nix-super/src/libfetchers/git.cc

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#include "fetchers.hh"
#include "users.hh"
#include "cache.hh"
#include "globals.hh"
#include "tarfile.hh"
#include "store-api.hh"
#include "url-parts.hh"
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#include "pathlocks.hh"
#include "processes.hh"
#include "git.hh"
#include "fs-input-accessor.hh"
#include "mounted-input-accessor.hh"
#include "git-utils.hh"
#include "logging.hh"
#include "finally.hh"
#include "fetch-settings.hh"
#include <regex>
#include <string.h>
#include <sys/time.h>
#include <sys/wait.h>
using namespace std::string_literals;
namespace nix::fetchers {
namespace {
// Explicit initial branch of our bare repo to suppress warnings from new version of git.
// The value itself does not matter, since we always fetch a specific revision or branch.
// It is set with `-c init.defaultBranch=` instead of `--initial-branch=` to stay compatible with
// old version of git, which will ignore unrecognized `-c` options.
const std::string gitInitialBranch = "__nix_dummy_branch";
bool isCacheFileWithinTtl(time_t now, const struct stat & st)
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{
return st.st_mtime + settings.tarballTtl > now;
}
bool touchCacheFile(const Path & path, time_t touch_time)
{
struct timeval times[2];
times[0].tv_sec = touch_time;
times[0].tv_usec = 0;
times[1].tv_sec = touch_time;
times[1].tv_usec = 0;
return lutimes(path.c_str(), times) == 0;
}
Path getCachePath(std::string_view key)
{
return getCacheDir() + "/nix/gitv3/" +
hashString(htSHA256, key).to_string(HashFormat::Base32, false);
}
// Returns the name of the HEAD branch.
//
// Returns the head branch name as reported by git ls-remote --symref, e.g., if
// ls-remote returns the output below, "main" is returned based on the ref line.
//
// ref: refs/heads/main HEAD
// ...
std::optional<std::string> readHead(const Path & path)
{
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auto [status, output] = runProgram(RunOptions {
.program = "git",
// FIXME: use 'HEAD' to avoid returning all refs
.args = {"ls-remote", "--symref", path},
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.isInteractive = true,
});
if (status != 0) return std::nullopt;
std::string_view line = output;
line = line.substr(0, line.find("\n"));
if (const auto parseResult = git::parseLsRemoteLine(line)) {
switch (parseResult->kind) {
case git::LsRemoteRefLine::Kind::Symbolic:
debug("resolved HEAD ref '%s' for repo '%s'", parseResult->target, path);
break;
case git::LsRemoteRefLine::Kind::Object:
debug("resolved HEAD rev '%s' for repo '%s'", parseResult->target, path);
break;
}
return parseResult->target;
}
return std::nullopt;
}
// Persist the HEAD ref from the remote repo in the local cached repo.
bool storeCachedHead(const std::string & actualUrl, const std::string & headRef)
{
Path cacheDir = getCachePath(actualUrl);
try {
runProgram("git", true, { "-C", cacheDir, "--git-dir", ".", "symbolic-ref", "--", "HEAD", headRef });
} catch (ExecError &e) {
if (!WIFEXITED(e.status)) throw;
return false;
}
/* No need to touch refs/HEAD, because `git symbolic-ref` updates the mtime. */
return true;
}
std::optional<std::string> readHeadCached(const std::string & actualUrl)
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{
// Create a cache path to store the branch of the HEAD ref. Append something
// in front of the URL to prevent collision with the repository itself.
Path cacheDir = getCachePath(actualUrl);
Path headRefFile = cacheDir + "/HEAD";
time_t now = time(0);
struct stat st;
std::optional<std::string> cachedRef;
if (stat(headRefFile.c_str(), &st) == 0) {
cachedRef = readHead(cacheDir);
if (cachedRef != std::nullopt &&
*cachedRef != gitInitialBranch &&
isCacheFileWithinTtl(now, st))
{
debug("using cached HEAD ref '%s' for repo '%s'", *cachedRef, actualUrl);
return cachedRef;
}
}
auto ref = readHead(actualUrl);
if (ref) return ref;
if (cachedRef) {
// If the cached git ref is expired in fetch() below, and the 'git fetch'
// fails, it falls back to continuing with the most recent version.
