The MASQ project was forked from Substratum's Node project in order to carry on development after Substratum ceased operations in October of 2019. All credit for the original idea, the original design, and the first two years of MASQ's development belongs to Substratum.
The MASQ Network is an open-source network that allows anyone to allocate spare computing resources to make the internet a free and fair place for the entire world. It is a worldwide collection of nodes that securely delivers content without the need of a VPN or Tor.
Because there's no single authority delivering or monitoring content, censorship and geo-restricted sites won't be an issue on the MASQ Network. It doesn't matter where you live or what content you're accessing, everyone in the world sees the exact same content.
MASQ Node is the foundation of the MASQ Network.
It is what the average user runs to earn MASQ and dedicate some of their computers' resources towards the network. People who run a MASQ Node can be rewarded with cryptocurrency for each time they serve content.
MASQ Nodes work together to relay CORES packages and content on the network. When a user requests a site, nodes use artificial intelligence to find the most expedient and secure way to get the information to that user. Multiple nodes work to fulfill a single request in order to maintain a necessary level of anonymity.
MASQ Node software is written in Rust.
We use rustup
to install what we need (e.g. rustc
, cargo
, etc). If you don't already have it, you can get it from
the rustup
installation page.
To keep our source code consistently formatted, we use rustfmt
, which is a plugin for cargo
. If you want to use our
build scripts to build the code, you'll need to install this plugin in your Rust environment.
(We use the stable version, not the nightly version.)
Some Linux distributions (notably Ubuntu ≥16.04 Desktop) have an incompatibility with MASQ Node. If you think you might be affected, see The Port 53 Problem for more information.
If you're using Windows, you'll need to run the build scripts using git-bash
. If you've cloned this repository, you
probably already have git-bash
; but if you don't, look at
How To Install git-bash
On Windows.
Also, you will need an Internet connection when you build so that cargo
can pull down dependencies.
We build and run tests for MASQ Node using bash
scripts located in the ci
directory of each sub-project.
To clean, build, and run tests for all sub-projects in one step, start at the top level of the project (the directory
is probably called Node
).
First, please note that at a few points during the process, the build will stop and ask you for your password. This is because some of the integration tests need to run with root privilege, to change DNS settings, open low-numbered ports, etc. (It is possible but not easy to build without giving root privilege or running integration tests; if this turns out to be something people want to do, we'll make it easier.)
Open a standard terminal window and type:
$ ci/all.sh
MASQ Node utilizes a Web3 crate to facilitate Blockchain communications. The Web3 crate depends on OpenSSL for TLS
when connecting over HTTPS. Some setup for a proper Windows build environment may be needed. You have two choices: a) install
OpenSSL and allow it to be dynamically linked at compile time b) download an OpenSSL binary and set OPENSSL_STATIC
and allow it to be statically linked at compile time.
See the Rust OpenSSL Documentation for more information on configuring this
environment variable. If it is not set, dynamic linking is assumed. The binaries we distribute are statically linked.
Open a git-bash
window as administrator and type:
$ ci/all.sh
Wondering where all our tests are? The convention in Rust is to write unit tests in same file as the source, in a module at the end.
Once you've successfully built the node
executable, you can run MASQ Node from the command line.
Currently, your DNS must be set to 127.0.0.1
in order to route traffic through MASQ Node; then it must be set back to
whatever it was before when you're done with MASQ Node and you want to get back on the normal Internet.
The MASQ Node software includes a
multi-platform DNS utility that you can use
to subvert your DNS settings to 127.0.0.1
, like this:
$ cd <path to workspace>
$ sudo Node/dns_utility/target/release/dns_utility subvert
If you have trouble with dns_utility
or you'd rather make your DNS configuration changes manually, look for
instructions for your platform.
Once your DNS is successfully subverted, you can start the MASQ Node itself. Currently, there are two major ways the MASQ Node can run: zero-hop and decentralized.
A zero-hop MASQ Node is very easy to start, and it's self-contained: every zero-hop MASQ Node has an entire MASQ Network inside it. However, it doesn't communicate with any other MASQ Nodes. Every network transaction is zero-hop: your MASQ Node is the Client node, the Originating node, and the Exit node all at once. A zero-hop MASQ Node is good for exploring the system and verifying its compatibility with your hardware, but it doesn't relay traffic through any other MASQ Nodes.
A decentralized MASQ Node is considerably more difficult to start, because you have to give it much more information to get it running; however, it can route your traffic through other MASQ Nodes running elsewhere in the world to get it to and from your destination.
