newlib/winsup/cygwin/dcrt0.cc

1184 lines
32 KiB
C++

/* dcrt0.cc -- essentially the main() for the Cygwin dll
Copyright 1996, 1997, 1998, 1999, 2000 Cygnus Solutions.
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 <unistd.h>
#include <stdlib.h>
#include "winsup.h"
#include "glob.h"
#include "exceptions.h"
#include "dll_init.h"
#include "autoload.h"
#include <ctype.h>
#define MAX_AT_FILE_LEVEL 10
HANDLE NO_COPY hMainProc = NULL;
HANDLE NO_COPY hMainThread = NULL;
sigthread NO_COPY mainthread; // ID of the main thread
static NO_COPY char dummy_user_data[sizeof (per_process)] = {0};
per_process NO_COPY *user_data = (per_process *) &dummy_user_data;
per_thread_waitq NO_COPY waitq_storage;
per_thread_vfork NO_COPY vfork_storage;
per_thread_signal_dispatch NO_COPY signal_dispatch_storage;
per_thread NO_COPY *threadstuff[] = {&waitq_storage,
&vfork_storage,
&signal_dispatch_storage,
NULL};
BOOL display_title = FALSE;
BOOL strip_title_path = FALSE;
BOOL allow_glob = TRUE;
HANDLE NO_COPY parent_alive = NULL;
/* Used in SIGTOMASK for generating a bit for insertion into a sigset_t.
This is subtracted from the signal number prior to shifting the bit.
In older versions of cygwin, the signal was used as-is to shift the
bit for masking. So, we'll temporarily detect this and set it to zero
for programs that are linked using older cygwins. This is just a stopgap
measure to allow an orderly transfer to the new, correct sigmask method. */
unsigned int signal_shift_subtract = 1;
extern "C"
{
/* This is an exported copy of environ which can be used by DLLs
which use cygwin.dll. */
char **__cygwin_environ;
/* __progname used in getopt error message */
char *__progname;
struct _reent reent_data;
};
static void dll_crt0_1 ();
char *old_title = NULL;
char title_buf[TITLESIZE + 1];
static void
do_global_dtors (void)
{
if (user_data->dtors)
{
void (**pfunc)() = user_data->dtors;
while (*++pfunc)
(*pfunc) ();
}
}
static void __stdcall
do_global_ctors (void (**in_pfunc)(), int force)
{
if (!force)
{
if (user_data->forkee || user_data->run_ctors_p)
return; // inherit constructed stuff from parent pid
user_data->run_ctors_p = 1;
}
/* Run ctors backwards, so skip the first entry and find how many
there are, then run them. */
void (**pfunc)() = in_pfunc;
while (*++pfunc)
;
while (--pfunc > in_pfunc)
(*pfunc) ();
if (user_data != (per_process *) &dummy_user_data)
atexit (do_global_dtors);
}
/* remember the type of Win32 OS being run for future use. */
os_type NO_COPY os_being_run;
char NO_COPY osname[40];
/* set_os_type: Set global variable os_being_run with type of Win32
operating system being run. This information is used internally
to manage the inconsistency in Win32 API calls between Win32 OSes. */
/* Cygwin internal */
static void
set_os_type ()
{
OSVERSIONINFO os_version_info;
const char *os;
memset (&os_version_info, 0, sizeof os_version_info);
os_version_info.dwOSVersionInfoSize = sizeof (OSVERSIONINFO);
GetVersionEx (&os_version_info);
switch (os_version_info.dwPlatformId)
{
case VER_PLATFORM_WIN32_NT:
os_being_run = winNT;
os = "NT";
break;
case VER_PLATFORM_WIN32_WINDOWS:
if (os_version_info.dwMinorVersion == 0)
{
os_being_run = win95;
os = "95";
}
else /* os_version_info.dwMinorVersion == 10 */
{
os_being_run = win98;
os = "98";
}
break;
default:
os_being_run = unknown;
os = "??";
break;
}
__small_sprintf (osname, "%s-%d.%d", os, os_version_info.dwMajorVersion,
os_version_info.dwMinorVersion);
}
host_dependent_constants NO_COPY host_dependent;
/* Constructor for host_dependent_constants. */
void
host_dependent_constants::init ()
{
extern DWORD chunksize;
/* fhandler_disk_file::lock needs a platform specific upper word
value for locking entire files.
fhandler_base::open requires host dependent file sharing
attributes. */
switch (os_being_run)
{
case winNT:
win32_upper = 0xffffffff;
shared = FILE_SHARE_READ | FILE_SHARE_WRITE;
break;
case win98:
case win95:
case win32s:
win32_upper = 0x00000000;
shared = FILE_SHARE_READ | FILE_SHARE_WRITE;
chunksize = 32 * 1024 * 1024;
break;
default:
api_fatal ("unrecognized system type");
}
}
/*
* Replaces -@file in the command line with the contents of the file.
