\input texinfo @c -*-texinfo-*- @set VERSION 0.3 @setfilename ../../info/auth.info @settitle Emacs auth-source Library @value{VERSION} @include docstyle.texi @copying This file describes the Emacs auth-source library. Copyright @copyright{} 2008--2019 Free Software Foundation, Inc. @quotation Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover Texts being ``A GNU Manual,'' and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled ``GNU Free Documentation License''. (a) The FSF's Back-Cover Text is: ``You have the freedom to copy and modify this GNU manual.'' @end quotation @end copying @dircategory Emacs lisp libraries @direntry * Auth-source: (auth). The Emacs auth-source library. @end direntry @titlepage @ifset WEBHACKDEVEL @title Emacs auth-source Library (DEVELOPMENT VERSION) @end ifset @ifclear WEBHACKDEVEL @title Emacs auth-source Library @end ifclear @author by Ted Zlatanov @page @vskip 0pt plus 1filll @insertcopying @end titlepage @contents @ifnottex @node Top @top Emacs auth-source This manual describes the Emacs auth-source library. It is a way for multiple applications to share a single configuration (in Emacs and in files) for user convenience. @insertcopying @menu * Overview:: Overview of the auth-source library. * Help for users:: * Multiple GMail accounts with Gnus:: * Secret Service API:: * The Unix password store:: * Help for developers:: * GnuPG and EasyPG Assistant Configuration:: * GNU Free Documentation License:: The license for this documentation. * Index:: * Function Index:: * Variable Index:: @end menu @end ifnottex @node Overview @chapter Overview The auth-source library is simply a way for Emacs and Gnus, among others, to answer the old burning question ``What are my user name and password?'' (This is different from the old question about burning ``Where is the fire extinguisher, please?''.) The auth-source library supports more than just the user name or the password (known as the secret). Similarly, the auth-source library supports multiple storage backend, currently either the classic ``netrc'' backend, examples of which you can see later in this document, JSON files, the Secret Service API, and pass, the standard unix password manager. This is done with EIEIO-based backends and you can write your own if you want. @node Help for users @chapter Help for users ``Netrc'' files are a de facto standard. They look like this: @example machine @var{mymachine} login @var{myloginname} password @var{mypassword} port @var{myport} @end example The @code{machine} is the server (either a DNS name or an IP address). It's known as @var{:host} in @code{auth-source-search} queries. The @code{port} is the connection port or protocol. It's known as @var{:port} in @code{auth-source-search} queries. The @code{user} is the user name. It's known as @var{:user} in @code{auth-source-search} queries. You can also use @code{login} and @code{account}. You can also use this file to specify client certificates to use when setting up TLS connections. The format is: @example machine @var{mymachine} port @var{myport} key @var{key} cert @var{cert} @end example @var{key} and @var{cert} are filenames containing the key and certificate to use respectively. You can use spaces inside a password or other token by surrounding the token with either single or double quotes. You can use apostrophes inside a password or other token by surrounding it with double quotes, e.g., @code{"he'llo"}. Similarly you can use double quotes inside a password or other token by surrounding it with apostrophes, e.g., @code{'he"llo'}. You can't mix both (so a password or other token can't have both apostrophes and double quotes). All this is optional. You could just say (but we don't recommend it, we're just showing that it's possible) @example password @var{mypassword} @end example to use the same password everywhere. Again, @emph{DO NOT DO THIS} or you will be pwned as the kids say. ``Netrc'' files are usually called @file{.authinfo} or @file{.netrc}; nowadays @file{.authinfo} seems to be more popular and the auth-source library encourages this confusion by accepting both, as you'll see later. If you have problems with the search, set @code{auth-source-debug} to @code{'trivia} and see what host, port, and user the library is checking in the @file{*Messages*} buffer. Ditto for any other problems, your first step is always to see what's being checked. The second step, of course, is to write a blog entry about it and wait for the answer in the comments. You can customize the variable @code{auth-sources}. The following may be needed if you are using an older version of Emacs or if the auth-source library is not loaded for some other reason. @lisp (require 'auth-source) ;; probably not necessary (customize-variable 'auth-sources) ;; optional, do it once @end lisp @defvar auth-sources The @code{auth-sources} variable tells the auth-source library where your netrc files, Secret Service API collection items, or your password store live for a particular host and protocol. While you can get fancy, the default and simplest configuration is: @lisp ;;; old default: required :host and :port, not needed anymore (setq auth-sources '((:source "~/.authinfo.gpg" :host t :port t))) ;;; mostly equivalent (see below about fallbacks) but shorter: (setq auth-sources '((:source "~/.authinfo.gpg"))) ;;; even shorter and the @emph{default}: (setq auth-sources '("~/.authinfo.gpg" "~/.authinfo" "~/.netrc")) ;;; use the Secrets API @var{Login} collection ;;; (@pxref{Secret Service API}) (setq auth-sources '("secrets:Login")) ;;; use pass (@file{~/.password-store}) ;;; (@pxref{The Unix password store}) (setq auth-sources '(password-store)) ;;; JSON