cpp

Coverage Report

Created: 2024-07-24 20:34

/home/uke/oil/cpp/stdlib.cc
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Source (jump to first uncovered line)
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// stdlib.cc: Replacement for standard library modules
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// and native/posixmodule.c
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#include "stdlib.h"
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#include <dirent.h>  // closedir(), opendir(), readdir()
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#include <errno.h>
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#include <fcntl.h>      // open
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#include <math.h>       // isinf, isnan
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#include <signal.h>     // kill
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#include <sys/stat.h>   // umask
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#include <sys/types.h>  // umask
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#include <sys/wait.h>   // WUNTRACED
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#include <time.h>
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#include <unistd.h>
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#include "mycpp/runtime.h"
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// To avoid circular dependency with e_die()
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#include "prebuilt/core/error.mycpp.h"
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using error::e_die;
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namespace math {
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bool isinf(double f) {
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  return ::isinf(f);
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}
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bool isnan(double f) {
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  return ::isnan(f);
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}
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}  // namespace math
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namespace fcntl_ {
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int fcntl(int fd, int cmd) {
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  int result = ::fcntl(fd, cmd);
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  if (result < 0) {
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    throw Alloc<IOError>(errno);
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  }
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  return result;
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}
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int fcntl(int fd, int cmd, int arg) {
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  int result = ::fcntl(fd, cmd, arg);
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  if (result < 0) {
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    throw Alloc<IOError>(errno);
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  }
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  return result;
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}
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}  // namespace fcntl_
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namespace posix {
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mode_t umask(mode_t mask) {
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  // No error case: always succeeds
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  return ::umask(mask);
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}
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int open(BigStr* path, int flags, int perms) {
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  int result = ::open(path->data_, flags, perms);
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  if (result < 0) {
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    throw Alloc<OSError>(errno);
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1
  }
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  return result;
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}
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void dup2(int oldfd, int newfd) {
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  if (::dup2(oldfd, newfd) < 0) {
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    throw Alloc<OSError>(errno);
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  }
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}
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void putenv(BigStr* name, BigStr* value) {
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1
  int overwrite = 1;
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  int ret = ::setenv(name->data_, value->data_, overwrite);
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  if (ret < 0) {
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    throw Alloc<IOError>(errno);
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  }
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}
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mylib::File* fdopen(int fd, BigStr* c_mode) {
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  // CPython checks if it's a directory first
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  struct stat buf;
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  if (fstat(fd, &buf) == 0 && S_ISDIR(buf.st_mode)) {
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    throw Alloc<OSError>(EISDIR);
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  }
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  // CPython does some fcntl() stuff with mode == 'a', which we don't support
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  DCHECK(c_mode->data_[0] != 'a');
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  FILE* f = ::fdopen(fd, c_mode->data_);
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  if (f == nullptr) {
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    throw Alloc<OSError>(errno);
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  }
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  return Alloc<mylib::CFile>(f);
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}
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void execve(BigStr* argv0, List<BigStr*>* argv,
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            Dict<BigStr*, BigStr*>* environ) {
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  int n_args = len(argv);
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  int n_env = len(environ);
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  int combined_size = 0;
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  for (DictIter<BigStr*, BigStr*> it(environ); !it.Done(); it.Next()) {
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    BigStr* k = it.Key();
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    BigStr* v = it.Value();
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    int joined_len = len(k) + len(v) + 2;  // = and NUL terminator
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    combined_size += joined_len;
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  }
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  const int argv_size = (n_args + 1) * sizeof(char*);
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  const int env_size = (n_env + 1) * sizeof(char*);
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  combined_size += argv_size;
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  combined_size += env_size;
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  char* combined_buf = static_cast<char*>(malloc(combined_size));
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  // never deallocated
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  char** _argv = reinterpret_cast<char**>(combined_buf);
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  combined_buf += argv_size;
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  // Annoying const_cast
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  // https://stackoverflow.com/questions/190184/execv-and-const-ness
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  for (int i = 0; i < n_args; ++i) {
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    _argv[i] = const_cast<char*>(argv->at(i)->data_);
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  }
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  _argv[n_args] = nullptr;
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  // Convert environ into an array of pointers to strings of the form: "k=v".
