Rules
A Falco rules file is a YAML file containing three types of elements:
Element | Description |
---|---|
Rules | Conditions under which an alert should be generated. A rule is accompanied by a descriptive output string that is sent with the alert. |
Macros | Rule condition snippets that can be re-used inside rules and even other macros. Macros provide a way to name common patterns and factor out redundancies in rules. |
Lists | Collections of items that can be included in rules, macros, or other lists. Unlike rules and macros, lists cannot be parsed as filtering expressions. |
There are also two optional elements related to versioning:
Element | Description |
---|---|
required_engine_version | Used to track compatibility between rules content and the falco engine version. |
required_plugin_versions | Used to track compatibility between rules content and plugin versions. |
Versioning
From time to time, we make changes to the rules file format that are not backwards-compatible with older versions of Falco. Similarly, libsinsp and libscap may define new filtercheck fields, operators, etc. We want to denote that a given set of rules depends on the fields/operators from those libraries.
As of Falco version 0.14.0, the Falco rules support explicit versioning of both the Falco engine and the Falco rules file.
Falco Engine Versioning
The falco
executable and the falco_engine
C++ object now support returning a version number. The initial version is 2 (implying that prior versions were 1). We will increment this version any time we make an incompatible change to the rules file format or add new filtercheck fields/operators to Falco.
Falco Rules File Versioning
The Falco rules files included with Falco include a new top-level object, required_engine_version: N
, that specifies the minimum engine version required to read this rules file. If not included, no version check is performed when reading the rules file. Here's an example:
# This rules file requires a falco with falco engine version 7.
- required_engine_version: 7
If a rules file has an engine_version
greater than the Falco engine version, the rules file is loaded and an error is returned.
Rules
A Falco rule is a node containing the following keys:
Key | Required | Description | Default |
---|---|---|---|
rule | yes | A short, unique name for the rule. | |
condition | yes | A filtering expression that is applied against events to check whether they match the rule. | |
desc | yes | A longer description of what the rule detects. | |
output | yes | Specifies the message that should be output if a matching event occurs. See output. | |
priority | yes | A case-insensitive representation of the severity of the event. Should be one of the following: emergency , alert , critical , error , warning , notice , informational , debug . | |
exceptions | no | A set of exceptions that cause the rule to not generate an alert. | |
enabled | no | If set to false , a rule is neither loaded nor matched against any events. | true |
tags | no | A list of tags applied to the rule (more on this below). | |
warn_evttypes | no | If set to false , Falco suppresses warnings related to a rule not having an event type (more on this below). | true |
skip-if-unknown-filter | no | If set to true , if a rule conditions contains a filtercheck, e.g. fd.some_new_field , that is not known to this version of Falco, Falco silently accepts the rule but does not execute it; if set to false , Falco repots an error and exists when finding an unknown filtercheck. | false |
source | no | The event source for which this rule should be evaluated. Typical values are syscall , k8s_audit , or the source advertised by a source plugin. | syscall |
Conditions
The key part of a rule is the condition field. A condition is a Boolean predicate expressed using the condition syntax. It is possible to express conditions on all supported events using their respective supported fields.
Here's an example of a condition that alerts whenever a bash shell is run inside a container:
container.id != host and proc.name = bash
The first clause checks that the event happened in a container (where container.id
is equal to "host"
if the event happened on a regular host). The second clause checks that the process name is bash
. Since this condition does not include a clause with a system call it will only check event metadata. Because of that, if a bash shell does start up in a container, Falco outputs events for every syscall that is performed by that shell.
If you want to be alerted only for each successful spawn of a shell in a container, add the appropriate event type and direction to the condition:
evt.type = execve and evt.dir=< and container.id != host and proc.name = bash
Therefore, a complete rule using the above condition might be:
- rule: shell_in_container
desc: notice shell activity within a container
condition: evt.type = execve and evt.dir=< and container.id != host and proc.name = bash
output: shell in a container (user=%user.name container_id=%container.id container_name=%container.name shell=%proc.name parent=%proc.pname cmdline=%proc.cmdline)
priority: WARNING
Conditions allow you to check for many aspects of each supported event. To learn more, see the condition language.
