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#pragma once
#include "hash.hh"
#include "serialise.hh"
#include "crypto.hh"
#include "lru-cache.hh"
#include "sync.hh"
#include "globals.hh"
#include <atomic>
#include <limits>
#include <map>
#include <memory>
#include <string>
namespace nix {
struct BasicDerivation;
struct Derivation;
class FSAccessor;
class NarInfoDiskCache;
class Store;
/* Size of the hash part of store paths, in base-32 characters. */
const size_t storePathHashLen = 32; // i.e. 160 bits
/* Magic header of exportPath() output (obsolete). */
const uint32_t exportMagic = 0x4558494e;
typedef std::map<Path, Path> Roots;
struct GCOptions
{
/* Garbage collector operation:
- `gcReturnLive': return the set of paths reachable from
(i.e. in the closure of) the roots.
- `gcReturnDead': return the set of paths not reachable from
the roots.
- `gcDeleteDead': actually delete the latter set.
- `gcDeleteSpecific': delete the paths listed in
`pathsToDelete', insofar as they are not reachable.
*/
typedef enum {
gcReturnLive,
gcReturnDead,
gcDeleteDead,
gcDeleteSpecific,
} GCAction;
GCAction action{gcDeleteDead};
/* If `ignoreLiveness' is set, then reachability from the roots is
ignored (dangerous!). However, the paths must still be
unreferenced *within* the store (i.e., there can be no other
store paths that depend on them). */
bool ignoreLiveness{false};
/* For `gcDeleteSpecific', the paths to delete. */
PathSet pathsToDelete;
/* Stop after at least `maxFreed' bytes have been freed. */
unsigned long long maxFreed{std::numeric_limits<unsigned long long>::max()};
};
struct GCResults
{
/* Depending on the action, the GC roots, or the paths that would
be or have been deleted. */
PathSet paths;
/* For `gcReturnDead', `gcDeleteDead' and `gcDeleteSpecific', the
number of bytes that would be or was freed. */
unsigned long long bytesFreed;
GCResults()
{
bytesFreed = 0;
}
};
struct SubstitutablePathInfo
{
Path deriver;
PathSet references;
unsigned long long downloadSize; /* 0 = unknown or inapplicable */
unsigned long long narSize; /* 0 = unknown */
};
typedef std::map<Path, SubstitutablePathInfo> SubstitutablePathInfos;
struct ValidPathInfo
{
Path path;
Path deriver;
Hash narHash;
PathSet references;
time_t registrationTime = 0;
uint64_t narSize = 0; // 0 = unknown
uint64_t id; // internal use only
/* Whether the path is ultimately trusted, that is, it was built
locally or is content-addressable (e.g. added via addToStore()
or the result of a fixed-output derivation). */
bool ultimate = false;
StringSet sigs; // note: not necessarily verified
/* If non-empty, an assertion that the path is content-addressed,
i.e., that the store path is computed from a cryptographic hash
of the contents of the path, plus some other bits of data like
the "name" part of the path. Such a path doesn't need
signatures, since we don't have to trust anybody's claim that
the path is the output of a particular derivation. (In the
extensional store model, we have to trust that the *contents*
of an output path of a derivation were actually produced by
that derivation. In the intensional model, we have to trust
that a particular output path was produced by a derivation; the
path name then implies the contents.)
Ideally, the content-addressability assertion would just be a
Boolean, and the store path would be computed from
‘storePathToName(path)’, ‘narHash’ and ‘references’. However,
1) we've accumulated several types of content-addressed paths
over the years; and 2) fixed-output derivations support
multiple hash algorithms and serialisation methods (flat file
vs NAR). Thus, ‘ca’ has one of the following forms:
* ‘text:sha256:<sha256 hash of file contents>’: For paths
computed by makeTextPath() / addTextToStore().
* ‘fixed:<r?>:<ht>:<h>’: For paths computed by
makeFixedOutputPath() / addToStore().