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  char** envp = reinterpret_cast<char**>(combined_buf);
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  combined_buf += env_size;
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  int env_index = 0;
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  for (DictIter<BigStr*, BigStr*> it(environ); !it.Done(); it.Next()) {
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    BigStr* k = it.Key();
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    BigStr* v = it.Value();
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    char* buf = combined_buf;
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    int joined_len = len(k) + len(v) + 1;
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    combined_buf += joined_len + 1;
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    memcpy(buf, k->data_, len(k));
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    buf[len(k)] = '=';
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    memcpy(buf + len(k) + 1, v->data_, len(v));
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    buf[joined_len] = '\0';
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    envp[env_index++] = buf;
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  }
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  envp[n_env] = nullptr;
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  int ret = ::execve(argv0->data_, _argv, envp);
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  if (ret == -1) {
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    throw Alloc<OSError>(errno);
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  }
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  // ::execve() never returns on success
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  FAIL(kShouldNotGetHere);
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}
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void kill(int pid, int sig) {
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  if (::kill(pid, sig) != 0) {
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    throw Alloc<OSError>(errno);
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  }
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}
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void killpg(int pgid, int sig) {
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  if (::killpg(pgid, sig) != 0) {
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    throw Alloc<OSError>(errno);
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  }
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}
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List<BigStr*>* listdir(BigStr* path) {
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  DIR* dirp = opendir(path->data());
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  if (dirp == NULL) {
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    throw Alloc<OSError>(errno);
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  }
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  auto* ret = Alloc<List<BigStr*>>();
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  while (true) {
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    errno = 0;
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    struct dirent* ep = readdir(dirp);
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    if (ep == NULL) {
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      if (errno != 0) {
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        closedir(dirp);
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        throw Alloc<OSError>(errno);
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      }
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      break;  // no more files
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    }
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    // Skip . and ..
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    int name_len = strlen(ep->d_name);
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    if (ep->d_name[0] == '.' &&
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        (name_len == 1 || (ep->d_name[1] == '.' && name_len == 2))) {
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      continue;
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    }
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    ret->append(StrFromC(ep->d_name, name_len));
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  }
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  closedir(dirp);
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  return ret;
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}
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}  // namespace posix
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namespace time_ {
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void tzset() {
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  // No error case: no return value
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  ::tzset();
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}
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time_t time() {
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  time_t result = ::time(nullptr);
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  if (result < 0) {
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    throw Alloc<IOError>(errno);
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  }
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  return result;
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}
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// NOTE(Jesse): time_t is specified to be an arithmetic type by C++. On most
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// systems it's a 64-bit integer.  64 bits is used because 32 will overflow in
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// 2038.  Someone on a committee somewhere thought of that when moving to
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// 64-bit architectures to prevent breaking ABI again; on 32-bit systems it's
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// usually 32 bits.  Point being, using anything but the time_t typedef here
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// could (unlikely, but possible) produce weird behavior.
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time_t localtime(time_t ts) {
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  // localtime returns a pointer to a static buffer
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  tm* loc_time = ::localtime(&ts);
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  time_t result = mktime(loc_time);
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  if (result < 0) {
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    throw Alloc<IOError>(errno);
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  }
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  return result;
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}
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BigStr* strftime(BigStr* s, time_t ts) {
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  tm* loc_time = ::localtime(&ts);
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  const int max_len = 1024;
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  BigStr* result = OverAllocatedStr(max_len);
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  int n = strftime(result->data(), max_len, s->data_, loc_time);
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  if (n == 0) {
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    // bash silently truncates on large format string like
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    //   printf '%(%Y)T'
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    // Oil doesn't mask errors
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    // Leaving out location info points to 'printf' builtin
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    e_die(StrFromC("strftime() result exceeds 1024 bytes"));
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  }
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  result->MaybeShrink(n);
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  return result;
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}
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void sleep(int seconds) {
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  ::sleep(seconds);
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}
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}  // namespace time_