#pragma ident "%Z%%M% %I% %E% SMI"

#include <syslog.h>

#include <dlfcn.h>

#include <sys/types.h>

#include <sys/stat.h>

#include <stdlib.h>

#include <strings.h>

#include <malloc.h>

#include <unistd.h>

#include <fcntl.h>

#include <errno.h>

#include <security/pam_appl.h>

#include <security/pam_modules.h>

#include <sys/mman.h>

#include <libintl.h>

#include "pam_impl.h"

static char *pam_snames [PAM_NUM_MODULE_TYPES] = {

PAM_ACCOUNT_NAME,

PAM_AUTH_NAME,

PAM_PASSWORD_NAME,

PAM_SESSION_NAME

};

static char *pam_inames [PAM_MAX_ITEMS] = {

/* NONE */ NULL,

/* PAM_SERVICE */ "service",

/* PAM_USER */ "user",

/* PAM_TTY */ "tty",

/* PAM_RHOST */ "rhost",

/* PAM_CONV */ "conv",

/* PAM_AUTHTOK */ "authtok",

/* PAM_OLDAUTHTOK */ "oldauthtok",

/* PAM_RUSER */ "ruser",

/* PAM_USER_PROMPT */ "user_prompt",

/* PAM_REPOSITORY */ "repository",

/* PAM_RESOURCE */ "resource",

};

#if !defined(_LFS64_LARGEFILE)

#define stat64 stat

#endif /* !defined(_LFS64_LARGEFILE) */

static int load_modules(pam_handle_t *, int, char *, pamtab_t *);

static void *open_module(pam_handle_t *, char *);

static int load_function(void *, char *, int (**func)());

static int open_pam_conf(struct pam_fh **, pam_handle_t *, char *);

static void close_pam_conf(struct pam_fh *);

static int read_pam_conf(pam_handle_t *, char *);

static int get_pam_conf_entry(struct pam_fh *, pam_handle_t *,

pamtab_t **);

static char *read_next_token(char **);

static char *nextline(struct pam_fh *);

static int verify_pam_conf(pamtab_t *, char *);

static void clean_up(pam_handle_t *);

static void free_pamconf(pamtab_t *);

static void free_pam_conf_info(pam_handle_t *);

static void free_env(env_list *);

static void free_resp(int, struct pam_response *);

static int do_conv(pam_handle_t *, int, int,

char messages[PAM_MAX_NUM_MSG][PAM_MAX_MSG_SIZE], void *,

struct pam_response **);

static int log_priority; /* pam_trace syslog priority & facility */

static int pam_debug = 0;

static char *

pam_trace_iname(int item_type, char *iname_buf)

{

char *name;

/*

if (item_type == PAM_MSG_VERSION)

return ("msg_version");

if (item_type <= 0 ||

item_type >= PAM_MAX_ITEMS ||

(name = pam_inames[item_type]) == NULL) {

(void) sprintf(iname_buf, "%d", item_type);

return (iname_buf);

}

return (name);

}

static char *

pam_trace_fname(int flag)

{

if (flag & PAM_BINDING)

return (PAM_BINDING_NAME);

if (flag & PAM_INCLUDE)

return (PAM_INCLUDE_NAME);

if (flag & PAM_OPTIONAL)

return (PAM_OPTIONAL_NAME);

if (flag & PAM_REQUIRED)

return (PAM_REQUIRED_NAME);

if (flag & PAM_REQUISITE)

return (PAM_REQUISITE_NAME);

if (flag & PAM_SUFFICIENT)

return (PAM_SUFFICIENT_NAME);

return ("bad flag name");

}

static char *

pam_trace_cname(pam_handle_t *pamh)

{

if (pamh->pam_conf_name[pamh->include_depth] == NULL)

return ("NULL");

return (pamh->pam_conf_name[pamh->include_depth]);

}

#include <deflt.h>

#include <stdarg.h>

static void

pam_settrace()

{

if (defopen(PAM_DEBUG) == 0) {

char *arg;

int code;

int facility = LOG_AUTH;

pam_debug = PAM_DEBUG_DEFAULT;

log_priority = LOG_DEBUG;

(void) defcntl(DC_SETFLAGS, DC_CASE);

if ((arg = defread(LOG_PRIORITY)) != NULL) {

code = (int)strtol(arg, NULL, 10);

if ((code & ~LOG_PRIMASK) == 0) {

log_priority = code;

}

}

if ((arg = defread(LOG_FACILITY)) != NULL) {

code = (int)strtol(arg, NULL, 10);

if (code < LOG_NFACILITIES) {

facility = code << 3;

}

}

if ((arg = defread(DEBUG_FLAGS)) != NULL) {

pam_debug = (int)strtol(arg, NULL, 0);

}

(void) defopen(NULL); /* close */

log_priority |= facility;

}

}

static void

pam_trace(int flag, char *format, ...)

{

va_list args;

char message[1024];

int savemask;

if ((pam_debug & flag) == 0)

return;

savemask = setlogmask(LOG_MASK(log_priority & LOG_PRIMASK));

(void) snprintf(message, sizeof (message), "PAM[%ld]: %s",

(long)getpid(), format);

va_start(args, format);

(void) vsyslog(log_priority, message, args);

va_end(args);

(void) setlogmask(savemask);

}

__pam_log(int priority, const char *format, ...)

{

va_list args;

int savemask = setlogmask(LOG_MASK(priority & LOG_PRIMASK));

va_start(args, format);

(void) vsyslog(priority, format, args);

va_end(args);

(void) setlogmask(savemask);

}

pam_start(const char *service, const char *user,

const struct pam_conv *pam_conv, pam_handle_t **pamh)

{

int err;

*pamh = (struct pam_handle *)calloc(1, sizeof (struct pam_handle));

pam_settrace();

pam_trace(PAM_DEBUG_DEFAULT,

"pam_start(%s,%s,%p:%p) - debug = %x",

service ? service : "NULL", user ? user : "NULL", (void *)pam_conv,

(void *)*pamh, pam_debug);

if (*pamh == NULL)

return (PAM_BUF_ERR);

(*pamh)->pam_inmodule = RO_OK; /* OK to set RO items */

if ((err = pam_set_item(*pamh, PAM_SERVICE, (void *)service))

!= PAM_SUCCESS) {

clean_up(*pamh);

*pamh = NULL;

return (err);

}

if ((err = pam_set_item(*pamh, PAM_USER, (void *)user))

!= PAM_SUCCESS) {

clean_up(*pamh);

*pamh = NULL;

return (err);

}

if ((err = pam_set_item(*pamh, PAM_CONV, (void *)pam_conv))

!= PAM_SUCCESS) {

clean_up(*pamh);

*pamh = NULL;

return (err);

}

(*pamh)->pam_inmodule = RW_OK;

return (PAM_SUCCESS);

}

pam_end(pam_handle_t *pamh, int pam_status)

{

struct pam_module_data *psd, *p;

fd_list *expired;

fd_list *traverse;

env_list *env_expired;

env_list *env_traverse;

pam_trace(PAM_DEBUG_DEFAULT,

"pam_end(%p): status = %s", (void *)pamh,

pam_strerror(pamh, pam_status));

if (pamh == NULL)

return (PAM_SYSTEM_ERR);

/* call the cleanup routines for module specific data */

psd = pamh->ssd;

while (psd) {

if (psd->cleanup) {

psd->cleanup(pamh, psd->data, pam_status);

}

p = psd;

psd = p->next;

free(p->module_data_name);

free(p);

}

pamh->ssd = NULL;

/* dlclose all module fds */

traverse = pamh->fd;

while (traverse) {

expired = traverse;

traverse = traverse->next;

(void) dlclose(expired->mh);

free(expired);

}

pamh->fd = 0;

/* remove all environment variables */

env_traverse = pamh->pam_env;

while (env_traverse) {

env_expired = env_traverse;

env_traverse = env_traverse->next;

free_env(env_expired);

}

clean_up(pamh);

return (PAM_SUCCESS);

}

pam_set_item(pam_handle_t *pamh, int item_type, const void *item)

{

struct pam_item *pip;

int size;

char iname_buf[PAM_MAX_MSG_SIZE];

if (((pam_debug & PAM_DEBUG_ITEM) == 0) || (pamh == NULL)) {

pam_trace(PAM_DEBUG_DEFAULT,

"pam_set_item(%p:%s)", (void *)pamh,

pam_trace_iname(item_type, iname_buf));

}

if (pamh == NULL)

return (PAM_SYSTEM_ERR);

/* check read only items */

if ((item_type == PAM_SERVICE) && (pamh->pam_inmodule != RO_OK))

return (PAM_PERM_DENIED);