*/
std::string ca;
bool operator == (const ValidPathInfo & i) const
{
return
path == i.path
&& narHash == i.narHash
&& references == i.references;
}
/* Return a fingerprint of the store path to be used in binary
cache signatures. It contains the store path, the base-32
SHA-256 hash of the NAR serialisation of the path, the size of
the NAR, and the sorted references. The size field is strictly
speaking superfluous, but might prevent endless/excessive data
attacks. */
std::string fingerprint() const;
void sign(const SecretKey & secretKey);
/* Return true iff the path is verifiably content-addressed. */
bool isContentAddressed(const Store & store) const;
static const size_t maxSigs = std::numeric_limits<size_t>::max();
/* Return the number of signatures on this .narinfo that were
produced by one of the specified keys, or maxSigs if the path
is content-addressed. */
size_t checkSignatures(const Store & store, const PublicKeys & publicKeys) const;
/* Verify a single signature. */
bool checkSignature(const PublicKeys & publicKeys, const std::string & sig) const;
Strings shortRefs() const;
virtual ~ValidPathInfo() { }
};
typedef list<ValidPathInfo> ValidPathInfos;
enum BuildMode { bmNormal, bmRepair, bmCheck, bmHash };
struct BuildResult
{
/* Note: don't remove status codes, and only add new status codes
at the end of the list, to prevent client/server
incompatibilities in the nix-store --serve protocol. */
enum Status {
Built = 0,
Substituted,
AlreadyValid,
PermanentFailure,
InputRejected,
OutputRejected,
TransientFailure, // possibly transient
CachedFailure, // no longer used
TimedOut,
MiscFailure,
DependencyFailed,
LogLimitExceeded,
NotDeterministic,
} status = MiscFailure;
std::string errorMsg;
//time_t startTime = 0, stopTime = 0;
bool success() {
return status == Built || status == Substituted || status == AlreadyValid;
}
};
class Store : public std::enable_shared_from_this<Store>
{
public:
typedef std::map<std::string, std::string> Params;
const Path storeDir;
protected:
struct State
{
LRUCache<std::string, std::shared_ptr<ValidPathInfo>> pathInfoCache{64 * 1024};
};
Sync<State> state;
std::shared_ptr<NarInfoDiskCache> diskCache;
Store(const Params & params);
public:
virtual ~Store() { }
virtual std::string getUri() = 0;
/* Return true if ‘path’ is in the Nix store (but not the Nix
store itself). */
bool isInStore(const Path & path) const;
/* Return true if ‘path’ is a store path, i.e. a direct child of
the Nix store. */
bool isStorePath(const Path & path) const;
/* Throw an exception if ‘path’ is not a store path. */
void assertStorePath(const Path & path) const;
/* Chop off the parts after the top-level store name, e.g.,
/nix/store/abcd-foo/bar => /nix/store/abcd-foo. */
Path toStorePath(const Path & path) const;
/* Follow symlinks until we end up with a path in the Nix store. */
Path followLinksToStore(const Path & path) const;
/* Same as followLinksToStore(), but apply toStorePath() to the
result. */
Path followLinksToStorePath(const Path & path) const;
/* Constructs a unique store path name. */
Path makeStorePath(const string & type,
const Hash & hash, const string & name) const;
Path makeOutputPath(const string & id,
const Hash & hash, const string & name) const;
Path makeFixedOutputPath(bool recursive,
const Hash & hash, const string & name) const;
Path makeTextPath(const string & name, const Hash & hash,
const PathSet & references) const;
/* This is the preparatory part of addToStore(); it computes the
store path to which srcPath is to be copied. Returns the store
path and the cryptographic hash of the contents of srcPath. */
std::pair<Path, Hash> computeStorePathForPath(const Path & srcPath,
bool recursive = true, HashType hashAlgo = htSHA256,
PathFilter & filter = defaultPathFilter) const;
/* Preparatory part of addTextToStore().
!!! Computation of the path should take the references given to
addTextToStore() into account, otherwise we have a (relatively
minor) security hole: a caller can register a source file with
bogus references. If there are too many references, the path may
not be garbage collected when it has to be (not really a problem,
the caller could create a root anyway), or it may be garbage
collected when it shouldn't be (more serious).