Macros
As noted above, macros provide a way to define common sub-portions of rules in a reusable way. By looking at the condition above it looks like both evt.type = execve and evt.dir=<
and container.id != host
would be used many by other rules, so to make our job easier we can easily define macros for both:
- macro: container
condition: container.id != host
- macro: spawned_process
condition: evt.type = execve and evt.dir=<
With this macro defined, we can then rewrite the above rule's condition as spawned_process and container and proc.name = bash
.
For many more examples of rules and macros, take a look the documentation on default macros and the rules/falco_rules.yaml
file. In fact, both the macros above are part of the default list!
Lists
Lists are named collections of items that you can include in rules, macros, or even other lists. Please note that lists cannot be parsed as filtering expressions. Each list node has the following keys:
Key | Description |
---|---|
list | The unique name for the list (as a slug) |
items | The list of values |
Here are some example lists as well as a macro that uses them:
- list: shell_binaries
items: [bash, csh, ksh, sh, tcsh, zsh, dash]
- list: userexec_binaries
items: [sudo, su]
- list: known_binaries
items: [shell_binaries, userexec_binaries]
- macro: safe_procs
condition: proc.name in (known_binaries)
Referring to a list inserts the list items in the macro, rule, or list.
Lists can contain other lists.
Appending to Lists, Rules, and Macros
If you use multiple Falco rules files, you might want to append new items to an existing list, rule, or macro. To do that, define an item with the same name as an existing item and add an append: true
attribute to the list. When appending lists, items are added to the end of the list. When appending rules/macros, the additional text is appended to the condition: field of the rule/macro.
Note that when appending to lists, rules or macros, the order of the rule configuration files matters! For example if you append to an existing default rule (e.g. Terminal shell in container
), you must ensure your custom configuration file (e.g. /etc/falco/rules.d/custom-rules.yaml
) is loaded after the default configuration file (/etc/falco/falco_rules.yaml
). This can be configured with multiple -r
parameters in the right order, directly inside the falco configuration file (falco.yaml
) via rules_file
or if you use the official Helm chart, via the falco.rulesFile
value.
Examples
In all of the examples below, it's assumed one is running Falco via falco -r /etc/falco/falco_rules.yaml -r /etc/falco/falco_rules.local.yaml
, or has the default entries for rules_file
in falco.yaml, which has /etc/falco/falco.yaml
first and /etc/falco/falco_rules.local.yaml
second.
Appending to lists
Here's an example of appending to lists:
/etc/falco/falco_rules.yaml
- list: my_programs
items: [ls, cat, pwd]
- rule: my_programs_opened_file
desc: track whenever a set of programs opens a file
condition: proc.name in (my_programs) and (evt.type=open or evt.type=openat)
output: a tracked program opened a file (user=%user.name command=%proc.cmdline file=%fd.name)
priority: INFO
/etc/falco/falco_rules.local.yaml
- list: my_programs
append: true
items: [cp]
The rule my_programs_opened_file
would trigger whenever any of ls
, cat
, pwd
, or cp
opened a file.
Appending to Macros
Here's an example of appending to macros:
/etc/falco/falco_rules.yaml
- macro: access_file
condition: evt.type=open
- rule: program_accesses_file
desc: track whenever a set of programs opens a file
condition: proc.name in (cat, ls) and (access_file)
output: a tracked program opened a file (user=%user.name command=%proc.cmdline file=%fd.name)
priority: INFO
/etc/falco/falco_rules.local.yaml
- macro: access_file
append: true
condition: or evt.type=openat
The rule program_accesses_file
would trigger when ls
/cat
either used open
/openat
on a file.
Appending to Rules
Here's an example of appending to rules:
/etc/falco/falco_rules.yaml
- rule: program_accesses_file
desc: track whenever a set of programs opens a file
condition: proc.name in (cat, ls) and evt.type=open
output: a tracked program opened a file (user=%user.name command=%proc.cmdline file=%fd.name)
priority: INFO
/etc/falco/falco_rules.local.yaml
- rule: program_accesses_file
append: true
condition: and not user.name=root
The rule program_accesses_file
would trigger when ls
/cat
either used open
on a file, but not if the user was root.
Gotchas with rule/macro append and logical operators
Remember that when appending rules and macros, the text of the second rule/macro is simply added to the condition of the first rule/macro. This can result in unintended results if the original rule/macro has potentially ambiguous logical operators. Here's an example:
- rule: my_rule
desc: ...
condition: evt.type=open and proc.name=apache
output: ...
