lix/src/libstore/derivations.cc

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#include "derivations.hh"
#include "store-api.hh"
#include "globals.hh"
#include "util.hh"
#include "worker-protocol.hh"
#include "fs-accessor.hh"
namespace nix {
std::optional<StorePath> DerivationOutput::path(const Store & store, std::string_view drvName, std::string_view outputName) const
{
return std::visit(overloaded {
[](DerivationOutputInputAddressed doi) -> std::optional<StorePath> {
return { doi.path };
},
[&](DerivationOutputCAFixed dof) -> std::optional<StorePath> {
return {
dof.path(store, drvName, outputName)
};
},
[](DerivationOutputCAFloating dof) -> std::optional<StorePath> {
return std::nullopt;
},
[](DerivationOutputDeferred) -> std::optional<StorePath> {
return std::nullopt;
},
}, output);
}
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StorePath DerivationOutputCAFixed::path(const Store & store, std::string_view drvName, std::string_view outputName) const {
return store.makeFixedOutputPath(
hash.method, hash.hash,
outputPathName(drvName, outputName));
}
bool derivationIsCA(DerivationType dt) {
switch (dt) {
case DerivationType::InputAddressed: return false;
case DerivationType::CAFixed: return true;
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case DerivationType::CAFloating: return true;
case DerivationType::DeferredInputAddressed: return false;
};
// Since enums can have non-variant values, but making a `default:` would
// disable exhaustiveness warnings.
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assert(false);
}
bool derivationIsFixed(DerivationType dt) {
switch (dt) {
case DerivationType::InputAddressed: return false;
case DerivationType::CAFixed: return true;
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case DerivationType::CAFloating: return false;
case DerivationType::DeferredInputAddressed: return false;
};
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assert(false);
}
bool derivationIsImpure(DerivationType dt) {
switch (dt) {
case DerivationType::InputAddressed: return false;
case DerivationType::CAFixed: return true;
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case DerivationType::CAFloating: return false;
case DerivationType::DeferredInputAddressed: return false;
};
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assert(false);
}
bool BasicDerivation::isBuiltin() const
{
return string(builder, 0, 8) == "builtin:";
}
StorePath writeDerivation(Store & store,
const Derivation & drv, RepairFlag repair, bool readOnly)
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{
auto references = drv.inputSrcs;
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for (auto & i : drv.inputDrvs)
references.insert(i.first);
/* Note that the outputs of a derivation are *not* references
(that can be missing (of course) and should not necessarily be
held during a garbage collection). */
auto suffix = std::string(drv.name) + drvExtension;
auto contents = drv.unparse(store, false);
return readOnly || settings.readOnlyMode
? store.computeStorePathForText(suffix, contents, references)
: store.addTextToStore(suffix, contents, references, repair);
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}
/* Read string `s' from stream `str'. */
static void expect(std::istream & str, const string & s)
{
char s2[s.size()];
str.read(s2, s.size());
if (string(s2, s.size()) != s)
throw FormatError("expected string '%1%'", s);
}
/* Read a C-style string from stream `str'. */
static string parseString(std::istream & str)
{
string res;
expect(str, "\"");
int c;
while ((c = str.get()) != '"')
if (c == '\\') {
c = str.get();
if (c == 'n') res += '\n';
else if (c == 'r') res += '\r';
else if (c == 't') res += '\t';
else res += c;
}
else res += c;
return res;
}
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static void validatePath(std::string_view s) {
if (s.size() == 0 || s[0] != '/')
throw FormatError("bad path '%1%' in derivation", s);
}
static Path parsePath(std::istream & str)
* Removed the `id' attribute hack. * Formalise the notion of fixed-output derivations, i.e., derivations for which a cryptographic hash of the output is known in advance. Changes to such derivations should not propagate upwards through the dependency graph. Previously this was done by specifying the hash component of the output path through the `id' attribute, but this is insecure since you can lie about it (i.e., you can specify any hash and then produce a completely different output). Now the responsibility for checking the output is moved from the builder to Nix itself. A fixed-output derivation can be created by specifying the `outputHash' and `outputHashAlgo' attributes, the latter taking values `md5', `sha1', and `sha256', and the former specifying the actual hash in hexadecimal or in base-32 (auto-detected by looking at the length of the attribute value). MD5 is included for compatibility but should be considered deprecated. * Removed the `drvPath' pseudo-attribute in derivation results. It's no longer necessary. * Cleaned up the support for multiple output paths in derivation store expressions. Each output now has a unique identifier (e.g., `out', `devel', `docs'). Previously there was no way to tell output paths apart at the store expression level. * `nix-hash' now has a flag `--base32' to specify that the hash should be printed in base-32 notation. * `fetchurl' accepts parameters `sha256' and `sha1' in addition to `md5'. * `nix-prefetch-url' now prints out a SHA-1 hash in base-32. (TODO: a flag to specify the hash.)
