#include <nss.h>

#include <errno.h>

#include <sys/types.h>

#include <unistd.h>

#include <stdlib.h>

#include <stdint.h>

#include <stdio.h>

#include <string.h>

#include "sss_cli.h"

#include "nss_compat.h"

#define CLEAR_NETGRENT_DATA(netgrent) do { \

free(netgrent->data); \

netgrent->data = NULL; \

netgrent->idx.position = 0; \

netgrent->data_size = 0; \

} while (0);

#define NETGR_METADATA_COUNT 2 * sizeof(uint32_t)

struct sss_nss_netgr_rep {

struct __netgrent *result;

char *buffer;

size_t buflen;

};

static int sss_nss_getnetgr_readrep(struct sss_nss_netgr_rep *pr,

uint8_t *buf, size_t *len)

{

errno_t ret;

char *sbuf;

char *temp;

size_t i, slen, dlen, size;

uint32_t type;

if (*len < 6) {

/* Not enough space for data, bad packet */

return EBADMSG;

}

sbuf = (char *)(buf + sizeof(uint32_t));

slen = *len - sizeof(uint32_t);

dlen = pr->buflen;

i = 0;

SAFEALIGN_COPY_UINT32(&type, buf, NULL);

switch (type) {

case SSS_NETGR_REP_TRIPLE:

pr->result->type = triple_val;

/* Host value */

temp = &(pr->buffer[i]);

ret = sss_readrep_copy_string(sbuf, &i,

&slen, &dlen,

&temp,

&size);

if (ret != EOK) return ret;

/* libc expects NULL instead of empty string */

if (size == 0) {

pr->result->val.triple.host = NULL;

} else {

pr->result->val.triple.host = temp;

}

/* User value */

temp = &(pr->buffer[i]);

ret = sss_readrep_copy_string(sbuf, &i,

&slen, &dlen,

&temp,

&size);

if (ret != EOK) return ret;

/* libc expects NULL instead of empty string */

if (size == 0) {

pr->result->val.triple.user = NULL;

} else {

pr->result->val.triple.user = temp;

}

/* Domain value */

temp = &(pr->buffer[i]);

ret = sss_readrep_copy_string(sbuf, &i,

&slen, &dlen,

&temp,

&size);

if (ret != EOK) return ret;

/* libc expects NULL instead of empty string */

if (size == 0) {

pr->result->val.triple.domain = NULL;

} else {

pr->result->val.triple.domain = temp;

}

break;

case SSS_NETGR_REP_GROUP:

pr->result->type = group_val;

temp = &(pr->buffer[i]);

ret = sss_readrep_copy_string(sbuf, &i,

&slen, &dlen,

&temp,

NULL);

if (ret != EOK) return ret;

pr->result->val.group = temp;

break;

default:

return EBADMSG;

}

*len = slen -i;

return 0;

}

enum nss_status _nss_sss_setnetgrent(const char *netgroup,

struct __netgrent *result)

{

uint8_t *repbuf = NULL;

size_t replen;

uint32_t num_results;

enum nss_status nret;

struct sss_cli_req_data rd;

int errnop;

char *name;

size_t name_len;

errno_t ret;

if (!netgroup) return NSS_STATUS_NOTFOUND;

sss_nss_lock();

/* make sure we do not have leftovers, and release memory */

CLEAR_NETGRENT_DATA(result);

ret = sss_strnlen(netgroup, SSS_NAME_MAX, &name_len);

if (ret != 0) {

nret = NSS_STATUS_NOTFOUND;

goto out;

}

name = malloc(sizeof(char)*name_len + 1);

if (name == NULL) {

nret = NSS_STATUS_TRYAGAIN;

goto out;

}

strncpy(name, netgroup, name_len + 1);

rd.data = name;

rd.len = name_len + 1;

nret = sss_nss_make_request(SSS_NSS_SETNETGRENT, &rd,

&repbuf, &replen, &errnop);

free(name);

if (nret != NSS_STATUS_SUCCESS) {

errno = errnop;

goto out;

}

/* Get number of results from repbuf */

SAFEALIGN_COPY_UINT32(&num_results, repbuf, NULL);

/* no results if not found */

if ((num_results == 0) || (replen < NETGR_METADATA_COUNT)) {

free(repbuf);

nret = NSS_STATUS_NOTFOUND;

goto out;

}

free(repbuf);

nret = NSS_STATUS_SUCCESS;

out:

sss_nss_unlock();

return nret;

}

static enum nss_status internal_getnetgrent_r(struct __netgrent *result,

char *buffer, size_t buflen,

int *errnop)

{

struct sss_cli_req_data rd;

struct sss_nss_netgr_rep netgrrep;

uint8_t *repbuf;

size_t replen;

uint32_t num_results;

enum nss_status nret;

uint32_t num_entries;

int ret;

/* Caught once glibc passing in buffer == 0x0 */

if (!buffer || !buflen) return ERANGE;

/* If we're already processing result data, continue to

if (result->data != NULL &&

result->idx.position < result->data_size) {

repbuf = (uint8_t *) result->data + result->idx.position;

replen = result->data_size - result->idx.position;

netgrrep.result = result;

netgrrep.buffer = buffer;

netgrrep.buflen = buflen;

ret = sss_nss_getnetgr_readrep(&netgrrep, repbuf, &replen);

if (ret != 0) {

*errnop = ret;

return NSS_STATUS_TRYAGAIN;

}

result->idx.position = result->data_size - replen;

return NSS_STATUS_SUCCESS;

}

/* Release memory, if any */

CLEAR_NETGRENT_DATA(result);

/* retrieve no more than SSS_NSS_MAX_ENTRIES at a time */

num_entries = SSS_NSS_MAX_ENTRIES;

rd.len = sizeof(uint32_t);

rd.data = &num_entries;

nret = sss_nss_make_request(SSS_NSS_GETNETGRENT, &rd,

&repbuf, &replen, errnop);

if (nret != NSS_STATUS_SUCCESS) {

return nret;

}

/* Get number of results from repbuf. */

SAFEALIGN_COPY_UINT32(&num_results, repbuf, NULL);

/* no results if not found */

if ((num_results == 0) || (replen <= NETGR_METADATA_COUNT)) {

free(repbuf);

return NSS_STATUS_RETURN;

}

result->data = (char *) repbuf;

result->data_size = replen;

/* skip metadata fields */

result->idx.position = NETGR_METADATA_COUNT;

/* call again ourselves, this will return the first result */

return internal_getnetgrent_r(result, buffer, buflen, errnop);

}

enum nss_status _nss_sss_getnetgrent_r(struct __netgrent *result,

char *buffer, size_t buflen,

int *errnop)

{

enum nss_status nret;

sss_nss_lock();

nret = internal_getnetgrent_r(result, buffer, buflen, errnop);

sss_nss_unlock();

return nret;

}

enum nss_status _nss_sss_endnetgrent(struct __netgrent *result)

{

enum nss_status nret;

int errnop;

sss_nss_lock();

/* make sure we do not have leftovers, and release memory */

CLEAR_NETGRENT_DATA(result);

nret = sss_nss_make_request(SSS_NSS_ENDNETGRENT,

NULL, NULL, NULL, &errnop);

if (nret != NSS_STATUS_SUCCESS) {

errno = errnop;

}

sss_nss_unlock();

return nret;

}