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falco.yaml
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falco.yaml
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# SPDX-License-Identifier: Apache-2.0
#
# Copyright (C) 2023 The Falco Authors.
#
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
################
# Config index #
################
# Here is an index of the configuration categories to help you navigate
# the Falco configuration file:
#
# (Falco command-line arguments)
# (Falco environment variables)
# Falco config files settings
# config_files [Stable]
# watch_config_files [Stable]
# Falco rules files
# rules_files [Stable]
# Falco rules
# rules [Incubating]
# Falco engine
# engine [Stable]
# Falco plugins
# load_plugins [Stable]
# plugins [Stable]
# Falco outputs settings
# time_format_iso_8601 [Stable]
# priority [Stable]
# json_output [Stable]
# json_include_output_property [Stable]
# json_include_tags_property [Stable]
# buffered_outputs [Stable]
# rule_matching [Incubating]
# outputs_queue [Stable]
# Falco outputs channels
# stdout_output [Stable]
# syslog_output [Stable]
# file_output [Stable]
# http_output [Stable]
# program_output [Stable]
# grpc_output [Stable]
# Falco exposed services
# grpc [Stable]
# webserver [Stable]
# Falco logging / alerting / metrics related to software functioning (basic)
# log_stderr [Stable]
# log_syslog [Stable]
# log_level [Stable]
# libs_logger [Stable]
# Falco logging / alerting / metrics related to software functioning (advanced)
# output_timeout [Stable]
# syscall_event_timeouts [Stable]
# syscall_event_drops [Stable] -> [CHANGE NOTICE] Automatic notifications will be simplified in Falco 0.38! If you depend on the detailed drop counters payload, use 'metrics.output_rule' along with 'metrics.kernel_event_counters_enabled' instead
# metrics [Stable]
# Falco performance tuning (advanced)
# base_syscalls [Stable]
# Falco libs
# falco_libs [Incubating]
########################
# Config maturity tags #
########################
# As per features adoption and deprecation proposal we support 4 levels of configuration keys maturity:
# * Sandbox -> Experimental/alpha features, not recommended for production use, can be removed at any time without further notice.
# * Incubating -> Beta features, long-term support is not guaranteed.
# * Stable -> General Availability (GA) features for which long-term support is expected.
# * Deprecated -> Deprecated keys, soon to be removed.
#
# For more info, please take a look at the proposal: https://github.com/falcosecurity/falco/blob/master/proposals/20231220-features-adoption-and-deprecation.md.
