src/tools/compiletest/src/debuggers.rs - rust - Git at Google

 use std::env;
 use std::process::Command;
 use std::sync::Arc;

 use camino::Utf8Path;

 use crate::common::{Config, Debugger};

 pub(crate) fn configure_cdb(config: &Config) -> Option<Arc<Config>> {
     config.cdb.as_ref()?;

     Some(Arc::new(Config { debugger: Some(Debugger::Cdb), ..config.clone() }))
 }

 pub(crate) fn configure_gdb(config: &Config) -> Option<Arc<Config>> {
     config.gdb_version?;

     if config.matches_env("msvc") {
         return None;
     }

     if config.remote_test_client.is_some() && !config.target.contains("android") {
         println!(
             "WARNING: debuginfo tests are not available when \
              testing with remote"
         );
         return None;
     }

     if config.target.contains("android") {
         println!(
             "{} debug-info test uses tcp 5039 port.\
              please reserve it",
             config.target
         );

         // android debug-info test uses remote debugger so, we test 1 thread
         // at once as they're all sharing the same TCP port to communicate
         // over.
         //
         // we should figure out how to lift this restriction! (run them all
         // on different ports allocated dynamically).
         //
         // SAFETY: at this point we are still single-threaded.
         unsafe { env::set_var("RUST_TEST_THREADS", "1") };
     }

     Some(Arc::new(Config { debugger: Some(Debugger::Gdb), ..config.clone() }))
 }

 pub(crate) fn configure_lldb(config: &Config) -> Option<Arc<Config>> {
     config.lldb.as_ref()?;

     Some(Arc::new(Config { debugger: Some(Debugger::Lldb), ..config.clone() }))
 }

 pub(crate) fn query_cdb_version(cdb: &Utf8Path) -> Option<[u16; 4]> {
     let mut version = None;
     if let Ok(output) = Command::new(cdb).arg("/version").output() {
         if let Some(first_line) = String::from_utf8_lossy(&output.stdout).lines().next() {
             version = extract_cdb_version(&first_line);
         }
     }
     version
 }

 pub(crate) fn extract_cdb_version(full_version_line: &str) -> Option<[u16; 4]> {
     // Example full_version_line: "cdb version 10.0.18362.1"
     let version = full_version_line.rsplit(' ').next()?;
     let mut components = version.split('.');
     let major: u16 = components.next().unwrap().parse().unwrap();
     let minor: u16 = components.next().unwrap().parse().unwrap();
     let patch: u16 = components.next().unwrap_or("0").parse().unwrap();
     let build: u16 = components.next().unwrap_or("0").parse().unwrap();
     Some([major, minor, patch, build])
 }

 pub(crate) fn query_gdb_version(gdb: &Utf8Path) -> Option<u32> {
     let mut version_line = None;
     if let Ok(output) = Command::new(&gdb).arg("--version").output() {
         if let Some(first_line) = String::from_utf8_lossy(&output.stdout).lines().next() {
             version_line = Some(first_line.to_string());
         }
     }

     let version = match version_line {
         Some(line) => extract_gdb_version(&line),
         None => return None,
     };

     version
 }

 pub(crate) fn extract_gdb_version(full_version_line: &str) -> Option<u32> {
     let full_version_line = full_version_line.trim();

     // GDB versions look like this: "major.minor.patch?.yyyymmdd?", with both
     // of the ? sections being optional

     // We will parse up to 3 digits for each component, ignoring the date

     // We skip text in parentheses.  This avoids accidentally parsing
     // the openSUSE version, which looks like:
     //  GNU gdb (GDB; openSUSE Leap 15.0) 8.1
     // This particular form is documented in the GNU coding standards:
     // https://www.gnu.org/prep/standards/html_node/_002d_002dversion.html#g_t_002d_002dversion

     let unbracketed_part = full_version_line.split('[').next().unwrap();
     let mut splits = unbracketed_part.trim_end().rsplit(' ');
     let version_string = splits.next().unwrap();

     let mut splits = version_string.split('.');
     let major = splits.next().unwrap();
     let minor = splits.next().unwrap();
     let patch = splits.next();

     let major: u32 = major.parse().unwrap();
     let (minor, patch): (u32, u32) = match minor.find(not_a_digit) {
         None => {
             let minor = minor.parse().unwrap();
             let patch: u32 = match patch {
                 Some(patch) => match patch.find(not_a_digit) {
                     None => patch.parse().unwrap(),
                     Some(idx) if idx > 3 => 0,
                     Some(idx) => patch[..idx].parse().unwrap(),
                 },
                 None => 0,
             };
             (minor, patch)
         }
         // There is no patch version after minor-date (e.g. "4-2012").
         Some(idx) => {
             let minor = minor[..idx].parse().unwrap();
             (minor, 0)
         }
     };