// This function must behave the same way, so we return the expired
// cached ref here.
warn("could not get HEAD ref for repository '%s'; using expired cached ref '%s'", actualUrl, *cachedRef);
return *cachedRef;
}
return std::nullopt;
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}
std::vector<PublicKey> getPublicKeys(const Attrs & attrs)
{
std::vector<PublicKey> publicKeys;
if (attrs.contains("publicKeys")) {
nlohmann::json publicKeysJson = nlohmann::json::parse(getStrAttr(attrs, "publicKeys"));
ensureType(publicKeysJson, nlohmann::json::value_t::array);
publicKeys = publicKeysJson.get<std::vector<PublicKey>>();
}
if (attrs.contains("publicKey"))
publicKeys.push_back(PublicKey{maybeGetStrAttr(attrs, "keytype").value_or("ssh-ed25519"),getStrAttr(attrs, "publicKey")});
return publicKeys;
}
} // end namespace
struct GitInputScheme : InputScheme
{
std::optional<Input> inputFromURL(const ParsedURL & url, bool requireTree) const override
{
if (url.scheme != "git" &&
url.scheme != "git+http" &&
url.scheme != "git+https" &&
url.scheme != "git+ssh" &&
url.scheme != "git+file") return {};
auto url2(url);
if (hasPrefix(url2.scheme, "git+")) url2.scheme = std::string(url2.scheme, 4);
url2.query.clear();
Attrs attrs;
attrs.emplace("type", "git");
for (auto & [name, value] : url.query) {
if (name == "rev" || name == "ref" || name == "keytype" || name == "publicKey" || name == "publicKeys")
attrs.emplace(name, value);
else if (name == "shallow" || name == "submodules" || name == "allRefs" || name == "verifyCommit")
attrs.emplace(name, Explicit<bool> { value == "1" });
else
url2.query.emplace(name, value);
}
attrs.emplace("url", url2.to_string());
return inputFromAttrs(attrs);
}
std::string_view schemeName() const override
{
return "git";
}
StringSet allowedAttrs() const override
{
return {
"url",
"ref",
"rev",
"shallow",
"submodules",
"lastModified",
"revCount",
"narHash",
"allRefs",
"name",
"dirtyRev",
"dirtyShortRev",
"verifyCommit",
"keytype",
"publicKey",
"publicKeys",
};
}
std::optional<Input> inputFromAttrs(const Attrs & attrs) const override
{
for (auto & [name, _] : attrs)
if (name == "verifyCommit"
|| name == "keytype"
|| name == "publicKey"
|| name == "publicKeys")
experimentalFeatureSettings.require(Xp::VerifiedFetches);
maybeGetBoolAttr(attrs, "verifyCommit");
if (auto ref = maybeGetStrAttr(attrs, "ref")) {
if (std::regex_search(*ref, badGitRefRegex))
throw BadURL("invalid Git branch/tag name '%s'", *ref);
}
Input input;
input.attrs = attrs;
auto url = fixGitURL(getStrAttr(attrs, "url"));
parseURL(url);
input.attrs["url"] = url;
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getShallowAttr(input);
getSubmodulesAttr(input);
getAllRefsAttr(input);
return input;
}
ParsedURL toURL(const Input & input) const override
{
auto url = parseURL(getStrAttr(input.attrs, "url"));
if (url.scheme != "git") url.scheme = "git+" + url.scheme;
if (auto rev = input.getRev()) url.query.insert_or_assign("rev", rev->gitRev());
if (auto ref = input.getRef()) url.query.insert_or_assign("ref", *ref);
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if (getShallowAttr(input))
url.query.insert_or_assign("shallow", "1");
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if (getSubmodulesAttr(input))
url.query.insert_or_assign("submodules", "1");
if (maybeGetBoolAttr(input.attrs, "verifyCommit").value_or(false))
url.query.insert_or_assign("verifyCommit", "1");
auto publicKeys = getPublicKeys(input.attrs);
if (publicKeys.size() == 1) {
url.query.insert_or_assign("keytype", publicKeys.at(0).type);
url.query.insert_or_assign("publicKey", publicKeys.at(0).key);
}
else if (publicKeys.size() > 1)
url.query.insert_or_assign("publicKeys", publicKeys_to_string(publicKeys));
return url;
}
Input applyOverrides(
const Input & input,
std::optional<std::string> ref,
std::optional<Hash> rev) const override
{
auto res(input);
if (rev) res.attrs.insert_or_assign("rev", rev->gitRev());
