## <summary>Periodic execution of scheduled commands.</summary>
#######################################
## <summary>
## The per user domain template for the cron module.
## </summary>
## <desc>
## <p>
## This template creates a derived domains which are used
## for running programs on behalf of the user, from cron.
## A type for the user crontab is also created.
## </p>
## <p>
## This template is invoked automatically for each user, and
## generally does not need to be invoked directly
## by policy writers.
## </p>
## </desc>
## <param name="userdomain_prefix">
## The prefix of the user domain (e.g., user
## is the prefix for user_t).
## </param>
#
template(`cron_per_userdomain_template',`
# Type of user crontabs once moved to cron spool.
type $1_cron_spool_t, cron_spool_type;
files_type($1_cron_spool_t)
type $1_crond_t; # user_crond_domain;
domain_type($1_crond_t);
corecmd_shell_entry_type($1_crond_t)
role $1_r types $1_crond_t;
type $1_crontab_t;
domain_type($1_crontab_t)
domain_entry_file($1_crontab_t,crontab_exec_t)
role $1_r types $1_crontab_t;
##############################
#
# $1_crond_t local policy
#
allow $1_crond_t self:capability dac_override;
allow $1_crond_t self:process { signal_perms setsched };
allow $1_crond_t self:fifo_file rw_file_perms;
allow $1_crond_t self:unix_stream_socket create_stream_socket_perms;
allow $1_crond_t self:unix_dgram_socket create_socket_perms;
# The entrypoint interface is not used as this is not
# a regular entrypoint. Since crontab files are
# not directly executed, crond must ensure that
# the crontab file has a type that is appropriate
# for the domain of the user cron job. It
# performs an entrypoint permission check
# for this purpose.
allow $1_crond_t $1_cron_spool_t:file entrypoint;
# Permit a transition from the crond_t domain to this domain.
# The transition is requested explicitly by the modified crond
# via setexeccon. There is no way to set up an automatic
# transition, since crontabs are configuration files, not executables.
allow crond_t $1_crond_t:process transition;
dontaudit crond_t $1_crond_t:process { noatsecure siginh rlimitinh };
allow crond_t $1_crond_t:fd use;
allow $1_crond_t crond_t:fd use;
allow $1_crond_t crond_t:fifo_file rw_file_perms;
allow $1_crond_t crond_t:process sigchld;
kernel_read_system_state($1_crond_t)
kernel_read_kernel_sysctl($1_crond_t)
# ps does not need to access /boot when run from cron
bootloader_dontaudit_search_boot($1_crond_t)
corenet_tcp_sendrecv_all_if($1_crond_t)
corenet_raw_sendrecv_all_if($1_crond_t)
corenet_udp_sendrecv_all_if($1_crond_t)
corenet_tcp_sendrecv_all_nodes($1_crond_t)
corenet_raw_sendrecv_all_nodes($1_crond_t)
corenet_udp_sendrecv_all_nodes($1_crond_t)
corenet_tcp_sendrecv_all_ports($1_crond_t)
corenet_udp_sendrecv_all_ports($1_crond_t)
corenet_tcp_bind_all_nodes($1_crond_t)
corenet_udp_bind_all_nodes($1_crond_t)
dev_read_urand($1_crond_t)
fs_getattr_all_fs($1_crond_t)
domain_exec_all_entry_files($1_crond_t)
files_read_usr_files($1_crond_t)
files_exec_etc_files($1_crond_t)
# for nscd:
files_dontaudit_search_pids($1_crond_t)
corecmd_exec_bin($1_crond_t)
corecmd_exec_sbin($1_crond_t)
libs_use_ld_so($1_crond_t)
libs_use_shared_libs($1_crond_t)
libs_exec_lib_files($1_crond_t)
libs_exec_ld_so($1_crond_t)
files_read_etc_runtime_files($1_crond_t)
logging_search_logs($1_crond_t)
seutil_read_config($1_crond_t)
miscfiles_read_localization($1_crond_t)
tunable_policy(`fcron_crond', `
allow crond_t $1_cron_spool_t:file create_file_perms;
')
optional_policy(`nis.te',`
nis_use_ypbind($1_crond_t)
')
ifdef(`TODO',`
# Access user files and dirs.
allow $1_crond_t home_root_t:dir search;
file_type_auto_trans($1_crond_t, $1_home_dir_t, $1_home_t)
# Run scripts in user home directory and access shared libs.
can_exec($1_crond_t, $1_home_t)
file_type_auto_trans($1_crond_t, tmp_t, $1_tmp_t)
ifdef(`mta.te', `
domain_auto_trans($1_crond_t, sendmail_exec_t, $1_mail_t)
allow $1_crond_t sendmail_exec_t:lnk_file r_file_perms;
# $1_mail_t should only be reading from the cron fifo not needing to write
dontaudit $1_mail_t crond_t:fifo_file write;
allow mta_user_agent $1_crond_t:fd use;
')
allow $1_crond_t var_spool_t:dir search;
allow $1_crond_t var_t:dir r_dir_perms;
allow $1_crond_t var_t:file r_file_perms;
# quiet other ps operations
dontaudit $1_crond_t domain:dir { getattr search };
') dnl endif TODO
##############################
#
# $1_crontab_t local policy
#
# Transition from the user domain to the derived domain.
domain_auto_trans($1_t, crontab_exec_t, $1_crontab_t)
allow $1_t $1_crontab_t:fd use;
allow $1_crontab_t $1_t:fd use;
allow $1_crontab_t $1_t:fifo_file rw_file_perms;
allow $1_crontab_t $1_t:process sigchld;
# for ^Z
allow $1_t $1_crontab_t:process signal;