     Some(((major * 1000) + minor) * 1000 + patch)
 }

 /// Returns LLDB version
 pub(crate) fn extract_lldb_version(full_version_line: &str) -> Option<u32> {
     // Extract the major LLDB version from the given version string.
     // LLDB version strings are different for Apple and non-Apple platforms.
     // The Apple variant looks like this:
     //
     // LLDB-179.5 (older versions)
     // lldb-300.2.51 (new versions)
     //
     // We are only interested in the major version number, so this function
     // will return `Some(179)` and `Some(300)` respectively.
     //
     // Upstream versions look like:
     // lldb version 6.0.1
     //
     // There doesn't seem to be a way to correlate the Apple version
     // with the upstream version, and since the tests were originally
     // written against Apple versions, we make a fake Apple version by
     // multiplying the first number by 100. This is a hack.

     let full_version_line = full_version_line.trim();

     if let Some(apple_ver) =
         full_version_line.strip_prefix("LLDB-").or_else(|| full_version_line.strip_prefix("lldb-"))
     {
         if let Some(idx) = apple_ver.find(not_a_digit) {
             let version: u32 = apple_ver[..idx].parse().unwrap();
             return Some(version);
         }
     } else if let Some(lldb_ver) = full_version_line.strip_prefix("lldb version ") {
         if let Some(idx) = lldb_ver.find(not_a_digit) {
             let version: u32 = lldb_ver[..idx].parse().ok()?;
             return Some(version * 100);
         }
     }
     None
 }

 fn not_a_digit(c: char) -> bool {
     !c.is_ascii_digit()
 }
	use std::env;
	use std::process::Command;
	use std::sync::Arc;

	use camino::Utf8Path;

	use crate::common::{Config, Debugger};

	pub(crate) fn configure_cdb(config: &Config) -> Option<Arc<Config>> {
	config.cdb.as_ref()?;

	Some(Arc::new(Config { debugger: Some(Debugger::Cdb), ..config.clone() }))
	}

	pub(crate) fn configure_gdb(config: &Config) -> Option<Arc<Config>> {
	config.gdb_version?;

	if config.matches_env("msvc") {
	return None;
	}

	if config.remote_test_client.is_some() && !config.target.contains("android") {
	println!(
	"WARNING: debuginfo tests are not available when \
	testing with remote"
	);
	return None;
	}

	if config.target.contains("android") {
	println!(
	"{} debug-info test uses tcp 5039 port.\
	please reserve it",
	config.target
	);

	// android debug-info test uses remote debugger so, we test 1 thread
	// at once as they're all sharing the same TCP port to communicate
	// over.
	//
	// we should figure out how to lift this restriction! (run them all
	// on different ports allocated dynamically).
	//
	// SAFETY: at this point we are still single-threaded.
	unsafe { env::set_var("RUST_TEST_THREADS", "1") };
	}

	Some(Arc::new(Config { debugger: Some(Debugger::Gdb), ..config.clone() }))
	}

	pub(crate) fn configure_lldb(config: &Config) -> Option<Arc<Config>> {
	config.lldb.as_ref()?;