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{
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auto s = parseString(str);
validatePath(s);
return s;
* Removed the `id' attribute hack. * Formalise the notion of fixed-output derivations, i.e., derivations for which a cryptographic hash of the output is known in advance. Changes to such derivations should not propagate upwards through the dependency graph. Previously this was done by specifying the hash component of the output path through the `id' attribute, but this is insecure since you can lie about it (i.e., you can specify any hash and then produce a completely different output). Now the responsibility for checking the output is moved from the builder to Nix itself. A fixed-output derivation can be created by specifying the `outputHash' and `outputHashAlgo' attributes, the latter taking values `md5', `sha1', and `sha256', and the former specifying the actual hash in hexadecimal or in base-32 (auto-detected by looking at the length of the attribute value). MD5 is included for compatibility but should be considered deprecated. * Removed the `drvPath' pseudo-attribute in derivation results. It's no longer necessary. * Cleaned up the support for multiple output paths in derivation store expressions. Each output now has a unique identifier (e.g., `out', `devel', `docs'). Previously there was no way to tell output paths apart at the store expression level. * `nix-hash' now has a flag `--base32' to specify that the hash should be printed in base-32 notation. * `fetchurl' accepts parameters `sha256' and `sha1' in addition to `md5'. * `nix-prefetch-url' now prints out a SHA-1 hash in base-32. (TODO: a flag to specify the hash.)
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}
* Removed the `id' attribute hack. * Formalise the notion of fixed-output derivations, i.e., derivations for which a cryptographic hash of the output is known in advance. Changes to such derivations should not propagate upwards through the dependency graph. Previously this was done by specifying the hash component of the output path through the `id' attribute, but this is insecure since you can lie about it (i.e., you can specify any hash and then produce a completely different output). Now the responsibility for checking the output is moved from the builder to Nix itself. A fixed-output derivation can be created by specifying the `outputHash' and `outputHashAlgo' attributes, the latter taking values `md5', `sha1', and `sha256', and the former specifying the actual hash in hexadecimal or in base-32 (auto-detected by looking at the length of the attribute value). MD5 is included for compatibility but should be considered deprecated. * Removed the `drvPath' pseudo-attribute in derivation results. It's no longer necessary. * Cleaned up the support for multiple output paths in derivation store expressions. Each output now has a unique identifier (e.g., `out', `devel', `docs'). Previously there was no way to tell output paths apart at the store expression level. * `nix-hash' now has a flag `--base32' to specify that the hash should be printed in base-32 notation. * `fetchurl' accepts parameters `sha256' and `sha1' in addition to `md5'. * `nix-prefetch-url' now prints out a SHA-1 hash in base-32. (TODO: a flag to specify the hash.)