Important Note: Please remember that at the moment neither zero-hop MASQ Nodes nor decentralized MASQ Nodes are secure or private in any sense of the word. Please don't use them for any kind of sensitive traffic at this stage.
There are three ways to get configuration information into a MASQ Node on startup. In decreasing level of priority, these are:
- the command line
- the shell environment
- the configuration file
Any piece of configuration information can be provided through any of these channels, with one exception: the path to the configuration file cannot be taken from the configuration file. (It can be provided there, but it will never be taken from there.) Configuration information provided in the environment will supersede conflicting information provided in the configuration file, and information provided on the command line will supersede conflicting information from both of the other sources.
This is the easiest. In this file, all our documentation of the configuration options shows you how to provide them on the command line. Keep in mind, though, that command lines tend to be preserved by the operating system for display to users who want to see process lists. Therefore, the command line may not be the best place to specify sensitive or secret configuration information. (Nothing prevents you from doing this, though, so be careful.)
If you see that the command line accepts a parameter such as --clandestine-port 1234
, then you can supply that same
parameter in the environment by setting the MASQ_CLANDESTINE_PORT
environment variable to 1234
. Note that you need
to remove the initial --
prefix, convert the name to all uppercase, and add a MASQ_
prefix to namespace the parameter
against other applications that might look for a similar variable.
The configuration file, by default, resides in the data directory (see the --data-directory
parameter for further
information) and is named config.toml
. If you leave the configuration file unspecified, this is where MASQ Node
will look for it. If it's found, it will be used; if it's not, MASQ Node will act as though it had been found but empty.
But if you want to use a different file, specify it either as --config-file
on the command line or as MASQ_CONFIG_FILE
in the environment. If you specify a relative filename, MASQ Node will look for the configuration file in the data
directory; if you specify an absolute filename, MASQ Node will not use the data directory to find the configuration
file.
The configuration file should be in TOML format. TOML is a competitor to other formats like JSON and YAML, but the
MASQ Node uses only scalar settings, not arrays or tables. If you see that the command line accepts a parameter such
as --clandestine-port 1234
, then you can supply that same parameter in the configuration file by adding the following
line to it:
clandestine-port = "1234"
Note that you need to remove the initial --
prefix. All the configuration parameters will work if you supply their
values as double-quoted strings, but if they're numeric values, you can supply them numerically as well--for example,
clandestine-port = 1234
Keep in mind that a configuration file is persistent information: anyone who has or can gain read access to the file can read whatever's in it, whether MASQ Node is running or not. Therefore, the configuration file may not be the best place to specify sensitive or secret configuration information. (Nothing prevents you from doing this, though, so be careful.)
Here's all you need to start your zero-hop MASQ Node:
$ sudo Node/node/target/release/MASQNode --dns-servers 1.1.1.1
In the above example, we're using Cloudflare's DNS, 1.1.1.1
, but you can use your preferred DNS.
If you can't choose just one favorite DNS, you can also specify multiple ones, separated by a comma but no space (,
).
Why do we specify --dns-servers
? MASQ Nodes still need to talk to the greater Internet.
See the ProxyClient README
for more information.
Decentralized operation is much more complex than zero-hop operation, so there are many more options that are available.
In order to run decentralized, MASQ Node needs at least an earning wallet (an Ethereum wallet into which other nodes will make payments for the services your node provides). If you plan to use your node to consume data with a browser or other network application, it will also need to be configured with a funded consuming wallet (an Ethereum wallet from which it will make payments for the services other nodes provide).
Configuring wallets is not a trivial task, so MASQ Node provides two special execution modes to help you do this, in addition to the normal long-running Service mode.
-
Generate mode - When you start MASQ Node in Generate mode, it will generate a new BIP39 mnemonic phrase compatible with wallet software (e.g. Metamask, MEW) or hardware devices (e.g. Ledger, Trezor) and new earning and consuming wallets for you based on BIP44 derivation paths. It will display this information on the console, and immediately terminate. You MUST record the mnemonic phrase exactly as displayed along with the mnemonic passphrase you provide and keep it in a secure location. When it is displayed, that is your only opportunity to record the words. For security purposes they cannot be displayed again. Record the words on paper, etch them in metal or stone and secure them in a safe deposit box or other secure offsite location. Do not run with administrative privileges (
sudo
on Linux and macOS, a command window started as Administrator in Windows). -
Recover mode - If you already have existing earning and consuming wallets that you'd like MASQ Node to use, you can start it in Recover mode and tell it about those wallets. It will store the information you give it and immediately terminate. Do not run with administrative privileges (
sudo
on Linux and macOS, a command window started as Administrator in Windows). -
Service mode - When started in Service mode, MASQ Node will come up, join the MASQ Network, and start serving and consuming clandestine data until you stop it. Since Service mode requires listening on low-numbered restricted ports, starting MASQ Node in Service mode requires administrative privilege (
sudo
on Linux and macOS, a command window started as Administrator in Windows).