################################
# Falco command-line arguments #
################################
# To explore the latest command-line arguments supported by Falco for additional
# configuration, you can run `falco --help` in your terminal. You can also pass
# configuration options from this config file as command-line arguments by using
# the `-o` flag followed by the option name and value. In the following example,
# three config options (`json_output`, `log_level`, and
# `engine.kind`) are passed as command-line
# arguments with their corresponding values: falco -o "json_output=true"
# -o "log_level=debug" -o "engine.kind=kmod"
# Please note that command-line arguments take precedence over the options
# specified in this config file.
###############################
# Falco environment variables #
###############################
# Customize Falco settings using environment variables:
#
# - HOST_ROOT: Specifies the prefix to the underlying host `/proc` filesystem
# when deploying Falco over a container with read-only host mounts instead of
# directly on the host. Defaults to "/host".
#
# - FALCO_HOSTNAME: Customize the hostname output field logged by Falco by
# setting the "FALCO_HOSTNAME" environment variable.
#
# - FALCO_CGROUP_MEM_PATH: Specifies the file path holding the container
# memory usage metric for the `metrics` feature. Defaults to
# "/sys/fs/cgroup/memory/memory.usage_in_bytes" (Kubernetes).
#
# - SKIP_DRIVER_LOADER is used by the Falco fat image to skip the driver loading part.
#
# - FALCO_FRONTEND is useful when set to noninteractive to skip the dialog choice during
# the installation of Falco deb/rpm packages. This setting is somewhat similar to DEBIAN_FRONTEND.
#
# - FALCO_DRIVER_CHOICE is useful when set to kmod, ebpf, or modern_ebpf (matching the names
# used in engine.kind in the Falco config) during the installation of Falco deb/rpm packages.
# It skips the dialog choice but retains the driver configuration.
#
# - FALCOCTL_ENABLED is useful when set to 'no' during the installation of Falco deb/rpm packages,
# disabling the automatic artifacts followed by falcoctl.
###############################
# Falco config files settings #
###############################
# [Stable] `config_files`
#
# Falco will load additional configs files specified here.
# Their loading is assumed to be made *after* main config file has been processed,
# exactly in the order they are specified.
# Therefore, loaded config files *can* override values from main config file.
# Also, nested include is not allowed, ie: included config files won't be able to include other config files.
#
# Like for 'rules_files', specifying a folder will load all the configs files present in it in a lexicographical order.
config_files:
- /etc/falco/config.d
# [Stable] `watch_config_files`
#
# Falco monitors configuration and rules files for changes and automatically
# reloads itself to apply the updated configuration when any modifications are
# detected. This feature is particularly useful when you want to make real-time
# changes to the configuration or rules of Falco without interrupting its
# operation or losing its state. For more information about Falco's state
# engine, please refer to the `base_syscalls` section.
watch_config_files: true
#####################
# Falco rules files #
#####################
# [Stable] `rules_files`
# NOTICE: Before Falco 0.38, this config key was `rules_file` (singular form), which is now deprecated in favor of `rules_files` (plural form).
#
# Falco rules can be specified using files or directories, which are loaded at
# startup.
#
# If the entry is a file, it will be read directly. If the entry is a directory,
# all files within that directory will be read in alphabetical order.
#
# The falco_rules.yaml file ships with the Falco package and is overridden with
# every new software version. falco_rules.local.yaml is only created if it
# doesn't already exist.
#
# To customize the set of rules, you can add your modifications to any file.
# It's important to note that the files or directories are read in the order
# specified here. In addition, rules are loaded by Falco in the order they
# appear within each rule file.
#
# If you have any customizations intended to override a previous configuration,
# make sure they appear in later files to take precedence. On the other hand, if
# the conditions of rules with the same event type(s) have the potential to
# overshadow each other, ensure that the more important rule appears first. This
# is because rules are evaluated on a "first match wins" basis, where the first
# rule that matches the conditions will be applied, and subsequent rules will
# not be evaluated for the same event type.
#
# By arranging the order of files and rules thoughtfully, you can ensure that
# desired customizations and rule behaviors are prioritized and applied as
# intended.
#
# With Falco 0.36 and beyond, it's now possible to apply multiple rules that match
# the same event type, eliminating concerns about rule prioritization based on the
# "first match wins" principle. However, enabling the `all` matching option may result
# in a performance penalty. We recommend carefully testing this alternative setting
# before deploying it in production. Read more under the `rule_matching` configuration.
rules_files:
