lix/src/nix/profile.cc
John Ericson 179582872d Make DerivedPathWithHints a newtype
This allows us to namespace its constructors under it.
2021-04-05 10:05:21 -04:00

580 lines
18 KiB
C++

#include "command.hh"
#include "common-args.hh"
#include "shared.hh"
#include "store-api.hh"
#include "derivations.hh"
#include "archive.hh"
#include "builtins/buildenv.hh"
#include "flake/flakeref.hh"
#include "../nix-env/user-env.hh"
#include "profiles.hh"
#include "names.hh"
#include <nlohmann/json.hpp>
#include <regex>
using namespace nix;
struct ProfileElementSource
{
FlakeRef originalRef;
// FIXME: record original attrpath.
FlakeRef resolvedRef;
std::string attrPath;
// FIXME: output names
bool operator < (const ProfileElementSource & other) const
{
return
std::pair(originalRef.to_string(), attrPath) <
std::pair(other.originalRef.to_string(), other.attrPath);
}
};
struct ProfileElement
{
StorePathSet storePaths;
std::optional<ProfileElementSource> source;
bool active = true;
// FIXME: priority
std::string describe() const
{
if (source)
return fmt("%s#%s", source->originalRef, source->attrPath);
StringSet names;
for (auto & path : storePaths)
names.insert(DrvName(path.name()).name);
return concatStringsSep(", ", names);
}
std::string versions() const
{
StringSet versions;
for (auto & path : storePaths)
versions.insert(DrvName(path.name()).version);
return showVersions(versions);
}
bool operator < (const ProfileElement & other) const
{
return std::tuple(describe(), storePaths) < std::tuple(other.describe(), other.storePaths);
}
};
struct ProfileManifest
{
std::vector<ProfileElement> elements;
ProfileManifest() { }
ProfileManifest(EvalState & state, const Path & profile)
{
auto manifestPath = profile + "/manifest.json";
if (pathExists(manifestPath)) {
auto json = nlohmann::json::parse(readFile(manifestPath));
auto version = json.value("version", 0);
if (version != 1)
throw Error("profile manifest '%s' has unsupported version %d", manifestPath, version);
for (auto & e : json["elements"]) {
ProfileElement element;
for (auto & p : e["storePaths"])
element.storePaths.insert(state.store->parseStorePath((std::string) p));
element.active = e["active"];
if (e.value("uri", "") != "") {
element.source = ProfileElementSource{
parseFlakeRef(e["originalUri"]),
parseFlakeRef(e["uri"]),
e["attrPath"]
};
}
elements.emplace_back(std::move(element));
}
}
else if (pathExists(profile + "/manifest.nix")) {
// FIXME: needed because of pure mode; ugly.
if (state.allowedPaths) {
state.allowedPaths->insert(state.store->followLinksToStore(profile));
state.allowedPaths->insert(state.store->followLinksToStore(profile + "/manifest.nix"));
}
auto drvInfos = queryInstalled(state, state.store->followLinksToStore(profile));
for (auto & drvInfo : drvInfos) {
ProfileElement element;
element.storePaths = {state.store->parseStorePath(drvInfo.queryOutPath())};
elements.emplace_back(std::move(element));
}
}
}
std::string toJSON(Store & store) const
{
auto array = nlohmann::json::array();
for (auto & element : elements) {
auto paths = nlohmann::json::array();
for (auto & path : element.storePaths)
paths.push_back(store.printStorePath(path));
nlohmann::json obj;
obj["storePaths"] = paths;
obj["active"] = element.active;
if (element.source) {
obj["originalUri"] = element.source->originalRef.to_string();
obj["uri"] = element.source->resolvedRef.to_string();
obj["attrPath"] = element.source->attrPath;
}
array.push_back(obj);
}
nlohmann::json json;
json["version"] = 1;
json["elements"] = array;
return json.dump();
}
StorePath build(ref<Store> store)
{
auto tempDir = createTempDir();
StorePathSet references;
Packages pkgs;
for (auto & element : elements) {
for (auto & path : element.storePaths) {
if (element.active)
pkgs.emplace_back(store->printStorePath(path), true, 5);
references.insert(path);
}
}
buildProfile(tempDir, std::move(pkgs));
writeFile(tempDir + "/manifest.json", toJSON(*store));
/* Add the symlink tree to the store. */
StringSink sink;
dumpPath(tempDir, sink);
auto narHash = hashString(htSHA256, *sink.s);
ValidPathInfo info {
store->makeFixedOutputPath(FileIngestionMethod::Recursive, narHash, "profile", references),
narHash,
};
info.references = std::move(references);
info.narSize = sink.s->size();
info.ca = FixedOutputHash { .method = FileIngestionMethod::Recursive, .hash = info.narHash };
auto source = StringSource { *sink.s };
store->addToStore(info, source);
return std::move(info.path);
