gix_merge/blob/platform/merge.rs
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use crate::blob::{builtin_driver, PlatformRef, Resolution};
use std::io::Read;
use std::path::PathBuf;
/// Options for the use in the [`PlatformRef::merge()`] call.
#[derive(Default, Copy, Clone, Debug, Eq, PartialEq)]
pub struct Options {
/// If `true`, the resources being merged are contained in a virtual ancestor,
/// which is the case when merge bases are merged into one.
pub is_virtual_ancestor: bool,
/// Determine how to resolve conflicts. If `None`, no conflict resolution is possible, and it picks a side.
pub resolve_binary_with: Option<builtin_driver::binary::ResolveWith>,
/// Options for the builtin [text driver](crate::blob::BuiltinDriver::Text).
pub text: builtin_driver::text::Options,
}
/// The error returned by [`PlatformRef::merge()`].
#[derive(Debug, thiserror::Error)]
#[allow(missing_docs)]
pub enum Error {
#[error("At least one resource was too large to be processed")]
ResourceTooLarge,
#[error(transparent)]
PrepareExternalDriver(#[from] inner::prepare_external_driver::Error),
#[error("Failed to launch external merge driver: {cmd}")]
SpawnExternalDriver { cmd: String, source: std::io::Error },
#[error("External merge driver failed with non-zero exit status {status:?}: {cmd}")]
ExternalDriverFailure {
status: std::process::ExitStatus,
cmd: String,
},
#[error("IO failed when dealing with merge-driver output")]
ExternalDriverIO(#[from] std::io::Error),
}
/// The product of a [`PlatformRef::prepare_external_driver()`] operation.
///
/// This type allows to creation of [`std::process::Command`], ready to run, with `stderr` and `stdout` set to *inherit*,
/// but `stdin` closed.
/// It's expected to leave its result in the file substituted at `current` which is then supposed to be read back from there.
// TODO: remove dead-code annotation
#[allow(dead_code)]
pub struct Command {
/// The pre-configured command
cmd: std::process::Command,
/// A tempfile holding the *current* (ours) state of the resource.
current: gix_tempfile::Handle<gix_tempfile::handle::Closed>,
/// The path at which `current` is located, for reading the result back from later.
current_path: PathBuf,
/// A tempfile holding the *ancestor* (base) state of the resource.
ancestor: gix_tempfile::Handle<gix_tempfile::handle::Closed>,
/// A tempfile holding the *other* (their) state of the resource.
other: gix_tempfile::Handle<gix_tempfile::handle::Closed>,
}
// Just to keep things here but move them a level up later.
pub(super) mod inner {
///
pub mod prepare_external_driver {
use crate::blob::builtin_driver::text::Conflict;
use crate::blob::platform::{merge, DriverChoice};
use crate::blob::{builtin_driver, BuiltinDriver, Driver, PlatformRef, ResourceKind};
use bstr::{BString, ByteVec};
use gix_tempfile::{AutoRemove, ContainingDirectory};
use std::io::Write;
use std::ops::{Deref, DerefMut};
use std::path::{Path, PathBuf};
use std::process::Stdio;
/// The error returned by [PlatformRef::prepare_external_driver()](PlatformRef::prepare_external_driver()).
#[derive(Debug, thiserror::Error)]
#[allow(missing_docs)]
pub enum Error {
#[error("The resource of kind {kind:?} was too large to be processed")]
ResourceTooLarge { kind: ResourceKind },
#[error(
"Tempfile to store content of '{rela_path}' ({kind:?}) for passing to external merge command could not be created"
)]
CreateTempfile {
rela_path: BString,
kind: ResourceKind,
source: std::io::Error,
},
#[error(
"Could not write content of '{rela_path}' ({kind:?}) to tempfile for passing to external merge command"
)]
WriteTempfile {
rela_path: BString,
kind: ResourceKind,
source: std::io::Error,
},
}
/// Plumbing
impl<'parent> PlatformRef<'parent> {
/// Given `merge_command` and `context`, typically obtained from git-configuration, and the currently set merge-resources,
/// prepare the invocation and temporary files needed to launch it according to protocol.
/// See the documentation of [`Driver::command`] for possible substitutions.
///
/// Please note that this is an expensive operation this will always create three temporary files to hold all sides of the merge.
///
/// The resulting command should be spawned, and when successful, [the result file can be opened](merge::Command::open_result_file)
/// to read back the result into a suitable buffer.
///
/// ### Deviation
///
/// * We allow passing more context than Git would by taking a whole `context`,
/// it's up to the caller to decide how much is filled.
