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Nix/perl/lib/Nix/Store.xs
Eelco Dolstra bbe97dff8b Make the Store API more type-safe 
Most functions now take a StorePath argument rather than a Path (which
is just an alias for std::string). The StorePath constructor ensures
that the path is syntactically correct (i.e. it looks like
<store-dir>/<base32-hash>-<name>). Similarly, functions like
buildPaths() now take a StorePathWithOutputs, rather than abusing Path
by adding a '!<outputs>' suffix.

Note that the StorePath type is implemented in Rust. This involves
some hackery to allow Rust values to be used directly in C++, via a
helper type whose destructor calls the Rust type's drop()
function. The main issue is the dynamic nature of C++ move semantics:
after we have moved a Rust value, we should not call the drop function
on the original value. So when we move a value, we set the original
value to bitwise zero, and the destructor only calls drop() if the
value is not bitwise zero. This should be sufficient for most types.

Also lots of minor cleanups to the C++ API to make it more modern
(e.g. using std::optional and std::string_view in some places).
2019-12-10 22:06:05 +01:00

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#include "config.h"
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
/* Prevent a clash between some Perl and libstdc++ macros. */
#undef do_open
#undef do_close
#include "derivations.hh"
#include "globals.hh"
#include "store-api.hh"
#include "util.hh"
#include "crypto.hh"
#if HAVE_SODIUM
#include <sodium.h>
#endif
using namespace nix;
static ref<Store> store()
{
static std::shared_ptr<Store> _store;
if (!_store) {
try {
loadConfFile();
settings.lockCPU = false;
_store = openStore();
} catch (Error & e) {
croak("%s", e.what());
}
}
return ref<Store>(_store);
}
MODULE = Nix::Store PACKAGE = Nix::Store
PROTOTYPES: ENABLE
#undef dNOOP // Hack to work around "error: declaration of 'Perl___notused' has a different language linkage" error message on clang.
#define dNOOP
void init()
CODE:
store();
void setVerbosity(int level)
CODE:
verbosity = (Verbosity) level;
int isValidPath(char * path)
CODE:
try {
RETVAL = store()->isValidPath(store()->parseStorePath(path));
} catch (Error & e) {
croak("%s", e.what());
}
OUTPUT:
RETVAL
SV * queryReferences(char * path)
PPCODE:
try {
for (auto & i : store()->queryPathInfo(store()->parseStorePath(path))->references)
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(i).c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * queryPathHash(char * path)
PPCODE:
try {
auto s = store()->queryPathInfo(store()->parseStorePath(path))->narHash.to_string();
XPUSHs(sv_2mortal(newSVpv(s.c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * queryDeriver(char * path)
PPCODE:
try {
auto info = store()->queryPathInfo(store()->parseStorePath(path));
if (!info->deriver) XSRETURN_UNDEF;
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(*info->deriver).c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * queryPathInfo(char * path, int base32)
PPCODE:
try {
auto info = store()->queryPathInfo(store()->parseStorePath(path));
if (info->deriver)
XPUSHs(&PL_sv_undef);
else
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(*info->deriver).c_str(), 0)));
auto s = info->narHash.to_string(base32 ? Base32 : Base16);
XPUSHs(sv_2mortal(newSVpv(s.c_str(), 0)));
mXPUSHi(info->registrationTime);
mXPUSHi(info->narSize);
AV * arr = newAV();
for (auto & i : info->references)
av_push(arr, newSVpv(store()->printStorePath(i).c_str(), 0));
XPUSHs(sv_2mortal(newRV((SV *) arr)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * queryPathFromHashPart(char * hashPart)
PPCODE:
try {
auto path = store()->queryPathFromHashPart(hashPart);
XPUSHs(sv_2mortal(newSVpv(path ? store()->printStorePath(*path).c_str() : "", 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * computeFSClosure(int flipDirection, int includeOutputs, ...)
PPCODE:
try {
StorePathSet paths;
for (int n = 2; n < items; ++n)
store()->computeFSClosure(store()->parseStorePath(SvPV_nolen(ST(n))), paths, flipDirection, includeOutputs);
for (auto & i : paths)
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(i).c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * topoSortPaths(...)
PPCODE:
try {
StorePathSet paths;
for (int n = 0; n < items; ++n) paths.insert(store()->parseStorePath(SvPV_nolen(ST(n))));
auto sorted = store()->topoSortPaths(paths);
for (auto & i : sorted)
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(i).c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * followLinksToStorePath(char * path)
CODE:
try {
RETVAL = newSVpv(store()->printStorePath(store()->followLinksToStorePath(path)).c_str(), 0);
