/* SSSD Client Interface for NSS and PAM. Authors: Simo Sorce Copyright (C) Red Hat, Inc 2007 This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #ifndef _SSSCLI_H #define _SSSCLI_H #include #include #include #include #include #include #ifndef HAVE_ERRNO_T #define HAVE_ERRNO_T typedef int errno_t; #endif #ifndef EOK #define EOK 0 #endif #define SSS_NSS_PROTOCOL_VERSION 1 #define SSS_PAM_PROTOCOL_VERSION 3 #define SSS_SUDO_PROTOCOL_VERSION 0 #define SSS_AUTOFS_PROTOCOL_VERSION 1 #define SSS_SSH_PROTOCOL_VERSION 0 #define SSS_PAC_PROTOCOL_VERSION 1 #ifdef LOGIN_NAME_MAX #define SSS_NAME_MAX LOGIN_NAME_MAX #else #define SSS_NAME_MAX 256 #endif /** * @defgroup sss_cli_command SSS client commands * @{ */ /** The allowed commands a SSS client can send to the SSSD */ enum sss_cli_command { /* null */ SSS_CLI_NULL = 0x0000, /* version */ SSS_GET_VERSION = 0x0001, /* passwd */ SSS_NSS_GETPWNAM = 0x0011, SSS_NSS_GETPWUID = 0x0012, SSS_NSS_SETPWENT = 0x0013, SSS_NSS_GETPWENT = 0x0014, SSS_NSS_ENDPWENT = 0x0015, /* group */ SSS_NSS_GETGRNAM = 0x0021, SSS_NSS_GETGRGID = 0x0022, SSS_NSS_SETGRENT = 0x0023, SSS_NSS_GETGRENT = 0x0024, SSS_NSS_ENDGRENT = 0x0025, SSS_NSS_INITGR = 0x0026, #if 0 /* aliases */ SSS_NSS_GETALIASBYNAME = 0x0031, SSS_NSS_GETALIASBYPORT = 0x0032, SSS_NSS_SETALIASENT = 0x0033, SSS_NSS_GETALIASENT = 0x0034, SSS_NSS_ENDALIASENT = 0x0035, /* ethers */ SSS_NSS_GETHOSTTON = 0x0041, SSS_NSS_GETNTOHOST = 0x0042, SSS_NSS_SETETHERENT = 0x0043, SSS_NSS_GETETHERENT = 0x0044, SSS_NSS_ENDETHERENT = 0x0045, /* hosts */ SSS_NSS_GETHOSTBYNAME = 0x0051, SSS_NSS_GETHOSTBYNAME2 = 0x0052, SSS_NSS_GETHOSTBYADDR = 0x0053, SSS_NSS_SETHOSTENT = 0x0054, SSS_NSS_GETHOSTENT = 0x0055, SSS_NSS_ENDHOSTENT = 0x0056, #endif /* netgroup */ SSS_NSS_SETNETGRENT = 0x0061, SSS_NSS_GETNETGRENT = 0x0062, SSS_NSS_ENDNETGRENT = 0x0063, /* SSS_NSS_INNETGR = 0x0064, */ #if 0 /* networks */ SSS_NSS_GETNETBYNAME = 0x0071, SSS_NSS_GETNETBYADDR = 0x0072, SSS_NSS_SETNETENT = 0x0073, SSS_NSS_GETNETENT = 0x0074, SSS_NSS_ENDNETENT = 0x0075, /* protocols */ SSS_NSS_GETPROTOBYNAME = 0x0081, SSS_NSS_GETPROTOBYNUM = 0x0082, SSS_NSS_SETPROTOENT = 0x0083, SSS_NSS_GETPROTOENT = 0x0084, SSS_NSS_ENDPROTOENT = 0x0085, /* rpc */ SSS_NSS_GETRPCBYNAME = 0x0091, SSS_NSS_GETRPCBYNUM = 0x0092, SSS_NSS_SETRPCENT = 0x0093, SSS_NSS_GETRPCENT = 0x0094, SSS_NSS_ENDRPCENT = 0x0095, #endif /* services */ SSS_NSS_GETSERVBYNAME = 0x00A1, SSS_NSS_GETSERVBYPORT = 0x00A2, SSS_NSS_SETSERVENT = 0x00A3, SSS_NSS_GETSERVENT = 0x00A4, SSS_NSS_ENDSERVENT = 0x00A5, #if 0 /* shadow */ SSS_NSS_GETSPNAM = 0x00B1, SSS_NSS_GETSPUID = 0x00B2, SSS_NSS_SETSPENT = 0x00B3, SSS_NSS_GETSPENT = 0x00B4, SSS_NSS_ENDSPENT = 0x00B5, #endif /* SUDO */ SSS_SUDO_GET_SUDORULES = 0x00C1, SSS_SUDO_GET_DEFAULTS = 0x00C2, /* autofs */ SSS_AUTOFS_SETAUTOMNTENT = 0x00D1, SSS_AUTOFS_GETAUTOMNTENT = 0x00D2, SSS_AUTOFS_GETAUTOMNTBYNAME = 0x00D3, SSS_AUTOFS_ENDAUTOMNTENT = 0x00D4, /* SSH */ SSS_SSH_GET_USER_PUBKEYS = 0x00E1, SSS_SSH_GET_HOST_PUBKEYS = 0x00E2, /* PAM related calls */ SSS_PAM_AUTHENTICATE = 0x00F1, /**< see pam_sm_authenticate(3) for * details. * * Additionally we allow sssd to send * the return code PAM_NEW_AUTHTOK_REQD * during authentication if the * authentication was successful but * the authentication token is expired. * To meet the standards of libpam we * return PAM_SUCCESS for * authentication and set a flag so * that the account management module * can return PAM_NEW_AUTHTOK_REQD if * sssd return success for account * management. We do this to reduce the * communication with external servers, * because there are cases, e.g. * Kerberos authentication, where the * information that the password is * expired is already