toxy alternatives and similar modules
Based on the "Testing" category.
Alternatively, view toxy alternatives based on common mentions on social networks and blogs.
-
Playwright
Playwright is a framework for Web Testing and Automation. It allows testing Chromium, Firefox and WebKit with a single API. -
Nightwatch
Integrated end-to-end testing framework written in Node.js and using W3C Webdriver API. Developed at @browserstack -
volkswagen
:see_no_evil: Volkswagen detects when your tests are being run in a CI server, and makes them pass. -
istanbul
Yet another JS code coverage tool that computes statement, line, function and branch coverage with module loader hooks to transparently add coverage when running tests. Supports all JS coverage use cases including unit tests, server side functional tests and browser tests. Built for scale. -
loadtest
Runs a load test on the selected URL. Fast and easy to use. Can be integrated in your own workflow using the API. -
power-assert
Power Assert in JavaScript. Provides descriptive assertion messages through standard assert interface. No API is the best API. -
testcontainers-node
Testcontainers is a NodeJS library that supports tests, providing lightweight, throwaway instances of common databases, Selenium web browsers, or anything else that can run in a Docker container.
SaaSHub - Software Alternatives and Reviews
* Code Quality Rankings and insights are calculated and provided by Lumnify.
They vary from L1 to L5 with "L5" being the highest.
Do you think we are missing an alternative of toxy or a related project?
Popular Comparisons
README
toxy
Hackable HTTP proxy to simulate server failure scenarios, systems resiliency testing and unexpected network conditions, built for node.js.
It was mainly designed for failure resistance testing, when toxy becomes particularly useful in order to cover fault tolerance and resiliency capabilities of a system, especially in disruption-tolerant networks and service-oriented architectures, where toxy may act as MitM proxy among services in order to inject failure.
toxy allows you to plug in poisons, optionally filtered by rules, which essentially can intercept and alter the HTTP flow as you need, performing multiple evil actions in the middle of that process, such as limiting the bandwidth, delaying network packets, injecting network jitter latency or replying with a custom error or status code. It primarily operates at L7, although it can simulate L3 network conditions.
toxy can be fluently used programmatically or via HTTP API. It was built on top of rocky, a full-featured middleware-oriented HTTP proxy, and it's also pluggable in connect/express as standard middleware.
Requires node.js +4.
Contents
Features
- Full-featured HTTP/S proxy (backed by rocky and http-proxy)
- Hackable and elegant programmatic API (inspired on connect/express)
- Admin HTTP API for external management and dynamic configuration
- Featured built-in router with nested configuration
- Hierarchical and composable poisoning with rule based filtering
- Hierarchical middleware layer (both global and route scopes)
- Easily augmentable via middleware (based on connect/express middleware)
- Supports both incoming and outgoing traffic poisoning
- Built-in poisons (bandwidth, error, abort, latency, slow read...)
- Rule-based poisoning (probabilistic, HTTP method, headers, body...)
- Supports third-party poisons and rules
- Built-in balancer and traffic interceptor via middleware
- Inherits API and features from rocky
- Compatible with connect/express (and most of their middleware)
- Able to run as standalone HTTP proxy
Introduction
Why toxy?
There're some other similar solutions like toxy
in the market, but most of them do not provide a proper programmatic control and usually are not easy to hack, configure or are directly closed to extensibility.
Furthermore, the majority of those solutions only operates at TCP L3 level stack instead of providing high-level abstractions to cover common requirements in the specific domain and nature of the HTTP L7 protocol, like toxy tries to provide
toxy brings a powerful hackable and extensible solution with a convenient abstraction, but without losing a proper low-level interface capabilities to deal with HTTP protocol primitives easily.
toxy was designed based on the rules of composition, simplicity and extensibility. Via its built-in hierarchical domain specific middleware layer you can easily augment toxy features to your own needs.
Concepts
toxy
introduces two directives: poisons and rules.
Poisons are the specific logic which infects an incoming or outgoing HTTP transaction (e.g: injecting a latency, replying with an error). One HTTP transaction can be poisoned by one or multiple poisons, and those poisons can be also configured to infect both global or route level traffic.
Rules are a kind of match validation filters that inspects an HTTP request/response in order to determine, given a certain rules, if the HTTP transaction should be poisoned or not (e.g: if headers matches, query params, method, body...). Rules can be reused and applied to both incoming and outgoing traffic flows, including different scopes: global, route or poison level.