- /etc/falco/falco_rules.yaml
- /etc/falco/falco_rules.local.yaml
- /etc/falco/rules.d
# [Incubating] `rules`
#
# --- [Description]
#
# Falco rules can be enabled or disabled by name (with wildcards *) and/or by tag.
#
# This configuration is applied after all rules files have been loaded, including
# their overrides, and will take precedence over the enabled/disabled configuration
# specified or overridden in the rules files.
#
# The ordering matters and selections are evaluated in order. For instance, if you
# need to only enable a rule you would first disable all of them and then only
# enable what you need, regardless of the enabled status in the files.
#
# --- [Examples]
#
# Only enable two rules:
#
# rules:
# - disable:
# rule: "*"
# - enable:
# rule: Netcat Remote Code Execution in Container
# - enable:
# rule: Delete or rename shell history
#
# Disable all rules with a specific tag:
#
# rules:
# - disable:
# tag: network
#
################
# Falco engine #
################
# [Stable] `engine`
#
# --- [Description]
#
# Falco supports different engines to generate events.
# Choose the appropriate engine kind based on your system's configuration and requirements.
#
# Available engines:
# - `kmod`: Kernel Module (Kernel Module)
# - `ebpf`: eBPF (eBPF probe)
# - `modern_ebpf`: Modern eBPF (CO-RE eBPF probe)
# - `gvisor`: gVisor (gVisor sandbox)
# - `replay`: Replay a scap trace file
# - `nodriver`: No driver is injected into the system.
# This is useful to debug and to run plugins with 'syscall' source.
#
# Only one engine can be specified in the `kind` key.
# Moreover, for each engine multiple options might be available,
# grouped under engine-specific configuration keys.
# Some of them deserve an in-depth description:
#
################### `buf_size_preset`
#
# --- [Description]
#
# The syscall buffer index determines the size of the shared space between Falco
# and its drivers. This shared space serves as a temporary storage for syscall
# events, allowing them to be transferred from the kernel to the userspace
# efficiently. The buffer size for each online CPU is determined by the buffer
# index, and each CPU has its own dedicated buffer. Adjusting this index allows
# you to control the overall size of the syscall buffers.
#
# --- [Usage]
#
# The index 0 is reserved, and each subsequent index corresponds to an
# increasing size in bytes. For example, index 1 corresponds to a size of 1 MB,
# index 2 corresponds to 2 MB, and so on:
#
# [(*), 1 MB, 2 MB, 4 MB, 8 MB, 16 MB, 32 MB, 64 MB, 128 MB, 256 MB, 512 MB]
# ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^
# | | | | | | | | | | |
# 0 1 2 3 4 5 6 7 8 9 10
#
#
# The buffer dimensions in bytes are determined by the following requirements:
# (1) a power of 2.
# (2) a multiple of your system_page_dimension.
# (3) greater than `2 * (system_page_dimension).
#
# The buffer size constraints may limit the usability of certain indexes. Let's
# consider an example to illustrate this:
#
# If your system has a page size of 1 MB, the first available buffer size would
# be 4 MB because 2 MB is exactly equal to 2 * (system_page_size), which is not
# sufficient as we require more than 2 * (system_page_size). In this example, it
# is evident that if the page size is 1 MB, the first index that can be used is 3.
#
# However, in most cases, these constraints do not pose a limitation, and all
# indexes from 1 to 10 can be used. You can check your system's page size using
# the Falco `--page-size` command-line option.
#
# --- [Suggestions]
#
# The buffer size was previously fixed at 8 MB (index 4). You now have the
# option to adjust the size based on your needs. Increasing the size, such as to
# 16 MB (index 5), can reduce syscall drops in heavy production systems, but may
# impact performance. Decreasing the size can speed up the system but may
# increase syscall drops. It's important to note that the buffer size is mapped
# twice in the process' virtual memory, so a buffer of 8 MB will result in a 16
# MB area in virtual memory. Use this parameter with caution and only modify it
# if the default size is not suitable for your use case.
#
################### `drop_failed_exit`
#
# --- [Description]
#
# Enabling this option in Falco allows it to drop failed system call exit events
# in the kernel drivers before pushing them onto the ring buffer. This
# optimization can result in lower CPU usage and more efficient utilization of
# the ring buffer, potentially reducing the number of event losses. However, it
# is important to note that enabling this option also means sacrificing some
# visibility into the system.
#
################### `cpus_for_each_buffer` (modern_ebpf only)
