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|
/*
SSSD
Kerberos 5 Backend Module - Manage krb5_child
Authors:
Sumit Bose <sbose@redhat.com>
Copyright (C) 2010 Red Hat
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "util/util.h"
#include "util/child_common.h"
#include "providers/krb5/krb5_common.h"
#include "providers/krb5/krb5_auth.h"
#include "src/providers/krb5/krb5_utils.h"
#ifndef KRB5_CHILD_DIR
#ifndef SSSD_LIBEXEC_PATH
#error "SSSD_LIBEXEC_PATH not defined"
#endif /* SSSD_LIBEXEC_PATH */
#define KRB5_CHILD_DIR SSSD_LIBEXEC_PATH
#endif /* KRB5_CHILD_DIR */
#define KRB5_CHILD KRB5_CHILD_DIR"/krb5_child"
#define TIME_T_MAX LONG_MAX
#define int64_to_time_t(val) ((time_t)((val) < TIME_T_MAX ? val : TIME_T_MAX))
struct io {
int read_from_child_fd;
int write_to_child_fd;
};
struct handle_child_state {
struct tevent_context *ev;
struct krb5child_req *kr;
uint8_t *buf;
ssize_t len;
struct tevent_timer *timeout_handler;
pid_t child_pid;
struct io *io;
};
static int child_io_destructor(void *ptr)
{
int ret;
struct io *io = talloc_get_type(ptr, struct io);
if (io == NULL) return EOK;
if (io->write_to_child_fd != -1) {
ret = close(io->write_to_child_fd);
io->write_to_child_fd = -1;
if (ret != EOK) {
ret = errno;
DEBUG(1, ("close failed [%d][%s].\n", ret, strerror(ret)));
}
}
if (io->read_from_child_fd != -1) {
ret = close(io->read_from_child_fd);
io->read_from_child_fd = -1;
if (ret != EOK) {
ret = errno;
DEBUG(1, ("close failed [%d][%s].\n", ret, strerror(ret)));
}
}
return EOK;
}
static errno_t create_send_buffer(struct krb5child_req *kr,
struct io_buffer **io_buf)
{
struct io_buffer *buf;
size_t rp;
const char *keytab;
uint32_t validate;
size_t username_len = 0;
keytab = dp_opt_get_cstring(kr->krb5_ctx->opts, KRB5_KEYTAB);
if (keytab == NULL) {
DEBUG(1, ("Missing keytab option.\n"));
return EINVAL;
}
validate = dp_opt_get_bool(kr->krb5_ctx->opts, KRB5_VALIDATE) ? 1 : 0;
buf = talloc(kr, struct io_buffer);
if (buf == NULL) {
DEBUG(1, ("talloc failed.\n"));
return ENOMEM;
}
buf->size = 6*sizeof(uint32_t) + strlen(kr->upn);
if (kr->pd->cmd == SSS_PAM_AUTHENTICATE ||
kr->pd->cmd == SSS_CMD_RENEW ||
kr->pd->cmd == SSS_PAM_CHAUTHTOK_PRELIM ||
kr->pd->cmd == SSS_PAM_CHAUTHTOK) {
buf->size += 4*sizeof(uint32_t) + strlen(kr->ccname) + strlen(keytab) +
kr->pd->authtok_size;
}
if (kr->pd->cmd == SSS_PAM_CHAUTHTOK) {
buf->size += 2*sizeof(uint32_t) + kr->pd->newauthtok_size;
}
if (kr->pd->cmd == SSS_PAM_ACCT_MGMT) {
username_len = strlen(kr->pd->user);
buf->size += sizeof(uint32_t) + username_len;
}
buf->data = talloc_size(kr, buf->size);
if (buf->data == NULL) {
DEBUG(1, ("talloc_size failed.\n"));
talloc_free(buf);
return ENOMEM;
}
rp = 0;
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->pd->cmd, &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->uid, &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->gid, &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &validate, &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->is_offline, &rp);
SAFEALIGN_SET_UINT32(&buf->data[rp], strlen(kr->upn), &rp);
safealign_memcpy(&buf->data[rp], kr->upn, strlen(kr->upn), &rp);
if (kr->pd->cmd == SSS_PAM_AUTHENTICATE ||
kr->pd->cmd == SSS_CMD_RENEW ||
kr->pd->cmd == SSS_PAM_CHAUTHTOK_PRELIM ||
kr->pd->cmd == SSS_PAM_CHAUTHTOK) {
SAFEALIGN_SET_UINT32(&buf->data[rp], strlen(kr->ccname), &rp);
safealign_memcpy(&buf->data[rp], kr->ccname, strlen(kr->ccname), &rp);
SAFEALIGN_SET_UINT32(&buf->data[rp], strlen(keytab), &rp);
