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|
#include <map>
#include <sys/types.h>
#include <sys/wait.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <fcntl.h>
#include <signal.h>
#include <unistd.h>
#include "normalise.hh"
#include "references.hh"
#include "pathlocks.hh"
#include "globals.hh"
static string pathNullDevice = "/dev/null";
/* A goal is a store expression that still has to be normalised. */
struct Goal
{
/* The path of the store expression. */
Path nePath;
/* The store expression stored at nePath. */
StoreExpr expr;
/* The unfinished inputs are the input store expressions that
still have to be normalised. */
PathSet unfinishedInputs;
/* The waiters are the store expressions that have this one as an
unfinished input. */
PathSet waiters;
/* The remainder is state held during the build. */
/* Locks on the output paths. */
PathLocks outputLocks;
/* Input paths, with their closure elements. */
ClosureElems inClosures;
/* Referenceable paths (i.e., input and output paths). */
PathSet allPaths;
/* The process ID of the builder. */
pid_t pid;
/* The temporary directory. */
Path tmpDir;
/* File descriptor for the log file. */
int fdLogFile;
/* Pipe for the builder's standard output/error. */
int fdsLogger[2];
Goal();
~Goal();
void deleteTmpDir(bool force);
};
Goal::Goal()
: pid(0)
, tmpDir("")
, fdLogFile(0)
{
fdsLogger[0] = 0;
fdsLogger[1] = 0;
}
Goal::~Goal()
{
/* Careful: we should never ever throw an exception from a
destructor. */
if (pid) {
printMsg(lvlError, format("killing child process %1% (%2%)")
% pid % nePath);
/* Send a KILL signal to every process in the child
process group (which hopefully includes *all* its
children). */
if (kill(-pid, SIGKILL) != 0)
printMsg(lvlError, format("killing process %1%") % pid);
else {
/* Wait until the child dies, disregarding the exit
status. */
int status;
while (waitpid(pid, &status, 0) == -1)
if (errno != EINTR) printMsg(lvlError,
format("waiting for process %1%") % pid);
}
}
if (fdLogFile && (close(fdLogFile) != 0))
printMsg(lvlError, format("cannot close fd"));
if (fdsLogger[0] && close(fdsLogger[0]) != 0)
printMsg(lvlError, format("cannot close fd"));
if (fdsLogger[1] && close(fdsLogger[1]) != 0)
printMsg(lvlError, format("cannot close fd"));
try {
deleteTmpDir(false);
} catch (Error & e) {
printMsg(lvlError, format("error (ignored): %1%") % e.msg());
}
}
void Goal::deleteTmpDir(bool force)
{
if (tmpDir != "") {
if (keepFailed && !force)
printMsg(lvlTalkative,
format("builder for `%1%' failed; keeping build directory `%2%'")
% nePath % tmpDir);
else
deletePath(tmpDir);
tmpDir = "";
}
}
/* A set of goals keyed on the path of the store expression. */
typedef map<Path, Goal> Goals;
/* A mapping used to remember for each child process what derivation
store expression it is building. */
typedef map<pid_t, Path> Building;
/* The normaliser class. */
class Normaliser
{
private:
/* The goals of the normaliser. This describes a dependency graph
of derivation expressions that have yet to be normalised. */
Goals goals;
/* The set of `buildable' goals, which are the ones with an empty
list of unfinished inputs. */
PathSet buildable;
/* Child processes currently running. */
Building building;
public:
Normaliser();
/* Add the normalisation of a store expression of a goal. Returns
true if the expression has been added; false if it's
unnecessary (the expression is a closure, or already has a
known successor). */
bool addGoal(Path nePath);
/* Perform build actions until all goals have been realised. */
void run();
private:
/* Start building a derivation. Returns false if we decline to
build it right now. */
bool startBuild(Path nePath);
void startBuildChild(Goal & goal);
/* Read from the logger pipes, and watch for child termination as
a side effect. */
void wait();
/* Wait for child processes to finish building a derivation. */
void reapChild(Goal & goal);
/* Called when a build has finished succesfully. */
void finishGoal(Goal & goal);
