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libc/winsup/cygwin/cygserver_process.cc

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/* cygserver_process.cc
Copyright 2001, 2002 Red Hat Inc.
Written by Robert Collins <rbtcollins@hotmail.com>
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 "woutsup.h"
#include <sys/types.h>
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include "cygerrno.h"
#include "cygwin/cygserver_process.h"
/*****************************************************************************/
#define elements(ARRAY) (sizeof (ARRAY) / sizeof (*ARRAY))
/*****************************************************************************/
process_cleanup::~process_cleanup ()
{
safe_delete (_process);
}
void
process_cleanup::process ()
{
_process->cleanup ();
}
/*****************************************************************************/
/* cleanup_routine */
cleanup_routine::~cleanup_routine ()
{
}
/*****************************************************************************/
process::process (const pid_t cygpid, const DWORD winpid)
: _cygpid (cygpid),
_winpid (winpid),
_hProcess (NULL),
_cleaning_up (false),
_exit_status (STILL_ACTIVE),
_routines_head (NULL),
_next (NULL)
{
_hProcess = OpenProcess (PROCESS_ALL_ACCESS, FALSE, winpid);
if (!_hProcess)
{
system_printf ("unable to obtain handle for new cache process %d(%lu)",
_cygpid, _winpid);
_hProcess = INVALID_HANDLE_VALUE;
_exit_status = 0;
}
else
debug_printf ("got handle %p for new cache process %d(%lu)",
_hProcess, _cygpid, _winpid);
InitializeCriticalSection (&_access);
}
process::~process ()
{
DeleteCriticalSection (&_access);
(void) CloseHandle (_hProcess);
}
/* No need to be thread-safe as this is only ever called by
* process_cache::remove_process (). If it has to be made thread-safe
* later on, it should not use the `access' critical section as that
* is held by the client request handlers for an arbitrary length of
* time, i.e. while they do whatever processing is required for a
* client request.
*/
DWORD
process::check_exit_code ()
{
if (_hProcess && _hProcess != INVALID_HANDLE_VALUE
&& _exit_status == STILL_ACTIVE
&& !GetExitCodeProcess (_hProcess, &_exit_status))
{
system_printf ("failed to retrieve exit code for %d(%lu), error = %lu",
_cygpid, _winpid, GetLastError ());
_hProcess = INVALID_HANDLE_VALUE;
}
return _exit_status;
}
bool
process::add (cleanup_routine *const entry)
{
assert (entry);
bool res = false;
EnterCriticalSection (&_access);
if (!_cleaning_up)
{
entry->_next = _routines_head;
_routines_head = entry;
res = true;
}
LeaveCriticalSection (&_access);
return res;
}
bool
process::remove (const cleanup_routine *const entry)
{
assert (entry);
bool res = false;
EnterCriticalSection (&_access);
if (!_cleaning_up)
{
cleanup_routine *previous = NULL;
for (cleanup_routine *ptr = _routines_head;
ptr;
previous = ptr, ptr = ptr->_next)
{
if (*ptr == *entry)
{
if (previous)
previous->_next = ptr->_next;
else
_routines_head = ptr->_next;
safe_delete (ptr);
res = true;
break;
}
}
}
LeaveCriticalSection (&_access);
return res;
}
/* This is single threaded. It's called after the process is removed
* from the cache, but inserts may be attemped by worker threads that
* have a pointer to it.
*/
void
process::cleanup ()
{
EnterCriticalSection (&_access);
assert (!is_active ());
assert (!_cleaning_up);
InterlockedExchange (&_cleaning_up, true);
cleanup_routine *entry = _routines_head;
_routines_head = NULL;
LeaveCriticalSection (&_access);
while (entry)
{
cleanup_routine *const ptr = entry;
entry = entry->_next;
ptr->cleanup (this);
safe_delete (ptr);
}
}
/*****************************************************************************/
void
process_cache::submission_loop::request_loop ()
{
assert (this);
assert (_cache);
assert (_interrupt_event);
while (_running)
_cache->wait_for_processes (_interrupt_event);
}
/*****************************************************************************/
process_cache::process_cache (const unsigned int initial_workers)
: _queue (initial_workers),
_submitter (this, &_queue), // true == interruptible
_processes_count (0),
_processes_head (NULL),
_cache_add_trigger (NULL)
{
/* there can only be one */
InitializeCriticalSection (&_cache_write_access);
_cache_add_trigger = CreateEvent (NULL, // SECURITY_ATTRIBUTES
FALSE, // Auto-reset
FALSE, // Initially non-signalled
NULL); // Anonymous
if (!_cache_add_trigger)
{
system_printf ("failed to create cache add trigger, error = %lu",
GetLastError ());
abort ();
}
_queue.add_submission_loop (&_submitter);
}
process_cache::~process_cache ()
{
(void) CloseHandle (_cache_add_trigger);
DeleteCriticalSection (&_cache_write_access);
}
/* This returns the process object to the caller already locked, that
* is, with the object's `access' critical region entered. Thus the
* caller must unlock the object when it's finished with it (via
* process::release ()). It must then not try to access the object
* afterwards, except by going through this routine again, as it may
* have been deleted once it has been unlocked.