/*

if (item_type == PAM_MSG_VERSION) {

if (pamh->pam_client_message_version_number)

free(pamh->pam_client_message_version_number);

if (item == NULL)

pamh->pam_client_message_version_number = NULL;

else

if ((pamh->pam_client_message_version_number =

strdup((char *)item)) == NULL)

return (PAM_BUF_ERR);

pam_trace(PAM_DEBUG_ITEM,

"pam_set_item(%p:%s)=%s", (void *)pamh,

pam_trace_iname(item_type, iname_buf),

item ? (char *)item : "NULL");

return (PAM_SUCCESS);

}

/*

if (item_type <= 0 || item_type >= PAM_MAX_ITEMS)

return (PAM_SYMBOL_ERR);

pip = &(pamh->ps_item[item_type]);

switch (item_type) {

case PAM_AUTHTOK:

case PAM_OLDAUTHTOK:

if (pip->pi_addr != NULL)

(void) memset(pip->pi_addr, 0, pip->pi_size);

/*FALLTHROUGH*/

case PAM_SERVICE:

case PAM_USER:

case PAM_TTY:

case PAM_RHOST:

case PAM_RUSER:

case PAM_USER_PROMPT:

case PAM_RESOURCE:

if (pip->pi_addr != NULL) {

free(pip->pi_addr);

}

if (item == NULL) {

pip->pi_addr = NULL;

pip->pi_size = 0;

} else {

pip->pi_addr = strdup((char *)item);

if (pip->pi_addr == NULL) {

pip->pi_size = 0;

return (PAM_BUF_ERR);

}

pip->pi_size = strlen(pip->pi_addr);

}

break;

case PAM_CONV:

if (pip->pi_addr != NULL)

free(pip->pi_addr);

size = sizeof (struct pam_conv);

if ((pip->pi_addr = (void *)calloc(1, size)) == NULL)

return (PAM_BUF_ERR);

if (item != NULL)

(void) memcpy(pip->pi_addr, item, (unsigned int) size);

else

(void) memset(pip->pi_addr, 0, size);

pip->pi_size = size;

break;

case PAM_REPOSITORY:

if (pip->pi_addr != NULL) {

pam_repository_t *auth_rep;

auth_rep = (pam_repository_t *)pip->pi_addr;

if (auth_rep->type != NULL)

free(auth_rep->type);

if (auth_rep->scope != NULL)

free(auth_rep->scope);

free(auth_rep);

}

if (item != NULL) {

pam_repository_t *s, *d;

size = sizeof (struct pam_repository);

pip->pi_addr = (void *)calloc(1, size);

if (pip->pi_addr == NULL)

return (PAM_BUF_ERR);

s = (struct pam_repository *)item;

d = (struct pam_repository *)pip->pi_addr;

d->type = strdup(s->type);

if (d->type == NULL)

return (PAM_BUF_ERR);

d->scope = malloc(s->scope_len);

if (d->scope == NULL)

return (PAM_BUF_ERR);

(void) memcpy(d->scope, s->scope, s->scope_len);

d->scope_len = s->scope_len;

}

pip->pi_size = size;

break;

default:

return (PAM_SYMBOL_ERR);

}

switch (item_type) {

case PAM_CONV:

pam_trace(PAM_DEBUG_ITEM, "pam_set_item(%p:%s)=%p",

(void *)pamh,

pam_trace_iname(item_type, iname_buf),

item ? (void *)((struct pam_conv *)item)->conv :

(void *)0);

break;

case PAM_REPOSITORY:

pam_trace(PAM_DEBUG_ITEM, "pam_set_item(%p:%s)=%s",

(void *)pamh,

pam_trace_iname(item_type, iname_buf),

item ? (((struct pam_repository *)item)->type ?

((struct pam_repository *)item)->type : "NULL") :

"NULL");

break;

case PAM_AUTHTOK:

case PAM_OLDAUTHTOK:

#ifdef DEBUG

if (pam_debug & PAM_DEBUG_AUTHTOK)

pam_trace(PAM_DEBUG_ITEM,

"pam_set_item(%p:%s)=%s", (void *)pamh,

pam_trace_iname(item_type, iname_buf),

item ? (char *)item : "NULL");

else

#endif /* DEBUG */

pam_trace(PAM_DEBUG_ITEM,

"pam_set_item(%p:%s)=%s", (void *)pamh,

pam_trace_iname(item_type, iname_buf),

item ? "********" : "NULL");

break;

default:

pam_trace(PAM_DEBUG_ITEM, "pam_set_item(%p:%s)=%s",

(void *)pamh,

pam_trace_iname(item_type, iname_buf),

item ? (char *)item : "NULL");

}

return (PAM_SUCCESS);

}

pam_get_item(const pam_handle_t *pamh, int item_type, void **item)

{

struct pam_item *pip;

char iname_buf[PAM_MAX_MSG_SIZE];

if (((pam_debug & PAM_DEBUG_ITEM) == 0) || (pamh == NULL)) {

pam_trace(PAM_DEBUG_ITEM, "pam_get_item(%p:%s)",

(void *)pamh, pam_trace_iname(item_type, iname_buf));

}

if (pamh == NULL)

return (PAM_SYSTEM_ERR);

/*

if (item_type == PAM_MSG_VERSION) {

*item = pamh->pam_client_message_version_number;

pam_trace(PAM_DEBUG_ITEM, "pam_get_item(%p:%s)=%s",

(void *)pamh, pam_trace_iname(item_type, iname_buf),

*item ? (char *)*item : "NULL");

return (PAM_SUCCESS);

}

if (item_type <= 0 || item_type >= PAM_MAX_ITEMS)

return (PAM_SYMBOL_ERR);

if ((pamh->pam_inmodule != WO_OK) &&

((item_type == PAM_AUTHTOK || item_type == PAM_OLDAUTHTOK))) {

__pam_log(LOG_AUTH | LOG_NOTICE, "pam_get_item(%s) called from "

"a non module context",

pam_trace_iname(item_type, iname_buf));

return (PAM_PERM_DENIED);

}

pip = (struct pam_item *)&(pamh->ps_item[item_type]);

*item = pip->pi_addr;

switch (item_type) {

case PAM_CONV:

pam_trace(PAM_DEBUG_ITEM, "pam_get_item(%p:%s)=%p",

(void *)pamh,

pam_trace_iname(item_type, iname_buf),

(void *)((struct pam_conv *)*item)->conv);

break;

case PAM_REPOSITORY:

pam_trace(PAM_DEBUG_ITEM, "pam_get_item(%p:%s)=%s",

(void *)pamh,

pam_trace_iname(item_type, iname_buf),

*item ? (((struct pam_repository *)*item)->type ?

((struct pam_repository *)*item)->type : "NULL") :

"NULL");

break;

case PAM_AUTHTOK:

case PAM_OLDAUTHTOK:

#ifdef DEBUG

if (pam_debug & PAM_DEBUG_AUTHTOK)

pam_trace(PAM_DEBUG_ITEM,

"pam_get_item(%p:%s)=%s", (void *)pamh,

pam_trace_iname(item_type, iname_buf),

*item ? *(char **)item : "NULL");

else

#endif /* DEBUG */

pam_trace(PAM_DEBUG_ITEM,

"pam_get_item(%p:%s)=%s", (void *)pamh,

pam_trace_iname(item_type, iname_buf),

*item ? "********" : "NULL");

break;

default:

pam_trace(PAM_DEBUG_ITEM, "pam_get_item(%p:%s)=%s",

(void *)pamh,

pam_trace_iname(item_type, iname_buf),

*item ? *(char **)item : "NULL");

}

return (PAM_SUCCESS);

}

static int

parse_user_name(char *user_input, char **ret_username)

{

register char *ptr;

register int index = 0;

char username[PAM_MAX_RESP_SIZE];

/* Set the default value for *ret_username */

*ret_username = NULL;

/*

bzero((void *)username, PAM_MAX_RESP_SIZE);

/*

ptr = user_input;

/* Skip all the leading whitespaces if there are any. */

while ((*ptr == ' ') || (*ptr == '\t'))

ptr++;

if (*ptr == '\0') {

/*

return (PAM_BUF_ERR);

}

/*

while (*ptr != '\0') {

if ((*ptr == ' ') || (*ptr == '\t'))

break;

else {

username[index] = *ptr;

index++;

ptr++;

}

}

/* ret_username will be freed in pam_get_user(). */

if ((*ret_username = (char *)malloc((index + 1)*(sizeof (char))))

== NULL)

return (PAM_BUF_ERR);

(void) strcpy(*ret_username, username);

return (PAM_SUCCESS);

}

#define WHITESPACE 0

#define USERNAME 1

pam_get_user(pam_handle_t *pamh, char **user, const char *prompt_override)

{

int status;

char *prompt = NULL;

char *real_username;

struct pam_response *ret_resp = NULL;

char messages[PAM_MAX_NUM_MSG][PAM_MAX_MSG_SIZE];

pam_trace(PAM_DEBUG_DEFAULT,

"pam_get_user(%p, %p, %s)", (void *)pamh, (void *)*user,

prompt_override ? prompt_override : "NULL");

if (pamh == NULL)

return (PAM_SYSTEM_ERR);

if ((status = pam_get_item(pamh, PAM_USER, (void **)user))

