x SuSE Linux 13.1-RELEASE x
x SuSE Linux 13.1-RELEASEx
seccomp_rule_add(3) libseccomp Documentation seccomp_rule_add(3)
NAME
seccomp_rule_add, seccomp_rule_add_exact - Add a seccomp filter rule
SYNOPSIS
#include <seccomp.h>
typedef void * scmp_filter_ctx;
int SCMP_SYS(syscall_name);
struct scmp_arg_cmp SCMP_CMP(unsigned int arg,
enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A0(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A1(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A2(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A3(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A4(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A5(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_CMP64(unsigned int arg,
enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A0_64(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A1_64(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A2_64(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A3_64(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A4_64(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A5_64(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_CMP32(unsigned int arg,
enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A0_32(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A1_32(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A2_32(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A3_32(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A4_32(enum scmp_compare op, ...);
struct scmp_arg_cmp SCMP_A5_32(enum scmp_compare op, ...);
int seccomp_rule_add(scmp_filter_ctx ctx, uint32_t action,
int syscall, unsigned int arg_cnt, ...);
int seccomp_rule_add_exact(scmp_filter_ctx ctx, uint32_t action,
int syscall, unsigned int arg_cnt, ...);
int seccomp_rule_add_array(scmp_filter_ctx ctx,
uint32_t action, int syscall,
unsigned int arg_cnt,
const struct scmp_arg_cmp *arg_array);
int seccomp_rule_add_exact_array(scmp_filter_ctx ctx,
uint32_t action, int syscall,
unsigned int arg_cnt,
const struct scmp_arg_cmp *arg_array);
Link with -lseccomp.
DESCRIPTION
The seccomp_rule_add(), seccomp_rule_add_array(), seccomp_rule_add_ex-
act(), and seccomp_rule_add_exact_array() functions all add a new fil-
ter rule to the current seccomp filter. The seccomp_rule_add() and
seccomp_rule_add_array() functions will make a "best effort" to add the
rule as specified, but may alter the rule slightly due to architecture
specifics (e.g. internal rewriting of multiplexed syscalls, like socket
and ipc functions on x86). The seccomp_rule_add_exact() and sec-
comp_rule_add_exact_array() functions will attempt to add the rule ex-
actly as specified so it may behave differently on different architec-
tures. While it does not guarantee a exact filter ruleset, sec-
comp_rule_add() and seccomp_rule_add_array() do guarantee the same be-
havior regardless of the architecture.
The newly added filter rule does not take effect until the entire fil-
ter is loaded into the kernel using seccomp_load(3). When adding rules
to a filter, it is important to consider the impact of previously
loaded filters; see the seccomp_load(3) documentation for more informa-
tion.
All of the filter rules supplied by the calling application are com-
bined into a union, with additional logic to eliminate redundant
syscall filters. For example, if a rule is added which allows a given
syscall with a specific set of argument values and later a rule is
added which allows the same syscall regardless the argument values then
the first, more specific rule, is effectively dropped from the filter
by the second more generic rule.
The SCMP_CMP(), SCMP_CMP64(), SCMP_A{0-5}(), and SCMP_A{0-5}_64()
macros generate a scmp_arg_cmp structure for use with the above func-
tions. The SCMP_CMP() and SCMP_CMP64() macros allows the caller to
specify an arbitrary argument along with the comparison operator,
64-bit mask, and 64-bit datum values where the SCMP_A{0-5}() and
SCMP_A{0-5}_64() macros are specific to a certain argument.
The SCMP_CMP32() and SCMP_A{0-5}_32() macros are similar to the vari-
ants above, but they take 32-bit mask and 32-bit datum values.
It is recommended that whenever possible developers avoid using the
SCMP_CMP() and SCMP_A{0-5}() macros and use the variants which are ex-
plicitly 32 or 64-bit. This should help eliminate problems caused by
an unwanted sign extension of negative datum values.
If syscall argument comparisons are included in the filter rule, all of
the comparisons must be true for the rule to match.