* There may be multiple -@file's in a single command line
* A \-@file is replaced with -@file so that echo \-@foo would print
* -@foo and not the contents of foo.
*/
static int __stdcall
insert_file (char *name, char *&cmd)
{
HANDLE f;
DWORD size;
f = CreateFile (name + 1,
GENERIC_READ, /* open for reading */
FILE_SHARE_READ, /* share for reading */
&sec_none_nih, /* no security */
OPEN_EXISTING, /* existing file only */
FILE_ATTRIBUTE_NORMAL, /* normal file */
NULL); /* no attr. template */
if (f == INVALID_HANDLE_VALUE)
{
debug_printf ("couldn't open file '%s', %E", name);
return FALSE;
}
/* This only supports files up to about 4 billion bytes in
size. I am making the bold assumption that this is big
enough for this feature */
size = GetFileSize (f, NULL);
if (size == 0xFFFFFFFF)
{
debug_printf ("couldn't get file size for '%s', %E", name);
return FALSE;
}
int new_size = strlen (cmd) + size + 2;
char *tmp = (char *) malloc (new_size);
if (!tmp)
{
debug_printf ("malloc failed, %E");
return FALSE;
}
/* realloc passed as it should */
DWORD rf_read;
BOOL rf_result;
rf_result = ReadFile (f, tmp, size, &rf_read, NULL);
CloseHandle (f);
if (!rf_result || (rf_read != size))
{
debug_printf ("ReadFile failed, %E");
return FALSE;
}
tmp[size++] = ' ';
strcpy (tmp + size, cmd);
cmd = tmp;
return TRUE;
}
static inline int
isquote (char c)
{
char ch = c;
return ch == '"' || ch == '\'';
}
/* Step over a run of characters delimited by quotes */
static __inline char *
quoted (char *cmd, int winshell)
{
char *p;
char quote = *cmd;
/* If this is being run from a Windows shell then we have
to preserve quotes for globify to play with later. */
if (winshell)
{
while (*++cmd)
if ((p = strchr (cmd, quote)) == NULL)
{
cmd = strchr (cmd, '\0'); // no closing quote
break;
}
else if (p[1] == quote)
{
*p++ = '\\';
cmd = p; // a quoted quote
}
else
{
cmd = p + 1; // point to after end
break;
}
return cmd;
}
/* When running as a child of a cygwin process, the quoted
characters should have been placed here by spawn_guts, so
we'll just pinch them out of the command string unless
they're quoted with a preceding \ */
strcpy (cmd, cmd + 1);
while (*cmd)
{
if (*cmd != quote)
cmd++;
else if (cmd[1] == quote)
strcpy (cmd++, cmd + 1);
else
{
strcpy (cmd, cmd + 1);
break;
}
}
return cmd;
}
/* Perform a glob on word if it contains wildcard characters.
Also quote every character between quotes to force glob to
treat the characters literally. */
static int __stdcall
globify (char *word, char **&argv, int &argc, int &argvlen)
{
if (*word != '~' && strpbrk (word, "?*[\"\'(){}") == NULL)
return 0;
int n = 0;
char *p, *s;
int dos_spec = isdrive (word);
if (!dos_spec && isquote(*word) && word[1] && word[2])
dos_spec = isdrive (word + 1);
/* We'll need more space if there are quoting characters in
word. If that is the case, doubling the size of the
string should provide more than enough space. */
if (strpbrk (word, "'\""))
n = strlen (word);
char pattern[strlen (word) + ((dos_spec + 1) * n) + 1];
/* Fill pattern with characters from word, quoting any
characters found within quotes. */
for (p = pattern, s = word; *s != '\000'; s++, p++)
if (!isquote (*s))
{
if (dos_spec && *s == '\\')
*p++ = '\\';
*p = *s;
}
else
{
char quote = *s;
while (*++s && *s != quote)
{
if (dos_spec || *s != '\\')
/* nothing */;
else if (s[1] == quote || s[1] == '\\')
s++;
*p++ = '\\';
*p++ = *s;
}
if (*s == quote)
p--;
if (*s == '\0')
break;
}
*p = '\0';
glob_t gl;
gl.gl_offs = 0;
/* Attempt to match the argument. Return just word (minus quoting) if no match. */
if (glob (pattern, GLOB_TILDE | GLOB_NOCHECK | GLOB_BRACE | GLOB_QUOTE, NULL, &gl) || !gl.gl_pathc)
return 0;
/* Allocate enough space in argv for the matched filenames. */
n = argc;
if ((argc += gl.gl_pathc) > argvlen)
{
argvlen = argc + 10;
argv = (char **) realloc (argv, (1 + argvlen) * sizeof (argv[0]));
}
/* Copy the matched filenames to argv. */
char **gv = gl.gl_pathv;
char **av = argv + n;
while (*gv)
{
debug_printf ("argv[%d] = '%s'\n", n++, *gv);