/// * Our tempfiles aren't suffixed `.merge_file_XXXXXX` with `X` replaced with characters for uniqueness.
pub fn prepare_external_driver(
&self,
merge_command: BString,
builtin_driver::text::Labels {
ancestor,
current,
other,
}: builtin_driver::text::Labels<'_>,
context: gix_command::Context,
) -> Result<merge::Command, Error> {
fn write_data(
data: &[u8],
) -> std::io::Result<(gix_tempfile::Handle<gix_tempfile::handle::Closed>, PathBuf)> {
let mut file = gix_tempfile::new(Path::new(""), ContainingDirectory::Exists, AutoRemove::Tempfile)?;
file.write_all(data)?;
let mut path = Default::default();
file.with_mut(|f| {
f.path().clone_into(&mut path);
})?;
let file = file.close()?;
Ok((file, path))
}
let base = self.ancestor.data.as_slice().ok_or(Error::ResourceTooLarge {
kind: ResourceKind::CommonAncestorOrBase,
})?;
let ours = self.current.data.as_slice().ok_or(Error::ResourceTooLarge {
kind: ResourceKind::CurrentOrOurs,
})?;
let theirs = self.other.data.as_slice().ok_or(Error::ResourceTooLarge {
kind: ResourceKind::OtherOrTheirs,
})?;
let (base_tmp, base_path) = write_data(base).map_err(|err| Error::CreateTempfile {
rela_path: self.ancestor.rela_path.into(),
kind: ResourceKind::CommonAncestorOrBase,
source: err,
})?;
let (ours_tmp, ours_path) = write_data(ours).map_err(|err| Error::CreateTempfile {
rela_path: self.current.rela_path.into(),
kind: ResourceKind::CurrentOrOurs,
source: err,
})?;
let (theirs_tmp, theirs_path) = write_data(theirs).map_err(|err| Error::CreateTempfile {
rela_path: self.other.rela_path.into(),
kind: ResourceKind::OtherOrTheirs,
source: err,
})?;
let mut cmd = BString::from(Vec::with_capacity(merge_command.len()));
let mut count = 0;
for token in merge_command.split(|b| *b == b'%') {
count += 1;
let token = if count > 1 {
match token.first() {
Some(&b'O') => {
cmd.push_str(gix_path::into_bstr(&base_path).as_ref());
&token[1..]
}
Some(&b'A') => {
cmd.push_str(gix_path::into_bstr(&ours_path).as_ref());
&token[1..]
}
Some(&b'B') => {
cmd.push_str(gix_path::into_bstr(&theirs_path).as_ref());
&token[1..]
}
Some(&b'L') => {
let marker_size = self
.options
.text
.conflict
.marker_size()
.unwrap_or(Conflict::DEFAULT_MARKER_SIZE);
cmd.push_str(format!("{marker_size}"));
&token[1..]
}
Some(&b'P') => {
cmd.push_str(gix_quote::single(self.current.rela_path));
&token[1..]
}
Some(&b'S') => {
cmd.push_str(gix_quote::single(ancestor.unwrap_or_default()));
&token[1..]
}
Some(&b'X') => {
cmd.push_str(gix_quote::single(current.unwrap_or_default()));
&token[1..]
}
Some(&b'Y') => {
cmd.push_str(gix_quote::single(other.unwrap_or_default()));
&token[1..]
}
Some(_other) => {
cmd.push(b'%');
token
}
None => b"%",
}
} else {
token
};
cmd.extend_from_slice(token);
}
Ok(merge::Command {
cmd: gix_command::prepare(gix_path::from_bstring(cmd))
.with_context(context)
.with_shell()
.stdin(Stdio::null())
.stdout(Stdio::inherit())
.stderr(Stdio::inherit())
.into(),
current: ours_tmp,
current_path: ours_path,
ancestor: base_tmp,
other: theirs_tmp,
})
}
/// Return the configured driver program for use with [`Self::prepare_external_driver()`], or `Err`
/// with the built-in driver to use instead.
pub fn configured_driver(&self) -> Result<&'parent Driver, BuiltinDriver> {
match self.driver {
DriverChoice::BuiltIn(builtin) => Err(builtin),
DriverChoice::Index(idx) => self.parent.drivers.get(idx).ok_or(BuiltinDriver::default()),
}
}
}
impl std::fmt::Debug for merge::Command {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
self.cmd.fmt(f)
}
}
impl Deref for merge::Command {
type Target = std::process::Command;
fn deref(&self) -> &Self::Target {
&self.cmd
}
}
impl DerefMut for merge::Command {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.cmd
}
}
impl merge::Command {
/// Open the file which should have been written to the location of `ours`, to yield the result of the merge operation.
/// Calling this makes sense only after the merge command has finished successfully.
pub fn open_result_file(&self) -> std::io::Result<std::fs::File> {
std::fs::File::open(&self.current_path)
}
}
}
///
pub mod builtin_merge {
use crate::blob::{builtin_driver, BuiltinDriver, PlatformRef, Resolution};
/// An identifier to tell us how a merge conflict was resolved by [builtin_merge](PlatformRef::builtin_merge).
#[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub enum Pick {
/// In a binary merge, chose the ancestor.
///
/// Use [`PlatformRef::buffer_by_pick()`] to retrieve it.
Ancestor,
/// In a binary merge, chose our side.
///
/// Use [`PlatformRef::buffer_by_pick()`] to retrieve it.
Ours,
/// In a binary merge, chose their side.
///
/// Use [`PlatformRef::buffer_by_pick()`] to retrieve it.
Theirs,
/// New data was produced with the result of the merge, to be found in the buffer that was passed to
/// [builtin_merge()](PlatformRef::builtin_merge).