/* Removes a goal from the graph and wakes up all waiters. */
void removeGoal(Goal & goal);
};
static Path useSuccessor(const Path & path)
{
string pathSucc;
if (querySuccessor(path, pathSucc)) {
debug(format("successor %1% -> %2%") % (string) path % pathSucc);
return pathSucc;
} else
return path;
}
Normaliser::Normaliser()
{
}
bool Normaliser::addGoal(Path nePath)
{
checkInterrupt();
Goal goal;
goal.nePath = nePath;
/* If this already a goal, return. */
if (goals.find(nePath) != goals.end()) return true;
/* If we already have a successor, then we are done already; don't
add the expression as a goal. */
Path nfPath;
if (querySuccessor(nePath, nfPath)) return false;
/* Get the store expression. */
goal.expr = storeExprFromPath(nePath);
/* If this is a normal form (i.e., a closure) we are also done. */
if (goal.expr.type == StoreExpr::neClosure) return false;
if (goal.expr.type != StoreExpr::neDerivation) abort();
/* Otherwise, it's a derivation expression for which the successor
is not known, and we have to build it to determine its normal
form. So add it as a goal. */
startNest(nest, lvlChatty,
format("adding build goal `%1%'") % nePath);
/* Inputs may also need to be added as goals if they haven't been
normalised yet. */
for (PathSet::iterator i = goal.expr.derivation.inputs.begin();
i != goal.expr.derivation.inputs.end(); ++i)
if (addGoal(*i)) {
goal.unfinishedInputs.insert(*i);
goals[*i].waiters.insert(nePath);
}
/* Maintain the invariant that all goals with no unfinished inputs
are in the `buildable' set. */
if (goal.unfinishedInputs.empty())
buildable.insert(nePath);
/* Add the goal to the goal graph. */
goals[nePath] = goal;
return true;
}
void Normaliser::run()
{
startNest(nest, lvlChatty, format("running normaliser"));
while (!goals.empty()) {
printMsg(lvlVomit, "loop");
/* Start building as many buildable goals as possible. */
bool madeProgress = false;
for (PathSet::iterator i = buildable.begin();
i != buildable.end(); ++i)
if (startBuild(*i)) {
madeProgress = true;
buildable.erase(*i);
}
if (building.empty())
assert(madeProgress); /* shouldn't happen */
else
wait();
}
assert(buildable.empty() && building.empty());
}
bool Normaliser::startBuild(Path nePath)
{
checkInterrupt();
Goals::iterator goalIt = goals.find(nePath);
assert(goalIt != goals.end());
Goal & goal(goalIt->second);
assert(goal.unfinishedInputs.empty());
startNest(nest, lvlTalkative,
format("starting normalisation of goal `%1%'") % nePath);
/* The outputs are referenceable paths. */
for (PathSet::iterator i = goal.expr.derivation.outputs.begin();
i != goal.expr.derivation.outputs.end(); ++i)
{
debug(format("building path `%1%'") % *i);
goal.allPaths.insert(*i);
}
/* Obtain locks on all output paths. The locks are automatically
released when we exit this function or Nix crashes. */
goal.outputLocks.lockPaths(goal.expr.derivation.outputs);
/* Now check again whether there is a successor. This is because
another process may have started building in parallel. After
it has finished and released the locks, we can (and should)
reuse its results. (Strictly speaking the first successor
check can be omitted, but that would be less efficient.) Note
that since we now hold the locks on the output paths, no other
process can build this expression, so no further checks are
necessary. */
Path nfPath;
if (querySuccessor(nePath, nfPath)) {
debug(format("skipping build of expression `%1%', someone beat us to it")
% nePath);
goal.outputLocks.setDeletion(true);
removeGoal(goal);
return true;
}
/* Right platform? */
if (goal.expr.derivation.platform != thisSystem)
throw Error(format("a `%1%' is required, but I am a `%2%'")
% goal.expr.derivation.platform % thisSystem);
/* Realise inputs (and remember all input paths). */
for (PathSet::iterator i = goal.expr.derivation.inputs.begin();
i != goal.expr.derivation.inputs.end(); ++i)
{
checkInterrupt();
Path nfPath = useSuccessor(*i);
realiseClosure(nfPath);
/* !!! nfPath should be a root of the garbage collector while
