/* passwd.cc: getpwnam () and friends Copyright 1996, 1997, 1998, 2001, 2002 Red Hat, Inc. 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 #include #include #include #include "cygerrno.h" #include "security.h" #include "fhandler.h" #include "path.h" #include "dtable.h" #include "pinfo.h" #include "cygheap.h" #include #include "pwdgrp.h" /* Read /etc/passwd only once for better performance. This is done on the first call that needs information from it. */ static struct passwd *passwd_buf; /* passwd contents in memory */ static int curr_lines = -1; static int max_lines; static pwdgrp_check passwd_state; /* Position in the passwd cache */ #ifdef _MT_SAFE #define pw_pos _reent_winsup ()->_pw_pos #else static int pw_pos = 0; #endif /* Remove a : teminated string from the buffer, and increment the pointer */ static char * grab_string (char **p) { char *src = *p; char *res = src; while (*src && *src != ':' && *src != '\n') src++; if (*src == ':') { *src = 0; src++; } *p = src; return res; } /* same, for ints */ static int grab_int (char **p) { char *src = *p; int val = strtol (src, NULL, 10); while (*src && *src != ':' && *src != '\n') src++; if (*src == ':') src++; *p = src; return val; } /* Parse /etc/passwd line into passwd structure. */ static int parse_pwd (struct passwd &res, char *buf) { /* Allocate enough room for the passwd struct and all the strings in it in one go */ size_t len = strlen (buf); if (buf[--len] == '\r') buf[len] = '\0'; if (len < 6) return 0; res.pw_name = grab_string (&buf); res.pw_passwd = grab_string (&buf); res.pw_uid = grab_int (&buf); res.pw_gid = grab_int (&buf); res.pw_comment = 0; res.pw_gecos = grab_string (&buf); res.pw_dir = grab_string (&buf); res.pw_shell = grab_string (&buf); return 1; } /* Add one line from /etc/passwd into the password cache */ static void add_pwd_line (char *line) { if (curr_lines >= max_lines) { max_lines += 10; passwd_buf = (struct passwd *) realloc (passwd_buf, max_lines * sizeof (struct passwd)); } if (parse_pwd (passwd_buf[curr_lines], line)) curr_lines++; } class passwd_lock { bool armed; static NO_COPY pthread_mutex_t mutex; public: passwd_lock (bool doit) { if (doit) pthread_mutex_lock (&mutex); armed = doit; } ~passwd_lock () { if (armed) pthread_mutex_unlock (&mutex); } }; pthread_mutex_t NO_COPY passwd_lock::mutex = (pthread_mutex_t) PTHREAD_MUTEX_INITIALIZER; /* Cygwin internal */ /* If this ever becomes non-reentrant, update all the getpw*_r functions */ static struct passwd * search_for (__uid32_t uid, const char *name) { struct passwd *res = 0; for (int i = 0; i < curr_lines; i++) { res = passwd_buf + i; /* on Windows NT user names are case-insensitive */ if (name) { if (strcasematch (name, res->pw_name)) return res; } else if (uid == (__uid32_t) res->pw_uid) return res; } return NULL; } /* Read in /etc/passwd and save contents in the password cache. This sets passwd_state to loaded or emulated so functions in this file can tell that /etc/passwd has been read in or will be emulated. */ static void read_etc_passwd () { static pwdgrp_read pr; /* A mutex is ok for speed here - pthreads will use critical sections not * mutexes for non-shared mutexes in the future. Also, this function will * at most be called once from each thread, after that the passwd_state * test will succeed */ passwd_lock here (cygwin_finished_initializing); /* if we got blocked by the mutex, then etc_passwd may have been processed */ if (passwd_state != uninitialized) return; if (passwd_state != initializing) { passwd_state = initializing; curr_lines = 0; if (pr.open ("/etc/passwd")) { char *line; while ((line = pr.gets ()) != NULL) add_pwd_line (line); passwd_state.set_last_modified (pr.get_fhandle (), pr.get_fname ()); pr.close (); debug_printf ("Read /etc/passwd, %d lines", curr_lines); } static char linebuf[1024]; char strbuf[128] = ""; BOOL searchentry = TRUE; __uid32_t default_uid = DEFAULT_UID; struct passwd *pw; if (wincap.has_security ()) { cygsid tu = cygheap->user.sid (); tu.string (strbuf); if (myself->uid == ILLEGAL_UID && (searchentry = !internal_getpwsid (tu))) default_uid = DEFAULT_UID_NT; } if (searchentry && (!(pw = search_for (0, cygheap->user.name ())) || (myself->uid != ILLEGAL_UID && myself->uid != (__uid32_t) pw->pw_uid && !search_for (myself->uid, NULL)))) { snprintf (linebuf, sizeof (linebuf), "%s:*:%lu:%lu:,%s:%s:/bin/sh", cygheap->user.name (), myself->uid == ILLEGAL_UID ? default_uid : myself->uid, myself->gid, strbuf, getenv ("HOME") ?: "/"); debug_printf ("Completing /etc/passwd: %s", linebuf); add_pwd_line (linebuf); } passwd_state = loaded; } return; } struct passwd * internal_getpwsid (cygsid &sid) { struct passwd *pw; char *ptr1, *ptr2, *endptr; char sid_string[128] = {0,','}; if (curr_lines < 0 && passwd_state <= initializing) read_etc_passwd (); if (sid.string (sid_string + 2)) { endptr = strchr (sid_string + 2, 0) - 1; for (int i = 0; i < curr_lines; i++) if ((pw = passwd_buf + i)->pw_dir > pw->pw_gecos + 8) for (ptr1 = endptr, ptr2 = pw->pw_dir - 2; *ptr1 == *ptr2; ptr2--) if (!