2000-02-18 03:38:33 +08:00
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/* pinfo.cc: process table support
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Copyright 1996, 1997, 1998, 2000 Cygnus Solutions.
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This file is part of Cygwin.
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This software is a copyrighted work licensed under the terms of the
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Cygwin license. Please consult the file "CYGWIN_LICENSE" for
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details. */
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#include <stdlib.h>
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#include <time.h>
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#include <errno.h>
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#include <limits.h>
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#include "winsup.h"
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/* The first pid used; also the lowest value allowed. */
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#define PBASE 1000
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static char NO_COPY pinfo_dummy[sizeof(pinfo)] = {0};
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pinfo NO_COPY *myself = (pinfo *)&pinfo_dummy; // Avoid myself != NULL checks
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/* Initialize the process table.
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This is done once when the dll is first loaded. */
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void
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pinfo_list::init (void)
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{
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next_pid = PBASE; /* Next pid to try to allocate. */
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/* We assume the shared data area is already initialized to zeros.
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Note that SIG_DFL is zero. */
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}
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pinfo * __stdcall
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set_myself (pinfo *p)
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{
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myself = p;
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if (!p)
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return NULL;
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myself->start_time = time (NULL); /* Register our starting time. */
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char buf[30];
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2000-03-07 13:33:09 +08:00
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__small_sprintf (buf, "cYg%8x %x", _STRACE_INTERFACE_ACTIVATE_ADDR,
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&strace.active);
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2000-02-18 03:38:33 +08:00
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OutputDebugString (buf);
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2000-02-28 13:05:33 +08:00
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(void) GetModuleFileName (NULL, myself->progname,
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sizeof(myself->progname));
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2000-03-07 13:33:09 +08:00
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if (strace.active)
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2000-02-28 13:05:33 +08:00
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{
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extern char osname[];
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2000-03-07 13:33:09 +08:00
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strace.prntf (1, "**********************************************");
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strace.prntf (1, "Program name: %s", myself->progname);
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strace.prntf (1, "App version: %d.%d, api: %d.%d",
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2000-02-28 13:05:33 +08:00
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user_data->dll_major, user_data->dll_minor,
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user_data->api_major, user_data->api_minor);
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2000-03-07 13:33:09 +08:00
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strace.prntf (1, "DLL version: %d.%d, api: %d.%d",
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2000-02-28 13:05:33 +08:00
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cygwin_version.dll_major, cygwin_version.dll_minor,
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cygwin_version.api_major, cygwin_version.api_minor);
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2000-03-07 13:33:09 +08:00
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strace.prntf (1, "DLL build: %s", cygwin_version.dll_build_date);
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strace.prntf (1, "OS version: Windows %s", osname);
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strace.prntf (1, "**********************************************");
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2000-02-28 13:05:33 +08:00
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}
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2000-02-18 03:38:33 +08:00
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return myself;
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}
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/* Initialize the process table entry for the current task.
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This is not called for fork'd tasks, only exec'd ones. */
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void __stdcall
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pinfo_init (LPBYTE info)
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{
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if (info != NULL)
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{
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/* The process was execed. Reuse entry from the original
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owner of this pid. */
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2000-04-26 13:13:32 +08:00
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environ_init (0); /* Needs myself but affects calls below */
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2000-02-18 03:38:33 +08:00
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/* spawn has already set up a pid structure for us so we'll use that */
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myself->process_state |= PID_CYGPARENT;
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/* Inherit file descriptor information from parent in info.