we are building */
StoreExpr ne = storeExprFromPath(nfPath);
if (ne.type != StoreExpr::neClosure) abort();
for (ClosureElems::iterator j = ne.closure.elems.begin();
j != ne.closure.elems.end(); ++j)
{
goal.inClosures[j->first] = j->second;
goal.allPaths.insert(j->first);
}
}
/* We can skip running the builder if all output paths are already
valid. */
bool fastBuild = true;
for (PathSet::iterator i = goal.expr.derivation.outputs.begin();
i != goal.expr.derivation.outputs.end(); ++i)
{
if (!isValidPath(*i)) {
fastBuild = false;
break;
}
}
if (fastBuild) {
printMsg(lvlChatty, format("skipping build; output paths already exist"));
finishGoal(goal);
return true;
}
/* Otherwise, start the build in a child process. */
startBuildChild(goal);
return true;
}
void Normaliser::startBuildChild(Goal & goal)
{
/* If any of the outputs already exist but are not registered,
delete them. */
for (PathSet::iterator i = goal.expr.derivation.outputs.begin();
i != goal.expr.derivation.outputs.end(); ++i)
{
Path path = *i;
if (isValidPath(path))
throw Error(format("obstructed build: path `%1%' exists") % path);
if (pathExists(path)) {
debug(format("removing unregistered path `%1%'") % path);
deletePath(path);
}
}
/* Construct the environment passed to the builder. */
typedef map<string, string> Environment;
Environment env;
/* Most shells initialise PATH to some default (/bin:/usr/bin:...) when
PATH is not set. We don't want this, so we fill it in with some dummy
value. */
env["PATH"] = "/path-not-set";
/* Set HOME to a non-existing path to prevent certain programs from using
/etc/passwd (or NIS, or whatever) to locate the home directory (for
example, wget looks for ~/.wgetrc). I.e., these tools use /etc/passwd
if HOME is not set, but they will just assume that the settings file
they are looking for does not exist if HOME is set but points to some
non-existing path. */
env["HOME"] = "/homeless-shelter";
/* Tell the builder where the Nix store is. Usually they
shouldn't care, but this is useful for purity checking (e.g.,
the compiler or linker might only want to accept paths to files
in the store or in the build directory). */
env["NIX_STORE"] = nixStore;
/* Add all bindings specified in the derivation expression. */
for (StringPairs::iterator i = goal.expr.derivation.env.begin();
i != goal.expr.derivation.env.end(); ++i)
env[i->first] = i->second;
/* Create a temporary directory where the build will take
place. */
goal.tmpDir = createTempDir();
/* For convenience, set an environment pointing to the top build
directory. */
env["NIX_BUILD_TOP"] = goal.tmpDir;
/* Also set TMPDIR and variants to point to this directory. */
env["TMPDIR"] = env["TEMPDIR"] = env["TMP"] = env["TEMP"] = goal.tmpDir;
/* Run the builder. */
printMsg(lvlChatty, format("executing builder `%1%'") %
goal.expr.derivation.builder);
/* Create a log file. */
Path logFileName = nixLogDir + "/" + baseNameOf(goal.nePath);
int fdLogFile = open(logFileName.c_str(),
O_CREAT | O_WRONLY | O_TRUNC, 0666);
if (fdLogFile == -1)
throw SysError(format("creating log file `%1%'") % logFileName);
goal.fdLogFile = fdLogFile;
/* Create a pipe to get the output of the child. */
if (pipe(goal.fdsLogger) != 0)
throw SysError("creating logger pipe");
/* Fork a child to build the package. Note that while we
currently use forks to run and wait for the children, it
shouldn't be hard to use threads for this on systems where
fork() is unavailable or inefficient. */
switch (goal.pid = fork()) {
case -1:
throw SysError("unable to fork");
case 0:
/* Warning: in the child we should absolutely not make any
Berkeley DB calls! */
try { /* child */
/* Put the child in a separate process group so that it
doesn't receive terminal signals. */
if (setpgrp() == -1)
throw SysError(format("setting process group"));
if (chdir(goal.tmpDir.c_str()) == -1)
throw SysError(format("changing into to `%1%'") % goal.tmpDir);
/* Fill in the arguments. */
Strings & args(goal.expr.derivation.args);