!= PAM_SUCCESS) {

return (status);

}

/* if the user is set, return it */

if (*user != NULL && *user[0] != '\0') {

return (PAM_SUCCESS);

}

/*

if (prompt_override != NULL) {

prompt = (char *)prompt_override;

} else {

status = pam_get_item(pamh, PAM_USER_PROMPT, (void**)&prompt);

if (status != PAM_SUCCESS) {

return (status);

}

}

/* if the prompt is not set, use default */

if (prompt == NULL || prompt[0] == '\0') {

prompt = dgettext(TEXT_DOMAIN, "Please enter user name: ");

}

/* prompt for the user */

(void) strncpy(messages[0], prompt, sizeof (messages[0]));

for (;;) {

int state = WHITESPACE;

status = do_conv(pamh, PAM_PROMPT_ECHO_ON, 1, messages,

NULL, &ret_resp);

if (status != PAM_SUCCESS) {

return (status);

}

if (ret_resp->resp && ret_resp->resp[0] != '\0') {

int len = strlen(ret_resp->resp);

int i;

for (i = 0; i < len; i++) {

if ((ret_resp->resp[i] != ' ') &&

(ret_resp->resp[i] != '\t')) {

state = USERNAME;

break;

}

}

if (state == USERNAME)

break;

}

}

/* set PAM_USER */

/* Parse the user input to get the user name. */

status = parse_user_name(ret_resp->resp, &real_username);

if (status != PAM_SUCCESS) {

if (real_username != NULL)

free(real_username);

free_resp(1, ret_resp);

return (status);

}

status = pam_set_item(pamh, PAM_USER, real_username);

free(real_username);

free_resp(1, ret_resp);

if (status != PAM_SUCCESS) {

return (status);

}

/*

status = pam_get_item(pamh, PAM_USER, (void**)user);

return (status);

}

pam_set_data(pam_handle_t *pamh, const char *module_data_name, void *data,

void (*cleanup)(pam_handle_t *pamh, void *data, int pam_end_status))

{

struct pam_module_data *psd;

pam_trace(PAM_DEBUG_DATA,

"pam_set_data(%p:%s:%d)=%p", (void *)pamh,

module_data_name ? module_data_name : "NULL", pamh->pam_inmodule,

data);

if (pamh == NULL || (pamh->pam_inmodule != WO_OK) ||

module_data_name == NULL) {

return (PAM_SYSTEM_ERR);

}

/* check if module data already exists */

for (psd = pamh->ssd; psd; psd = psd->next) {

if (strcmp(psd->module_data_name, module_data_name) == 0) {

/* clean up original data before setting the new data */

if (psd->cleanup) {

psd->cleanup(pamh, psd->data, PAM_SUCCESS);

}

psd->data = (void *)data;

psd->cleanup = cleanup;

return (PAM_SUCCESS);

}

}

psd = malloc(sizeof (struct pam_module_data));

if (psd == NULL)

return (PAM_BUF_ERR);

psd->module_data_name = strdup(module_data_name);

if (psd->module_data_name == NULL) {

free(psd);

return (PAM_BUF_ERR);

}

psd->data = (void *)data;

psd->cleanup = cleanup;

psd->next = pamh->ssd;

pamh->ssd = psd;

return (PAM_SUCCESS);

}

pam_get_data(const pam_handle_t *pamh, const char *module_data_name,

const void **data)

{

struct pam_module_data *psd;

if (pamh == NULL || (pamh->pam_inmodule != WO_OK) ||

module_data_name == NULL) {

pam_trace(PAM_DEBUG_DATA,

"pam_get_data(%p:%s:%d)=%p", (void *)pamh,

module_data_name ? module_data_name : "NULL",

pamh->pam_inmodule, *data);

return (PAM_SYSTEM_ERR);

}

for (psd = pamh->ssd; psd; psd = psd->next) {

if (strcmp(psd->module_data_name, module_data_name) == 0) {

*data = psd->data;

pam_trace(PAM_DEBUG_DATA,

"pam_get_data(%p:%s)=%p", (void *)pamh,

module_data_name, *data);

return (PAM_SUCCESS);

}

}

pam_trace(PAM_DEBUG_DATA,

"pam_get_data(%p:%s)=%s", (void *)pamh, module_data_name,

"PAM_NO_MODULE_DATA");

return (PAM_NO_MODULE_DATA);

}

const char *

pam_strerror(pam_handle_t *pamh, int errnum)

{

switch (errnum) {

case PAM_SUCCESS:

return (dgettext(TEXT_DOMAIN, "Success"));

case PAM_OPEN_ERR:

return (dgettext(TEXT_DOMAIN, "Dlopen failure"));

case PAM_SYMBOL_ERR:

return (dgettext(TEXT_DOMAIN, "Symbol not found"));

case PAM_SERVICE_ERR:

return (dgettext(TEXT_DOMAIN,

"Error in underlying service module"));

case PAM_SYSTEM_ERR:

return (dgettext(TEXT_DOMAIN, "System error"));

case PAM_BUF_ERR:

return (dgettext(TEXT_DOMAIN, "Memory buffer error"));

case PAM_CONV_ERR:

return (dgettext(TEXT_DOMAIN, "Conversation failure"));

case PAM_PERM_DENIED:

return (dgettext(TEXT_DOMAIN, "Permission denied"));

case PAM_MAXTRIES:

return (dgettext(TEXT_DOMAIN,

"Maximum number of attempts exceeded"));

case PAM_AUTH_ERR:

return (dgettext(TEXT_DOMAIN, "Authentication failed"));

case PAM_NEW_AUTHTOK_REQD:

return (dgettext(TEXT_DOMAIN, "Get new authentication token"));

case PAM_CRED_INSUFFICIENT:

return (dgettext(TEXT_DOMAIN, "Insufficient credentials"));

case PAM_AUTHINFO_UNAVAIL:

return (dgettext(TEXT_DOMAIN,

"Can not retrieve authentication info"));

case PAM_USER_UNKNOWN:

return (dgettext(TEXT_DOMAIN, "No account present for user"));

case PAM_CRED_UNAVAIL:

return (dgettext(TEXT_DOMAIN,

"Can not retrieve user credentials"));

case PAM_CRED_EXPIRED:

return (dgettext(TEXT_DOMAIN,

"User credentials have expired"));

case PAM_CRED_ERR:

return (dgettext(TEXT_DOMAIN,

"Failure setting user credentials"));

case PAM_ACCT_EXPIRED:

return (dgettext(TEXT_DOMAIN, "User account has expired"));

case PAM_AUTHTOK_EXPIRED:

return (dgettext(TEXT_DOMAIN, "User password has expired"));

case PAM_SESSION_ERR:

return (dgettext(TEXT_DOMAIN,

"Can not make/remove entry for session"));

case PAM_AUTHTOK_ERR:

return (dgettext(TEXT_DOMAIN,

"Authentication token manipulation error"));

case PAM_AUTHTOK_RECOVERY_ERR:

return (dgettext(TEXT_DOMAIN,

"Authentication token can not be recovered"));

case PAM_AUTHTOK_LOCK_BUSY:

return (dgettext(TEXT_DOMAIN,

"Authentication token lock busy"));

case PAM_AUTHTOK_DISABLE_AGING:

return (dgettext(TEXT_DOMAIN,

"Authentication token aging disabled"));

case PAM_NO_MODULE_DATA:

return (dgettext(TEXT_DOMAIN,

"Module specific data not found"));

case PAM_IGNORE:

return (dgettext(TEXT_DOMAIN, "Ignore module"));

case PAM_ABORT:

return (dgettext(TEXT_DOMAIN, "General PAM failure "));

case PAM_TRY_AGAIN:

return (dgettext(TEXT_DOMAIN,

"Unable to complete operation. Try again"));

default:

return (dgettext(TEXT_DOMAIN, "Unknown error"));

}

}

static void *

sm_name(int ind)

{

switch (ind) {

case PAM_AUTHENTICATE:

return (PAM_SM_AUTHENTICATE);

case PAM_SETCRED:

return (PAM_SM_SETCRED);

case PAM_ACCT_MGMT:

return (PAM_SM_ACCT_MGMT);

case PAM_OPEN_SESSION:

return (PAM_SM_OPEN_SESSION);

case PAM_CLOSE_SESSION:

return (PAM_SM_CLOSE_SESSION);

case PAM_CHAUTHTOK:

return (PAM_SM_CHAUTHTOK);

}

return (NULL);

}

static int

(*func(pamtab_t *modulep, int ind))()

{

void *funcp;

if ((funcp = modulep->function_ptr) == NULL)

return (NULL);

switch (ind) {

case PAM_AUTHENTICATE:

return (((struct auth_module *)funcp)->pam_sm_authenticate);

case PAM_SETCRED:

return (((struct auth_module *)funcp)->pam_sm_setcred);

case PAM_ACCT_MGMT:

return (((struct account_module *)funcp)->pam_sm_acct_mgmt);

case PAM_OPEN_SESSION:

return (((struct session_module *)funcp)->pam_sm_open_session);

case PAM_CLOSE_SESSION:

return (((struct session_module *)funcp)->pam_sm_close_session);

case PAM_CHAUTHTOK:

return (((struct password_module *)funcp)->pam_sm_chauthtok);

