/* Utility and Unix shadow routines for GNU Emacs on the Microsoft W32 API. Copyright (C) 1994, 1995, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc. This file is part of GNU Emacs. GNU Emacs is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Emacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. Geoff Voelker (voelker@cs.washington.edu) 7-29-94 */ #include /* for offsetof */ #include #include #include #include #include #include #include #include #include #include /* must include CRT headers *before* config.h */ #ifdef HAVE_CONFIG_H #include #endif #undef access #undef chdir #undef chmod #undef creat #undef ctime #undef fopen #undef link #undef mkdir #undef mktemp #undef open #undef rename #undef rmdir #undef unlink #undef close #undef dup #undef dup2 #undef pipe #undef read #undef write #undef strerror #include "lisp.h" #include #include #ifdef __GNUC__ #define _ANONYMOUS_UNION #define _ANONYMOUS_STRUCT #endif #include #include #ifdef HAVE_SOCKETS /* TCP connection support, if kernel can do it */ #include #undef socket #undef bind #undef connect #undef htons #undef ntohs #undef inet_addr #undef gethostname #undef gethostbyname #undef getservbyname #undef getpeername #undef shutdown #undef setsockopt #undef listen #undef getsockname #undef accept #undef recvfrom #undef sendto #endif #include "w32.h" #include "ndir.h" #include "w32heap.h" #include "systime.h" typedef HRESULT (WINAPI * ShGetFolderPath_fn) (IN HWND, IN int, IN HANDLE, IN DWORD, OUT char *); void globals_of_w32 (); extern Lisp_Object Vw32_downcase_file_names; extern Lisp_Object Vw32_generate_fake_inodes; extern Lisp_Object Vw32_get_true_file_attributes; extern int w32_num_mouse_buttons; /* Initialization states */ static BOOL g_b_init_is_windows_9x; static BOOL g_b_init_open_process_token; static BOOL g_b_init_get_token_information; static BOOL g_b_init_lookup_account_sid; static BOOL g_b_init_get_sid_identifier_authority; /* BEGIN: Wrapper functions around OpenProcessToken and other functions in advapi32.dll that are only supported in Windows NT / 2k / XP */ /* ** Function pointer typedefs ** */ typedef BOOL (WINAPI * OpenProcessToken_Proc) ( HANDLE ProcessHandle, DWORD DesiredAccess, PHANDLE TokenHandle); typedef BOOL (WINAPI * GetTokenInformation_Proc) ( HANDLE TokenHandle, TOKEN_INFORMATION_CLASS TokenInformationClass, LPVOID TokenInformation, DWORD TokenInformationLength, PDWORD ReturnLength); #ifdef _UNICODE const char * const LookupAccountSid_Name = "LookupAccountSidW"; #else const char * const LookupAccountSid_Name = "LookupAccountSidA"; #endif typedef BOOL (WINAPI * LookupAccountSid_Proc) ( LPCTSTR lpSystemName, PSID Sid, LPTSTR Name, LPDWORD cbName, LPTSTR DomainName, LPDWORD cbDomainName, PSID_NAME_USE peUse); typedef PSID_IDENTIFIER_AUTHORITY (WINAPI * GetSidIdentifierAuthority_Proc) ( PSID pSid); /* ** A utility function ** */ static BOOL is_windows_9x () { static BOOL s_b_ret=0; OSVERSIONINFO os_ver; if (g_b_init_is_windows_9x == 0) { g_b_init_is_windows_9x = 1; ZeroMemory(&os_ver, sizeof(OSVERSIONINFO)); os_ver.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); if (GetVersionEx (&os_ver)) { s_b_ret = (os_ver.dwPlatformId == VER_PLATFORM_WIN32_WINDOWS); } } return s_b_ret; } /* ** The wrapper functions ** */ BOOL WINAPI open_process_token ( HANDLE ProcessHandle, DWORD DesiredAccess, PHANDLE TokenHandle) { static OpenProcessToken_Proc s_pfn_Open_Process_Token = NULL; HMODULE hm_advapi32 = NULL; if (is_windows_9x () == TRUE) { return FALSE; } if (g_b_init_open_process_token == 0) { g_b_init_open_process_token = 1; hm_advapi32 = LoadLibrary ("Advapi32.dll"); s_pfn_Open_Process_Token = (OpenProcessToken_Proc) GetProcAddress (hm_advapi32, "OpenProcessToken"); } if (s_pfn_Open_Process_Token == NULL) { return FALSE; } return ( s_pfn_Open_Process_Token ( ProcessHandle, DesiredAccess, TokenHandle) ); } BOOL WINAPI get_token_information ( HANDLE TokenHandle, TOKEN_INFORMATION_CLASS TokenInformationClass, LPVOID TokenInformation, DWORD TokenInformationLength, PDWORD ReturnLength) { static GetTokenInformation_Proc s_pfn_Get_Token_Information = NULL; HMODULE hm_advapi32 = NULL; if (is_windows_9x () == TRUE) { return FALSE; } if (g_b_init_get_token_information == 0) { g_b_init_get_token_information = 1; hm_advapi32 = LoadLibrary ("Advapi32.dll"); s_pfn_Get_Token_Information = (GetTokenInformation_Proc) GetProcAddress (hm_advapi32, "GetTokenInformation"); } if (s_pfn_Get_Token_Information == NULL) { return FALSE; } return ( s_pfn_Get_Token_Information ( TokenHandle, TokenInformationClass, TokenInformation, TokenInformationLength, ReturnLength) ); } BOOL WINAPI lookup_account_sid ( LPCTSTR lpSystemName, PSID Sid, LPTSTR Name, LPDWORD cbName, LPTSTR DomainName, LPDWORD cbDomainName, PSID_NAME_USE peUse) { static LookupAccountSid_Proc s_pfn_Lookup_Account_Sid = NULL; HMODULE hm_advapi32 = NULL; if (is_windows_9x () == TRUE) { return FALSE; } if (g_b_init_lookup_account_sid == 0) { g_b_init_lookup_account_sid = 1; hm_advapi32 = LoadLibrary ("Advapi32.dll"); s_pfn_Lookup_Account_Sid = (LookupAccountSid_Proc) GetProcAddress (hm_advapi32, LookupAccountSid_Name); } if (s_pfn_Lookup_Account_Sid == NULL) { return FALSE; } return ( s_pfn_Lookup_Account_Sid ( lpSystemName, Sid, Name, cbName, DomainName, cbDomainName, peUse) ); } PSID_IDENTIFIER_AUTHORITY WINAPI get_sid_identifier_authority ( PSID pSid) { static GetSidIdentifierAuthority_Proc s_pfn_Get_Sid_Identifier_Authority = NULL; HMODULE hm_advapi32 = NULL; if (is_windows_9x () == TRUE) { return NULL; } if (g_b_init_get_sid_identifier_authority == 0) { g_b_init_get_sid_identifier_authority = 1; hm_advapi32 = LoadLibrary ("Advapi32.dll"); s_pfn_Get_Sid_Identifier_Authority = (GetSidIdentifierAuthority_Proc) GetProcAddress ( hm_advapi32, "GetSidIdentifierAuthority"); } if (s_pfn_Get_Sid_Identifier_Authority == NULL) { return NULL; } return (s_pfn_Get_Sid_Identifier_Authority (pSid)); } /* END: Wrapper functions around OpenProcessToken and other functions in advapi32.dll that are only supported in Windows NT / 2k / XP */ /* Equivalent of strerror for W32 error codes. */ char * w32_strerror (int error_no) { static char buf[500]; if (error_no == 0) error_no = GetLastError (); buf[0] = '\0'; if (!FormatMessage (FORMAT_MESSAGE_FROM_SYSTEM, NULL, error_no, 0, /* choose most suitable language */ buf, sizeof (buf), NULL)) sprintf (buf, "w32 error %u", error_no); return buf; } /* Return 1 if P is a valid pointer to an object of size SIZE. Return 0 if P is NOT a valid pointer. Return -1 if we cannot validate P. This is called from alloc.c:valid_pointer_p. */ int w32_valid_pointer_p (void *p, int size) { SIZE_T done; HANDLE h = OpenProcess (PROCESS_VM_READ, FALSE, GetCurrentProcessId ()); if (h) { unsigned char *buf = alloca (size); int retval = ReadProcessMemory (h, p, buf, size, &done); CloseHandle (h); return retval; } else return -1; } static char startup_dir[MAXPATHLEN]; /* Get the current working directory. */ char * getwd (char *dir) { #if 0 if (GetCurrentDirectory (MAXPATHLEN, dir) > 0) return dir; return NULL; #else /* Emacs doesn't actually change directory itself, and we want to force our real wd to be where emacs.exe is to avoid unnecessary conflicts when trying to rename or delete directories. */ strcpy (dir, startup_dir); return dir; #endif } #ifndef HAVE_SOCKETS /* Emulate gethostname. */ int gethostname (char *buffer, int size) { /* NT only allows small host names, so the buffer is certainly large enough. */ return !GetComputerName (buffer, &size); } #endif /* HAVE_SOCKETS */ /* Emulate getloadavg. */ int getloadavg (double loadavg[], int nelem) { int i; /* A faithful emulation is going to have to be saved for a rainy day. */ for (i = 0; i < nelem; i++) { loadavg[i] = 0.0; } return i; } /* Emulate getpwuid, getpwnam and others. */ #define PASSWD_FIELD_SIZE 256 static char the_passwd_name[PASSWD_FIELD_SIZE]; static char the_passwd_passwd[PASSWD_FIELD_SIZE]; static char the_passwd_gecos[PASSWD_FIELD_SIZE]; static char the_passwd_dir[PASSWD_FIELD_SIZE]; static char the_passwd_shell[PASSWD_FIELD_SIZE]; static struct passwd the_passwd = { the_passwd_name, the_passwd_passwd, 0, 0, 0, the_passwd_gecos, the_passwd_dir, the_passwd_shell, }; static struct group the_group = { /* There are no groups on NT, so we just return "root" as the group name. */ "root", }; int getuid () { return the_passwd.pw_uid; } int geteuid () { /* I could imagine arguing for checking to see whether the user is in the Administrators group and returning a UID of 0 for that case, but I don't know how wise that would be in the long run. */ return getuid (); } int getgid () { return the_passwd.pw_gid; } int getegid () { return getgid (); } struct passwd * getpwuid (int uid) { if (uid == the_passwd.pw_uid) return &the_passwd; return NULL; } struct group * getgrgid (gid_t gid) { return &the_group; } struct passwd * getpwnam (char *name) { struct passwd *pw; pw = getpwuid (getuid ()); if (!pw) return pw; if (stricmp (name, pw->pw_name)) return NULL; return pw; } void init_user_info () { /* Find the user's real name by opening the process token and looking up the name associated with the user-sid in that token. Use the relative portion of the identifier authority value from the user-sid as the user id value (same for group id using the primary group sid from the process token). */ char user_sid[256], name[256], domain[256]; DWORD length = sizeof (name), dlength = sizeof (domain), trash; HANDLE token = NULL; SID_NAME_USE user_type; if ( open_process_token (GetCurrentProcess (), TOKEN_QUERY, &token) && get_token_information ( token, TokenUser, (PVOID) user_sid, sizeof (user_sid), &trash) && lookup_account_sid ( NULL, *((PSID *) user_sid), name, &length, domain, &dlength, &user_type) ) { strcpy (the_passwd.pw_name, name); /* Determine a reasonable uid value. */ if (stricmp ("administrator", name) == 0) { the_passwd.pw_uid = 0; the_passwd.pw_gid = 0; } else { SID_IDENTIFIER_AUTHORITY * pSIA; pSIA = get_sid_identifier_authority (*((PSID *) user_sid)); /* I believe the relative portion is the last 4 bytes (of 6) with msb first. */ the_passwd.pw_uid = ((pSIA->Value[2] << 24) + (pSIA->Value[3] << 16) + (pSIA->Value[4] << 8) + (pSIA->Value[5] << 0)); /* restrict to conventional uid range for normal users */ the_passwd.pw_uid = the_passwd.pw_uid % 60001; /* Get group id */ if (get_token_information (token, TokenPrimaryGroup, (PVOID) user_sid, sizeof (user_sid), &trash)) { SID_IDENTIFIER_AUTHORITY * pSIA; pSIA = get_sid_identifier_authority (*((PSID *) user_sid)); the_passwd.pw_gid = ((pSIA->Value[2] << 24) + (pSIA->Value[3] << 16) + (pSIA->Value[4] << 8) + (pSIA->Value[5] << 0)); /* I don't know if this is necessary, but for safety... */ the_passwd.pw_gid = the_passwd.pw_gid % 60001; } else the_passwd.pw_gid = the_passwd.pw_uid; } } /* If security calls are not supported (presumably because we are running under Windows 95), fallback to this. */ else if (GetUserName (name, &length)) { strcpy (the_passwd.pw_name, name); if (stricmp ("administrator", name) == 0) the_passwd.pw_uid = 0; else the_passwd.pw_uid = 123; the_passwd.pw_gid = the_passwd.pw_uid; } else { strcpy (the_passwd.pw_name, "unknown"); the_passwd.pw_uid = 123; the_passwd.pw_gid = 123; } /* Ensure HOME and SHELL are defined. */ if (getenv ("HOME") == NULL) abort (); if (getenv ("SHELL") == NULL) abort (); /* Set dir and shell from environment variables. */ strcpy (the_passwd.pw_dir, getenv ("HOME")); strcpy (the_passwd.pw_shell, getenv ("SHELL")); if (token) CloseHandle (token); } int random () { /* rand () on NT gives us 15 random bits...hack together 30 bits. */ return ((rand () << 15) | rand ()); } void srandom (int seed) { srand (seed); } /* Normalize filename by converting all path separators to the specified separator. Also conditionally convert upper case path name components to lower case. */ static void normalize_filename (fp, path_sep) register char *fp; char path_sep; { char sep; char *elem; /* Always lower-case drive letters a-z, even if the filesystem preserves case in filenames. This is so filenames can be compared by string comparison functions that are case-sensitive. Even case-preserving filesystems do not distinguish case in drive letters. */ if (fp[1] == ':' && *fp >= 'A' && *fp <= 'Z') { *fp += 'a' - 'A'; fp += 2; } if (NILP (Vw32_downcase_file_names)) { while (*fp) { if (*fp == '/' || *fp == '\\') *fp = path_sep; fp++; } return; } sep = path_sep; /* convert to this path separator */ elem = fp; /* start of current path element */ do { if (*fp >= 'a' && *fp <= 'z') elem = 0; /* don't convert this element */ if (*fp == 0 || *fp == ':') { sep = *fp; /* restore current separator (or 0) */ *fp = '/'; /* after conversion of this element */ } if (*fp == '/' || *fp == '\\') { if (elem && elem != fp) { *fp = 0; /* temporary end of string */ _strlwr (elem); /* while we convert to lower case */ } *fp = sep; /* convert (or restore) path separator */ elem = fp + 1; /* next element starts after separator */ sep = path_sep; } } while (*fp++); } /* Destructively turn backslashes into slashes. */ void dostounix_filename (p) register char *p; { normalize_filename (p, '/'); } /* Destructively turn slashes into backslashes. */ void unixtodos_filename (p) register char *p; { normalize_filename (p, '\\'); } /* Remove all CR's that are followed by a LF. (From msdos.c...probably should figure out a way to share it, although this code isn't going to ever change.) */ int crlf_to_lf (n, buf) register int n; register unsigned char *buf; { unsigned char *np = buf; unsigned char *startp = buf; unsigned char *endp = buf + n; if (n == 0) return n; while (buf < endp - 1) { if (*buf == 0x0d) { if (*(++buf) != 0x0a) *np++ = 0x0d; } else *np++ = *buf++; } if (buf < endp) *np++ = *buf++; return np - startp; } /* Parse the root part of file name, if present. Return length and optionally store pointer to char after root. */ static int parse_root (char * name, char ** pPath) { char * start = name; if (name == NULL) return 0; /* find the root name of the volume if given */ if (isalpha (name[0]) && name[1] == ':') { /* skip past drive specifier */ name += 2; if (IS_DIRECTORY_SEP (name[0])) name++; } else if (IS_DIRECTORY_SEP (name[0]) && IS_DIRECTORY_SEP (name[1])) { int slashes = 2; name += 2; do { if (IS_DIRECTORY_SEP (*name) && --slashes == 0) break; name++; } while ( *name ); if (IS_DIRECTORY_SEP (name[0])) name++; } if (pPath) *pPath = name; return name - start; } /* Get long base name for name; name is assumed to be absolute. */ static int get_long_basename (char * name, char * buf, int size) { WIN32_FIND_DATA find_data; HANDLE dir_handle; int len = 0; /* must be valid filename, no wild cards or other invalid characters */ if (strpbrk (name, "*?|<>\"")) return 0; dir_handle = FindFirstFile (name, &find_data); if (dir_handle != INVALID_HANDLE_VALUE) { if ((len = strlen (find_data.cFileName)) < size) memcpy (buf, find_data.cFileName, len + 1); else len = 0; FindClose (dir_handle); } return len; } /* Get long name for file, if possible (assumed to be absolute). */ BOOL w32_get_long_filename (char * name, char * buf, int size) { char * o = buf; char * p; char * q; char full[ MAX_PATH ]; int len; len = strlen (name); if (len >= MAX_PATH) return FALSE; /* Use local copy for destructive modification. */ memcpy (full, name, len+1); unixtodos_filename (full); /* Copy root part verbatim. */ len = parse_root (full, &p); memcpy (o, full, len); o += len; *o = '\0'; size -= len; while (p != NULL && *p) { q = p; p = strchr (q, '\\'); if (p) *p = '\0'; len = get_long_basename (full, o, size); if (len > 0) { o += len; size -= len; if (p != NULL) { *p++ = '\\'; if (size < 2) return FALSE; *o++ = '\\'; size--; *o = '\0'; } } else return FALSE; } return TRUE; } int is_unc_volume (const char *filename) { const char *ptr = filename; if (!IS_DIRECTORY_SEP (ptr[0]) || !IS_DIRECTORY_SEP (ptr[1]) || !ptr[2]) return 0; if (strpbrk (ptr + 2, "*?|<>\"\\/")) return 0; return 1; } /* Routines that are no-ops on NT but are defined to get Emacs to compile. */ int sigsetmask (int signal_mask) { return 0; } int sigmask (int sig) { return 0; } int sigblock (int sig) { return 0; } int sigunblock (int sig) { return 0; } int setpgrp (int pid, int gid) { return 0; } int alarm (int seconds) { return 0; } void unrequest_sigio (void) { return; } void request_sigio (void) { return; } #define REG_ROOT "SOFTWARE\\GNU\\Emacs" LPBYTE w32_get_resource (key, lpdwtype) char *key; LPDWORD lpdwtype; { LPBYTE lpvalue; HKEY hrootkey = NULL; DWORD cbData; BOOL ok = FALSE; /* Check both the current user and the local machine to see if we have any resources. */ if (RegOpenKeyEx (HKEY_CURRENT_USER, REG_ROOT, 0, KEY_READ, &hrootkey) == ERROR_SUCCESS) { lpvalue = NULL; if (RegQueryValueEx (hrootkey, key, NULL, NULL, NULL, &cbData) == ERROR_SUCCESS && (lpvalue = (LPBYTE) xmalloc (cbData)) != NULL && RegQueryValueEx (hrootkey, key, NULL, lpdwtype, lpvalue, &cbData) == ERROR_SUCCESS) { return (lpvalue); } if (lpvalue) xfree (lpvalue); RegCloseKey (hrootkey); } if (RegOpenKeyEx (HKEY_LOCAL_MACHINE, REG_ROOT, 0, KEY_READ, &hrootkey) == ERROR_SUCCESS) { lpvalue = NULL; if (RegQueryValueEx (hrootkey, key, NULL, NULL, NULL, &cbData) == ERROR_SUCCESS && (lpvalue = (LPBYTE) xmalloc (cbData)) != NULL && RegQueryValueEx (hrootkey, key, NULL, lpdwtype, lpvalue, &cbData) == ERROR_SUCCESS) { return (lpvalue); } if (lpvalue) xfree (lpvalue); RegCloseKey (hrootkey); } return (NULL); } char *get_emacs_configuration (void); extern Lisp_Object Vsystem_configuration; void init_environment (char ** argv) { static const char * const tempdirs[] = { "$TMPDIR", "$TEMP", "$TMP", "c:/" }; int i; const int imax = sizeof (tempdirs) / sizeof (tempdirs[0]); /* Make sure they have a usable $TMPDIR. Many Emacs functions use temporary files and assume "/tmp" if $TMPDIR is unset, which will break on DOS/Windows. Refuse to work if we cannot find a directory, not even "c:/", usable for that purpose. */ for (i = 0; i < imax ; i++) { const char *tmp = tempdirs[i]; if (*tmp == '$') tmp = getenv (tmp + 1); /* Note that `access' can lie to us if the directory resides on a read-only filesystem, like CD-ROM or a write-protected floppy. The only way to be really sure is to actually create a file and see if it succeeds. But I think that's too much to ask. */ if (tmp && _access (tmp, D_OK) == 0) { char * var = alloca (strlen (tmp) + 8); sprintf (var, "TMPDIR=%s", tmp); _putenv (strdup (var)); break; } } if (i >= imax) cmd_error_internal (Fcons (Qerror, Fcons (build_string ("no usable temporary directories found!!"), Qnil)), "While setting TMPDIR: "); /* Check for environment variables and use registry settings if they don't exist. Fallback on default values where applicable. */ { int i; LPBYTE lpval; DWORD dwType; char locale_name[32]; struct stat ignored; char default_home[MAX_PATH]; static const struct env_entry { char * name; char * def_value; } dflt_envvars[] = { {"HOME", "C:/"}, {"PRELOAD_WINSOCK", NULL}, {"emacs_dir", "C:/emacs"}, {"EMACSLOADPATH", "%emacs_dir%/site-lisp;%emacs_dir%/../site-lisp;%emacs_dir%/lisp;%emacs_dir%/leim"}, {"SHELL", "%emacs_dir%/bin/cmdproxy.exe"}, {"EMACSDATA", "%emacs_dir%/etc"}, {"EMACSPATH", "%emacs_dir%/bin"}, /* We no longer set INFOPATH because Info-default-directory-list is then ignored. */ /* {"INFOPATH", "%emacs_dir%/info"}, */ {"EMACSDOC", "%emacs_dir%/etc"}, {"TERM", "cmd"}, {"LANG", NULL}, }; #define N_ENV_VARS sizeof(dflt_envvars)/sizeof(dflt_envvars[0]) /* We need to copy dflt_envvars[] and work on the copy because we don't want the dumped Emacs to inherit the values of environment variables we saw during dumping (which could be on a different system). The defaults above must be left intact. */ struct env_entry env_vars[N_ENV_VARS]; for (i = 0; i < N_ENV_VARS; i++) env_vars[i] = dflt_envvars[i]; /* For backwards compatibility, check if a .emacs file exists in C:/ If not, then we can try to default to the appdata directory under the user's profile, which is more likely to be writable. */ if (stat ("C:/.emacs", &ignored) < 0) { HRESULT profile_result; /* Dynamically load ShGetFolderPath, as it won't exist on versions of Windows 95 and NT4 that have not been updated to include MSIE 5. Also we don't link with shell32.dll by default. */ HMODULE shell32_dll; ShGetFolderPath_fn get_folder_path; shell32_dll = GetModuleHandle ("shell32.dll"); get_folder_path = (ShGetFolderPath_fn) GetProcAddress (shell32_dll, "SHGetFolderPathA"); if (get_folder_path != NULL) { profile_result = get_folder_path (NULL, CSIDL_APPDATA, NULL, 0, default_home); /* If we can't get the appdata dir, revert to old behaviour. */ if (profile_result == S_OK) env_vars[0].def_value = default_home; } /* Unload shell32.dll, it is not needed anymore. */ FreeLibrary (shell32_dll); } /* Get default locale info and use it for LANG. */ if (GetLocaleInfo (LOCALE_USER_DEFAULT, LOCALE_SABBREVLANGNAME | LOCALE_USE_CP_ACP, locale_name, sizeof (locale_name))) { for (i = 0; i < N_ENV_VARS; i++) { if (strcmp (env_vars[i].name, "LANG") == 0) { env_vars[i].def_value = locale_name; break; } } } #define SET_ENV_BUF_SIZE (4 * MAX_PATH) /* to cover EMACSLOADPATH */ /* Treat emacs_dir specially: set it unconditionally based on our location, if it appears that we are running from the bin subdir of a standard installation. */ { char *p; char modname[MAX_PATH]; if (!GetModuleFileName (NULL, modname, MAX_PATH)) abort (); if ((p = strrchr (modname, '\\')) == NULL) abort (); *p = 0; if ((p = strrchr (modname, '\\')) && stricmp (p, "\\bin") == 0) { char buf[SET_ENV_BUF_SIZE]; *p = 0; for (p = modname; *p; p++) if (*p == '\\') *p = '/'; _snprintf (buf, sizeof(buf)-1, "emacs_dir=%s", modname); _putenv (strdup (buf)); } /* Handle running emacs from the build directory: src/oo-spd/i386/ */ /* FIXME: should use substring of get_emacs_configuration (). But I don't think the Windows build supports alpha, mips etc anymore, so have taken the easy option for now. */ else if (p && stricmp (p, "\\i386") == 0) { *p = 0; p = strrchr (modname, '\\'); if (p != NULL) { *p = 0; p = strrchr (modname, '\\'); if (p && stricmp (p, "\\src") == 0) { char buf[SET_ENV_BUF_SIZE]; *p = 0; for (p = modname; *p; p++) if (*p == '\\') *p = '/'; _snprintf (buf, sizeof(buf)-1, "emacs_dir=%s", modname); _putenv (strdup (buf)); } } } } for (i = 0; i < N_ENV_VARS; i++) { if (!getenv (env_vars[i].name)) { int dont_free = 0; if ((lpval = w32_get_resource (env_vars[i].name, &dwType)) == NULL) { lpval = env_vars[i].def_value; dwType = REG_EXPAND_SZ; dont_free = 1; } if (lpval) { char buf1[SET_ENV_BUF_SIZE], buf2[SET_ENV_BUF_SIZE]; if (dwType == REG_EXPAND_SZ) ExpandEnvironmentStrings ((LPSTR) lpval, buf1, sizeof(buf1)); else if (dwType == REG_SZ) strcpy (buf1, lpval); if (dwType == REG_EXPAND_SZ || dwType == REG_SZ) { _snprintf (buf2, sizeof(buf2)-1, "%s=%s", env_vars[i].name, buf1); _putenv (strdup (buf2)); } if (!dont_free) xfree (lpval); } } } } /* Rebuild system configuration to reflect invoking system. */ Vsystem_configuration = build_string (EMACS_CONFIGURATION); /* Another special case: on NT, the PATH variable is actually named "Path" although cmd.exe (perhaps NT itself) arranges for environment variable lookup and setting to be case insensitive. However, Emacs assumes a fully case sensitive environment, so we need to change "Path" to "PATH" to match the expectations of various elisp packages. We do this by the sneaky method of modifying the string in the C runtime environ entry. The same applies to COMSPEC. */ { char ** envp; for (envp = environ; *envp; envp++) if (_strnicmp (*envp, "PATH=", 5) == 0) memcpy (*envp, "PATH=", 5); else if (_strnicmp (*envp, "COMSPEC=", 8) == 0) memcpy (*envp, "COMSPEC=", 8); } /* Remember the initial working directory for getwd, then make the real wd be the location of emacs.exe to avoid conflicts when renaming or deleting directories. (We also don't call chdir when running subprocesses for the same reason.) */ if (!GetCurrentDirectory (MAXPATHLEN, startup_dir)) abort (); { char *p; static char modname[MAX_PATH]; if (!GetModuleFileName (NULL, modname, MAX_PATH)) abort (); if ((p = strrchr (modname, '\\')) == NULL) abort (); *p = 0; SetCurrentDirectory (modname); /* Ensure argv[0] has the full path to Emacs. */ *p = '\\'; argv[0] = modname; } /* Determine if there is a middle mouse button, to allow parse_button to decide whether right mouse events should be mouse-2 or mouse-3. */ w32_num_mouse_buttons = GetSystemMetrics (SM_CMOUSEBUTTONS); init_user_info (); } char * emacs_root_dir (void) { static char root_dir[FILENAME_MAX]; const char *p; p = getenv ("emacs_dir"); if (p == NULL) abort (); strcpy (root_dir, p); root_dir[parse_root (root_dir, NULL)] = '\0'; dostounix_filename (root_dir); return root_dir; } /* We don't have scripts to automatically determine the system configuration for Emacs before it's compiled, and we don't want to have to make the user enter it, so we define EMACS_CONFIGURATION to invoke this runtime routine. */ char * get_emacs_configuration (void) { char *arch, *oem, *os; int build_num; static char configuration_buffer[32]; /* Determine the processor type. */ switch (get_processor_type ()) { #ifdef PROCESSOR_INTEL_386 case PROCESSOR_INTEL_386: case PROCESSOR_INTEL_486: case PROCESSOR_INTEL_PENTIUM: arch = "i386"; break; #endif #ifdef PROCESSOR_INTEL_860 case PROCESSOR_INTEL_860: arch = "i860"; break; #endif #ifdef PROCESSOR_MIPS_R2000 case PROCESSOR_MIPS_R2000: case PROCESSOR_MIPS_R3000: case PROCESSOR_MIPS_R4000: arch = "mips"; break; #endif #ifdef PROCESSOR_ALPHA_21064 case PROCESSOR_ALPHA_21064: arch = "alpha"; break; #endif default: arch = "unknown"; break; } /* Use the OEM field to reflect the compiler/library combination. */ #ifdef _MSC_VER #define COMPILER_NAME "msvc" #else #ifdef __GNUC__ #define COMPILER_NAME "mingw" #else #define COMPILER_NAME "unknown" #endif #endif oem = COMPILER_NAME; switch (osinfo_cache.dwPlatformId) { case VER_PLATFORM_WIN32_NT: os = "nt"; build_num = osinfo_cache.dwBuildNumber; break; case VER_PLATFORM_WIN32_WINDOWS: if (osinfo_cache.dwMinorVersion == 0) { os = "windows95"; } else { os = "windows98"; } build_num = LOWORD (osinfo_cache.dwBuildNumber); break; case VER_PLATFORM_WIN32s: /* Not supported, should not happen. */ os = "windows32s"; build_num = LOWORD (osinfo_cache.dwBuildNumber); break; default: os = "unknown"; build_num = 0; break; } if (osinfo_cache.dwPlatformId == VER_PLATFORM_WIN32_NT) { sprintf (configuration_buffer, "%s-%s-%s%d.%d.%d", arch, oem, os, get_w32_major_version (), get_w32_minor_version (), build_num); } else { sprintf (configuration_buffer, "%s-%s-%s.%d", arch, oem, os, build_num); } return configuration_buffer; } char * get_emacs_configuration_options (void) { static char options_buffer[256]; /* Work out the effective configure options for this build. */ #ifdef _MSC_VER #define COMPILER_VERSION "--with-msvc (%d.%02d)", _MSC_VER / 100, _MSC_VER % 100 #else #ifdef __GNUC__ #define COMPILER_VERSION "--with-gcc (%d.%d)", __GNUC__, __GNUC_MINOR__ #else #define COMPILER_VERSION "" #endif #endif sprintf (options_buffer, COMPILER_VERSION); #ifdef EMACSDEBUG strcat (options_buffer, " --no-opt"); #endif #ifdef USER_CFLAGS strcat (options_buffer, " --cflags"); strcat (options_buffer, USER_CFLAGS); #endif #ifdef USER_LDFLAGS strcat (options_buffer, " --ldflags"); strcat (options_buffer, USER_LDFLAGS); #endif return options_buffer; } #include /* Emulate gettimeofday (Ulrich Leodolter, 1/11/95). */ void gettimeofday (struct timeval *tv, struct timezone *tz) { struct _timeb tb; _ftime (&tb); tv->tv_sec = tb.time; tv->tv_usec = tb.millitm * 1000L; if (tz) { tz->tz_minuteswest = tb.timezone; /* minutes west of Greenwich */ tz->tz_dsttime = tb.dstflag; /* type of dst correction */ } } /* ------------------------------------------------------------------------- */ /* IO support and wrapper functions for W32 API. */ /* ------------------------------------------------------------------------- */ /* Place a wrapper around the MSVC version of ctime. It returns NULL on network directories, so we handle that case here. (Ulrich Leodolter, 1/11/95). */ char * sys_ctime (const time_t *t) { char *str = (char *) ctime (t); return (str ? str : "Sun Jan 01 00:00:00 1970"); } /* Emulate sleep...we could have done this with a define, but that would necessitate including windows.h in the files that used it. This is much easier. */ void sys_sleep (int seconds) { Sleep (seconds * 1000); } /* Internal MSVC functions for low-level descriptor munging */ extern int __cdecl _set_osfhnd (int fd, long h); extern int __cdecl _free_osfhnd (int fd); /* parallel array of private info on file handles */ filedesc fd_info [ MAXDESC ]; typedef struct volume_info_data { struct volume_info_data * next; /* time when info was obtained */ DWORD timestamp; /* actual volume info */ char * root_dir; DWORD serialnum; DWORD maxcomp; DWORD flags; char * name; char * type; } volume_info_data; /* Global referenced by various functions. */ static volume_info_data volume_info; /* Vector to indicate which drives are local and fixed (for which cached data never expires). */ static BOOL fixed_drives[26]; /* Consider cached volume information to be stale if older than 10s, at least for non-local drives. Info for fixed drives is never stale. */ #define DRIVE_INDEX( c ) ( (c) <= 'Z' ? (c) - 'A' : (c) - 'a' ) #define VOLINFO_STILL_VALID( root_dir, info ) \ ( ( isalpha (root_dir[0]) && \ fixed_drives[ DRIVE_INDEX (root_dir[0]) ] ) \ || GetTickCount () - info->timestamp < 10000 ) /* Cache support functions. */ /* Simple linked list with linear search is sufficient. */ static volume_info_data *volume_cache = NULL; static volume_info_data * lookup_volume_info (char * root_dir) { volume_info_data * info; for (info = volume_cache; info; info = info->next) if (stricmp (info->root_dir, root_dir) == 0) break; return info; } static void add_volume_info (char * root_dir, volume_info_data * info) { info->root_dir = xstrdup (root_dir); info->next = volume_cache; volume_cache = info; } /* Wrapper for GetVolumeInformation, which uses caching to avoid performance penalty (~2ms on 486 for local drives, 7.5ms for local cdrom drive, ~5-10ms or more for remote drives on LAN). */ volume_info_data * GetCachedVolumeInformation (char * root_dir) { volume_info_data * info; char default_root[ MAX_PATH ]; /* NULL for root_dir means use root from current directory. */ if (root_dir == NULL) { if (GetCurrentDirectory (MAX_PATH, default_root) == 0) return NULL; parse_root (default_root, &root_dir); *root_dir = 0; root_dir = default_root; } /* Local fixed drives can be cached permanently. Removable drives cannot be cached permanently, since the volume name and serial number (if nothing else) can change. Remote drives should be treated as if they are removable, since there is no sure way to tell whether they are or not. Also, the UNC association of drive letters mapped to remote volumes can be changed at any time (even by other processes) without notice. As a compromise, so we can benefit from caching info for remote volumes, we use a simple expiry mechanism to invalidate cache entries that are more than ten seconds old. */ #if 0 /* No point doing this, because WNetGetConnection is even slower than GetVolumeInformation, consistently taking ~50ms on a 486 (FWIW, GetDriveType is about the only call of this type which does not involve network access, and so is extremely quick). */ /* Map drive letter to UNC if remote. */ if ( isalpha( root_dir[0] ) && !fixed[ DRIVE_INDEX( root_dir[0] ) ] ) { char remote_name[ 256 ]; char drive[3] = { root_dir[0], ':' }; if (WNetGetConnection (drive, remote_name, sizeof (remote_name)) == NO_ERROR) /* do something */ ; } #endif info = lookup_volume_info (root_dir); if (info == NULL || ! VOLINFO_STILL_VALID (root_dir, info)) { char name[ 256 ]; DWORD serialnum; DWORD maxcomp; DWORD flags; char type[ 256 ]; /* Info is not cached, or is stale. */ if (!GetVolumeInformation (root_dir, name, sizeof (name), &serialnum, &maxcomp, &flags, type, sizeof (type))) return NULL; /* Cache the volume information for future use, overwriting existing entry if present. */ if (info == NULL) { info = (volume_info_data *) xmalloc (sizeof (volume_info_data)); add_volume_info (root_dir, info); } else { xfree (info->name); xfree (info->type); } info->name = xstrdup (name); info->serialnum = serialnum; info->maxcomp = maxcomp; info->flags = flags; info->type = xstrdup (type); info->timestamp = GetTickCount (); } return info; } /* Get information on the volume where name is held; set path pointer to start of pathname in name (past UNC header\volume header if present). */ int get_volume_info (const char * name, const char ** pPath) { char temp[MAX_PATH]; char *rootname = NULL; /* default to current volume */ volume_info_data * info; if (name == NULL) return FALSE; /* find the root name of the volume if given */ if (isalpha (name[0]) && name[1] == ':') { rootname = temp; temp[0] = *name++; temp[1] = *name++; temp[2] = '\\'; temp[3] = 0; } else if (IS_DIRECTORY_SEP (name[0]) && IS_DIRECTORY_SEP (name[1])) { char *str = temp; int slashes = 4; rootname = temp; do { if (IS_DIRECTORY_SEP (*name) && --slashes == 0) break; *str++ = *name++; } while ( *name ); *str++ = '\\'; *str = 0; } if (pPath) *pPath = name; info = GetCachedVolumeInformation (rootname); if (info != NULL) { /* Set global referenced by other functions. */ volume_info = *info; return TRUE; } return FALSE; } /* Determine if volume is FAT format (ie. only supports short 8.3 names); also set path pointer to start of pathname in name. */ int is_fat_volume (const char * name, const char ** pPath) { if (get_volume_info (name, pPath)) return (volume_info.maxcomp == 12); return FALSE; } /* Map filename to a legal 8.3 name if necessary. */ const char * map_w32_filename (const char * name, const char ** pPath) { static char shortname[MAX_PATH]; char * str = shortname; char