sd_bus_creds_get_pid
systemd
sd_bus_creds_get_pid
3
sd_bus_creds_get_pid
sd_bus_creds_get_pidfd_dup
sd_bus_creds_get_ppid
sd_bus_creds_get_tid
sd_bus_creds_get_uid
sd_bus_creds_get_euid
sd_bus_creds_get_suid
sd_bus_creds_get_fsuid
sd_bus_creds_get_gid
sd_bus_creds_get_egid
sd_bus_creds_get_sgid
sd_bus_creds_get_fsgid
sd_bus_creds_get_supplementary_gids
sd_bus_creds_get_comm
sd_bus_creds_get_tid_comm
sd_bus_creds_get_exe
sd_bus_creds_get_cmdline
sd_bus_creds_get_cgroup
sd_bus_creds_get_unit
sd_bus_creds_get_slice
sd_bus_creds_get_user_unit
sd_bus_creds_get_user_slice
sd_bus_creds_get_session
sd_bus_creds_get_owner_uid
sd_bus_creds_has_effective_cap
sd_bus_creds_has_permitted_cap
sd_bus_creds_has_inheritable_cap
sd_bus_creds_has_bounding_cap
sd_bus_creds_get_selinux_context
sd_bus_creds_get_audit_session_id
sd_bus_creds_get_audit_login_uid
sd_bus_creds_get_tty
sd_bus_creds_get_unique_name
sd_bus_creds_get_well_known_names
sd_bus_creds_get_description
Retrieve fields from a credentials object
#include <systemd/sd-bus.h>
int sd_bus_creds_get_pid
sd_bus_creds *c
pid_t *pid
int sd_bus_creds_get_pidfd_dup
sd_bus_creds *c
int *ret_fd
int sd_bus_creds_get_ppid
sd_bus_creds *c
pid_t *ppid
int sd_bus_creds_get_tid
sd_bus_creds *c
pid_t *tid
int sd_bus_creds_get_uid
sd_bus_creds *c
uid_t *uid
int sd_bus_creds_get_euid
sd_bus_creds *c
uid_t *uid
int sd_bus_creds_get_suid
sd_bus_creds *c
uid_t *uid
int sd_bus_creds_get_fsuid
sd_bus_creds *c
uid_t *uid
int sd_bus_creds_get_gid
sd_bus_creds *c
gid_t *gid
int sd_bus_creds_get_egid
sd_bus_creds *c
gid_t *gid
int sd_bus_creds_get_sgid
sd_bus_creds *c
gid_t *gid
int sd_bus_creds_get_fsgid
sd_bus_creds *c
gid_t *gid
int sd_bus_creds_get_supplementary_gids
sd_bus_creds *c
const gid_t **gids
int sd_bus_creds_get_comm
sd_bus_creds *c
const char **comm
int sd_bus_creds_get_tid_comm
sd_bus_creds *c
const char **comm
int sd_bus_creds_get_exe
sd_bus_creds *c
const char **exe
int sd_bus_creds_get_cmdline
sd_bus_creds *c
char ***cmdline
int sd_bus_creds_get_cgroup
sd_bus_creds *c
const char **cgroup
int sd_bus_creds_get_unit
sd_bus_creds *c
const char **unit
int sd_bus_creds_get_slice
sd_bus_creds *c
const char **slice
int sd_bus_creds_get_user_unit
sd_bus_creds *c
const char **unit
int sd_bus_creds_get_user_slice
sd_bus_creds *c
const char **slice
int sd_bus_creds_get_session
sd_bus_creds *c
const char **slice
int sd_bus_creds_get_owner_uid
sd_bus_creds *c
uid_t *uid
int sd_bus_creds_has_effective_cap
sd_bus_creds *c
int capability
int sd_bus_creds_has_permitted_cap
sd_bus_creds *c
int capability
int sd_bus_creds_has_inheritable_cap
sd_bus_creds *c
int capability
int sd_bus_creds_has_bounding_cap
sd_bus_creds *c
int capability
int sd_bus_creds_get_selinux_context
sd_bus_creds *c
const char **context
int sd_bus_creds_get_audit_session_id
sd_bus_creds *c
uint32_t *sessionid
int sd_bus_creds_get_audit_login_uid
sd_bus_creds *c
uid_t *loginuid
int sd_bus_creds_get_tty
sd_bus_creds *c
const char **tty
int sd_bus_creds_get_unique_name
sd_bus_creds *c
const char **name
int sd_bus_creds_get_well_known_names
sd_bus_creds *c
char ***name
int sd_bus_creds_get_description
sd_bus_creds *c
const char **name
Description
These functions return credential information from an
sd_bus_creds object. Credential objects may
be created with
sd_bus_creds_new_from_pid3,
in which case they describe the credentials of the process
identified by the specified PID, with
sd_bus_get_name_creds3,
in which case they describe the credentials of a bus peer
identified by the specified bus name, with
sd_bus_get_owner_creds3,
in which case they describe the credentials of the creator of a
bus, or with
sd_bus_message_get_creds3,
in which case they describe the credentials of the sender of the
message.