const char * argArr[args.size() + 2];
const char * * p = argArr;
string progName = baseNameOf(goal.expr.derivation.builder);
*p++ = progName.c_str();
for (Strings::const_iterator i = args.begin();
i != args.end(); i++)
*p++ = i->c_str();
*p = 0;
/* Fill in the environment. */
Strings envStrs;
const char * envArr[env.size() + 1];
p = envArr;
for (Environment::const_iterator i = env.begin();
i != env.end(); i++)
*p++ = envStrs.insert(envStrs.end(),
i->first + "=" + i->second)->c_str();
*p = 0;
/* Dup the write side of the logger pipe into stderr. */
if (dup2(goal.fdsLogger[1], STDERR_FILENO) == -1)
throw SysError("cannot pipe standard error into log file");
if (close(goal.fdsLogger[0]) != 0) /* close read side */
throw SysError("closing fd");
/* Dup stderr to stdin. */
if (dup2(STDERR_FILENO, STDOUT_FILENO) == -1)
throw SysError("cannot dup stderr into stdout");
/* Reroute stdin to /dev/null. */
int fdDevNull = open(pathNullDevice.c_str(), O_RDWR);
if (fdDevNull == -1)
throw SysError(format("cannot open `%1%'") % pathNullDevice);
if (dup2(fdDevNull, STDIN_FILENO) == -1)
throw SysError("cannot dup null device into stdin");
/* Close all other file descriptors. */
int maxFD = 0;
maxFD = sysconf(_SC_OPEN_MAX);
debug(format("closing fds up to %1%") % (int) maxFD);
for (int fd = 0; fd < maxFD; ++fd)
if (fd != STDIN_FILENO && fd != STDOUT_FILENO && fd != STDERR_FILENO)
close(fd); /* ignore result */
/* Execute the program. This should not return. */
execve(goal.expr.derivation.builder.c_str(),
(char * *) argArr, (char * *) envArr);
throw SysError(format("unable to execute %1%")
% goal.expr.derivation.builder);
} catch (exception & e) {
cerr << format("build error: %1%\n") % e.what();
}
_exit(1);
}
/* parent */
building[goal.pid] = goal.nePath;
/* Close the write side of the logger pipe. */
if (close(goal.fdsLogger[1]) != 0)
throw SysError("closing fd");
goal.fdsLogger[1] = 0;
}
void Normaliser::wait()
{
checkInterrupt();
/* Process log output from the children. We also use this to
detect child termination: if we get EOF on the logger pipe of a
build, we assume that the builder has terminated. */
/* Use select() to wait for the input side of any logger pipe to
become `available'. Note that `available' (i.e., non-blocking)
includes EOF. */
fd_set fds;
FD_ZERO(&fds);
int fdMax = 0;
for (Building::iterator i = building.begin();
i != building.end(); ++i)
{
Goal & goal(goals[i->second]);
int fd = goal.fdsLogger[0];
FD_SET(fd, &fds);
if (fd >= fdMax) fdMax = fd + 1;
}
if (select(fdMax, &fds, 0, 0, 0) == -1) {
if (errno == EINTR) return;
throw SysError("waiting for input");
}
/* Process all available file descriptors. */
for (Building::iterator i = building.begin();
i != building.end(); ++i)
{
checkInterrupt();
Goal & goal(goals[i->second]);
int fd = goal.fdsLogger[0];
if (FD_ISSET(fd, &fds)) {
unsigned char buffer[1024];
ssize_t rd = read(fd, buffer, sizeof(buffer));
if (rd == -1) {
if (errno != EINTR)
throw SysError(format("reading from `%1%'")
% goal.nePath);
} else if (rd == 0) {
debug(format("EOF on `%1%'") % goal.nePath);
reapChild(goal);
} else {
printMsg(lvlVomit, format("read %1% bytes from `%2%'")
% rd % goal.nePath);
writeFull(goal.fdLogFile, buffer, rd);
if (verbosity >= buildVerbosity)
writeFull(STDERR_FILENO, buffer, rd);
}
}
}
}
void Normaliser::reapChild(Goal & goal)
{
int status;
/* Since we got an EOF on the logger pipe, the builder is presumed
to have terminated. In fact, the builder could also have
simply have closed its end of the pipe --- just don't do that
:-) */
if (waitpid(goal.pid, &status, WNOHANG) != goal.pid)
throw SysError(format("builder for `%1%' should have terminated")
% goal.nePath);
/* So the child is gone now. */
pid_t pid = goal.pid;
goal.pid = 0;
/* Close the read side of the logger pipe. */
if (close(goal.fdsLogger[0]) != 0)
throw SysError("closing fd");
goal.fdsLogger[0] = 0;
/* Close the log file. */
if (close(goal.fdLogFile) != 0)
throw SysError("closing fd");
goal.fdLogFile = 0;
