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#define PAM_SM_AUTH
#define PAM_SM_ACCOUNT
#define PAM_SM_SESSION
#define PAM_SM_PASSWORD
#include <sys/types.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdint.h>
#include <security/pam_modules.h>
#include <security/pam_misc.h>
#include "sss_cli.h"
struct pam_items {
const char* pam_service;
const char* pam_user;
const char* pam_tty;
const char* pam_ruser;
const char* pam_rhost;
const char* pam_authtok;
const char* pam_newauthtok;
const char* pamstack_authtok;
const char* pamstack_oldauthtok;
int pam_service_size;
int pam_user_size;
int pam_tty_size;
int pam_ruser_size;
int pam_rhost_size;
int pam_authtok_type;
int pam_authtok_size;
int pam_newauthtok_type;
int pam_newauthtok_size;
};
static int eval_response(pam_handle_t *pamh, int buflen, uint8_t *buf)
{
int p=0;
int32_t *c;
int32_t *type;
int32_t *len;
int32_t *pam_status;
pam_status = ((int32_t *)(buf+p));
p += sizeof(int32_t);
c = ((int32_t *)(buf+p));
p += sizeof(int32_t);
while(*c>0) {
type = ((int32_t *)(buf+p));
p += sizeof(int32_t);
len = ((int32_t *)(buf+p));
p += sizeof(int32_t);
switch(*type) {
case PAM_USER_INFO:
D(("user info: [%s]", &buf[p]));
break;
case PAM_DOMAIN_NAME:
D(("domain name: [%s]", &buf[p]));
break;
}
p += *len;
--(*c);
}
return 0;
}
static int get_pam_items(pam_handle_t *pamh, struct pam_items *pi)
{
int ret;
ret = pam_get_item(pamh, PAM_SERVICE, (const void **) &(pi->pam_service));
if (ret != PAM_SUCCESS) return ret;
if (pi->pam_service == NULL) pi->pam_service="";
pi->pam_service_size=strlen(pi->pam_service)+1;
ret = pam_get_item(pamh, PAM_USER, (const void **) &(pi->pam_user));
if (ret != PAM_SUCCESS) return ret;
if (pi->pam_user == NULL) pi->pam_user="";
pi->pam_user_size=strlen(pi->pam_user)+1;
ret = pam_get_item(pamh, PAM_TTY, (const void **) &(pi->pam_tty));
if (ret != PAM_SUCCESS) return ret;
if (pi->pam_tty == NULL) pi->pam_tty="";
pi->pam_tty_size=strlen(pi->pam_tty)+1;
ret = pam_get_item(pamh, PAM_RUSER, (const void **) &(pi->pam_ruser));
if (ret != PAM_SUCCESS) return ret;
if (pi->pam_ruser == NULL) pi->pam_ruser="";
pi->pam_ruser_size=strlen(pi->pam_ruser)+1;
ret = pam_get_item(pamh, PAM_RHOST, (const void **) &(pi->pam_rhost));
if (ret != PAM_SUCCESS) return ret;
if (pi->pam_rhost == NULL) pi->pam_rhost="";
pi->pam_rhost_size=strlen(pi->pam_rhost)+1;
ret = pam_get_item(pamh, PAM_AUTHTOK, (const void **) &(pi->pamstack_authtok));
if (ret != PAM_SUCCESS) return ret;
if (pi->pamstack_authtok == NULL) pi->pamstack_authtok="";
ret = pam_get_item(pamh, PAM_OLDAUTHTOK, (const void **) &(pi->pamstack_oldauthtok));
if (ret != PAM_SUCCESS) return ret;
if (pi->pamstack_oldauthtok == NULL) pi->pamstack_oldauthtok="";
return PAM_SUCCESS;
}
static void print_pam_items(struct pam_items pi)
{
D(("Service: %s", *pi.pam_service!='\0' ? pi.pam_service : "(not available)"));
D(("User: %s", *pi.pam_user!='\0' ? pi.pam_user : "(not available)"));
D(("Tty: %s", *pi.pam_tty!='\0' ? pi.pam_tty : "(not available)"));
D(("Ruser: %s", *pi.pam_ruser!='\0' ? pi.pam_ruser : "(not available)"));
D(("Rhost: %s", *pi.pam_rhost!='\0' ? pi.pam_rhost : "(not available)"));
D(("Authtok: %s", *pi.pamstack_authtok!='\0' ? pi.pamstack_authtok : "(not available)"));
D(("Oldauthtok: %s", *pi.pamstack_oldauthtok!='\0' ? pi.pamstack_oldauthtok : "(not available)"));