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static bool endOfList(std::istream & str)
{
if (str.peek() == ',') {
str.get();
return false;
}
if (str.peek() == ']') {
str.get();
return true;
}
return false;
}
static StringSet parseStrings(std::istream & str, bool arePaths)
{
StringSet res;
while (!endOfList(str))
res.insert(arePaths ? parsePath(str) : parseString(str));
return res;
}
static DerivationOutput parseDerivationOutput(const Store & store,
std::string_view pathS, std::string_view hashAlgo, std::string_view hash)
{
if (hashAlgo != "") {
auto method = FileIngestionMethod::Flat;
if (string(hashAlgo, 0, 2) == "r:") {
method = FileIngestionMethod::Recursive;
hashAlgo = hashAlgo.substr(2);
}
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const auto hashType = parseHashType(hashAlgo);
if (hash != "") {
validatePath(pathS);
return DerivationOutput {
.output = DerivationOutputCAFixed {
.hash = FixedOutputHash {
.method = std::move(method),
.hash = Hash::parseNonSRIUnprefixed(hash, hashType),
},
},
};
} else {
settings.requireExperimentalFeature("ca-derivations");
assert(pathS == "");
return DerivationOutput {
.output = DerivationOutputCAFloating {
.method = std::move(method),
.hashType = std::move(hashType),
},
};
}
} else {
if (pathS == "") {
return DerivationOutput {
.output = DerivationOutputDeferred { }
};
}
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validatePath(pathS);
return DerivationOutput {
.output = DerivationOutputInputAddressed {
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.path = store.parseStorePath(pathS),
}
};
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}
}
static DerivationOutput parseDerivationOutput(const Store & store, std::istringstream & str)
{
expect(str, ","); const auto pathS = parseString(str);
expect(str, ","); const auto hashAlgo = parseString(str);
expect(str, ","); const auto hash = parseString(str);
expect(str, ")");
return parseDerivationOutput(store, pathS, hashAlgo, hash);
}
Derivation parseDerivation(const Store & store, std::string && s, std::string_view name)
{
Derivation drv;
drv.name = name;
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std::istringstream str(std::move(s));
expect(str, "Derive([");
/* Parse the list of outputs. */
while (!endOfList(str)) {
expect(str, "("); std::string id = parseString(str);
auto output = parseDerivationOutput(store, str);
drv.outputs.emplace(std::move(id), std::move(output));
* Removed the `id' attribute hack. * Formalise the notion of fixed-output derivations, i.e., derivations for which a cryptographic hash of the output is known in advance. Changes to such derivations should not propagate upwards through the dependency graph. Previously this was done by specifying the hash component of the output path through the `id' attribute, but this is insecure since you can lie about it (i.e., you can specify any hash and then produce a completely different output). Now the responsibility for checking the output is moved from the builder to Nix itself. A fixed-output derivation can be created by specifying the `outputHash' and `outputHashAlgo' attributes, the latter taking values `md5', `sha1', and `sha256', and the former specifying the actual hash in hexadecimal or in base-32 (auto-detected by looking at the length of the attribute value). MD5 is included for compatibility but should be considered deprecated. * Removed the `drvPath' pseudo-attribute in derivation results. It's no longer necessary. * Cleaned up the support for multiple output paths in derivation store expressions. Each output now has a unique identifier (e.g., `out', `devel', `docs'). Previously there was no way to tell output paths apart at the store expression level. * `nix-hash' now has a flag `--base32' to specify that the hash should be printed in base-32 notation. * `fetchurl' accepts parameters `sha256' and `sha1' in addition to `md5'. * `nix-prefetch-url' now prints out a SHA-1 hash in base-32. (TODO: a flag to specify the hash.)