*av++ = *gv++;
}
/* Clean up after glob. */
free (gl.gl_pathv);
return 1;
}
/* Build argv, argc from string passed from Windows. */
static void __stdcall
build_argv (char *cmd, char **&argv, int &argc, int winshell)
{
int argvlen = 0;
int nesting = 0; // monitor "nesting" from insert_file
argc = 0;
argvlen = 0;
argv = NULL;
/* Scan command line until there is nothing left. */
while (*cmd)
{
/* Ignore spaces */
if (issep (*cmd))
{
cmd++;
continue;
}
/* Found the beginning of an argument. */
char *word = cmd;
char *sawquote = NULL;
while (*cmd)
{
if (*cmd != '"' && (!winshell || *cmd != '\''))
cmd++; // Skip over this character
else
/* Skip over characters until the closing quote */
{
sawquote = cmd;
cmd = quoted (cmd, winshell);
}
if (issep (*cmd)) // End of argument if space
break;
}
if (*cmd)
*cmd++ = '\0'; // Terminate `word'
/* Possibly look for @file construction assuming that this isn't
the very first argument and the @ wasn't quoted */
if (argc && sawquote != word && *word == '@')
{
if (++nesting > MAX_AT_FILE_LEVEL)
api_fatal ("Too many levels of nesting for %s", word);
if (insert_file (word, cmd))
continue; // There's new stuff in cmd now
}
/* See if we need to allocate more space for argv */
if (argc >= argvlen)
{
argvlen = argc + 10;
argv = (char **) realloc (argv, (1 + argvlen) * sizeof (argv[0]));
}
/* Add word to argv file after (optional) wildcard expansion. */
if (!winshell || !argc || !globify (word, argv, argc, argvlen))
{
debug_printf ("argv[%d] = '%s'\n", argc, word);
argv[argc++] = word;
}
}
argv[argc] = NULL;
debug_printf ("argv[%d] = '%s'\n", argc, argv[argc]);
}
/* sanity and sync check */
void __stdcall
check_sanity_and_sync (per_process *p)
{
/* Sanity check to make sure developers didn't change the per_process */
/* struct without updating SIZEOF_PER_PROCESS [it makes them think twice */
/* about changing it]. */
if (sizeof (per_process) != SIZEOF_PER_PROCESS)
{
api_fatal ("per_process sanity check failed");
}
/* Make sure that the app and the dll are in sync. */
/* Complain if older than last incompatible change */
if (p->dll_major < CYGWIN_VERSION_DLL_EPOCH)
api_fatal ("cygwin DLL and APP are out of sync -- DLL version mismatch %d < %d",
p->dll_major, CYGWIN_VERSION_DLL_EPOCH);
/* magic_biscuit != 0 if using the old style version numbering scheme. */
if (p->magic_biscuit != SIZEOF_PER_PROCESS)
api_fatal ("Incompatible cygwin .dll -- incompatible per_process info %d != %d",
p->magic_biscuit, SIZEOF_PER_PROCESS);
/* Complain if incompatible API changes made */
if (p->api_major != cygwin_version.api_major)
api_fatal ("cygwin DLL and APP are out of sync -- API version mismatch %d < %d",
p->api_major, cygwin_version.api_major);
if (CYGWIN_VERSION_DLL_MAKE_COMBINED (p->dll_major, p->dll_minor) <=
CYGWIN_VERSION_DLL_BAD_SIGNAL_MASK)
signal_shift_subtract = 0;
}
static NO_COPY STARTUPINFO si;
# define ciresrv ((struct child_info_fork *)(si.lpReserved2))
child_info_fork NO_COPY *child_proc_info = NULL;
static MEMORY_BASIC_INFORMATION sm;
#define EBP 6
#define ESP 7
extern __inline__ void
alloc_stack_hard_way (child_info_fork *ci, volatile char *b)
{
void *new_stack_pointer;
MEMORY_BASIC_INFORMATION m;
if (!VirtualAlloc (ci->stacktop,
(DWORD) ci->stackbottom - (DWORD) ci->stacktop,
MEM_RESERVE, PAGE_NOACCESS))
api_fatal ("fork: can't reserve memory for stack %p - %p, %E",
ci->stacktop, ci->stackbottom);
new_stack_pointer = (void *) ((LPBYTE) ci->stackbottom - ci->stacksize);
if (!VirtualAlloc (new_stack_pointer, ci->stacksize, MEM_COMMIT,
PAGE_EXECUTE_READWRITE))
api_fatal ("fork: can't commit memory for stack %p(%d), %E",
new_stack_pointer, ci->stacksize);
if (!VirtualQuery ((LPCVOID) new_stack_pointer, &m, sizeof m))
api_fatal ("fork: couldn't get new stack info, %E");
m.BaseAddress = (LPVOID)((DWORD)m.BaseAddress - 1);
if (!VirtualAlloc ((LPVOID) m.BaseAddress, 1, MEM_COMMIT,
PAGE_EXECUTE_READWRITE|PAGE_GUARD))
api_fatal ("fork: couldn't allocate new stack guard page %p, %E",
m.BaseAddress);
if (!VirtualQuery ((LPCVOID) m.BaseAddress, &m, sizeof m))