Not all credential fields are part of every
sd_bus_creds object. Use
sd_bus_creds_get_mask3
to determine the mask of fields available.
sd_bus_creds_get_pid() will retrieve the PID (process identifier). Similarly,
sd_bus_creds_get_ppid() will retrieve the parent PID. Note that PID 1 has no parent
process, in which case -ENXIO is returned.
sd_bus_creds_get_pidfd_dup() will retrieve the PID file descriptor (pidfd),
see pidfd_open2 for
details. The file descriptor is duplicated and thus must be closed by the caller.
sd_bus_creds_get_tid() will retrieve the
TID (thread identifier).
sd_bus_creds_get_uid() will retrieve
the numeric UID (user identifier). Similarly,
sd_bus_creds_get_euid() returns the effective
UID, sd_bus_creds_get_suid() the saved UID
and sd_bus_creds_get_fsuid() the file system
UID.
sd_bus_creds_get_gid() will retrieve the
numeric GID (group identifier). Similarly,
sd_bus_creds_get_egid() returns the effective
GID, sd_bus_creds_get_sgid() the saved GID
and sd_bus_creds_get_fsgid() the file system
GID.
sd_bus_creds_get_supplementary_gids()
will retrieve the supplementary GIDs list.
sd_bus_creds_get_comm() will retrieve the
comm field (truncated name of the executable, as stored in
/proc/pid/comm).
sd_bus_creds_get_tid_comm() will retrieve
the comm field of the thread (as stored in
/proc/pid/task/tid/comm).
sd_bus_creds_get_exe() will retrieve the path to the program executable (as
stored in the /proc/pid/exe link, but with the
(deleted) suffix removed). Note that kernel threads do not have an executable path, in which
case -ENXIO is returned. Note that this property should not be used for more than explanatory
information, in particular it should not be used for security-relevant decisions. That's because the
executable might have been replaced or removed by the time the value can be processed. Moreover, the
kernel exports this information in an ambiguous way (i.e. a deleted executable cannot be safely
distinguished from one whose name suffix is (deleted)).
sd_bus_creds_get_cmdline() will
retrieve an array of command line arguments (as stored in
/proc/pid/cmdline). Note
that kernel threads do not have a command line, in which case
-ENXIO is returned.
sd_bus_creds_get_cgroup() will retrieve the control group path. See Control Groups v2.
sd_bus_creds_get_unit() will retrieve
the systemd unit name (in the system instance of systemd) that the
process is a part of. See
systemd.unit5. For
processes that are not part of a unit, returns -ENXIO.
sd_bus_creds_get_user_unit() will
retrieve the systemd unit name (in the user instance of systemd)
that the process is a part of. See
systemd.unit5. For
processes that are not part of a user unit, returns -ENXIO.
sd_bus_creds_get_slice() will retrieve
the systemd slice (a unit in the system instance of systemd) that
the process is a part of. See
systemd.slice5. Similarly,
sd_bus_creds_get_user_slice() retrieves the
systemd slice of the process, in the user instance of systemd.
sd_bus_creds_get_session() will
retrieve the identifier of the login session that the process is
a part of. Please note the login session may be limited to a stub
process or two. User processes may instead be started from their
systemd user manager, e.g. GUI applications started using DBus
activation, as well as service processes which are shared between
multiple logins of the same user. For processes that are not part
of a session, returns -ENXIO.
sd_bus_creds_get_owner_uid() will
retrieve the numeric UID (user identifier) of the user who owns
the user unit or login session that the process is a part of. See
systemd-logind.service8.
