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#include "gc-store.hh"
#include "signals.hh"
#include "platform/darwin.hh"
#include "regex.hh"
#include <sys/proc_info.h>
#include <sys/sysctl.h>
#include <libproc.h>
#include <spawn.h>
#include <regex>
namespace nix {
void DarwinLocalStore::findPlatformRoots(UncheckedRoots & unchecked)
{
auto storePathRegex = regex::storePathRegex(storeDir);
std::vector<int> pids;
int pidBufSize = 1;
while (pidBufSize > pids.size() * sizeof(int)) {
// Reserve some extra size so we don't fail too much
pids.resize((pidBufSize + pidBufSize / 8) / sizeof(int));
pidBufSize = proc_listpids(PROC_ALL_PIDS, 0, pids.data(), pids.size() * sizeof(int));
if (pidBufSize <= 0) {
throw SysError("Listing PIDs");
}
}
pids.resize(pidBufSize / sizeof(int));
for (auto pid : pids) {
// It doesn't make sense to ask about the kernel
if (pid == 0) {
continue;
}
try {
// Process cwd/root directory
struct proc_vnodepathinfo vnodeInfo;
if (proc_pidinfo(pid, PROC_PIDVNODEPATHINFO, 0, &vnodeInfo, sizeof(vnodeInfo)) <= 0) {
throw SysError("Getting pid %1% working directory", pid);
}
unchecked[std::string(vnodeInfo.pvi_cdir.vip_path)].emplace(fmt("{libproc/%d/cwd}", pid)
);
unchecked[std::string(vnodeInfo.pvi_rdir.vip_path)].emplace(
fmt("{libproc/%d/rootdir}", pid)
);
// File descriptors
std::vector<struct proc_fdinfo> fds;
int fdBufSize = 1;
while (fdBufSize > fds.size() * sizeof(struct proc_fdinfo)) {
// Reserve some extra size so we don't fail too much
fds.resize((fdBufSize + fdBufSize / 8) / sizeof(struct proc_fdinfo));
fdBufSize = proc_pidinfo(
pid, PROC_PIDLISTFDS, 0, fds.data(), fds.size() * sizeof(struct proc_fdinfo)
);
if (fdBufSize <= 0) {
throw SysError("Listing pid %1% file descriptors", pid);
}
}
fds.resize(fdBufSize / sizeof(struct proc_fdinfo));
for (auto fd : fds) {
// By definition, only a vnode is on the filesystem
if (fd.proc_fdtype != PROX_FDTYPE_VNODE) {
continue;
}
struct vnode_fdinfowithpath fdInfo;
if (proc_pidfdinfo(
pid, fd.proc_fd, PROC_PIDFDVNODEPATHINFO, &fdInfo, sizeof(fdInfo)
)
<= 0)
{
// They probably just closed this fd, no need to cancel looking at ranges and
// arguments
if (errno == EBADF) {
continue;
}
throw SysError("Getting pid %1% fd %2% path", pid, fd.proc_fd);
}
unchecked[std::string(fdInfo.pvip.vip_path)].emplace(
fmt("{libproc/%d/fd/%d}", pid, fd.proc_fd)
);
}
// Regions (e.g. mmapped files, executables, shared libraries)
uint64_t nextAddr = 0;
while (true) {
// Seriously, what are you doing XNU?
// There's 3 flavors of PROC_PIDREGIONPATHINFO:
// * PROC_PIDREGIONPATHINFO includes all regions
// * PROC_PIDREGIONPATHINFO2 includes regions backed by a vnode
// * PROC_PIDREGIONPATHINFO3 includes regions backed by a vnode on a specified
// filesystem Only PROC_PIDREGIONPATHINFO is documented. Unfortunately, using it
// would make finding gcroots take about 100x as long and tests would fail from
// timeout. According to the Frida source code, PROC_PIDREGIONPATHINFO2 has been
// available since XNU 2782.1.97 in OS X 10.10
//
// 22 means PROC_PIDREGIONPATHINFO2
struct proc_regionwithpathinfo regionInfo;
if (proc_pidinfo(pid, 22, nextAddr, ®ionInfo, sizeof(regionInfo)) <= 0) {
// PROC_PIDREGIONPATHINFO signals we're done with an error,
// so we're expected to hit this once per process
if (errno == ESRCH || errno == EINVAL) {
break;
}
throw SysError("Getting pid %1% region path", pid);
}
unchecked[std::string(regionInfo.prp_vip.vip_path)].emplace(
fmt("{libproc/%d/region}", pid)
);
nextAddr = regionInfo.prp_prinfo.pri_address + regionInfo.prp_prinfo.pri_size;
}
// Arguments and environment variables
// We can't read environment variables of binaries with entitlements unless
// nix has the `com.apple.private.read-environment-variables` entitlement or SIP is off
// We can read arguments for all applications though.