Hashing the references would solve this (bogus references would
simply yield a different store path, so other users wouldn't be
affected), but it has some backwards compatibility issues (the
hashing scheme changes), so I'm not doing that for now. */
Path computeStorePathForText(const string & name, const string & s,
const PathSet & references) const;
/* Check whether a path is valid. */
bool isValidPath(const Path & path);
protected:
virtual bool isValidPathUncached(const Path & path) = 0;
public:
/* Query which of the given paths is valid. */
virtual PathSet queryValidPaths(const PathSet & paths);
/* Query the set of all valid paths. Note that for some store
backends, the name part of store paths may be omitted
(i.e. you'll get /nix/store/<hash> rather than
/nix/store/<hash>-<name>). Use queryPathInfo() to obtain the
full store path. */
virtual PathSet queryAllValidPaths() = 0;
/* Query information about a valid path. It is permitted to omit
the name part of the store path. */
ref<const ValidPathInfo> queryPathInfo(const Path & path);
/* Asynchronous version of queryPathInfo(). */
void queryPathInfo(const Path & path,
std::function<void(ref<ValidPathInfo>)> success,
std::function<void(std::exception_ptr exc)> failure);
protected:
virtual void queryPathInfoUncached(const Path & path,
std::function<void(std::shared_ptr<ValidPathInfo>)> success,
std::function<void(std::exception_ptr exc)> failure) = 0;
public:
/* Queries the set of incoming FS references for a store path.
The result is not cleared. */
virtual void queryReferrers(const Path & path,
PathSet & referrers) = 0;
/* Return all currently valid derivations that have `path' as an
output. (Note that the result of `queryDeriver()' is the
derivation that was actually used to produce `path', which may
not exist anymore.) */
virtual PathSet queryValidDerivers(const Path & path) = 0;
/* Query the outputs of the derivation denoted by `path'. */
virtual PathSet queryDerivationOutputs(const Path & path) = 0;
/* Query the output names of the derivation denoted by `path'. */
virtual StringSet queryDerivationOutputNames(const Path & path) = 0;
/* Query the full store path given the hash part of a valid store
path, or "" if the path doesn't exist. */
virtual Path queryPathFromHashPart(const string & hashPart) = 0;
/* Query which of the given paths have substitutes. */
virtual PathSet querySubstitutablePaths(const PathSet & paths) = 0;
/* Query substitute info (i.e. references, derivers and download
sizes) of a set of paths. If a path does not have substitute
info, it's omitted from the resulting ‘infos’ map. */
virtual void querySubstitutablePathInfos(const PathSet & paths,
SubstitutablePathInfos & infos) = 0;
virtual bool wantMassQuery() { return false; }
/* Import a path into the store. */
virtual void addToStore(const ValidPathInfo & info, const ref<std::string> & nar,
bool repair = false, bool dontCheckSigs = false,
std::shared_ptr<FSAccessor> accessor = 0) = 0;
/* Copy the contents of a path to the store and register the
validity the resulting path. The resulting path is returned.
The function object `filter' can be used to exclude files (see
libutil/archive.hh). */
virtual Path addToStore(const string & name, const Path & srcPath,
bool recursive = true, HashType hashAlgo = htSHA256,
PathFilter & filter = defaultPathFilter, bool repair = false) = 0;
/* Like addToStore, but the contents written to the output path is
a regular file containing the given string. */
virtual Path addTextToStore(const string & name, const string & s,
const PathSet & references, bool repair = false) = 0;
/* Write a NAR dump of a store path. */
virtual void narFromPath(const Path & path, Sink & sink) = 0;
/* For each path, if it's a derivation, build it. Building a
derivation means ensuring that the output paths are valid. If
they are already valid, this is a no-op. Otherwise, validity
can be reached in two ways. First, if the output paths is
substitutable, then build the path that way. Second, the
output paths can be created by running the builder, after
recursively building any sub-derivations. For inputs that are
not derivations, substitute them. */
virtual void buildPaths(const PathSet & paths, BuildMode buildMode = bmNormal) = 0;
/* Build a single non-materialized derivation (i.e. not from an
on-disk .drv file). Note that ‘drvPath’ is only used for
informational purposes. */
virtual BuildResult buildDerivation(const Path & drvPath, const BasicDerivation & drv,
BuildMode buildMode = bmNormal) = 0;
/* Ensure that a path is valid. If it is not currently valid, it
may be made valid by running a substitute (if defined for the
path). */
virtual void ensurePath(const Path & path) = 0;
/* Add a store path as a temporary root of the garbage collector.