#
# --- [Description]
#
# The modern_bpf driver in Falco utilizes the new BPF ring buffer, which has a
# different memory footprint compared to the current BPF driver that uses the
# perf buffer. The Falco core maintainers have discussed the differences and
# their implications, particularly in Kubernetes environments where limits need
# to be carefully set to avoid interference with the Falco daemonset deployment
# from the OOM killer. Based on guidance received from the kernel mailing list,
# it is recommended to assign multiple CPUs to one buffer instead of allocating
# a buffer for each CPU individually. This helps optimize resource allocation
# and prevent potential issues related to memory usage.
#
# This is an index that controls how many CPUs you want to assign to a single
# syscall buffer (ring buffer). By default, for modern_bpf every syscall buffer
# is associated to 2 CPUs, so the mapping is 1:2. The modern BPF probe allows
# you to choose different mappings, for example, changing the value to `1`
# results in a 1:1 mapping and would mean one syscall buffer for each CPU (this
# is the default for the `bpf` driver).
#
# --- [Usage]
#
# You can choose an index from 0 to MAX_NUMBER_ONLINE_CPUs to set the dimension
# of the syscall buffers. The value 0 represents a single buffer shared among
# all online CPUs. It serves as a flexible option when the exact number of
# online CPUs is unknown. Here's an example to illustrate this:
#
# Consider a system with 7 online CPUs:
#
# CPUs 0 X 2 3 X X 6 7 8 9 (X means offline CPU)
#
# - `1` means a syscall buffer for each CPU so 7 buffers
#
# CPUs 0 X 2 3 X X 6 7 8 9 (X means offline CPU)
# | | | | | | |
# BUFFERs 0 1 2 3 4 5 6
#
# - `2` (Default value) means a syscall buffer for each CPU pair, so 4 buffers
#
# CPUs 0 X 2 3 X X 6 7 8 9 (X means offline CPU)
# | | | | | | |
# BUFFERs 0 0 1 1 2 2 3
#
# Please note that in this example, there are 4 buffers in total. Three of the
# buffers are associated with pairs of CPUs, while the last buffer is mapped to
# a single CPU. This arrangement is necessary because we have an odd number of
# CPUs.
#
# - `0` or `MAX_NUMBER_ONLINE_CPUs` mean a syscall buffer shared between all
# CPUs, so 1 buffer
#
# CPUs 0 X 2 3 X X 6 7 8 9 (X means offline CPU)
# | | | | | | |
# BUFFERs 0 0 0 0 0 0 0
#
# Moreover, you have the option to combine this parameter with
# `buf_size_preset` index. For instance, you can create a large shared
# syscall buffer of 512 MB (using buf_size_preset=10) that is
# allocated among all the online CPUs.
#
# --- [Suggestions]
#
# The default choice of index 2 (one syscall buffer for each CPU pair) was made
# because the modern bpf probe utilizes a different memory allocation strategy
# compared to the other two drivers (bpf and kernel module). However, you have
# the flexibility to experiment and find the optimal configuration for your
# system.
#
# When considering a fixed buf_size_preset and a fixed buffer dimension:
# - Increasing this configs value results in lower number of buffers and you can
# speed up your system and reduce memory usage
# - However, using too few buffers may increase contention in the kernel,
# leading to a slowdown.
#
# If you have low event throughputs and minimal drops, reducing the number of
# buffers (higher `cpus_for_each_buffer`) can lower the memory footprint.
#
engine:
kind: modern_ebpf
kmod:
buf_size_preset: 4
drop_failed_exit: false
ebpf:
# path to the elf file to load.
probe: ${HOME}/.falco/falco-bpf.o
buf_size_preset: 4
drop_failed_exit: false
modern_ebpf:
cpus_for_each_buffer: 2
buf_size_preset: 4
drop_failed_exit: false
replay:
# path to the capture file to replay (eg: /path/to/file.scap)
capture_file: ""
gvisor:
# A Falco-compatible configuration file can be generated with
# '--gvisor-generate-config' and utilized for both runsc and Falco.
config: ""
# Set gVisor root directory for storage of container state when used
# in conjunction with 'gvisor.config'. The 'gvisor.root' to be passed
# is the one usually passed to 'runsc --root' flag.
root: ""
#################
# Falco plugins #
#################
# [Stable] `load_plugins` and `plugins`
#
# --- [Description]
#
# Falco plugins enable integration with other services in your ecosystem.
# They allow Falco to extend its functionality and leverage data sources such as
# Kubernetes audit logs or AWS CloudTrail logs. This enables Falco to perform
# fast on-host detections beyond syscalls and container events. The plugin
# system will continue to evolve with more specialized functionality in future
# releases.
#
# Please refer to the plugins repo at
# https://github.com/falcosecurity/plugins/blob/master/plugins/ for detailed
# documentation on the available plugins. This repository provides comprehensive
# information about each plugin and how to utilize them with Falco.
#
# Please note that if your intention is to enrich Falco syscall logs with fields
# such as `k8s.ns.name`, `k8s.pod.name`, and `k8s.pod.*`, you do not need to use
# the `k8saudit` plugin. This information is automatically extracted from
# the container runtime socket. The `k8saudit` plugin is specifically designed
# to integrate with Kubernetes audit logs and is not required for basic enrichment
# of syscall logs with Kubernetes-related fields.
#
# --- [Usage]
#
# Disabled by default, indicated by an empty `load_plugins` list. Each plugin meant
# to be enabled needs to be listed as explicit list item.
#
# For example, if you want to use the `k8saudit` plugin,
# ensure it is configured appropriately and then change this to:
# load_plugins: [k8saudit, json]
load_plugins: []
# Customize subsettings for each enabled plugin. These settings will only be
# applied when the corresponding plugin is enabled using the `load_plugins`
# option.
plugins:
- name: k8saudit
library_path: libk8saudit.so
init_config: ""
# maxEventSize: 262144
# webhookMaxBatchSize: 12582912
# sslCertificate: /etc/falco/falco.pem
open_params: "http://:9765/k8s-audit"