c; char * path; const char * save_name = name; if (strlen (name) >= MAX_PATH) { /* Return a filename which will cause callers to fail. */ strcpy (shortname, "?"); return shortname; } if (is_fat_volume (name, (const char **)&path)) /* truncate to 8.3 */ { register int left = 8; /* maximum number of chars in part */ register int extn = 0; /* extension added? */ register int dots = 2; /* maximum number of dots allowed */ while (name < path) *str++ = *name++; /* skip past UNC header */ while ((c = *name++)) { switch ( c ) { case '\\': case '/': *str++ = '\\'; extn = 0; /* reset extension flags */ dots = 2; /* max 2 dots */ left = 8; /* max length 8 for main part */ break; case ':': *str++ = ':'; extn = 0; /* reset extension flags */ dots = 2; /* max 2 dots */ left = 8; /* max length 8 for main part */ break; case '.': if ( dots ) { /* Convert path components of the form .xxx to _xxx, but leave . and .. as they are. This allows .emacs to be read as _emacs, for example. */ if (! *name || *name == '.' || IS_DIRECTORY_SEP (*name)) { *str++ = '.'; dots--; } else { *str++ = '_'; left--; dots = 0; } } else if ( !extn ) { *str++ = '.'; extn = 1; /* we've got an extension */ left = 3; /* 3 chars in extension */ } else { /* any embedded dots after the first are converted to _ */ *str++ = '_'; } break; case '~': case '#': /* don't lose these, they're important */ if ( ! left ) str[-1] = c; /* replace last character of part */ /* FALLTHRU */ default: if ( left ) { *str++ = tolower (c); /* map to lower case (looks nicer) */ left--; dots = 0; /* started a path component */ } break; } } *str = '\0'; } else { strcpy (shortname, name); unixtodos_filename (shortname); } if (pPath) *pPath = shortname + (path - save_name); return shortname; } static int is_exec (const char * name) { char * p = strrchr (name, '.'); return (p != NULL && (stricmp (p, ".exe") == 0 || stricmp (p, ".com") == 0 || stricmp (p, ".bat") == 0 || stricmp (p, ".cmd") == 0)); } /* Emulate the Unix directory procedures opendir, closedir, and readdir. We can't use the procedures supplied in sysdep.c, so we provide them here. */ struct direct dir_static; /* simulated directory contents */ static HANDLE dir_find_handle = INVALID_HANDLE_VALUE; static int dir_is_fat; static char dir_pathname[MAXPATHLEN+1]; static WIN32_FIND_DATA dir_find_data; /* Support shares on a network resource as subdirectories of a read-only root directory. */ static HANDLE wnet_enum_handle = INVALID_HANDLE_VALUE; HANDLE open_unc_volume (const char *); char *read_unc_volume (HANDLE, char *, int); void close_unc_volume (HANDLE); DIR * opendir (char *filename) { DIR *dirp; /* Opening is done by FindFirstFile. However, a read is inherent to this operation, so we defer the open until read time. */ if (dir_find_handle != INVALID_HANDLE_VALUE) return NULL; if (wnet_enum_handle != INVALID_HANDLE_VALUE) return NULL; if (is_unc_volume (filename)) { wnet_enum_handle = open_unc_volume (filename); if (wnet_enum_handle == INVALID_HANDLE_VALUE) return NULL; } if (!(dirp = (DIR *) malloc (sizeof (DIR)))) return NULL; dirp->dd_fd = 0; dirp->dd_loc = 0; dirp->dd_size = 0; strncpy (dir_pathname, map_w32_filename (filename, NULL), MAXPATHLEN); dir_pathname[MAXPATHLEN] = '\0'; dir_is_fat = is_fat_volume (filename, NULL); return dirp; } void closedir (DIR *dirp) { /* If we have a find-handle open, close it. */ if (dir_find_handle != INVALID_HANDLE_VALUE) { FindClose (dir_find_handle); dir_find_handle = INVALID_HANDLE_VALUE; } else if (wnet_enum_handle != INVALID_HANDLE_VALUE) { close_unc_volume (wnet_enum_handle); wnet_enum_handle = INVALID_HANDLE_VALUE; } xfree ((char *) dirp); } struct direct * readdir (DIR *dirp) { if (wnet_enum_handle != INVALID_HANDLE_VALUE) { if (!read_unc_volume (wnet_enum_handle, dir_find_data.cFileName, MAX_PATH)) return NULL; } /* If we aren't dir_finding, do a find-first, otherwise do a find-next. */ else if (dir_find_handle == INVALID_HANDLE_VALUE) { char filename[MAXNAMLEN + 3]; int ln; strcpy (filename, dir_pathname); ln = strlen (filename) - 1; if (!IS_DIRECTORY_SEP (filename[ln])) strcat (filename, "\\"); strcat (filename, "*"); dir_find_handle = FindFirstFile (filename, &dir_find_data); if (dir_find_handle == INVALID_HANDLE_VALUE) return NULL; } else { if (!FindNextFile (dir_find_handle, &dir_find_data)) return NULL; } /* Emacs never uses this value, so don't bother making it match value returned by stat(). */ dir_static.d_ino = 1; dir_static.d_reclen = sizeof (struct direct) - MAXNAMLEN + 3 + dir_static.d_namlen - dir_static.d_namlen % 4; dir_static.d_namlen = strlen (dir_find_data.cFileName); strcpy (dir_static.d_name, dir_find_data.cFileName); if (dir_is_fat) _strlwr (dir_static.d_name); else if (!NILP (Vw32_downcase_file_names)) { register char *p; for (p = dir_static.d_name; *p; p++) if (*p >= 'a' && *p <= 'z') break; if (!*p) _strlwr (dir_static.d_name); } return &dir_static; } HANDLE open_unc_volume (const char *path) { NETRESOURCE nr; HANDLE henum; int result; nr.dwScope = RESOURCE_GLOBALNET; nr.dwType = RESOURCETYPE_DISK; nr.dwDisplayType = RESOURCEDISPLAYTYPE_SERVER; nr.dwUsage = RESOURCEUSAGE_CONTAINER; nr.lpLocalName = NULL; nr.lpRemoteName = (LPSTR)map_w32_filename (path, NULL); nr.lpComment = NULL; nr.lpProvider = NULL; result = WNetOpenEnum(RESOURCE_GLOBALNET, RESOURCETYPE_DISK, RESOURCEUSAGE_CONNECTABLE, &nr, &henum); if (result == NO_ERROR) return henum; else return INVALID_HANDLE_VALUE; } char * read_unc_volume (HANDLE henum, char *readbuf, int size) { DWORD count; int result; DWORD bufsize = 512; char *buffer; char *ptr; count = 1; buffer = alloca (bufsize); result = WNetEnumResource (wnet_enum_handle, &count, buffer, &bufsize); if (result != NO_ERROR) return NULL; /* WNetEnumResource returns \\resource\share...skip forward to "share". */ ptr = ((LPNETRESOURCE) buffer)->lpRemoteName; ptr += 2; while (*ptr && !IS_DIRECTORY_SEP (*ptr)) ptr++; ptr++; strncpy (readbuf, ptr, size); return readbuf; } void close_unc_volume (HANDLE henum) { if (henum != INVALID_HANDLE_VALUE) WNetCloseEnum (henum); } DWORD unc_volume_file_attributes (const char *path) { HANDLE henum; DWORD attrs; henum = open_unc_volume (path); if (henum == INVALID_HANDLE_VALUE) return -1; attrs = FILE_ATTRIBUTE_READONLY | FILE_ATTRIBUTE_DIRECTORY; close_unc_volume (henum); return attrs; } /* Shadow some MSVC runtime functions to map requests for long filenames to reasonable short names if necessary. This was originally added to permit running Emacs on NT 3.1 on a FAT partition, which doesn't support long file names. */ int sys_access (const char * path, int mode) { DWORD attributes; /* MSVC implementation doesn't recognize D_OK. */ path = map_w32_filename (path, NULL); if (is_unc_volume (path)) { attributes = unc_volume_file_attributes (path); if (attributes == -1) { errno = EACCES; return -1; } } else if ((attributes = GetFileAttributes (path)) == -1) { /* Should try mapping GetLastError to errno; for now just indicate that path doesn't exist. */ errno = EACCES; return -1; } if ((mode & X_OK) != 0 && !is_exec (path)) { errno = EACCES; return -1; } if ((mode & W_OK) != 0 && (attributes & FILE_ATTRIBUTE_READONLY) != 0) { errno = EACCES; return -1; } if ((mode & D_OK) != 0 && (attributes & FILE_ATTRIBUTE_DIRECTORY) == 0) { errno = EACCES; return -1; } return 0; } int sys_chdir (const char * path) { return _chdir (map_w32_filename (path, NULL)); } int sys_chmod (const char * path, int mode) { return _chmod (map_w32_filename (path, NULL), mode); } int sys_chown (const char *path, uid_t owner, gid_t group) { if (sys_chmod (path, _S_IREAD) == -1) /* check if file exists */ return -1; return 0; } int sys_creat (const char * path, int mode) { return _creat (map_w32_filename (path, NULL), mode); } FILE * sys_fopen(const char * path, const char * mode) { int fd; int oflag; const char * mode_save = mode; /* Force all file handles to be non-inheritable. This is necessary to ensure child processes don't unwittingly inherit handles that might prevent future file access. */ if (mode[0] == 'r') oflag = O_RDONLY; else if (mode[0] == 'w' || mode[0] == 'a') oflag = O_WRONLY | O_CREAT | O_TRUNC; else return NULL; /* Only do simplistic option parsing. */ while (*++mode) if (mode[0] == '+') { oflag &= ~(O_RDONLY | O_WRONLY); oflag |= O_RDWR; } else if (mode[0] == 'b') { oflag &= ~O_TEXT; oflag |= O_BINARY; } else if (mode[0] == 't') { oflag &= ~O_BINARY; oflag |= O_TEXT; } else break; fd = _open (map_w32_filename (path, NULL), oflag | _O_NOINHERIT, 0644); if (fd < 0) return NULL; return _fdopen (fd, mode_save); } /* This only works on NTFS volumes, but is useful to have. */ int sys_link (const char * old, const char * new) { HANDLE fileh; int result = -1; char oldname[MAX_PATH], newname[MAX_PATH]; if (old == NULL || new == NULL) { errno = ENOENT; return -1; } strcpy (oldname, map_w32_filename (old, NULL)); strcpy (newname, map_w32_filename (new, NULL)); fileh = CreateFile (oldname, 0, 0, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL); if (fileh != INVALID_HANDLE_VALUE) { int wlen; /* Confusingly, the "alternate" stream name field does not apply when restoring a hard link, and instead contains the actual stream data for the link (ie. the name of the link to create). The WIN32_STREAM_ID structure before the cStreamName field is the stream header, which is then immediately followed by the stream data. */ struct { WIN32_STREAM_ID wid; WCHAR wbuffer[MAX_PATH]; /* extra space for link name */ } data; wlen = MultiByteToWideChar (CP_ACP, MB_PRECOMPOSED, newname, -1, data.wid.cStreamName, MAX_PATH); if (wlen > 0) { LPVOID context = NULL; DWORD wbytes = 0; data.wid.dwStreamId = BACKUP_LINK; data.wid.dwStreamAttributes = 0; data.wid.Size.LowPart = wlen * sizeof(WCHAR); data.wid.Size.HighPart = 0; data.wid.dwStreamNameSize = 0; if (BackupWrite (fileh, (LPBYTE)&data, offsetof (WIN32_STREAM_ID, cStreamName) + data.wid.Size.LowPart, &wbytes, FALSE, FALSE, &context) && BackupWrite (fileh, NULL, 0, &wbytes, TRUE, FALSE, &context)) { /* succeeded */ result = 0; } else { /* Should try mapping GetLastError to errno; for now just indicate a general error (eg. links not supported). */ errno = EINVAL; // perhaps EMLINK? } } CloseHandle (fileh); } else errno = ENOENT; return result; } int sys_mkdir (const char * path) { return _mkdir (map_w32_filename (path, NULL)); } /* Because of long name mapping issues, we need to implement this ourselves. Also, MSVC's _mktemp returns NULL when it can't generate a unique name, instead of setting the input template to an empty string. Standard algorithm seems to be use pid or tid with a letter on the front (in place of the 6 X's) and cycle through the letters to find a unique name. We extend that to allow any reasonable character as the first of the 6 X's. */ char * sys_mktemp (char * template) { char * p; int i; unsigned uid = GetCurrentThreadId (); static char first_char[] = "abcdefghijklmnopqrstuvwyz0123456789!