api_fatal ("fork: couldn't get new stack info, %E");
ci->stacktop = m.BaseAddress;
*b = 0;
}
/* extend the stack prior to fork longjmp */
extern __inline__ void
alloc_stack (child_info_fork *ci)
{
/* FIXME: adding 16384 seems to avoid a stack copy problem during
fork on Win95, but I don't know exactly why yet. DJ */
volatile char b[ci->stacksize + 16384];
if (ci->type == PROC_FORK)
ci->stacksize = 0; // flag to fork not to do any funny business
else
{
if (!VirtualQuery ((LPCVOID) &b, &sm, sizeof sm))
api_fatal ("fork: couldn't get stack info, %E");
if (sm.AllocationBase != ci->stacktop)
alloc_stack_hard_way (ci, b + sizeof(b) - 1);
else
ci->stacksize = 0;
}
return;
}
/* These must be static due to the way we have to deal with forked
processes. */
static NO_COPY LPBYTE info = NULL;
static NO_COPY int mypid = 0;
static int argc = 0;
static char **argv = NULL;
#ifdef _MT_SAFE
ResourceLocks _reslock NO_COPY;
MTinterface _mtinterf NO_COPY;
#endif
void
sigthread::init (const char *s)
{
lock = new_muto (FALSE, s);
id = GetCurrentThreadId ();
}
/* Take over from libc's crt0.o and start the application. Note the
various special cases when Cygwin DLL is being runtime loaded (as
opposed to being link-time loaded by Cygwin apps) from a non
cygwin app via LoadLibrary. */
static void
dll_crt0_1 ()
{
/* According to onno@stack.urc.tue.nl, the exception handler record must
be on the stack. */
/* FIXME: Verify forked children get their exception handler set up ok. */
exception_list cygwin_except_entry;
do_global_ctors (&__CTOR_LIST__, 1);
#ifdef DEBUGGING
if (child_proc_info)
switch (child_proc_info->type)
{
case PROC_FORK:
case PROC_FORK1:
ProtectHandle (child_proc_info->forker_finished);
case PROC_EXEC:
ProtectHandle (child_proc_info->subproc_ready);
}
ProtectHandle (hMainProc);
ProtectHandle (hMainThread);
#endif
regthread ("main", GetCurrentThreadId ());
check_sanity_and_sync (user_data);
/* Nasty static stuff needed by newlib -- point to a local copy of
the reent stuff.
Note: this MUST be done here (before the forkee code) as the
fork copy code doesn't copy the data in libccrt0.cc (that's why we
pass in the per_process struct into the .dll from libccrt0). */
*(user_data->impure_ptr_ptr) = &reent_data;
_impure_ptr = &reent_data;
#ifdef _MT_SAFE
user_data->resourcelocks = &_reslock;
user_data->resourcelocks->Init();
user_data->threadinterface = &_mtinterf;
user_data->threadinterface->Init0();
#endif
/* Set the os_being_run global. */
set_os_type ();
/* If we didn't call SetFileApisToOEM, console I/O calls would use a
different codepage than other Win32 API calls. In some languages
(not English), this would result in "cat > filename" creating a file
by a different name than if CreateFile was used to create filename.
SetFileApisToOEM prevents this problem by making all calls use the
OEM codepage. */
SetFileApisToOEM ();
/* Initialize the host dependent constants object. */
host_dependent.init ();
/* Initialize the cygwin subsystem if this is the first process,
or attach to the shared data structure if it's already running. */
shared_init ();
mainthread.init ("mainthread"); // For use in determining if signals
// should be blocked.
if (mypid)
set_myself (cygwin_shared->p[mypid]);
(void) SetErrorMode (SEM_FAILCRITICALERRORS);
/* Initialize the heap. */
heap_init ();
/* Initialize events. */
events_init ();
threadname_init ();
debug_init ();
/* Allow backup semantics. It's better done only once on process start
instead of each time a file is opened. */
set_process_privileges ();
/* Initialize SIGSEGV handling, etc... Because the exception handler
references data in the shared area, this must be done after
shared_init. */
init_exceptions (&cygwin_except_entry);
if (user_data->forkee)
{
/* If we've played with the stack, stacksize != 0. That means that
fork() was invoked from other than the main thread. Make sure that
frame pointer is referencing the new stack so that the OS knows what
to do when it needs to increase the size of the stack.
