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Go library providing network access controls for dial functions and http transports

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netjail

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Go library providing network access controls for dial functions and http transports

Motivation

Modern production systems are becoming increasingly complex, and often need to perform actions that are controlled by user input. For example, users may be given the option to define a Webhook URL to send data to, sometimes as part of a larger workflow. Applications that give users the ability to control network requests are exposed to the security risks of seeing those functionalities exploited to perform unintended actions. Attackers can use these features to forge network requests to internal systems, either to access private information or perform actions they should not be permitted to.

Classic network access controls are effective measures to lock down access to protected systems; however, they are not enough.

Consider the case of deploying an application as an AWS Lambda Function. Lambda offers very strong isolation guarantees thanks to Firecracker, and the execution model guaranteeing that each instance of the function serves at most one concurrent invocation. However, the protocol used by AWS Lambda to receive function invocations uses a long-poll http request to a localhost endpoint. Security groups implemented by the network cannot prevent the program from connecting to the loopback interface, and a malicious input could forge requests to the local endpoint that the program was not supposed to make.

Lambda is one example, but there are many others, like an application invoking itself on unprotected internal endpoints, or sending requests to sidecar containers. Programs that have the ability to open connections to addresses extracted from user input must implement protections that the network layer cannot provide, which is what this package solves for.

Installation

This package is a library, it is intended to be used as a dependency in another application:

go get github.com/stealthrocket/netjail

Usage

The library covers tow main use cases: controlling network access at the HTTP and TCP layers.

Programs can import the package with:

import "github.com/stealthrocket/netjail"

Declaring rules for network access controls

Programs configure the set of networks that the application can connect to by declaring lists of allowed and blocked network ranges. An empty rule set denies access to all networks. The list of allowed prefixes opens access to networks, and subnets can be restricted further by the list of blocked prefixes.

This example shows how to declare rules that allow connecting to all networks except loopback interfaces:

allIPv4 := netip.MustParsePrefix("0.0.0.0/0")
allIPv6 := netip.MustParsePrefix("::/0")

localhostIPv4 := netip.MustParsePrefix("127.0.0.0/8")
localhostIPv6 := netip.MustParsePrefix("::1/128")

rules := &netjail.Rules{
    Allow: []netip.Prefix{
        allIPv4,
        allIPv6,
    },
    Block: []netip.Prefix{
        localhostIPv4,
        localhostIPv6,
    },
}

Network access controls often need to be propagated through the call stack of an application, which can be done by embedding the rules in a context.Context using this function:

ctx = netjail.ContextWithRules(ctx, rules)

The rules can later be retrieved by this function:

rules := netjail.ContextRules(ctx)

If the context does not contain any rules, the returned value is nil, which behaves like an empty rule set, and denies all network access. This is critical to fail closed in the presence of application misconfiguration or errors.

Network access controls for HTTP transports

The package provides an implementation of http.RoundTripper that extracts the set of network access control rules from the context of an http.Request, and applies the rules to the connection used to serve the request.

The HTTP transport works by dynamically creating instances of http.Transport, and overriding the dial function to apply network access controls.

The following examples shows how to construct a secured client that applies a set of rules to the requests it serves:

secureClient := &http.Client{
    Transport: &netjail.Transport{
        New: func() *http.Transport{
            // We must return a different instance each time the
            // function is called, the transport would otherwise
            // panic if it sees the same value more than once.
            return http.DefaultTransport.(*http.Transport).Clone()
        },
    },
}

...

// The context used to construct the request contains the network access
// control rules that will be applied when passed to the client.
ctx = netjail.ContextWithRules(ctx, &netjail.Rules{
    ...
})

req, err := http.NewRequestWithContext(ctx, "GET", userProvidedURL, nil)
...

res, err := secureClient.Do(req)
if err != nil {
    if errors.Is(err, netjail.ErrDenied) {
        // The request was intended for a forbidden address
        ...
    }
    ...
}

Network access controls for TCP connections

While most applications use HTTP or protocols that are based on HTTP, some may need to apply network access controls to clients of other protocols (e.g., MySQL, Redis, Kafka, etc...).

Libraries that provide clients for these protocols will often allow configuring a dial function to customize how network connections are opened. This dial function is the bottom-most hook that the netjail package can integrate with to apply security rules to any client.

The netjail.(*Rules).DialFunc method is the low-level wrapper that decorates dial functions to apply network access controls defined in the originating rules.

Security Considerations

Protection against DNS rebinding attacks

DNS rebinding attacks occur when an attacker attempts to forge the DNS responses received by an application, to route connections to addresses of their choosing. For example, they could cause the DNS resolution for example.com to resolve to 127.0.0.1, resulting in the application unknowningly connecting to localhost instead of a remote server.

To prevent these types of attacks, the netjail package takes over the entire connection process. It first resolves hostnames to a set of network addresses, then validates those addresses against the allow and block lists, and only opens connection to an address that passed the checks. With this process, there is no risk of confusion between the validation and connection phases, effectively protecting the application against DNS rebinding attacks that would attempt to bypass network access controls.

Protection against software defects and supplychain attacks

Software security threats come in many forms, each dependency of a program can become the target of an attacker, and beyond that, even the process by which the software is built and delivered can become the target of attackers. Producing secure software requires the combination of multiple mitigation strategies to defend against the variety of risks that the system is exposed to.

To limit exposure to those risks, the netjail package is designed to have no dependencies besides the Go standard library, and will remain dependency-free. The package has a well-defined scope, if new features are added, it will always be preferable to bring the code in-house than take a dependency on a third party.

We used design decisions that reduce the risk of seeing security exploits arise in buggy software. We limit the use of interface types, because abstractions make it more difficult to validate how the software will behave when components are replaced at run time. The use of concrete types offer stronger guarantees, and reduce the scope that tests need to cover. In addition, the library applies extensive validations against the inputs that it receives, and always defaults to failing closed or failing loud (e.g., blocking network connections, panicking in the presence of invalid state).

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Go library providing network access controls for dial functions and http transports

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