- rule: my_rule
append: true
condition: or proc.name=nginx
Should proc.name=nginx
be interpreted as relative to the and proc.name=apache
, that is to allow either apache/nginx to open files, or relative to the evt.type=open
, that is to allow apache to open files or to allow nginx to do anything?
In cases like this, be sure to scope the logical operators of the original condition with parentheses when possible, or avoid appending conditions when not possible.
Disable Default Rules
Even though Falco provides a quite powerful default ruleset, you sometimes need to disable some of these default rules since they do not work properly in your environment. Luckily Falco offers you multiple possibilities to do so.
Via existing Macros
Most of the default rules offer some kind of consider_*
macros which are already part of the rule conditions. These consider_*
macros are usually set to (never_true)
or (always_true)
which basically enables or disabled the regarding rule. Now if you want to enable a by default disabled rule (e.g. Unexpected outbound connection destination
), you just have to override the rule's consider_*
macro (consider_all_outbound_conns
in this case) inside your custom Falco configuration.
Example for your custom Falco configuration (note the (always_true)
condition):
- macro: consider_all_outbound_conns
condition: (always_true)
Please note again that the order of the specified configuration file matters! The last defined macro with the same name wins.
Via Falco Parameters
Falco offers the following parameters to limit which default rules should be enabled/used and which not:
-D <substring> Disable any rules with names having the substring <substring>. Can be specified multiple times.
-T <tag> Disable any rules with a tag=<tag>. Can be specified multiple times.
Can not be specified with -t.
-t <tag> Only run those rules with a tag=<tag>. Can be specified multiple times.
Can not be specified with -T/-D.
These parameters can also be specified as Helm chart value (extraArgs
) if you are deploying Falco via the official Helm chart.
Via Custom Rule Definition
Last but not the least, you can just disable a rule that is enabled by default using the enabled: false
rule property.
This is especially useful for rules which do not provide a consider_*
macro in the default condition.
Ensure that the custom configuration file loads after the default configuration file. You can configure the right order using multiple -r
parameters, directly inside the falco configuration file falco.yaml
through rules_file
. If you are using the official Helm chart, then configure the order with the falco.rulesFile
value.
For example to disable the User mgmt binaries
default rule in /etc/falco/falco_rules.yaml
define a custom rule in /etc/falco/rules.d/custom-rules.yaml
:
- rule: User mgmt binaries
enabled: false
At the same time, disabled rules can be re-enabled by using the enabled: true
rule property. For instance, the Change thread namespace
rule in /etc/falco/falco_rules.yaml
that is disabled by default, can be manually enabled with:
- rule: Change thread namespace
enabled: true
Output
A rule output is a string that can use the same fields that conditions can use prepended by %
to perform interpolation, akin to printf
. For example:
Disallowed SSH Connection (command=%proc.cmdline connection=%fd.name user=%user.name user_loginuid=%user.loginuid container_id=%container.id image=%container.image.repository)
could output:
Disallowed SSH Connection (command=sshd connection=127.0.0.1:34705->10.0.0.120:22 user=root user_loginuid=-1 container_id=host image=<NA>)
Note that it's not necessary that all fields are set in the specific event. As you can see in the example above if the connection happens outside a container the field %container.image.repository
would not be set and <NA>
is displayed instead.
Rule Priorities
Every Falco rule has a priority which indicates how serious a violation of the rule is. The priority is included in the message/JSON output/etc. Here are the available priorities:
EMERGENCY
ALERT
CRITICAL
ERROR
WARNING
NOTICE
INFORMATIONAL
DEBUG
The general guidelines used to assign priorities to rules are the following:
- If a rule is related to writing state (i.e. filesystem, etc.), its priority is
ERROR
. - If a rule is related to an unauthorized read of state (i.e. reading sensitive files, etc.), its priority is
WARNING
. - If a rule is related to unexpected behavior (spawning an unexpected shell in a container, opening an unexpected network connection, etc.), its priority is
NOTICE
. - If a rule is related to behaving against good practices (unexpected privileged containers, containers with sensitive mounts, running interactive commands as root), its priority is
INFO
.
One exception is that the rule "Run shell untrusted", which is fairly FP-prone, has a priority of DEBUG
.
