Spectre introduces a completely new way of thinking about passwords.
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Every attempt to solve the problem of passwords by means of storing countless unique site-specific tokens inevitably leads to complexity, loss of control, and security compromise.
Spectre flips the problem on its head by rejecting the notion of statefulness and giving the user a single secret to remember. The Spectre algorithm then derives whatever secret tokens you need.
site-password = SPECTRE( user-name, user-secret, site-name )
In short (simplified):
user-key = SCRYPT( user-name, user-secret )
site-key = HMAC-SHA-256( site-name . site-counter, user-key )
site-password = PW( site-template, site-key )
Consequently, Spectre can derive any site-password
given the necessary base ingredients (ie. the user-name
, user-secret
, site-name
, site-counter
and site-template
).
As an example:
user-name = Robert Lee Mitchell
user-secret = banana colored duckling
site-name = twitter.com
site-counter = 1
site-template = Long Password
site-password = PozoLalv0_Yelo
We standardize user-name
as your full legal name, site-name
as the domain name that hosts the site, site-counter
to 1
(unless you explicitly increment it) and site-template
to Long Password
; as a result the only token the user really needs to remember is their user-secret
.
Spectre's algorithm and implementation is fully documented and licensed Free Software under the (GPLv3)[LICENSE].
The source is broken down into several components, each hosted in their own repository. Submodules are used to correlate dependencies.
- api: The algorithm's reference implementation and API library. There is a C, Java and W3C interface.
- cli: The official command-line interface for POSIX systems.
- desktop: The official cross-platform desktop application.
- macos: The official Apple macOS desktop application.
- ios: The official Apple iOS mobile application.
- android: The official Google Android mobile application.
- web: The official cross-platform web application.
- www: The Spectre homepage.
This repository hosts the POSIX command-line interface.
To build the code to run on your specific system, run the build
script:
./build
Note that the build depends on your system having certain dependencies already installed.
By default, you'll need to have at least libsodium
, libjson-c
and libncurses
installed.
Missing dependencies will be indicated by the script.
The build script comes with a default configuration which can be adjusted. Full details on the build script are available by opening the build script file.
[targets='...'] [spectre_feature=0|1 ...] [CFLAGS='...'] [LDFLAGS='...'] ./build [cc arguments ...]
By default, the build script only builds the spectre
target. You can specify other targets or all
to build all available targets. These are the currently available targets:
spectre
: The main app. Options: needed:spectre_sodium
, optional:spectre_color
,spectre_json
.spectre-bench
: A benchmark utility. Options: needed:spectre_sodium
.spectre-tests
: An algorithm test suite. Options: needed:spectre_sodium
,spectre_xml
.
It is smart to build the test suite along with the app, eg.:
targets='spectre spectre-tests' ./build
The options determine the dependencies that the build will require. The following exist:
spectre_sodium
: Use Sodium for the crypto implementation. It needs libsodium.spectre_json
: Support JSON-based user configuration format. It needs libjson-c.spectre_color
: Show a colorized identicon. It needs libncurses.spectre_xml
: Support XML parsing. It needs libxml2.
By default, all options are enabled. Each option can be disabled or enabled explicitly by prefixing the build command with an assignment of it to 0
or 1
, eg.:
spectre_color=0 ./build
As a result of this command, you'd build the spectre
target (which supports spectre_color
) without color support. The build no longer requires libncurses
but the resulting spectre
binary will not have support for colorized identicons.
You can also pass CFLAGS or LDFLAGS to the build, or extra custom compiler arguments as arguments to the build script. For instance, to add a custom library search path, you could use:
LDFLAGS='-L/usr/local/lib' ./build
There is also a cmake configuration you can use to build instead of using the ./build
script. While ./build
depends on Bash and is geared toward POSIX systems, cmake is platform-independent. You should use your platform's cmake tools to continue. On POSIX systems, you should be able to use:
cmake . && make
To get a list of options supported by the cmake configuration, use:
cmake -LH
Options can be toggled like so:
cmake -DUSE_COLOR=OFF -DBUILD_SPECTRE_TESTS=ON . && make
Once the client is built, you should run a test suite to make sure everything works as intended.
There are currently two test programs:
spectre-tests
: Tests the algorithm implementation.spectre-cli-tests
: Tests the CLI application.
The spectre-tests
program is only available if you enabled its target during build (see "Details" above).
The spectre-cli-tests
is a Bash shell script, hence depends on your system having Bash available.
Once you're happy with the result, you can install the spectre
application into your system's PATH
.
Generally, all you need to do is copy the spectre
file into a PATH directory, eg.:
cp spectre /usr/local/bin/
The directory that you should copy the spectre
file into will depend on your system. Also note that cp
is a POSIX command, if your system is not a POSIX system (eg. Windows) you'll need to adjust accordingly.
There is also an install
script to help with this process, though it is a Bash script and therefore requires that you have Bash installed:
./install
After installing, you should be able to run spectre
and use it from anywhere in the terminal:
spectre -h
spectre google.com