- name: cloudtrail
library_path: libcloudtrail.so
# see docs for init_config and open_params:
# https://github.com/falcosecurity/plugins/blob/master/plugins/cloudtrail/README.md
- name: json
library_path: libjson.so
##########################
# Falco outputs settings #
##########################
# [Stable] `time_format_iso_8601`
#
# When enabled, Falco will display log and output messages with times in the ISO
# 8601 format. By default, times are shown in the local time zone determined by
# the /etc/localtime configuration.
time_format_iso_8601: false
# [Incubating] `buffer_format_base64`
#
# When enabled, Falco will output data buffer with base64 encoding. This is useful
# for encoding binary data that needs to be used over media designed to consume
# this format.
buffer_format_base64: false
# [Stable] `priority`
#
# Any rule with a priority level more severe than or equal to the specified
# minimum level will be loaded and run by Falco. This allows you to filter and
# control the rules based on their severity, ensuring that only rules of a
# certain priority or higher are active and evaluated by Falco. Supported
# levels: "emergency", "alert", "critical", "error", "warning", "notice",
# "info", "debug"
priority: debug
# [Stable] `json_output`
#
# When enabled, Falco will output alert messages and rules file
# loading/validation results in JSON format, making it easier for downstream
# programs to process and consume the data. By default, this option is disabled.
json_output: false
# [Stable] `json_include_output_property`
#
# When using JSON output in Falco, you have the option to include the "output"
# property itself in the generated JSON output. The "output" property provides
# additional information about the purpose of the rule. To reduce the logging
# volume, it is recommended to turn it off if it's not necessary for your use
# case.
json_include_output_property: true
# [Incubating] `json_include_message_property`
#
# When using JSON output in Falco, you have the option to include the formatted
# rule output without timestamp or priority. For instance, if a rule specifies
# an "output" property like "Opened process %proc.name" the "message" field will
# only contain "Opened process bash" whereas the "output" field will contain more
# information.
json_include_message_property: false
# [Stable] `json_include_tags_property`
#
# When using JSON output in Falco, you have the option to include the "tags"
# field of the rules in the generated JSON output. The "tags" field provides
# additional metadata associated with the rule. To reduce the logging volume,
# if the tags associated with the rule are not needed for your use case or can
# be added at a later stage, it is recommended to turn it off.
json_include_tags_property: true
# [Stable] `buffered_outputs`
#
# Enabling buffering for the output queue can offer performance optimization,
# efficient resource usage, and smoother data flow, resulting in a more reliable
# output mechanism. By default, buffering is disabled (false).
buffered_outputs: false
# [Incubating] `rule_matching`
#
# The `rule_matching` configuration key's values are:
# - `first`: Falco stops checking conditions of rules against upcoming event
# at the first matching rule
# - `all`: Falco will continue checking conditions of rules even if a matching
# one was already found
#
# Rules conditions are evaluated in the order they are defined in the rules files.
# For this reason, when using `first` as value, only the first defined rule will
# trigger, possibly shadowing other rules.
# In case `all` is used as value, rules still trigger in the order they were
# defined.
#
# Effectively, with this setting, it is now possible to apply multiple rules that match
# the same event type. This eliminates concerns about rule prioritization based on the
# "first match wins" principle. However, enabling the `all` matching option may result in
# a performance penalty. We recommend carefully testing this alternative setting before
# deploying it in production.
rule_matching: first
# [Stable] `outputs_queue`
#
# Falco utilizes tbb::concurrent_bounded_queue for handling outputs, and this parameter
# allows you to customize the queue capacity. Please refer to the official documentation:
# https://oneapi-src.github.io/oneTBB/main/tbb_userguide/Concurrent_Queue_Classes.html.
# On a healthy system with optimized Falco rules, the queue should not fill up.
# If it does, it is most likely happening due to the entire event flow being too slow,
# indicating that the server is under heavy load.
#
# `capacity`: the maximum number of items allowed in the queue is determined by this value.
# Setting the value to 0 (which is the default) is equivalent to keeping the queue unbounded.
# In other words, when this configuration is set to 0, the number of allowed items is
# effectively set to the largest possible long value, disabling this setting.
#
# In the case of an unbounded queue, if the available memory on the system is consumed,
# the Falco process would be OOM killed. When using this option and setting the capacity,
# the current event would be dropped, and the event loop would continue. This behavior mirrors
# kernel-side event drops when the buffer between kernel space and user space is full.
outputs_queue:
capacity: 0
# [Sandbox] `append_output`
#
# Add information to the Falco output.
# With this setting you can add more information to the Falco output message, customizable by
# rule, tag or source.
# You can also add additional data that will appear in the output_fields property
# of JSON formatted messages or gRPC output but will not be part of the regular output message.
# This allows you to add custom fields that can help you filter your Falco events without
# polluting the message text.
#
# Each append_output entry has an optional `match` map which specifies which rules will be
# affected.
# `match`:
# `rule`: append output only to a specific rule
# `source`: append output only to a specific source
# `tags`: append output only to rules that have all of the specified tags
# If none of the above are specified (or `match` is omitted)
# output is appended to all events.
# If more than one match condition is specified output will be appended to events
# that match all conditions.
# And several options to add output:
# `extra_output`: add output to the Falco message
# `extra_fields`: add new fields to the JSON output and structured output, which will not
# affect the regular Falco message in any way. These can be specified as a
# custom name with a custom format or as any supported field
# (see: https://falco.org/docs/reference/rules/supported-fields/)
#
# Example:
#
# append_output:
# - match:
# source: syscall
# extra_output: "on CPU %evt.cpu"
# extra_fields:
# - home_directory: "${HOME}"
# - evt.hostname
#
# In the example above every event coming from the syscall source will get an extra message
# at the end telling the CPU number. In addition, if `json_output` is true, in the "output_fields"
# property you will find three new ones: "evt.cpu", "home_directory" which will contain the value of the
# environment variable $HOME, and "evt.hostname" which will contain the hostname.
##########################
# Falco outputs channels #
##########################
# Falco supports various output channels, such as syslog, stdout, file, gRPC,
# webhook, and more. You can enable or disable these channels as needed to
# control where Falco alerts and log messages are directed. This flexibility
# allows seamless integration with your preferred logging and alerting systems.
# Multiple outputs can be enabled simultaneously.
# [Stable] `stdout_output`
#
# Redirect logs to standard output.
stdout_output:
enabled: true
# [Stable] `syslog_output`
#
# Send logs to syslog.
syslog_output:
enabled: true
# [Stable] `file_output`
#
# When appending Falco alerts to a file, each new alert will be added to a new
# line. It's important to note that Falco does not perform log rotation for this
# file. If the `keep_alive` option is set to `true`, the file will be opened once
# and continuously written to, else the file will be reopened for each output
# message. Furthermore, the file will be closed and reopened if Falco receives
# the SIGUSR1 signal.
file_output:
enabled: false
keep_alive: false
filename: ./events.txt
# [Stable] `http_output`
#
# Send logs to an HTTP endpoint or webhook.
#
# When using falcosidekick, it is necessary to set `json_output` to true, which is
# conveniently done automatically for you when using `falcosidekick.enabled=true`.
http_output:
enabled: false
url: http://some.url
user_agent: "falcosecurity/falco"
# Tell Falco to not verify the remote server.
insecure: false
# Path to the CA certificate that can verify the remote server.
ca_cert: ""
# Path to a specific file that will be used as the CA certificate store.
ca_bundle: ""
# Path to a folder that will be used as the CA certificate store. CA certificate need to be
# stored as indivitual PEM files in this directory.
ca_path: "/etc/ssl/certs"
# Tell Falco to use mTLS
mtls: false
# Path to the client cert.
client_cert: "/etc/ssl/certs/client.crt"
# Path to the client key.
client_key: "/etc/ssl/certs/client.key"
# Whether to echo server answers to stdout
echo: false
compress_uploads: false
keep_alive: false
# [Stable] `program_output`
#
# Redirect the output to another program or command.
#
# Possible additional things you might want to do with program output:
# - send to a slack webhook:
# program: "jq '{text: .output}' | curl -d @- -X POST https://hooks.slack.com/services/XXX"
# - logging (alternate method than syslog):
# program: logger -t falco-test
# - send over a network connection:
# program: nc host.example.com 80
# If `keep_alive` is set to `true`, the program will be started once and
# continuously written to, with each output message on its own line. If
# `keep_alive` is set to `false`, the program will be re-spawned for each output
# message. Furthermore, the program will be re-spawned if Falco receives
# the SIGUSR1 signal.
program_output:
enabled: false
keep_alive: false
program: "jq '{text: .output}' | curl -d @- -X POST https://hooks.slack.com/services/XXX"
# [Stable] `grpc_output`
#
# Use gRPC as an output service.
#
# gRPC is a modern and high-performance framework for remote procedure calls
# (RPC). It utilizes protocol buffers for efficient data serialization. The gRPC
# output in Falco provides a modern and efficient way to integrate with other
# systems. By default the setting is turned off. Enabling this option stores
# output events in memory until they are consumed by a gRPC client. Ensure that
# you have a consumer for the output events or leave it disabled.
grpc_output:
