/* dcrt0.cc -- essentially the main() for the Cygwin dll 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 "miscfuncs.h" #include #include #include "glob.h" #include #include #include #include "environ.h" #include "sigproc.h" #include "pinfo.h" #include "cygerrno.h" #define NEED_VFORK #include "perprocess.h" #include "path.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "child_info_magic.h" #include "cygtls.h" #include "shared_info.h" #include "cygwin_version.h" #include "dll_init.h" #include "heap.h" #include "tls_pbuf.h" #include "exception.h" #include "cygxdr.h" #include "fenv.h" #include "ntdll.h" #define MAX_AT_FILE_LEVEL 10 #define PREMAIN_LEN (sizeof (user_data->premain) / sizeof (user_data->premain[0])) extern "C" void cygwin_exit (int) __attribute__ ((noreturn)); extern "C" void __sinit (_reent *); static int NO_COPY envc; static char NO_COPY **envp; bool NO_COPY jit_debug; static void do_global_dtors () { void (**pfunc) () = user_data->dtors; if (pfunc) { user_data->dtors = NULL; while (*++pfunc) (*pfunc) (); } } static void __stdcall do_global_ctors (void (**in_pfunc)(), int force) { if (!force && in_forkee) return; // inherit constructed stuff from parent pid /* 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) (); } /* * 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 bool __stdcall insert_file (char *name, char *&cmd) { HANDLE f; DWORD size; tmp_pathbuf tp; PWCHAR wname = tp.w_get (); sys_mbstowcs (wname, NT_MAX_PATH, name + 1); f = CreateFileW (wname, GENERIC_READ, /* open for reading */ FILE_SHARE_VALID_FLAGS, /* share for reading */ &sec_none_nih, /* default 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) { CloseHandle (f); 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) { CloseHandle (f); 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)) { free (tmp); 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 (!winshell) { char *p; strcpy (cmd, cmd + 1); if (*(p = strchrnul (cmd, quote))) strcpy (p, p + 1); return p; } const char *s = quote == '\'' ? "'" : "\\\""; /* This must have been run from a Windows shell, so preserve quotes for globify to play with later. */ while (*cmd && *++cmd) if ((p = strpbrk (cmd, s)) == NULL) { cmd = strchr (cmd, '\0'); // no closing quote break; } else if (*p == '\\') cmd = ++p; else if (quote == '"' && p[1] == '"') { *p = '\\'; cmd = ++p; // a quoted quote } else { cmd = p + 1; // point to after end 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. */ /* Either X:[...] or \\server\[...] */ #define is_dos_path(s) (isdrive(s) \ || ((s)[0] == '\\' \ && (s)[1] == '\\' \ && isalpha ((s)[2]) \ && strchr ((s) + 3, '\\'))) 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 = is_dos_path (word); if (!dos_spec && isquote (*word) && word[1] && word[2]) dos_spec = is_dos_path (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++ = '\\'; size_t cnt = isascii (*s) ? 1 : mbtowc (NULL, s, MB_CUR_MAX); if (cnt <= 1 || cnt == (size_t)-1) *p++ = *s; else { --s; while (cnt-- > 0) *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++, *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; /* Handle quoting. Only strip off quotes if the parent is a Cygwin process, or if the word starts with a '@'. In this case, the insert_file function needs an unquoted DOS filename and globbing isn't performed anyway. */ cmd = quoted (cmd, winshell && argc > 0 && *word != '@'); } 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'", argc, word); argv[argc++] = word; } } if (argv) argv[argc] = NULL; debug_printf ("argc %d", 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 %u < %u", 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 %u != %u", 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 %u > %u", p->api_major, cygwin_version.api_major); #ifndef __x86_64__ /* This is a kludge to work around a version of _cygwin_common_crt0 which overwrote the cxx_malloc field with the local DLL copy. Hilarity ensues if the DLL is not loaded while the process is forking. */ __cygwin_user_data.cxx_malloc = &default_cygwin_cxx_malloc; #endif } child_info NO_COPY *child_proc_info; /* Extend the stack prior to fork longjmp. */ void child_info_fork::alloc_stack () { PTEB teb = NtCurrentTeb (); if (teb->Tib.StackBase != stackbase) { void *stack_ptr; size_t stacksize; /* If guardsize is -1, we have been started from a pthread with an application-provided stack, and the stack has just to be used as is. */ if (guardsize == (size_t) -1) return; /* Reserve entire stack. */ stacksize = (PBYTE) stackbase - (PBYTE) stackaddr; if (!VirtualAlloc (stackaddr, stacksize, MEM_RESERVE, PAGE_NOACCESS)) { api_fatal ("fork: can't reserve memory for parent stack " "%p - %p, (child has %p - %p), %E", stackaddr, stackbase, teb->DeallocationStack, teb->Tib.StackBase); } /* Commit the area commited in parent. */ stacksize = (PBYTE) stackbase - (PBYTE) stacklimit; stack_ptr = VirtualAlloc (stacklimit, stacksize, MEM_COMMIT, PAGE_READWRITE); if (!stack_ptr) api_fatal ("can't commit memory for stack %p(%ly), %E", stacklimit, stacksize); /* Set up guardpages. */ ULONG real_guardsize = guardsize ? roundup2 (guardsize, wincap.page_size ()) : wincap.def_guard_page_size (); if (stack_ptr > stackaddr) { stack_ptr = (void *) ((PBYTE) stack_ptr - real_guardsize); if (!VirtualAlloc (stack_ptr, real_guardsize, MEM_COMMIT, PAGE_READWRITE | PAGE_GUARD)) api_fatal ("fork: couldn't allocate new stack guard page %p, %E", stack_ptr); } /* Set thread stack guarantee matching the guardsize. Note that the guardsize is one page bigger than the guarantee. */ if (real_guardsize > wincap.def_guard_page_size ()) { real_guardsize -= wincap.page_size (); SetThreadStackGuarantee (&real_guardsize); } } else { /* Fork has been called from main thread. Simply commit the region of the stack commited in the parent but not yet commited in the child and create new guardpages. */ if (NtCurrentTeb ()->Tib.StackLimit > stacklimit) { SIZE_T commitsize = (PBYTE) NtCurrentTeb ()->Tib.StackLimit - (PBYTE) stacklimit; if (!VirtualAlloc (stacklimit, commitsize, MEM_COMMIT, PAGE_READWRITE)) api_fatal ("can't commit child memory for stack %p(%ly), %E", stacklimit, commitsize); PVOID guardpage = (PBYTE) stacklimit - wincap.def_guard_page_size (); if (!VirtualAlloc (guardpage, wincap.def_guard_page_size (), MEM_COMMIT, PAGE_READWRITE | PAGE_GUARD)) api_fatal ("fork: couldn't allocate new stack guard page %p, %E", guardpage); NtCurrentTeb ()->Tib.StackLimit = stacklimit; } /* This only affects forked children of a process started from a native 64 bit process, but it doesn't hurt to do it unconditionally. Fix StackBase in the child to be the same as in the parent, so that the computation of _my_tls is correct. */ teb->Tib.StackBase = (PVOID) stackbase; } } extern "C" void break_here () { static int NO_COPY sent_break; if (!sent_break++) DebugBreak (); debug_printf ("break here"); } static void initial_env () { if (GetEnvironmentVariableA ("CYGWIN_TESTING", NULL, 0)) _cygwin_testing = 1; #ifdef DEBUGGING char buf[PATH_MAX]; if (GetEnvironmentVariableA ("CYGWIN_DEBUG", buf, sizeof (buf) - 1)) { char buf1[PATH_MAX]; GetModuleFileName (NULL, buf1, PATH_MAX); char *p = strpbrk (buf, ":="); if (!p) p = (char *) "gdb.exe -nw"; else *p++ = '\0'; if (strcasestr (buf1, buf)) { extern PWCHAR debugger_command; debugger_command = (PWCHAR) HeapAlloc (GetProcessHeap (), 0, (2 * NT_MAX_PATH + 20) * sizeof (WCHAR)); if (!debugger_command) return; error_start_init (p); jit_debug = true; try_to_debug (); console_printf ("*** Sending Break. gdb may issue spurious SIGTRAP message.