r#"extern "C" { pub fn sqlite3_cancel_auto_extension( xEntryPoint: ::std::option::Option< unsafe extern "C" fn( db: *mut sqlite3, pzErrMsg: *mut *const ::std::os::raw::c_char, pThunk: *const sqlite3_api_routines, ) -> ::std::os::raw::c_int, >, ) -> ::std::os::raw::c_int; }"#, ) .rustfmt_bindings(true); if cfg!(any(feature = "sqlcipher", feature = "bundled-sqlcipher")) { bindings = bindings.clang_arg("-DSQLITE_HAS_CODEC"); } if cfg!(feature = "unlock_notify") { bindings = bindings.clang_arg("-DSQLITE_ENABLE_UNLOCK_NOTIFY"); } if cfg!(feature = "preupdate_hook") { bindings = bindings.clang_arg("-DSQLITE_ENABLE_PREUPDATE_HOOK"); } if cfg!(feature = "session") { bindings = bindings.clang_arg("-DSQLITE_ENABLE_SESSION"); } if win_target() && cfg!(feature = "winsqlite3") { bindings = bindings .clang_arg("-DBINDGEN_USE_WINSQLITE3") .blocklist_item("NTDDI_.+") .blocklist_item("WINAPI_FAMILY.*") .blocklist_item("_WIN32_.+") .blocklist_item("_VCRT_COMPILER_PREPROCESSOR") .blocklist_item("_SAL_VERSION") .blocklist_item("__SAL_H_VERSION") .blocklist_item("_USE_DECLSPECS_FOR_SAL") .blocklist_item("_USE_ATTRIBUTES_FOR_SAL") .blocklist_item("_CRT_PACKING") .blocklist_item("_HAS_EXCEPTIONS") .blocklist_item("_STL_LANG") .blocklist_item("_HAS_CXX17") .blocklist_item("_HAS_CXX20") .blocklist_item("_HAS_NODISCARD") .blocklist_item("WDK_NTDDI_VERSION") .blocklist_item("OSVERSION_MASK") .blocklist_item("SPVERSION_MASK") .blocklist_item("SUBVERSION_MASK") .blocklist_item("WINVER") .blocklist_item("__security_cookie") .blocklist_type("size_t") .blocklist_type("__vcrt_bool") .blocklist_type("wchar_t") .blocklist_function("__security_init_cookie") .blocklist_function("__report_gsfailure") .blocklist_function("__va_start"); } // When cross compiling unless effort is taken to fix the issue, bindgen // will find the wrong headers. There's only one header included by the // amalgamated `sqlite.h`: `stdarg.h`. // // Thankfully, there's almost no case where rust code needs to use // functions taking `va_list` (It's nearly impossible to get a `va_list` // in Rust unless you get passed it by C code for some reason). // // Arguably, we should never be including these, but we include them for // the cases where they aren't totally broken... let target_arch = std::env::var("TARGET").unwrap(); let host_arch = std::env::var("HOST").unwrap(); let is_cross_compiling = target_arch != host_arch; // Note that when generating the bundled file, we're essentially always // cross compiling. if generating_bundled_bindings() || is_cross_compiling { // Get rid of va_list, as it's not bindings = bindings .blocklist_function("sqlite3_vmprintf") .blocklist_function("sqlite3_vsnprintf") .blocklist_function("sqlite3_str_vappendf") .blocklist_type("va_list") .blocklist_type("__builtin_va_list") .blocklist_type("__gnuc_va_list") .blocklist_type("__va_list_tag") .blocklist_item("__GNUC_VA_LIST"); } bindings .layout_tests(false) .generate() .unwrap_or_else(|_| panic!("could not run bindgen on header {}", header)) .write(Box::new(&mut output)) .expect("could not write output of bindgen"); let mut output = String::from_utf8(output).expect("bindgen output was not UTF-8?!"); // rusqlite's functions feature ors in the SQLITE_DETERMINISTIC flag when it // can. This flag was added in SQLite 3.8.3, but oring it in in prior // versions of SQLite is harmless. We don't want to not build just // because this flag is missing (e.g., if we're linking against // SQLite 3.7.x), so append the flag manually if it isn't present in bindgen's // output. if !output.contains("pub const SQLITE_DETERMINISTIC") { output.push_str("\npub const SQLITE_DETERMINISTIC: i32 = 2048;\n"); } let mut file = OpenOptions::new() .write(true) .truncate(true) .create(true) .open(out_path) .unwrap_or_else(|_| panic!("Could not write to {:?}", out_path)); file.write_all(output.as_bytes()) .unwrap_or_else(|_| panic!("Could not write to {:?}", out_path)); } }