enabled: false
##########################
# Falco exposed services #
##########################
# [Stable] `grpc`
#
# Falco provides support for running a gRPC server using two main binding types:
# 1. Over the network with mandatory mutual TLS authentication (mTLS), which
# ensures secure communication
# 2. Local Unix socket binding with no authentication. By default, the
# gRPCserver in Falco is turned off with no enabled services (see
# `grpc_output`setting).
#
# To configure the gRPC server in Falco, you can make the following changes to
# the options:
#
# - Uncomment the relevant configuration options related to the gRPC server.
# - Update the paths of the generated certificates for mutual TLS authentication
# if you choose to use mTLS.
# - Specify the address to bind and expose the gRPC server.
# - Adjust the threadiness configuration to control the number of threads and
# contexts used by the server.
#
# Keep in mind that if any issues arise while creating the gRPC server, the
# information will be logged, but it will not stop the main Falco daemon.
# gRPC server using mTLS
# grpc:
# enabled: true
# bind_address: "0.0.0.0:5060"
# # When the `threadiness` value is set to 0, Falco will automatically determine
# # the appropriate number of threads based on the number of online cores in the system.
# threadiness: 0
# private_key: "/etc/falco/certs/server.key"
# cert_chain: "/etc/falco/certs/server.crt"
# root_certs: "/etc/falco/certs/ca.crt"
# gRPC server using a local unix socket
grpc:
enabled: false
bind_address: "unix:///run/falco/falco.sock"
# When the `threadiness` value is set to 0, Falco will automatically determine
# the appropriate number of threads based on the number of online cores in the system.
threadiness: 0
# [Stable] `webserver`
#
# Falco supports an embedded webserver that runs within the Falco process,
# providing a lightweight and efficient way to expose web-based functionalities
# without the need for an external web server. The following endpoints are
# exposed:
# - /healthz: designed to be used for checking the health and availability of
# the Falco application (the name of the endpoint is configurable).
# - /versions: responds with a JSON object containing the version numbers of the
# internal Falco components (similar output as `falco --version -o
# json_output=true`).
#
# Please note that the /versions endpoint is particularly useful for other Falco
# services, such as `falcoctl`, to retrieve information about a running Falco
# instance. If you plan to use `falcoctl` locally or with Kubernetes, make sure
# the Falco webserver is enabled.
#
# The behavior of the webserver can be controlled with the following options,
# which are enabled by default:
#
# The `ssl_certificate` option specifies a combined SSL certificate and
# corresponding key that are contained in a single file. You can generate a
# key/cert as follows:
#
# $ openssl req -newkey rsa:2048 -nodes -keyout key.pem -x509 -days 365 -out
# certificate.pem $ cat certificate.pem key.pem > falco.pem $ sudo cp falco.pem
# /etc/falco/falco.pem
webserver:
enabled: true
# When the `threadiness` value is set to 0, Falco will automatically determine
# the appropriate number of threads based on the number of online cores in the system.
threadiness: 0
listen_port: 8765
# Can be an IPV4 or IPV6 address, defaults to IPV4
listen_address: 0.0.0.0
k8s_healthz_endpoint: /healthz
# [Incubating] `prometheus_metrics_enabled`
#
# Enable the metrics endpoint providing Prometheus values
# It will only have an effect if metrics.enabled is set to true as well.
prometheus_metrics_enabled: false
ssl_enabled: false
ssl_certificate: /etc/falco/falco.pem
##############################################################################
# Falco logging / alerting / metrics related to software functioning (basic) #
##############################################################################
# [Stable] `log_stderr` and `log_syslog`
#
# Falco's logs related to the functioning of the software, which are not related
# to Falco alert outputs but rather its lifecycle, settings and potential
# errors, can be directed to stderr and/or syslog.
log_stderr: true
log_syslog: true
# [Stable] `log_level`
#
# The `log_level` setting determines the minimum log level to include in Falco's
# logs related to the functioning of the software. This setting is separate from
# the `priority` field of rules and specifically controls the log level of
# Falco's operational logging. By specifying a log level, you can control the
# verbosity of Falco's operational logs. Only logs of a certain severity level
# or higher will be emitted. Supported levels: "emergency", "alert", "critical",
# "error", "warning", "notice", "info", "debug".
log_level: info
# [Stable] `libs_logger`
#
# The `libs_logger` setting in Falco determines the minimum log level to include
# in the logs related to the functioning of the software of the underlying
# `libs` library, which Falco utilizes. This setting is independent of the
# `priority` field of rules and the `log_level` setting that controls Falco's
# operational logs. It allows you to specify the desired log level for the `libs`
# library specifically, providing more granular control over the logging
# behavior of the underlying components used by Falco. Only logs of a certain
# severity level or higher will be emitted. Supported levels: "fatal",
# "critical", "error", "warning", "notice", "info", "debug", "trace". It is not
# recommended for production use.
libs_logger:
enabled: false
severity: debug
#################################################################################
# Falco logging / alerting / metrics related to software functioning (advanced) #
#################################################################################