For processes that are not part of a user unit or session, returns
-ENXIO.
sd_bus_creds_has_effective_cap() will check whether the capability specified by
capability was set in the effective capabilities mask. A positive return value means that it
was set, zero means that it was not set, and a negative return value indicates an error. See capabilities7 and the
AmbientCapabilities= and CapabilityBoundingSet= settings in
systemd.exec5.
sd_bus_creds_has_permitted_cap() is
similar to sd_bus_creds_has_effective_cap(),
but will check the permitted capabilities mask.
sd_bus_creds_has_inheritable_cap() is
similar to sd_bus_creds_has_effective_cap(),
but will check the inheritable capabilities mask.
sd_bus_creds_has_bounding_cap() is
similar to sd_bus_creds_has_effective_cap(),
but will check the bounding capabilities mask.
sd_bus_creds_get_selinux_context() will
retrieve the SELinux security context (label) of the process.
sd_bus_creds_get_audit_session_id()
will retrieve the audit session identifier of the process. Returns
-ENXIO for processes that are not part of an audit session.
sd_bus_creds_get_audit_login_uid() will
retrieve the audit user login identifier (the identifier of the
user who is "responsible" for the session). Returns -ENXIO for
processes that are not part of an audit session.
sd_bus_creds_get_tty() will retrieve
the controlling TTY, without the prefixing "/dev/". Returns -ENXIO
for processes that have no controlling TTY.
sd_bus_creds_get_unique_name() will
retrieve the D-Bus unique name. See The
D-Bus specification.
sd_bus_creds_get_well_known_names() will
retrieve the set of D-Bus well-known names. See The
D-Bus specification.
sd_bus_creds_get_description() will
retrieve a descriptive name of the bus connection of the
peer. This name is useful to discern multiple bus connections by
the same peer, and may be altered by the peer with the
sd_bus_set_description3
call.
All functions that take a const
char** parameter will store the answer there as an
address of a NUL-terminated string. It will be valid as long as
c remains valid, and should not be freed or
modified by the caller.
All functions that take a char***
parameter will store the answer there as an address of an array
of strings. Each individual string is NUL-terminated, and the
array is NULL-terminated as a whole. It will be valid as long as
c remains valid, and should not be freed or
modified by the caller.
Return Value
On success, these calls return 0 or a positive integer. On
failure, these calls return a negative errno-style error code.
Errors
Returned errors may indicate the following problems:
-ENODATA
The given field is not available in the credentials object
c.
-ENXIO
The given field is not specified for the described process or peer. This will be
returned by sd_bus_creds_get_unit(),
sd_bus_creds_get_slice(), sd_bus_creds_get_user_unit(),
sd_bus_creds_get_user_slice(), and
sd_bus_creds_get_session() if the process is not part of a systemd system
unit, systemd user unit, systemd slice, or logind session. It will be returned by
sd_bus_creds_get_owner_uid() if the process is not part of a systemd user unit
or logind session. It will also be returned by sd_bus_creds_get_exe() and
sd_bus_creds_get_cmdline() for kernel threads (since these are not started
from an executable binary, nor have a command line), and by
sd_bus_creds_get_audit_session_id() and
sd_bus_creds_get_audit_login_uid() when the process is not part of an audit
session, and sd_bus_creds_get_tty() if the process has no controlling
TTY.
-EINVAL
Specified pointer parameter is NULL.
-ENOMEM
Memory allocation failed.
History
sd_bus_creds_get_pid(),
sd_bus_creds_get_tid(),
sd_bus_creds_get_gid(),
sd_bus_creds_get_comm(),
sd_bus_creds_get_tid_comm(),
sd_bus_creds_get_exe(),
sd_bus_creds_get_cmdline(),
sd_bus_creds_get_cgroup(),
sd_bus_creds_get_unit(),
sd_bus_creds_get_user_unit(),
sd_bus_creds_get_slice(),
sd_bus_creds_get_session(),
sd_bus_creds_get_owner_uid(),
sd_bus_creds_has_effective_cap(),
sd_bus_creds_has_permitted_cap(),
sd_bus_creds_has_inheritable_cap(),
sd_bus_creds_has_bounding_cap(),
sd_bus_creds_get_selinux_context(),
sd_bus_creds_get_audit_session_id(),
sd_bus_creds_get_audit_login_uid(),
sd_bus_creds_get_unique_name(),
sd_bus_creds_get_well_known_names(),
sd_bus_creds_get_ppid(),
sd_bus_creds_get_uid(),
sd_bus_creds_get_euid(),
sd_bus_creds_get_suid(),
sd_bus_creds_get_fsuid(),
sd_bus_creds_get_egid(),
sd_bus_creds_get_sgid(),
sd_bus_creds_get_fsgid(),
sd_bus_creds_get_supplementary_gids(),
sd_bus_creds_get_tty(),
sd_bus_creds_get_description(), and
sd_bus_creds_get_user_slice() were added in version 221.
sd_bus_creds_get_pidfd_dup() was added in version 256.
See Also
systemd1
sd-bus3
sd_bus_creds_new_from_pid2
fork2
execve2
credentials7
free3
proc5
systemd.journal-fields7