data in format [@{ "machine": "SERVER", ;;; "login": "USER", "password": "PASSWORD" @}...] (setq auth-sources '("~/.authinfo.json.gpg")) @end lisp By adding multiple entries to @code{auth-sources} with a particular host or protocol, you can have specific netrc files for that host or protocol. Usually this is unnecessary but may make sense if you have shared netrc files or some other unusual setup (90% of Emacs users have unusual setups and the remaining 10% are @emph{really} unusual). Here's a mixed example using two sources: @lisp (setq auth-sources '((:source (:secrets default) :host "myserver" :user "joe") "~/.authinfo.gpg")) @end lisp @end defvar If you don't customize @code{auth-sources}, you'll have to live with the defaults: the unencrypted netrc file @file{~/.authinfo} will be used for any host and any port. If that fails, any host and any port are looked up in the netrc file @file{~/.authinfo.gpg}, which is a GnuPG encrypted file (@pxref{GnuPG and EasyPG Assistant Configuration}). Finally, the unencrypted netrc file @file{~/.netrc} will be used for any host and any port. The typical netrc line example is without a port. @example machine YOURMACHINE login YOU password YOURPASSWORD @end example This will match any authentication port. Simple, right? But what if there's a SMTP server on port 433 of that machine that needs a different password from the IMAP server? @example machine YOURMACHINE login YOU password SMTPPASSWORD port 433 machine YOURMACHINE login YOU password GENERALPASSWORD @end example For url-auth authentication (HTTP/HTTPS), you need to put this in your netrc file: @example machine yourmachine.com:80 port http login testuser password testpass @end example This will match any realm and authentication method (basic or digest) over HTTP@. HTTPS is set up similarly. If you want finer controls, explore the url-auth source code and variables. For Tramp authentication, use: @example machine yourmachine.com port scp login testuser password testpass @end example Note that the port denotes the Tramp connection method. When you don't use a port entry, you match any Tramp method, as explained earlier. Since Tramp has about 88 connection methods, this may be necessary if you have an unusual (see earlier comment on those) setup. The netrc format is directly translated into JSON, if you are into that sort of thing. Just point to a JSON file with entries like this: @example [ @{ "machine": "yourmachine.com", "port": "http", "login": "testuser", "password": "testpass" @} ] @end example @node Multiple GMail accounts with Gnus @chapter Multiple GMail accounts with Gnus For multiple GMail accounts with Gnus, you have to make two nnimap entries in your @code{gnus-select-methods} with distinct names: @example (setq gnus-select-methods '((nnimap "gmail" (nnimap-address "imap.gmail.com")) (nnimap "gmail2" (nnimap-address "imap.gmail.com")))) @end example Your netrc entries will then be: @example machine gmail login account@@gmail.com password "account password" port imap machine gmail2 login account2@@gmail.com password "account2 password" port imap @end example @node Secret Service API @chapter Secret Service API The @dfn{Secret Service API} is a standard from @uref{https://www.freedesktop.org/wiki/Specifications/secret-storage-spec/,,freedesktop.org} to securely store passwords and other confidential information. This API is implemented by system daemons such as the GNOME Keyring and the KDE Wallet (these are GNOME and KDE packages respectively and should be available on most modern GNU/Linux systems). The auth-source library uses the @file{secrets.el} library to connect through the Secret Service API@. You can also use that library in other packages, it's not exclusive to auth-source. @defvar secrets-enabled After loading @file{secrets.el}, a non-@code{nil} value of this variable indicates the existence of a daemon providing the Secret Service API. @end defvar @deffn Command secrets-show-secrets This command shows all collections, items, and their attributes. @end deffn The atomic objects managed by the Secret Service API are @dfn{secret items}, which contain things an application wishes to store securely, like a password. Secret items have a label (a name), the @dfn{secret} (which is the string we want, like a password), and a set of lookup attributes. The attributes can be used to search and retrieve a secret item at a later date. Secret items are grouped in @dfn{collections}. A collection is sometimes called a @samp{keyring} or @samp{wallet} in GNOME Keyring and KDE Wallet but it's the same thing, a group of secrets. Collections are personal and protected so only the owner can open them. The most common collection is called @code{"login"}. A collection can have an alias. The alias @code{"default"} is commonly used so the clients don't have to know the specific name of the collection they open. Other aliases are not supported yet. Since aliases are globally accessible, set the @code{"default"} alias only when you're sure it's appropriate. @defun secrets-list-collections This function returns all the collection names as a list. @end defun @defun secrets-set-alias collection alias Set @var{alias} as alias of collection labeled @var{collection}. Currently only the alias @code{"default"} is supported. @end defun @defun secrets-get-alias alias Return the collection name @var{alias} is referencing to. Currently only the alias @code{"default"} is supported. @end defun Collections can be created and deleted by the functions @code{secrets-create-collection} and @code{secrets-delete-collection}. Usually, this is not done from within Emacs. Do not delete standard collections such as @code{"login"}. The