}

return (NULL);

}

static int

run_stack(pam_handle_t *pamh, int flags, int type, int def_err, int ind,

char *function_name)

{

int err = PAM_SYSTEM_ERR; /* preset */

int optional_error = 0;

int required_error = 0;

int success = 0;

pamtab_t *modulep;

int (*sm_func)();

if (pamh == NULL)

return (PAM_SYSTEM_ERR);

/* read initial entries from pam.conf */

if ((err = read_pam_conf(pamh, PAM_CONFIG)) != PAM_SUCCESS) {

return (err);

}

if ((modulep =

pamh->pam_conf_info[pamh->include_depth][type]) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR, "%s no initial module present",

pam_trace_cname(pamh));

goto exit_return;

}

pamh->pam_inmodule = WO_OK; /* OK to get AUTHTOK */

include:

pam_trace(PAM_DEBUG_MODULE,

"[%d:%s]:run_stack:%s(%p, %x): %s", pamh->include_depth,

pam_trace_cname(pamh), function_name, (void *)pamh, flags,

modulep ? modulep->module_path : "NULL");

while (modulep != NULL) {

if (modulep->pam_flag & PAM_INCLUDE) {

/* save the return location */

pamh->pam_conf_modulep[pamh->include_depth] =

modulep->next;

pam_trace(PAM_DEBUG_MODULE,

"setting for include[%d:%p]",

pamh->include_depth, (void *)modulep->next);

if (pamh->include_depth++ >= PAM_MAX_INCLUDE) {

__pam_log(LOG_AUTH | LOG_ERR,

"run_stack: includes too deep %d "

"found trying to include %s from %s, %d "

"allowed", pamh->include_depth,

modulep->module_path, pamh->pam_conf_name

[PAM_MAX_INCLUDE] == NULL ? "NULL" :

pamh->pam_conf_name[PAM_MAX_INCLUDE],

PAM_MAX_INCLUDE);

goto exit_return;

}

if ((err = read_pam_conf(pamh,

modulep->module_path)) != PAM_SUCCESS) {

__pam_log(LOG_AUTH | LOG_ERR,

"run_stack[%d:%s]: can't read included "

"conf %s", pamh->include_depth,

pam_trace_cname(pamh),

modulep->module_path);

goto exit_return;

}

if ((modulep = pamh->pam_conf_info

[pamh->include_depth][type]) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"run_stack[%d:%s]: no include module "

"present %s", pamh->include_depth,

pam_trace_cname(pamh), function_name);

goto exit_return;

}

if (modulep->pam_flag & PAM_INCLUDE) {

/* first line another include */

goto include;

}

pam_trace(PAM_DEBUG_DEFAULT, "include[%d:%s]"

"(%p, %s)=%s", pamh->include_depth,

pam_trace_cname(pamh), (void *)pamh,

function_name, modulep->module_path);

if ((err = load_modules(pamh, type, sm_name(ind),

pamh->pam_conf_info

[pamh->include_depth][type])) != PAM_SUCCESS) {

pam_trace(PAM_DEBUG_DEFAULT,

"[%d:%s]:%s(%p, %x): load_modules failed",

pamh->include_depth, pam_trace_cname(pamh),

function_name, (void *)pamh, flags);

goto exit_return;

}

if ((modulep = pamh->pam_conf_info

[pamh->include_depth][type]) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"%s no initial module present",

pam_trace_cname(pamh));

goto exit_return;

}

} else if ((err = load_modules(pamh, type, sm_name(ind),

modulep)) != PAM_SUCCESS) {

pam_trace(PAM_DEBUG_DEFAULT,

"[%d:%s]:%s(%p, %x): load_modules failed",

pamh->include_depth, pam_trace_cname(pamh),

function_name, (void *)pamh, flags);

goto exit_return;

} /* PAM_INCLUDE */

sm_func = func(modulep, ind);

if (sm_func) {

err = sm_func(pamh, flags, modulep->module_argc,

(const char **)modulep->module_argv);

pam_trace(PAM_DEBUG_MODULE,

"[%d:%s]:%s(%p, %x): %s returned %s",

pamh->include_depth, pam_trace_cname(pamh),

function_name, (void *)pamh, flags,

modulep->module_path, pam_strerror(pamh, err));

switch (err) {

case PAM_IGNORE:

/* do nothing */

break;

case PAM_SUCCESS:

if ((modulep->pam_flag & PAM_SUFFI_BIND) &&

!required_error) {

pamh->pam_inmodule = RW_OK;

pam_trace(PAM_DEBUG_MODULE,

"[%d:%s]:%s(%p, %x): %s: success",

pamh->include_depth,

pam_trace_cname(pamh),

function_name, (void *)pamh, flags,

(modulep->pam_flag & PAM_BINDING) ?

PAM_BINDING_NAME :

PAM_SUFFICIENT_NAME);

goto exit_return;

}

success = 1;

break;

case PAM_TRY_AGAIN:

/*

pamh->pam_inmodule = RW_OK;

pam_trace(PAM_DEBUG_MODULE,

"[%d:%s]:%s(%p, %x): TRY_AGAIN: %s",

pamh->include_depth, pam_trace_cname(pamh),

function_name, (void *)pamh, flags,

pam_strerror(pamh, required_error ?

required_error : err));

err = required_error ? required_error : err;

goto exit_return;

default:

if (modulep->pam_flag & PAM_REQUISITE) {

pamh->pam_inmodule = RW_OK;

pam_trace(PAM_DEBUG_MODULE,

"[%d:%s]:%s(%p, %x): requisite: %s",

pamh->include_depth,

pam_trace_cname(pamh),

function_name, (void *)pamh, flags,

pam_strerror(pamh,

required_error ? required_error :

err));

err = required_error ?

required_error : err;

goto exit_return;

} else if (modulep->pam_flag & PAM_REQRD_BIND) {

if (!required_error)

required_error = err;

} else {

if (!optional_error)

optional_error = err;

}

pam_trace(PAM_DEBUG_DEFAULT,

"[%d:%s]:%s(%p, %x): error %s",

pamh->include_depth, pam_trace_cname(pamh),

function_name, (void *)pamh, flags,

pam_strerror(pamh, err));

break;

}

}

modulep = modulep->next;

}

pam_trace(PAM_DEBUG_MODULE, "[%d:%s]:stack_end:%s(%p, %x): %s %s: %s",

pamh->include_depth, pam_trace_cname(pamh), function_name,

(void *)pamh, flags, pamh->include_depth ? "included" : "final",

required_error ? "required" : success ? "success" :

optional_error ? "optional" : "default",

pam_strerror(pamh, required_error ? required_error :

success ? PAM_SUCCESS : optional_error ? optional_error : def_err));

if (pamh->include_depth > 0) {

free_pam_conf_info(pamh);

pamh->include_depth--;

/* continue at next entry */

modulep = pamh->pam_conf_modulep[pamh->include_depth];

pam_trace(PAM_DEBUG_MODULE, "looping for include[%d:%p]",

pamh->include_depth, (void *)modulep);

goto include;

}

free_pam_conf_info(pamh);

pamh->pam_inmodule = RW_OK;

if (required_error != 0)

return (required_error);

else if (success != 0)

return (PAM_SUCCESS);

else if (optional_error != 0)

return (optional_error);

else

return (def_err);

exit_return:

/*

while (pamh->include_depth > 0) {

free_pam_conf_info(pamh);

pamh->include_depth--;

}

free_pam_conf_info(pamh);

pamh->pam_inmodule = RW_OK;

return (err);

}

pam_authenticate(pam_handle_t *pamh, int flags)

{

int retval;

retval = run_stack(pamh, flags, PAM_AUTH_MODULE, PAM_AUTH_ERR,

PAM_AUTHENTICATE, "pam_authenticate");

if (retval != PAM_SUCCESS)

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

return (retval);

}

pam_setcred(pam_handle_t *pamh, int flags)

{

int retval;

retval = run_stack(pamh, flags, PAM_AUTH_MODULE, PAM_CRED_ERR,

PAM_SETCRED, "pam_setcred");

if (retval != PAM_SUCCESS)

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

return (retval);

}

pam_acct_mgmt(pam_handle_t *pamh, int flags)

{

int retval;

retval = run_stack(pamh, flags, PAM_ACCOUNT_MODULE, PAM_ACCT_EXPIRED,

PAM_ACCT_MGMT, "pam_acct_mgmt");

if (retval != PAM_SUCCESS &&

retval != PAM_NEW_AUTHTOK_REQD) {

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

}

return (retval);

}

pam_open_session(pam_handle_t *pamh, int flags)