-
--generate-wallet
(Generate mode only) This flag tells MASQ Node that it will be operating in Generate mode. No value can be supplied for this flag, and it cannot be given in the environment. -
--recover-wallet
(Recover mode only) This flag tells MASQ Node that it will be operating in Recover mode. No value can be supplied for this flag, and it cannot be given in the environment. -
--help
Displays help for the mode you're running in. Used by itself, it will show help for Service mode; used with--generate-wallet
or--recover-wallet
it will show help for the appropriate initialization mode. Cannot be specified in the environment. -
--data-directory <DIRECTORY>
Operates the same for initialization modes as for Service mode. See below. -
--consuming-wallet <BIP44 DERIVATION PATH>
The HD derivation path for the consuming wallet that either you're directing to be generated (Generate mode) or you already have (Recover mode). It defaults to m/44'/60'/0'/0/0. Note that a derivation path will almost always have single quotes in it, so double-quote it on the command line to avoid unpleasantness. -
--earning-wallet <WALLET-ADDRESS> | <BIP44 DERIVATION PATH>
If you specify this with an Ethereum address ("0x" followed by 40 hexadecimal digits), MASQ Node will use the address to identify your earning wallet. If you specify a derivation path, MASQ Node will use the mnemonic phrase (either the one you specify in Recover mode or the one node generates in Generate mode) and this derivation path to compute the address of your earning wallet. If you don't specify--earning-wallet
at all, node will use a default of m/44'/60'/0'/0/1. Note that a derivation path will almost always have single quotes in it, so double-quote it on the command line to avoid unpleasantness. -
--language <English | 中文(简体) | 中文(繁體) | Français | Italiano | 日本語 | 한국어 | Español>
HD wallets spring from a single master keypair, which takes friendly form as a "mnemonic phrase" consisting of some number of standardized words in a particular order. Each word represents a particular bit pattern in the keypair. MASQ Node supports mnemonic phrases in a variety of languages. Specify the language in which you wish the mnemonic phrase to be generated (Generate mode) or in which you wish to supply the mnemonic phrase (Recover mode) with the--language
parameter. Defaults to English. -
--word-count <12 | 15 | 18 | 21 | 24>
(Generate mode only) The mnemonic phrase that represents your master keypair can have different numbers of words in it. Shorter phrases are easier to remember; longer phrases are more secure. This is the number of words you want to be in the mnemonic phrase MASQ Node generates for you. Default is 12 for the Ropsten testnet, and 24 for the Ethereum mainnet. -
--mnemonic <BIP39 WORDS>
(Recover mode only) Specify the mnemonic phrase from which the consuming and earning wallets are derived. Remember to double-quote the phrase. Do not include the mnemonic passphrase here. Keep in mind that this is highly sensitive information; if it is compromised, the entire derivation tree is compromised. You can provide it on the command line if you wish, but keep in mind that command lines can frequently be seen by anyone who has enough privilege to get a list of running processes on the system. If you start MASQ Node in Recover mode and don't supply a--mnemonic
, you'll be prompted to type it in at the console. This is much safer. -
--mnemonic-passphrase <MNEMONIC-PASSPHRASE>
This is a word or phrase that you make up that is used along with the mnemonic passphrase to generate the keypair that will serve as the root of your derivation tree. If you're in Recover mode and the mnemonic phrase you're entering doesn't have a mnemonic passphrase, you can leave it blank, but if you're in Generate mode we recommend that you select a passphrase to further obfuscate your seed. You'll only have to enter this whenever you generate or specify your mnemonic phrase. It's sensitive information, and if you don't specify it on the command line, you'll be prompted for it at the console. This is much safer. -
--wallet-password <PASSWORD>
MASQ Node has to store your root keypair in a database on disk. However, since it's sensitive information, it's important that it not be available to anyone who might hack into or steal your computer. Therefore, MASQ Node needs to use a password to encrypt the key. MASQ Node won't store the password, so you'll need to choose it when you initialize in Generate or Recover mode, and then supply it again whenever it's needed in Service mode.