}
static void printDiff(const ProfileManifest & prev, const ProfileManifest & cur, std::string_view indent)
{
auto prevElems = prev.elements;
std::sort(prevElems.begin(), prevElems.end());
auto curElems = cur.elements;
std::sort(curElems.begin(), curElems.end());
auto i = prevElems.begin();
auto j = curElems.begin();
bool changes = false;
while (i != prevElems.end() || j != curElems.end()) {
if (j != curElems.end() && (i == prevElems.end() || i->describe() > j->describe())) {
std::cout << fmt("%s%s: ∅ -> %s\n", indent, j->describe(), j->versions());
changes = true;
++j;
}
else if (i != prevElems.end() && (j == curElems.end() || i->describe() < j->describe())) {
std::cout << fmt("%s%s: %s -> ∅\n", indent, i->describe(), i->versions());
changes = true;
++i;
}
else {
auto v1 = i->versions();
auto v2 = j->versions();
if (v1 != v2) {
std::cout << fmt("%s%s: %s -> %s\n", indent, i->describe(), v1, v2);
changes = true;
}
++i;
++j;
}
}
if (!changes)
std::cout << fmt("%sNo changes.\n", indent);
}
};
struct CmdProfileInstall : InstallablesCommand, MixDefaultProfile
{
std::string description() override
{
return "install a package into a profile";
}
std::string doc() override
{
return
#include "profile-install.md"
;
}
void run(ref<Store> store) override
{
ProfileManifest manifest(*getEvalState(), *profile);
std::vector<DerivedPath> pathsToBuild;
for (auto & installable : installables) {
if (auto installable2 = std::dynamic_pointer_cast<InstallableFlake>(installable)) {
auto [attrPath, resolvedRef, drv] = installable2->toDerivation();
ProfileElement element;
if (!drv.outPath)
throw UnimplementedError("CA derivations are not yet supported by 'nix profile'");
element.storePaths = {*drv.outPath}; // FIXME
element.source = ProfileElementSource{
installable2->flakeRef,
resolvedRef,
attrPath,
};
pathsToBuild.push_back(DerivedPath::Built{drv.drvPath, StringSet{drv.outputName}});
manifest.elements.emplace_back(std::move(element));
} else {
auto buildables = build(store, Realise::Outputs, {installable}, bmNormal);
for (auto & buildable : buildables) {
ProfileElement element;
std::visit(overloaded {
[&](DerivedPathWithHints::Opaque bo) {
pathsToBuild.push_back(bo);
element.storePaths.insert(bo.path);
},
[&](DerivedPathWithHints::Built bfd) {
// TODO: Why are we querying if we know the output
// names already? Is it just to figure out what the
// default one is?
for (auto & output : store->queryDerivationOutputMap(bfd.drvPath)) {
pathsToBuild.push_back(DerivedPath::Built{bfd.drvPath, {output.first}});
element.storePaths.insert(output.second);
}
},
}, buildable.raw());
manifest.elements.emplace_back(std::move(element));
}
}
}
store->buildPaths(pathsToBuild);
updateProfile(manifest.build(store));
}
};
class MixProfileElementMatchers : virtual Args
{
std::vector<std::string> _matchers;
public:
MixProfileElementMatchers()
{
expectArgs("elements", &_matchers);
}
typedef std::variant<size_t, Path, std::regex> Matcher;
std::vector<Matcher> getMatchers(ref<Store> store)
{
std::vector<Matcher> res;
for (auto & s : _matchers) {
if (auto n = string2Int<size_t>(s))
res.push_back(*n);
else if (store->isStorePath(s))
res.push_back(s);
else
res.push_back(std::regex(s, std::regex::extended | std::regex::icase));
}
return res;
}
bool matches(const Store & store, const ProfileElement & element, size_t pos, const std::vector<Matcher> & matchers)
{
for (auto & matcher : matchers) {
if (auto n = std::get_if<size_t>(&matcher)) {
if (*n == pos) return true;
} else if (auto path = std::get_if<Path>(&matcher)) {
if (element.storePaths.count(store.parseStorePath(*path))) return true;
} else if (auto regex = std::get_if<std::regex>(&matcher)) {
if (element.source
&& std::regex_match(element.source->attrPath, *regex))
return true;
}
}
return false;
}
};
struct CmdProfileRemove : virtual EvalCommand, MixDefaultProfile, MixProfileElementMatchers
{
std::string description() override
{
return "remove packages from a profile";
}
std::string doc() override
{
return
#include "profile-remove.md"
;
}
void run(ref<Store> store) override
{
ProfileManifest oldManifest(*getEvalState(), *profile);
auto matchers = getMatchers(store);
ProfileManifest newManifest;
for (size_t i = 0; i < oldManifest.elements.size(); ++i) {
auto & element(oldManifest.elements[i]);
if (!matches(*store, element, i, matchers))
newManifest.elements.push_back(std::move(element));
}
// FIXME: warn about unused matchers?