When adding syscall argument comparisons to the filter it is important
to remember that while it is possible to have multiple comparisons in a
single rule, you can only compare each argument once in a single rule.
In other words, you can not have multiple comparisons of the 3rd
syscall argument in a single rule.
In a filter containing multiple architectures, it is an error to add a
filter rule for a syscall that does not exist in all of the filter's
architectures.
While it is possible to specify the syscall value directly using the
standard __NR_syscall values, in order to ensure proper operation
across multiple architectures it is highly recommended to use the
SCMP_SYS() macro instead. See the EXAMPLES section below. It is also
important to remember that regardless of the architectures present in
the filter, the syscall numbers used in filter rules are interpreted in
the context of the native architecture.
Starting with Linux v4.8, there may be a need to create a rule with a
syscall value of -1 to allow tracing programs to skip a syscall invoca-
tion; in order to create a rule with a -1 syscall value it is necessary
to first set the SCMP_FLTATR_API_TSKIP attribute. See sec-
comp_attr_set(3) for more information.
The filter context ctx is the value returned by the call to sec-
comp_init(3).
Valid action values are as follows:
SCMP_ACT_KILL
The thread will be killed by the kernel when it calls a syscall
that matches the filter rule.
SCMP_ACT_KILL_PROCESS
The process will be killed by the kernel when it calls a syscall
that matches the filter rule.
SCMP_ACT_TRAP
The thread will throw a SIGSYS signal when it calls a syscall
that matches the filter rule.
SCMP_ACT_ERRNO(uint16_t errno)
The thread will receive a return value of errno when it calls a
syscall that matches the filter rule.
SCMP_ACT_TRACE(uint16_t msg_num)
If the thread is being traced and the tracing process specified
the PTRACE_O_TRACESECCOMP option in the call to ptrace(2), the
tracing process will be notified, via PTRACE_EVENT_SECCOMP , and
the value provided in msg_num can be retrieved using the
PTRACE_GETEVENTMSG option.
SCMP_ACT_LOG
The seccomp filter will have no effect on the thread calling the
syscall if it matches the filter rule but the syscall will be
logged.
SCMP_ACT_ALLOW
The seccomp filter will have no effect on the thread calling the
syscall if it matches the filter rule.
SCMP_ACT_NOTIFY
A monitoring process will be notified when a process running the
seccomp filter calls a syscall that matches the filter rule.
The process that invokes the syscall waits in the kernel until
the monitoring process has responded via seccomp_notify_respond
(3) .
When a filter utilizing SCMP_ACT_NOTIFY is loaded into the ker-
nel, the kernel generates a notification fd that must be used to
communicate between the monitoring process and the process(es)
being filtered. See seccomp_notif_fd (3) for more information.
Valid comparison op values are as follows:
SCMP_CMP_NE
Matches when the argument value is not equal to the datum value,
example:
SCMP_CMP( arg , SCMP_CMP_NE , datum )
SCMP_CMP_LT
Matches when the argument value is less than the datum value,
example:
SCMP_CMP( arg , SCMP_CMP_LT , datum )
SCMP_CMP_LE
Matches when the argument value is less than or equal to the da-
tum value, example:
SCMP_CMP( arg , SCMP_CMP_LE , datum )
SCMP_CMP_EQ
Matches when the argument value is equal to the datum value, ex-
ample:
SCMP_CMP( arg , SCMP_CMP_EQ , datum )
SCMP_CMP_GE
Matches when the argument value is greater than or equal to the
datum value, example:
SCMP_CMP( arg , SCMP_CMP_GE , datum )
SCMP_CMP_GT
Matches when the argument value is greater than the datum value,
example:
SCMP_CMP( arg , SCMP_CMP_GT , datum )
SCMP_CMP_MASKED_EQ
Matches when the masked argument value is equal to the masked
datum value, example:
SCMP_CMP( arg , SCMP_CMP_MASKED_EQ , mask , datum )
RETURN VALUE
The SCMP_SYS() macro returns a value suitable for use as the syscall
value in the seccomp_rule_add*() functions. In a similar manner, the
SCMP_CMP() and SCMP_A*() macros return values suitable for use as argu-
ment comparisons in the seccomp_rule_add() and seccomp_rule_add_exact()
functions.