}
static int pam_sss(int task, pam_handle_t *pamh, int flags, int argc,
const char **argv)
{
int ret;
int errnop;
int c;
struct pam_items pi;
struct sss_cli_req_data rd;
uint8_t *repbuf=NULL;
size_t replen;
size_t rp;
char *buf=NULL;
struct pam_conv *conv;
struct pam_message *mesg[1];
struct pam_response *resp=NULL;
int pam_status;
char *newpwd[2];
D(("Hello pam_sssd: %d", task));
/* TODO: add useful prelim check */
if (task == SSS_PAM_CHAUTHTOK && (flags & PAM_PRELIM_CHECK)) {
D(("ignoring PAM_PRELIM_CHECK"));
return PAM_SUCCESS;
}
ret = get_pam_items(pamh, &pi);
if (ret != PAM_SUCCESS) {
D(("get items returned error: %s", pam_strerror(pamh,ret)));
return ret;
}
pi.pam_authtok_type = SSS_AUTHTOK_TYPE_EMPTY;
pi.pam_authtok = NULL;
pi.pam_authtok_size = 0;
pi.pam_newauthtok_type = SSS_AUTHTOK_TYPE_EMPTY;
pi.pam_newauthtok = NULL;
pi.pam_newauthtok_size = 0;
/* according to pam_conv(3) only one message should be requested by conv to
* keep compatibility to Solaris. Therefore we make separate calls to request
* AUTHTOK and OLDAUTHTOK. */
if ( task == SSS_PAM_AUTHENTICATE ||
(task == SSS_PAM_CHAUTHTOK && getuid() != 0)) {
ret=pam_get_item(pamh, PAM_CONV, (const void **) &conv);
if (ret != PAM_SUCCESS) return ret;
mesg[0] = malloc(sizeof(struct pam_message));
if (mesg[0] == NULL) {
D(("Malloc failed.\n"));
return PAM_SYSTEM_ERR;
}
mesg[0]->msg_style = PAM_PROMPT_ECHO_OFF;
mesg[0]->msg = strdup("Password: ");
ret=conv->conv(1, (const struct pam_message **) mesg, &resp,
conv->appdata_ptr);
free((void *)mesg[0]->msg);
free(mesg[0]);
if (ret != PAM_SUCCESS) {
D(("Conversation failure: %s.\n", pam_strerror(pamh,ret)));
pam_status = ret;
goto done;
}
if (resp[0].resp == NULL) {
D(("Empty password\n"));
pi.pam_authtok = NULL;
pi.pam_authtok_type = SSS_AUTHTOK_TYPE_EMPTY;
} else {
pi.pam_authtok = strdup(resp[0].resp);
pi.pam_authtok_type = SSS_AUTHTOK_TYPE_PASSWORD;
}
pi.pam_authtok_size=strlen(pi.pam_authtok);
}
if (task == SSS_PAM_CHAUTHTOK) {
ret=pam_get_item(pamh, PAM_CONV, (const void **) &conv);
if (ret != PAM_SUCCESS) return ret;
mesg[0] = malloc(sizeof(struct pam_message));
if (mesg[0] == NULL) {
D(("Malloc failed.\n"));
return PAM_SYSTEM_ERR;
}
mesg[0]->msg_style = PAM_PROMPT_ECHO_OFF;
mesg[0]->msg = strdup("New Password: ");
c = 0;
do {
ret=conv->conv(1, (const struct pam_message **) mesg, &resp,
conv->appdata_ptr);
free((void *)mesg[0]->msg);
if (ret != PAM_SUCCESS) {
D(("Conversation failure: %s.\n", pam_strerror(pamh,ret)));
pam_status = ret;
goto done;
}
newpwd[c++] = strdup(resp[0].resp);
_pam_overwrite((void *)resp[0].resp);
free(resp[0].resp);
free(resp);
resp = NULL;
mesg[0]->msg = strdup("Reenter new password: ");
} while(c < 2);
free(mesg[0]);
if (strcmp(newpwd[0],newpwd[1]) != 0) {
pam_status = PAM_AUTHTOK_ERR;
goto done;
}
if (newpwd[0] == NULL) {
D(("Empty password\n"));
pi.pam_newauthtok = NULL;
pi.pam_newauthtok_type = SSS_AUTHTOK_TYPE_EMPTY;
} else {
pi.pam_newauthtok = strdup(newpwd[0]);
pi.pam_newauthtok_type = SSS_AUTHTOK_TYPE_PASSWORD;
}
pi.pam_newauthtok_size=strlen(pi.pam_newauthtok);
_pam_overwrite((void *)newpwd[0]);
free(newpwd[0]);
_pam_overwrite((void *)newpwd[1]);
free(newpwd[1]);
}
print_pam_items(pi);
if (pi.pam_user) {
rd.len = pi.pam_user_size +
pi.pam_service_size +
pi.pam_tty_size +