printInfo("removed %d packages, kept %d packages",
oldManifest.elements.size() - newManifest.elements.size(),
newManifest.elements.size());
updateProfile(newManifest.build(store));
}
};
struct CmdProfileUpgrade : virtual SourceExprCommand, MixDefaultProfile, MixProfileElementMatchers
{
std::string description() override
{
return "upgrade packages using their most recent flake";
}
std::string doc() override
{
return
#include "profile-upgrade.md"
;
}
void run(ref<Store> store) override
{
ProfileManifest manifest(*getEvalState(), *profile);
auto matchers = getMatchers(store);
// FIXME: code duplication
std::vector<DerivedPath> pathsToBuild;
for (size_t i = 0; i < manifest.elements.size(); ++i) {
auto & element(manifest.elements[i]);
if (element.source
&& !element.source->originalRef.input.isImmutable()
&& matches(*store, element, i, matchers))
{
Activity act(*logger, lvlChatty, actUnknown,
fmt("checking '%s' for updates", element.source->attrPath));
InstallableFlake installable(
this,
getEvalState(),
FlakeRef(element.source->originalRef),
{element.source->attrPath},
{},
lockFlags);
auto [attrPath, resolvedRef, drv] = installable.toDerivation();
if (element.source->resolvedRef == resolvedRef) continue;
printInfo("upgrading '%s' from flake '%s' to '%s'",
element.source->attrPath, element.source->resolvedRef, resolvedRef);
if (!drv.outPath)
throw UnimplementedError("CA derivations are not yet supported by 'nix profile'");
element.storePaths = {*drv.outPath}; // FIXME
element.source = ProfileElementSource{
installable.flakeRef,
resolvedRef,
attrPath,
};
pathsToBuild.push_back(DerivedPath::Built{drv.drvPath, {"out"}}); // FIXME
}
}
store->buildPaths(pathsToBuild);
updateProfile(manifest.build(store));
}
};
struct CmdProfileList : virtual EvalCommand, virtual StoreCommand, MixDefaultProfile
{
std::string description() override
{
return "list installed packages";
}
std::string doc() override
{
return
#include "profile-list.md"
;
}
void run(ref<Store> store) override
{
ProfileManifest manifest(*getEvalState(), *profile);
for (size_t i = 0; i < manifest.elements.size(); ++i) {
auto & element(manifest.elements[i]);
logger->cout("%d %s %s %s", i,
element.source ? element.source->originalRef.to_string() + "#" + element.source->attrPath : "-",
element.source ? element.source->resolvedRef.to_string() + "#" + element.source->attrPath : "-",
concatStringsSep(" ", store->printStorePathSet(element.storePaths)));
}
}
};
struct CmdProfileDiffClosures : virtual StoreCommand, MixDefaultProfile
{
std::string description() override
{
return "show the closure difference between each version of a profile";
}
std::string doc() override
{
return
#include "profile-diff-closures.md"
;
}
void run(ref<Store> store) override
{
auto [gens, curGen] = findGenerations(*profile);
std::optional<Generation> prevGen;
bool first = true;
for (auto & gen : gens) {
if (prevGen) {
if (!first) std::cout << "\n";
first = false;
std::cout << fmt("Version %d -> %d:\n", prevGen->number, gen.number);
printClosureDiff(store,
store->followLinksToStorePath(prevGen->path),
store->followLinksToStorePath(gen.path),
" ");
}
prevGen = gen;
}
}
};
struct CmdProfileHistory : virtual StoreCommand, EvalCommand, MixDefaultProfile
{
std::string description() override
{
return "show all versions of a profile";
}
std::string doc() override
{
return
#include "profile-history.md"
;
}
void run(ref<Store> store) override
{
auto [gens, curGen] = findGenerations(*profile);
std::optional<std::pair<Generation, ProfileManifest>> prevGen;
bool first = true;
for (auto & gen : gens) {
ProfileManifest manifest(*getEvalState(), gen.path);
if (!first) std::cout << "\n";
first = false;
if (prevGen)
std::cout << fmt("Version %d -> %d:\n", prevGen->first.number, gen.number);
else
std::cout << fmt("Version %d:\n", gen.number);
ProfileManifest::printDiff(
prevGen ? prevGen->second : ProfileManifest(),
manifest,
" ");
prevGen = {gen, std::move(manifest)};
}
}
};
struct CmdProfile : NixMultiCommand
{
CmdProfile()
: MultiCommand({
{"install", []() { return make_ref<CmdProfileInstall>(); }},
{"remove", []() { return make_ref<CmdProfileRemove>(); }},
{"upgrade", []() { return make_ref<CmdProfileUpgrade>(); }},
{"list", []() { return make_ref<CmdProfileList>(); }},
{"diff-closures", []() { return make_ref<CmdProfileDiffClosures>(); }},
{"history", []() { return make_ref<CmdProfileHistory>(); }},
})
{ }
std::string description() override
{
return "manage Nix profiles";
}
std::string doc() override
{
return
#include "profile.md"
;
}
void run() override
{
if (!command)
throw UsageError("'nix profile' requires a sub-command.");
command->second->prepare();
command->second->run();
}
};
static auto rCmdProfile = registerCommand<CmdProfile>("profile");