How it works
โ ( Incoming request ) โ
โ ||| โ
โ +-------------+ โ
โ | Toxy Router | โ -> Match the incoming request
โ +-------------+ โ
โ ||| โ
โ +--------------------+ โ
โ | Incoming phase | โ -> The proxy receives the request from the client
โ |~~~~~~~~~~~~~~~~~~~~| โ
โ | ---------------- | โ
โ | | Exec Rules | | โ -> Apply configured rules for the incoming request
โ | ---------------- | โ
โ | ||| | โ
โ | ---------------- | โ
โ | | Exec Poisons | | โ -> If all rules passed, then poison the HTTP flow
โ | ---------------- | โ
โ +~~~~~~~~~~~~~~~~~~~~+ โ
โ / \ โ
โ \ / โ
โ +--------------------+ โ
โ | HTTP dispatcher | โ -> Forward the HTTP traffic to the target server, either poisoned or not
โ +--------------------+ โ
โ / \ โ
โ \ / โ
โ +--------------------+ โ
โ | Outgoing phase | โ -> Receives response from target server
โ |~~~~~~~~~~~~~~~~~~~~| โ
โ | ---------------- | โ
โ | | Exec Rules | | โ -> Apply configured rules for the outgoing request
โ | ---------------- | โ
โ | ||| | โ
โ | ---------------- | โ
โ | | Exec Poisons | | โ -> If all rules passed, then poison the HTTP flow before send it to the client
โ | ---------------- | โ
โ +~~~~~~~~~~~~~~~~~~~~+ โ
โ ||| โ
โ ( Send to the client ) โ -> Finally, send the request to the client, either poisoned or not
Usage
Installation
npm install toxy
Examples
See examples directory for more use cases.
var toxy = require('toxy')
var poisons = toxy.poisons
var rules = toxy.rules
// Create a new toxy proxy
var proxy = toxy()
// Default server to forward incoming traffic
proxy
.forward('http://httpbin.org')
// Register global poisons and rules
proxy
.poison(poisons.latency({ jitter: 500 }))
.rule(rules.probability(25))
// Register multiple routes
proxy
.get('/download/*')
.forward('http://files.myserver.net')
.poison(poisons.bandwidth({ bps: 1024 }))
.withRule(rules.headers({'Authorization': /^Bearer (.*)$/i }))
// Infect outgoing traffic only (after the server replied properly)
proxy
.get('/image/*')
.outgoingPoison(poisons.bandwidth({ bps: 512 }))
.withRule(rules.method('GET'))
.withRule(rules.timeThreshold({ duration: 1000, threshold: 1000 * 10 }))
.withRule(rules.responseStatus({ range: [ 200, 400 ] }))
proxy
.all('/api/*')
.poison(poisons.rateLimit({ limit: 10, threshold: 1000 }))
.withRule(rules.method(['POST', 'PUT', 'DELETE']))
// And use a different more permissive poison for GET requests
.poison(poisons.rateLimit({ limit: 50, threshold: 1000 }))
.withRule(rules.method('GET'))
// Handle the rest of the traffic
proxy
.all('/*')
.poison(poisons.slowClose({ delay: 1000 }))
.poison(poisons.slowRead({ bps: 128 }))
.withRule(rules.probability(50))
proxy.listen(3000)
console.log('Server listening on port:', 3000)
console.log('Test it:', 'http://localhost:3000/image/jpeg')
Benchmark
See toxy/benchmark for details.
Poisons
Poisons host specific logic which intercepts and mutates, wraps, modify and/or cancel an HTTP transaction in the proxy server. Poisons can be applied to incoming or outgoing, or even both traffic flows (see poison phases).
Poisons can be composed and reused for different HTTP scenarios. They are executed in FIFO order and asynchronously.
Poisoning scopes
toxy
has a hierarchical design based on two different scopes: global
and route
.
Global scope points to all the incoming HTTP traffic received by the proxy server, regardless of the HTTP method or path.
Route scope points to any incoming traffic which matches with a specific HTTP verb and URI path.
Poisons can be plugged to both scopes, meaning you can operate with better accuracy and restrict the scope of the poisoning,
for instance, you might wanna apply a bandwidth limit poisoning only to
a certain routes, such as /download
or /images
.
See routes.js for a featured example.
Poisoning phases
Poisons can be plugged to incoming or outgoing traffic flows, or even both.