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*/
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LPBYTE b = dtable.de_linearize_fd_array (info);
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extern char title_buf[];
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if (b && *b)
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old_title = strcpy (title_buf, (char *)b);
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}
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else
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{
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/* Invent our own pid. */
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if (!set_myself (cygwin_shared->p.allocate_pid ()))
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api_fatal ("No more processes");
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myself->ppid = myself->pgid = myself->sid = myself->pid;
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myself->ctty = -1;
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myself->uid = USHRT_MAX;
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2000-04-26 13:13:32 +08:00
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environ_init (0); /* call after myself has been set up */
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2000-02-18 03:38:33 +08:00
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}
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debug_printf ("pid %d, pgid %d", myself->pid, myself->pgid);
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}
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/* [] operator. This is the mechanism for table lookups. */
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/* Returns the index into the pinfo_list table for pid arg */
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pinfo *
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pinfo_list::operator[] (pid_t pid)
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{
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if (pid <= 0)
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return NULL;
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pinfo *p = vec + (pid % size ());
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if (p->pid != pid || p->process_state == PID_NOT_IN_USE)
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return NULL;
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else
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return p;
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}
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struct sigaction&
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pinfo::getsig(int sig)
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{
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#ifdef _MT_SAFE
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if ( thread2signal )
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return thread2signal->sigs[sig];
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return sigs[sig];
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#else
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return sigs[sig];
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#endif
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};
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sigset_t&
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pinfo::getsigmask ()
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{
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#ifdef _MT_SAFE
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if ( thread2signal )
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return *thread2signal->sigmask;
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return sig_mask;
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#else
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return sig_mask;
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#endif
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};
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void
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pinfo::setsigmask (sigset_t _mask)
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{
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#ifdef _MT_SAFE
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if ( thread2signal )
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*(thread2signal->sigmask) = _mask;
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sig_mask=_mask;
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#else
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sig_mask=_mask;
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#endif
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}
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LONG *
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pinfo::getsigtodo(int sig)
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{
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#ifdef _MT_SAFE
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if ( thread2signal )
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return thread2signal->sigtodo + __SIGOFFSET + sig;
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return _sigtodo + __SIGOFFSET + sig;
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#else
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return _sigtodo + __SIGOFFSET + sig;
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#endif
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}
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extern HANDLE hMainThread;
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HANDLE
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pinfo::getthread2signal()
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{
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#ifdef _MT_SAFE
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if ( thread2signal )
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return thread2signal->win32_obj_id;
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return hMainThread;
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#else
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return hMainThread;
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#endif
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}
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void
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pinfo::setthread2signal(void *_thr)
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{
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#ifdef _MT_SAFE
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// assert has myself lock
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thread2signal=(ThreadItem*)_thr;
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#else
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#endif
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}
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void
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pinfo::copysigs(pinfo *_other)
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{
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sigs = _other->sigs;
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}
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pinfo * __stdcall
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procinfo (int pid)
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{
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return cygwin_shared->p[pid];
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}
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#ifdef DEBUGGING
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/*
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* Code to lock/unlock the process table.
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*/
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int __stdcall
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lpfu (const char *func, int ln, DWORD timeout)
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{
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int rc;
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DWORD t;
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debug_printf ("timeout %d, pinfo_mutex %p", timeout, pinfo_mutex);
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t = (timeout == INFINITE) ? 10000 : timeout;
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SetLastError(0);
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while ((rc = WaitForSingleObject (pinfo_mutex, t)) != WAIT_OBJECT_0)
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{
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if (rc == WAIT_ABANDONED_0)
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break;
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system_printf ("%s:%d having problems getting lock", func, ln);
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system_printf ("*** %s, rc %d, %E", cygwin_shared->p.lock_info, rc);
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if (t == timeout)
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break;
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}
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__small_sprintf (cygwin_shared->p.lock_info, "%s(%d), pid %d ", func, ln,
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(user_data && myself) ? (int)myself->dwProcessId : -1);
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return rc;
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}
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void
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unlock_pinfo (void)
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{
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debug_printf ("handle %d", pinfo_mutex);
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if (!cygwin_shared->p.lock_info[0])
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system_printf ("lock_info not set?");
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else
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strcat (cygwin_shared->p.lock_info, " unlocked");
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if (!ReleaseMutex (pinfo_mutex))
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system_printf ("ReleaseMutext (pinfo_mutex<%p>) failed, %E", pinfo_mutex);
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}
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#else
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/*
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* Code to lock/unlock the process table.
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*/
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int __stdcall
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lock_pinfo_for_update (DWORD timeout)
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{
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DWORD rc;
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DWORD t;
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debug_printf ("timeout %d, pinfo_mutex %p", timeout, pinfo_mutex);
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t = (timeout == INFINITE) ? 10000 : timeout;
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SetLastError(0);
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while ((rc = WaitForSingleObject (pinfo_mutex, t)) != WAIT_OBJECT_0)
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{
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if (rc == WAIT_ABANDONED_0)
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break;
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system_printf ("rc %d, pinfo_mutex %p, %E", pinfo_mutex, rc);
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if (t == timeout)
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break;
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if (rc == WAIT_FAILED)
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/* sigh, must be properly fixed up later. */
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return rc;
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Sleep(10); /* to prevent 100% CPU in those rare cases */
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}
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return (int)rc;
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}
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void
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unlock_pinfo (void)
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{
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debug_printf ("handle %d", pinfo_mutex);
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ReleaseMutex (pinfo_mutex);
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}
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#endif
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/* Allocate a process table entry by finding an empty slot in the
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fixed-size process table. We could use a linked list, but this
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would probably be too slow.
