cpp

// core.cc

#include "cpp/core.h"

#include <ctype.h>  // ispunct()

#include <errno.h>

#include <float.h>

#include <math.h>  // fmod()

#include <pwd.h>   // passwd

#include <signal.h>

#include <sys/resource.h>  // getrusage

#include <sys/select.h>    // select(), FD_ISSET, FD_SET, FD_ZERO

#include <sys/stat.h>      // stat

#include <sys/time.h>      // gettimeofday

#include <sys/times.h>     // tms / times()

#include <sys/utsname.h>   // uname

#include <sys/wait.h>      // waitpid()

#include <termios.h>       // tcgetattr(), tcsetattr()

#include <time.h>          // time()

#include <unistd.h>        // getuid(), environ

#include "_build/detected-cpp-config.h"  // HAVE_PWENT

#include "_gen/cpp/build_stamp.h"        // gCommitHash

#include "_gen/frontend/consts.h"        // gVersion

#include "cpp/embedded_file.h"

#include "mycpp/gc_iolib.h"

extern char** environ;

namespace pyos {

Tuple2<int, int> WaitPid(int waitpid_options) {

  int status;

  int result = ::waitpid(-1, &status, WUNTRACED | waitpid_options);

  if (result < 0) {

    if (errno == EINTR && iolib::gSignalSafe->PollUntrappedSigInt()) {

      throw Alloc<KeyboardInterrupt>();

    }

    return Tuple2<int, int>(-1, errno);

  }

  return Tuple2<int, int>(result, status);

}

Tuple2<int, int> Read(int fd, int n, List<BigStr*>* chunks) {

  BigStr* s = OverAllocatedStr(n);  // Allocate enough for the result

  int length = ::read(fd, s->data(), n);

  if (length < 0) {

    if (errno == EINTR && iolib::gSignalSafe->PollUntrappedSigInt()) {

      throw Alloc<KeyboardInterrupt>();

    }

    return Tuple2<int, int>(-1, errno);

  }

  if (length == 0) {

    return Tuple2<int, int>(length, 0);

  }

  // Now we know how much data we got back

  s->MaybeShrink(length);

  chunks->append(s);

  return Tuple2<int, int>(length, 0);

}

Tuple2<int, int> ReadByte(int fd) {

  unsigned char buf[1];

  ssize_t n = read(fd, &buf, 1);

  if (n < 0) {  // read error

    if (errno == EINTR && iolib::gSignalSafe->PollUntrappedSigInt()) {

      throw Alloc<KeyboardInterrupt>();

    }

    return Tuple2<int, int>(-1, errno);

  } else if (n == 0) {  // EOF

    return Tuple2<int, int>(EOF_SENTINEL, 0);

  } else {  // return character

    return Tuple2<int, int>(buf[0], 0);

  }

}

Dict<BigStr*, BigStr*>* Environ() {

  auto d = Alloc<Dict<BigStr*, BigStr*>>();

  for (char** env = environ; *env; ++env) {

    char* pair = *env;

    char* eq = strchr(pair, '=');

    assert(eq != nullptr);  // must look like KEY=value

    int len = strlen(pair);

    int key_len = eq - pair;

    BigStr* key = StrFromC(pair, key_len);

    int val_len = len - key_len - 1;

    BigStr* val = StrFromC(eq + 1, val_len);

    d->set(key, val);

  }

  return d;

}

int Chdir(BigStr* dest_dir) {

  if (chdir(dest_dir->data_) == 0) {

    return 0;  // success

  } else {

    return errno;

  }

}

BigStr* GetMyHomeDir() {

  uid_t uid = getuid();  // always succeeds

  // Don't free this.  (May return a pointer to a static area)

  struct passwd* entry = getpwuid(uid);

  if (entry == nullptr) {

    return nullptr;

  }

  BigStr* s = StrFromC(entry->pw_dir);

  return s;

}

BigStr* GetHomeDir(BigStr* user_name) {

  // Don't free this.  (May return a pointer to a static area)

  struct passwd* entry = getpwnam(user_name->data_);

  if (entry == nullptr) {

    return nullptr;

  }

  BigStr* s = StrFromC(entry->pw_dir);

  return s;