pi.pam_ruser_size +
pi.pam_rhost_size +
2*sizeof(uint32_t) + pi.pam_authtok_size +
2*sizeof(uint32_t) + pi.pam_newauthtok_size +
sizeof(uint32_t);
buf = malloc(rd.len);
memcpy(buf, pi.pam_user, pi.pam_user_size);
rp = pi.pam_user_size;
memcpy(&buf[rp], pi.pam_service, pi.pam_service_size);
rp += pi.pam_service_size;
memcpy(&buf[rp], pi.pam_tty, pi.pam_tty_size);
rp += pi.pam_tty_size;
memcpy(&buf[rp], pi.pam_ruser, pi.pam_ruser_size);
rp += pi.pam_ruser_size;
memcpy(&buf[rp], pi.pam_rhost, pi.pam_rhost_size);
rp += pi.pam_rhost_size;
((uint32_t *)(&buf[rp]))[0] = pi.pam_authtok_type;
rp += sizeof(uint32_t);
((uint32_t *)(&buf[rp]))[0] = pi.pam_authtok_size;
rp += sizeof(uint32_t);
memcpy(&buf[rp], pi.pam_authtok, pi.pam_authtok_size);
rp += pi.pam_authtok_size;
_pam_overwrite((void *)pi.pam_authtok);
free((void *)pi.pam_authtok);
((uint32_t *)(&buf[rp]))[0] = pi.pam_newauthtok_type;
rp += sizeof(uint32_t);
((uint32_t *)(&buf[rp]))[0] = pi.pam_newauthtok_size;
rp += sizeof(uint32_t);
memcpy(&buf[rp], pi.pam_newauthtok, pi.pam_newauthtok_size);
rp += pi.pam_newauthtok_size;
_pam_overwrite((void *)pi.pam_newauthtok);
free((void *)pi.pam_newauthtok);
((uint32_t *)(&buf[rp]))[0] = END_OF_PAM_REQUEST;
rp += sizeof(uint32_t);
if (rp != rd.len) {
D(("error during packet creation."));
pam_status = PAM_ABORT;
goto done;
}
rd.data = buf;
ret = sss_pam_make_request(task, &rd, &repbuf, &replen, &errnop);
if (ret != NSS_STATUS_SUCCESS) {
D(("sss_pam_make_request failed."));
pam_status = ret;
goto done;
}
/* FIXME: add an end signature */
if (replen<sizeof(int)) {
D(("response not in expected format."));
pam_status=PAM_SYSTEM_ERR;
goto done;
}
pam_status = ((int32_t *)repbuf)[0];
eval_response(pamh, replen, repbuf);
D(("received: %d (%s)", pam_status, pam_strerror(pamh,pam_status)));
} else {
D(("no user found, doing nothing"));
return PAM_SUCCESS;
}
done:
if ( resp != NULL ) {
_pam_overwrite((void *)resp[0].resp);
free(resp[0].resp);
free(resp);
}
if ( buf != NULL && repbuf != NULL) _pam_overwrite_n(buf, rd.len);
free(buf);
free(repbuf);
return pam_status;
}
PAM_EXTERN int pam_sm_authenticate(pam_handle_t *pamh, int flags, int argc,
const char **argv )
{
return pam_sss(SSS_PAM_AUTHENTICATE, pamh, flags, argc, argv);
}
PAM_EXTERN int pam_sm_setcred(pam_handle_t *pamh, int flags, int argc,
const char **argv )
{
return pam_sss(SSS_PAM_SETCRED, pamh, flags, argc, argv);
}
PAM_EXTERN int pam_sm_acct_mgmt(pam_handle_t *pamh, int flags, int argc,
const char **argv )
{
return pam_sss(SSS_PAM_ACCT_MGMT, pamh, flags, argc, argv);
}
PAM_EXTERN int pam_sm_chauthtok(pam_handle_t *pamh, int flags, int argc,
const char **argv )
{
return pam_sss(SSS_PAM_CHAUTHTOK, pamh, flags, argc, argv);
}
PAM_EXTERN int pam_sm_open_session(pam_handle_t *pamh, int flags, int argc,
const char **argv )
{
return pam_sss(SSS_PAM_OPEN_SESSION, pamh, flags, argc, argv);
}
PAM_EXTERN int pam_sm_close_session(pam_handle_t *pamh, int flags, int argc,
const char **argv )
{
return pam_sss(SSS_PAM_CLOSE_SESSION, pamh, flags, argc, argv);
}
#ifdef PAM_STATIC
/* static module data */
struct pam_module _pam_sssd_modstruct ={
"pam_sssd",
pam_sm_authenticate,
pam_sm_setcred,
pam_sm_acct_mgmt,
pam_sm_open_session,
pam_sm_close_session,
pam_sm_chauthtok
};
#endif
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