Incoming poisoning is applied when the traffic has been received by proxy but it has not been forwarded to the target server yet.
Outgoing poisoning refers to the traffic that has been forwarded to the target server and when proxy receives the response from it, but that response has not been sent to the client yet.
This means, essentially, that you can plug in your poisons to infect the HTTP traffic before or after the request is forwarded to the target HTTP server or sent to the client.
This allows you apply a better and more accurated poisoning based on the request or server response.
For instance, given the nature of some poisons, like inject error
,
you may want to enable it according to the target server response (e.g: some header is present or not).
See poison-phases.js for a featured example.
Built-in poisons
Latency
Namelatency Poisoning Phaseincoming / outgoing Reaches the servertrue
Infects the HTTP flow injecting a latency jitter in the response
Arguments:
- options
object
- jitter
number
- Jitter value in milliseconds - max
number
- Random jitter maximum value - min
number
- Random jitter minimum value
- jitter
toxy.poison(toxy.poisons.latency({ jitter: 1000 }))
// Or alternatively using a random value
toxy.poison(toxy.poisons.latency({ max: 1000, min: 100 }))
Inject response
Nameinject Poisoning Phaseincoming / outgoing Reaches the serverfalse (only as incoming poison)
Injects a custom response, intercepting the request before sending it to the target server. Useful to inject errors originated in the server.
Arguments:
- options
object
- code
number
- Response HTTP status code. Default500
- headers
object
- Optional headers to send - body
mixed
- Optional body data to send. It can be abuffer
orstring
- encoding
string
- Body encoding. Default toutf8
- code
toxy.poison(toxy.poisons.inject({
code: 503,
body: '{"error": "toxy injected error"}',
headers: {'Content-Type': 'application/json'}
}))
Bandwidth
Namebandwidth Poisoning Phaseincoming / outgoing Reaches the servertrue
Limits the amount of bytes sent over the network in outgoing HTTP traffic for a specific time frame.
This poison is basically an alias to throttle.
Arguments:
- options
object
- bytes
number
- Amount of chunk of bytes to send. Default1024
- threshold
number
- Packets time frame in milliseconds. Default1000
- bytes
toxy.poison(toxy.poisons.bandwidth({ bytes: 512 }))
Rate limit
NamerateLimit Poisoning Phaseincoming / outgoing Reaches the servertrue
Limits the amount of requests received by the proxy in a specific threshold time frame. Designed to test API limits. Exposes typical X-RateLimit-*
headers.
Note that this is very simple rate limit implementation, indeed limits are stored in-memory, therefore are completely volatile. There're a bunch of featured and consistent rate limiter implementations in npm that you can plug in as poison. You might be also interested in token bucket algorithm.
Arguments:
- options
object
- limit
number
- Total amount of requests. Default to10
- threshold
number
- Limit time frame in milliseconds. Default to1000
- message
string
- Optional error message when limit is reached. - code
number
- HTTP status code when limit is reached. Default to429
.
- limit
toxy.poison(toxy.poisons.rateLimit({ limit: 5, threshold: 10 * 1000 }))
Slow read
NameslowRead Poisoning Phaseincoming Reaches the servertrue
Reads incoming payload data packets slowly. Only valid for non-GET request.
Arguments:
- options
object
- chunk
number
- Packet chunk size in bytes. Default to1024
- threshold
number
- Limit threshold time frame in milliseconds. Default to1000
- chunk
toxy.poison(toxy.poisons.slowRead({ chunk: 2048, threshold: 1000 }))
Slow open
Name: slowOpen
NameslowOpen Poisoning Phaseincoming Reaches the servertrue
Delays the HTTP connection ready state.
Arguments:
- options
object
- delay
number
- Delay connection in milliseconds. Default to1000
- delay
toxy.poison(toxy.poisons.slowOpen({ delay: 2000 }))
Slow close
NameslowClose Poisoning Phaseincoming / outgoing Reaches the servertrue
Delays the HTTP connection close signal (EOF).
Arguments:
- options
object
- delay
number
- Delay time in milliseconds. Default to1000
- delay
toxy.poison(toxy.poisons.slowClose({ delay: 2000 }))
Throttle
Namethrottle Poisoning Phaseincoming / outgoing Reaches the servertrue
Restricts the amount of packets sent over the network in a specific threshold time frame.