}

List<PasswdEntry*>* GetAllUsers() {

#ifdef HAVE_PWENT

  auto* ret = NewList<PasswdEntry*>();

  struct passwd* entry = nullptr;

  setpwent();

  while (true) {

    errno = 0;

    entry = getpwent();

    if (entry == nullptr) {

      if (errno == EINTR) {

        continue;  // try again

      } else if (errno != 0) {

        throw Alloc<OSError>(errno);

      }

      break;

    }

    ret->append(Alloc<PasswdEntry>(entry));

  }

  endpwent();

  return ret;

#else

  fprintf(stderr,

          "oils: Can't list users because *pwent() functions weren't found in "

          "libc\n");

  return NewList<PasswdEntry*>();

#endif

}

BigStr* GetUserName(int uid) {

  BigStr* result = kEmptyString;

  if (passwd* pw = getpwuid(uid)) {

    result = StrFromC(pw->pw_name);

  } else {

    throw Alloc<IOError>(errno);

  }

  return result;

}

BigStr* OsType() {

  BigStr* result = kEmptyString;

  utsname un = {};

  if (::uname(&un) == 0) {

    result = StrFromC(un.sysname);

  } else {

    throw Alloc<IOError>(errno);

  }

  return result;

}

Tuple2<mops::BigInt, mops::BigInt> GetRLimit(int resource) {

  struct rlimit lim;

  if (::getrlimit(resource, &lim) < 0) {

    throw Alloc<IOError>(errno);

  }

  return Tuple2<mops::BigInt, mops::BigInt>(lim.rlim_cur, lim.rlim_max);

}

void SetRLimit(int resource, mops::BigInt soft, mops::BigInt hard) {

  struct rlimit lim;

  lim.rlim_cur = soft;

  lim.rlim_max = hard;

  if (::setrlimit(resource, &lim) < 0) {

    throw Alloc<IOError>(errno);

  }

}

Tuple3<double, double, double> Time() {

  struct timeval now;

  if (gettimeofday(&now, nullptr) < 0) {

    throw Alloc<IOError>(errno);  // could be a permission error

  }

  double real = now.tv_sec + static_cast<double>(now.tv_usec) / 1e6;

  struct rusage ru;

  if (::getrusage(RUSAGE_SELF, &ru) == -1) {

    throw Alloc<IOError>(errno);

  }

  struct timeval* u = &(ru.ru_utime);

  struct timeval* s = &(ru.ru_stime);

  double user = u->tv_sec + static_cast<double>(u->tv_usec) / 1e6;

  double sys = s->tv_sec + static_cast<double>(s->tv_usec) / 1e6;

  return Tuple3<double, double, double>(real, user, sys);

}

static void PrintClock(clock_t ticks, long ticks_per_sec) {

  double seconds = static_cast<double>(ticks) / ticks_per_sec;

  printf("%ldm%.3fs", static_cast<long>(seconds) / 60, fmod(seconds, 60));

}

// bash source: builtins/times.def

void PrintTimes() {

  struct tms t;

  if (times(&t) == -1) {

    throw Alloc<IOError>(errno);

  }

  long ticks_per_sec = sysconf(_SC_CLK_TCK);

  PrintClock(t.tms_utime, ticks_per_sec);

  putc(' ', stdout);

  PrintClock(t.tms_stime, ticks_per_sec);

  putc('\n', stdout);

  PrintClock(t.tms_cutime, ticks_per_sec);

  putc(' ', stdout);

  PrintClock(t.tms_cstime, ticks_per_sec);

  putc('\n', stdout);

}

bool InputAvailable(int fd) {

  fd_set fds;

  FD_ZERO(&fds);

  struct timeval timeout = {0};  // return immediately

  FD_SET(fd, &fds);

  return select(FD_SETSIZE, &fds, NULL, NULL, &timeout) > 0;

}

List<int>* WaitForReading(List<int>* fd_list) {

  auto* ret = NewList<int>();

  fd_set fd_bits;

  FD_ZERO(&fd_bits);

  int n = len(fd_list);

  for (int i = 0; i < n; ++i) {

    FD_SET(fd_list->at(i), &fd_bits);

  }

  int num_ready = select(FD_SETSIZE, &fd_bits, NULL, NULL, NULL);

  for (int i = 0; i < n; ++i) {

    if (FD_ISSET(fd_list->at(i), &fd_bits)) {

      ret->append(fd_list->at(i));