{

int retval;

retval = run_stack(pamh, flags, PAM_SESSION_MODULE, PAM_SESSION_ERR,

PAM_OPEN_SESSION, "pam_open_session");

if (retval != PAM_SUCCESS)

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

return (retval);

}

pam_close_session(pam_handle_t *pamh, int flags)

{

int retval;

retval = run_stack(pamh, flags, PAM_SESSION_MODULE, PAM_SESSION_ERR,

PAM_CLOSE_SESSION, "pam_close_session");

if (retval != PAM_SUCCESS)

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

return (retval);

}

pam_chauthtok(pam_handle_t *pamh, int flags)

{

int retval;

/* do not let apps use PAM_PRELIM_CHECK or PAM_UPDATE_AUTHTOK */

if (flags & (PAM_PRELIM_CHECK | PAM_UPDATE_AUTHTOK)) {

pam_trace(PAM_DEBUG_DEFAULT,

"pam_chauthtok(%p, %x): %s", (void *)pamh, flags,

pam_strerror(pamh, PAM_SYMBOL_ERR));

return (PAM_SYMBOL_ERR);

}

/* 1st pass: PRELIM CHECK */

retval = run_stack(pamh, flags | PAM_PRELIM_CHECK, PAM_PASSWORD_MODULE,

PAM_AUTHTOK_ERR, PAM_CHAUTHTOK, "pam_chauthtok-prelim");

if (retval == PAM_TRY_AGAIN)

return (retval);

if (retval != PAM_SUCCESS) {

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

return (retval);

}

/* 2nd pass: UPDATE AUTHTOK */

retval = run_stack(pamh, flags | PAM_UPDATE_AUTHTOK,

PAM_PASSWORD_MODULE, PAM_AUTHTOK_ERR, PAM_CHAUTHTOK,

"pam_chauthtok-update");

if (retval != PAM_SUCCESS)

(void) pam_set_item(pamh, PAM_AUTHTOK, NULL);

return (retval);

}

pam_putenv(pam_handle_t *pamh, const char *name_value)

{

int error = PAM_SYSTEM_ERR;

char *equal_sign = 0;

char *name = NULL, *value = NULL, *tmp_value = NULL;

env_list *traverse, *trail;

pam_trace(PAM_DEBUG_DEFAULT,

"pam_putenv(%p, %s)", (void *)pamh,

name_value ? name_value : "NULL");

if (pamh == NULL || name_value == NULL)

goto out;

/* see if we were passed 'NAME=VALUE', 'NAME=', or 'NAME' */

if ((equal_sign = strchr(name_value, '=')) != 0) {

if ((name = (char *)calloc(equal_sign - name_value + 1,

sizeof (char))) == 0) {

error = PAM_BUF_ERR;

goto out;

}

(void) strncpy(name, name_value, equal_sign - name_value);

if ((value = strdup(++equal_sign)) == 0) {

error = PAM_BUF_ERR;

goto out;

}

} else {

if ((name = strdup(name_value)) == 0) {

error = PAM_BUF_ERR;

goto out;

}

}

/* check to see if we already have this variable in the PAM handle */

traverse = pamh->pam_env;

trail = traverse;

while (traverse && strncmp(traverse->name, name, strlen(name))) {

trail = traverse;

traverse = traverse->next;

}

if (traverse) {

/* found a match */

if (value == 0) {

/* remove the env variable */

if (pamh->pam_env == traverse)

pamh->pam_env = traverse->next;

else

trail->next = traverse->next;

free_env(traverse);

} else if (strlen(value) == 0) {

/* set env variable to empty value */

if ((tmp_value = strdup("")) == 0) {

error = PAM_SYSTEM_ERR;

goto out;

}

free(traverse->value);

traverse->value = tmp_value;

} else {

/* set the new value */

if ((tmp_value = strdup(value)) == 0) {

error = PAM_SYSTEM_ERR;

goto out;

}

free(traverse->value);

traverse->value = tmp_value;

}

} else if (traverse == 0 && value) {

/*

if ((traverse = (env_list *)calloc

(1,

sizeof (env_list))) == 0) {

error = PAM_BUF_ERR;

goto out;

}

if ((traverse->name = strdup(name)) == 0) {

free_env(traverse);

error = PAM_BUF_ERR;

goto out;

}

if ((traverse->value = strdup(value)) == 0) {

free_env(traverse);

error = PAM_BUF_ERR;

goto out;

}

if (trail == 0) {

/* new head of list */

pamh->pam_env = traverse;

} else {

/* adding to end of list */

trail->next = traverse;

}

}

error = PAM_SUCCESS;

out:

if (error != PAM_SUCCESS) {

if (traverse) {

if (traverse->name)

free(traverse->name);

if (traverse->value)

free(traverse->value);

free(traverse);

}

}

if (name)

free(name);

if (value)

free(value);

return (error);

}

char *

pam_getenv(pam_handle_t *pamh, const char *name)

{

int error = PAM_SYSTEM_ERR;

env_list *traverse;

pam_trace(PAM_DEBUG_DEFAULT,

"pam_getenv(%p, %p)", (void *)pamh, (void *)name);

if (pamh == NULL || name == NULL)

goto out;

/* check to see if we already have this variable in the PAM handle */

traverse = pamh->pam_env;

while (traverse && strncmp(traverse->name, name, strlen(name))) {

traverse = traverse->next;

}

error = (traverse ? PAM_SUCCESS : PAM_SYSTEM_ERR);

pam_trace(PAM_DEBUG_DEFAULT,

"pam_getenv(%p, %s)=%s", (void *)pamh, name,

traverse ? traverse->value : "NULL");

out:

return (error ? NULL : strdup(traverse->value));

}

char **

pam_getenvlist(pam_handle_t *pamh)

{

int error = PAM_SYSTEM_ERR;

char **list = 0;

int length = 0;

env_list *traverse;

char env_buf[1024];

pam_trace(PAM_DEBUG_DEFAULT,

"pam_getenvlist(%p)", (void *)pamh);

if (pamh == NULL)

goto out;

/* find out how many environment variables we have */

traverse = pamh->pam_env;

while (traverse) {

length++;

traverse = traverse->next;

}

/* allocate the array we will return to the caller */

if ((list = (char **)calloc(length + 1, sizeof (char *))) == 0) {

error = PAM_BUF_ERR;

goto out;

}

/* add the variables one by one */

length = 0;

traverse = pamh->pam_env;

while (traverse) {

(void) snprintf(env_buf, sizeof (env_buf), "%s=%s",

traverse->name, traverse->value);

if ((list[length] = strdup(env_buf)) == 0) {

error = PAM_BUF_ERR;

goto out;

}

length++;

traverse = traverse->next;

}

/* null terminate the list */

list[length] = 0;

error = PAM_SUCCESS;

out:

if (error != PAM_SUCCESS) {

/* free the partially constructed list */

if (list) {

length = 0;

while (list[length] != NULL) {

free(list[length]);

length++;

}

free(list);

}

}

return (error ? NULL : list);

}

static int

load_modules(pam_handle_t *pamh, int type, char *function_name,

pamtab_t *pam_entry)

{

void *mh;

struct auth_module *authp;

struct account_module *accountp;

struct session_module *sessionp;

struct password_module *passwdp;

int loading_functions = 0; /* are we currently loading functions? */

pam_trace(PAM_DEBUG_MODULE, "load_modules[%d:%s](%p, %s)=%s:%s",

pamh->include_depth, pam_trace_cname(pamh), (void *)pamh,

function_name, pam_trace_fname(pam_entry->pam_flag),

pam_entry->module_path);

while (pam_entry != NULL) {

pam_trace(PAM_DEBUG_DEFAULT,

"while load_modules[%d:%s](%p, %s)=%s",

pamh->include_depth, pam_trace_cname(pamh), (void *)pamh,

function_name, pam_entry->module_path);

if (pam_entry->pam_flag & PAM_INCLUDE) {

pam_trace(PAM_DEBUG_DEFAULT,

"done load_modules[%d:%s](%p, %s)=%s",

pamh->include_depth, pam_trace_cname(pamh),

(void *)pamh, function_name,

pam_entry->module_path);

return (PAM_SUCCESS);

}

switch (type) {

case PAM_AUTH_MODULE:

/* if the function has already been loaded, return */

authp = pam_entry->function_ptr;

if (!loading_functions &&

(((strcmp(function_name, PAM_SM_AUTHENTICATE)

== 0) &&

authp && authp->pam_sm_authenticate) ||

((strcmp(function_name, PAM_SM_SETCRED) == 0) &&

authp && authp->pam_sm_setcred))) {

return (PAM_SUCCESS);

}

/* function has not been loaded yet */

loading_functions = 1;

if (authp == NULL) {

authp = (struct auth_module *)calloc(1,

sizeof (struct auth_module));

if (authp == NULL)

return (PAM_BUF_ERR);

}

/* if open_module fails, return error */

if ((mh = open_module(pamh,

pam_entry->module_path)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"load_modules[%d:%s]: can not open module "