Arguments:
- options
object
- chunk
number
- Packet chunk size in bytes. Default to1024
- delay
object
- Data chunk delay time frame in milliseconds. Default to100
- chunk
toxy.poison(toxy.poisons.throttle({ chunk: 2048, threshold: 1000 }))
Abort connection
Nameabort Poisoning Phaseincoming / outgoing Reaches the serverfalse (only as incoming poison)
Aborts the TCP connection. From the low-level perspective, this will destroy the socket on the server, operating only at TCP level without sending any specific HTTP application level data.
Arguments:
- options
object
- delay
number
- Aborts TCP connection after waiting the given milliseconds. Default to0
- next
boolean
- Iftrue
, the connection will be aborted if the target server takes more than thedelay
param time to reply. Default tofalse
- error
Error
- Custom internal node.js error to use when destroying the socket. Default tonull
- delay
// Basic connection abort
toxy.poison(toxy.poisons.abort())
// Abort after a delay
toxy.poison(toxy.poisons.abort(1000))
// In this case, the socket will be closed if
// the target server takes more than
// 2 seconds to respond
toxy.poison(toxy.poisons.abort({ delay: 2000, next: true }))
Timeout
Nametimeout Poisoning Phaseincoming / outgoing Reaches the servertrue
Defines a response timeout. Useful when forward to potentially slow servers.
Arguments:
- milliseconds
number
- Timeout limit in milliseconds
toxy.poison(toxy.poisons.timeout(5000))
How to write poisons
Poisons are implemented as standard middleware function with the same interface as connect/express middleware.
Some poisons are not trivial to implement so you've to be familiar with node.js http module and its API.
Here's a simple example of a server latency poison:
var toxy = require('toxy')
function customLatencyPoison (delay) {
// We name the function since toxy uses it as identifier to get/disable/remove it in the future
return function customLatency (req, res, next) {
var timeout = setTimeout(process, delay)
req.once('close', onClose)
function onClose () {
clearTimeout(timeout)
next('client connection closed')
}
function process () {
req.removeListener('close', onClose)
next()
}
}
}
var proxy = toxy()
// Register and enable the poison
proxy
.get('/foo')
.poison(customLatencyPoison(2000))
You can optionally extend the build-in poisons with your own poisons:
toxy.addPoison(customLatency)
// Then you can use it as a built-in poison
proxy
.get('/foo')
.poison(toxy.poisons.customLatency)
For featured real example, take a look to the built-in poisons implementation.
Rules
Rules are simple validation filters which inspects an incoming or outgoing HTTP traffic in order to determine, given a certain rules (e.g: matches the method, headers, query params, body...), if the current HTTP transaction should be poisoned or not, based on the resolution value of the rule.
Rules are useful to compose, decouple and reuse logic among different scenarios of poisoning. Rules can be applied to global, route or even poison scope, and it also applies to both phases of poisoning.
Rules are executed in FIFO order. Their evaluation logic is equivalent to Array#every()
in JavaScript: all the rules must pass in order to proceed with the poisoning.
Built-in rules
Probability
Nameprobability Poison Phaseincoming / outgoing
Enables the rule by a random probabilistic. Useful for random poisoning.
Arguments:
- percentage
number
- Percentage of filtering. Default50
var rule = toxy.rules.probability(85)
toxy.rule(rule)
Time threshold
NametimeThreshold Poison Phaseincoming / outgoing
Simple rule to enable poisons based on a specific time threshold and duration. For instance, you can enable a certain poisons during a specific amount of time (e.g: 1 second) within a time threshold (e.g: 1 minute).
Arguments:
- options
object
- duration
number
- Enable time interval in milliseconds. Default to1000
- threshold
number
- Time threshold in milliseconds to wait before re-enable the poisoning. Default to10000
- duration
// Enable the poisoning only 100 milliseconds per each 10 seconds
proxy.rule(toxy.rules.timeThreshold(100))
// Enable poisoning during 1 second every minute
proxy.rule(toxy.rules.timeThreshold({ duration: 1000, period: 1000 * 60 }))
Method
Namemethod Poison Phaseincoming / outgoing
Filters by HTTP method.
Arguments:
- method
string|array
- Method or methods to filter.
var method = toxy.rules.method(['GET', 'POST'])
toxy.rule(method)
Content Type
Filters by content type header. It should be present
Arguments:
- value
string|regexp
- Header value to match.
var rule = toxy.rules.contentType('application/json')
toxy.rule(rule)
Headers
Nameheaders Poison Phaseincoming / outgoing
Filter by request headers.