%-_@#"; if (template == NULL) return NULL; p = template + strlen (template); i = 5; /* replace up to the last 5 X's with uid in decimal */ while (--p >= template && p[0] == 'X' && --i >= 0) { p[0] = '0' + uid % 10; uid /= 10; } if (i < 0 && p[0] == 'X') { i = 0; do { int save_errno = errno; p[0] = first_char[i]; if (sys_access (template, 0) < 0) { errno = save_errno; return template; } } while (++i < sizeof (first_char)); } /* Template is badly formed or else we can't generate a unique name, so return empty string */ template[0] = 0; return template; } int sys_open (const char * path, int oflag, int mode) { const char* mpath = map_w32_filename (path, NULL); /* Try to open file without _O_CREAT, to be able to write to hidden and system files. Force all file handles to be non-inheritable. */ int res = _open (mpath, (oflag & ~_O_CREAT) | _O_NOINHERIT, mode); if (res >= 0) return res; return _open (mpath, oflag | _O_NOINHERIT, mode); } int sys_rename (const char * oldname, const char * newname) { BOOL result; char temp[MAX_PATH]; /* MoveFile on Windows 95 doesn't correctly change the short file name alias in a number of circumstances (it is not easy to predict when just by looking at oldname and newname, unfortunately). In these cases, renaming through a temporary name avoids the problem. A second problem on Windows 95 is that renaming through a temp name when newname is uppercase fails (the final long name ends up in lowercase, although the short alias might be uppercase) UNLESS the long temp name is not 8.3. So, on Windows 95 we always rename through a temp name, and we make sure the temp name has a long extension to ensure correct renaming. */ strcpy (temp, map_w32_filename (oldname, NULL)); if (os_subtype == OS_WIN95) { char * o; char * p; int i = 0; oldname = map_w32_filename (oldname, NULL); if (o = strrchr (oldname, '\\')) o++; else o = (char *) oldname; if (p = strrchr (temp, '\\')) p++; else p = temp; do { /* Force temp name to require a manufactured 8.3 alias - this seems to make the second rename work properly. */ sprintf (p, "_.%s.%u", o, i); i++; result = rename (oldname, temp); } /* This loop must surely terminate! */ while (result < 0 && errno == EEXIST); if (result < 0) return -1; } /* Emulate Unix behaviour - newname is deleted if it already exists (at least if it is a file; don't do this for directories). Since we mustn't do this if we are just changing the case of the file name (we would end up deleting the file we are trying to rename!), we let rename detect if the destination file already exists - that way we avoid the possible pitfalls of trying to determine ourselves whether two names really refer to the same file, which is not always possible in the general case. (Consider all the permutations of shared or subst'd drives, etc.) */ newname = map_w32_filename (newname, NULL); result = rename (temp, newname); if (result < 0 && errno == EEXIST && _chmod (newname, 0666) == 0 && _unlink (newname) == 0) result = rename (temp, newname); return result; } int sys_rmdir (const char * path) { return _rmdir (map_w32_filename (path, NULL)); } int sys_unlink (const char * path) { path = map_w32_filename (path, NULL); /* On Unix, unlink works without write permission. */ _chmod (path, 0666); return _unlink (path); } static FILETIME utc_base_ft; static long double utc_base; static int init = 0; static time_t convert_time (FILETIME ft) { long double ret; if (!init) { /* Determine the delta between 1-Jan-1601 and 1-Jan-1970. */ SYSTEMTIME st; st.wYear = 1970; st.wMonth = 1; st.wDay = 1; st.wHour = 0; st.wMinute = 0; st.wSecond = 0; st.wMilliseconds = 0; SystemTimeToFileTime (&st, &utc_base_ft); utc_base = (long double) utc_base_ft.dwHighDateTime * 4096.0L * 1024.0L * 1024.0L + utc_base_ft.dwLowDateTime; init = 1; } if (CompareFileTime (&ft, &utc_base_ft) < 0) return 0; ret = (long double) ft.dwHighDateTime * 4096.0L * 1024.0L * 1024.0L + ft.dwLowDateTime; ret -= utc_base; return (time_t) (ret * 1e-7L); } void convert_from_time_t (time_t time, FILETIME * pft) { long double tmp; if (!init) { /* Determine the delta between 1-Jan-1601 and 1-Jan-1970. */ SYSTEMTIME st; st.wYear = 1970; st.wMonth = 1; st.wDay = 1; st.wHour = 0; st.wMinute = 0; st.wSecond = 0; st.wMilliseconds = 0; SystemTimeToFileTime (&st, &utc_base_ft); utc_base = (long double) utc_base_ft.dwHighDateTime * 4096 * 1024 * 1024 + utc_base_ft.dwLowDateTime; init = 1; } /* time in 100ns units since 1-Jan-1601 */ tmp = (long double) time * 1e7 + utc_base; pft->dwHighDateTime = (DWORD) (tmp / (4096.0 * 1024 * 1024)); pft->dwLowDateTime = (DWORD) (tmp - (4096.0 * 1024 * 1024) * pft->dwHighDateTime); } #if 0 /* No reason to keep this; faking inode values either by hashing or even using the file index from GetInformationByHandle, is not perfect and so by default Emacs doesn't use the inode values on Windows. Instead, we now determine file-truename correctly (except for possible drive aliasing etc). */ /* Modified version of "PJW" algorithm (see the "Dragon" compiler book). */ static unsigned hashval (const unsigned char * str) { unsigned h = 0; while (*str) { h = (h << 4) + *str++; h ^= (h >> 28); } return h; } /* Return the hash value of the canonical pathname, excluding the drive/UNC header, to get a hopefully unique inode number. */ static DWORD generate_inode_val (const char * name) { char fullname[ MAX_PATH ]; char * p; unsigned hash; /* Get the truly canonical filename, if it exists. (Note: this doesn't resolve aliasing due to subst commands, or recognise hard links. */ if (!w32_get_long_filename ((char *)name, fullname, MAX_PATH)) abort (); parse_root (fullname, &p); /* Normal W32 filesystems are still case insensitive. */ _strlwr (p); return hashval (p); } #endif /* MSVC stat function can't cope with UNC names and has other bugs, so replace it with our own. This also allows us to calculate consistent inode values without hacks in the main Emacs code. */ int stat (const char * path, struct stat * buf) { char *name, *r; WIN32_FIND_DATA wfd; HANDLE fh; DWORD fake_inode; int permission; int len; int rootdir = FALSE; if (path == NULL || buf == NULL) { errno = EFAULT; return -1; } name = (char *) map_w32_filename (path, &path); /* must be valid filename, no wild cards or other invalid characters */ if (strpbrk (name, "*?|<>\"")) { errno = ENOENT; return -1; } /* If name is "c:/.." or "/.." then stat "c:/" or "/". */ r = IS_DEVICE_SEP (name[1]) ? &name[2] : name; if (IS_DIRECTORY_SEP (r[0]) && r[1] == '.' && r[2] == '.' && r[3] == '\0') { r[1] = r[2] = '\0'; } /* Remove trailing directory separator, unless name is the root directory of a drive or UNC volume in which case ensure there is a trailing separator. */ len = strlen (name); rootdir = (path >= name + len - 1 && (IS_DIRECTORY_SEP (*path) || *path == 0)); name = strcpy (alloca (len + 2), name); if (is_unc_volume (name)) { DWORD attrs = unc_volume_file_attributes (name); if (attrs == -1) return -1; memset (&wfd, 0, sizeof (wfd)); wfd.dwFileAttributes = attrs; wfd.ftCreationTime = utc_base_ft; wfd.ftLastAccessTime = utc_base_ft; wfd.ftLastWriteTime = utc_base_ft; strcpy (wfd.cFileName, name); } else if (rootdir) { if (!IS_DIRECTORY_SEP (name[len-1])) strcat (name, "\\"); if (GetDriveType (name) < 2) { errno = ENOENT; return -1; } memset (&wfd, 0, sizeof (wfd)); wfd.dwFileAttributes = FILE_ATTRIBUTE_DIRECTORY; wfd.ftCreationTime = utc_base_ft; wfd.ftLastAccessTime = utc_base_ft; wfd.ftLastWriteTime = utc_base_ft; strcpy (wfd.cFileName, name); } else { if (IS_DIRECTORY_SEP (name[len-1])) name[len - 1] = 0; /* (This is hacky, but helps when doing file completions on network drives.) Optimize by using information available from active readdir if possible. */ len = strlen (dir_pathname); if (IS_DIRECTORY_SEP (dir_pathname[len-1])) len--; if (dir_find_handle != INVALID_HANDLE_VALUE && strnicmp (name, dir_pathname, len) == 0 && IS_DIRECTORY_SEP (name[len]) && stricmp (name + len + 1, dir_static.d_name) == 0) { /* This was the last entry returned by readdir. */ wfd = dir_find_data; } else { fh = FindFirstFile (name, &wfd); if (fh == INVALID_HANDLE_VALUE) { errno = ENOENT; return -1; } FindClose (fh); } } if (!NILP (Vw32_get_true_file_attributes) /* No access rights required to get info. */ && (fh = CreateFile (name, 0, 0, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL)) != INVALID_HANDLE_VALUE) { /* This is more accurate in terms of gettting the correct number of links, but is quite slow (it is noticable when Emacs is making a list of file name completions). */ BY_HANDLE_FILE_INFORMATION info; if (GetFileInformationByHandle (fh, &info)) { buf->st_nlink = info.nNumberOfLinks; /* Might as well use file index to fake inode values, but this is not guaranteed to be unique unless we keep a handle open all the time (even then there are situations where it is not unique). Reputedly, there are at most 48 bits of info (on NTFS, presumably less on FAT). */ fake_inode = info.nFileIndexLow ^ info.nFileIndexHigh; } else { buf->st_nlink = 1; fake_inode = 0; } if (wfd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) { buf->st_mode = _S_IFDIR; } else { switch (GetFileType (fh)) { case FILE_TYPE_DISK: buf->st_mode = _S_IFREG; break; case FILE_TYPE_PIPE: buf->st_mode = _S_IFIFO; break; case FILE_TYPE_CHAR: case FILE_TYPE_UNKNOWN: default: buf->st_mode = _S_IFCHR; } } CloseHandle (fh); } else { /* Don't bother to make this information more accurate. */ buf->st_mode = (wfd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) ? _S_IFDIR : _S_IFREG; buf->st_nlink = 1; fake_inode = 0; } #if 0 /* Not sure if there is any point in this. */ if (!NILP (Vw32_generate_fake_inodes)) fake_inode = generate_inode_val (name); else if (fake_inode == 0) { /* For want of something better, try to make everything unique. */ static DWORD gen_num = 0; fake_inode = ++gen_num; } #endif /* MSVC defines _ino_t to be short; other libc's might not. */ if (sizeof (buf->st_ino) == 2) buf->st_ino = fake_inode ^ (fake_inode >> 16); else buf->st_ino = fake_inode; /* consider files to belong to current user */ buf->st_uid = the_passwd.pw_uid; buf->st_gid = the_passwd.pw_gid; /* volume_info is set indirectly by map_w32_filename */ buf->st_dev = volume_info.serialnum; buf->st_rdev = volume_info.serialnum; buf->st_size = wfd.nFileSizeLow; /* Convert timestamps to Unix format. */ buf->st_mtime = convert_time (wfd.ftLastWriteTime); buf->st_atime = convert_time (wfd.ftLastAccessTime); if (buf->st_atime == 0) buf->st_atime = buf->st_mtime; buf->st_ctime = convert_time (wfd.ftCreationTime); if (buf->st_ctime == 0) buf->st_ctime = buf->st_mtime; /* determine rwx permissions */ if (wfd.dwFileAttributes & FILE_ATTRIBUTE_READONLY) permission = _S_IREAD; else permission = _S_IREAD | _S_IWRITE; if (wfd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) permission |= _S_IEXEC; else if (is_exec (name)) permission |= _S_IEXEC; buf->st_mode |= permission | (permission >> 3) | (permission >> 6); return 0; } /* Provide fstat and utime as well as stat for consistent handling of file timestamps. */ int fstat (int desc, struct stat * buf) { HANDLE fh = (HANDLE) _get_osfhandle (desc); BY_HANDLE_FILE_INFORMATION info; DWORD fake_inode; int permission; switch (GetFileType (fh) & ~FILE_TYPE_REMOTE) { case FILE_TYPE_DISK: buf->st_mode = _S_IFREG; if (!GetFileInformationByHandle (fh, &info)) { errno = EACCES; return -1; } break; case FILE_TYPE_PIPE: buf->st_mode = _S_IFIFO; goto non_disk; case FILE_TYPE_CHAR: case FILE_TYPE_UNKNOWN: default: buf->st_mode = _S_IFCHR; non_disk: memset (&info, 0, sizeof (info)); info.dwFileAttributes = 0; info.ftCreationTime = utc_base_ft; info.ftLastAccessTime = utc_base_ft; info.ftLastWriteTime = utc_base_ft; } if (info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) buf->st_mode = _S_IFDIR; buf->st_nlink = info.nNumberOfLinks; /* Might as well use file index to fake inode values, but this is not guaranteed to be unique unless we keep a handle open all the time (even then there are situations where it is not unique). Reputedly, there are at most 48 bits of info (on NTFS, presumably less on FAT). */ fake_inode = info.nFileIndexLow ^ info.nFileIndexHigh; /* MSVC defines _ino_t to be short; other libc's might not. */ if (sizeof (buf->st_ino) == 2) buf->st_ino = fake_inode ^ (fake_inode >> 16); else buf->st_ino = fake_inode; /* consider files to belong to current user */ buf->st_uid = 0; buf->st_gid = 0; buf->st_dev = info.dwVolumeSerialNumber; buf->st_rdev = info.dwVolumeSerialNumber; buf->st_size = info.nFileSizeLow; /* Convert timestamps to Unix format. */ buf->st_mtime = convert_time (info.ftLastWriteTime); buf->st_atime = convert_time (info.ftLastAccessTime); if (buf->st_atime == 0) buf->st_atime = buf->st_mtime; buf->st_ctime = convert_time (info.ftCreationTime); if (buf->st_ctime == 0) buf->st_ctime = buf->st_mtime; /* determine rwx permissions */ if (info.dwFileAttributes & FILE_ATTRIBUTE_READONLY) permission = _S_IREAD; else permission = _S_IREAD | _S_IWRITE; if (info.