\n"); break_here (); } } #endif } child_info * get_cygwin_startup_info () { STARTUPINFO si; GetStartupInfo (&si); child_info *res = (child_info *) si.lpReserved2; if (si.cbReserved2 < EXEC_MAGIC_SIZE || !res || res->intro != PROC_MAGIC_GENERIC || res->magic != CHILD_INFO_MAGIC) { strace.activate (false); res = NULL; } else { if ((res->intro & OPROC_MAGIC_MASK) == OPROC_MAGIC_GENERIC) multiple_cygwin_problem ("proc intro", res->intro, 0); else if (res->cygheap != (void *) &_cygheap_start) multiple_cygwin_problem ("cygheap base", (uintptr_t) res->cygheap, (uintptr_t) &_cygheap_start); unsigned should_be_cb = 0; switch (res->type) { case _CH_FORK: in_forkee = true; should_be_cb = sizeof (child_info_fork); /* fall through */; case _CH_SPAWN: case _CH_EXEC: if (!should_be_cb) should_be_cb = sizeof (child_info_spawn); if (should_be_cb != res->cb) multiple_cygwin_problem ("proc size", res->cb, should_be_cb); else if (sizeof (fhandler_union) != res->fhandler_union_cb) multiple_cygwin_problem ("fhandler size", res->fhandler_union_cb, sizeof (fhandler_union)); if (res->isstraced ()) { while (!being_debugged ()) yield (); strace.activate (res->type == _CH_FORK); } break; default: system_printf ("unknown exec type %u", res->type); /* intentionally fall through */ case _CH_WHOOPS: res = NULL; break; } } return res; } #ifdef __x86_64__ #define dll_data_start &__data_start__ #define dll_data_end &__data_end__ #define dll_bss_start &__bss_start__ #define dll_bss_end &__bss_end__ #else #define dll_data_start &_data_start__ #define dll_data_end &_data_end__ #define dll_bss_start &_bss_start__ #define dll_bss_end &_bss_end__ #endif void child_info_fork::handle_fork () { cygheap_fixup_in_child (false); memory_init (); myself.thisproc (NULL); myself->uid = cygheap->user.real_uid; myself->gid = cygheap->user.real_gid; child_copy (parent, false, "dll data", dll_data_start, dll_data_end, "dll bss", dll_bss_start, dll_bss_end, "user heap", cygheap->user_heap.base, cygheap->user_heap.ptr, NULL); /* If my_wr_proc_pipe != NULL then it's a leftover handle from a previously forked process. Close it now or suffer confusion with the parent of our parent. */ if (my_wr_proc_pipe) ForceCloseHandle1 (my_wr_proc_pipe, wr_proc_pipe); /* Setup our write end of the process pipe. Clear the one in the structure. The destructor should never be called for this but, it can't hurt to be safe. */ my_wr_proc_pipe = wr_proc_pipe; rd_proc_pipe = wr_proc_pipe = NULL; /* Do the relocations here. These will actually likely be overwritten by the below child_copy but we do them here in case there is a read-only section which does not get copied by fork. */ _pei386_runtime_relocator (user_data); /* step 2 now that the dll has its heap filled in, we can fill in the user's data and bss since user_data is now filled out. */ child_copy (parent, false, "data", user_data->data_start, user_data->data_end, "bss", user_data->bss_start, user_data->bss_end, NULL); if (fixup_mmaps_after_fork (parent)) api_fatal ("recreate_mmaps_after_fork_failed"); } bool child_info_spawn::get_parent_handle () { parent = OpenProcess (PROCESS_VM_READ, false, parent_winpid); moreinfo->myself_pinfo = NULL; return !!parent; } void child_info_spawn::handle_spawn () { extern void fixup_lockf_after_exec (bool); HANDLE h; if (!dynamically_loaded || get_parent_handle ()) { cygheap_fixup_in_child (true); memory_init (); } if (!moreinfo->myself_pinfo || !DuplicateHandle (GetCurrentProcess (), moreinfo->myself_pinfo, GetCurrentProcess (), &h, 0, FALSE, DUPLICATE_SAME_ACCESS | DUPLICATE_CLOSE_SOURCE)) h = NULL; /* Setup our write end of the process