Arguments:
- headers
object
- Headers to match by key-value pair.value
can be a string, regexp,boolean
orfunction(headerValue, headerName) => boolean
var matchHeaders = {
'content-type': /^application/\json/i,
'server': true, // meaning it should be present,
'accept': function (value, key) {
return value.indexOf('text') !== -1
}
}
var rule = toxy.rules.headers(matchHeaders)
toxy.rule(rule)
Response headers
NameresponseHeaders Poison Phaseoutgoing
Filter by response headers from target server. Same as headers
rule, but evaluating the outgoing request.
Arguments:
- headers
object
- Headers to match by key-value pair.value
can be astring
,regexp
,boolean
orfunction(headerValue, headerName) => boolean
var matchHeaders = {
'content-type': /^application/\json/i,
'server': true, // meaning it should be present,
'accept': function (value, key) {
return value.indexOf('text') !== -1
}
}
var rule = toxy.rules.responseHeaders(matchHeaders)
toxy.rule(rule)
Body
Namebody Poison Phaseincoming / outgoing
Match incoming body payload by a given string
, regexp
or custom filter function
.
This rule is pretty simple, so for complex body matching (e.g: validating against a JSON schema) you should probably write your own rule.
Arguments:
- match
string|regexp|function
- Body content to match - limit
string
- Optional. Body limit in human size. E.g:5mb
- encoding
string
- Body encoding. Default toutf8
- length
number
- Body length. Default taken fromContent-Length
header
var rule = toxy.rules.body('"hello":"world"')
toxy.rule(rule)
// Or using a filter function returning a boolean
var rule = toxy.rules.body(function contains(body) {
return body.indexOf('hello') !== -1
})
toxy.rule(rule)
Response body
NameresponseBody Poison Phaseoutgoing
Match outgoing body payload by a given string
, regexp
or custom filter function
.
Arguments:
- match
string|regexp|function
- Body content to match - encoding
string
- Body encoding. Default toutf8
- length
number
- Body length. Default taken fromContent-Length
header
var rule = toxy.rules.responseBody('"hello":"world"')
toxy.rule(rule)
// Or using a filter function returning a boolean
var rule = toxy.rules.responseBody(function contains(body) {
return body.indexOf('hello') !== -1
})
toxy.rule(rule)
Response status
NameresponseStatus Poison Phaseoutgoing
Evaluates the response status from the target server. Only applicable to outgoing poisons.
Arguments:
- range
array
- Pair of status code range to match. Default[200, 300]
. - lower
number
- Compare status aslower than
operation. Default tonull
. - higher
number
- Compare status ashigher than
operation. Default tonull
. - value
number
- Status code to match using a strict equality comparison. Defaultnull
. - include
array
- Unordered list of status codes to match. Useful to specify custom status. Defaultnull
// Strict evaluation of the status code
toxy.rule(toxy.rules.responseBody(200))
// Using a range of valid status
toxy.rule(toxy.rules.responseBody([200, 204]))
// Using relational comparison
toxy.rule(toxy.rules.responseBody({ higher: 199, lower: 400 }))
// Custom unordered status code to match
toxy.rule(toxy.rules.responseBody({ include: [200, 204, 400, 404] }))
Third-party rules
List of available third-party rules provided by the community. PR are welcome.
- IP - Enable/disable poisons based on the client IP address (supports CIDR, subnets, ranges...).
How to write rules
Rules are simple middleware functions that resolve asynchronously with a boolean
value to determine if a given HTTP transaction should be ignored when poisoning.
Your rule must resolve with a boolean
param calling the next(err,
shouldIgnore)
function in the middleware, passing a true
value if the rule has not matches and should not apply the poisoning, and therefore continuing with the next middleware stack.
Here's an example of a simple rule matching the HTTP method to determine if:
var toxy = require('toxy')
function customMethodRule(matchMethod) {
/**
* We name the function since it's used by toxy to identify the rule to get/disable/remove it in the future
*/
return function customMethodRule(req, res, next) {
var shouldIgnore = req.method !== matchMethod
next(null, shouldIgnore)
}
}
var proxy = toxy()
// Register and enable the rule
proxy
.get('/foo')
.rule(customMethodRule('GET'))
.poison(/* ... */)
You can optionally extend the build-in rules with your own rules:
toxy.addRule(customMethodRule)
// Then you can use it as a built-in poison
proxy
.get('/foo')
.rules(toxy.rules.customMethodRule)
For featured real examples, take a look to the built-in rules implementation
Programmatic API
toxy
API is completely built on top the rocky API. In other words, you can use any of the methods, features and middleware layer natively provided by rocky
.
toxy([ options ])
Create a new toxy
proxy.