NOTE: Don't do anything that involves the stack until you've completed
this step. */
if (ciresrv->stacksize)
{
asm ("movl %0,%%fs:4" : : "r" (ciresrv->stackbottom));
asm ("movl %0,%%fs:8" : : "r" (ciresrv->stacktop));
}
longjmp (ciresrv->jmp, ciresrv->cygpid);
}
/* Initialize our process table entry. Don't use the parent info for
dynamically loaded case. */
pinfo_init ((dynamically_loaded) ? NULL : info);
if (!old_title && GetConsoleTitle (title_buf, TITLESIZE))
old_title = title_buf;
/* Nasty static stuff needed by newlib - initialize it.
Note that impure_ptr has already been set up to point to this above
NB. This *MUST* be done here, just after the forkee code as some
of the calls below (eg. uinfo_init) do stdio calls - this area must
be set to zero before then. */
#ifdef _MT_SAFE
user_data->threadinterface->ClearReent();
user_data->threadinterface->Init1();
#else
memset (&reent_data, 0, sizeof (reent_data));
reent_data._errno = 0;
reent_data._stdin = reent_data.__sf + 0;
reent_data._stdout = reent_data.__sf + 1;
reent_data._stderr = reent_data.__sf + 2;
#endif
char *line = GetCommandLineA ();
CharToOem (line, line);
line = strcpy ((char *) alloca (strlen (line) + 1), line);
/* Set new console title if appropriate. */
if (display_title && !dynamically_loaded)
{
char *cp = line;
if (strip_title_path)
for (char *ptr = cp; *ptr && *ptr != ' '; ptr++)
if (isdirsep (*ptr))
cp = ptr + 1;
set_console_title (cp);
}
/* Allocate dtable */
dtable_init ();
/* Initialize uid, gid. */
uinfo_init ();
/* beyond this we only do for cygwin apps or dlls */
if (dynamically_loaded)
return;
/* Initialize signal/subprocess handling. */
sigproc_init ();
/* Connect to tty. */
tty_init ();
/* Set up standard fds in file descriptor table. */
hinfo_init ();
/* Scan the command line and build argv. Expand wildcards if not
called from another cygwin process. */
build_argv (line, argv, argc,
NOTSTATE (myself, PID_CYGPARENT) && allow_glob);
/* Convert argv[0] to posix rules if it's currently blatantly
win32 style. */
if ((strchr (argv[0], ':')) || (strchr (argv[0], '\\')))
{
char *new_argv0 = (char *) alloca (MAX_PATH);
cygwin_conv_to_posix_path (argv[0], new_argv0);
argv[0] = new_argv0;
}
/* Set up __progname for getopt error call. */
__progname = argv[0];
/* Call init of loaded dlls. */
DllList::the().initAll();
set_errno (0);
debug_printf ("user_data->main %p", user_data->main);
/* Flush signals and ensure that signal thread is up and running. Can't
do this for noncygwin case since the signal thread is blocked due to
LoadLibrary serialization. */
if (!dynamically_loaded)
sig_send (NULL, __SIGFLUSH); /* also initializes uid, gid */
if (user_data->main && !dynamically_loaded)
exit (user_data->main (argc, argv, *user_data->envptr));
}
/* Wrap the real one, otherwise gdb gets confused about
two symbols with the same name, but different addresses.