pipe. Clear the one in the structure. The destructor should never be called for this but, it can't hurt to be safe. */ my_wr_proc_pipe = wr_proc_pipe; rd_proc_pipe = wr_proc_pipe = NULL; myself.thisproc (h); __argc = moreinfo->argc; __argv = moreinfo->argv; envp = moreinfo->envp; envc = moreinfo->envc; if (!dynamically_loaded) cygheap->fdtab.fixup_after_exec (); if (__stdin >= 0) cygheap->fdtab.move_fd (__stdin, 0); if (__stdout >= 0) cygheap->fdtab.move_fd (__stdout, 1); cygheap->user.groups.clear_supp (); /* If we're execing we may have "inherited" a list of children forked by the previous process executing under this pid. Reattach them here so that we can wait for them. */ if (type == _CH_EXEC) reattach_children (); ready (true); /* Keep pointer to parent open if we've execed so that pid will not be reused. Otherwise, we no longer need this handle so close it. Need to do this after debug_fixup_after_fork_exec or DEBUGGING handling of handles might get confused. */ if (type != _CH_EXEC && child_proc_info->parent) { CloseHandle (child_proc_info->parent); child_proc_info->parent = NULL; } signal_fixup_after_exec (); fixup_lockf_after_exec (type == _CH_EXEC); } /* Retrieve and store system directory for later use. Note that the directory is stored with a trailing backslash! */ static void init_windows_system_directory () { if (!windows_system_directory_length) { windows_system_directory_length = GetSystemDirectoryW (windows_system_directory, MAX_PATH); if (windows_system_directory_length == 0) api_fatal ("can't find windows system directory"); windows_system_directory[windows_system_directory_length++] = L'\\'; windows_system_directory[windows_system_directory_length] = L'\0'; #ifndef __x86_64__ system_wow64_directory_length = GetSystemWow64DirectoryW (system_wow64_directory, MAX_PATH); if (system_wow64_directory_length) { system_wow64_directory[system_wow64_directory_length++] = L'\\'; system_wow64_directory[system_wow64_directory_length] = L'\0'; } #endif /* !__x86_64__ */ } } void dll_crt0_0 () { wincap.init (); GetModuleFileNameW (NULL, global_progname, NT_MAX_PATH); child_proc_info = get_cygwin_startup_info (); init_windows_system_directory (); initial_env (); SetErrorMode (SEM_FAILCRITICALERRORS | SEM_NOGPFAULTERRORBOX); lock_process::init (); _impure_ptr = _GLOBAL_REENT; _impure_ptr->_stdin = &_impure_ptr->__sf[0]; _impure_ptr->_stdout = &_impure_ptr->__sf[1]; _impure_ptr->_stderr = &_impure_ptr->__sf[2]; user_data->impure_ptr = _impure_ptr; user_data->impure_ptr_ptr = &_impure_ptr; DuplicateHandle (GetCurrentProcess (), GetCurrentThread (), GetCurrentProcess (), &hMainThread, 0, false, DUPLICATE_SAME_ACCESS); NtOpenProcessToken (NtCurrentProcess (), MAXIMUM_ALLOWED, &hProcToken); set_cygwin_privileges (hProcToken); device::init (); do_global_ctors (&__CTOR_LIST__, 1); cygthread::init (); if (!child_proc_info) { setup_cygheap (); memory_init (); } else { cygwin_user_h = child_proc_info->user_h; switch (child_proc_info->type) { case _CH_FORK: fork_info->handle_fork (); break; case _CH_SPAWN: case _CH_EXEC: spawn_info->handle_spawn (); break; } } user_data->threadinterface->Init (); _main_tls = &_my_tls; /* Initialize signal processing here, early, in the hopes that the creation of a thread early in the process will cause more predictability in memory layout for the main thread. */ if (!dynamically_loaded) sigproc_init (); #ifdef __x86_64__ /* See comment preceeding myfault_altstack_handler in exception.cc. */ AddVectoredContinueHandler (0, myfault_altstack_handler); #endif debug_printf ("finished dll_crt0_0 initialization"); } static inline void main_thread_sinit () { __sinit (_impure_ptr); /* At this point, _impure_ptr == _global_impure_ptr == _GLOBAL_REENT is