    }

    if (len(ret) == num_ready) {

      break;

    }

  }

  return ret;

}

IOError_OSError* FlushStdout() {

  // Flush libc buffers

  if (::fflush(stdout) != 0) {

    return Alloc<IOError>(errno);

  }

  return nullptr;

}

Tuple2<BigStr*, int>* MakeDirCacheKey(BigStr* path) {

  struct stat st;

  if (::stat(path->data(), &st) == -1) {

    throw Alloc<OSError>(errno);

  }

  return Alloc<Tuple2<BigStr*, int>>(path, st.st_mtime);

}

Tuple2<int, void*> PushTermAttrs(int fd, int mask) {

  struct termios* term_attrs =

      static_cast<struct termios*>(malloc(sizeof(struct termios)));

  if (tcgetattr(fd, term_attrs) < 0) {

    throw Alloc<OSError>(errno);

  }

  // Flip the bits in one field

  int orig_local_modes = term_attrs->c_lflag;

  term_attrs->c_lflag = orig_local_modes & mask;

  if (tcsetattr(fd, TCSANOW, term_attrs) < 0) {

    throw Alloc<OSError>(errno);

  }

  return Tuple2<int, void*>(orig_local_modes, term_attrs);

}

void PopTermAttrs(int fd, int orig_local_modes, void* term_attrs) {

  struct termios* t = static_cast<struct termios*>(term_attrs);

  t->c_lflag = orig_local_modes;

  if (tcsetattr(fd, TCSANOW, t) < 0) {

    ;  // Like Python, ignore error because of issue #1001

  }

}

}  // namespace pyos

namespace pyutil {

double infinity() {

  return INFINITY;  // float.h

}

double nan() {

  return NAN;  // float.h

}

// TODO: SHARE with pyext

bool IsValidCharEscape(BigStr* c) {

  DCHECK(len(c) == 1);

  int ch = c->data_[0];

  if (ch == '/' || ch == '.' || ch == '-') {

    return false;

  }

  if (ch == ' ') {  // foo\ bar is idiomatic

    return true;

  }

  return ispunct(ch);

}

BigStr* ChArrayToString(List<int>* ch_array) {

  int n = len(ch_array);

  BigStr* result = NewStr(n);

  for (int i = 0; i < n; ++i) {

    result->data_[i] = ch_array->at(i);

  }

  result->data_[n] = '\0';

  return result;

}

BigStr* _ResourceLoader::Get(BigStr* path) {

  TextFile* t = gEmbeddedFiles;  // start of generated data

  while (t->rel_path != nullptr) {

    if (strcmp(t->rel_path, path->data_) == 0) {

      return t->contents;

    }

    t++;

  }

  // Emulate Python

  throw Alloc<IOError>(ENOENT);

}

_ResourceLoader* GetResourceLoader() {

  return Alloc<_ResourceLoader>();

}

BigStr* GetVersion(_ResourceLoader* loader) {

  return consts::gVersion;

}

void PrintVersionDetails(_ResourceLoader* loader) {

  // Invoked by core/util.py VersionFlag()

  printf("git commit = %s\n", gCommitHash);

  // TODO: I would like the CPU, OS, compiler

  // How do we get those?  Look at CPython

}

BigStr* BackslashEscape(BigStr* s, BigStr* meta_chars) {

  int upper_bound = len(s) * 2;

  BigStr* buf = OverAllocatedStr(upper_bound);

  char* p = buf->data_;

  for (int i = 0; i < len(s); ++i) {

    char c = s->data_[i];

    if (memchr(meta_chars->data_, c, len(meta_chars))) {

      *p++ = '\\';

    }

    *p++ = c;

  }

  buf->MaybeShrink(p - buf->data_);

  return buf;

}

BigStr* strerror(IOError_OSError* e) {

  BigStr* s = StrFromC(::strerror(e->errno_));

  return s;

}

static grammar::Grammar* gOilGrammar = nullptr;

grammar::Grammar* LoadYshGrammar(_ResourceLoader*) {

  if (gOilGrammar != nullptr) {

    return gOilGrammar;

  }

  gOilGrammar = Alloc<grammar::Grammar>();

  gHeap.RootGlobalVar(gOilGrammar);

  return gOilGrammar;

}

}  // namespace pyutil