	Some(Arc::new(Config { debugger: Some(Debugger::Lldb), ..config.clone() }))
	}

	pub(crate) fn query_cdb_version(cdb: &Utf8Path) -> Option<[u16; 4]> {
	let mut version = None;
	if let Ok(output) = Command::new(cdb).arg("/version").output() {
	if let Some(first_line) = String::from_utf8_lossy(&output.stdout).lines().next() {
	version = extract_cdb_version(&first_line);
	}
	}
	version
	}

	pub(crate) fn extract_cdb_version(full_version_line: &str) -> Option<[u16; 4]> {
	// Example full_version_line: "cdb version 10.0.18362.1"
	let version = full_version_line.rsplit(' ').next()?;
	let mut components = version.split('.');
	let major: u16 = components.next().unwrap().parse().unwrap();
	let minor: u16 = components.next().unwrap().parse().unwrap();
	let patch: u16 = components.next().unwrap_or("0").parse().unwrap();
	let build: u16 = components.next().unwrap_or("0").parse().unwrap();
	Some([major, minor, patch, build])
	}

	pub(crate) fn query_gdb_version(gdb: &Utf8Path) -> Option<u32> {
	let mut version_line = None;
	if let Ok(output) = Command::new(&gdb).arg("--version").output() {
	if let Some(first_line) = String::from_utf8_lossy(&output.stdout).lines().next() {
	version_line = Some(first_line.to_string());
	}
	}

	let version = match version_line {
	Some(line) => extract_gdb_version(&line),
	None => return None,
	};

	version
	}

	pub(crate) fn extract_gdb_version(full_version_line: &str) -> Option<u32> {
	let full_version_line = full_version_line.trim();

	// GDB versions look like this: "major.minor.patch?.yyyymmdd?", with both
	// of the ? sections being optional

	// We will parse up to 3 digits for each component, ignoring the date

	// We skip text in parentheses. This avoids accidentally parsing
	// the openSUSE version, which looks like:
	// GNU gdb (GDB; openSUSE Leap 15.0) 8.1
	// This particular form is documented in the GNU coding standards:
	// https://www.gnu.org/prep/standards/html_node/_002d_002dversion.html#g_t_002d_002dversion

	let unbracketed_part = full_version_line.split('[').next().unwrap();
	let mut splits = unbracketed_part.trim_end().rsplit(' ');
	let version_string = splits.next().unwrap();

	let mut splits = version_string.split('.');
	let major = splits.next().unwrap();
	let minor = splits.next().unwrap();
	let patch = splits.next();

	let major: u32 = major.parse().unwrap();
	let (minor, patch): (u32, u32) = match minor.find(not_a_digit) {
	None => {
	let minor = minor.parse().unwrap();
	let patch: u32 = match patch {
	Some(patch) => match patch.find(not_a_digit) {
	None => patch.parse().unwrap(),
	Some(idx) if idx > 3 => 0,
	Some(idx) => patch[..idx].parse().unwrap(),
	},
	None => 0,
	};
	(minor, patch)
	}
	// There is no patch version after minor-date (e.g. "4-2012").
	Some(idx) => {
	let minor = minor[..idx].parse().unwrap();
	(minor, 0)
	}
	};

	Some(((major * 1000) + minor) * 1000 + patch)
	}

	/// Returns LLDB version
	pub(crate) fn extract_lldb_version(full_version_line: &str) -> Option<u32> {
	// Extract the major LLDB version from the given version string.
	// LLDB version strings are different for Apple and non-Apple platforms.
	// The Apple variant looks like this:
	//
	// LLDB-179.5 (older versions)
	// lldb-300.2.51 (new versions)
	//
	// We are only interested in the major version number, so this function
	// will return `Some(179)` and `Some(300)` respectively.
	//
	// Upstream versions look like:
	// lldb version 6.0.1
	//
	// There doesn't seem to be a way to correlate the Apple version
	// with the upstream version, and since the tests were originally
	// written against Apple versions, we make a fake Apple version by
	// multiplying the first number by 100. This is a hack.

	let full_version_line = full_version_line.trim();

	if let Some(apple_ver) =
	full_version_line.strip_prefix("LLDB-").or_else(\|\| full_version_line.strip_prefix("lldb-"))
	{
	if let Some(idx) = apple_ver.find(not_a_digit) {
	let version: u32 = apple_ver[..idx].parse().unwrap();
	return Some(version);
	}
	} else if let Some(lldb_ver) = full_version_line.strip_prefix("lldb version ") {
	if let Some(idx) = lldb_ver.find(not_a_digit) {
	let version: u32 = lldb_ver[..idx].parse().ok()?;
	return Some(version * 100);
	}
	}
	None
	}

	fn not_a_digit(c: char) -> bool {
	!c.is_ascii_digit()
	}