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) permission |= _S_IEXEC; else { #if 0 /* no way of knowing the filename */ char * p = strrchr (name, '.'); if (p != NULL && (stricmp (p, ".exe") == 0 || stricmp (p, ".com") == 0 || stricmp (p, ".bat") == 0 || stricmp (p, ".cmd") == 0)) permission |= _S_IEXEC; #endif } buf->st_mode |= permission | (permission >> 3) | (permission >> 6); return 0; } int utime (const char *name, struct utimbuf *times) { struct utimbuf deftime; HANDLE fh; FILETIME mtime; FILETIME atime; if (times == NULL) { deftime.modtime = deftime.actime = time (NULL); times = &deftime; } /* Need write access to set times. */ fh = CreateFile (name, GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, 0, OPEN_EXISTING, 0, NULL); if (fh) { convert_from_time_t (times->actime, &atime); convert_from_time_t (times->modtime, &mtime); if (!SetFileTime (fh, NULL, &atime, &mtime)) { CloseHandle (fh); errno = EACCES; return -1; } CloseHandle (fh); } else { errno = EINVAL; return -1; } return 0; } #ifdef HAVE_SOCKETS /* Wrappers for winsock functions to map between our file descriptors and winsock's handles; also set h_errno for convenience. To allow Emacs to run on systems which don't have winsock support installed, we dynamically link to winsock on startup if present, and otherwise provide the minimum necessary functionality (eg. gethostname). */ /* function pointers for relevant socket functions */ int (PASCAL *pfn_WSAStartup) (WORD wVersionRequired, LPWSADATA lpWSAData); void (PASCAL *pfn_WSASetLastError) (int iError); int (PASCAL *pfn_WSAGetLastError) (void); int (PASCAL *pfn_WSAEventSelect) (SOCKET s, HANDLE hEventObject, long lNetworkEvents); HANDLE (PASCAL *pfn_WSACreateEvent) (void); int (PASCAL *pfn_WSACloseEvent) (HANDLE hEvent); int (PASCAL *pfn_socket) (int af, int type, int protocol); int (PASCAL *pfn_bind) (SOCKET s, const struct sockaddr *addr, int namelen); int (PASCAL *pfn_connect) (SOCKET s, const struct sockaddr *addr, int namelen); int (PASCAL *pfn_ioctlsocket) (SOCKET s, long cmd, u_long *argp); int (PASCAL *pfn_recv) (SOCKET s, char * buf, int len, int flags); int (PASCAL *pfn_send) (SOCKET s, const char * buf, int len, int flags); int (PASCAL *pfn_closesocket) (SOCKET s); int (PASCAL *pfn_shutdown) (SOCKET s, int how); int (PASCAL *pfn_WSACleanup) (void); u_short (PASCAL *pfn_htons) (u_short hostshort); u_short (PASCAL *pfn_ntohs) (u_short netshort); unsigned long (PASCAL *pfn_inet_addr) (const char * cp); int (PASCAL *pfn_gethostname) (char * name, int namelen); struct hostent * (PASCAL *pfn_gethostbyname) (const char * name); struct servent * (PASCAL *pfn_getservbyname) (const char * name, const char * proto); int (PASCAL *pfn_getpeername) (SOCKET s, struct sockaddr *addr, int * namelen); int (PASCAL *pfn_setsockopt) (SOCKET s, int level, int optname, const char * optval, int optlen); int (PASCAL *pfn_listen) (SOCKET s, int backlog); int (PASCAL *pfn_getsockname) (SOCKET s, struct sockaddr * name, int * namelen); SOCKET (PASCAL *pfn_accept) (SOCKET s, struct sockaddr * addr, int * addrlen); int (PASCAL *pfn_recvfrom) (SOCKET s, char * buf, int len, int flags, struct sockaddr * from, int * fromlen); int (PASCAL *pfn_sendto) (SOCKET s, const char * buf, int len, int flags, const struct sockaddr * to, int tolen); /* SetHandleInformation is only needed to make sockets non-inheritable. */ BOOL (WINAPI *pfn_SetHandleInformation) (HANDLE object, DWORD mask, DWORD flags); #ifndef HANDLE_FLAG_INHERIT #define HANDLE_FLAG_INHERIT 1 #endif HANDLE winsock_lib; static int winsock_inuse; BOOL term_winsock (void) { if (winsock_lib != NULL && winsock_inuse == 0) { /* Not sure what would cause WSAENETDOWN, or even if it can happen after WSAStartup returns successfully, but it seems reasonable to allow unloading winsock anyway in that case. */ if (pfn_WSACleanup () == 0 || pfn_WSAGetLastError () == WSAENETDOWN) { if (FreeLibrary (winsock_lib)) winsock_lib = NULL; return TRUE; } } return FALSE; } BOOL init_winsock (int load_now) { WSADATA winsockData; if (winsock_lib != NULL) return TRUE; pfn_SetHandleInformation = NULL; pfn_SetHandleInformation = (void *) GetProcAddress (GetModuleHandle ("kernel32.dll"), "SetHandleInformation"); winsock_lib = LoadLibrary ("Ws2_32.dll"); if (winsock_lib != NULL) { /* dynamically link to socket functions */ #define LOAD_PROC(fn) \ if ((pfn_##fn = (void *) GetProcAddress (winsock_lib, #fn)) == NULL) \ goto fail; LOAD_PROC( WSAStartup ); LOAD_PROC( WSASetLastError ); LOAD_PROC( WSAGetLastError ); LOAD_PROC( WSAEventSelect ); LOAD_PROC( WSACreateEvent ); LOAD_PROC( WSACloseEvent ); LOAD_PROC( socket ); LOAD_PROC( bind ); LOAD_PROC( connect ); LOAD_PROC( ioctlsocket ); LOAD_PROC( recv ); LOAD_PROC( send ); LOAD_PROC( closesocket ); LOAD_PROC( shutdown ); LOAD_PROC( htons ); LOAD_PROC( ntohs ); LOAD_PROC( inet_addr ); LOAD_PROC( gethostname ); LOAD_PROC( gethostbyname ); LOAD_PROC( getservbyname ); LOAD_PROC( getpeername ); LOAD_PROC( WSACleanup ); LOAD_PROC( setsockopt ); LOAD_PROC( listen ); LOAD_PROC( getsockname ); LOAD_PROC( accept ); LOAD_PROC( recvfrom ); LOAD_PROC( sendto ); #undef LOAD_PROC /* specify version 1.1 of winsock */ if (pfn_WSAStartup (0x101, &winsockData) == 0) { if (winsockData.wVersion != 0x101) goto fail; if (!load_now) { /* Report that winsock exists and is usable, but leave socket functions disabled. I am assuming that calling WSAStartup does not require any network interaction, and in particular does not cause or require a dial-up connection to be established. */ pfn_WSACleanup (); FreeLibrary (winsock_lib); winsock_lib = NULL; } winsock_inuse = 0; return TRUE; } fail: FreeLibrary (winsock_lib); winsock_lib = NULL; } return FALSE; } int h_errno = 0; /* function to set h_errno for compatability; map winsock error codes to normal system codes where they overlap (non-overlapping definitions are already in */ static void set_errno () { if (winsock_lib == NULL) h_errno = EINVAL; else h_errno = pfn_WSAGetLastError (); switch (h_errno) { case WSAEACCES: h_errno = EACCES; break; case WSAEBADF: h_errno = EBADF; break; case WSAEFAULT: h_errno = EFAULT; break; case WSAEINTR: h_errno = EINTR; break; case WSAEINVAL: h_errno = EINVAL; break; case WSAEMFILE: h_errno = EMFILE; break; case WSAENAMETOOLONG: h_errno = ENAMETOOLONG; break; case WSAENOTEMPTY: h_errno = ENOTEMPTY; break; } errno = h_errno; } static void check_errno () { if (h_errno == 0 && winsock_lib != NULL) pfn_WSASetLastError (0); } /* Extend strerror to handle the winsock-specific error codes. */ struct { int errnum; char * msg; } _wsa_errlist[] = { WSAEINTR , "Interrupted function call", WSAEBADF , "Bad file descriptor", WSAEACCES , "Permission denied", WSAEFAULT , "Bad address", WSAEINVAL , "Invalid argument", WSAEMFILE , "Too many open files", WSAEWOULDBLOCK , "Resource temporarily unavailable", WSAEINPROGRESS , "Operation now in progress", WSAEALREADY , "Operation already in progress", WSAENOTSOCK , "Socket operation on non-socket", WSAEDESTADDRREQ , "Destination address required", WSAEMSGSIZE , "Message too long", WSAEPROTOTYPE , "Protocol wrong type for socket", WSAENOPROTOOPT , "Bad protocol option", WSAEPROTONOSUPPORT , "Protocol not supported", WSAESOCKTNOSUPPORT , "Socket type not supported", WSAEOPNOTSUPP , "Operation not supported", WSAEPFNOSUPPORT , "Protocol family not supported", WSAEAFNOSUPPORT , "Address family not supported by protocol family", WSAEADDRINUSE , "Address already in use", WSAEADDRNOTAVAIL , "Cannot assign requested address", WSAENETDOWN , "Network is down", WSAENETUNREACH , "Network is unreachable", WSAENETRESET , "Network dropped connection on reset", WSAECONNABORTED , "Software caused connection abort", WSAECONNRESET , "Connection reset by peer", WSAENOBUFS , "No buffer space available", WSAEISCONN , "Socket is already connected", WSAENOTCONN , "Socket is not connected", WSAESHUTDOWN , "Cannot send after socket shutdown", WSAETOOMANYREFS , "Too many references", /* not sure */ WSAETIMEDOUT , "Connection timed out", WSAECONNREFUSED , "Connection refused", WSAELOOP , "Network loop", /* not sure */ WSAENAMETOOLONG , "Name is too long", WSAEHOSTDOWN , "Host is down", WSAEHOSTUNREACH , "No route to host", WSAENOTEMPTY , "Buffer not empty", /* not sure */ WSAEPROCLIM , "Too many processes", WSAEUSERS , "Too many users", /* not sure */ WSAEDQUOT , "Double quote in host name", /* really not sure */ WSAESTALE , "Data is stale", /* not sure */ WSAEREMOTE , "Remote error", /* not sure */ WSASYSNOTREADY , "Network subsystem is unavailable", WSAVERNOTSUPPORTED , "WINSOCK.DLL version out of range", WSANOTINITIALISED , "Winsock not initialized successfully", WSAEDISCON , "Graceful shutdown in progress", #ifdef WSAENOMORE WSAENOMORE , "No more operations allowed", /* not sure */ WSAECANCELLED , "Operation cancelled", /* not sure */ WSAEINVALIDPROCTABLE , "Invalid procedure table from service provider", WSAEINVALIDPROVIDER , "Invalid service provider version number", WSAEPROVIDERFAILEDINIT , "Unable to initialize a service provider", WSASYSCALLFAILURE , "System call failured", WSASERVICE_NOT_FOUND , "Service not found", /* not sure */ WSATYPE_NOT_FOUND , "Class type not found", WSA_E_NO_MORE , "No more resources available", /* really not sure */ WSA_E_CANCELLED , "Operation already cancelled", /* really not sure */ WSAEREFUSED , "Operation refused", /* not sure */ #endif WSAHOST_NOT_FOUND , "Host not found", WSATRY_AGAIN , "Authoritative host not found during name lookup", WSANO_RECOVERY , "Non-recoverable error during name lookup", WSANO_DATA , "Valid name, no data record of requested type", -1, NULL }; char * sys_strerror(int error_no) { int i; static char unknown_msg[40]; if (error_no >= 0 && error_no < sys_nerr) return sys_errlist[error_no]; for (i = 0; _wsa_errlist[i].errnum >= 0; i++) if (_wsa_errlist[i].errnum == error_no) return _wsa_errlist[i].msg; sprintf(unknown_msg, "Unidentified error: %d", error_no); return unknown_msg; } /* [andrewi 3-May-96] I've had conflicting results using