// Yes, it's a sysctl, the proc_info and sysctl APIs are mostly similar,
// but both have exclusive capabilities
int sysctlName[3] = {CTL_KERN, KERN_PROCARGS2, pid};
size_t argsSize = 0;
if (sysctl(sysctlName, 3, nullptr, &argsSize, nullptr, 0) < 0) {
throw SysError("Reading pid %1% arguments", pid);
}
std::vector<char> args(argsSize);
if (sysctl(sysctlName, 3, args.data(), &argsSize, nullptr, 0) < 0) {
throw SysError("Reading pid %1% arguments", pid);
}
if (argsSize < args.size()) {
args.resize(argsSize);
}
// We have these perfectly nice arguments, but have to ignore them because
// otherwise we'd see arguments to nix-store commands and
// `nix-store --delete /nix/store/whatever` would always fail
// First 4 bytes are an int of argc.
if (args.size() < sizeof(int)) {
continue;
}
auto argc = reinterpret_cast<int *>(args.data())[0];
auto argsIter = args.begin();
std::advance(argsIter, sizeof(int));
// Executable then argc args, each separated by some number of null bytes
for (int i = 0; argsIter != args.end() && i < argc + 1; i++) {
argsIter = std::find(argsIter, args.end(), '\0');
argsIter = std::find_if(argsIter, args.end(), [](char ch) { return ch != '\0'; });
}
if (argsIter != args.end()) {
auto env_end = std::sregex_iterator{};
for (auto i = std::sregex_iterator{argsIter, args.end(), storePathRegex};
i != env_end;
++i)
{
unchecked[i->str()].emplace(fmt("{libproc/%d/environ}", pid));
}
};
// Per-thread working directories
struct proc_taskallinfo taskAllInfo;
if (proc_pidinfo(pid, PROC_PIDTASKALLINFO, 0, &taskAllInfo, sizeof(taskAllInfo)) <= 0) {
throw SysError("Reading pid %1% tasks", pid);
}
// If the process doesn't have the per-thread cwd flag then we already have the
// process-wide cwd from PROC_PIDVNODEPATHINFO
if (taskAllInfo.pbsd.pbi_flags & PROC_FLAG_THCWD) {
std::vector<uint64_t> tids(taskAllInfo.ptinfo.pti_threadnum);
int tidBufSize = proc_pidinfo(
pid, PROC_PIDLISTTHREADS, 0, tids.data(), tids.size() * sizeof(uint64_t)
);
if (tidBufSize <= 0) {
throw SysError("Listing pid %1% threads", pid);
}
for (auto tid : tids) {
struct proc_threadwithpathinfo threadPathInfo;
if (proc_pidinfo(
pid,
PROC_PIDTHREADPATHINFO,
tid,
&threadPathInfo,
sizeof(threadPathInfo)
)
<= 0)
{
throw SysError("Reading pid %1% thread %2% cwd", pid, tid);
}
unchecked[std::string(threadPathInfo.pvip.vip_path)].emplace(
fmt("{libproc/%d/thread/%d/cwd}", pid, tid)
);
}
}
} catch (SysError & e) {
// ENOENT/ESRCH: Process no longer exists (proc_info)
// EINVAL: Process no longer exists (sysctl)
// EACCESS/EPERM: We don't have permission to read this field (proc_info)
// EIO: Kernel failed to read from target process memory during KERN_PROCARGS2 (sysctl)
if (errno == ENOENT || errno == ESRCH || errno == EINVAL || errno == EACCES
|| errno == EPERM || errno == EIO)
{
continue;
}
throw;
}
}
}
void DarwinLocalDerivationGoal::execBuilder(std::string builder, Strings args, Strings envStrs)
{
posix_spawnattr_t attrp;
if (posix_spawnattr_init(&attrp))
throw SysError("failed to initialize builder");
if (posix_spawnattr_setflags(&attrp, POSIX_SPAWN_SETEXEC))
throw SysError("failed to initialize builder");
if (drv->platform == "aarch64-darwin") {
// Unset kern.curproc_arch_affinity so we can escape Rosetta
int affinity = 0;
sysctlbyname("kern.curproc_arch_affinity", NULL, NULL, &affinity, sizeof(affinity));
cpu_type_t cpu = CPU_TYPE_ARM64;
posix_spawnattr_setbinpref_np(&attrp, 1, &cpu, NULL);
} else if (drv->platform == "x86_64-darwin") {
cpu_type_t cpu = CPU_TYPE_X86_64;
posix_spawnattr_setbinpref_np(&attrp, 1, &cpu, NULL);
}
posix_spawn(NULL, builder.c_str(), NULL, &attrp, stringsToCharPtrs(args).data(), stringsToCharPtrs(envStrs).data());
}
}
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