The root disappears as soon as we exit. */
virtual void addTempRoot(const Path & path) = 0;
/* Add an indirect root, which is merely a symlink to `path' from
/nix/var/nix/gcroots/auto/<hash of `path'>. `path' is supposed
to be a symlink to a store path. The garbage collector will
automatically remove the indirect root when it finds that
`path' has disappeared. */
virtual void addIndirectRoot(const Path & path) = 0;
/* Acquire the global GC lock, then immediately release it. This
function must be called after registering a new permanent root,
but before exiting. Otherwise, it is possible that a running
garbage collector doesn't see the new root and deletes the
stuff we've just built. By acquiring the lock briefly, we
ensure that either:
- The collector is already running, and so we block until the
collector is finished. The collector will know about our
*temporary* locks, which should include whatever it is we
want to register as a permanent lock.
- The collector isn't running, or it's just started but hasn't
acquired the GC lock yet. In that case we get and release
the lock right away, then exit. The collector scans the
permanent root and sees our's.
In either case the permanent root is seen by the collector. */
virtual void syncWithGC() = 0;
/* Find the roots of the garbage collector. Each root is a pair
(link, storepath) where `link' is the path of the symlink
outside of the Nix store that point to `storePath'. */
virtual Roots findRoots() = 0;
/* Perform a garbage collection. */
virtual void collectGarbage(const GCOptions & options, GCResults & results) = 0;
/* Return a string representing information about the path that
can be loaded into the database using `nix-store --load-db' or
`nix-store --register-validity'. */
string makeValidityRegistration(const PathSet & paths,
bool showDerivers, bool showHash);
/* Optimise the disk space usage of the Nix store by hard-linking files
with the same contents. */
virtual void optimiseStore() = 0;
/* Check the integrity of the Nix store. Returns true if errors
remain. */
virtual bool verifyStore(bool checkContents, bool repair) = 0;
/* Return an object to access files in the Nix store. */
virtual ref<FSAccessor> getFSAccessor() = 0;
/* Add signatures to the specified store path. The signatures are
not verified. */
virtual void addSignatures(const Path & storePath, const StringSet & sigs) = 0;
/* Utility functions. */
/* Read a derivation, after ensuring its existence through
ensurePath(). */
Derivation derivationFromPath(const Path & drvPath);
/* Place in `paths' the set of all store paths in the file system
closure of `storePath'; that is, all paths than can be directly
or indirectly reached from it. `paths' is not cleared. If
`flipDirection' is true, the set of paths that can reach
`storePath' is returned; that is, the closures under the
`referrers' relation instead of the `references' relation is
returned. */
void computeFSClosure(const Path & path,
PathSet & paths, bool flipDirection = false,
bool includeOutputs = false, bool includeDerivers = false);
/* Given a set of paths that are to be built, return the set of
derivations that will be built, and the set of output paths
that will be substituted. */
void queryMissing(const PathSet & targets,
PathSet & willBuild, PathSet & willSubstitute, PathSet & unknown,
unsigned long long & downloadSize, unsigned long long & narSize);
/* Sort a set of paths topologically under the references
relation. If p refers to q, then p preceeds q in this list. */
Paths topoSortPaths(const PathSet & paths);
/* Export multiple paths in the format expected by ‘nix-store
--import’. */
void exportPaths(const Paths & paths, Sink & sink);
void exportPath(const Path & path, Sink & sink);
/* Import a sequence of NAR dumps created by exportPaths() into
the Nix store. Optionally, the contents of the NARs are
preloaded into the specified FS accessor to speed up subsequent
access. */