available during * authentication. */ SSS_PAM_SETCRED = 0x00F2, /**< see pam_sm_setcred(3) for * details */ SSS_PAM_ACCT_MGMT = 0x00F3, /**< see pam_sm_acct_mgmt(3) for * details */ SSS_PAM_OPEN_SESSION = 0x00F4, /**< see pam_sm_open_session(3) for * details */ SSS_PAM_CLOSE_SESSION = 0x00F5, /**< see pam_sm_close_session(3) for *details */ SSS_PAM_CHAUTHTOK = 0x00F6, /**< second run of the password change * operation where the PAM_UPDATE_AUTHTOK * flag is set and the real change may * happen, see pam_sm_chauthtok(3) for * details */ SSS_PAM_CHAUTHTOK_PRELIM = 0x00F7, /**< first run of the password change * operation where the PAM_PRELIM_CHECK * flag is set, see pam_sm_chauthtok(3) * for details */ SSS_CMD_RENEW = 0x00F8, /**< Renew a credential with a limited * lifetime, e.g. a Kerberos Ticket * Granting Ticket (TGT) */ /* PAC responder calls */ SSS_PAC_ADD_PAC_USER = 0x0101, }; /** * @} */ /* end of group sss_cli_command */ /** * @defgroup sss_pam SSSD and PAM * * SSSD offers authentication and authorization via PAM * * The SSSD provides a PAM client modules pam_sss which can be called from the * PAM stack of the operation system. pam_sss will collect all the data about * the user from the PAM stack and sends them via a socket to the PAM * responder of the SSSD. The PAM responder selects the appropriate backend * and forwards the data via DBUS to the backend. The backend preforms the * requested operation and sends the result expressed by a PAM return value * and optional additional information back to the PAM responder. Finally the * PAM responder forwards the response back to the client. * * @{ */ /** * @} */ /* end of group sss_pam */ /** * @defgroup sss_authtok_type Authentication Tokens * @ingroup sss_pam * * To indicate to the components of the SSSD how to handle the authentication * token the client sends the type of the authentication token to the SSSD. * * @{ */ /** The different types of authentication tokens */ enum sss_authtok_type { SSS_AUTHTOK_TYPE_EMPTY = 0x0000, /**< No authentication token * available */ SSS_AUTHTOK_TYPE_PASSWORD = 0x0001, /**< Authentication token is a * password, it may or may no contain * a trailing \\0 */ SSS_AUTHTOK_TYPE_CCFILE = 0x0002, /**< Authentication token is a path to * a Kerberos credential cache file, * it may or may no contain * a trailing \\0 */ }; /** * @} */ /* end of group sss_authtok_type */ #define SSS_START_OF_PAM_REQUEST 0x4d415049 #define SSS_END_OF_PAM_REQUEST 0x4950414d enum pam_item_type { SSS_PAM_ITEM_EMPTY = 0x0000, SSS_PAM_ITEM_USER, SSS_PAM_ITEM_SERVICE, SSS_PAM_ITEM_TTY, SSS_PAM_ITEM_RUSER, SSS_PAM_ITEM_RHOST, SSS_PAM_ITEM_AUTHTOK, SSS_PAM_ITEM_NEWAUTHTOK, SSS_PAM_ITEM_CLI_LOCALE, SSS_PAM_ITEM_CLI_PID, }; #define SSS_NSS_MAX_ENTRIES 256 #define SSS_NSS_HEADER_SIZE (sizeof(uint32_t) * 4) struct sss_cli_req_data { size_t len; const void *data; }; /* this is in milliseconds, wait up to 300 seconds */ #define SSS_CLI_SOCKET_TIMEOUT 300000 enum sss_status { SSS_STATUS_TRYAGAIN, SSS_STATUS_UNAVAIL, SSS_STATUS_SUCCESS }; /** * @defgroup sss_pam_cli Responses to the PAM client * @ingroup sss_pam * @{ */ /** * @defgroup response_type Messages from the server * @ingroup sss_pam_cli * * SSSD can send different kind of information back to the client. * A response from the SSSD can contain 0 or more messages. Each message * contains a type tag and the size of the message data, both are unsigned * 32-bit integer values, followed be the message specific data. * * If the message is generated by a backend it is send back to the PAM * responder via a D-BUS message in an array of D-BUS structs. The struct * consists of a DBUS_TYPE_UINT32 for the tag and a DBUS_TYPE_ARRAY to hold * the message. * * Examples: * - #SSS_PAM_ENV_ITEM, *