Rule Tags
As of 0.6.0, rules have an optional set of tags that are used to categorize the ruleset into groups of related rules. Here's an example:
- rule: File Open by Privileged Container
desc: Any open by a privileged container. Exceptions are made for known trusted images.
condition: (open_read or open_write) and container and container.privileged=true and not trusted_containers
output: File opened for read/write by privileged container (user=%user.name command=%proc.cmdline %container.info file=%fd.name)
priority: WARNING
tags: [container, cis]
In this case, the rule "File Open by Privileged Container" has been given the tags "container" and "cis". If the tags key is not present for a given rule or the list is empty, a rule has no tags.
Here's how you can use tags:
- You can use the
-T <tag>
argument to disable rules having a given tag.-T
can be specified multiple times. For example, to skip all rules with the "filesystem" and "cis" tags you would run falco withfalco -T filesystem -T cis ...
.-T
can not be specified with-t
. - You can use the
-t <tag>
argument to only run those rules having a given tag.-t
can be specified multiple times. For example, to only run those rules with the "filesystem" and "cis" tags, you would run falco withfalco -t filesystem -t cis ...
.-t
can not be specified with-T
or-D <pattern>
(disable rules by rule name regex).
Tags for Current Falco Ruleset
We've also gone through the default ruleset and tagged all the rules with an initial set of tags. Here are the tags we've used:
Tag | Description |
---|---|
filesystem | The rule relates to reading/writing files |
software_mgmt | The rule relates to any software/package management tool like rpm, dpkg, etc. |
process | The rule relates to starting a new process or changing the state of a current process |
database | The rule relates to databases |
host | The rule only works outside of containers |
shell | The rule specifically relates to starting shells |
container | The rule only works inside containers |
cis | The rule is related to the CIS Docker benchmark |
users | The rule relates to management of users or changing the identity of a running process |
network | The rule relates to network activity |
Rules can have multiple tags if they relate to multiple of the above. Every rule in the falco ruleset currently has at least one tag.
Rule Condition Best Practices
To allow for grouping rules by event type, which improves performance, Falco prefers rule conditions that have at least one evt.type=
operator, at the beginning of the condition, before any negative operators (i.e. not
or !=
). If a condition does not have any evt.type=
operator, Falco logs a warning like:
Rule no_evttype: warning (no-evttype):
proc.name=foo
did not contain any evt.type restriction, meaning that it will run for all event types.
This has a significant performance penalty. Consider adding an evt.type restriction if possible.
If a rule has an evt.type
operator in the latter portion of the condition, Falco logs a warning like this:
Rule evttype_not_equals: warning (trailing-evttype):
evt.type!=execve
does not have all evt.type restrictions at the beginning of the condition,
or uses a negative match (i.e. "not"/"!=") for some evt.type restriction.
This has a performance penalty, as the rule can not be limited to specific event types.
Consider moving all evt.type restrictions to the beginning of the rule and/or
replacing negative matches with positive matches if possible.
Escaping Special Characters
In some cases, rules may need to contain special characters like (
, spaces, etc. For example, you may need to look for a proc.name
of (systemd)
, including the surrounding parentheses.
You can use "
to capture these special characters. Here's an example:
- rule: Any Open Activity by Systemd
desc: Detects all open events by systemd.
condition: evt.type=open and proc.name="(systemd)" or proc.name=systemd
output: "File opened by systemd (user=%user.name command=%proc.cmdline file=%fd.name)"
priority: WARNING
When including items in lists, ensure that the double quotes are not interpreted from your YAML file by surrounding the quoted string with single quotes. Here's an example:
- list: systemd_procs
items: [systemd, '"(systemd)"']
- rule: Any Open Activity by Systemd
desc: Detects all open events by systemd.
condition: evt.type=open and proc.name in (systemd_procs)
output: "File opened by systemd (user=%user.name command=%proc.cmdline file=%fd.name)"
priority: WARNING
Ignored system calls
For performance reasons, some system calls are currently discarded before Falco processes them. You can see the complete list by running falco with -i
. If you'd like to run Falco against all events, including system calls in the above list, you can run Falco with the -A
flag. For more information, see supported events.
Feedback
Was this page helpful?
Glad to hear it! Please tell us how we can improve.
Sorry to hear that. Please tell us how we can improve.