# [Stable] `output_timeout`
#
# Generates Falco operational logs when `log_level=notice` at minimum
#
# A timeout error occurs when a process or operation takes longer to complete
# than the allowed or expected time limit. In the context of Falco, an output
# timeout error refers to the situation where an output channel fails to deliver
# an alert within a specified deadline. Various reasons, such as network issues,
# resource constraints, or performance bottlenecks can cause timeouts.
#
# The `output_timeout` parameter specifies the duration, in milliseconds, to
# wait before considering the deadline exceeded. By default, the timeout is set
# to 2000ms (2 seconds), meaning that the consumer of Falco outputs can block
# the Falco output channel for up to 2 seconds without triggering a timeout
# error.
#
# Falco actively monitors the performance of output channels. With this setting
# the timeout error can be logged, but please note that this requires setting
# Falco's operational logs `log_level` to a minimum of `notice`.
#
# It's important to note that Falco outputs will not be discarded from the
# output queue. This means that if an output channel becomes blocked
# indefinitely, it indicates a potential issue that needs to be addressed by the
# user.
output_timeout: 2000
# [Stable] `syscall_event_timeouts`
#
# Generates Falco operational logs when `log_level=notice` at minimum
#
# Falco utilizes a shared buffer between the kernel and userspace to receive
# events, such as system call information, in userspace. However, there may be
# cases where timeouts occur in the underlying libraries due to issues in
# reading events or the need to skip a particular event. While it is uncommon
# for Falco to experience consecutive event timeouts, it has the capability to
# detect such situations. You can configure the maximum number of consecutive
# timeouts without an event after which Falco will generate an alert, but please
# note that this requires setting Falco's operational logs `log_level` to a
# minimum of `notice`. The default value is set to 1000 consecutive timeouts
# without receiving any events. The mapping of this value to a time interval
# depends on the CPU frequency.
syscall_event_timeouts:
max_consecutives: 1000
# [Stable] `syscall_event_drops` -> [CHANGE NOTICE] Automatic notifications will be simplified in Falco 0.38! If you depend on the detailed drop counters payload, use 'metrics.output_rule' along with 'metrics.kernel_event_counters_enabled' instead
#
# Generates "Falco internal: syscall event drop" rule output when `priority=debug` at minimum
#
# --- [Description]
#
# Falco uses a shared buffer between the kernel and userspace to pass system
# call information. When Falco detects that this buffer is full and system calls
# have been dropped, it can take one or more of the following actions:
# - ignore: do nothing (default when list of actions is empty)
# - log: log a DEBUG message noting that the buffer was full
# - alert: emit a Falco alert noting that the buffer was full
# - exit: exit Falco with a non-zero rc
#
# Notice it is not possible to ignore and log/alert messages at the same time.
#
# The rate at which log/alert messages are emitted is governed by a token
# bucket. The rate corresponds to one message every 30 seconds with a burst of
# one message (by default).
#
# The messages are emitted when the percentage of dropped system calls with
# respect the number of events in the last second is greater than the given
# threshold (a double in the range [0, 1]). If you want to be alerted on any
# drops, set the threshold to 0.
#
# For debugging/testing it is possible to simulate the drops using the
# `simulate_drops: true`. In this case the threshold does not apply.
#
# --- [Usage]
#
# Enabled by default, but requires Falco rules config `priority` set to `debug`.
# Emits a Falco rule named "Falco internal: syscall event drop" as many times in
# a given time period as dictated by the settings. Statistics here reflect the
# delta in a 1s time period.
#
# If instead you prefer periodic metrics of monotonic counters at a regular
# interval, which include syscall drop statistics and additional metrics,
# explore the `metrics` configuration option.
syscall_event_drops:
threshold: .1
actions:
- log
- alert
rate: .03333
max_burst: 1
simulate_drops: false
# [Stable] `metrics`
#
# Generates "Falco internal: metrics snapshot" rule output when `priority=info` at minimum
# By selecting `output_file`, equivalent JSON output will be appended to a file.
#
# periodic metric snapshots (including stats and resource utilization) captured
# at regular intervals
#
# --- [Warning]
#
# Due to a regression (https://github.com/falcosecurity/falco/issues/2821) some metrics
# like `falco.host_num_cpus` or `falco.start_ts` will not be available when you use
# source plugins (like k8saudit).
#
# --- [Description]
#
# Consider these key points about the `metrics` feature in Falco:
#
# - It introduces a redesigned stats/metrics system.
# - Native support for resource utilization metrics and specialized performance
# metrics.
# - Metrics are emitted as monotonic counters at predefined intervals
# (snapshots).
# - All metrics are consolidated into a single log message, adhering to the
# established rules schema and naming conventions.
# - Additional info fields complement the metrics and facilitate customized
# statistical analyses and correlations.
# - The metrics framework is designed for easy future extension.
#
# The `metrics` feature follows a specific schema and field naming convention.
# All metrics are collected as subfields under the `output_fields` key, similar
# to regular Falco rules. Each metric field name adheres to the grammar used in
# Falco rules. There are two new field classes introduced: `falco.` and `scap.`.
# The `falco.` class represents userspace counters, statistics, resource
# utilization, or useful information fields. The `scap.` class represents
# counters and statistics mostly obtained from Falco's kernel instrumentation
# before events are sent to userspace, but can include scap userspace stats as
# well.