 *    ------------------------------------
 *    | uint32_t | uint32_t | uint8_t[4] |
 *    | 0x03     | 0x04     | a=b\\0      |
 *    ------------------------------------
 *    
* @{ */ /** Types of different messages */ enum response_type { SSS_PAM_SYSTEM_INFO = 0x01, /**< Message for the system log. * @param String, zero terminated. */ SSS_PAM_DOMAIN_NAME, /**< Name of the domain the user belongs too. * This messages is generated by the PAM responder. * @param String, zero terminated, with the domain * name. */ SSS_PAM_ENV_ITEM, /**< Set and environment variable with pam_putenv(3). * @param String, zero terminated, of the form * name=value. See pam_putenv(3) for details. */ SSS_ENV_ITEM, /**< Set and environment variable with putenv(3). * @param String, zero terminated, of the form * name=value. See putenv(3) for details. */ SSS_ALL_ENV_ITEM, /**< Set and environment variable with putenv(3) and * pam_putenv(3). * @param String, zero terminated, of the form * name=value. See putenv(3) and pam_putenv(3) for * details. */ SSS_PAM_USER_INFO, /**< A message which should be displayed to the user. * @param User info message, see #user_info_type * for details. */ SSS_PAM_TEXT_MSG, /**< A plain text message which should be displayed to * the user.This should only be used in the case where * it is not possile to use SSS_PAM_USER_INFO. * @param A zero terminated string. */ SSS_PAM_SELINUX_MAP, /**< A content of a SELinux user mapping file. This * file should be then written to a particular * subdir in /etc/selinux for pam_selinux to read * @param A zero terminated string. */ }; /** * @defgroup user_info_type User info messages * @ingroup response_type * * To achieve a consistent user experience and to facilitate * internationalization all messages show to the user are generate by the PAM * client and not by the SSSD server components. To indicate what message the * client should display to the user SSSD can send a #SSS_PAM_USER_INFO message * where the data part contains one of the following tags as an unsigned * 32-bit integer value and optional data. * * Examples: * - #SSS_PAM_USER_INFO_OFFLINE_CHPASS *
 *    ----------------------------------
 *    | uint32_t | uint32_t | uint32_t |
 *    | 0x06     | 0x01     | 0x03     |
 *    ----------------------------------
 *    
* - #SSS_PAM_USER_INFO_CHPASS_ERROR *
 *    ----------------------------------------------------------
 *    | uint32_t | uint32_t | uint32_t | uint32_t | uint8_t[3] |
 *    | 0x06     | 0x05     | 0x04     | 0x03     | abc        |
 *    ----------------------------------------------------------
 *    
* @{ */ /** Different types of user messages */ enum user_info_type { SSS_PAM_USER_INFO_OFFLINE_AUTH = 0x01, /**< Inform the user that the * authentication happened offline. * This message is generated by the * PAM responder. * @param Time when the cached * password will expire in seconds * since the UNIX Epoch as returned * by time(2) as int64_t. A value * of zero indicates that the * cached password will never * expire. */ SSS_PAM_USER_INFO_OFFLINE_AUTH_DELAYED, /**< Tell the user how low a new * authentication is delayed. This * message is generated by the PAM * responder. * @param Time when an * authentication is allowed again * in seconds since the UNIX Epoch * as returned by time(2) as * int64_t. */ SSS_PAM_USER_INFO_OFFLINE_CHPASS, /**< * Tell the user that it is not * possible to change the password while * the system is offline. This message * is generated by the PAM responder. */ SSS_PAM_USER_INFO_CHPASS_ERROR, /**< Tell the user that a password change * failed and optionally give a reason. * @param Size of