/* pinfo.cc: process table support Copyright 1996, 1997, 1998, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 Red Hat, Inc. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include #include #include #include #include "cygerrno.h" #include "security.h" #include "path.h" #include "fhandler.h" #include "dtable.h" #include "sigproc.h" #include "pinfo.h" #include "cygwin_version.h" #include "perprocess.h" #include "environ.h" #include #include #include #include "ntdll.h" #include "shared_info.h" #include "cygheap.h" #include "fhandler.h" #include "cygmalloc.h" #include "cygtls.h" #include "child_info.h" static char NO_COPY pinfo_dummy[sizeof (_pinfo)] = {0}; pinfo NO_COPY myself ((_pinfo *)&pinfo_dummy); // Avoid myself != NULL checks bool is_toplevel_proc; /* Setup the pinfo structure for this process. There may already be a _pinfo for this "pid" if h != NULL. */ void __stdcall set_myself (HANDLE h) { if (!h) cygheap->pid = cygwin_pid (GetCurrentProcessId ()); myself.init (cygheap->pid, PID_IN_USE, h ?: INVALID_HANDLE_VALUE); myself->process_state |= PID_IN_USE; myself->dwProcessId = GetCurrentProcessId (); GetModuleFileName (NULL, myself->progname, sizeof (myself->progname)); strace.hello (); debug_printf ("myself->dwProcessId %u", myself->dwProcessId); if (h) { /* here if execed */ static pinfo NO_COPY myself_identity; myself_identity.init (cygwin_pid (myself->dwProcessId), PID_EXECED, NULL); myself->exec_sendsig = NULL; myself->exec_dwProcessId = 0; } else if (!child_proc_info) /* child_proc_info is only set when this process was started by another cygwin process */ myself->start_time = time (NULL); /* Register our starting time. */ else if (cygheap->pid_handle) { ForceCloseHandle (cygheap->pid_handle); cygheap->pid_handle = NULL; } } /* Initialize the process table entry for the current task. This is not called for forked tasks, only execed ones. */ void __stdcall pinfo_init (char **envp, int envc) { if (envp) { environ_init (envp, envc); /* spawn has already set up a pid structure for us so we'll use that */ myself->process_state |= PID_CYGPARENT; } else { /* Invent our own pid. */ set_myself (NULL); myself->ppid = 1; myself->pgid = myself->sid = myself->pid; myself->ctty = -1; myself->uid = ILLEGAL_UID; myself->gid = UNKNOWN_GID; environ_init (NULL, 0); /* call after myself has been set up */ myself->nice = winprio_to_nice (GetPriorityClass (hMainProc)); debug_printf ("Set nice to %d", myself->nice); } debug_printf ("pid %d, pgid %d", myself->pid, myself->pgid); } # define self (*this) void pinfo::maybe_set_exit_code_from_windows () { DWORD x = 0xdeadbeef; DWORD oexitcode = self->exitcode; extern int sigExeced; if (hProcess && !(self->exitcode & EXITCODE_SET)) { WaitForSingleObject (hProcess, INFINITE); // just to be safe, in case // process hasn't quite exited // after closing pipe GetExitCodeProcess (hProcess, &x); self->exitcode = EXITCODE_SET | (sigExeced ?: (x & 0xff) << 8); } sigproc_printf ("pid %d, exit value - old %p, windows %p, cygwin %p", self->pid, oexitcode, x, self->exitcode); } void pinfo::exit (DWORD n) { minimal_printf ("winpid %d, exit %d", GetCurrentProcessId (), n); lock_process until_exit (); cygthread::terminate (); if (n != EXITCODE_NOSET) self->exitcode = EXITCODE_SET | n;/* We're really exiting. Record the UNIX exit code. */ else { exit_state = ES_EXEC_EXIT; maybe_set_exit_code_from_windows (); } sigproc_terminate (ES_FINAL); /* FIXME: There is a potential race between an execed process and its parent here. I hated to add a mutex just for that, though. */ struct rusage r; fill_rusage (&r, hMainProc); add_rusage (&self->rusage_self, &r); int exitcode = self->exitcode & 0xffff; if (!self->cygstarted) exitcode = ((exitcode & 0xff) << 8) | ((exitcode >> 8) & 0xff); sigproc_printf ("Calling ExitProcess n %p, exitcode %p", n, exitcode); ExitProcess (exitcode); } # undef self void pinfo::init (pid_t n, DWORD flag, HANDLE h0) { shared_locations shloc; h = NULL; if (myself && !(flag & PID_EXECED) && (n == myself->pid || (DWORD) n == myself->dwProcessId)) { procinfo = myself; destroy = 0; return; } void *mapaddr; int createit = flag & (PID_IN_USE | PID_EXECED); DWORD access = FILE_MAP_READ | (flag & (PID_IN_USE | PID_EXECED | PID_MAP_RW) ? FILE_MAP_WRITE : 0); if (!h0) shloc = (flag & (PID_IN_USE | PID_EXECED)) ? SH_JUSTCREATE : SH_JUSTOPEN; else { shloc = SH_MYSELF; if (h0 == INVALID_HANDLE_VALUE) h0 = NULL; } procinfo = NULL; PSECURITY_ATTRIBUTES sa_buf = (PSECURITY_ATTRIBUTES) alloca (1024); PSECURITY_ATTRIBUTES sec_attribs = sec_user_nih (sa_buf, cygheap->user.sid(), well_known_world_sid, FILE_MAP_READ); for (int i = 0; i < 20; i++) { DWORD mapsize; if (flag & PID_EXECED) mapsize = PINFO_REDIR_SIZE; else mapsize = sizeof (_pinfo); procinfo = (_pinfo *) open_shared ("cygpid", n, h0, mapsize, shloc, sec_attribs, access); if (!h0) { if (createit) __seterrno (); return; } if (!procinfo) { if (exit_state) return; switch (GetLastError ()) { case ERROR_INVALID_HANDLE: api_fatal ("MapViewOfFileEx h0 %p, i %d failed, %E", h0, i); case ERROR_INVALID_ADDRESS: mapaddr = NULL; } debug_printf ("MapViewOfFileEx h0 %p, i %d failed, %E", h0, i); low_priority_sleep (0); continue; } bool created = shloc != SH_JUSTOPEN; if ((procinfo->process_state & PID_INITIALIZING) && (flag & PID_NOREDIR) && cygwin_pid (procinfo->dwProcessId) != procinfo->pid) { set_errno (ESRCH); break; } if (procinfo->process_state & PID_EXECED) { assert (i == 0); pid_t realpid = procinfo->pid; debug_printf ("execed process windows pid %d, cygwin pid %d", n, realpid); if (realpid == n) api_fatal ("retrieval of execed process info for pid %d failed due to recursion.", n); n = realpid; CloseHandle (h0); h0 = NULL; goto loop; } /* In certain pathological cases, it is possible for the shared memory region to exist for a while after a process has exited. This should only be a brief occurrence, so rather than introduce some kind of locking mechanism, just loop. */ if (!created && createit && (procinfo->process_state & PID_EXITED)) { debug_printf ("looping because pid %d, procinfo->pid %d, " "procinfo->dwProcessid %u has PID_EXITED set", n, procinfo->pid, procinfo->dwProcessId); goto loop; } if (!created) /* nothing */; else if (!(flag & PID_EXECED)) procinfo->pid = n; else { procinfo->process_state |= PID_IN_USE | PID_EXECED; procinfo->pid = myself->pid; } h = h0; /* Success! */ break; loop: release (); if (h0) low_priority_sleep (0); } if (h) { destroy = 1; ProtectHandle1 (h, pinfo_shared_handle); } else { h = h0; release (); } } void pinfo::set_acl() { PACL acl_buf = (PACL) alloca (1024); SECURITY_DESCRIPTOR sd; sec_acl (acl_buf, true, true, cygheap->user.sid (), well_known_world_sid, FILE_MAP_READ); if (!InitializeSecurityDescriptor (&sd, SECURITY_DESCRIPTOR_REVISION)) debug_printf ("InitializeSecurityDescriptor %E"); else if (!SetSecurityDescriptorDacl (&sd, TRUE, acl_buf, FALSE)) debug_printf ("SetSecurityDescriptorDacl %E"); else if (!SetKernelObjectSecurity (h, DACL_SECURITY_INFORMATION, &sd)) debug_printf ("SetKernelObjectSecurity %E"); } const char * _pinfo::_ctty (char *buf) { if (ctty == TTY_CONSOLE) strcpy (buf, "ctty /dev/console"); else if (ctty < 0) strcpy (buf, "no ctty"); else __small_sprintf (buf, "ctty /dev/tty%d", ctty); return buf; } void _pinfo::set_ctty (tty_min *tc, int flags, fhandler_tty_slave *arch) { debug_printf ("old %s", __ctty ()); if ((ctty < 0 || ctty == tc->ntty) && !(flags & O_NOCTTY)) { ctty = tc->ntty; lock_ttys here; syscall_printf ("attaching %s sid %d, pid %d, pgid %d, tty->pgid %d, tty->sid %d", __ctty (), sid, pid, pgid, tc->getpgid (), tc->getsid ()); pinfo p (tc->getsid ()); if (sid == pid && (!p || p->pid == pid || !p->exists ())) { #ifdef DEBUGGING debug_printf ("resetting %s sid. Was %d, now %d. pgid was %d, now %d.", __ctty (), tc->getsid (), sid, tc->getpgid (), pgid); #else paranoid_printf ("resetting %s sid. Was %d, now %d. pgid was %d, now %d.", __ctty (), tc->getsid (), sid, tc->getpgid (), pgid); #endif /* We are the session leader */ tc->setsid (sid); tc->setpgid (pgid); } else sid = tc->getsid (); if (tc->getpgid () == 0) {debug_printf ("setting pgid to %d", pgid); tc->setpgid (pgid); } if (cygheap->ctty != arch) { debug_printf ("cygheap->ctty %p, arch %p", cygheap->ctty, arch); if (!cygheap->ctty) syscall_printf ("ctty NULL"); else { syscall_printf ("ctty %p, usecount %d", cygheap->ctty, cygheap->ctty->usecount); cygheap->ctty->close (); } cygheap->ctty = arch; if (arch) { arch->usecount++; /* guard ctty arch */ cygheap->manage_console_count ("_pinfo::set_ctty", 1); report_tty_counts (cygheap->ctty, "ctty", ""); } } } } /* Test to determine if a process really exists and is processing signals. */ bool __stdcall _pinfo::exists () { return this && !(process_state & PID_EXITED); } bool _pinfo::alive () { HANDLE h = OpenProcess (PROCESS_QUERY_INFORMATION, false, dwProcessId); if (h) CloseHandle (h); return !!h; } extern char **__argv; DWORD WINAPI commune_process (void *arg) { siginfo_t& si = *((siginfo_t *) arg); char path[CYG_MAX_PATH]; DWORD nr; HANDLE& tothem = si._si_commune._si_write_handle; HANDLE process_sync = OpenSemaphore (SYNCHRONIZE, false, shared_name (path, "commune", si.si_pid)); if (process_sync) // FIXME: this test shouldn't be necessary ProtectHandle (process_sync); lock_process now (); if (si._si_commune._si_code & PICOM_EXTRASTR) si._si_commune._si_str = (char *) (&si + 1); switch (si._si_commune._si_code) { case PICOM_CMDLINE: { sigproc_printf ("processing PICOM_CMDLINE"); unsigned n = 0; extern int __argc_safe; const char *argv[__argc_safe + 1]; for (int i = 0; i < __argc_safe; i++) { if (IsBadStringPtr (__argv[i], INT32_MAX)) argv[i] = ""; else argv[i] = __argv[i]; n += strlen (argv[i]) + 1; } argv[__argc_safe] = NULL; if (!WriteFile (tothem, &n, sizeof n, &nr, NULL)) { /*__seterrno ();*/ // this is run from the signal thread, so don't set errno sigproc_printf ("WriteFile sizeof argv failed, %E"); } else for (const char **a = argv; *a; a++) if (!WriteFile (tothem, *a, strlen (*a) + 1, &nr, NULL)) { sigproc_printf ("WriteFile arg %d failed, %E", a - argv); break; } break; } case PICOM_CWD: { sigproc_printf ("processing PICOM_CWD"); unsigned int n = strlen (cygheap->cwd.get (path, 1, 1, CYG_MAX_PATH)) + 1; if (!WriteFile (tothem, &n, sizeof n, &nr, NULL)) sigproc_printf ("WriteFile sizeof cwd failed, %E"); else if (!WriteFile (tothem, path, n, &nr, NULL)) sigproc_printf ("WriteFile cwd failed, %E"); break; } case PICOM_ROOT: { sigproc_printf ("processing PICOM_ROOT"); unsigned n; if (cygheap->root.exists ()) n = strlen (strcpy (path, cygheap->root.posix_path ())) + 1; else n = strlen (strcpy (path, "/")) + 1; if (!WriteFile (tothem, &n, sizeof n, &nr, NULL)) sigproc_printf ("WriteFile sizeof root failed, %E"); else if (!WriteFile (tothem, path, n, &nr, NULL)) sigproc_printf ("WriteFile root failed, %E"); break; } case PICOM_FDS: { sigproc_printf ("processing PICOM_FDS"); unsigned int n = 0; int fd; cygheap_fdenum cfd; while ((fd = cfd.next ()) >= 0) n += sizeof (int); cfd.rewind (); if (!WriteFile (tothem, &n, sizeof n, &nr, NULL)) sigproc_printf ("WriteFile sizeof fds failed, %E"); else while ((fd = cfd.next ()) >= 0) if (!WriteFile (tothem, &fd, sizeof fd, &nr, NULL)) { sigproc_printf ("WriteFile fd %d failed, %E", fd); break; } break; } case PICOM_PIPE_FHANDLER: { sigproc_printf ("processing PICOM_FDS"); HANDLE hdl = si._si_commune._si_pipe_fhandler; unsigned int n = 0; cygheap_fdenum cfd; while (cfd.next () >= 0) if (cfd->get_handle () == hdl) { fhandler_pipe *fh = cfd; n = sizeof *fh; if (!WriteFile (tothem, &n, sizeof n, &nr, NULL)) sigproc_printf ("WriteFile sizeof hdl failed, %E"); else if (!WriteFile (tothem, fh, n, &nr, NULL)) sigproc_printf ("WriteFile hdl failed, %E"); break; } if (!n && !WriteFile (tothem, &n, sizeof n, &nr, NULL)) sigproc_printf ("WriteFile sizeof hdl failed, %E"); break; } case PICOM_FD: { sigproc_printf ("processing PICOM_FD"); int fd = si._si_commune._si_fd; unsigned int n = 0; cygheap_fdget cfd (fd); if (cfd < 0) n = strlen (strcpy (path, "")) + 1; else n = strlen (cfd->get_proc_fd_name (path)) + 1; if (!WriteFile (tothem, &n, sizeof n, &nr, NULL)) sigproc_printf ("WriteFile sizeof fd failed, %E"); else if (!WriteFile (tothem, path, n, &nr, NULL)) sigproc_printf ("WriteFile fd failed, %E"); break; } } if (process_sync) { DWORD res = WaitForSingleObject (process_sync, 5000); if (res != WAIT_OBJECT_0) sigproc_printf ("WFSO failed - %d, %E", res); else sigproc_printf ("synchronized with pid %d", si.si_pid); ForceCloseHandle (process_sync); } CloseHandle (tothem); _my_tls._ctinfo->auto_release (); return 0; } commune_result _pinfo::commune_request (__uint32_t code, ...) { DWORD nr; commune_result res; va_list args; siginfo_t si = {0}; HANDLE& hp = si._si_commune._si_process_handle; HANDLE& fromthem = si._si_commune._si_read_handle; HANDLE request_sync = NULL; bool locked = false; va_start (args, code); res.s = NULL; res.n = 0; if (!this || !pid) { set_errno (ESRCH); goto err; } si._si_commune._si_code = code; switch (code) { case PICOM_PIPE_FHANDLER: si._si_commune._si_pipe_fhandler = va_arg (args, HANDLE); break; case PICOM_FD: si._si_commune._si_fd = va_arg (args, int); break; break; } locked = true; char name_buf[CYG_MAX_PATH]; request_sync = CreateSemaphore (&sec_none_nih, 0, LONG_MAX, shared_name (name_buf, "commune", myself->pid)); if (!request_sync) goto err; ProtectHandle (request_sync); si.si_signo = __SIGCOMMUNE; if (sig_send (this, si)) { ForceCloseHandle (request_sync); /* don't signal