Paths importPaths(Source & source, std::shared_ptr<FSAccessor> accessor,
bool dontCheckSigs = false);
struct Stats
{
std::atomic<uint64_t> narInfoRead{0};
std::atomic<uint64_t> narInfoReadAverted{0};
std::atomic<uint64_t> narInfoMissing{0};
std::atomic<uint64_t> narInfoWrite{0};
std::atomic<uint64_t> pathInfoCacheSize{0};
std::atomic<uint64_t> narRead{0};
std::atomic<uint64_t> narReadBytes{0};
std::atomic<uint64_t> narReadCompressedBytes{0};
std::atomic<uint64_t> narWrite{0};
std::atomic<uint64_t> narWriteAverted{0};
std::atomic<uint64_t> narWriteBytes{0};
std::atomic<uint64_t> narWriteCompressedBytes{0};
std::atomic<uint64_t> narWriteCompressionTimeMs{0};
};
const Stats & getStats();
protected:
Stats stats;
};
class LocalFSStore : public virtual Store
{
public:
const Path rootDir;
const Path stateDir;
const Path logDir;
LocalFSStore(const Params & params);
void narFromPath(const Path & path, Sink & sink) override;
ref<FSAccessor> getFSAccessor() override;
/* Register a permanent GC root. */
Path addPermRoot(const Path & storePath,
const Path & gcRoot, bool indirect, bool allowOutsideRootsDir = false);
virtual Path getRealStoreDir() { return storeDir; }
Path toRealPath(const Path & storePath)
{
return getRealStoreDir() + "/" + baseNameOf(storePath);
}
};
/* Extract the name part of the given store path. */
string storePathToName(const Path & path);
/* Extract the hash part of the given store path. */
string storePathToHash(const Path & path);
/* Check whether ‘name’ is a valid store path name part, i.e. contains
only the characters [a-zA-Z0-9\+\-\.\_\?\=] and doesn't start with
a dot. */
void checkStoreName(const string & name);
/* Copy a path from one store to another. */
void copyStorePath(ref<Store> srcStore, ref<Store> dstStore,
const Path & storePath, bool repair = false);
/* Copy the closure of the specified paths from one store to another. */
void copyClosure(ref<Store> srcStore, ref<Store> dstStore,
const PathSet & storePaths, bool repair = false);
/* Remove the temporary roots file for this process. Any temporary
root becomes garbage after this point unless it has been registered
as a (permanent) root. */
void removeTempRoots();
/* Return a Store object to access the Nix store denoted by
‘uri’ (slight misnomer...). Supported values are:
* ‘direct’: The Nix store in /nix/store and database in
/nix/var/nix/db, accessed directly.
* ‘daemon’: The Nix store accessed via a Unix domain socket
connection to nix-daemon.
* ‘file://<path>’: A binary cache stored in <path>.
If ‘uri’ is empty, it defaults to ‘direct’ or ‘daemon’ depending on
whether the user has write access to the local Nix store/database.
set to true *unless* you're going to collect garbage. */
ref<Store> openStore(const std::string & uri = getEnv("NIX_REMOTE"));
enum StoreType {
tDaemon,
tLocal,
tOther
};
StoreType getStoreType(const std::string & uri = getEnv("NIX_REMOTE"), const std::string & stateDir = settings.nixStateDir);
/* Return the default substituter stores, defined by the
‘substituters’ option and various legacy options like
‘binary-caches’. */
std::list<ref<Store>> getDefaultSubstituters();
/* Store implementation registration. */
typedef std::function<std::shared_ptr<Store>(
const std::string & uri, const Store::Params & params)> OpenStore;
struct RegisterStoreImplementation
{
typedef std::vector<OpenStore> Implementations;
static Implementations * implementations;
RegisterStoreImplementation(OpenStore fun)
{
if (!implementations) implementations = new Implementations;
implementations->push_back(fun);
}
};
/* Display a set of paths in human-readable form (i.e., between quotes
and separated by commas). */
string showPaths(const PathSet & paths);
ValidPathInfo decodeValidPathInfo(std::istream & str,
bool hashGiven = false);
MakeError(SubstError, Error)
MakeError(BuildError, Error) /* denotes a permanent build failure */
MakeError(InvalidPath, Error)
}
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