For supported options
, please see rocky documentation
var toxy = require('toxy')
toxy({ forward: 'http://server.net', timeout: 30000 })
toxy
.get('/foo')
.poison(toxy.poisons.latency(1000))
.withRule(toxy.rules.contentType('json'))
.forward('http://foo.server')
toxy
.post('/bar')
.poison(toxy.poisons.bandwidth({ bps: 1024 }))
.withRule(toxy.rules.probability(50))
.forward('http://bar.server')
toxy
.post('/boo')
.outgoingPoison(toxy.poisons.bandwidth({ bps: 1024 }))
.withRule(toxy.rules.method('GET'))
.forward('http://boo.server')
toxy.all('/*')
toxy.listen(3000)
toxy#get(path, [ middleware... ])
Return: ToxyRoute
Register a new route for GET
method.
toxy#post(path, [ middleware... ])
Return: ToxyRoute
Register a new route for POST
method.
toxy#put(path, [ middleware... ])
Return: ToxyRoute
Register a new route for PUT
method.
toxy#patch(path, [ middleware... ])
Return: ToxyRoute
toxy#delete(path, [ middleware... ])
Return: ToxyRoute
Register a new route for DELETE
method.
toxy#head(path, [ middleware... ])
Return: ToxyRoute
Register a new route for HEAD
method.
toxy#all(path, [ middleware... ])
Return: ToxyRoute
Register a new route for any method.
toxy#poisons =>
Object
Exposes a map with the built-in poisons. Prototype alias to toxy.poisons
toxy#rules =>
Object
Exposes a map with the built-in poisons. Prototype alias to toxy.rules
toxy#forward(url)
Define a URL to forward the incoming traffic received by the proxy.
toxy#balance(urls)
Forward to multiple servers balancing among them.
For more information, see the rocky docs
toxy#replay(url)
Define a new replay server. You can call this method multiple times to define multiple replay servers.
For more information, see the rocky docs
toxy#use(middleware)
Plug in a custom middleware.
For more information, see the rocky docs.
toxy#useResponse(middleware)
Plug in a response outgoing traffic middleware.
For more information, see the rocky docs.
toxy#useReplay(middleware)
Plug in a replay traffic middleware.
For more information, see the rocky docs
toxy#requestBody(middleware)
Intercept incoming request body. Useful to modify it on the fly.
For more information, see the rocky docs
toxy#responseBody(middleware)
Intercept outgoing response body. Useful to modify it on the fly.
For more information, see the rocky docs
toxy#middleware()
Return a standard middleware to use with connect/express.
toxy#host(host)
Overwrite the Host
header with a custom value. Similar to forwardHost
option.
toxy#redirect(url)
Redirect traffic to the given URL.
toxy#findRoute(routeIdOrPath, [ method ])
Find a route by ID or path and method.
toxy#listen(port)
Starts the built-in HTTP server, listening on a specific TCP port.
toxy#close([ callback ])
Closes the HTTP server.
toxy#poison(poison)
Alias: usePoison
, useIncomingPoison
Register a new poison to infect incoming traffic.
toxy#outgoingPoison(poison)
Alias: useOutgoingPoison
, responsePoison
Register a new poison to infect outgoing traffic.
toxy#rule(rule)
Alias: useRule
Register a new rule.
toxy#withRule(rule)
Aliases: ifRule
, whenRule
, poisonRule
, poisonFilter
Apply a new rule for the latest registered poison.
toxy#enable(poison)
Enable a poison by name identifier
toxy#disable(poison)
Disable a poison by name identifier
toxy#remove(poison)
Return: boolean
Remove an incoming traffic poison by name identifier or object reference.
toxy#removeOutgoing(poison)
Return: boolean
Remove an outgoing traffic poison by name identifier or object reference.
toxy#isEnabled(poison)
Return: boolean
Checks if a poison is enabled by name identifier.
toxy#disableAll()
Alias: disablePoisons
Disable all the registered poisons.