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}
/* Parse the list of input derivations. */
expect(str, ",[");
while (!endOfList(str)) {
expect(str, "(");
Path drvPath = parsePath(str);
expect(str, ",[");
drv.inputDrvs.insert_or_assign(store.parseStorePath(drvPath), parseStrings(str, false));
expect(str, ")");
}
expect(str, ",["); drv.inputSrcs = store.parseStorePathSet(parseStrings(str, true));
expect(str, ","); drv.platform = parseString(str);
expect(str, ","); drv.builder = parseString(str);
/* Parse the builder arguments. */
expect(str, ",[");
while (!endOfList(str))
drv.args.push_back(parseString(str));
/* Parse the environment variables. */
expect(str, ",[");
while (!endOfList(str)) {
expect(str, "("); string name = parseString(str);
expect(str, ","); string value = parseString(str);
expect(str, ")");
drv.env[name] = value;
}
expect(str, ")");
return drv;
}
static void printString(string & res, std::string_view s)
{
char buf[s.size() * 2 + 2];
char * p = buf;
*p++ = '"';
for (auto c : s)
if (c == '\"' || c == '\\') { *p++ = '\\'; *p++ = c; }
else if (c == '\n') { *p++ = '\\'; *p++ = 'n'; }
else if (c == '\r') { *p++ = '\\'; *p++ = 'r'; }
else if (c == '\t') { *p++ = '\\'; *p++ = 't'; }
else *p++ = c;
*p++ = '"';
res.append(buf, p - buf);
}
static void printUnquotedString(string & res, std::string_view s)
{
res += '"';
res.append(s);
res += '"';
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}
template<class ForwardIterator>
static void printStrings(string & res, ForwardIterator i, ForwardIterator j)
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{
res += '[';
bool first = true;
for ( ; i != j; ++i) {
if (first) first = false; else res += ',';
printString(res, *i);
}
res += ']';
}
template<class ForwardIterator>
static void printUnquotedStrings(string & res, ForwardIterator i, ForwardIterator j)
{
res += '[';
bool first = true;
for ( ; i != j; ++i) {
if (first) first = false; else res += ',';
printUnquotedString(res, *i);
}
res += ']';
}
string Derivation::unparse(const Store & store, bool maskOutputs,
std::map<std::string, StringSet> * actualInputs) const
{
string s;
s.reserve(65536);
s += "Derive([";
bool first = true;
for (auto & i : outputs) {
if (first) first = false; else s += ',';
s += '('; printUnquotedString(s, i.first);
std::visit(overloaded {
[&](DerivationOutputInputAddressed doi) {
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s += ','; printUnquotedString(s, maskOutputs ? "" : store.printStorePath(doi.path));
s += ','; printUnquotedString(s, "");
s += ','; printUnquotedString(s, "");
},
[&](DerivationOutputCAFixed dof) {
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s += ','; printUnquotedString(s, maskOutputs ? "" : store.printStorePath(dof.path(store, name, i.first)));
s += ','; printUnquotedString(s, dof.hash.printMethodAlgo());
s += ','; printUnquotedString(s, dof.hash.hash.to_string(Base16, false));
},
[&](DerivationOutputCAFloating dof) {
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s += ','; printUnquotedString(s, "");
s += ','; printUnquotedString(s, makeFileIngestionPrefix(dof.method) + printHashType(dof.hashType));
s += ','; printUnquotedString(s, "");
},
[&](DerivationOutputDeferred) {
s += ','; printUnquotedString(s, "");
s += ','; printUnquotedString(s, "");
s += ','; printUnquotedString(s, "");
}
}, i.second.output);
s += ')';
}
s += "],[";
first = true;
if (actualInputs) {
for (auto & i : *actualInputs) {
if (first) first = false; else s += ',';
s += '('; printUnquotedString(s, i.first);
s += ','; printUnquotedStrings(s, i.second.begin(), i.second.end());
s += ')';
}
} else {
for (auto & i : inputDrvs) {
if (first) first = false; else s += ',';
s += '('; printUnquotedString(s, store.printStorePath(i.first));
s += ','; printUnquotedStrings(s, i.second.begin(), i.second.end());
s += ')';
}
}
s += "],";
auto paths = store.printStorePathSet(inputSrcs); // FIXME: slow
printUnquotedStrings(s, paths.begin(), paths.end());
s += ','; printUnquotedString(s, platform);
s += ','; printString(s, builder);
s += ','; printStrings(s, args.begin(), args.end());
s += ",[";
first = true;