UPTR is a pointer to global data that lives on the libc side of the
line [if one distinguishes the application from the dll]. */
void
dll_crt0 (per_process *uptr)
{
char zeros[sizeof (ciresrv->zero)] = {0};
/* Set the local copy of the pointer into the user space. */
user_data = uptr;
user_data->heapbase = user_data->heapptr = user_data->heaptop = NULL;
set_console_handler ();
if (!DuplicateHandle (GetCurrentProcess (), GetCurrentProcess (),
GetCurrentProcess (), &hMainProc, 0, FALSE,
DUPLICATE_SAME_ACCESS))
hMainProc = GetCurrentProcess ();
DuplicateHandle (hMainProc, GetCurrentThread (), hMainProc,
&hMainThread, 0, FALSE, DUPLICATE_SAME_ACCESS);
GetStartupInfo (&si);
if (si.cbReserved2 >= EXEC_MAGIC_SIZE &&
memcmp (ciresrv->zero, zeros, sizeof (zeros)) == 0)
{
switch (ciresrv->type)
{
case PROC_EXEC:
case PROC_SPAWN:
case PROC_FORK:
case PROC_FORK1:
{
HANDLE me = hMainProc;
child_proc_info = ciresrv;
mypid = child_proc_info->cygpid;
cygwin_shared_h = child_proc_info->shared_h;
console_shared_h = child_proc_info->console_h;
/* We don't want subprocesses to inherit this */
if (!dynamically_loaded)
{
if (!DuplicateHandle (me, child_proc_info->parent_alive,
me, &parent_alive, 0, 0,
DUPLICATE_SAME_ACCESS
| DUPLICATE_CLOSE_SOURCE))
system_printf ("parent_alive DuplicateHandle failed, %E");
}
else if (parent_alive)
parent_alive = NULL;
switch (child_proc_info->type)
{
case PROC_EXEC:
case PROC_SPAWN:
info = si.lpReserved2 + ciresrv->cb;
break;
case PROC_FORK:
case PROC_FORK1:
user_data->forkee = child_proc_info->cygpid;
user_data->heaptop = child_proc_info->heaptop;
user_data->heapbase = child_proc_info->heapbase;
user_data->heapptr = child_proc_info->heapptr;
alloc_stack (ciresrv); // may never return
}
break;
}
default:
if ((ciresrv->type & PROC_MAGIC_MASK) == PROC_MAGIC_GENERIC)
api_fatal ("conflicting versions of cygwin1.dll detected. Use only the most recent version.\n");
}
}
dll_crt0_1 ();
}
extern "C" void *export_malloc (unsigned int);
extern "C" void export_free (void *);
extern "C" void *export_realloc (void *, unsigned int);
extern "C" void *export_calloc (unsigned int, unsigned int);
/* This must be called by anyone who uses LoadLibrary to load cygwin1.dll */
extern "C" void cygwin_dll_init ();
void
cygwin_dll_init ()
{
static struct _reent *temp_impure;
static char **envp;
static int _fmode;
user_data->heapbase = user_data->heapptr = user_data->heaptop = NULL;
if (!DuplicateHandle (GetCurrentProcess (), GetCurrentProcess (),
GetCurrentProcess (), &hMainProc, 0, FALSE,
DUPLICATE_SAME_ACCESS))
hMainProc = GetCurrentProcess ();
DuplicateHandle (hMainProc, GetCurrentThread (), hMainProc,
&hMainThread, 0, FALSE, DUPLICATE_SAME_ACCESS);
user_data->dll_major = CYGWIN_VERSION_DLL_MAJOR;
user_data->dll_minor = CYGWIN_VERSION_DLL_MINOR;
user_data->api_major = CYGWIN_VERSION_API_MAJOR;
user_data->api_minor = CYGWIN_VERSION_API_MINOR;
user_data->magic_biscuit = sizeof (per_process);
user_data->impure_ptr_ptr = &temp_impure;
user_data->envptr = &envp;
user_data->fmode_ptr = &_fmode;
user_data->malloc = &export_malloc;
user_data->free = &export_free;
user_data->realloc = &export_realloc;
user_data->calloc = &export_calloc;
dll_crt0_1 ();
}
extern "C" void
__main (void)
{
do_global_ctors (user_data->ctors, FALSE);
}
enum
{
ES_SIGNAL = 1,
ES_CLOSEALL = 2,
ES_SIGPROCTERMINATE = 3
};
extern "C" void __stdcall
do_exit (int status)
{
BOOL cleanup_pinfo;
UINT n = (UINT) status;
static int NO_COPY exit_state = 0;
syscall_printf ("do_exit (%d)", n);
vfork_save *vf = vfork_storage.val ();