safealign_memcpy(&buf->data[rp], keytab, strlen(keytab), &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->pd->authtok_type, &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->pd->authtok_size, &rp);
safealign_memcpy(&buf->data[rp], kr->pd->authtok,
kr->pd->authtok_size, &rp);
}
if (kr->pd->cmd == SSS_PAM_CHAUTHTOK) {
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->pd->newauthtok_type, &rp);
SAFEALIGN_COPY_UINT32(&buf->data[rp], &kr->pd->newauthtok_size, &rp);
safealign_memcpy(&buf->data[rp], kr->pd->newauthtok,
kr->pd->newauthtok_size, &rp);
}
if (kr->pd->cmd == SSS_PAM_ACCT_MGMT) {
SAFEALIGN_SET_UINT32(&buf->data[rp], username_len, &rp);
safealign_memcpy(&buf->data[rp], kr->pd->user, username_len, &rp);
}
*io_buf = buf;
return EOK;
}
static void krb5_child_timeout(struct tevent_context *ev,
struct tevent_timer *te,
struct timeval tv, void *pvt)
{
struct tevent_req *req = talloc_get_type(pvt, struct tevent_req);
struct handle_child_state *state = tevent_req_data(req,
struct handle_child_state);
int ret;
if (state->timeout_handler == NULL) {
return;
}
DEBUG(9, ("timeout for child [%d] reached.\n", state->child_pid));
ret = kill(state->child_pid, SIGKILL);
if (ret == -1) {
DEBUG(1, ("kill failed [%d][%s].\n", errno, strerror(errno)));
}
tevent_req_error(req, ETIMEDOUT);
}
static errno_t activate_child_timeout_handler(struct tevent_req *req,
struct tevent_context *ev,
const uint32_t timeout_seconds)
{
struct timeval tv;
struct handle_child_state *state = tevent_req_data(req,
struct handle_child_state);
tv = tevent_timeval_current();
tv = tevent_timeval_add(&tv, timeout_seconds, 0);
state->timeout_handler = tevent_add_timer(ev, state, tv,
krb5_child_timeout, req);
if (state->timeout_handler == NULL) {
DEBUG(1, ("tevent_add_timer failed.\n"));
return ENOMEM;
}
return EOK;
}
static errno_t fork_child(struct tevent_req *req)
{
int pipefd_to_child[2];
int pipefd_from_child[2];
pid_t pid;
int ret;
errno_t err;
struct handle_child_state *state = tevent_req_data(req,
struct handle_child_state);
ret = pipe(pipefd_from_child);
if (ret == -1) {
err = errno;
DEBUG(1, ("pipe failed [%d][%s].\n", errno, strerror(errno)));
return err;
}
ret = pipe(pipefd_to_child);
if (ret == -1) {
err = errno;
DEBUG(1, ("pipe failed [%d][%s].\n", errno, strerror(errno)));
return err;
}
pid = fork();
if (pid == 0) { /* child */
if (state->kr->run_as_user) {
ret = become_user(state->kr->uid, state->kr->gid);
if (ret != EOK) {
DEBUG(1, ("become_user failed.\n"));
return ret;
}
}
err = exec_child(state,
pipefd_to_child, pipefd_from_child,
KRB5_CHILD, state->kr->krb5_ctx->child_debug_fd);
if (err != EOK) {
DEBUG(1, ("Could not exec KRB5 child: [%d][%s].\n",
err, strerror(err)));
return err;
}
} else if (pid > 0) { /* parent */
state->child_pid = pid;
state->io->read_from_child_fd = pipefd_from_child[0];
close(pipefd_from_child[1]);
state->io->write_to_child_fd = pipefd_to_child[1];
close(pipefd_to_child[0]);
fd_nonblocking(state->io->read_from_child_fd);
fd_nonblocking(state->io->write_to_child_fd);
ret = child_handler_setup(state->ev, pid, NULL, NULL);
if (ret != EOK) {
DEBUG(1, ("Could not set up child signal handler\n"));
return ret;
}
err = activate_child_timeout_handler(req, state->ev,
dp_opt_get_int(state->kr->krb5_ctx->opts, KRB5_AUTH_TIMEOUT));
if (err != EOK) {
DEBUG(1, ("activate_child_timeout_handler failed.\n"));
}
} else { /* error */
err = errno;
DEBUG(1, ("fork failed [%d][%s].\n", errno, strerror(errno)));