for (auto & i : env) {
if (first) first = false; else s += ',';
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s += '('; printString(s, i.first);
s += ','; printString(s, maskOutputs && outputs.count(i.first) ? "" : i.second);
s += ')';
}
s += "])";
return s;
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}
// FIXME: remove
bool isDerivation(const string & fileName)
{
return hasSuffix(fileName, drvExtension);
}
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std::string outputPathName(std::string_view drvName, std::string_view outputName) {
std::string res { drvName };
if (outputName != "out") {
res += "-";
res += outputName;
}
return res;
}
DerivationType BasicDerivation::type() const
{
std::set<std::string_view> inputAddressedOutputs, fixedCAOutputs, floatingCAOutputs, deferredIAOutputs;
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std::optional<HashType> floatingHashType;
for (auto & i : outputs) {
std::visit(overloaded {
[&](DerivationOutputInputAddressed _) {
inputAddressedOutputs.insert(i.first);
},
[&](DerivationOutputCAFixed _) {
fixedCAOutputs.insert(i.first);
},
[&](DerivationOutputCAFloating dof) {
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floatingCAOutputs.insert(i.first);
if (!floatingHashType) {
floatingHashType = dof.hashType;
} else {
if (*floatingHashType != dof.hashType)
throw Error("All floating outputs must use the same hash type");
}
},
[&](DerivationOutputDeferred _) {
deferredIAOutputs.insert(i.first);
},
}, i.second.output);
}
if (inputAddressedOutputs.empty() && fixedCAOutputs.empty() && floatingCAOutputs.empty() && deferredIAOutputs.empty()) {
throw Error("Must have at least one output");
} else if (! inputAddressedOutputs.empty() && fixedCAOutputs.empty() && floatingCAOutputs.empty() && deferredIAOutputs.empty()) {
return DerivationType::InputAddressed;
} else if (inputAddressedOutputs.empty() && ! fixedCAOutputs.empty() && floatingCAOutputs.empty() && deferredIAOutputs.empty()) {
if (fixedCAOutputs.size() > 1)
// FIXME: Experimental feature?
throw Error("Only one fixed output is allowed for now");
if (*fixedCAOutputs.begin() != "out")
throw Error("Single fixed output must be named \"out\"");
return DerivationType::CAFixed;
} else if (inputAddressedOutputs.empty() && fixedCAOutputs.empty() && ! floatingCAOutputs.empty() && deferredIAOutputs.empty()) {
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return DerivationType::CAFloating;
} else if (inputAddressedOutputs.empty() && fixedCAOutputs.empty() && floatingCAOutputs.empty() && !deferredIAOutputs.empty()) {
return DerivationType::DeferredInputAddressed;
} else {
throw Error("Can't mix derivation output types");
}
}
DrvHashes drvHashes;
/* pathDerivationModulo and hashDerivationModulo are mutually recursive
*/
/* Look up the derivation by value and memoize the
`hashDerivationModulo` call.
*/
static const DrvHashModulo & pathDerivationModulo(Store & store, const StorePath & drvPath)
{
auto h = drvHashes.find(drvPath);
if (h == drvHashes.end()) {
// Cache it
h = drvHashes.insert_or_assign(
drvPath,
hashDerivationModulo(
store,
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store.readInvalidDerivation(drvPath),
false)).first;
}
return h->second;
}
/* See the header for interface details. These are the implementation details.
For fixed-output derivations, each hash in the map is not the
corresponding output's content hash, but a hash of that hash along
with other constant data. The key point is that the value is a pure
function of the output's contents, and there are no preimage attacks
either spoofing an output's contents for a derivation, or
spoofing a derivation for an output's contents.
For regular derivations, it looks up each subderivation from its hash
and recurs. If the subderivation is also regular, it simply
substitutes the derivation path with its hash. If the subderivation
is fixed-output, however, it takes each output hash and pretends it
is a derivation hash producing a single "out" output. This is so we
don't leak the provenance of fixed outputs, reducing pointless cache
misses as the build itself won't know this.