-
--help
Displays command help and stops. Does not require administrative privilege. Cannot be specified in the environment or config file. -
--version
Displays the currently-running version of MASQ Node and stops. Does not require administrative privilege. Cannot be specified in the environment or config file. -
--blockchain-service-url <URL>
A required URL that should point to an Infura, Geth, or Parity HTTP endpoint. Eventually, MASQ Node will direct blockchain traffic through the MASQ Network when the parameter is not specified, allowing other nodes to talk to the blockchain on your behalf. -
--chain <dev | mainnet | ropsten>
The blockchain network MASQ Node will configure itself to use. You must ensure the Ethereum client specified by --blockchain-service-url communicates with the same blockchain network. -
--ip <IP ADDRESS>
This is the public IP address of your MASQ Node: that is, the IP address at which other MASQ Nodes can contact yours. If you're in a fairly standard residential situation, then this will be the IP address issued to your router by your ISP, and in order to receive data you'll need to create holes in your router's firewall to enable incoming data to reach you on your clandestine ports (see below). In the future, this will be taken care of for you (if you haven't turned off UPnP on your router), but right now it's manual. -
--dns-servers <IP ADDRESS>,...
This is the same list of DNS servers needed for zero-hop operation. Whenever your MASQ Node is used as an exit node, it will contact these DNS servers to find the host the client is trying to reach. -
--neighbors <PUBLIC KEY>:<IP ADDRESS>:<PORT>[;<PORT>;...][,<PUBLIC KEY>:<IP ADDRESS>:<PORT>[;<PORT>;...],...
This is how you tell MASQ Node about its initial neighbors. You can specify as many neighbors as you like, with the descriptors separated by commas but no spaces. The<PUBLIC KEY>
in a descriptor is the Base64-encoded public key of the neighbor in question. The<IP ADDRESS>
is the public IP address of that neighbor, and the<PORT>
numbers are the clandestine ports on which the neighbor is listening. If the neighbor node is one you're running yourself, you'll see it print this information to the console when it comes up. If it's somewhere else on the Internet, you'll probably receive this information in an email or chat message to copy/paste onto your command line. -
--clandestine-port <PORT>
This is an optional parameter. If you don't specify a clandestine port, your node will use the same clandestine port it used last time it ran, if that port is still available. If the port is no longer available, MASQ Node will refuse to start until either it is available or until you specify a--clandestine-port
, whereupon it will use the new port every time it starts. If it's a new installation, it will select a random unused clandestine port between 1025 and 9999, and use that every time. Whenever you specify--clandestine-port
, the port you specify will keep being used until you reinstall or specify a different one. You can specify any port between 1025 and 65535. Whatever the clandestine port is, it will be printed in the log and to the console as part of the node descriptor when MASQ Node starts up. Note: This is a temporary parameter; the concept of a special clandestine port will go away someday, and node descriptors will look different. -
--log-level <off | error | warn | info | debug | trace>
MASQ Node has the potential to log a lot of data. (A lot of data: a busy node can fill your disk in a few minutes.) This parameter allows you to specify how much of that potential will be realized.trace
will encourage MASQ Node to reach its full potential, and should probably only be used when you're going to run MASQ Node for a few seconds to try one thing that's been giving you problems, and then shut it off to look at the logs.error
logs only the most serious of errors, and the other values are in-between compromise points. Default iswarn
. -
--ui-port <PORT>
This is how you tell MASQ Node which port it should listen on for local WebSocket connections to the UI gateway. This allows MASQ Node to be controlled and inspected by other programs, such as the MASQ Node UI. The default port is 5333; in most cases, this will not need to be changed. -
--data-directory <DIRECTORY>
This is the directory in which MASQ Node will keep the state that needs to persist from run to run. If it's not specified, the default is$XDG_DATA_HOME/MASQ/<chain-name>
or$HOME/.local/share/MASQ/<chain-name>
on Linux,%APPDATA%\MASQ\<chain-name>
on Windows, and$HOME/Library/Application Support/MASQ/<chain-name>
on macOS wherechain-name
is eitherropsten
ormainnet
(see--chain
parameter for more information). If it is specified but doesn't exist, MASQ Node will try to create the directory and abort if it fails. If persistent state exists in the directory, but it was created by a version of MASQ Node that is incompatible with the version you're trying to start, MASQ Node will abort. If this is the case, either remove the existing state and restart MASQ Node, or specify a different--data-directory
directory. -
--config-file <FILENAME OR PATH>
Rather than specifying the same parameter values over and over when you start MASQ Node in Service mode, you can put parameters that rarely or never change in a TOML file as strings or numeric values. The entries in the config file should have exactly the same names they would have on the command line, without the--
prefix. For example, instead of specifying--dns-servers 1.1.1.1,8.8.8.8
on the command line, you could put
dns-servers = "1.1.1.1,8.8.8.8"
in the config file.