both methods, but I believe the method of keeping the socket handle separate (and insuring it is not inheritable) is the correct one. */ //#define SOCK_REPLACE_HANDLE #ifdef SOCK_REPLACE_HANDLE #define SOCK_HANDLE(fd) ((SOCKET) _get_osfhandle (fd)) #else #define SOCK_HANDLE(fd) ((SOCKET) fd_info[fd].hnd) #endif int socket_to_fd (SOCKET s); int sys_socket(int af, int type, int protocol) { SOCKET s; if (winsock_lib == NULL) { h_errno = ENETDOWN; return INVALID_SOCKET; } check_errno (); /* call the real socket function */ s = pfn_socket (af, type, protocol); if (s != INVALID_SOCKET) return socket_to_fd (s); set_errno (); return -1; } /* Convert a SOCKET to a file descriptor. */ int socket_to_fd (SOCKET s) { int fd; child_process * cp; /* Although under NT 3.5 _open_osfhandle will accept a socket handle, if opened with SO_OPENTYPE == SO_SYNCHRONOUS_NONALERT, that does not work under NT 3.1. However, we can get the same effect by using a backdoor function to replace an existing descriptor handle with the one we want. */ /* allocate a file descriptor (with appropriate flags) */ fd = _open ("NUL:", _O_RDWR); if (fd >= 0) { #ifdef SOCK_REPLACE_HANDLE /* now replace handle to NUL with our socket handle */ CloseHandle ((HANDLE) _get_osfhandle (fd)); _free_osfhnd (fd); _set_osfhnd (fd, s); /* setmode (fd, _O_BINARY); */ #else /* Make a non-inheritable copy of the socket handle. Note that it is possible that sockets aren't actually kernel handles, which appears to be the case on Windows 9x when the MS Proxy winsock client is installed. */ { /* Apparently there is a bug in NT 3.51 with some service packs, which prevents using DuplicateHandle to make a socket handle non-inheritable (causes WSACleanup to hang). The work-around is to use SetHandleInformation instead if it is available and implemented. */ if (pfn_SetHandleInformation) { pfn_SetHandleInformation ((HANDLE) s, HANDLE_FLAG_INHERIT, 0); } else { HANDLE parent = GetCurrentProcess (); HANDLE new_s = INVALID_HANDLE_VALUE; if (DuplicateHandle (parent, (HANDLE) s, parent, &new_s, 0, FALSE, DUPLICATE_SAME_ACCESS)) { /* It is possible that DuplicateHandle succeeds even though the socket wasn't really a kernel handle, because a real handle has the same value. So test whether the new handle really is a socket. */ long nonblocking = 0; if (pfn_ioctlsocket ((SOCKET) new_s, FIONBIO, &nonblocking) == 0) { pfn_closesocket (s); s = (SOCKET) new_s; } else { CloseHandle (new_s); } } } } fd_info[fd].hnd = (HANDLE) s; #endif /* set our own internal flags */ fd_info[fd].flags = FILE_SOCKET | FILE_BINARY | FILE_READ | FILE_WRITE; cp = new_child (); if (cp) { cp->fd = fd; cp->status = STATUS_READ_ACKNOWLEDGED; /* attach child_process to fd_info */ if (fd_info[ fd ].cp != NULL) { DebPrint (("sys_socket: fd_info[%d] apparently in use!\n", fd)); abort (); } fd_info[ fd ].cp = cp; /* success! */ winsock_inuse++; /* count open sockets */ return fd; } /* clean up */ _close (fd); } pfn_closesocket (s); h_errno = EMFILE; return -1; } int sys_bind (int s, const struct sockaddr * addr, int namelen) { if (winsock_lib == NULL) { h_errno = ENOTSOCK; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_bind (SOCK_HANDLE (s), addr, namelen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_connect (int s, const struct sockaddr * name, int namelen) { if (winsock_lib == NULL) { h_errno = ENOTSOCK; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_connect (SOCK_HANDLE (s), name, namelen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } u_short sys_htons (u_short hostshort) { return (winsock_lib != NULL) ? pfn_htons (hostshort) : hostshort; } u_short sys_ntohs (u_short netshort) { return (winsock_lib != NULL) ? pfn_ntohs (netshort) : netshort; } unsigned long sys_inet_addr (const char * cp) { return (winsock_lib != NULL) ? pfn_inet_addr (cp) : INADDR_NONE; } int sys_gethostname (char * name, int namelen) { if (winsock_lib != NULL) return pfn_gethostname (name, namelen); if (namelen > MAX_COMPUTERNAME_LENGTH) return !GetComputerName (name, (DWORD *)&namelen); h_errno = EFAULT; return SOCKET_ERROR; } struct hostent * sys_gethostbyname(const char * name) { struct hostent * host; if (winsock_lib == NULL) { h_errno = ENETDOWN; return NULL; } check_errno (); host = pfn_gethostbyname (name); if (!host) set_errno (); return host; } struct servent * sys_getservbyname(const char * name, const char * proto) { struct servent * serv; if (winsock_lib == NULL) { h_errno = ENETDOWN; return NULL; } check_errno (); serv = pfn_getservbyname (name, proto); if (!serv) set_errno (); return serv; } int sys_getpeername (int s, struct sockaddr *addr, int * namelen) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_getpeername (SOCK_HANDLE (s), addr, namelen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_shutdown (int s, int how) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_shutdown (SOCK_HANDLE (s), how); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_setsockopt (int s, int level, int optname, const void * optval, int optlen) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_setsockopt (SOCK_HANDLE (s), level, optname, (const char *)optval, optlen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_listen (int s, int backlog) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_listen (SOCK_HANDLE (s), backlog); if (rc == SOCKET_ERROR) set_errno (); else fd_info[s].flags |= FILE_LISTEN; return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_getsockname (int s, struct sockaddr * name, int * namelen) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_getsockname (SOCK_HANDLE (s), name, namelen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_accept (int s, struct sockaddr * addr, int * addrlen) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return -1; } check_errno (); if (fd_info[s].flags & FILE_LISTEN) { SOCKET t = pfn_accept (SOCK_HANDLE (s), addr, addrlen); int fd = -1; if (t == INVALID_SOCKET) set_errno (); else fd = socket_to_fd (t); fd_info[s].cp->status = STATUS_READ_ACKNOWLEDGED; ResetEvent (fd_info[s].cp->char_avail); return fd; } h_errno = ENOTSOCK; return -1; } int sys_recvfrom (int s, char * buf, int len, int flags, struct sockaddr * from, int * fromlen) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_recvfrom (SOCK_HANDLE (s), buf, len, flags, from, fromlen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } int sys_sendto (int s, const char * buf, int len, int flags, const struct sockaddr * to, int tolen) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return SOCKET_ERROR; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { int rc = pfn_sendto (SOCK_HANDLE (s), buf, len, flags, to, tolen); if (rc == SOCKET_ERROR) set_errno (); return rc; } h_errno = ENOTSOCK; return SOCKET_ERROR; } /* Windows does not have an fcntl function. Provide an implementation solely for making sockets non-blocking. */ int fcntl (int s, int cmd, int options) { if (winsock_lib == NULL) { h_errno = ENETDOWN; return -1; } check_errno (); if (fd_info[s].flags & FILE_SOCKET) { if (cmd == F_SETFL && options == O_NDELAY) { unsigned long nblock = 1; int rc = pfn_ioctlsocket (SOCK_HANDLE (s), FIONBIO, &nblock); if (rc == SOCKET_ERROR) set_errno(); /* Keep track of the fact that we set this to non-blocking. */ fd_info[s].flags |= FILE_NDELAY; return rc; } else { h_errno = EINVAL; return SOCKET_ERROR; } } h_errno = ENOTSOCK; return SOCKET_ERROR; } #endif /* HAVE_SOCKETS */ /* Shadow main io functions: we need to handle pipes and sockets more intelligently, and implement non-blocking mode as well. */ int sys_close (int fd) { int rc; if (fd < 0) { errno = EBADF; return -1; } if (fd < MAXDESC && fd_info[fd].cp) { child_process * cp = fd_info[fd].cp; fd_info[fd].cp = NULL; if (CHILD_ACTIVE (cp)) { /* if last descriptor to active child_process then cleanup */ int i; for (i = 0; i < MAXDESC; i++) { if (i == fd) continue; if (fd_info[i].cp == cp) break; } if (i == MAXDESC) { #ifdef HAVE_SOCKETS if (fd_info[fd].flags & FILE_SOCKET) { #ifndef SOCK_REPLACE_HANDLE if (winsock_lib == NULL) abort (); pfn_shutdown (SOCK_HANDLE (fd), 2); rc = pfn_closesocket (SOCK_HANDLE (fd)); #endif winsock_inuse--; /* count open sockets */ } #endif delete_child (cp); } } } /* Note that sockets do not need special treatment here (at least on NT and Windows 95 using the standard tcp/ip stacks) - it appears that closesocket is equivalent to CloseHandle, which is to be expected because socket handles are fully fledged kernel handles. */ rc = _close (fd); if (rc == 0 && fd < MAXDESC) fd_info[fd].flags = 0; return rc; } int sys_dup (int fd) { int new_fd; new_fd = _dup (fd); if (new_fd >= 0 && new_fd < MAXDESC) { /* duplicate our internal info as well */ fd_info[new_fd] = fd_info[fd]; } return new_fd; } int sys_dup2 (int src, int dst) { int rc; if (dst < 0 || dst >= MAXDESC) { errno = EBADF; return -1; } /* make sure we close the destination first if it's a pipe or socket */ if (src != dst && fd_info[dst].flags != 0) sys_close (dst); rc = _dup2 (src, dst); if (rc == 0) { /* duplicate our internal info as well */ fd_info[dst] = fd_info[src]; } return rc; } /* Unix pipe() has only one arg */ int sys_pipe (int * phandles) { int rc; unsigned flags; /* make pipe handles non-inheritable; when we spawn a child, we replace the relevant handle with an inheritable one. Also put pipes into binary mode; we will do text mode translation ourselves if required. */ rc = _pipe (phandles, 0, _O_NOINHERIT | _O_BINARY); if (rc == 0) { /* Protect against overflow, since Windows can open more handles than our fd_info array has room for. */ if (phandles[0] >= MAXDESC || phandles[1] >= MAXDESC) { _close (phandles[0]); _close (phandles[1]); rc = -1; } else { flags = FILE_PIPE | FILE_READ | FILE_BINARY; fd_info[phandles[0]].flags = flags; flags = FILE_PIPE | FILE_WRITE | FILE_BINARY; fd_info[phandles[1]].flags = flags; } } return rc; } /* From ntproc.c */ extern int w32_pipe_read_delay; /* Function to do blocking read of one byte, needed to implement select. It is only allowed on sockets and pipes. */ int _sys_read_ahead (int fd) { child_process * cp; int rc; if (fd < 0 || fd >= MAXDESC) return STATUS_READ_ERROR; cp = fd_info[fd].cp; if (cp == NULL || cp->fd != fd || cp->status != STATUS_READ_READY) return STATUS_READ_ERROR; if ((fd_info[fd].flags & (FILE_PIPE | FILE_SOCKET)) == 0 || (fd_info[fd].flags & FILE_READ) == 0) { DebPrint (("_sys_read_ahead: internal error: fd %d is not a pipe or socket!