} catch (Error & e) {
croak("%s", e.what());
}
OUTPUT:
RETVAL
void exportPaths(int fd, ...)
PPCODE:
try {
StorePathSet paths;
for (int n = 1; n < items; ++n) paths.insert(store()->parseStorePath(SvPV_nolen(ST(n))));
FdSink sink(fd);
store()->exportPaths(paths, sink);
} catch (Error & e) {
croak("%s", e.what());
}
void importPaths(int fd, int dontCheckSigs)
PPCODE:
try {
FdSource source(fd);
store()->importPaths(source, nullptr, dontCheckSigs ? NoCheckSigs : CheckSigs);
} catch (Error & e) {
croak("%s", e.what());
}
SV * hashPath(char * algo, int base32, char * path)
PPCODE:
try {
Hash h = hashPath(parseHashType(algo), path).first;
auto s = h.to_string(base32 ? Base32 : Base16, false);
XPUSHs(sv_2mortal(newSVpv(s.c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * hashFile(char * algo, int base32, char * path)
PPCODE:
try {
Hash h = hashFile(parseHashType(algo), path);
auto s = h.to_string(base32 ? Base32 : Base16, false);
XPUSHs(sv_2mortal(newSVpv(s.c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * hashString(char * algo, int base32, char * s)
PPCODE:
try {
Hash h = hashString(parseHashType(algo), s);
auto s = h.to_string(base32 ? Base32 : Base16, false);
XPUSHs(sv_2mortal(newSVpv(s.c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * convertHash(char * algo, char * s, int toBase32)
PPCODE:
try {
Hash h(s, parseHashType(algo));
string s = h.to_string(toBase32 ? Base32 : Base16, false);
XPUSHs(sv_2mortal(newSVpv(s.c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * signString(char * secretKey_, char * msg)
PPCODE:
try {
#if HAVE_SODIUM
auto sig = SecretKey(secretKey_).signDetached(msg);
XPUSHs(sv_2mortal(newSVpv(sig.c_str(), sig.size())));
#else
throw Error("Nix was not compiled with libsodium, required for signed binary cache support");
#endif
} catch (Error & e) {
croak("%s", e.what());
}
int checkSignature(SV * publicKey_, SV * sig_, char * msg)
CODE:
try {
#if HAVE_SODIUM
STRLEN publicKeyLen;
unsigned char * publicKey = (unsigned char *) SvPV(publicKey_, publicKeyLen);
if (publicKeyLen != crypto_sign_PUBLICKEYBYTES)
throw Error("public key is not valid");
STRLEN sigLen;
unsigned char * sig = (unsigned char *) SvPV(sig_, sigLen);
if (sigLen != crypto_sign_BYTES)
throw Error("signature is not valid");
RETVAL = crypto_sign_verify_detached(sig, (unsigned char *) msg, strlen(msg), publicKey) == 0;
#else
throw Error("Nix was not compiled with libsodium, required for signed binary cache support");
#endif
} catch (Error & e) {
croak("%s", e.what());
}
OUTPUT:
RETVAL
SV * addToStore(char * srcPath, int recursive, char * algo)
PPCODE:
try {
auto path = store()->addToStore(std::string(baseNameOf(srcPath)), srcPath, recursive, parseHashType(algo));
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(path).c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * makeFixedOutputPath(int recursive, char * algo, char * hash, char * name)
PPCODE:
try {
Hash h(hash, parseHashType(algo));
auto path = store()->makeFixedOutputPath(recursive, h, name);
XPUSHs(sv_2mortal(newSVpv(store()->printStorePath(path).c_str(), 0)));
} catch (Error & e) {
croak("%s", e.what());
}
SV * derivationFromPath(char * drvPath)
PREINIT:
HV *hash;
CODE:
try {
Derivation drv = store()->derivationFromPath(store()->parseStorePath(drvPath));
hash = newHV();
HV * outputs = newHV();
for (auto & i : drv.outputs)
hv_store(outputs, i.first.c_str(), i.first.size(), newSVpv(store()->printStorePath(i.second.path).c_str(), 0), 0);
hv_stores(hash, "outputs", newRV((SV *) outputs));
AV * inputDrvs = newAV();
for (auto & i : drv.inputDrvs)
av_push(inputDrvs, newSVpv(store()->printStorePath(i.first).c_str(), 0)); // !!! ignores i->second
hv_stores(hash, "inputDrvs", newRV((SV *) inputDrvs));
AV * inputSrcs = newAV();
for (auto & i : drv.inputSrcs)
av_push(inputSrcs, newSVpv(store()->printStorePath(i).c_str(), 0));
hv_stores(hash, "inputSrcs", newRV((SV *) inputSrcs));
hv_stores(hash, "platform", newSVpv(drv.platform.c_str(), 0));
hv_stores(hash, "builder", newSVpv(drv.builder.c_str(), 0));
AV * args = newAV();
for (auto & i : drv.args)
av_push(args, newSVpv(i.c_str(), 0));
hv_stores(hash, "args", newRV((SV *) args));
HV * env = newHV();
for (auto & i : drv.env)
hv_store(env, i.first.c_str(), i.first.size(), newSVpv(i.second.c_str(), 0), 0);
hv_stores(hash, "env", newRV((SV *) env));
RETVAL = newRV_noinc((SV *)hash);
} catch (Error & e) {
croak("%s", e.what());
}
OUTPUT:
RETVAL
void addTempRoot(char * storePath)
PPCODE:
try {
store()->addTempRoot(store()->parseStorePath(storePath));
} catch (Error & e) {
croak("%s", e.what());
}
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