if (ref) res.attrs.insert_or_assign("ref", *ref);
if (!res.getRef() && res.getRev())
throw Error("Git input '%s' has a commit hash but no branch/tag name", res.to_string());
return res;
}
void clone(const Input & input, const Path & destDir) const override
{
auto repoInfo = getRepoInfo(input);
Strings args = {"clone"};
args.push_back(repoInfo.url);
if (auto ref = input.getRef()) {
args.push_back("--branch");
args.push_back(*ref);
}
if (input.getRev()) throw UnimplementedError("cloning a specific revision is not implemented");
args.push_back(destDir);
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runProgram("git", true, args, {}, true);
}
std::optional<Path> getSourcePath(const Input & input) const override
{
auto repoInfo = getRepoInfo(input);
if (repoInfo.isLocal) return repoInfo.url;
return std::nullopt;
}
void putFile(
const Input & input,
const CanonPath & path,
std::string_view contents,
std::optional<std::string> commitMsg) const override
{
auto repoInfo = getRepoInfo(input);
if (!repoInfo.isLocal)
throw Error("cannot commit '%s' to Git repository '%s' because it's not a working tree", path, input.to_string());
writeFile((CanonPath(repoInfo.url) + path).abs(), contents);
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runProgram("git", true,
{ "-C", repoInfo.url, "--git-dir", repoInfo.gitDir, "add", "--intent-to-add", "--", std::string(path.rel()) });
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// Pause the logger to allow for user input (such as a gpg passphrase) in `git commit`
logger->pause();
Finally restoreLogger([]() { logger->resume(); });
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if (commitMsg)
runProgram("git", true,
{ "-C", repoInfo.url, "--git-dir", repoInfo.gitDir, "commit", std::string(path.rel()), "-m", *commitMsg });
}
struct RepoInfo
{
/* Whether this is a local, non-bare repository. */
bool isLocal = false;
/* Working directory info: the complete list of files, and
whether the working directory is dirty compared to HEAD. */
GitRepo::WorkdirInfo workdirInfo;
/* URL of the repo, or its path if isLocal. Never a `file` URL. */
std::string url;
void warnDirty() const
{
if (workdirInfo.isDirty) {
if (!fetchSettings.allowDirty)
throw Error("Git tree '%s' is dirty", url);
if (fetchSettings.warnDirty)
warn("Git tree '%s' is dirty", url);
}
}
std::string gitDir = ".git";
};
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bool getShallowAttr(const Input & input) const
{
return maybeGetBoolAttr(input.attrs, "shallow").value_or(false);
}
bool getSubmodulesAttr(const Input & input) const
{
return maybeGetBoolAttr(input.attrs, "submodules").value_or(false);
}
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bool getAllRefsAttr(const Input & input) const
{
return maybeGetBoolAttr(input.attrs, "allRefs").value_or(false);
}
RepoInfo getRepoInfo(const Input & input) const
{
auto checkHashType = [&](const std::optional<Hash> & hash)
{
if (hash.has_value() && !(hash->type == htSHA1 || hash->type == htSHA256))
throw Error("Hash '%s' is not supported by Git. Supported types are sha1 and sha256.", hash->to_string(HashFormat::Base16, true));
};
if (auto rev = input.getRev())
checkHashType(rev);
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RepoInfo repoInfo;
// file:// URIs are normally not cloned (but otherwise treated the
// same as remote URIs, i.e. we don't use the working tree or
// HEAD). Exception: If _NIX_FORCE_HTTP is set, or the repo is a bare git
// repo, treat as a remote URI to force a clone.
static bool forceHttp = getEnv("_NIX_FORCE_HTTP") == "1"; // for testing
auto url = parseURL(getStrAttr(input.attrs, "url"));
bool isBareRepository = url.scheme == "file" && !pathExists(url.path + "/.git");
repoInfo.isLocal = url.scheme == "file" && !forceHttp && !isBareRepository;
repoInfo.url = repoInfo.isLocal ? url.path : url.base;
// If this is a local directory and no ref or revision is
// given, then allow the use of an unclean working tree.