# Allow crond to read those crontabs in cron spool.
allow crond_t $1_cron_spool_t:file r_file_perms;
# dac_override is to create the file in the directory under /tmp
allow $1_crontab_t self:capability { setuid setgid chown dac_override };
allow $1_crontab_t self:process signal_perms;
# create files in /var/spool/cron
allow $1_crontab_t $1_cron_spool_t:file create_file_perms;
allow $1_crontab_t cron_spool_t:dir rw_dir_perms;
type_transition $1_crontab_t $1_cron_spool_t:file system_crond_tmp_t;
# crontab signals crond by updating the mtime on the spooldir
allow $1_crontab_t cron_spool_t:dir setattr;
allow $1_crontab_t crond_log_t:file ra_file_perms;
# for the checks used by crontab -u
selinux_dontaudit_search_fs($1_crontab_t)
fs_getattr_xattr_fs($1_crontab_t)
domain_use_wide_inherit_fd($1_crontab_t)
files_read_etc_files($1_crontab_t)
files_dontaudit_search_pids($1_crontab_t)
libs_use_ld_so($1_crontab_t)
libs_use_shared_libs($1_crontab_t)
logging_send_syslog_msg($1_crontab_t)
miscfiles_read_localization($1_crontab_t)
seutil_dontaudit_search_config($1_crontab_t)
tunable_policy(`fcron_crond', `
# fcron wants an instant update of a crontab change for the administrator
# also crontab does a security check for crontab -u
dontaudit $1_crontab_t crond_t:process signal;
')
ifdef(`TODO',`
can_ps($1_t, $1_crontab_t)
dontaudit $1_crontab_t proc_t:dir search;
# Type for temporary files.
file_type_auto_trans($1_crontab_t, tmp_t, $1_tmp_t, { dir file })
# Run helper programs as $1_t
domain_auto_trans($1_crontab_t, { bin_t sbin_t shell_exec_t }, $1_t)
# Read user crontabs
allow $1_crontab_t { $1_home_t $1_home_dir_t }:dir r_dir_perms;
allow $1_crontab_t $1_home_t:file r_file_perms;
dontaudit $1_crontab_t $1_home_dir_t:dir write;
# Access terminals.
allow $1_crontab_t devpts_t:dir r_dir_perms;
allow $1_crontab_t $1_tty_device_t:chr_file rw_file_perms;
allow $1_crontab_t $1_devpts_t:chr_file rw_file_perms;
# Inherit and use descriptors from gnome-pty-helper.
ifdef(`gnome-pty-helper.te', `allow $1_crontab_t $1_gph_t:fd use;')
') dnl endif TODO
')
#######################################
## <summary>
## The administrative functions template for the cron module.
## </summary>
## <desc>
## <p>
## This template creates rules for administrating the cron service,
## allowing the specified user to manage other user crontabs.
## </p>
## </desc>
## <param name="userdomain_prefix">
## The prefix of the user domain (e.g., user
## is the prefix for user_t).
## </param>
#
template(`cron_admin_template',`
# Allow our crontab domain to unlink a user cron spool file.
allow $1_crontab_t cron_spool_type:file { getattr read unlink };
logging_read_generic_logs($1_crond_t)
# Manipulate other users crontab.
selinux_get_fs_mount($1_crontab_t)
selinux_validate_context($1_crontab_t)
selinux_compute_access_vector($1_crontab_t)
selinux_compute_create_context($1_crontab_t)
selinux_compute_relabel_context($1_crontab_t)
selinux_compute_user_contexts($1_crontab_t)
tunable_policy(`fcron_crond', `
# fcron wants an instant update of a crontab change for the administrator
# also crontab does a security check for crontab -u
allow $1_crontab_t self:process setfscreate;
selinux_get_fs_mount($1_crontab_t)
')
')
########################################
## <summary>
## Make the specified program domain accessable
## from the system cron jobs.
## </summary>
## <param name="domain">
## The type of the process to transition to.
## </param>
## <param name="entrypoint">
## The type of the file used as an entrypoint to this domain.
## </param>
#
interface(`cron_system_entry',`
gen_require(`
type crond_t, system_crond_t;
class fd use;
class fifo_file rw_file_perms;
class process sigchld;
')
domain_auto_trans(system_crond_t, $2, $1)
# cjp: perhaps these four rules from the old
# domain_auto_trans are not needed?
allow system_crond_t $1:fd use;
allow $1 system_crond_t:fd use;
allow $1 system_crond_t:fifo_file rw_file_perms;
allow $1 system_crond_t:process sigchld;
allow $1 crond_t:fifo_file { getattr read write ioctl };
allow $1 crond_t:fd use;
allow $1 crond_t:process sigchld;
')
########################################
## <summary>
## Read a cron daemon unnamed pipe
## </summary>
## <param name="domain">
## The type of the process to performing this action.
## </param>
#
interface(`cron_read_pipe',`
gen_require(`
type crond_t;
class file r_file_perms;
')
allow $1 crond_t:file r_file_perms;
')
########################################
## <summary>
## Read and write the cron daemon log files.
## </summary>
## <param name="domain">
## The type of the process to performing this action.
## </param>
#
interface(`cron_rw_log',`
gen_require(`
type crond_log_t;
class file rw_file_perms;
')
logging_search_logs($1)
allow $1 crond_log_t:file rw_file_perms;
')
########################################
## <summary>
## Search the directory containing user cron tables.
## </summary>
## <param name="domain">
## The type of the process to performing this action.
## </param>
#
interface(`cron_search_spool',`
gen_require(`
type cron_spool_t;
class dir search;
')
files_search_spool($1)
allow $1 cron_spool_t:dir search;
')