*/
DrvHashModulo hashDerivationModulo(Store & store, const Derivation & drv, bool maskOutputs)
{
/* Return a fixed hash for fixed-output derivations. */
switch (drv.type()) {
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case DerivationType::CAFloating:
return UnknownHashes {};
case DerivationType::CAFixed: {
std::map<std::string, Hash> outputHashes;
for (const auto & i : drv.outputs) {
auto & dof = std::get<DerivationOutputCAFixed>(i.second.output);
auto hash = hashString(htSHA256, "fixed:out:"
+ dof.hash.printMethodAlgo() + ":"
+ dof.hash.hash.to_string(Base16, false) + ":"
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+ store.printStorePath(dof.path(store, drv.name, i.first)));
outputHashes.insert_or_assign(i.first, std::move(hash));
}
return outputHashes;
}
case DerivationType::InputAddressed:
break;
case DerivationType::DeferredInputAddressed:
break;
}
/* For other derivations, replace the inputs paths with recursive
calls to this function. */
std::map<std::string, StringSet> inputs2;
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for (auto & i : drv.inputDrvs) {
bool hasUnknownHash = false;
const auto & res = pathDerivationModulo(store, i.first);
std::visit(overloaded {
// Regular non-CA derivation, replace derivation
[&](Hash drvHash) {
inputs2.insert_or_assign(drvHash.to_string(Base16, false), i.second);
},
// CA derivation's output hashes
[&](CaOutputHashes outputHashes) {
std::set<std::string> justOut = { "out" };
for (auto & output : i.second) {
/* Put each one in with a single "out" output.. */
const auto h = outputHashes.at(output);
inputs2.insert_or_assign(
h.to_string(Base16, false),
justOut);
}
},
[&](UnknownHashes) {
hasUnknownHash = true;
},
}, res);
if (hasUnknownHash) {
return UnknownHashes {};
}
}
return hashString(htSHA256, drv.unparse(store, maskOutputs, &inputs2));
}
std::string StorePathWithOutputs::to_string(const Store & store) const
{
return outputs.empty()
? store.printStorePath(path)
: store.printStorePath(path) + "!" + concatStringsSep(",", outputs);
}
bool wantOutput(const string & output, const std::set<string> & wanted)
{
return wanted.empty() || wanted.find(output) != wanted.end();
}
static DerivationOutput readDerivationOutput(Source & in, const Store & store)
{
const auto pathS = readString(in);
const auto hashAlgo = readString(in);
const auto hash = readString(in);
return parseDerivationOutput(store, pathS, hashAlgo, hash);
}
StringSet BasicDerivation::outputNames() const
{
StringSet names;
for (auto & i : outputs)
names.insert(i.first);
return names;
}
DerivationOutputsAndOptPaths BasicDerivation::outputsAndOptPaths(const Store & store) const {
DerivationOutputsAndOptPaths outsAndOptPaths;
for (auto output : outputs)
outsAndOptPaths.insert(std::make_pair(
output.first,
std::make_pair(output.second, output.second.path(store, name, output.first))
)
);
return outsAndOptPaths;
}
std::string_view BasicDerivation::nameFromPath(const StorePath & drvPath) {
auto nameWithSuffix = drvPath.name();
constexpr std::string_view extension = ".drv";
assert(hasSuffix(nameWithSuffix, extension));
nameWithSuffix.remove_suffix(extension.size());
return nameWithSuffix;
}
Source & readDerivation(Source & in, const Store & store, BasicDerivation & drv, std::string_view name)
{
drv.name = name;
drv.outputs.clear();
auto nr = readNum<size_t>(in);
for (size_t n = 0; n < nr; n++) {
auto name = readString(in);
auto output = readDerivationOutput(in, store);
drv.outputs.emplace(std::move(name), std::move(output));
}
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drv.inputSrcs = worker_proto::read(store, in, Phantom<StorePathSet> {});
in >> drv.platform >> drv.builder;
drv.args = readStrings<Strings>(in);
nr = readNum<size_t>(in);