If you name the file
config.toml
and put it in either the default data directory or the directory specified by--data-directory
(see above), MASQ Node will find and employ it automatically. If it has a different name or location, specify that with--config-file
. If the path you specify is relative, it will be interpreted starting with the active data directory. If it's absolute, it will be evaluated without reference to the data directory. If you specify a--config-file
and MASQ Node can't find it, it will abort its startup with an error. -
--consuming-private-key <64-CHARACTER HEX KEY>
This allows you to specify the private key of your consuming wallet without having it related to your earning wallet by derivation path. While this method is fully functional, it's mostly useful for testing. If you do use it, keep in mind that your consuming wallet private key is sensitive information: anyone who gets hold of it can drain all your funds. It's best to specify it in the environment (as MASQ_CONSUMING_PRIVATE_KEY) rather than on the command line or in the config file. You won't be allowed to use this parameter if you've already specified a consuming wallet derivation path in Generate or Recover mode; and if you do use this parameter, you must specify exactly the same private key every time you run your MASQ Node. If you always use--consuming-private-key
and--earning-wallet
with an address, you can use MASQ Node in Service mode without having to go through Generate or Recover mode first, and without supplying a wallet password. -
--earning-wallet <WALLET-ADDRESS>
This is an Ethereum address ("0x" followed by 40 hexadecimal digits) which MASQ Node will use to identify your earning wallet. You must not have generated or recovered with an earning wallet derivation path, and you must always specify the same Ethereum address for your earning wallet. -
--gas-price <GAS-PRICE>
The gas price is the amount of Gwei you will pay per unit of gas used in a transaction.If you don't have an earning wallet set up at all, and you don't specify this either, a default earning wallet will be used, in which case the funds you earn will go to MASQ instead of to you: so unless you're in a philanthropic mood, you should be sure to set up or specify your earning wallet.
In order to run decentralized, the MASQ Node must know the IP address others can use to contact it. Therefore,
you must supply --ip
. If you don't supply --ip
, your node will come up in zero-hop mode and never route through
any other nodes.
If you're starting the very first MASQ Node in your MASQ network, then you don't have to tell your node about
any preexisting network; but otherwise, you'll need to specify --neighbors
so that your node will know how to join the
network that is already in place.
Your home network is behind your internet provider's router and a public IP address. Other nodes in the MASQ Network will contact your node through your public IP address, requiring at least one port to be forwarded on your router. The MASQ Node Gossip protocol "gossips" to other nodes the clandestine port you are listening on, and it is that port you will need to open. When your node is started it will write its descriptor to the console and the log, giving the clandestine port it is using; you will need to forward that port from your router to your computer's IP address.
Forwarding ports on your router is somewhat technical. At a minimum, you should know how to log in to your router in order to make changes to its configuration. The process is interchangeably called forwarding a port, opening a port, or mapping a port, and may be labeled as such in the router's interface. Assigning a static IP address for your computer will make this process easier, as otherwise your IP address can change each time your computer restarts or you restart the network interface. There are many guides that you can find on the Internet by searching for "Port Forwarding" or "How to Port Forwarding". Here is an example: PortForward.com
More information on the operation, care, and feeding of the Neighborhood is available in the neighborhood_subproject.
To terminate the MASQ Node, just press Ctrl-C in the terminal window. Then you'll still need to revert your machine's DNS settings:
$ sudo Node/dns_utility/target/release/dns_utility revert
This should have you using the Internet normally again.
However, if you've been running decentralized, you'll probably want to close the holes in your router's firewall. Don't leave them open against the next time you run: your node will pick different clandestine ports the next time.
MASQ Node, like any other piece of software, can encounter obstacles it cannot overcome in the process of trying to do what you ask it to do. It needs to be able to tell you about these insurmountable obstacles, but it lives in a place that makes this difficult. If it were a Web browser, it would have a window on which to display error messages. If it were a Web server it could send data describing the errors to your browser to display. But it's neither of these things; instead, it's crowded into a place in the protocol stack where neither the browser nor the server expects it to exist.