semaphore since there was apparently no receiving process */ request_sync = NULL; goto err; } size_t n; switch (code) { case PICOM_CMDLINE: case PICOM_CWD: case PICOM_ROOT: case PICOM_FDS: case PICOM_FD: case PICOM_PIPE_FHANDLER: if (!ReadFile (fromthem, &n, sizeof n, &nr, NULL) || nr != sizeof n) { __seterrno (); goto err; } if (!n) res.s = NULL; else { res.s = (char *) cmalloc (HEAP_COMMUNE, n); char *p; for (p = res.s; n && ReadFile (fromthem, p, n, &nr, NULL); p += nr, n -= nr) continue; if (n) { __seterrno (); goto err; } res.n = p - res.s; } break; } goto out; err: memset (&res, 0, sizeof (res)); out: if (request_sync) { LONG res; ReleaseSemaphore (request_sync, 1, &res); ForceCloseHandle (request_sync); } if (hp) CloseHandle (hp); if (fromthem) CloseHandle (fromthem); return res; } fhandler_pipe * _pinfo::pipe_fhandler (HANDLE hdl, size_t &n) { if (!this || !pid) return NULL; if (pid == myself->pid) return NULL; commune_result cr = commune_request (PICOM_PIPE_FHANDLER, hdl); n = cr.n; return (fhandler_pipe *) cr.s; } char * _pinfo::fd (int fd, size_t &n) { char *s; if (!this || !pid) return NULL; if (pid != myself->pid) { commune_result cr = commune_request (PICOM_FD, fd); s = cr.s; n = cr.n; } else { cygheap_fdget cfd (fd); if (cfd < 0) s = cstrdup (""); else s = cfd->get_proc_fd_name ((char *) cmalloc (HEAP_COMMUNE, CYG_MAX_PATH)); n = strlen (s) + 1; } return s; } char * _pinfo::fds (size_t &n) { char *s; if (!this || !pid) return NULL; if (pid != myself->pid) { commune_result cr = commune_request (PICOM_FDS); s = cr.s; n = cr.n; } else { n = 0; int fd; cygheap_fdenum cfd (true); while ((fd = cfd.next ()) >= 0) n += sizeof (int); cfd.rewind (); s = (char *) cmalloc (HEAP_COMMUNE, n); int *p = (int *) s; while ((fd = cfd.next ()) >= 0 && (char *) p - s < (int) n) *p++ = fd; } return s; } char * _pinfo::root (size_t& n) { char *s; if (!this || !pid) return NULL; if (pid != myself->pid) { commune_result cr = commune_request (PICOM_ROOT); s = cr.s; n = cr.n; } else { if (cygheap->root.exists ()) s = cstrdup (cygheap->root.posix_path ()); else s = cstrdup ("/"); n = strlen (s) + 1; } return s; } char * _pinfo::cwd (size_t& n) { char *s; if (!this || !pid) return NULL; if (pid != myself->pid) { commune_result cr = commune_request (PICOM_CWD); s = cr.s; n = cr.n; } else { s = (char *) cmalloc (HEAP_COMMUNE, CYG_MAX_PATH); cygheap->cwd.get (s, 1, 1, CYG_MAX_PATH); n = strlen (s) + 1; } return s; } char * _pinfo::cmdline (size_t& n) { char *s; if (!this || !pid) return NULL; if (pid != myself->pid) { commune_result cr = commune_request (PICOM_CMDLINE); s = cr.s; n = cr.n; } else { n = 0; for (char **a = __argv; *a; a++) n += strlen (*a) + 1; char *p; p = s = (char *) cmalloc (HEAP_COMMUNE, n); for (char **a = __argv; *a; a++) { strcpy (p, *a); p = strchr (p, '\0') + 1; } } return s; } /* This is the workhorse which waits for the write end of the pipe created during new process creation. If the pipe is closed or a zero is received on the pipe, it is assumed that the cygwin pid has exited. Otherwise, various "signals" can be sent to the parent to inform the parent to perform a certain action. */ static DWORD WINAPI proc_waiter (void *arg) { pinfo vchild = *(pinfo *) arg; ((pinfo *) arg)->waiter_ready = true; siginfo_t si = {0}; si.si_signo = SIGCHLD; si.si_code = CLD_EXITED; si.si_pid = vchild->pid; #if 0 // FIXME: This is