*--ptr1) return pw; } return NULL; } extern "C" struct passwd * getpwuid32 (__uid32_t uid) { if (passwd_state <= initializing) read_etc_passwd (); pthread_testcancel (); return search_for (uid, 0); } extern "C" struct passwd * getpwuid (__uid16_t uid) { return getpwuid32 (uid16touid32 (uid)); } extern "C" int getpwuid_r32 (__uid32_t uid, struct passwd *pwd, char *buffer, size_t bufsize, struct passwd **result) { *result = NULL; if (!pwd || !buffer) return ERANGE; if (passwd_state <= initializing) read_etc_passwd (); pthread_testcancel (); struct passwd *temppw = search_for (uid, 0); if (!temppw) return 0; /* check needed buffer size. */ size_t needsize = strlen (temppw->pw_name) + strlen (temppw->pw_dir) + strlen (temppw->pw_shell) + strlen (temppw->pw_gecos) + strlen (temppw->pw_passwd) + 5; if (needsize > bufsize) return ERANGE; /* make a copy of temppw */ *result = pwd; pwd->pw_uid = temppw->pw_uid; pwd->pw_gid = temppw->pw_gid; pwd->pw_name = buffer; pwd->pw_dir = pwd->pw_name + strlen (temppw->pw_name) + 1; pwd->pw_shell = pwd->pw_dir + strlen (temppw->pw_dir) + 1; pwd->pw_gecos = pwd->pw_shell + strlen (temppw->pw_shell) + 1; pwd->pw_passwd = pwd->pw_gecos + strlen (temppw->pw_gecos) + 1; strcpy (pwd->pw_name, temppw->pw_name); strcpy (pwd->pw_dir, temppw->pw_dir); strcpy (pwd->pw_shell, temppw->pw_shell); strcpy (pwd->pw_gecos, temppw->pw_gecos); strcpy (pwd->pw_passwd, temppw->pw_passwd); return 0; } extern "C" int getpwuid_r (__uid16_t uid, struct passwd *pwd, char *buffer, size_t bufsize, struct passwd **result) { return getpwuid_r32 (uid16touid32 (uid), pwd, buffer, bufsize, result); } extern "C" struct passwd * getpwnam (const char *name) { if (passwd_state <= initializing) read_etc_passwd (); pthread_testcancel (); return search_for (0, name); } /* the max size buffer we can expect to * use is returned via sysconf with _SC_GETPW_R_SIZE_MAX. * This may need updating! - Rob Collins April 2001. */ extern "C" int getpwnam_r (const char *nam, struct passwd *pwd, char *buffer, size_t bufsize, struct passwd **result) { *result = NULL; if (!pwd || !buffer || !nam) return ERANGE; if (passwd_state <= initializing) read_etc_passwd (); pthread_testcancel (); struct passwd *temppw = search_for (0, nam); if (!temppw) return 0; /* check needed buffer size. */ size_t needsize = strlen (temppw->pw_name) + strlen (temppw->pw_dir) + strlen (temppw->pw_shell) + strlen (temppw->pw_gecos) + strlen (temppw->pw_passwd) + 5; if (needsize > bufsize) return ERANGE; /* make a copy of temppw */ *result = pwd; pwd->pw_uid = temppw->pw_uid; pwd->pw_gid = temppw->pw_gid; pwd->pw_name = buffer; pwd->pw_dir = pwd->pw_name + strlen (temppw->pw_name) + 1; pwd->pw_shell = pwd->pw_dir + strlen (temppw->pw_dir) + 1; pwd->pw_gecos = pwd->pw_shell + strlen (temppw->pw_shell) + 1; pwd->pw_passwd = pwd->pw_gecos + strlen (temppw->pw_gecos) + 1; strcpy (pwd->pw_name, temppw->pw_name); strcpy (pwd->pw_dir, temppw->pw_dir); strcpy (pwd->pw_shell, temppw->pw_shell); strcpy (pwd->pw_gecos, temppw->pw_gecos); strcpy (pwd->pw_passwd, temppw->pw_passwd); return 0; } extern "C" struct passwd * getpwent (void) { if (passwd_state <= initializing) read_etc_passwd (); if (pw_pos < curr_lines) return passwd_buf + pw_pos++; return NULL; } extern "C" struct passwd * getpwduid (__uid16_t) { return NULL; } extern "C" void setpwent (void) { pw_pos = 0; } extern "C" void endpwent (void) { pw_pos = 0; } extern "C" int setpassent () { return 0; } #if 0 /* Unused */ /* Internal function. ONLY USE THIS INTERNALLY, NEVER `getpwent'!!! */ struct passwd * internal_getpwent (int pos) { if (passwd_state <= initializing) read_etc_passwd (); if (pos < curr_lines) return passwd_buf + pos; return NULL; } #endif extern "C" char * getpass (const char * prompt) { #ifdef _MT_SAFE char *pass=_reent_winsup ()->_pass; #else static char pass[_PASSWORD_LEN]; #endif struct termios ti, newti; if (passwd_state <= initializing) read_etc_passwd (); cygheap_fdget fhstdin (0); if (fhstdin < 0) pass[0] = '\0'; else { fhstdin->tcgetattr (&ti); newti = ti; newti.c_lflag &= ~ECHO; fhstdin->tcsetattr (TCSANOW, &newti); fputs (prompt, stderr); fgets (pass, _PASSWORD_LEN, stdin); fprintf (stderr, "\n"); for (int i=0; pass[i]; i++) if (pass[i] == '\r' || pass[i] == '\n') pass[i] = '\0'; fhstdin->tcsetattr (TCSANOW, &ti); } return pass; }