if (vf != NULL && vf->pid < 0)
{
vf->pid = status < 0 ? status : -status;
longjmp (vf->j, 1);
}
if (exit_state < ES_SIGNAL)
{
exit_state = ES_SIGNAL;
if (!(n & EXIT_REPARENTING))
{
signal (SIGCHLD, SIG_IGN);
signal (SIGHUP, SIG_IGN);
signal (SIGINT, SIG_IGN);
signal (SIGQUIT, SIG_IGN);
}
}
if ((hExeced && hExeced != INVALID_HANDLE_VALUE) || (n & EXIT_NOCLOSEALL))
n &= ~EXIT_NOCLOSEALL;
else if (exit_state < ES_CLOSEALL)
{
exit_state = ES_CLOSEALL;
close_all_files ();
}
if (exit_state < ES_SIGPROCTERMINATE)
{
exit_state = ES_SIGPROCTERMINATE;
sigproc_terminate ();
}
if (n & EXIT_REPARENTING)
{
n &= ~EXIT_REPARENTING;
cleanup_pinfo = FALSE;
}
else
{
myself->stopsig = 0;
/* restore console title */
if (old_title && display_title)
set_console_title (old_title);
/* Kill orphaned children on group leader exit */
if (myself->pid == myself->pgid)
{
sigproc_printf ("%d == pgrp %d, send SIG{HUP,CONT} to stopped children",
myself->pid, myself->pgid);
kill_pgrp (myself->pgid, -SIGHUP);
}
/* Kill the foreground process group on session leader exit */
if (getpgrp () > 0 && myself->pid == myself->sid && tty_attached (myself))
{
tty *tp = cygwin_shared->tty[myself->ctty];
sigproc_printf ("%d == sid %d, send SIGHUP to children",
myself->pid, myself->sid);
if (tp->getsid () == myself->sid)
kill (-tp->getpgid (), SIGHUP);
}
tty_terminate ();
cleanup_pinfo = TRUE;
}
window_terminate ();
fill_rusage (&myself->rusage_self, hMainProc);
events_terminate ();
if (hExeced && hExeced != INVALID_HANDLE_VALUE)
{
debug_printf ("Killing(%d) non-cygwin process, handle %p", n, hExeced);
TerminateProcess (hExeced, n);
ForceCloseHandle1 (hExeced, childhProc);
}
if (cleanup_pinfo)
myself->record_death (); // Locks pinfo mutex
else
sigproc_printf ("not cleanup_pinfo");
shared_terminate ();
sigproc_printf ("calling ExitProcess %d", n);
minimal_printf ("winpid %d, exit %d", GetCurrentProcessId (), n);
ExitProcess (n);
}
extern "C" void
_exit (int n)
{
do_exit ((DWORD) n & 0xffff);
}
extern "C" void
__api_fatal (const char *fmt, ...)
{
char buf[4096];
va_list ap;
va_start (ap, fmt);
__small_vsprintf (buf, fmt, ap);
va_end (ap);
small_printf ("%s\n", buf);
/* We are going down without mercy. Make sure we reset
our process_state. */
if (user_data != NULL)
{
sigproc_terminate ();
myself->record_death (FALSE);
}
#ifdef DEBUGGING
(void) try_to_debug ();
#endif
ExitProcess (1);
}
extern "C" {
/* This struct is unused, but it illustrates the layout of a DLL
information block. */
struct DLLinfo
{
char jmpinst[4];
HANDLE h;
DWORD flag;
char name[0];
};
/* FIXME: This is not thread-safe! */
__asm__ ("
msg1:
.ascii \"couldn't dynamically determine load address for '%s' (handle %p), %E\\0\"
.align 32
noload:
popl %edx # Get the address of the information block
movl 8(%edx),%eax # Should we 'ignore' the lack
test $1,%eax # of this function?
jz 1f # Nope.
decl %eax # Yes. This is the # of bytes + 1
popl %edx # Caller's caller
addl %eax,%esp # Pop off bytes
xor %eax,%eax # Zero functional return
jmp *%edx # Return
1:
movl 4(%edx),%eax # Handle value
pushl (%eax)
leal 12(%edx),%eax # Location of name of function
push %eax
push $msg1 # The message
call ___api_fatal # Print message. Never returns
.globl cygwin_dll_func_load
cygwin_dll_func_load:
movl (%esp),%eax # 'Return address' contains load info
addl $12,%eax # Address of name of function to load
pushl %eax # Second argument
movl -8(%eax),%eax # Address of Handle to DLL
pushl (%eax) # Handle to DLL
call _GetProcAddress@8# Load it
test %eax,%eax # Success?