tricky to get right si.si_utime = pchildren[rc]->rusage_self.ru_utime; si.si_stime = pchildren[rc].rusage_self.ru_stime; #endif pid_t pid = vchild->pid; for (;;) { DWORD nb; char buf = '\0'; if (!ReadFile (vchild.rd_proc_pipe, &buf, 1, &nb, NULL) && GetLastError () != ERROR_BROKEN_PIPE) { system_printf ("error on read of child wait pipe %p, %E", vchild.rd_proc_pipe); break; } si.si_uid = vchild->uid; switch (buf) { case __ALERT_ALIVE: continue; case 0: /* Child exited. Do some cleanup and signal myself. */ CloseHandle (vchild.rd_proc_pipe); vchild.rd_proc_pipe = NULL; vchild.maybe_set_exit_code_from_windows (); if (WIFEXITED (vchild->exitcode)) si.si_code = CLD_EXITED; else if (WCOREDUMP (vchild->exitcode)) si.si_code = CLD_DUMPED; else si.si_code = CLD_KILLED; si.si_status = vchild->exitcode; vchild->process_state = PID_EXITED; /* This should always be last. Do not use vchild-> beyond this point */ break; case SIGTTIN: case SIGTTOU: case SIGTSTP: case SIGSTOP: if (ISSTATE (myself, PID_NOCLDSTOP)) // FIXME: No need for this flag to be in _pinfo any longer continue; /* Child stopped. Signal myself. */ si.si_code = CLD_STOPPED; break; case SIGCONT: continue; default: system_printf ("unknown value %d on proc pipe", buf); continue; } /* Special case: If the "child process" that died is us, then we're execing. Just call proc_subproc directly and then exit this loop. We're done here. */ if (hExeced) { /* execing. no signals available now. */ proc_subproc (PROC_CLEARWAIT, 0); break; } /* Send a SIGCHLD to myself. We do this here, rather than in proc_subproc to avoid the proc_subproc lock since the signal thread will eventually be calling proc_subproc and could unnecessarily block. */ sig_send (myself_nowait, si); /* If we're just stopped or got a continue signal, keep looping. Otherwise, return this thread to the pool. */ if (buf != '\0') sigproc_printf ("looping"); else break; } sigproc_printf ("exiting wait thread for pid %d", pid); vchild.wait_thread = NULL; _my_tls._ctinfo->auto_release (); /* automatically return the cygthread to the cygthread pool */ return 0; } HANDLE _pinfo::dup_proc_pipe (HANDLE hProcess) { DWORD flags = DUPLICATE_SAME_ACCESS; HANDLE orig_wr_proc_pipe = wr_proc_pipe; /* Can't set DUPLICATE_CLOSE_SOURCE for exec case because we could be execing a non-cygwin process and we need to set the exit value before the parent sees it. */ if (this != myself || is_toplevel_proc) flags |= DUPLICATE_CLOSE_SOURCE; bool res = DuplicateHandle (hMainProc, wr_proc_pipe, hProcess, &wr_proc_pipe, 0, FALSE, flags); if (!res && WaitForSingleObject (hProcess, 0) != WAIT_OBJECT_0) { wr_proc_pipe = orig_wr_proc_pipe; system_printf ("DuplicateHandle failed, pid %d, hProcess %p, wr_proc_pipe %p, %E", pid, hProcess, wr_proc_pipe); } else { wr_proc_pipe_owner = dwProcessId; sigproc_printf ("duped wr_proc_pipe %p for pid %d(%u)", wr_proc_pipe, pid, dwProcessId); res = true; } return orig_wr_proc_pipe; } /* function to set up the process pipe and kick off proc_waiter */ int pinfo::wait () { /* FIXME: execed processes should be able to wait for pids that were started by the process which execed them. */ if (!CreatePipe (&rd_proc_pipe, &((*this)->wr_proc_pipe), &sec_none_nih, 16)) { system_printf ("Couldn't create pipe tracker for pid %d, %E", (*this)->pid); return 0; } if (!