\n", fd)); abort (); } cp->status = STATUS_READ_IN_PROGRESS; if (fd_info[fd].flags & FILE_PIPE) { rc = _read (fd, &cp->chr, sizeof (char)); /* Give subprocess time to buffer some more output for us before reporting that input is available; we need this because Windows 95 connects DOS programs to pipes by making the pipe appear to be the normal console stdout - as a result most DOS programs will write to stdout without buffering, ie. one character at a time. Even some W32 programs do this - "dir" in a command shell on NT is very slow if we don't do this. */ if (rc > 0) { int wait = w32_pipe_read_delay; if (wait > 0) Sleep (wait); else if (wait < 0) while (++wait <= 0) /* Yield remainder of our time slice, effectively giving a temporary priority boost to the child process. */ Sleep (0); } } #ifdef HAVE_SOCKETS else if (fd_info[fd].flags & FILE_SOCKET) { unsigned long nblock = 0; /* We always want this to block, so temporarily disable NDELAY. */ if (fd_info[fd].flags & FILE_NDELAY) pfn_ioctlsocket (SOCK_HANDLE (fd), FIONBIO, &nblock); rc = pfn_recv (SOCK_HANDLE (fd), &cp->chr, sizeof (char), 0); if (fd_info[fd].flags & FILE_NDELAY) { nblock = 1; pfn_ioctlsocket (SOCK_HANDLE (fd), FIONBIO, &nblock); } } #endif if (rc == sizeof (char)) cp->status = STATUS_READ_SUCCEEDED; else cp->status = STATUS_READ_FAILED; return cp->status; } int _sys_wait_accept (int fd) { HANDLE hEv; child_process * cp; int rc; if (fd < 0 || fd >= MAXDESC) return STATUS_READ_ERROR; cp = fd_info[fd].cp; if (cp == NULL || cp->fd != fd || cp->status != STATUS_READ_READY) return STATUS_READ_ERROR; cp->status = STATUS_READ_FAILED; hEv = pfn_WSACreateEvent (); rc = pfn_WSAEventSelect (SOCK_HANDLE (fd), hEv, FD_ACCEPT); if (rc != SOCKET_ERROR) { rc = WaitForSingleObject (hEv, INFINITE); pfn_WSAEventSelect (SOCK_HANDLE (fd), NULL, 0); pfn_WSACloseEvent (hEv); if (rc == WAIT_OBJECT_0) cp->status = STATUS_READ_SUCCEEDED; } return cp->status; } int sys_read (int fd, char * buffer, unsigned int count) { int nchars; int to_read; DWORD waiting; char * orig_buffer = buffer; if (fd < 0) { errno = EBADF; return -1; } if (fd < MAXDESC && fd_info[fd].flags & (FILE_PIPE | FILE_SOCKET)) { child_process *cp = fd_info[fd].cp; if ((fd_info[fd].flags & FILE_READ) == 0) { errno = EBADF; return -1; } nchars = 0; /* re-read CR carried over from last read */ if (fd_info[fd].flags & FILE_LAST_CR) { if (fd_info[fd].flags & FILE_BINARY) abort (); *buffer++ = 0x0d; count--; nchars++; fd_info[fd].flags &= ~FILE_LAST_CR; } /* presence of a child_process structure means we are operating in non-blocking mode - otherwise we just call _read directly. Note that the child_process structure might be missing because reap_subprocess has been called; in this case the pipe is already broken, so calling _read on it is okay. */ if (cp) { int current_status = cp->status; switch (current_status) { case STATUS_READ_FAILED: case STATUS_READ_ERROR: /* report normal EOF if nothing in buffer */ if (nchars <= 0) fd_info[fd].flags |= FILE_AT_EOF; return nchars; case STATUS_READ_READY: case STATUS_READ_IN_PROGRESS: DebPrint (("sys_read called when read is in progress\n")); errno = EWOULDBLOCK; return -1; case STATUS_READ_SUCCEEDED: /* consume read-ahead char */ *buffer++ = cp->chr; count--; nchars++; cp->status = STATUS_READ_ACKNOWLEDGED; ResetEvent (cp->char_avail); case STATUS_READ_ACKNOWLEDGED: break; default: DebPrint (("sys_read: bad status %d\n", current_status)); errno = EBADF; return -1; } if (fd_info[fd].flags & FILE_PIPE) { PeekNamedPipe ((HANDLE) _get_osfhandle (fd), NULL, 0, NULL, &waiting, NULL); to_read = min (waiting, (DWORD) count); if (to_read > 0) nchars += _read (fd, buffer, to_read); } #ifdef HAVE_SOCKETS else /* FILE_SOCKET */ { if (winsock_lib == NULL) abort (); /* do the equivalent of a non-blocking read */ pfn_ioctlsocket (SOCK_HANDLE (fd), FIONREAD, &waiting); if (waiting == 0 && nchars == 0) { h_errno = errno = EWOULDBLOCK; return -1; } if (waiting) { /* always use binary mode for sockets */ int res = pfn_recv (SOCK_HANDLE (fd), buffer, count, 0); if (res == SOCKET_ERROR) { DebPrint(("sys_read.recv failed with error %d on socket %ld\n", pfn_WSAGetLastError (), SOCK_HANDLE (fd))); set_errno (); return -1; } nchars += res; } } #endif } else { int nread = _read (fd, buffer, count); if (nread >= 0) nchars += nread; else if (nchars == 0) nchars = nread; } if (nchars <= 0) fd_info[fd].flags |= FILE_AT_EOF; /* Perform text mode translation if required. */ else if ((fd_info[fd].flags & FILE_BINARY) == 0) { nchars = crlf_to_lf (nchars, orig_buffer); /* If buffer contains only CR, return that. To be absolutely sure we should attempt to read the next char, but in practice a CR to be followed by LF would not appear by itself in the buffer. */ if (nchars > 1 && orig_buffer[nchars - 1] == 0x0d) { fd_info[fd].flags |= FILE_LAST_CR; nchars--; } } } else nchars = _read (fd, buffer, count); return nchars; } /* For now, don't bother with a non-blocking mode */ int sys_write (int fd, const void * buffer, unsigned int count) { int nchars; if (fd < 0) { errno = EBADF; return -1; } if (fd < MAXDESC && fd_info[fd].flags & (FILE_PIPE | FILE_SOCKET)) { if ((fd_info[fd].flags & FILE_WRITE) == 0) { errno = EBADF; return -1; } /* Perform text mode translation if required. */ if ((fd_info[fd].flags & FILE_BINARY) == 0) { char * tmpbuf = alloca (count * 2); unsigned char * src = (void *)buffer; unsigned char * dst = tmpbuf; int nbytes = count; while (1) { unsigned char *next; /* copy next line or remaining bytes */ next = _memccpy (dst, src, '\n', nbytes); if (next) { /* copied one line ending with '\n' */ int copied = next - dst; nbytes -= copied; src += copied; /* insert '\r' before '\n' */ next[-1] = '\r'; next[0] = '\n'; dst = next + 1; count++; } else /* copied remaining partial line -> now finished */ break; } buffer = tmpbuf; } } #ifdef HAVE_SOCKETS if (fd < MAXDESC && fd_info[fd].flags & FILE_SOCKET) { unsigned long nblock = 0; if (winsock_lib == NULL) abort (); /* TODO: implement select() properly so non-blocking I/O works. */ /* For now, make sure the write blocks. */ if (fd_info[fd].flags & FILE_NDELAY) pfn_ioctlsocket (SOCK_HANDLE (fd), FIONBIO, &nblock); nchars = pfn_send (SOCK_HANDLE (fd), buffer, count, 0); /* Set the socket back to non-blocking if it was before, for other operations that support it. */ if (fd_info[fd].flags & FILE_NDELAY) { nblock = 1; pfn_ioctlsocket (SOCK_HANDLE (fd), FIONBIO, &nblock); } if (nchars == SOCKET_ERROR) { DebPrint(("sys_write.send failed with error %d on socket %ld\n", pfn_WSAGetLastError (), SOCK_HANDLE (fd))); set_errno (); } } else #endif nchars = _write (fd, buffer, count); return nchars; } static void check_windows_init_file () { extern int noninteractive, inhibit_window_system; /* A common indication that Emacs is not installed properly is when it cannot find the Windows installation file. If this file does not exist in the expected place, tell the user. */ if (!noninteractive && !inhibit_window_system) { extern Lisp_Object Vwindow_system, Vload_path, Qfile_exists_p; Lisp_Object objs[2]; Lisp_Object full_load_path; Lisp_Object init_file; int fd; objs[0] = Vload_path; objs[1] = decode_env_path (0, (getenv ("EMACSLOADPATH"))); full_load_path = Fappend (2, objs); init_file = build_string ("term/w32-win"); fd = openp (full_load_path, init_file, Fget_load_suffixes (), NULL, Qnil); if (fd < 0) { Lisp_Object load_path_print = Fprin1_to_string (full_load_path, Qnil); char *init_file_name = SDATA (init_file); char *load_path = SDATA (load_path_print); char *buffer = alloca (1024 + strlen (init_file_name) + strlen (load_path)); sprintf (buffer, "The Emacs Windows initialization file \"%s.el\" " "could not be found in your Emacs installation. " "Emacs checked the following directories for this file:\n" "\n%s\n\n" "When Emacs cannot find this file, it usually means that it " "was not installed properly, or its distribution file was " "not unpacked properly.\nSee the README.W32 file in the " "top-level Emacs directory for more information.", init_file_name, load_path); MessageBox (NULL, buffer, "Emacs Abort Dialog", MB_OK | MB_ICONEXCLAMATION | MB_TASKMODAL); /* Use the low-level Emacs abort. */ #undef abort abort (); } else { _close (fd); } } } void term_ntproc () { #ifdef HAVE_SOCKETS /* shutdown the socket interface if necessary */ term_winsock (); #endif term_w32select (); } void init_ntproc () { #ifdef HAVE_SOCKETS /* Initialise the socket interface now if available and requested by the user by defining PRELOAD_WINSOCK; otherwise loading will be delayed until open-network-stream is called (w32-has-winsock can also be used to dynamically load or reload winsock). Conveniently, init_environment is called before us, so PRELOAD_WINSOCK can be set in the registry. */ /* Always initialize this correctly. */ winsock_lib = NULL; if (getenv ("PRELOAD_WINSOCK") != NULL) init_winsock (TRUE); #endif /* Initial preparation for subprocess support: replace our standard handles with non-inheritable versions. */ { HANDLE parent; HANDLE stdin_save = INVALID_HANDLE_VALUE; HANDLE stdout_save = INVALID_HANDLE_VALUE; HANDLE stderr_save = INVALID_HANDLE_VALUE; parent = GetCurrentProcess (); /* ignore errors when duplicating and closing; typically the handles will be invalid when running as a gui program. */ DuplicateHandle (parent, GetStdHandle (STD_INPUT_HANDLE), parent, &stdin_save, 0, FALSE, DUPLICATE_SAME_ACCESS); DuplicateHandle (parent, GetStdHandle (STD_OUTPUT_HANDLE), parent, &stdout_save, 0, FALSE, DUPLICATE_SAME_ACCESS); DuplicateHandle (parent, GetStdHandle (STD_ERROR_HANDLE), parent, &stderr_save, 0, FALSE, DUPLICATE_SAME_ACCESS); fclose (stdin); fclose (stdout); fclose (stderr); if (stdin_save != INVALID_HANDLE_VALUE) _open_osfhandle ((long) stdin_save, O_TEXT); else _open ("nul", O_TEXT | O_NOINHERIT | O_RDONLY); _fdopen (0, "r"); if (stdout_save != INVALID_HANDLE_VALUE) _open_osfhandle ((long) stdout_save, O_TEXT); else _open ("nul", O_TEXT | O_NOINHERIT | O_WRONLY); _fdopen (1, "w"); if (stderr_save != INVALID_HANDLE_VALUE) _open_osfhandle ((long) stderr_save, O_TEXT); else _open ("nul", O_TEXT | O_NOINHERIT | O_WRONLY); _fdopen (2, "w"); } /* unfortunately, atexit depends on implementation of malloc */ /* atexit (term_ntproc); */ signal (SIGABRT, term_ntproc); /* determine which drives are fixed, for GetCachedVolumeInformation */ { /* GetDriveType must have trailing backslash. */ char drive[] = "A:\\"; /* Loop over all possible drive letters */ while (*drive <= 'Z') { /* Record if this drive letter refers to a fixed drive. */ fixed_drives[DRIVE_INDEX (*drive)] = (GetDriveType (drive) == DRIVE_FIXED); (*drive)++; } /* Reset the volume info cache. */ volume_cache = NULL; } /* Check to see if Emacs has been installed correctly. */ check_windows_init_file (); } /* shutdown_handler ensures that buffers' autosave files are up to date when the user logs off, or the system shuts down. */ BOOL WINAPI shutdown_handler(DWORD type) { /* Ctrl-C and Ctrl-Break are already suppressed, so don't handle them. */ if (type == CTRL_CLOSE_EVENT /* User closes console window. */ || type == CTRL_LOGOFF_EVENT /* User logs off. */ || type == CTRL_SHUTDOWN_EVENT) /* User shutsdown. */ { /* Shut down cleanly, making sure autosave files are up to date. */ shut_down_emacs (0, 0, Qnil); } /* Allow other handlers to handle this signal. */ return FALSE; } /* globals_of_w32 is used to initialize those global variables that must always be initialized on startup even when the global variable initialized is non zero (see the function main in emacs.c). */ void globals_of_w32 () { g_b_init_is_windows_9x = 0; g_b_init_open_process_token = 0; g_b_init_get_token_information = 0; g_b_init_lookup_account_sid = 0; g_b_init_get_sid_identifier_authority = 0; /* The following sets a handler for shutdown notifications for console apps. This actually applies to Emacs in both console and GUI modes, since we had to fool windows into thinking emacs is a console application to get console mode to work. */ SetConsoleCtrlHandler(shutdown_handler, TRUE); } /* end of nt.c */ /* arch-tag: 90442dd3-37be-482b-b272-ac752e3049f1 (do not change this comment) */