return err;
}
return EOK;
}
static void handle_child_step(struct tevent_req *subreq);
static void handle_child_done(struct tevent_req *subreq);
struct tevent_req *handle_child_send(TALLOC_CTX *mem_ctx,
struct tevent_context *ev,
struct krb5child_req *kr)
{
struct tevent_req *req, *subreq;
struct handle_child_state *state;
int ret;
struct io_buffer *buf;
req = tevent_req_create(mem_ctx, &state, struct handle_child_state);
if (req == NULL) {
return NULL;
}
state->ev = ev;
state->kr = kr;
state->buf = NULL;
state->len = 0;
state->child_pid = -1;
state->timeout_handler = NULL;
state->io = talloc(state, struct io);
if (state->io == NULL) {
DEBUG(1, ("talloc failed.\n"));
ret = ENOMEM;
goto fail;
}
state->io->write_to_child_fd = -1;
state->io->read_from_child_fd = -1;
talloc_set_destructor((void *) state->io, child_io_destructor);
ret = create_send_buffer(kr, &buf);
if (ret != EOK) {
DEBUG(1, ("create_send_buffer failed.\n"));
goto fail;
}
ret = fork_child(req);
if (ret != EOK) {
DEBUG(1, ("fork_child failed.\n"));
goto fail;
}
subreq = write_pipe_send(state, ev, buf->data, buf->size,
state->io->write_to_child_fd);
if (!subreq) {
ret = ENOMEM;
goto fail;
}
tevent_req_set_callback(subreq, handle_child_step, req);
return req;
fail:
tevent_req_error(req, ret);
tevent_req_post(req, ev);
return req;
}
static void handle_child_step(struct tevent_req *subreq)
{
struct tevent_req *req = tevent_req_callback_data(subreq,
struct tevent_req);
struct handle_child_state *state = tevent_req_data(req,
struct handle_child_state);
int ret;
ret = write_pipe_recv(subreq);
talloc_zfree(subreq);
if (ret != EOK) {
tevent_req_error(req, ret);
return;
}
close(state->io->write_to_child_fd);
state->io->write_to_child_fd = -1;
subreq = read_pipe_send(state, state->ev, state->io->read_from_child_fd);
if (!subreq) {
tevent_req_error(req, ENOMEM);
return;
}
tevent_req_set_callback(subreq, handle_child_done, req);
}
static void handle_child_done(struct tevent_req *subreq)
{
struct tevent_req *req = tevent_req_callback_data(subreq,
struct tevent_req);
struct handle_child_state *state = tevent_req_data(req,
struct handle_child_state);
int ret;
talloc_zfree(state->timeout_handler);
ret = read_pipe_recv(subreq, state, &state->buf, &state->len);
talloc_zfree(subreq);
if (ret != EOK) {
tevent_req_error(req, ret);
return;
}
close(state->io->read_from_child_fd);
state->io->read_from_child_fd = -1;
tevent_req_done(req);
return;
}
int handle_child_recv(struct tevent_req *req, TALLOC_CTX *mem_ctx,
uint8_t **buf, ssize_t *len)
{
struct handle_child_state *state = tevent_req_data(req,
struct handle_child_state);
TEVENT_REQ_RETURN_ON_ERROR(req);
*buf = talloc_move(mem_ctx, &state->buf);
*len = state->len;
return EOK;
}
errno_t
parse_krb5_child_response(TALLOC_CTX *mem_ctx, uint8_t *buf, ssize_t len,
struct pam_data *pd, int pwd_exp_warning,
struct krb5_child_response **_res)
{
ssize_t pref_len;
size_t p;
errno_t ret;
bool skip;
char *ccname = NULL;
size_t ccname_len;
int32_t msg_status;
int32_t msg_type;
int32_t msg_len;
int64_t time_data;
struct tgt_times tgtt;
uint32_t *expiration;
uint32_t *msg_subtype;
struct krb5_child_response *res;
if ((size_t) len < sizeof(int32_t)) {
DEBUG(SSSDBG_CRIT_FAILURE, ("message too short.\n"));
return EINVAL;
}
memset(&tgtt, 0, sizeof(struct tgt_times));
if (pwd_exp_warning < 0) {
pwd_exp_warning = KERBEROS_PWEXPIRE_WARNING_TIME;
}
/* A buffer with the following structure is expected.