"%s", pamh->include_depth,

pam_trace_cname(pamh),

pam_entry->module_path);

free(authp);

return (PAM_OPEN_ERR);

}

/* load the authentication function */

if (strcmp(function_name, PAM_SM_AUTHENTICATE) == 0) {

if (load_function(mh, PAM_SM_AUTHENTICATE,

&authp->pam_sm_authenticate)

!= PAM_SUCCESS) {

/* return error if dlsym fails */

free(authp);

return (PAM_SYMBOL_ERR);

}

/* load the setcred function */

} else if (strcmp(function_name, PAM_SM_SETCRED) == 0) {

if (load_function(mh, PAM_SM_SETCRED,

&authp->pam_sm_setcred) != PAM_SUCCESS) {

/* return error if dlsym fails */

free(authp);

return (PAM_SYMBOL_ERR);

}

}

pam_entry->function_ptr = authp;

break;

case PAM_ACCOUNT_MODULE:

accountp = pam_entry->function_ptr;

if (!loading_functions &&

(strcmp(function_name, PAM_SM_ACCT_MGMT) == 0) &&

accountp && accountp->pam_sm_acct_mgmt) {

return (PAM_SUCCESS);

}

/*

loading_functions = 1;

accountp = (struct account_module *)calloc(1,

sizeof (struct account_module));

if (accountp == NULL)

return (PAM_BUF_ERR);

/* if open_module fails, return error */

if ((mh = open_module(pamh,

pam_entry->module_path)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"load_modules[%d:%s]: can not open module "

"%s", pamh->include_depth,

pam_trace_cname(pamh),

pam_entry->module_path);

free(accountp);

return (PAM_OPEN_ERR);

}

if (load_function(mh, PAM_SM_ACCT_MGMT,

&accountp->pam_sm_acct_mgmt) != PAM_SUCCESS) {

__pam_log(LOG_AUTH | LOG_ERR,

"load_modules[%d:%s]: pam_sm_acct_mgmt() "

"missing", pamh->include_depth,

pam_trace_cname(pamh));

free(accountp);

return (PAM_SYMBOL_ERR);

}

pam_entry->function_ptr = accountp;

break;

case PAM_SESSION_MODULE:

sessionp = pam_entry->function_ptr;

if (!loading_functions &&

(((strcmp(function_name,

PAM_SM_OPEN_SESSION) == 0) &&

sessionp && sessionp->pam_sm_open_session) ||

((strcmp(function_name,

PAM_SM_CLOSE_SESSION) == 0) &&

sessionp && sessionp->pam_sm_close_session))) {

return (PAM_SUCCESS);

}

loading_functions = 1;

if (sessionp == NULL) {

sessionp = (struct session_module *)

calloc(1, sizeof (struct session_module));

if (sessionp == NULL)

return (PAM_BUF_ERR);

}

/* if open_module fails, return error */

if ((mh = open_module(pamh,

pam_entry->module_path)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"load_modules[%d:%s]: can not open module "

"%s", pamh->include_depth,

pam_trace_cname(pamh),

pam_entry->module_path);

free(sessionp);

return (PAM_OPEN_ERR);

}

if ((strcmp(function_name, PAM_SM_OPEN_SESSION) == 0) &&

load_function(mh, PAM_SM_OPEN_SESSION,

&sessionp->pam_sm_open_session)

!= PAM_SUCCESS) {

free(sessionp);

return (PAM_SYMBOL_ERR);

} else if ((strcmp(function_name,

PAM_SM_CLOSE_SESSION) == 0) &&

load_function(mh, PAM_SM_CLOSE_SESSION,

&sessionp->pam_sm_close_session)

!= PAM_SUCCESS) {

free(sessionp);

return (PAM_SYMBOL_ERR);

}

pam_entry->function_ptr = sessionp;

break;

case PAM_PASSWORD_MODULE:

passwdp = pam_entry->function_ptr;

if (!loading_functions &&

(strcmp(function_name, PAM_SM_CHAUTHTOK) == 0) &&

passwdp && passwdp->pam_sm_chauthtok) {

return (PAM_SUCCESS);

}

/*

loading_functions = 1;

passwdp = (struct password_module *)

calloc(1, sizeof (struct password_module));

if (passwdp == NULL)

return (PAM_BUF_ERR);

/* if open_module fails, continue */

if ((mh = open_module(pamh,

pam_entry->module_path)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"load_modules[%d:%s]: can not open module "

"%s", pamh->include_depth,

pam_trace_cname(pamh),

pam_entry->module_path);

free(passwdp);

return (PAM_OPEN_ERR);

}

if (load_function(mh, PAM_SM_CHAUTHTOK,

&passwdp->pam_sm_chauthtok) != PAM_SUCCESS) {

free(passwdp);

return (PAM_SYMBOL_ERR);

}

pam_entry->function_ptr = passwdp;

break;

default:

pam_trace(PAM_DEBUG_DEFAULT,

"load_modules[%d:%s](%p, %s): unsupported type %d",

pamh->include_depth, pam_trace_cname(pamh),

(void *)pamh, function_name, type);

break;

}

pam_entry = pam_entry->next;

} /* while */

pam_trace(PAM_DEBUG_MODULE, "load_modules[%d:%s](%p, %s)=done",

pamh->include_depth, pam_trace_cname(pamh), (void *)pamh,

function_name);

return (PAM_SUCCESS);

}

static void *

open_module(pam_handle_t *pamh, char *module_so)

{

struct stat64 stb;

char *errmsg;

void *lfd;

fd_list *module_fds = 0;

fd_list *trail = 0;

fd_list *traverse = 0;

/* Check the ownership and file modes */

if (stat64(module_so, &stb) < 0) {

__pam_log(LOG_AUTH | LOG_ERR,

"open_module[%d:%s]: stat(%s) failed: %s",

pamh->include_depth, pam_trace_cname(pamh), module_so,

strerror(errno));

return (NULL);

}

if (stb.st_uid != (uid_t)0) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_module[%d:%s]: Owner of the module %s is not root",

pamh->include_depth, pam_trace_cname(pamh), module_so);

return (NULL);

}

if (stb.st_mode & S_IWGRP) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_module[%d:%s]: module %s writable by group",

pamh->include_depth, pam_trace_cname(pamh), module_so);

return (NULL);

}

if (stb.st_mode & S_IWOTH) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_module[%d:%s]: module %s writable by world",

pamh->include_depth, pam_trace_cname(pamh), module_so);

return (NULL);

}

/*

lfd = (void *)dlopen(module_so, RTLD_LAZY);

if (lfd == NULL) {

errmsg = dlerror();

__pam_log(LOG_AUTH | LOG_ERR, "open_module[%d:%s]: %s "

"failed: %s", pamh->include_depth, pam_trace_cname(pamh),

module_so, errmsg != NULL ? errmsg : "Unknown error");

return (NULL);

} else {

/* add this fd to the pam handle */

if ((module_fds = (fd_list *)calloc(1, sizeof (fd_list)))

== 0) {

(void) dlclose(lfd);

lfd = 0;

return (NULL);

}

module_fds->mh = lfd;

if (pamh->fd == 0) {

/* adding new head of list */

pamh->fd = module_fds;

} else {

/* appending to end of list */

traverse = pamh->fd;

while (traverse) {

trail = traverse;

traverse = traverse->next;

}

trail->next = module_fds;

}

}

return (lfd);

}

static int

load_function(void *lfd, char *name, int (**func)())

{

char *errmsg = NULL;

if (lfd == NULL)

return (PAM_SYMBOL_ERR);

*func = (int (*)())dlsym(lfd, name);

if (*func == NULL) {

errmsg = dlerror();

__pam_log(LOG_AUTH | LOG_ERR, "dlsym failed %s: error %s",

name, errmsg != NULL ? errmsg : "Unknown error");

return (PAM_SYMBOL_ERR);

}

pam_trace(PAM_DEBUG_DEFAULT,

"load_function: successful load of %s", name);

return (PAM_SUCCESS);

}

static int

open_pam_conf(struct pam_fh **pam_fh, pam_handle_t *pamh, char *config)

{

struct stat64 stb;

int fd;

if ((fd = open(config, O_RDONLY)) == -1) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_pam_conf[%d:%s]: open(%s) failed: %s",

pamh->include_depth, pam_trace_cname(pamh), config,

strerror(errno));

return (0);

}

/* Check the ownership and file modes */

if (fstat64(fd, &stb) < 0) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_pam_conf[%d:%s]: stat(%s) failed: %s",

pamh->include_depth, pam_trace_cname(pamh), config,

strerror(errno));

(void) close(fd);

return (0);

}

if (stb.st_uid != (uid_t)0) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_pam_conf[%d:%s]: Owner of %s is not root",

pamh->include_depth, pam_trace_cname(pamh), config);

(void) close(fd);

return (0);