/// This happens for any merge that isn't a binary merge.
Buffer,
}
/// Plumbing
impl<'parent> PlatformRef<'parent> {
/// Perform the merge using the given `driver`, possibly placing the output in `out`.
/// `input` can be used to keep tokens between runs, but note it will only grow in size unless cleared manually.
/// Use `labels` to annotate conflict sections in case of a text-merge.
/// Returns `None` if one of the buffers is too large, making a merge impossible.
/// Note that if the *pick* wasn't [`Pick::Buffer`], then `out` will not have been cleared,
/// and one has to take the data from the respective resource.
pub fn builtin_merge(
&self,
driver: BuiltinDriver,
out: &mut Vec<u8>,
input: &mut imara_diff::intern::InternedInput<&'parent [u8]>,
labels: builtin_driver::text::Labels<'_>,
) -> Option<(Pick, Resolution)> {
let base = self.ancestor.data.as_slice()?;
let ours = self.current.data.as_slice()?;
let theirs = self.other.data.as_slice()?;
let driver = if driver != BuiltinDriver::Binary
&& (is_binary_buf(ours) || is_binary_buf(theirs) || is_binary_buf(base))
{
BuiltinDriver::Binary
} else {
driver
};
Some(match driver {
BuiltinDriver::Text => {
let resolution =
builtin_driver::text(out, input, labels, ours, base, theirs, self.options.text);
(Pick::Buffer, resolution)
}
BuiltinDriver::Binary => {
let (pick, resolution) = builtin_driver::binary(self.options.resolve_binary_with);
let pick = match pick {
builtin_driver::binary::Pick::Ours => Pick::Ours,
builtin_driver::binary::Pick::Theirs => Pick::Theirs,
builtin_driver::binary::Pick::Ancestor => Pick::Ancestor,
};
(pick, resolution)
}
BuiltinDriver::Union => {
let resolution = builtin_driver::text(
out,
input,
labels,
ours,
base,
theirs,
builtin_driver::text::Options {
conflict: builtin_driver::text::Conflict::ResolveWithUnion,
..self.options.text
},
);
(Pick::Buffer, resolution)
}
})
}
}
fn is_binary_buf(buf: &[u8]) -> bool {
let buf = &buf[..buf.len().min(8000)];
buf.contains(&0)
}
}
}
/// Convenience
impl<'parent> PlatformRef<'parent> {
/// Perform the merge, possibly invoking an external merge command, and store the result in `out`, returning `(pick, resolution)`.
/// Note that `pick` indicates which resource the buffer should be taken from, unless it's [`Pick::Buffer`](inner::builtin_merge::Pick::Buffer)
/// to indicate it's `out`.
/// Use `labels` to annotate conflict sections in case of a text-merge.
/// The merge is configured by `opts` and possible merge driver command executions are affected by `context`.
///
/// Note that at this stage, none-existing input data will simply default to an empty buffer when running the actual merge algorithm.
/// Too-large resources will result in an error.
///
/// Generally, it is assumed that standard logic, like deletions of files, is handled before any of this is called, so we are lenient
/// in terms of buffer handling to make it more useful in the face of missing local files.
pub fn merge(
&self,
out: &mut Vec<u8>,
labels: builtin_driver::text::Labels<'_>,
context: gix_command::Context,
) -> Result<(inner::builtin_merge::Pick, Resolution), Error> {
let _span = gix_trace::coarse!(
"gix_merge::blob::PlatformRef::merge()",
current_rela_path = %self.current.rela_path
);
match self.configured_driver() {
Ok(driver) => {
let mut cmd = self.prepare_external_driver(driver.command.clone(), labels, context)?;
let status = cmd.status().map_err(|err| Error::SpawnExternalDriver {
cmd: format!("{:?}", cmd.cmd),
source: err,
})?;
if !status.success() {
return Err(Error::ExternalDriverFailure {
cmd: format!("{:?}", cmd.cmd),
status,
});
}
out.clear();
cmd.open_result_file()?.read_to_end(out)?;
Ok((inner::builtin_merge::Pick::Buffer, Resolution::Complete))
}
Err(builtin) => {
let mut input = imara_diff::intern::InternedInput::new(&[][..], &[]);
out.clear();
let (pick, resolution) = self
.builtin_merge(builtin, out, &mut input, labels)
.ok_or(Error::ResourceTooLarge)?;
Ok((pick, resolution))
}
}
}
/// Using a `pick` obtained from [`merge()`](Self::merge), obtain the respective buffer suitable for reading or copying.
/// Return `None` if the buffer is too large, or if the `pick` corresponds to a buffer (that was written separately).
pub fn buffer_by_pick(&self, pick: inner::builtin_merge::Pick) -> Option<&'parent [u8]> {
match pick {
inner::builtin_merge::Pick::Ancestor => self.ancestor.data.as_slice(),
inner::builtin_merge::Pick::Ours => self.current.data.as_slice(),
inner::builtin_merge::Pick::Theirs => self.other.data.as_slice(),
inner::builtin_merge::Pick::Buffer => None,
}
}
}