The seccomp_rule_add(), seccomp_rule_add_array(), seccomp_rule_add_ex-
act(), and seccomp_rule_add_exact_array() functions return zero on suc-
cess or one of the following error codes on failure:
-EDOM Architecture specific failure.
-EEXIST
The rule already exists.
-EACCCES
The rule conflicts with the filter (for example, the rule action
equals the default action of the filter).
-EFAULT
Internal libseccomp failure.
-EINVAL
Invalid input, either the context or architecture token is in-
valid.
-ENOMEM
The library was unable to allocate enough memory.
-EOPNOTSUPP
The library doesn't support the particular operation.
EXAMPLES
#include <fcntl.h>
#include <seccomp.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <stddef.h>
#define BUF_SIZE 256
int main(int argc, char *argv[])
{
int rc = -1;
scmp_filter_ctx ctx;
struct scmp_arg_cmp arg_cmp[] = { SCMP_A0(SCMP_CMP_EQ, 2) };
int fd;
unsigned char buf[BUF_SIZE];
ctx = seccomp_init(SCMP_ACT_KILL);
if (ctx == NULL)
goto out;
/* ... */
fd = open("file.txt", 0);
/* ... */
rc = seccomp_rule_add(ctx, SCMP_ACT_ALLOW, SCMP_SYS(close), 0);
if (rc < 0)
goto out;
rc = seccomp_rule_add(ctx, SCMP_ACT_ALLOW, SCMP_SYS(exit_group), 0);
if (rc < 0)
goto out;
rc = seccomp_rule_add(ctx, SCMP_ACT_ALLOW, SCMP_SYS(exit), 0);
if (rc < 0)
goto out;
rc = seccomp_rule_add(ctx, SCMP_ACT_ALLOW, SCMP_SYS(read), 3,
SCMP_A0(SCMP_CMP_EQ, fd),
SCMP_A1(SCMP_CMP_EQ, (scmp_datum_t)buf),
SCMP_A2(SCMP_CMP_LE, BUF_SIZE));
if (rc < 0)
goto out;
rc = seccomp_rule_add(ctx, SCMP_ACT_ALLOW, SCMP_SYS(write), 1,
SCMP_CMP(0, SCMP_CMP_EQ, fd));
if (rc < 0)
goto out;
rc = seccomp_rule_add_array(ctx, SCMP_ACT_ALLOW, SCMP_SYS(write), 1,
arg_cmp);
if (rc < 0)
goto out;
rc = seccomp_load(ctx);
if (rc < 0)
goto out;
/* ... */
out:
seccomp_release(ctx);
return -rc;
}
NOTES
While the seccomp filter can be generated independent of the kernel,
kernel support is required to load and enforce the seccomp filter gen-
erated by libseccomp.
The libseccomp project site, with more information and the source code
repository, can be found at https://github.com/seccomp/libseccomp.
This tool, as well as the libseccomp library, is currently under devel-
opment, please report any bugs at the project site or directly to the
author.
BUGS
The runtime behavior of seccomp filters is dependent upon the kernel
version, the processor architecture, and other libraries including
libc. This could affect the return code of a seccomp filter.
* PowerPC glibc will not return a negative number when the get-
pid() syscall is invoked. If a seccomp filter has been created
where getpid() will return a negative number from the kernel,
then PowerPC glibc will return the absolute value of the errno.
In this case, it is very difficult for an application to distin-
guish between the errno and a valid pid.
AUTHOR
Paul Moore <paul@paul-moore.com>
SEE ALSO
seccomp_syscall_resolve_name_rewrite(3), seccomp_syscall_priority(3),
seccomp_load(3), seccomp_attr_set(3)
paul@paul-moore.com 30 May 2020 seccomp_rule_add(3)
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