}

if (stb.st_mode & S_IWGRP) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_pam_conf[%d:%s]: %s writable by group",

pamh->include_depth, pam_trace_cname(pamh), config);

(void) close(fd);

return (0);

}

if (stb.st_mode & S_IWOTH) {

__pam_log(LOG_AUTH | LOG_ALERT,

"open_pam_conf[%d:%s]: %s writable by world",

pamh->include_depth, pam_trace_cname(pamh), config);

(void) close(fd);

return (0);

}

if ((*pam_fh = calloc(1, sizeof (struct pam_fh))) == NULL) {

(void) close(fd);

return (0);

}

(*pam_fh)->fconfig = fd;

(*pam_fh)->bufsize = (size_t)stb.st_size;

if (((*pam_fh)->data = mmap(0, (*pam_fh)->bufsize, PROT_READ,

MAP_PRIVATE, (*pam_fh)->fconfig, 0)) == MAP_FAILED) {

(void) close(fd);

free (*pam_fh);

return (0);

}

(*pam_fh)->bufferp = (*pam_fh)->data;

return (1);

}

static void

close_pam_conf(struct pam_fh *pam_fh)

{

(void) munmap(pam_fh->data, pam_fh->bufsize);

(void) close(pam_fh->fconfig);

free(pam_fh);

}

static int

read_pam_conf(pam_handle_t *pamh, char *config)

{

struct pam_fh *pam_fh;

pamtab_t *pamentp;

pamtab_t *tpament;

char *service;

int error;

int i = pamh->include_depth; /* include depth */

/*

int service_found[PAM_NUM_MODULE_TYPES+1] = {0, 0, 0, 0, 0};

(void) pam_get_item(pamh, PAM_SERVICE, (void **)&service);

if (service == NULL || *service == '\0') {

__pam_log(LOG_AUTH | LOG_ERR, "No service name");

return (PAM_SYSTEM_ERR);

}

pamh->pam_conf_name[i] = strdup(config);

pam_trace(PAM_DEBUG_CONF, "read_pam_conf[%d:%s](%p) open(%s)",

i, pam_trace_cname(pamh), (void *)pamh, config);

if (open_pam_conf(&pam_fh, pamh, config) == 0)

return (PAM_SYSTEM_ERR);

while ((error =

get_pam_conf_entry(pam_fh, pamh, &pamentp)) == PAM_SUCCESS &&

pamentp) {

/* See if entry is this service and valid */

if (verify_pam_conf(pamentp, service)) {

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf[%d:%s](%p): bad entry error %s",

i, pam_trace_cname(pamh), (void *)pamh, service);

error = PAM_SYSTEM_ERR;

free_pamconf(pamentp);

goto out;

}

if (strcasecmp(pamentp->pam_service, service) == 0) {

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf[%d:%s](%p): processing %s",

i, pam_trace_cname(pamh), (void *)pamh, service);

/* process first service entry */

if (service_found[pamentp->pam_type + 1] == 0) {

/* purge "other" entries */

while ((tpament = pamh->pam_conf_info[i]

[pamentp->pam_type]) != NULL) {

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): purging "

"\"other\"[%d:%s][%s]",

(void *)pamh, i,

pam_trace_cname(pamh),

pam_snames[pamentp->pam_type]);

pamh->pam_conf_info[i]

[pamentp->pam_type] = tpament->next;

free_pamconf(tpament);

}

/* add first service entry */

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): adding 1st "

"%s[%d:%s][%s]",

(void *)pamh, service, i,

pam_trace_cname(pamh),

pam_snames[pamentp->pam_type]);

pamh->pam_conf_info[i][pamentp->pam_type] =

pamentp;

service_found[pamentp->pam_type + 1] = 1;

} else {

/* append more service entries */

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): adding more "

"%s[%d:%s][%s]",

(void *)pamh, service, i,

pam_trace_cname(pamh),

pam_snames[pamentp->pam_type]);

tpament =

pamh->pam_conf_info[i][pamentp->pam_type];

while (tpament->next != NULL) {

tpament = tpament->next;

}

tpament->next = pamentp;

}

} else if (service_found[pamentp->pam_type + 1] == 0) {

/* See if "other" entry available and valid */

if (verify_pam_conf(pamentp, "other")) {

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): bad entry error %s "

"\"other\"[%d:%s]",

(void *)pamh, service, i,

pam_trace_cname(pamh));

error = PAM_SYSTEM_ERR;

free_pamconf(pamentp);

goto out;

}

if (strcasecmp(pamentp->pam_service, "other") == 0) {

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): processing "

"\"other\"[%d:%s]", (void *)pamh, i,

pam_trace_cname(pamh));

if ((tpament = pamh->pam_conf_info[i]

[pamentp->pam_type]) == NULL) {

/* add first "other" entry */

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): adding 1st "

"other[%d:%s][%s]", (void *)pamh, i,

pam_trace_cname(pamh),

pam_snames[pamentp->pam_type]);

pamh->pam_conf_info[i]

[pamentp->pam_type] = pamentp;

} else {

/* append more "other" entries */

pam_trace(PAM_DEBUG_CONF,

"read_pam_conf(%p): adding more "

"other[%d:%s][%s]", (void *)pamh, i,

pam_trace_cname(pamh),

pam_snames[pamentp->pam_type]);

while (tpament->next != NULL) {

tpament = tpament->next;

}

tpament->next = pamentp;

}

} else {

/* irrelevent entry */

free_pamconf(pamentp);

}

} else {

/* irrelevent entry */

free_pamconf(pamentp);

}

}

out:

(void) close_pam_conf(pam_fh);

if (error != PAM_SUCCESS)

free_pam_conf_info(pamh);

return (error);

}

static int

get_pam_conf_entry(struct pam_fh *pam_fh, pam_handle_t *pamh, pamtab_t **pam)

{

char *cp, *arg;

int argc;

char *tmp, *tmp_free;

int i;

char *current_line = NULL;

int error = PAM_SYSTEM_ERR; /* preset to error */

/* get the next line from pam.conf */

if ((cp = nextline(pam_fh)) == NULL) {

/* no more lines in pam.conf ==> return */

error = PAM_SUCCESS;

*pam = NULL;

goto out;

}

if ((*pam = (pamtab_t *)calloc(1, sizeof (pamtab_t))) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup: out of memory");

goto out;

}

/* copy full line for error reporting */

if ((current_line = strdup(cp)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup: out of memory");

goto out;

}

pam_trace(PAM_DEBUG_CONF,

"pam.conf[%s] entry:\t%s", pam_trace_cname(pamh), current_line);

/* get service name (e.g. login, su, passwd) */

if ((arg = read_next_token(&cp)) == 0) {

__pam_log(LOG_AUTH | LOG_CRIT,

"illegal pam.conf[%s] entry: %s: missing SERVICE NAME",

pam_trace_cname(pamh), current_line);

goto out;

}

if (((*pam)->pam_service = strdup(arg)) == 0) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup: out of memory");

goto out;

}

/* get module type (e.g. authentication, acct mgmt) */

if ((arg = read_next_token(&cp)) == 0) {

__pam_log(LOG_AUTH | LOG_CRIT,

"illegal pam.conf[%s] entry: %s: missing MODULE TYPE",

pam_trace_cname(pamh), current_line);

(*pam)->pam_type = -1; /* 0 is a valid value */

goto getflag;

}

if (strcasecmp(arg, PAM_AUTH_NAME) == 0) {

(*pam)->pam_type = PAM_AUTH_MODULE;

} else if (strcasecmp(arg, PAM_ACCOUNT_NAME) == 0) {

(*pam)->pam_type = PAM_ACCOUNT_MODULE;

} else if (strcasecmp(arg, PAM_SESSION_NAME) == 0) {

(*pam)->pam_type = PAM_SESSION_MODULE;

} else if (strcasecmp(arg, PAM_PASSWORD_NAME) == 0) {

(*pam)->pam_type = PAM_PASSWORD_MODULE;

} else {

/* error */

__pam_log(LOG_AUTH | LOG_CRIT,

"illegal pam.conf[%s] entry: %s: invalid module "

"type: %s", pam_trace_cname(pamh), current_line, arg);

(*pam)->pam_type = -1; /* 0 is a valid value */

}

getflag:

/* get pam flag (e.g., requisite, required, sufficient, optional) */

if ((arg = read_next_token(&cp)) == 0) {

__pam_log(LOG_AUTH | LOG_CRIT,

"illegal pam.conf[%s] entry: %s: missing CONTROL FLAG",

pam_trace_cname(pamh), current_line);

goto getpath;

}

if (strcasecmp(arg, PAM_BINDING_NAME) == 0) {

(*pam)->pam_flag = PAM_BINDING;

} else if (strcasecmp(arg, PAM_INCLUDE_NAME) == 0) {

(*pam)->pam_flag = PAM_INCLUDE;

} else if (strcasecmp(arg, PAM_OPTIONAL_NAME) == 0) {

(*pam)->pam_flag = PAM_OPTIONAL;