Therefore, certain error messages are a bit awkward to display, especially if they involve TLS connections. Let's look at how MASQ Node deals with certain kinds of errors.
An insecure HTTP connection is one that is based on a URL that begins with http://
(as opposed to https://
). The
fact that it is insecure means that MASQ Node (and every other process that handles the data) can intrude on the
data stream and make your browser display whatever they want it to, which may or may not be related to what the server
on the other end of the connection intended.
When errors occur, this is very useful for MASQ Node. If you request something from an HTTP server, and for some reason MASQ Node cannot relay your request to that server, or cannot relay the response from the server back to you, it will instead impersonate the server and create a counterfeit response describing the error, and display that to you instead of the server response it can't give you. (Don't worry: MASQ Node's impersonation of the server is deliberately very bad, so you can easily tell that the error is not coming from the server. You won't be misled). The error message will describe the problem and suggest ways it might be alleviated.
TLS (spoken over connections based on URLs that begin with https://
) is a much more difficult beast. Once a TLS
connection is set up between your browser and a server, MASQ Node cannot understand a single bit of the dataflow,
and it cannot modify a single bit of it without your browser throwing red alerts and refusing to show you the modified
data. This is good for you and your privacy, but it doesn't make it easy for MASQ Node to communicate with you
via the browser.
There is a small exception.
Once a TLS connection is set up, it's completely secure. But while it's being set up, before the encrypted tunnel has been established, there's a little MASQ Node can do. Specifically, it can inject what's called a TLS Alert into the stream of data, as long as it is injected very early. This TLS Alert has a single byte that MASQ Node can use to tell you about problems it has relaying your data. There are a number of predefined values this byte can take on, and MASQ Node has to pick one of these values: it can't make up its own.
If your browser is trying to load a page when the error occurs, you'll see a cryptic message in its window telling you that you're not going to get what you're after. The exact wording of the error depends on the exact type of the TLS Alert. If your browser is trying to communicate in the background when the error occurs, you probably won't see it on the screen; but if the browser stops responding, you can open its developer tools and check the JavaScript console; if MASQ Node sent a TLS Alert, you'll see it there.
Since the concerns of the MASQ Node aren't precisely the same as the concerns of a TLS endpoint, the correspondence can't always be made exact, so here are some specific TLS Alert values that MASQ Node produces in specific situations.
-
Routing Failure -
internal_error
: If your node is not yet "warmed up" enough in the MASQ Network to see a large enough neighborhood to be able to create a clandestine route that meets your specifications, it will raise a TLSinternal_error
Alert. This will probably be displayed by your browser as some sort of protocol error--which, strictly speaking, it is. If this happens, just wait awhile for your node and the MASQ Network to Gossip with each other and spread around the necessary information. Then try reloading the page. -
DNS Resolution Failure -
unrecognized_name
: Even though you contact websites at names likegoogle.com
andfacebook.com
, the real Internet operates on the basis of IP addresses (like172.217.6.14
and31.13.66.35
). Before it's useful for retrieving data, your server name has to be translated into an IP address. This is the job of a DNS server. Much of Internet censorship consists of crippling the DNS servers you have available to you so that they can't give you the correct IP address for the server name you're seeking. MASQ Node captures the DNS queries your browser makes and forwards them across the MASQ Network to some other node that hopefully has access to a non-censored DNS server that does know the IP address you want. But this is a complex task and it may fail. For example, perhaps you typed the server name wrong, and nobody knows an IP address it matches. Or perhaps your MASQ Node guessed wrong, and the exit node to which it forwarded your DNS query is also handicapped by a censored DNS and can't find it either. In either case, MASQ Node will send your browser a TLSunrecognized_name
alert, which your browser will probably present to you as some form of can't-find-host error. If you reload the page, MASQ Node will try to select a different exit node, if available--one that hasn't failed to resolve a DNS query--for the next attempt, which might bring you better fortune. Of course, if you have typed the name wrong, just reloading the page will take another innocent exit node out of circulation and make it even harder for you to get where you want to go.
We run tests on every push to master
on these platforms:
- Ubuntu 16.04 Desktop 64-bit
- MacOS High Sierra
- Windows 10 64-bit
MASQ Node doesn't reliably build on 32-bit Windows due to issues with the build tools for that platform. We recommend using a 64-bit version to build.
We do plan to release binaries that will run on 32-bit Windows, but they will likely be built on 64-bit Windows.
Copyright (c) 2019-2020, MASQ Network
Copyright (c) 2017-2019, Substratum LLC and/or its affiliates. All rights reserved.