jne gotit # Yes
jmp noload # Issue an error or return
gotit:
popl %ecx # Pointer to 'return address'
movb $0xe0,-1(%ecx) # Turn preceding call to a jmp *%eax
movl %eax,(%ecx) # Point dispatch to address loaded above
jmp *%eax
");
LoadDLLinitfunc (user32)
{
HANDLE h;
if ((h = LoadLibrary ("user32.dll")) != NULL)
user32_handle = h;
else if (!user32_handle)
api_fatal ("could not load user32.dll, %E");
return 0; /* Already done by another thread? */
}
LoadDLLinitfunc (advapi32)
{
HANDLE h;
if ((h = LoadLibrary ("advapi32.dll")) != NULL)
advapi32_handle = h;
else if (!advapi32_handle)
api_fatal ("could not load advapi32.dll, %E");
return 0; /* Already done by another thread? */
}
static void dummy_autoload (void) __attribute__ ((unused));
static void
dummy_autoload (void)
{
LoadDLLinit (user32)
LoadDLLfunc (CharToOemA, 8, user32)
LoadDLLfunc (CreateWindowExA, 48, user32)
LoadDLLfunc (DefWindowProcA, 16, user32)
LoadDLLfunc (DispatchMessageA, 4, user32)
LoadDLLfunc (FindWindowA, 8, user32)
LoadDLLfunc (GetMessageA, 16, user32)
LoadDLLfunc (GetProcessWindowStation, 0, user32)
LoadDLLfunc (GetThreadDesktop, 4, user32)
LoadDLLfunc (GetUserObjectInformationA, 20, user32)
LoadDLLfunc (KillTimer, 8, user32)
LoadDLLfunc (MessageBoxA, 16, user32)
LoadDLLfunc (MsgWaitForMultipleObjects, 20, user32)
LoadDLLfunc (OemToCharA, 8, user32)
LoadDLLfunc (OemToCharW, 8, user32)
LoadDLLfunc (PeekMessageA, 20, user32)
LoadDLLfunc (PostMessageA, 16, user32)
LoadDLLfunc (PostQuitMessage, 4, user32)
LoadDLLfunc (RegisterClassA, 4, user32)
LoadDLLfunc (SendMessageA, 16, user32)
LoadDLLfunc (SetTimer, 16, user32)
LoadDLLfunc (SetUserObjectSecurity, 12, user32)
LoadDLLinit (advapi32)
LoadDLLfunc (AddAccessAllowedAce, 16, advapi32)
LoadDLLfunc (AddAccessDeniedAce, 16, advapi32)
LoadDLLfunc (AddAce, 20, advapi32)
LoadDLLfunc (AdjustTokenPrivileges, 24, advapi32)
LoadDLLfunc (CopySid, 12, advapi32)
LoadDLLfunc (CreateProcessAsUserA, 44, advapi32)
LoadDLLfuncEx (CryptAcquireContextA, 20, advapi32, 1)
LoadDLLfuncEx (CryptGenRandom, 12, advapi32, 1)
LoadDLLfuncEx (CryptReleaseContext, 8, advapi32, 1)
LoadDLLfunc (DeregisterEventSource, 4, advapi32)
LoadDLLfunc (EqualSid, 8, advapi32)
LoadDLLfunc (GetAce, 12, advapi32)
LoadDLLfunc (GetFileSecurityA, 20, advapi32)
LoadDLLfunc (GetLengthSid, 4, advapi32)
LoadDLLfunc (GetSecurityDescriptorDacl, 16, advapi32)
LoadDLLfunc (GetSecurityDescriptorGroup, 12, advapi32)
LoadDLLfunc (GetSecurityDescriptorOwner, 12, advapi32)
LoadDLLfunc (GetSidSubAuthority, 8, advapi32)
LoadDLLfunc (GetSidSubAuthorityCount, 4, advapi32)
LoadDLLfunc (GetTokenInformation, 20, advapi32)
LoadDLLfunc (GetUserNameA, 8, advapi32)
LoadDLLfunc (InitializeAcl, 12, advapi32)
LoadDLLfunc (InitializeSecurityDescriptor, 8, advapi32)
LoadDLLfunc (InitializeSid, 12, advapi32)
LoadDLLfunc (IsValidSid, 4, advapi32)
LoadDLLfunc (LookupAccountNameA, 28, advapi32)
LoadDLLfunc (LookupAccountSidA, 28, advapi32)
LoadDLLfunc (LookupPrivilegeValueA, 12, advapi32)
LoadDLLfunc (MakeSelfRelativeSD, 12, advapi32)
LoadDLLfunc (OpenProcessToken, 12, advapi32)
LoadDLLfunc (RegCloseKey, 4, advapi32)
LoadDLLfunc (RegCreateKeyExA, 36, advapi32)
LoadDLLfunc (RegDeleteKeyA, 8, advapi32)
LoadDLLfunc (RegEnumKeyExA, 32, advapi32)
LoadDLLfunc (RegOpenKeyExA, 20, advapi32)
LoadDLLfunc (RegQueryValueExA, 24, advapi32)
LoadDLLfunc (RegSetValueExA, 24, advapi32)
LoadDLLfunc (RegisterEventSourceA, 8, advapi32)
LoadDLLfunc (ReportEventA, 36, advapi32)
LoadDLLfunc (SetKernelObjectSecurity, 12, advapi32)
LoadDLLfunc (SetSecurityDescriptorDacl, 16, advapi32)
LoadDLLfunc (SetSecurityDescriptorGroup, 12, advapi32)
LoadDLLfunc (SetSecurityDescriptorOwner, 12, advapi32)
}
}