* int32_t status of the request (required)
* message (zero or more)
*
* A message consists of:
* int32_t type of the message
* int32_t length of the following data
* uint8_t[len] data
*/
p=0;
SAFEALIGN_COPY_INT32(&msg_status, buf+p, &p);
while (p < len) {
skip = false;
SAFEALIGN_COPY_INT32(&msg_type, buf+p, &p);
SAFEALIGN_COPY_INT32(&msg_len, buf+p, &p);
DEBUG(SSSDBG_TRACE_LIBS, ("child response [%d][%d][%d].\n",
msg_status, msg_type, msg_len));
if ((p + msg_len) > len) {
DEBUG(SSSDBG_CRIT_FAILURE, ("message format error [%d] > [%d].\n",
p+msg_len, len));
return EINVAL;
}
/* We need to save the name of the credential cache file. To find it
* we check if the data part of a message starts with
* CCACHE_ENV_NAME"=". pref_len also counts the trailing '=' because
* sizeof() counts the trailing '\0' of a string. */
pref_len = sizeof(CCACHE_ENV_NAME);
if (msg_len > pref_len &&
strncmp((const char *) &buf[p], CCACHE_ENV_NAME"=", pref_len) == 0) {
ccname = (char *) &buf[p+pref_len];
ccname_len = msg_len-pref_len;
}
if (msg_type == SSS_KRB5_INFO_TGT_LIFETIME &&
msg_len == 4*sizeof(int64_t)) {
SAFEALIGN_COPY_INT64(&time_data, buf+p, NULL);
tgtt.authtime = int64_to_time_t(time_data);
SAFEALIGN_COPY_INT64(&time_data, buf+p+sizeof(int64_t), NULL);
tgtt.starttime = int64_to_time_t(time_data);
SAFEALIGN_COPY_INT64(&time_data, buf+p+2*sizeof(int64_t), NULL);
tgtt.endtime = int64_to_time_t(time_data);
SAFEALIGN_COPY_INT64(&time_data, buf+p+3*sizeof(int64_t), NULL);
tgtt.renew_till = int64_to_time_t(time_data);
DEBUG(SSSDBG_TRACE_LIBS, ("TGT times are [%d][%d][%d][%d].\n",
tgtt.authtime, tgtt.starttime, tgtt.endtime, tgtt.renew_till));
}
if (msg_type == SSS_PAM_USER_INFO) {
msg_subtype = (uint32_t *)&buf[p];
if (*msg_subtype == SSS_PAM_USER_INFO_EXPIRE_WARN)
{
expiration = (uint32_t *)&buf[p+sizeof(uint32_t)];
if (pwd_exp_warning > 0 &&
difftime(pwd_exp_warning, *expiration) < 0.0) {
skip = true;
}
}
}
if (!skip) {
ret = pam_add_response(pd, msg_type, msg_len, &buf[p]);
if (ret != EOK) {
/* This is not a fatal error */
DEBUG(SSSDBG_CRIT_FAILURE, ("pam_add_response failed.\n"));
}
}
p += msg_len;
if ((p < len) && (p + 2*sizeof(int32_t) >= len)) {
DEBUG(SSSDBG_CRIT_FAILURE,
("The remainder of the message is too short.\n"));
return EINVAL;
}
}
res = talloc_zero(mem_ctx, struct krb5_child_response);
if (!res) return ENOMEM;
res->msg_status = msg_status;
memcpy(&res->tgtt, &tgtt, sizeof(tgtt));
if (ccname) {
res->ccname = talloc_strndup(res, ccname, ccname_len);
if (res->ccname == NULL) {
DEBUG(SSSDBG_CRIT_FAILURE, ("talloc_strndup failed.\n"));
talloc_free(res);
return ENOMEM;
}
}
*_res = res;
return EOK;
}
|