} else if (strcasecmp(arg, PAM_REQUIRED_NAME) == 0) {

(*pam)->pam_flag = PAM_REQUIRED;

} else if (strcasecmp(arg, PAM_REQUISITE_NAME) == 0) {

(*pam)->pam_flag = PAM_REQUISITE;

} else if (strcasecmp(arg, PAM_SUFFICIENT_NAME) == 0) {

(*pam)->pam_flag = PAM_SUFFICIENT;

} else {

/* error */

__pam_log(LOG_AUTH | LOG_CRIT,

"illegal pam.conf[%s] entry: %s",

pam_trace_cname(pamh), current_line);

__pam_log(LOG_AUTH | LOG_CRIT,

"\tinvalid control flag: %s", arg);

}

getpath:

/* get module path (e.g. /usr/lib/security/pam_unix_auth.so.1) */

if ((arg = read_next_token(&cp)) == 0) {

__pam_log(LOG_AUTH | LOG_CRIT,

"illegal pam.conf[%s] entry: %s: missing MODULE PATH",

pam_trace_cname(pamh), current_line);

error = PAM_SUCCESS; /* success */

goto out;

}

if (arg[0] != '/') {

size_t len;

/*

/* sizeof (PAM_LIB_DIR) has room for '\0' */

len = sizeof (PAM_LIB_DIR) + sizeof (PAM_ISA_DIR) + strlen(arg);

if (((*pam)->module_path = malloc(len)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup: out of memory");

goto out;

}

if ((*pam)->pam_flag & PAM_INCLUDE) {

(void) snprintf((*pam)->module_path, len, "%s%s",

PAM_LIB_DIR, arg);

} else {

(void) snprintf((*pam)->module_path, len, "%s%s%s",

PAM_LIB_DIR, PAM_ISA_DIR, arg);

}

} else {

/* Full path provided for module */

char *isa;

/* Check for Instruction Set Architecture indicator */

if ((isa = strstr(arg, PAM_ISA)) != NULL) {

size_t len;

len = strlen(arg) - (sizeof (PAM_ISA)-1) +

sizeof (PAM_ISA_DIR);

/* substitute the architecture dependent path */

if (((*pam)->module_path = malloc(len)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR,

"strdup: out of memory");

goto out;

}

*isa = '\000';

isa += strlen(PAM_ISA);

(void) snprintf((*pam)->module_path, len, "%s%s%s",

arg, PAM_ISA_DIR, isa);

} else if (((*pam)->module_path = strdup(arg)) == 0) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup: out of memory");

goto out;

}

}

/* count the number of module-specific options first */

argc = 0;

if ((tmp = strdup(cp)) == NULL) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup: out of memory");

goto out;

}

tmp_free = tmp;

for (arg = read_next_token(&tmp); arg; arg = read_next_token(&tmp))

argc++;

free(tmp_free);

/* allocate array for the module-specific options */

if (argc > 0) {

if (((*pam)->module_argv = (char **)

calloc(argc+1, sizeof (char *))) == 0) {

__pam_log(LOG_AUTH | LOG_ERR, "calloc: out of memory");

goto out;

}

i = 0;

for (arg = read_next_token(&cp); arg;

arg = read_next_token(&cp)) {

(*pam)->module_argv[i] = strdup(arg);

if ((*pam)->module_argv[i] == NULL) {

__pam_log(LOG_AUTH | LOG_ERR, "strdup failed");

goto out;

}

i++;

}

(*pam)->module_argv[argc] = NULL;

}

(*pam)->module_argc = argc;

error = PAM_SUCCESS; /* success */

out:

if (current_line)

free(current_line);

if (error != PAM_SUCCESS) {

/* on error free this */

if (*pam)

free_pamconf(*pam);

}

return (error);

}

static char *

read_next_token(char **cpp)

{

register char *cp = *cpp;

char *start;

if (cp == (char *)0) {

*cpp = (char *)0;

return ((char *)0);

}

while (*cp == ' ' || *cp == '\t')

cp++;

if (*cp == '\0') {

*cpp = (char *)0;

return ((char *)0);

}

start = cp;

while (*cp && *cp != ' ' && *cp != '\t')

cp++;

if (*cp != '\0')

*cp++ = '\0';

*cpp = cp;

return (start);

}

static char *

pam_conf_strnchr(char *sp, int c, intptr_t count)

{

while (count) {

if (*sp == (char)c)

return ((char *)sp);

else {

sp++;

count--;

}

};

return (NULL);

}

static char *

nextline(struct pam_fh *pam_fh)

{

char *ll;

int find_a_line = 0;

char *data = pam_fh->data;

char *bufferp = pam_fh->bufferp;

char *bufferendp = &data[pam_fh->bufsize];

/*

while (!find_a_line) {

/* if we are at the end of the buffer, there is no next line */

if (bufferp == bufferendp)

return (NULL);

/* skip blank line */

while (*bufferp == '\n') {

/*

if (++bufferp == bufferendp)

return (NULL);

/* else we check *bufferp again */

}

/* skip comment line */

while (*bufferp == '#') {

if ((ll = pam_conf_strnchr(bufferp, '\n',

bufferendp - bufferp)) != NULL) {

bufferp = ll;

}

else

/* this comment line the last line. no next line */

return (NULL);

/*

if (bufferp == bufferendp)

return (NULL);

}

if ((*bufferp != '\n') && (*bufferp != '#'))

find_a_line = 1;

}

/* now we find one line */

if ((ll = pam_conf_strnchr(bufferp, '\n', bufferendp - bufferp))

!= NULL) {

(void) strncpy(pam_fh->line, bufferp, ll - bufferp);

pam_fh->line[ll - bufferp] = '\0';

pam_fh->bufferp = ll++;

} else {

ll = bufferendp;

(void) strncpy(pam_fh->line, bufferp, ll - bufferp);

pam_fh->line[ll - bufferp] = '\0';

pam_fh->bufferp = ll;

}

return (pam_fh->line);

}

static int

verify_pam_conf(pamtab_t *pam, char *service)

{

return ((pam->pam_service == (char *)NULL) ||

((strcasecmp(pam->pam_service, service) == 0) &&

((pam->pam_type == -1) ||

(pam->pam_flag == 0) ||

(pam->module_path == (char *)NULL))));

}

static void

clean_up(pam_handle_t *pamh)

{

int i;

pam_repository_t *auth_rep;

if (pamh) {

/* Cleanup Sun proprietary tag information */

if (pamh->pam_client_message_version_number)

free(pamh->pam_client_message_version_number);

while (pamh->include_depth >= 0) {

free_pam_conf_info(pamh);

pamh->include_depth--;

}

/* Cleanup PAM_REPOSITORY structure */

auth_rep = pamh->ps_item[PAM_REPOSITORY].pi_addr;

if (auth_rep != NULL) {

if (auth_rep->type != NULL)

free(auth_rep->type);

if (auth_rep->scope != NULL)

free(auth_rep->scope);

}

for (i = 0; i < PAM_MAX_ITEMS; i++) {

if (pamh->ps_item[i].pi_addr != NULL) {

if (i == PAM_AUTHTOK || i == PAM_OLDAUTHTOK) {

(void) memset(pamh->ps_item[i].pi_addr,

0, pamh->ps_item[i].pi_size);

}

free(pamh->ps_item[i].pi_addr);

}

}

free(pamh);

}

}

static void

free_pamconf(pamtab_t *cp)

{

int i;

if (cp) {

if (cp->pam_service)

free(cp->pam_service);

if (cp->module_path)

free(cp->module_path);

for (i = 0; i < cp->module_argc; i++) {

if (cp->module_argv[i])

free(cp->module_argv[i]);

}

if (cp->module_argc > 0)

free(cp->module_argv);

if (cp->function_ptr)

free(cp->function_ptr);

free(cp);

}

}

static void

free_pam_conf_info(pam_handle_t *pamh)

{

pamtab_t *pamentp;

pamtab_t *pament_trail;

int i = pamh->include_depth;

int j;

for (j = 0; j < PAM_NUM_MODULE_TYPES; j++) {

pamentp = pamh->pam_conf_info[i][j];

pamh->pam_conf_info[i][j] = NULL;

pament_trail = pamentp;

while (pamentp) {

pamentp = pamentp->next;

free_pamconf(pament_trail);

pament_trail = pamentp;

}

}

if (pamh->pam_conf_name[i] != NULL) {

free(pamh->pam_conf_name[i]);

pamh->pam_conf_name[i] = NULL;

}

}

static void

free_env(env_list *pam_env)

{

if (pam_env) {

if (pam_env->name)

free(pam_env->name);

if (pam_env->value)

free(pam_env->value);

free(pam_env);

}

}

#include <libintl.h>

#include <nl_types.h>

#include <synch.h>

#include <locale.h>

#include <thread.h>

typedef struct pam_msg_data {

nl_catd fd;

} pam_msg_data_t;

free_resp(int num_msg, struct pam_response *resp)

{