toxy#getPoison(name)
Return: Directive|null
Searches and retrieves a registered poison in the stack by name identifier.
toxy#getIncomingPoison(name)
Return: Directive|null
Searches and retrieves a registered incoming
poison in the stack by name identifier.
toxy#getOutgoingPoison(name)
Return: Directive|null
Searches and retrieves a registered outgoing
poison in the stack by name identifier.
toxy#getPoisons()
Return: array<Directive>
Return an array of registered poisons.
toxy#getIncomingPoisons()
Return: array<Directive>
Return an array of registered incoming
poisons.
toxy#getOutgoingPoisons()
Return: array<Directive>
Return an array of registered outgoing
poisons.
toxy#flush()
Alias: flushPoisons
Remove all the registered poisons for both incoming and outgoing traffic flows.
toxy#enableRule(rule)
Enable a rule by name identifier.
toxy#disableRule(rule)
Disable a rule by name identifier.
toxy#removeRule(rule)
Return: boolean
Remove a rule by name identifier.
toxy#disableRules()
Disable all the registered rules.
toxy#isRuleEnabled(rule)
Return: boolean
Checks if the given rule is enabled by name identifier.
toxy#getRule(rule)
Return: Directive|null
Searches and retrieves a registered rule in the stack by name identifier.
toxy#getRules()
Return: array<Directive>
Returns and array with the registered rules wrapped as Directive
.
toxy#flushRules()
Remove all the rules.
toxy.addPoison(name, fn)
Extend built-in poisons.
toxy.addRule(name, fn)
Extend built-in rules.
toxy.poisons =>
Object
Exposes a map with the built-in poisons.
toxy.rules =>
Object
Exposes a map with the built-in rules.
toxy.VERSION =>
String
Current toxy semantic version.
ToxyRoute
ToxyRoute
exposes the same interface as Toxy
global interface, it just adds some route level additional methods.
Further actions you perform against the ToxyRoute
API will only be applicable at route-level (nested). In other words: you already know the API.
This example will probably clarify possible doubts:
var toxy = require('toxy')
var proxy = toxy()
// Now using the global API
proxy
.forward('http://server.net')
.poison(toxy.poisons.bandwidth({ bps: 1024 }))
.rule(toxy.rules.method('GET'))
// Now create a route
var route = proxy
.get('/foo')
.toPath('/bar') // Route-level API method
.host('server.net') // Route-level API method
.forward('http://new.server.net')
// Now using the ToxyRoute interface
route
.poison(toxy.poisons.bandwidth({ bps: 512 }))
.rule(toxy.rules.contentType('json'))
Directive(middlewareFn)
A convenient wrapper internally used for poisons and rules.
Normally you don't need to know this interface, but for hacking purposes or more low-level actions might be useful.
Directive#enable()
Return: boolean
Directive#disable()
Return: boolean
Directive#isEnabled()
Return: boolean
Directive#rule(rule)
Alias: filter
Directive#handler()
Return: function(req, res, next)
HTTP API
The toxy
HTTP API follows the JSON API conventions, including resource based hypermedia linking.
Usage
For a featured use case, see the [admin server](examples/admin.js) example.
const toxy = require('toxy')
// Create the toxy admin server
var admin = toxy.admin({ cors: true })
admin.listen(9000)
// Create the toxy proxy
var proxy = toxy()
proxy.listen(3000)
// Add the toxy instance to be managed by the admin server
admin.manage(proxy)
// Then configure the proxy
proxy
.forward('http://my.target.net')
proxy
.get('/slow')
.poison(toxy.poisons.bandwidth({ bps: 1024 }))
// Handle the rest of the traffic
proxy
.all('/*')
.poison(toxy.poisons.bandwidth({ bps: 1024 * 5 }))
console.log('toxy proxy listening on port:', 3000)
console.log('toxy admin server listening on port:', 9000)
For more details about the admin programmatic API, see below.
Authorization
The HTTP API can be protected to unauthorized clients.
Authorized clients must define the API key token via API-Key
or Authorization
HTTP headers.
