table of contents
CAP_ENTER(2) | System Calls Manual | CAP_ENTER(2) |
NAME¶
cap_enter
,
cap_getmode
— Capability
mode system calls
LIBRARY¶
Standard C Library (libc, -lc)
SYNOPSIS¶
#include
<sys/capsicum.h>
int
cap_enter
(void);
int
cap_getmode
(u_int
*modep);
DESCRIPTION¶
cap_enter
()
places the current process into capability mode, a mode of execution in
which processes may only issue system calls operating on file descriptors or
reading limited global system state. Access to global name spaces, such as
file system or IPC name spaces, is prevented. If the process is already in a
capability mode sandbox, the system call is a no-op. Future process
descendants created with fork(2) or
pdfork(2) will be placed in capability mode from
inception.
When combined with
cap_rights_limit(2),
cap_ioctls_limit(2),
cap_fcntls_limit(2),
cap_enter
()
may be used to create kernel-enforced sandboxes in which
appropriately-crafted applications or application components may be run.
cap_getmode
()
returns a flag indicating whether or not the process is in a capability mode
sandbox.
RUN-TIME SETTINGS¶
If the kern.trap_enotcap
sysctl MIB is set
to a non-zero value, then for any process executing in a capability mode
sandbox, any syscall which results in either an
ENOTCAPABLE
or ECAPMODE
error also generates the synchronous SIGTRAP
signal
to the thread on the syscall return. On signal delivery, the
si_errno member of the siginfo
signal handler parameter is set to the syscall error value, and the
si_code member is set to
TRAP_CAP
.
See also the PROC_TRAPCAP_CTL
and
PROC_TRAPCAP_STATUS
operations of the
procctl(2) function for similar per-process
functionality.
CAVEAT¶
Creating effective process sandboxes is a tricky process that
involves identifying the least possible rights required by the process and
then passing those rights into the process in a safe manner. Consumers of
cap_enter
()
should also be aware of other inherited rights, such as access to VM
resources, memory contents, and other process properties that should be
considered. It is advisable to use fexecve(2) to create a
runtime environment inside the sandbox that has as few implicitly acquired
rights as possible.
RETURN VALUES¶
The cap_enter
() and
cap_getmode
() functions return the value 0 if
successful; otherwise the value -1 is returned and the global
variable errno is set to indicate the error.
When the process is in capability mode,
cap_getmode
() sets the flag to a non-zero value. A
zero value means the process is not in capability mode.
ERRORS¶
The cap_enter
() and
cap_getmode
() system calls will fail if:
- [
ENOSYS
] - The kernel is compiled without:
options CAPABILITY_MODE
The cap_getmode
() system call may also
return the following error:
- [
EFAULT
] - Pointer modep points outside the process's allocated address space.
SEE ALSO¶
cap_fcntls_limit(2), cap_ioctls_limit(2), cap_rights_limit(2), fexecve(2), procctl(2), cap_sandboxed(3), capsicum(4), sysctl(9)
HISTORY¶
The cap_getmode
() system call first
appeared in FreeBSD 8.3. Support for capabilities
and capabilities mode was developed as part of the TrustedBSD Project.
AUTHORS¶
These functions and the capability facility were created by Robert N. M. Watson at the University of Cambridge Computer Laboratory with support from a grant from Google, Inc.
May 5, 2020 | Debian |