for (size_t n = 0; n < nr; n++) {
auto key = readString(in);
auto value = readString(in);
drv.env[key] = value;
}
return in;
}
void writeDerivation(Sink & out, const Store & store, const BasicDerivation & drv)
{
out << drv.outputs.size();
for (auto & i : drv.outputs) {
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out << i.first;
std::visit(overloaded {
[&](DerivationOutputInputAddressed doi) {
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out << store.printStorePath(doi.path)
<< ""
<< "";
},
[&](DerivationOutputCAFixed dof) {
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out << store.printStorePath(dof.path(store, drv.name, i.first))
<< dof.hash.printMethodAlgo()
<< dof.hash.hash.to_string(Base16, false);
},
[&](DerivationOutputCAFloating dof) {
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out << ""
<< (makeFileIngestionPrefix(dof.method) + printHashType(dof.hashType))
<< "";
},
[&](DerivationOutputDeferred) {
out << ""
<< ""
<< "";
},
}, i.second.output);
}
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worker_proto::write(store, out, drv.inputSrcs);
out << drv.platform << drv.builder << drv.args;
out << drv.env.size();
for (auto & i : drv.env)
out << i.first << i.second;
}
std::string hashPlaceholder(const std::string & outputName)
{
// FIXME: memoize?
return "/" + hashString(htSHA256, "nix-output:" + outputName).to_string(Base32, false);
}
std::string downstreamPlaceholder(const Store & store, const StorePath & drvPath, std::string_view outputName)
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{
auto drvNameWithExtension = drvPath.name();
auto drvName = drvNameWithExtension.substr(0, drvNameWithExtension.size() - 4);
auto clearText = "nix-upstream-output:" + std::string { drvPath.hashPart() } + ":" + outputPathName(drvName, outputName);
return "/" + hashString(htSHA256, clearText).to_string(Base32, false);
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}
static void rewriteDerivation(Store & store, BasicDerivation & drv, const StringMap & rewrites) {
debug("Rewriting the derivation");
for (auto &rewrite: rewrites) {
debug("rewriting %s as %s", rewrite.first, rewrite.second);
}
drv.builder = rewriteStrings(drv.builder, rewrites);
for (auto & arg: drv.args) {
arg = rewriteStrings(arg, rewrites);
}
StringPairs newEnv;
for (auto & envVar: drv.env) {
auto envName = rewriteStrings(envVar.first, rewrites);
auto envValue = rewriteStrings(envVar.second, rewrites);
newEnv.emplace(envName, envValue);
}
drv.env = newEnv;
auto hashModulo = hashDerivationModulo(store, Derivation(drv), true);
for (auto & [outputName, output] : drv.outputs) {
if (std::holds_alternative<DerivationOutputDeferred>(output.output)) {
Hash h = std::get<Hash>(hashModulo);
auto outPath = store.makeOutputPath(outputName, h, drv.name);
drv.env[outputName] = store.printStorePath(outPath);
output = DerivationOutput {
.output = DerivationOutputInputAddressed {
.path = std::move(outPath),
},
};
}
}
}
Sync<DrvPathResolutions> drvPathResolutions;
std::optional<BasicDerivation> Derivation::tryResolve(Store & store) {
BasicDerivation resolved { *this };
// Input paths that we'll want to rewrite in the derivation
StringMap inputRewrites;
for (auto & input : inputDrvs) {
auto inputDrvOutputs = store.queryPartialDerivationOutputMap(input.first);
StringSet newOutputNames;
for (auto & outputName : input.second) {
auto actualPathOpt = inputDrvOutputs.at(outputName);
if (!actualPathOpt)
return std::nullopt;
auto actualPath = *actualPathOpt;
inputRewrites.emplace(
downstreamPlaceholder(store, input.first, outputName),
store.printStorePath(actualPath));
resolved.inputSrcs.insert(std::move(actualPath));
}
}
rewriteDerivation(store, resolved, inputRewrites);
return resolved;
}
}