the message as unsigned * 32-bit integer value. A value of 0 * indicates that no message is following. * @param String with the specified * length. */ SSS_PAM_USER_INFO_GRACE_LOGIN, /**< Warn the user that the password is * expired and inform about the remaining * number of grace logins. * @param The number of remaining grace * logins as uint32_t */ SSS_PAM_USER_INFO_EXPIRE_WARN /**< Warn the user that the password will * expire soon. * @param Number of seconds before the user's * password will expire. */ }; /** * @} */ /* end of group user_info_type */ /** * @} */ /* end of group response_type */ /** * @} */ /* end of group sss_pam_cli */ enum sss_netgr_rep_type { SSS_NETGR_REP_TRIPLE = 1, SSS_NETGR_REP_GROUP }; enum sss_cli_error_codes { ESSS_SSS_CLI_ERROR_START = 0x1000, ESSS_BAD_PRIV_SOCKET, ESSS_BAD_PUB_SOCKET, ESSS_BAD_CRED_MSG, ESSS_SERVER_NOT_TRUSTED, ESS_SSS_CLI_ERROR_MAX }; const char *ssscli_err2string(int err); enum nss_status sss_nss_make_request(enum sss_cli_command cmd, struct sss_cli_req_data *rd, uint8_t **repbuf, size_t *replen, int *errnop); int sss_pam_make_request(enum sss_cli_command cmd, struct sss_cli_req_data *rd, uint8_t **repbuf, size_t *replen, int *errnop); int sss_pac_make_request(enum sss_cli_command cmd, struct sss_cli_req_data *rd, uint8_t **repbuf, size_t *replen, int *errnop); int sss_sudo_make_request(enum sss_cli_command cmd, struct sss_cli_req_data *rd, uint8_t **repbuf, size_t *replen, int *errnop); int sss_autofs_make_request(enum sss_cli_command cmd, struct sss_cli_req_data *rd, uint8_t **repbuf, size_t *replen, int *errnop); int sss_ssh_make_request(enum sss_cli_command cmd, struct sss_cli_req_data *rd, uint8_t **repbuf, size_t *replen, int *errnop); #ifndef SAFEALIGN_COPY_UINT32 static inline void safealign_memcpy(void *dest, const void *src, size_t n, size_t *counter) { memcpy(dest, src, n); if (counter) { *counter += n; } } #define SAFEALIGN_SET_VALUE(dest, value, type, pctr) do { \ type CV_MACRO_val = (type)(value); \ safealign_memcpy(dest, &CV_MACRO_val, sizeof(type), pctr); \ } while(0) #ifndef SAFEALIGN_SET_UINT32 #define SAFEALIGN_SET_UINT32(dest, value, pctr) \ SAFEALIGN_SET_VALUE(dest, value, uint32_t, pctr) #endif #define SAFEALIGN_COPY_UINT32(dest, src, pctr) \ safealign_memcpy(dest, src, sizeof(uint32_t), pctr) #endif #ifndef SAFEALIGN_SET_UINT16 #define SAFEALIGN_SET_UINT16(dest, value, pctr) \ SAFEALIGN_SET_VALUE(dest, value, uint16_t, pctr) #endif #ifndef SAFEALIGN_COPY_UINT16 #define SAFEALIGN_COPY_UINT16(dest, src, pctr) \ safealign_memcpy(dest, src, sizeof(uint16_t), pctr) #endif #if 0 /* GETSPNAM Request: * * 0-X: string with name * * Replies: * * 0-3: 32bit unsigned number of results * 4-7: 32bit unsigned (reserved/padding) * For each result: * 0-7: 64bit unsigned with Date of last change * 8-15: 64bit unsigned with Min #days between changes * 16-23: 64bit unsigned with Max #days between changes * 24-31: 64bit unsigned with #days before pwd expires * 32-39: 64bit unsigned with #days after pwd expires until account is disabled * 40-47: 64bit unsigned with expiration date in days since 1970-01-01 * 48-55: 64bit unsigned (flags/reserved) * 56-X: sequence of 2, 0 terminated, strings (name, pwd) 64bit padded */ #endif /* Return strlen(str) or maxlen, whichever is shorter * Returns EINVAL if str is NULL, EFBIG if str is longer than maxlen * _len will return the result */ errno_t sss_strnlen(const char *str, size_t maxlen, size_t *len); void sss_nss_lock(void); void sss_nss_unlock(void); void sss_pam_lock(void); void sss_pam_unlock(void); errno_t sss_readrep_copy_string(const char *in, size_t *offset, size_t *slen, size_t *dlen, char **out, size_t *size); #endif /* _SSSCLI_H */