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Try to allocate next_pid, incrementing next_pid and trying again
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up to size() times at which point we reach the conclusion that
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table is full. Eventually at this point we would grow the table
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by size() and start over. If we find a pid to use,
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If all else fails, sweep through the loop looking for processes that
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may have died abnormally without registering themselves as "dead".
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Clear out these pinfo structures. Then scan the table again.
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Note that the process table is in the shared data space and thus
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is susceptible to corruption. The amount of time spent scanning the
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table is presumably quite small compared with the total time to
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create a process.
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*/
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pinfo *
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pinfo_list::allocate_pid (void)
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{
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pinfo *newp;
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lock_pinfo_for_update (INFINITE);
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for (int tries = 0; ; tries++)
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{
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for (int i = next_pid; i < (next_pid + size ()); i++)
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{
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/* i mod size() gives place to check */
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newp = vec + (i % size());
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if (newp->process_state == PID_NOT_IN_USE)
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{
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debug_printf ("found empty slot %d for pid %d",
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(i % size ()), i);
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next_pid = i;
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goto gotit;
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}
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}
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if (tries > 0)
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break;
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/* try once to remove bogus dead processes */
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debug_printf ("clearing out deadwood");
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for (newp = vec; newp < vec + size(); newp++)
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proc_exists (newp);
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}
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/* The process table is full. */
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debug_printf ("process table is full");
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unlock_pinfo ();
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return NULL;
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gotit:
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/* Set new pid based on the position of this element in the pinfo list */
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newp->pid = next_pid;
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/* Determine next slot to consider, wrapping if we hit the end of
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* the array. Since allocation involves looping through size () pids,
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* don't allow next_pid to be greater than SHRT_MAX - size ().
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*/
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if (next_pid < (SHRT_MAX - size ()))
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next_pid++;
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else
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next_pid = PBASE;
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newp->process_state = PID_IN_USE;
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unlock_pinfo ();
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memset (newp, 0, PINFO_ZERO);
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debug_printf ("pid %d, state %x", newp->pid, newp->process_state);
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return newp;
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}
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void
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pinfo::record_death (int lock)
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{
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int unlock = lock ? 0 : lock_pinfo_for_update (999);
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if (dwProcessId == GetCurrentProcessId () && !my_parent_is_alive ())
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{
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process_state = PID_NOT_IN_USE;
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hProcess = NULL;
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}
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if (unlock)
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unlock_pinfo ();
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}
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/* DOCTOOL-START
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<sect1 id="func-cygwin-winpid-to-pid">
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<title>cygwin_winpid_to_pid</title>
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<funcsynopsis>
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<funcdef>extern "C" pid_t
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<function>cygwin_winpid_to_pid</function>
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</funcdef>
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<paramdef>int <parameter>winpid</parameter></paramdef>
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</funcsynopsis>
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<para>Given a windows pid, converts to the corresponding Cygwin
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pid, if any. Returns -1 if windows pid does not correspond to
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a cygwin pid.</para>
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<example>
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<title>Example use of cygwin_winpid_to_pid</title>
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<programlisting>
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extern "C" cygwin_winpid_to_pid (int winpid);
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pid_t mypid;
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mypid = cygwin_winpid_to_pid (windows_pid);
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</programlisting>
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</example>
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</sect1>
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DOCTOOL-END */
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extern "C" pid_t
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cygwin_winpid_to_pid (int winpid)
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{
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for (int i = 0; i < cygwin_shared->p.size (); i++)
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{
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pinfo *p = &cygwin_shared->p.vec[i];
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if (p->process_state == PID_NOT_IN_USE)
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continue;
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/* FIXME: signed vs unsigned comparison: winpid can be < 0 !!! */
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if (p->dwProcessId == (DWORD)winpid)
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return p->pid;
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}
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set_errno (ESRCH);
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return (pid_t) -1;
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}
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