To enable it, you should simple pass the following options to toxy
admin server:
const toxy = require('toxy')
const opts = { apiKey: 's3cr3t' }
var admin = toxy.admin(opts)
admin.listen(9000)
console.log('protected toxy admin server listening on port:', 9000)
API
Hierarchy:
- Servers - Managed
toxy
instances- Rules - Globally applied rules
- Poisons - Globally applied poisons
- Rules - Poison-specific rules
- Routes - List of configured routes
- Route - Object for each specific route
- Rules - Route-level registered rules
- Poisons - Route-level registered poisons
- Rules - Route-level poison-specific rules
GET /
Servers
GET /servers
GET /servers/:id
Rules
GET /servers/:id/rules
POST /servers/:id/rules
Accepts: application/json
Example payload:
{
"name": "method",
"options": "GET"
}
DELETE /servers/:id/rules
GET /servers/:id/rules/:id
DELETE /servers/:id/rules/:id
Poisons
GET /servers/:id/poison
POST /servers/:id/poisons
Accepts: application/json
Example payload:
{
"name": "latency",
"phase": "outgoing",
"options": { "jitter": 1000 }
}
DELETE /servers/:id/poisons
GET /servers/:id/poisons/:id
DELETE /servers/:id/poisons/:id
GET /servers/:id/poisons/:id/rules
POST /servers/:id/poisons/:id/rules
Accepts: application/json
Example payload:
{
"name": "method",
"options": "GET"
}
DELETE /servers/:id/poisons/:id/rules
GET /servers/:id/poisons/:id/rules/:id
DELETE /servers/:id/poisons/:id/rules/:id
Routes
GET /servers/:id/routes
POST /servers/:id/routes
Accepts: application/json
Example payload:
{
"path": "/foo", // Required
"method": "GET", // use ALL for all the methods
"forward": "http://my.server", // Optional custom forward server URL
}
DELETE /servers/:id/routes
GET /servers/:id/routes/:id
DELETE /servers/:id/routes/:id
Route rules
GET /servers/:id/routes/:id/rules
POST /servers/:id/routes/:id/rules
Accepts: application/json
Example payload:
{
"name": "method",
"options": "GET"
}
DELETE /servers/:id/routes/:id/rules
GET /servers/:id/routes/:id/rules/:id
DELETE /servers/:id/routes/:id/rules/:id
Route poisons
GET /servers/:id/routes/:id/poisons
POST /servers/:id/routes/:id/poisons
Accepts: application/json
Example payload:
{
"name": "latency",
"phase": "outgoing",
"options": { "jitter": 1000 }
}
DELETE /servers/:id/routes/:id/poisons
GET /servers/:id/routes/:id/poisons/:id
DELETE /servers/:id/routes/:id/poisons/:id
GET /servers/:id/routes/:id/poisons/:id/rules
POST /servers/:id/routes/:id/poisons/:id/rules
Accepts: application/json
Example payload:
{
"name": "method",
"options": "GET"
}
DELETE /servers/:id/routes/:id/poisons/:id/rules
GET /servers/:id/routes/:id/poisons/:id/rules/:id
DELETE /servers/:id/routes/:id/poisons/:id/rules/:id
Programmatic API
The built-in HTTP admin server also provides a simple interface open to extensibility and hacking purposes. For instance, you can plug in additional middleware to the admin server, or register new routes.
toxy.admin([ opts ])
Returns: Admin
Supported options:
- apiKey
string
- Optional API key to protect the server - port
number
- Optional. TCP port to listen - cors
boolean
- Enable CORS for web browser access - middleware
array<function>
- Plug in additional middleware - ssl
object
- Node.js HTTPS server TLS options.
Admin#listen([ port, host ])
Start listening on the network.
Admin#manage(toxy)
Manage a toxy
server instance.
Admin#find(toxy)
Find a toxy instance. Accepts toxy server ID or toxy instance.
Admin#remove(toxy)
Stop managing a toxy instance.
Admin#use(...middleware)
Register a middleware.
Admin#param(...middleware)
Register a param middleware.
Admin#get(path, [ ...middleware ])
Register a GET route.
Admin#post(path, [ ...middleware ])
Register a POST route.
Admin#put(path, [ ...middleware ])
Register a PUT route.
Admin#delete(path, [ ...middleware ])
Register a DELETE route.
Admin#patch(path, [ ...middleware ])
Register a PATCH route.
Admin#all(path, [ ...middleware ])
Register a route accepting any HTTP method.
Admin#middleware(req, res, next)
Middleware to plug in with connect/express.
Admin#close(cb)
Stop the server.
License
MIT - Tomas Aparicio
*Note that all licence references and agreements mentioned in the toxy README section above
are relevant to that project's source code only.