if (!input.getRef() && !input.getRev() && repoInfo.isLocal)
repoInfo.workdirInfo = GitRepo::openRepo(CanonPath(repoInfo.url))->getWorkdirInfo();
return repoInfo;
}
uint64_t getLastModified(const RepoInfo & repoInfo, const std::string & repoDir, const Hash & rev) const
{
Attrs key{{"_what", "gitLastModified"}, {"rev", rev.gitRev()}};
auto cache = getCache();
if (auto res = cache->lookup(key))
return getIntAttr(*res, "lastModified");
auto lastModified = GitRepo::openRepo(CanonPath(repoDir))->getLastModified(rev);
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cache->upsert(key, Attrs{{"lastModified", lastModified}});
return lastModified;
}
uint64_t getRevCount(const RepoInfo & repoInfo, const std::string & repoDir, const Hash & rev) const
{
Attrs key{{"_what", "gitRevCount"}, {"rev", rev.gitRev()}};
auto cache = getCache();
if (auto revCountAttrs = cache->lookup(key))
return getIntAttr(*revCountAttrs, "revCount");
Activity act(*logger, lvlChatty, actUnknown, fmt("getting Git revision count of '%s'", repoInfo.url));
auto revCount = GitRepo::openRepo(CanonPath(repoDir))->getRevCount(rev);
cache->upsert(key, Attrs{{"revCount", revCount}});
return revCount;
}
std::string getDefaultRef(const RepoInfo & repoInfo) const
{
auto head = repoInfo.isLocal
? GitRepo::openRepo(CanonPath(repoInfo.url))->getWorkdirRef()
: readHeadCached(repoInfo.url);
if (!head) {
warn("could not read HEAD ref from repo at '%s', using 'master'", repoInfo.url);
return "master";
}
return *head;
}
static MakeNotAllowedError makeNotAllowedError(std::string url)
{
return [url{std::move(url)}](const CanonPath & path) -> RestrictedPathError
{
if (nix::pathExists(path.abs()))
return RestrictedPathError("access to path '%s' is forbidden because it is not under Git control; maybe you should 'git add' it to the repository '%s'?", path, url);
else
return RestrictedPathError("path '%s' does not exist in Git repository '%s'", path, url);
};
}
void verifyCommit(const Input & input, std::shared_ptr<GitRepo> repo) const
{
auto publicKeys = getPublicKeys(input.attrs);
auto verifyCommit = maybeGetBoolAttr(input.attrs, "verifyCommit").value_or(!publicKeys.empty());
if (verifyCommit) {
if (input.getRev() && repo)
repo->verifyCommit(*input.getRev(), publicKeys);
else
throw Error("commit verification is required for Git repository '%s', but it's dirty", input.to_string());
}
}
std::pair<ref<InputAccessor>, Input> getAccessorFromCommit(
ref<Store> store,
RepoInfo & repoInfo,
Input && input) const
{
assert(!repoInfo.workdirInfo.isDirty);
auto origRev = input.getRev();
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std::string name = input.getName();
auto originalRef = input.getRef();
auto ref = originalRef ? *originalRef : getDefaultRef(repoInfo);
input.attrs.insert_or_assign("ref", ref);
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Path repoDir;
if (repoInfo.isLocal) {
repoDir = repoInfo.url;
if (!input.getRev())
input.attrs.insert_or_assign("rev", GitRepo::openRepo(CanonPath(repoDir))->resolveRef(ref).gitRev());
} else {
Path cacheDir = getCachePath(repoInfo.url);
repoDir = cacheDir;
repoInfo.gitDir = ".";
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createDirs(dirOf(cacheDir));
PathLocks cacheDirLock({cacheDir});
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auto repo = GitRepo::openRepo(CanonPath(cacheDir), true, true);
Path localRefFile =
ref.compare(0, 5, "refs/") == 0
? cacheDir + "/" + ref
: cacheDir + "/refs/heads/" + ref;
bool doFetch;
time_t now = time(0);
/* If a rev was specified, we need to fetch if it's not in the
repo. */
if (auto rev = input.getRev()) {
doFetch = !repo->hasObject(*rev);
} else {
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if (getAllRefsAttr(input)) {