*/
class process *
process_cache::process (const pid_t cygpid, const DWORD winpid)
{
/* TODO: make this more granular, so a search doesn't involve the
* write lock.
*/
EnterCriticalSection (&_cache_write_access);
class process *previous = NULL;
class process *entry = find (winpid, &previous);
if (!entry)
{
if (_processes_count + SPECIALS_COUNT >= MAXIMUM_WAIT_OBJECTS)
{
LeaveCriticalSection (&_cache_write_access);
system_printf (("process limit (%d processes) reached; "
"new connection refused for %d(%lu)"),
MAXIMUM_WAIT_OBJECTS - SPECIALS_COUNT,
cygpid, winpid);
set_errno (EAGAIN);
return NULL;
}
entry = safe_new (class process, cygpid, winpid);
if (!entry->is_active ())
{
LeaveCriticalSection (&_cache_write_access);
safe_delete (entry);
set_errno (ESRCH);
return NULL;
}
if (previous)
{
entry->_next = previous->_next;
previous->_next = entry;
}
else
{
entry->_next = _processes_head;
_processes_head = entry;
}
_processes_count += 1;
SetEvent (_cache_add_trigger);
}
EnterCriticalSection (&entry->_access); // To be released by the caller.
LeaveCriticalSection (&_cache_write_access);
assert (entry);
assert (entry->_winpid == winpid);
return entry;
}
void
process_cache::wait_for_processes (const HANDLE interrupt_event)
{
// Update `_wait_array' with handles of all current processes.
const size_t count = sync_wait_array (interrupt_event);
debug_printf ("waiting on %u objects in total (%u processes)",
count, _processes_count);
const DWORD rc = WaitForMultipleObjects (count, _wait_array,
FALSE, INFINITE);
if (rc == WAIT_FAILED)
{
system_printf ("could not wait on the process handles, error = %lu",
GetLastError ());
abort ();
}
const size_t start = rc - WAIT_OBJECT_0;
if (rc < WAIT_OBJECT_0 || start > count)
{
system_printf (("unexpected return code %rc "
"from WaitForMultipleObjects: "
"expected [%u .. %u)"),
rc, WAIT_OBJECT_0, WAIT_OBJECT_0 + count);
abort ();
}
// Tell all the processes, from the signalled point up, the bad news.
for (size_t index = start; index != count; index++)
if (_process_array[index])
check_and_remove_process (index);
}
/*
* process_cache::sync_wait_array ()
*
* Fill-in the wait array with the handles that the cache needs to wait on.
* These handles are:
* - the process_process_param's interrupt event
* - the process_cache's cache_add_trigger event
* - the handle for each live process in the cache.
*
* Return value: the number of live handles in the array.
*/
size_t
process_cache::sync_wait_array (const HANDLE interrupt_event)
{
assert (this);
assert (_cache_add_trigger && _cache_add_trigger != INVALID_HANDLE_VALUE);
assert (interrupt_event && interrupt_event != INVALID_HANDLE_VALUE);
EnterCriticalSection (&_cache_write_access);
assert (_processes_count + SPECIALS_COUNT <= elements (_wait_array));
size_t index = 0;
for (class process *ptr = _processes_head; ptr; ptr = ptr->_next)
{
assert (ptr->_hProcess && ptr->_hProcess != INVALID_HANDLE_VALUE);
assert (ptr->is_active ());
_wait_array[index] = ptr->handle ();
_process_array[index++] = ptr;
assert (index <= elements (_wait_array));
}
/* Sorry for shouting, but THESE MUST BE ADDED AT THE END! */
/* Well, not strictly `must', but it's more efficient if they are :-) */
_wait_array[index] = interrupt_event;
_process_array[index++] = NULL;
_wait_array[index] = _cache_add_trigger;
_process_array[index++] = NULL;
/* Phew, back to normal volume now. */
assert (index <= elements (_wait_array));
LeaveCriticalSection (&_cache_write_access);
return index;
}
void
process_cache::check_and_remove_process (const size_t index)
{
assert (this);
assert (index < elements (_wait_array) - SPECIALS_COUNT);
class process *const process = _process_array[index];
assert (process);
assert (process->handle () == _wait_array[index]);
if (process->check_exit_code () == STILL_ACTIVE)
return;
debug_printf ("process %d(%lu) has left the building ($? = %lu)",
process->_cygpid, process->_winpid, process->_exit_status);
/* Unlink the process object from the process list. */
EnterCriticalSection (&_cache_write_access);
class process *previous = NULL;
const class process *const tmp = find (process->_winpid, &previous);
assert (tmp == process);
assert (previous ? previous->_next == process : _processes_head == process);
if (previous)
previous->_next = process->_next;
else
_processes_head = process->_next;
_processes_count -= 1;
LeaveCriticalSection (&_cache_write_access);
/* Schedule any cleanup tasks for this process. */
_queue.add (safe_new (process_cleanup, process));
}
class process *
process_cache::find (const DWORD winpid, class process **previous)
{
if (previous)
*previous = NULL;
for (class process *ptr = _processes_head; ptr; ptr = ptr->_next)
if (ptr->_winpid == winpid)
return ptr;
else if (ptr->_winpid > winpid) // The list is sorted by winpid.
return NULL;
else if (previous)
*previous = ptr;
return NULL;
}
/*****************************************************************************/
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