(*this)->dup_proc_pipe (hProcess)) { system_printf ("Couldn't duplicate pipe topid %d(%p), %E", (*this)->pid, hProcess); return 0; } preserve (); /* Preserve the shared memory associated with the pinfo */ waiter_ready = false; /* Fire up a new thread to track the subprocess */ cygthread *h = new cygthread (proc_waiter, 0, this, "proc_waiter"); if (!h) sigproc_printf ("tracking thread creation failed for pid %d", (*this)->pid); else { wait_thread = h; sigproc_printf ("created tracking thread for pid %d, winpid %p, rd_pipe %p", (*this)->pid, (*this)->dwProcessId, rd_proc_pipe); } return 1; } void _pinfo::sync_proc_pipe () { if (wr_proc_pipe && wr_proc_pipe != INVALID_HANDLE_VALUE) while (wr_proc_pipe_owner != GetCurrentProcessId ()) low_priority_sleep (0); } /* function to send a "signal" to the parent when something interesting happens in the child. */ bool _pinfo::alert_parent (char sig) { DWORD nb = 0; /* Send something to our parent. If the parent has gone away, close the pipe. Don't send if this is an exec stub. FIXME: Is there a race here if we run this while another thread is attempting to exec()? */ if (wr_proc_pipe == INVALID_HANDLE_VALUE || !myself->wr_proc_pipe || hExeced) /* no parent */; else { sync_proc_pipe (); if (WriteFile (wr_proc_pipe, &sig, 1, &nb, NULL)) /* all is well */; else if (GetLastError () != ERROR_BROKEN_PIPE) debug_printf ("sending %d notification to parent failed, %E", sig); else { ppid = 1; HANDLE closeit = wr_proc_pipe; wr_proc_pipe = INVALID_HANDLE_VALUE; CloseHandle (closeit); } } return (bool) nb; } void pinfo::release () { if (procinfo) { void *unmap_procinfo = procinfo; procinfo = NULL; UnmapViewOfFile (unmap_procinfo); } if (h) { HANDLE close_h = h; h = NULL; ForceCloseHandle1 (close_h, pinfo_shared_handle); } } /* DOCTOOL-START cygwin_winpid_to_pid extern "C" pid_t cygwin_winpid_to_pid int winpid Given a windows pid, converts to the corresponding Cygwin pid, if any. Returns -1 if windows pid does not correspond to a cygwin pid. Example use of cygwin_winpid_to_pid extern "C" cygwin_winpid_to_pid (int winpid); pid_t mypid; mypid = cygwin_winpid_to_pid (windows_pid); DOCTOOL-END */ extern "C" pid_t cygwin_winpid_to_pid (int winpid) { pinfo p (cygwin_pid (winpid)); if (p) return p->pid; set_errno (ESRCH); return (pid_t) -1; } #include #define slop_pidlist 200 #define size_pidlist(i) (sizeof (pidlist[0]) * ((i) + 1)) #define size_pinfolist(i) (sizeof (pinfolist[0]) * ((i) + 1)) class _onreturn { HANDLE *h; public: ~_onreturn () { if (h && *h) { CloseHandle (*h); *h = NULL; h = NULL; } } void no_close_p_handle () {h = NULL;} _onreturn (HANDLE& _h): h (&_h) {} }; inline void winpids::add (DWORD& nelem, bool winpid, DWORD pid) { pid_t cygpid = cygwin_pid (pid); if (nelem >= npidlist) { npidlist += slop_pidlist; pidlist = (DWORD *) realloc (pidlist, size_pidlist (npidlist + 1)); pinfolist = (pinfo *) realloc (pinfolist, size_pinfolist (npidlist + 1)); } pinfo& p = pinfolist[nelem]; /* Open a the process to prevent a subsequent exit from invalidating the shared memory region. */ p.hProcess = OpenProcess (PROCESS_QUERY_INFORMATION, false, pid); _onreturn onreturn (p.hProcess); /* If we couldn't open the process then we don't have rights to it and should make a copy of the shared memory area if it exists (it may not). */ bool perform_copy; if (!p.hProcess) perform_copy = true; else perform_copy = make_copy; p.init (cygpid, PID_NOREDIR | pinfo_access, NULL); /* If