doFetch = true;
} else {
/* If the local ref is older than tarball-ttl seconds, do a
git fetch to update the local ref to the remote ref. */
struct stat st;
doFetch = stat(localRefFile.c_str(), &st) != 0 ||
!isCacheFileWithinTtl(now, st);
}
}
if (doFetch) {
try {
auto fetchRef =
getAllRefsAttr(input)
? "refs/*"
: input.getRev()
? input.getRev()->gitRev()
: ref.compare(0, 5, "refs/") == 0
? ref
: ref == "HEAD"
? ref
: "refs/heads/" + ref;
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repo->fetch(repoInfo.url, fmt("%s:%s", fetchRef, fetchRef), getShallowAttr(input));
} catch (Error & e) {
if (!pathExists(localRefFile)) throw;
logError(e.info());
warn("could not update local clone of Git repository '%s'; continuing with the most recent version", repoInfo.url);
}
if (!touchCacheFile(localRefFile, now))
warn("could not update mtime for file '%s': %s", localRefFile, strerror(errno));
if (!originalRef && !storeCachedHead(repoInfo.url, ref))
warn("could not update cached head '%s' for '%s'", ref, repoInfo.url);
}
if (auto rev = input.getRev()) {
if (!repo->hasObject(*rev))
throw Error(
"Cannot find Git revision '%s' in ref '%s' of repository '%s'! "
"Please make sure that the " ANSI_BOLD "rev" ANSI_NORMAL " exists on the "
ANSI_BOLD "ref" ANSI_NORMAL " you've specified or add " ANSI_BOLD
"allRefs = true;" ANSI_NORMAL " to " ANSI_BOLD "fetchGit" ANSI_NORMAL ".",
rev->gitRev(),
ref,
repoInfo.url
);
} else
input.attrs.insert_or_assign("rev", Hash::parseAny(chomp(readFile(localRefFile)), htSHA1).gitRev());
// cache dir lock is removed at scope end; we will only use read-only operations on specific revisions in the remainder
}
auto repo = GitRepo::openRepo(CanonPath(repoDir));
auto isShallow = repo->isShallow();
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if (isShallow && !getShallowAttr(input))
throw Error("'%s' is a shallow Git repository, but shallow repositories are only allowed when `shallow = true;` is specified", repoInfo.url);
// FIXME: check whether rev is an ancestor of ref?
auto rev = *input.getRev();
Attrs infoAttrs({
{"rev", rev.gitRev()},
{"lastModified", getLastModified(repoInfo, repoDir, rev)},
});
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if (!getShallowAttr(input))
infoAttrs.insert_or_assign("revCount",
getRevCount(repoInfo, repoDir, rev));
printTalkative("using revision %s of repo '%s'", rev.gitRev(), repoInfo.url);
verifyCommit(input, repo);
auto accessor = repo->getAccessor(rev);
accessor->setPathDisplay("«" + input.to_string() + "»");
/* If the repo has submodules, fetch them and return a mounted
input accessor consisting of the accessor for the top-level
repo and the accessors for the submodules. */
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if (getSubmodulesAttr(input)) {
std::map<CanonPath, nix::ref<InputAccessor>> mounts;
for (auto & [submodule, submoduleRev] : repo->getSubmodules(rev)) {
auto resolved = repo->resolveSubmoduleUrl(submodule.url, repoInfo.url);
debug("Git submodule %s: %s %s %s -> %s",
submodule.path, submodule.url, submodule.branch, submoduleRev.gitRev(), resolved);
fetchers::Attrs attrs;
attrs.insert_or_assign("type", "git");
attrs.insert_or_assign("url", resolved);
if (submodule.branch != "")
attrs.insert_or_assign("ref", submodule.branch);
attrs.insert_or_assign("rev", submoduleRev.gitRev());
auto submoduleInput = fetchers::Input::fromAttrs(std::move(attrs));
auto [submoduleAccessor, submoduleInput2] =
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submoduleInput.getAccessor(store);
mounts.insert_or_assign(submodule.path, submoduleAccessor);
}
if (!mounts.empty()) {
mounts.insert_or_assign(CanonPath::root, accessor);