initialized, but _REENT == _my_tls.local_clib doesn't know about it. It has been copied over from _GLOBAL_REENT in _cygtls::init_thread *before* the initialization took place. As soon as the main thread calls a stdio function, this would be rectified. But if another thread calls a stdio function on stdin/out/err before the main thread does, all the required initialization of stdin/out/err will be done, but _REENT->__sdidinit is *still* 0. This in turn will result in a call to __sinit in the wrong spot. The input or output buffer will be NULLed and nothing is read or written in the first stdio function call in the main thread. To fix this issue we have to copy over the relevant part of _GLOBAL_REENT to _REENT here again. */ _REENT->__sdidinit = -1; _REENT->__cleanup = _GLOBAL_REENT->__cleanup; } /* 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. */ void dll_crt0_1 (void *) { extern void initial_setlocale (); _my_tls.incyg++; /* Inherit "parent" exec'ed process sigmask */ if (spawn_info && !in_forkee) _my_tls.sigmask = spawn_info->moreinfo->sigmask; if (dynamically_loaded) sigproc_init (); check_sanity_and_sync (user_data); /* Initialize malloc and then call user_shared_initialize since it relies on a functioning malloc and it's possible that the user's program may have overridden malloc. We only know about that at this stage, unfortunately. */ malloc_init (); user_shared->initialize (); #ifdef CYGHEAP_DEBUG int i = 0; const int n = 2 * 1024 * 1024; while (i--) { void *p = cmalloc (HEAP_STR, n); if (p) small_printf ("cmalloc returns %p\n", cmalloc (HEAP_STR, n)); else { small_printf ("total allocated %y\n", (i - 1) * n); break; } } #endif ProtectHandle (hMainThread); cygheap->cwd.init (); /* Initialize pthread mainthread when not forked and it is safe to call new, otherwise it is reinitalized in fixup_after_fork */ if (!in_forkee) { pthread::init_mainthread (); _pei386_runtime_relocator (user_data); } #ifdef DEBUGGING strace.microseconds (); #endif /* Initialize debug muto, if DLL is built with --enable-debugging. Need to do this before any helper threads start. */ debug_init (); cygbench ("pre-forkee"); if (in_forkee) { /* Make sure to restore the TEB's stack info. If guardsize is -1 the stack has been provided by the application and must not be deallocated automagically when the thread exits. NOTE: Don't do anything that involves the stack until you've completed this step. */ PTEB teb = NtCurrentTeb (); teb->Tib.StackBase = (PVOID) fork_info->stackbase; teb->Tib.StackLimit = (PVOID) fork_info->stacklimit; teb->DeallocationStack = (fork_info->guardsize == (size_t) -1) ? NULL : (PVOID) fork_info->stackaddr; /* Not resetting _my_tls.incyg here because presumably fork will overwrite it with the value of the forker and all will be good. */ longjmp (fork_info->jmp, true); } main_thread_sinit (); #ifdef DEBUGGING { extern void fork_init (); fork_init (); } #endif pinfo_init (envp, envc); strace.dll_info (); /* Allocate cygheap->fdtab */ dtable_init (); /* Set internal locale to the environment settings. */ initial_setlocale (); uinfo_init (); /* initialize user info */ /* Connect to tty. */ tty::init_session (); if (!__argc) { PWCHAR wline = GetCommandLineW (); size_t size = sys_wcstombs_no_path (NULL, 0, wline) + 1; char *line = (char *) alloca (size); sys_wcstombs_no_path (line, size, wline); /* 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 *) malloc (NT_MAX_PATH); cygwin_conv_path (CCP_WIN_A_TO_POSIX | CCP_RELATIVE, __argv[0], new_argv0, NT_MAX_PATH); __argv[0] = (char *) realloc (new_argv0, strlen (new_argv0) + 1); } } __argc_safe = __argc; if (user_data->premain[0]) for (unsigned int i = 0; i < PREMAIN_LEN / 2; i++) user_data->premain[i] (__argc, __argv, user_data); /* Set