we're just looking for winpids then don't do any special cygwin "stuff* */ if (winpid) goto out; /* !p means that we couldn't find shared memory for this pid. Probably means that it isn't a cygwin process. */ if (!p) { if (!pinfo_access) return; p.init (cygpid, PID_NOREDIR, NULL); if (!p) return; } /* Scan list of previously recorded pids to make sure that this pid hasn't shown up before. This can happen when a process execs. */ for (unsigned i = 0; i < nelem; i++) if (pinfolist[i]->pid == p->pid) { if ((_pinfo *) p != (_pinfo *) myself) p.release (); return; } out: /* Exit here. If p is "false" then, eventually any opened process handle will be closed and the function will exit without adding anything to the pid list. If p is "true" then we've discovered a cygwin process. Handle "myself" differently. Don't copy it and close/zero the handle we just opened to it. If not performing a copy, then keep the process handle open for the duration of the life of the procinfo region to potential races when a new process uses this pid. Otherwise, malloc some memory for a copy of the shared memory. If the malloc failed, then "oh well". Just keep the shared memory around and eventually close the handle when the winpids goes out of scope. If malloc succeeds, copy the procinfo we just grabbed into the new region, release the shared memory and allow the handle to be closed when this function returns. Oh, and add the pid to the list and bump the number of elements. */ if (p) { if (p == (_pinfo *) myself) /* handle specially. Close the handle but (eventually) don't deallocate procinfo in release call */; else if (!perform_copy) onreturn.no_close_p_handle (); /* Don't close the handle until release */ else { _pinfo *pnew = (_pinfo *) malloc (sizeof (*p.procinfo)); if (!pnew) onreturn.no_close_p_handle (); else { *pnew = *p.procinfo; if ((_pinfo *) p != (_pinfo *) myself) p.release (); p.procinfo = pnew; p.destroy = false; } } } if (p || winpid) pidlist[nelem++] = pid; } DWORD winpids::enum_processes (bool winpid) { static DWORD szprocs; static SYSTEM_PROCESSES *procs; DWORD nelem = 0; if (!szprocs) procs = (SYSTEM_PROCESSES *) malloc (sizeof (*procs) + (szprocs = 200 * sizeof (*procs))); NTSTATUS res; for (;;) { res = NtQuerySystemInformation (SystemProcessesAndThreadsInformation, procs, szprocs, NULL); if (res == 0) break; if (res == STATUS_INFO_LENGTH_MISMATCH) procs = (SYSTEM_PROCESSES *) realloc (procs, szprocs += 200 * sizeof (*procs)); else { system_printf ("error %p reading system process information", res); return 0; } } SYSTEM_PROCESSES *px = procs; for (;;) { if (px->ProcessId) add (nelem, winpid, px->ProcessId); if (!px->NextEntryDelta) break; px = (SYSTEM_PROCESSES *) ((char *) px + px->NextEntryDelta); } return nelem; } void winpids::set (bool winpid) { __malloc_lock (); npids = enum_processes (winpid); if (pidlist) pidlist[npids] = 0; __malloc_unlock (); } DWORD winpids::enum_init (bool winpid) { return enum_processes (winpid); } void winpids::release () { _pinfo *p; for (unsigned i = 0; i < npids; i++) if (pinfolist[i] == (_pinfo *) myself) continue; else if (pinfolist[i].hProcess) { if (pinfolist[i]) pinfolist[i].release (); CloseHandle (pinfolist[i].hProcess); } else if ((p = pinfolist[i])) { pinfolist[i].procinfo = NULL; free (p); } } winpids::~winpids () { if (npidlist) { release (); free (pidlist); free (pinfolist); } }