debug(format("builder process %1% finished") % pid);
/* Check the exit status. */
if (!WIFEXITED(status) || WEXITSTATUS(status) != 0) {
goal.deleteTmpDir(false);
if (WIFEXITED(status))
throw Error(format("builder for `%1%' failed with exit code %2%")
% goal.nePath % WEXITSTATUS(status));
else if (WIFSIGNALED(status))
throw Error(format("builder for `%1%' failed due to signal %2%")
% goal.nePath % WTERMSIG(status));
else
throw Error(format("builder for `%1%' failed died abnormally") % goal.nePath);
} else
goal.deleteTmpDir(true);
finishGoal(goal);
building.erase(pid);
}
void Normaliser::finishGoal(Goal & goal)
{
/* The resulting closure expression. */
StoreExpr nf;
nf.type = StoreExpr::neClosure;
startNest(nest, lvlTalkative,
format("finishing normalisation of goal `%1%'") % goal.nePath);
/* Check whether the output paths were created, and grep each
output path to determine what other paths it references. Also make all
output paths read-only. */
PathSet usedPaths;
for (PathSet::iterator i = goal.expr.derivation.outputs.begin();
i != goal.expr.derivation.outputs.end(); ++i)
{
Path path = *i;
if (!pathExists(path))
throw Error(format("path `%1%' does not exist") % path);
nf.closure.roots.insert(path);
makePathReadOnly(path);
/* For this output path, find the references to other paths contained
in it. */
startNest(nest2, lvlChatty,
format("scanning for store references in `%1%'") % path);
Strings refPaths = filterReferences(path,
Strings(goal.allPaths.begin(), goal.allPaths.end()));
nest2.close();
/* Construct a closure element for this output path. */
ClosureElem elem;
/* For each path referenced by this output path, add its id to the
closure element and add the id to the `usedPaths' set (so that the
elements referenced by *its* closure are added below). */
for (Paths::iterator j = refPaths.begin();
j != refPaths.end(); ++j)
{
checkInterrupt();
Path path = *j;
elem.refs.insert(path);
if (goal.inClosures.find(path) != goal.inClosures.end())
usedPaths.insert(path);
else if (goal.expr.derivation.outputs.find(path) ==
goal.expr.derivation.outputs.end())
abort();
}
nf.closure.elems[path] = elem;
}
/* Close the closure. That is, for any referenced path, add the paths
referenced by it. */
PathSet donePaths;
while (!usedPaths.empty()) {
checkInterrupt();
PathSet::iterator i = usedPaths.begin();
Path path = *i;
usedPaths.erase(i);
if (donePaths.find(path) != donePaths.end()) continue;
donePaths.insert(path);
ClosureElems::iterator j = goal.inClosures.find(path);
if (j == goal.inClosures.end()) abort();
nf.closure.elems[path] = j->second;
for (PathSet::iterator k = j->second.refs.begin();
k != j->second.refs.end(); k++)
usedPaths.insert(*k);
}
/* For debugging, print out the referenced and unreferenced paths. */
for (ClosureElems::iterator i = goal.inClosures.begin();
i != goal.inClosures.end(); ++i)
{
PathSet::iterator j = donePaths.find(i->first);
if (j == donePaths.end())
debug(format("unreferenced input: `%1%'") % i->first);
else
debug(format("referenced input: `%1%'") % i->first);
}
/* Write the normal form. This does not have to occur in the
transaction below because writing terms is idem-potent. */
ATerm nfTerm = unparseStoreExpr(nf);
printMsg(lvlVomit, format("normal form: %1%") % atPrint(nfTerm));
Path nfPath = writeTerm(nfTerm, "-s");
/* Register each output path, and register the normal form. This
is wrapped in one database transaction to ensure that if we
crash, either everything is registered or nothing is. This is
for recoverability: unregistered paths in the store can be
deleted arbitrarily, while registered paths can only be deleted
by running the garbage collector. */
Transaction txn;
createStoreTransaction(txn);
for (PathSet::iterator i = goal.expr.derivation.outputs.begin();
i != goal.expr.derivation.outputs.end(); ++i)
registerValidPath(txn, *i);
registerSuccessor(txn, goal.nePath, nfPath);
txn.commit();
/* It is now safe to delete the lock files, since all future