up standard fds in file descriptor table. */ cygheap->fdtab.stdio_init (); /* Set up __progname for getopt error call. */ if (__argv[0] && (__progname = strrchr (__argv[0], '/'))) ++__progname; else __progname = __argv[0]; program_invocation_name = __argv[0]; program_invocation_short_name = __progname; if (__progname) { char *cp = strchr (__progname, '\0') - 4; if (cp > __progname && ascii_strcasematch (cp, ".exe")) *cp = '\0'; } (void) xdr_set_vprintf (&cygxdr_vwarnx); cygwin_finished_initializing = true; /* Call init of loaded dlls. */ dlls.init (); /* Execute any specified "premain" functions */ if (user_data->premain[PREMAIN_LEN / 2]) for (unsigned int i = PREMAIN_LEN / 2; i < PREMAIN_LEN; i++) user_data->premain[i] (__argc, __argv, user_data); set_errno (0); if (dynamically_loaded) { _setlocale_r (_REENT, LC_CTYPE, "C"); return; } /* Disable case-insensitive globbing */ ignore_case_with_glob = false; cygbench (__progname); ld_preload (); /* Per POSIX set the default application locale back to "C". */ _setlocale_r (_REENT, LC_CTYPE, "C"); if (!user_data->main) { /* Handle any signals which may have arrived */ _my_tls.call_signal_handler (); _my_tls.incyg--; /* Not in Cygwin anymore */ } else { /* Create a copy of Cygwin's version of __argv so that, if the user makes a change to an element of argv[] it does not affect Cygwin's argv. Changing the the contents of what argv[n] points to will still affect Cygwin. This is similar (but not exactly like) Linux. */ char *newargv[__argc + 1]; char **nav = newargv; char **oav = __argv; while ((*nav++ = *oav++) != NULL) continue; /* Handle any signals which may have arrived */ sig_dispatch_pending (false); _my_tls.call_signal_handler (); _my_tls.incyg--; /* Not in Cygwin anymore */ #ifdef __x86_64__ cygwin_exit (user_data->main (__argc, newargv, __cygwin_environ)); #else cygwin_exit (user_data->main (__argc, newargv, *user_data->envptr)); #endif } __asm__ (" \n\ .global _cygwin_exit_return \n\ .global __cygwin_exit_return \n\ _cygwin_exit_return: \n\ __cygwin_exit_return: \n\ nop \n\ "); } extern "C" void __stdcall _dll_crt0 () { #ifdef __x86_64__ /* Starting with Windows 10 rel 1511, the main stack of an application is not reproducible if a 64 bit process has been started from a 32 bit process. Given that we have enough virtual address space on 64 bit anyway, we now always move the main thread stack to the stack area reserved for pthread stacks. This allows a reproducible stack space under our own control and avoids collision with the OS. */ if (!dynamically_loaded) { if (!in_forkee || fork_info->from_main) { /* Must be static since it's referenced after the stack and frame pointer registers have been changed. */ static PVOID allocationbase; SIZE_T commitsize = in_forkee ? (PBYTE) fork_info->stackbase - (PBYTE) fork_info->stacklimit : 0; PVOID stackaddr = create_new_main_thread_stack (allocationbase, commitsize); if (stackaddr) { /* Set stack pointer to new address. Set frame pointer to stack pointer and subtract 32 bytes for shadow space. */ __asm__ ("\n\ movq %[ADDR], %%rsp \n\ movq %%rsp, %%rbp \n\ subq $32,%%rsp \n" : : [ADDR] "r" (stackaddr)); /* We're on the new stack now. Free up space taken by the former main thread stack and set DeallocationStack correctly. */ VirtualFree (NtCurrentTeb ()->DeallocationStack, 0, MEM_RELEASE); NtCurrentTeb ()->DeallocationStack = allocationbase; } } else fork_info->alloc_stack (); } #else main_environ = user_data->envptr; if (in_forkee) fork_info->alloc_stack (); #endif _feinitialise (); _main_tls = &_my_tls; _main_tls->call ((DWORD (*) (void *, void *)) dll_crt0_1, NULL); } void dll_crt0 (per_process *uptr) { /* Set the local copy of the pointer into the user space. */ if (!in_forkee && uptr && uptr != user_data) { memcpy (user_data, uptr, per_process_overwrite); *(user_data->impure_ptr_ptr) = _GLOBAL_REENT; } _dll_crt0 (); } /* This must be called by anyone who uses LoadLibrary to load cygwin1.dll. You must have CYGTLS_PADSIZE bytes reserved at the bottom of the stack calling this function, and that storage must not be overwritten until you unload cygwin1.dll, as it is used for _my_tls. It is best to load cygwin1.dll before spawning any additional threads in your process. See winsup/testsuite/cygload for an example of how to use cygwin1.dll from MSVC and non-cygwin MinGW applications. */ extern "C" void cygwin_dll_init () { #ifndef __x86_64__ static char **envp; #endif static int _fmode; user_data->magic_biscuit = sizeof (per_process); #ifndef __x86_64__ user_data->envptr = &envp; #endif user_data->fmode_ptr = &_fmode; _dll_crt0 (); } extern "C" void __main (void) { /* Ordering is critical here. DLL ctors have already been run as they were being loaded, so we should stack the queued call to DLL dtors now. */ atexit (dll_global_dtors); do_global_ctors (user_data->ctors, false); /* Now we have run global ctors, register their dtors. At exit, global dtors will run first, so the app can still use shared library functions while terminating; then the DLLs will be destroyed; finally newlib will shut down stdio and terminate itself. */ atexit (do_global_dtors); sig_dispatch_pending (true); } void __reg1 do_exit (int status) { syscall_printf ("do_exit (%d), exit_state %d", status, exit_state); lock_process until_exit (true); if (exit_state < ES_EVENTS_TERMINATE) exit_state = ES_EVENTS_TERMINATE; if (exit_state < ES_SIGNAL) { exit_state = ES_SIGNAL; signal (SIGCHLD, SIG_IGN); signal (SIGHUP, SIG_IGN); signal (SIGINT, SIG_IGN); signal (SIGQUIT, SIG_IGN); } if (exit_state < ES_CLOSEALL) { exit_state = ES_CLOSEALL; close_all_files (); } UINT n = (UINT) status; if (exit_state < ES_THREADTERM) { exit_state = ES_THREADTERM; cygthread::terminate (); } myself->stopsig = 0; if (exit_state < ES_HUP_PGRP) { exit_state = ES_HUP_PGRP; /* Kill orphaned children on group leader exit */ if (myself->has_pgid_children && myself->pid == myself->pgid) { siginfo_t si = {0}; si.si_signo = -SIGHUP; si.si_code = SI_KERNEL; sigproc_printf ("%u == pgrp %u, send SIG{HUP,CONT} to stopped children", myself->pid, myself->pgid); kill_pgrp (myself->pgid, si); } } if (exit_state < ES_HUP_SID) { exit_state = ES_HUP_SID; /* Kill the foreground process group on session leader exit */ if (getpgrp () > 0 && myself->pid == myself->sid && real_tty_attached (myself)) { tty *tp = cygwin_shared->tty[myself->ctty]; sigproc_printf ("%u == sid %u, send SIGHUP to children", myself->pid, myself->sid); /* CGF FIXME: This can't be right. */ if (tp->getsid () == myself->sid) tp->kill_pgrp (SIGHUP); } } myself.exit (n); } /* When introducing support for -fuse-cxa-atexit with Cygwin 1.7.32 and GCC 4.8.3-3, we defined __dso_value as &ImageBase. This supposedly allowed a reproducible value which could also be easily evaluated in cygwin_atexit. However, when building C++ applications with -fuse-cxa-atexit, G++ creates calls to __cxa_atexit using the *address* of __dso_handle as DSO handle. So what we do here is this: A call to __cxa_atexit from the application actually calls cygwin__cxa_atexit. From dso_handle (which is either &__dso_handle, or __dso_handle == ImageBase or NULL) we fetch the dll structure of the DLL. Then use dll::handle == ImageBase as the actual DSO handle value in calls to __cxa_atexit and __cxa_finalize. Thus, __cxa_atexit becomes entirely independent of the incoming value of dso_handle, as long as it's *some* pointer into the DSO's address space. */ extern "C" int