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nix/src/libutil/fs-sink.cc
John Ericson 0c67777396 Expose the nix component in header include paths 
For example, instead of doing

    #include "nix/store-config.hh"
    #include "nix/derived-path.hh"

Now do

    #include "nix/store/config.hh"
    #include "nix/store/derived-path.hh"

This was originally planned in the issue, and also recent requested by
Eelco.

Most of the change is purely mechanical. There is just one small
additional issue. See how, in the example above, we took this
opportunity to also turn `<comp>-config.hh` into `<comp>/config.hh`.
Well, there was already a `nix/util/config.{cc,hh}`. Even though there
is not a public configuration header for libutil (which also would be
called `nix/util/config.{cc,hh}`) that's still confusing, To avoid any
such confusion, we renamed that to `nix/util/configuration.{cc,hh}`.

Finally, note that the libflake headers already did this, so we didn't
need to do anything to them. We wouldn't want to mistakenly get
`nix/flake/flake/flake.hh`!

Progress on #7876

(cherry picked from commit cc24766fa6)
2025-04-02 11:37:17 -04:00

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5.4 KiB
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#include <fcntl.h>
#include "nix/util/error.hh"
#include "nix/util/config-global.hh"
#include "nix/util/fs-sink.hh"
#if _WIN32
# include <fileapi.h>
# include "nix/util/file-path.hh"
# include "nix/util/windows-error.hh"
#endif
#include "util-config-private.hh"
namespace nix {
void copyRecursive(
SourceAccessor & accessor, const CanonPath & from,
FileSystemObjectSink & sink, const CanonPath & to)
{
auto stat = accessor.lstat(from);
switch (stat.type) {
case SourceAccessor::tSymlink:
{
sink.createSymlink(to, accessor.readLink(from));
break;
}
case SourceAccessor::tRegular:
{
sink.createRegularFile(to, [&](CreateRegularFileSink & crf) {
if (stat.isExecutable)
crf.isExecutable();
accessor.readFile(from, crf, [&](uint64_t size) {
crf.preallocateContents(size);
});
});
break;
}
case SourceAccessor::tDirectory:
{
sink.createDirectory(to);
for (auto & [name, _] : accessor.readDirectory(from)) {
copyRecursive(
accessor, from / name,
sink, to / name);
break;
}
break;
}
case SourceAccessor::tChar:
case SourceAccessor::tBlock:
case SourceAccessor::tSocket:
case SourceAccessor::tFifo:
case SourceAccessor::tUnknown:
default:
throw Error("file '%1%' has an unsupported type of %2%", from, stat.typeString());
}
}
struct RestoreSinkSettings : Config
{
Setting<bool> preallocateContents{this, false, "preallocate-contents",
"Whether to preallocate files when writing objects with known size."};
};
static RestoreSinkSettings restoreSinkSettings;
static GlobalConfig::Register r1(&restoreSinkSettings);
static std::filesystem::path append(const std::filesystem::path & src, const CanonPath & path)
{
auto dst = src;
if (!path.rel().empty())
dst /= path.rel();
return dst;
}
void RestoreSink::createDirectory(const CanonPath & path)
{
auto p = append(dstPath, path);
if (!std::filesystem::create_directory(p))
throw Error("path '%s' already exists", p.string());
};
struct RestoreRegularFile : CreateRegularFileSink {
AutoCloseFD fd;
bool startFsync = false;
~RestoreRegularFile()
{
/* Initiate an fsync operation without waiting for the
result. The real fsync should be run before registering a
store path, but this is a performance optimization to allow
the disk write to start early. */
if (fd && startFsync)
fd.startFsync();
}
void operator () (std::string_view data) override;
void isExecutable() override;
void preallocateContents(uint64_t size) override;
};
void RestoreSink::createRegularFile(const CanonPath & path, std::function<void(CreateRegularFileSink &)> func)
{
auto p = append(dstPath, path);
RestoreRegularFile crf;
crf.startFsync = startFsync;
crf.fd =
#ifdef _WIN32
CreateFileW(p.c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, CREATE_NEW, FILE_ATTRIBUTE_NORMAL, NULL)
#else
open(p.c_str(), O_CREAT | O_EXCL | O_WRONLY | O_CLOEXEC, 0666)
#endif
;
if (!crf.fd) throw NativeSysError("creating file '%1%'", p);
func(crf);
}
void RestoreRegularFile::isExecutable()
{
// Windows doesn't have a notion of executable file permissions we
// care about here, right?
#ifndef _WIN32
struct stat st;
if (fstat(fd.get(), &st) == -1)
throw SysError("fstat");
if (fchmod(fd.get(), st.st_mode | (S_IXUSR | S_IXGRP | S_IXOTH)) == -1)
throw SysError("fchmod");
#endif
}
void RestoreRegularFile::preallocateContents(uint64_t len)
{
if (!restoreSinkSettings.preallocateContents)
return;
#if HAVE_POSIX_FALLOCATE
if (len) {
errno = posix_fallocate(fd.get(), 0, len);
/* Note that EINVAL may indicate that the underlying
filesystem doesn't support preallocation (e.g. on
OpenSolaris). Since preallocation is just an
optimisation, ignore it. */
if (errno && errno != EINVAL && errno != EOPNOTSUPP && errno != ENOSYS)
throw SysError("preallocating file of %1% bytes", len);
}
#endif
}
void RestoreRegularFile::operator () (std::string_view data)
{
writeFull(fd.get(), data);
}
void RestoreSink::createSymlink(const CanonPath & path, const std::string & target)
{
auto p = append(dstPath, path);
nix::createSymlink(target, p.string());
}
void RegularFileSink::createRegularFile(const CanonPath & path, std::function<void(CreateRegularFileSink &)> func)
{
struct CRF : CreateRegularFileSink {
RegularFileSink & back;
CRF(RegularFileSink & back) : back(back) {}
void operator () (std::string_view data) override
{
back.sink(data);
}
void isExecutable() override {}
} crf { *this };
func(crf);
}
void NullFileSystemObjectSink::createRegularFile(const CanonPath & path, std::function<void(CreateRegularFileSink &)> func)
{
struct : CreateRegularFileSink {
void operator () (std::string_view data) override {}
void isExecutable() override {}
} crf;
// Even though `NullFileSystemObjectSink` doesn't do anything, it's important
// that we call the function, to e.g. advance the parser using this
// sink.
func(crf);
}
}
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