lockers will see the successor; they will not create new lock
files with the same names as the old (unlinked) lock files. */
goal.outputLocks.setDeletion(true);
removeGoal(goal);
}
void Normaliser::removeGoal(Goal & goal)
{
/* Remove this goal from those goals to which it is an input. */
for (PathSet::iterator i = goal.waiters.begin();
i != goal.waiters.end(); ++i)
{
Goal & waiter(goals[*i]);
PathSet::iterator j = waiter.unfinishedInputs.find(goal.nePath);
assert(j != waiter.unfinishedInputs.end());
waiter.unfinishedInputs.erase(j);
/* If there are not inputs left, the goal has become
buildable. */
if (waiter.unfinishedInputs.empty()) {
debug(format("waking up goal `%1%'") % waiter.nePath);
buildable.insert(waiter.nePath);
}
}
/* Remove this goal from the graph. Careful: after this `goal' is
probably no longer valid. */
goals.erase(goal.nePath);
}
Path normaliseStoreExpr(const Path & nePath)
{
Normaliser normaliser;
normaliser.addGoal(nePath);
normaliser.run();
Path nfPath;
if (!querySuccessor(nePath, nfPath)) abort();
return nfPath;
}
void realiseClosure(const Path & nePath)
{
startNest(nest, lvlDebug, format("realising closure `%1%'") % nePath);
StoreExpr ne = storeExprFromPath(nePath);
if (ne.type != StoreExpr::neClosure)
throw Error(format("expected closure in `%1%'") % nePath);
for (ClosureElems::const_iterator i = ne.closure.elems.begin();
i != ne.closure.elems.end(); ++i)
ensurePath(i->first);
}
void ensurePath(const Path & path)
{
/* If the path is already valid, we're done. */
if (isValidPath(path)) return;
#if 0
if (pending.find(path) != pending.end())
throw Error(format(
"path `%1%' already being realised (possible substitute cycle?)")
% path);
pending.insert(path);
/* Otherwise, try the substitutes. */
Paths subPaths = querySubstitutes(path);
for (Paths::iterator i = subPaths.begin();
i != subPaths.end(); ++i)
{
checkInterrupt();
try {
Path nf = normaliseStoreExpr(*i, pending);
realiseClosure(nf, pending);
if (isValidPath(path)) return;
throw Error(format("substitute failed to produce expected output path"));
} catch (Error & e) {
printMsg(lvlTalkative,
format("building of substitute `%1%' for `%2%' failed: %3%")
% *i % path % e.what());
}
}
#endif
throw Error(format("path `%1%' is required, "
"but there are no (successful) substitutes") % path);
}
StoreExpr storeExprFromPath(const Path & path)
{
assertStorePath(path);
ensurePath(path);
ATerm t = ATreadFromNamedFile(path.c_str());
if (!t) throw Error(format("cannot read aterm from `%1%'") % path);
return parseStoreExpr(t);
}
PathSet storeExprRoots(const Path & nePath)
{
PathSet paths;
StoreExpr ne = storeExprFromPath(nePath);
if (ne.type == StoreExpr::neClosure)
paths.insert(ne.closure.roots.begin(), ne.closure.roots.end());
else if (ne.type == StoreExpr::neDerivation)
paths.insert(ne.derivation.outputs.begin(),
ne.derivation.outputs.end());
else abort();
return paths;
}
static void requisitesWorker(const Path & nePath,
bool includeExprs, bool includeSuccessors,
PathSet & paths, PathSet & doneSet)
{
checkInterrupt();
if (doneSet.find(nePath) != doneSet.end()) return;
doneSet.insert(nePath);
StoreExpr ne = storeExprFromPath(nePath);
if (ne.type == StoreExpr::neClosure)
for (ClosureElems::iterator i = ne.closure.elems.begin();
i != ne.closure.elems.end(); ++i)
paths.insert(i->first);
else if (ne.type == StoreExpr::neDerivation)
for (PathSet::iterator i = ne.derivation.inputs.begin();
i != ne.derivation.inputs.end(); ++i)
requisitesWorker(*i,
includeExprs, includeSuccessors, paths, doneSet);
else abort();
if (includeExprs) paths.insert(nePath);
string nfPath;
if (includeSuccessors && (nfPath = useSuccessor(nePath)) != nePath)
requisitesWorker(nfPath, includeExprs, includeSuccessors,
paths, doneSet);
}
PathSet storeExprRequisites(const Path & nePath,
bool includeExprs, bool includeSuccessors)
{
PathSet paths;
PathSet doneSet;
requisitesWorker(nePath, includeExprs, includeSuccessors,
paths, doneSet);
return paths;
}
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