cygwin__cxa_atexit (void (*fn)(void *), void *obj, void *dso_handle) { dll *d = dso_handle ? dlls.find (dso_handle) : NULL; return __cxa_atexit (fn, obj, d ? d->handle : NULL); } /* This function is only called for applications built with Cygwin versions up to API 0.279. Starting with API 0.280 (Cygwin 1.7.33/1.8.6-2), atexit is a statically linked function inside of libcygwin.a. The reason is that the old method to fetch the caller return address is unreliable given GCCs ability to perform tail call elimination. For the details, see the below comment. The atexit replacement is defined in libcygwin.a to allow reliable access to the correct DSO handle. */ extern "C" int cygwin_atexit (void (*fn) (void)) { int res; dll *d = dlls.find ((void *) _my_tls.retaddr ()); #ifdef __x86_64__ /* x86_64 DLLs created with GCC 4.8.3-3 register __gcc_deregister_frame as atexit function using a call to atexit, rather than __cxa_atexit. Due to GCC's tail call optimizing, cygwin_atexit doesn't get the correct return address on the stack. As a result it fails to get the HMODULE of the caller and thus calls atexit rather than __cxa_atexit. Then, if the module gets dlclosed, __cxa_finalize (called from dll_list::detach) can't remove __gcc_deregister_frame from the atexit function chain. So at process exit, __call_exitprocs calls __gcc_deregister_frame while the module is already unloaded and the __gcc_deregister_frame function not available ==> SEGV. This also occurs for other functions. Workaround: If dlls.find fails, try to find the dll entry of the DLL containing fn. If that works, proceed by calling __cxa_atexit, otherwise call atexit. This *should* be sufficiently safe. Ultimately, new applications will use the statically linked atexit function though, as outlined above. */ if (!d) d = dlls.find ((void *) fn); #endif res = d ? __cxa_atexit ((void (*) (void *)) fn, NULL, d->handle) : atexit (fn); return res; } extern "C" void cygwin_exit (int n) { exit_state = ES_EXIT_STARTING; exit (n); } extern "C" void _exit (int n) { do_exit (((DWORD) n & 0xff) << 8); } extern "C" void cygwin_stackdump (); extern "C" void vapi_fatal (const char *fmt, va_list ap) { char buf[4096]; int n = __small_sprintf (buf, "%P: *** fatal error %s- ", in_forkee ? "in forked process " : ""); __small_vsprintf (buf + n, fmt, ap); va_end (ap); strace.prntf (_STRACE_SYSTEM, NULL, "%s", buf); #ifdef DEBUGGING try_to_debug (); #endif cygwin_stackdump (); myself.exit (__api_fatal_exit_val); } extern "C" void api_fatal (const char *fmt, ...) { va_list ap; va_start (ap, fmt); vapi_fatal (fmt, ap); } void multiple_cygwin_problem (const char *what, uintptr_t magic_version, uintptr_t version) { if (_cygwin_testing && (strstr (what, "proc") || strstr (what, "cygheap"))) { child_proc_info->type = _CH_WHOOPS; return; } if (GetEnvironmentVariableA ("CYGWIN_MISMATCH_OK", NULL, 0)) return; if (CYGWIN_VERSION_MAGIC_VERSION (magic_version) == version) system_printf ("%s magic number mismatch detected - %p/%ly", what, magic_version, version); else api_fatal ("%s mismatch detected - %ly/%ly.\n\ This problem is probably due to using incompatible versions of the cygwin DLL.\n\ Search for cygwin1.dll using the Windows Start->Find/Search facility\n\ and delete all but the most recent version. The most recent version *should*\n\ reside in x:\\cygwin\\bin, where 'x' is the drive on which you have\n\ installed the cygwin distribution. Rebooting is also suggested if you\n\ are unable to find another cygwin DLL.", what, magic_version, version); } #ifdef DEBUGGING void __reg1 cygbench (const char *s) { if (GetEnvironmentVariableA ("CYGWIN_BENCH", NULL, 0)) small_printf ("%05u ***** %s : %10d\n", GetCurrentProcessId (), s, strace.microseconds ()); } #endif