accessor = makeMountedInputAccessor(std::move(mounts));
}
}
assert(!origRev || origRev == rev);
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if (!getShallowAttr(input))
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input.attrs.insert_or_assign("revCount", getIntAttr(infoAttrs, "revCount"));
input.attrs.insert_or_assign("lastModified", getIntAttr(infoAttrs, "lastModified"));
return {accessor, std::move(input)};
}
std::pair<ref<InputAccessor>, Input> getAccessorFromWorkdir(
ref<Store> store,
RepoInfo & repoInfo,
Input && input) const
{
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if (getSubmodulesAttr(input))
/* Create mountpoints for the submodules. */
for (auto & submodule : repoInfo.workdirInfo.submodules)
repoInfo.workdirInfo.files.insert(submodule.path);
ref<InputAccessor> accessor =
makeFSInputAccessor(CanonPath(repoInfo.url), repoInfo.workdirInfo.files, makeNotAllowedError(repoInfo.url));
/* If the repo has submodules, return a mounted input accessor
consisting of the accessor for the top-level repo and the
accessors for the submodule workdirs. */
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if (getSubmodulesAttr(input) && !repoInfo.workdirInfo.submodules.empty()) {
std::map<CanonPath, nix::ref<InputAccessor>> mounts;
for (auto & submodule : repoInfo.workdirInfo.submodules) {
auto submodulePath = CanonPath(repoInfo.url) + submodule.path;
fetchers::Attrs attrs;
attrs.insert_or_assign("type", "git");
attrs.insert_or_assign("url", submodulePath.abs());
auto submoduleInput = fetchers::Input::fromAttrs(std::move(attrs));
auto [submoduleAccessor, submoduleInput2] =
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submoduleInput.getAccessor(store);
/* If the submodule is dirty, mark this repo dirty as
well. */
if (!submoduleInput2.getRev())
repoInfo.workdirInfo.isDirty = true;
mounts.insert_or_assign(submodule.path, submoduleAccessor);
}
mounts.insert_or_assign(CanonPath::root, accessor);
accessor = makeMountedInputAccessor(std::move(mounts));
}
if (!repoInfo.workdirInfo.isDirty) {
auto repo = GitRepo::openRepo(CanonPath(repoInfo.url));
if (auto ref = repo->getWorkdirRef())
input.attrs.insert_or_assign("ref", *ref);
auto rev = repoInfo.workdirInfo.headRev.value();
input.attrs.insert_or_assign("rev", rev.gitRev());
input.attrs.insert_or_assign("revCount", getRevCount(repoInfo, repoInfo.url, rev));
verifyCommit(input, repo);
} else {
repoInfo.warnDirty();
if (repoInfo.workdirInfo.headRev) {
input.attrs.insert_or_assign("dirtyRev",
repoInfo.workdirInfo.headRev->gitRev() + "-dirty");
input.attrs.insert_or_assign("dirtyShortRev",
repoInfo.workdirInfo.headRev->gitShortRev() + "-dirty");
}
verifyCommit(input, nullptr);
}
input.attrs.insert_or_assign(
"lastModified",
repoInfo.workdirInfo.headRev
? getLastModified(repoInfo, repoInfo.url, *repoInfo.workdirInfo.headRev)
: 0);
input.locked = true; // FIXME
return {accessor, std::move(input)};
}
std::pair<ref<InputAccessor>, Input> getAccessor(ref<Store> store, const Input & _input) const override
{
Input input(_input);
auto repoInfo = getRepoInfo(input);
auto [accessor, final] =
input.getRef() || input.getRev() || !repoInfo.isLocal
? getAccessorFromCommit(store, repoInfo, std::move(input))
: getAccessorFromWorkdir(store, repoInfo, std::move(input));
accessor->fingerprint = final.getFingerprint(store);
return {accessor, std::move(final)};
}
std::optional<std::string> getFingerprint(ref<Store> store, const Input & input) const override
{
if (auto rev = input.getRev())
return rev->gitRev() + (getSubmodulesAttr(input) ? ";s" : "");
else
return std::nullopt;
}
};
static auto rGitInputScheme = OnStartup([] { registerInputScheme(std::make_unique<GitInputScheme>()); });
}