special collection @code{"session"} exists for the lifetime of the corresponding client session (in our case, Emacs's lifetime). It is created automatically when Emacs uses the Secret Service interface and it is deleted when Emacs is killed. Therefore, it can be used to store and retrieve secret items temporarily. The @code{"session"} collection is better than a persistent collection when the secret items should not live longer than Emacs. The session collection can be specified either by the string @code{"session"}, or by @code{nil}, whenever a collection parameter is needed in the following functions. @defun secrets-list-items collection Returns all the item labels of @var{collection} as a list. @end defun @defun secrets-create-item collection item password &rest attributes This function creates a new item in @var{collection} with label @var{item} and password @var{password}. The label @var{item} does not have to be unique in @var{collection}. @var{attributes} are key-value pairs set for the created item. The keys are keyword symbols, starting with a colon. Example: @example ;;; The session is "session", the label is "my item" ;;; and the secret (password) is "geheim". (secrets-create-item "session" "my item" "geheim" :method "sudo" :user "joe" :host "remote-host") @end example The key @code{:xdg:schema} determines the scope of the item to be generated, i.e.@: for which applications the item is intended for. This is just a string like "org.freedesktop.NetworkManager.Mobile" or "org.gnome.OnlineAccounts", the other required keys are determined by this. If no @code{:xdg:schema} is given, "org.freedesktop.Secret.Generic" is used by default. @end defun @defun secrets-get-secret collection item Return the secret of item labeled @var{item} in @var{collection}. If there are several items labeled @var{item}, it is undefined which one is returned. If there is no such item, return @code{nil}. @end defun @defun secrets-delete-item collection item This function deletes item @var{item} in @var{collection}. If there are several items labeled @var{item}, it is undefined which one is deleted. @end defun The lookup attributes, which are specified during creation of a secret item, must be a key-value pair. Keys are keyword symbols, starting with a colon; values are strings. They can be retrieved from a given secret item and they can be used for searching of items. @defun secrets-get-attribute collection item attribute Returns the value of key @var{attribute} of item labeled @var{item} in @var{collection}. If there are several items labeled @var{item}, it is undefined which one is returned. If there is no such item, or the item doesn't own this key, the function returns @code{nil}. @end defun @defun secrets-get-attributes collection item Return the lookup attributes of item labeled @var{item} in @var{collection}. If there are several items labeled @var{item}, it is undefined which one is returned. If there is no such item, or the item has no attributes, it returns @code{nil}. Example: @example (secrets-get-attributes "session" "my item") @result{} ((:user . "joe") (:host . "remote-host")) @end example @end defun @defun secrets-search-items collection &rest attributes Search for the items in @var{collection} with matching @var{attributes}. The @var{attributes} are key-value pairs, as used in @code{secrets-create-item}. Example: @example (secrets-search-items "session" :user "joe") @result{} ("my item" "another item") @end example @end defun The auth-source library uses the @file{secrets.el} library and thus the Secret Service API when you specify a source matching @code{"secrets:COLLECTION"}. For instance, you could use @code{"secrets:session"} to use the @code{"session"} collection, open only for the lifetime of Emacs. Or you could use @code{"secrets:Login"} to open the @code{"Login"} collection. As a special case, you can use the symbol @code{default} in @code{auth-sources} (not a string, but a symbol) to specify the @code{"default"} alias. Here is a contrived example that sets @code{auth-sources} to search three collections and then fall back to @file{~/.authinfo.gpg}. @example (setq auth-sources '(default "secrets:session" "secrets:Login" "~/.authinfo.gpg")) @end example @node The Unix password store @chapter The Unix password store @uref{https://www.passwordstore.org,,The standard unix password manager} (or just @code{pass}) stores your passwords in @code{gpg}-protected files following the Unix philosophy. The store location (any directory) must be specified in the @code{auth-source-pass-filename} variable which defaults to @file{~/.password-store}. Emacs integration of @code{pass} follows the approach suggested by the pass project itself for data organization to find data. In particular, to store a password for the user @code{rms} on the host @code{gnu.org} and port @code{22}, you should use one of the following filenames. @table @file @item gnu.org.gpg No username or port in the filename means that any username and port will match. @item gnu.org/rms.gpg The username to match can be expressed as filename inside a directory whose name matches the host. This is useful if the store has passwords for several users on the same host. @item rms@@gnu.org.gpg The username can also be expressed as a prefix, separated from the host with an at-sign (@code{@@}). @item gnu.org:22.gpg The port (aka. service) to match can only be expressed after the host and separated with a colon (@code{:}). The separator can be changed through the @code{auth-source-pass-port-separator} variable. @item gnu.org:22/rms.gpg @item rms@@gnu.org:22.gpg @item a/b/gnu.org.gpg Entries can be stored in arbitrary directories. @item a/b/gnu.org/rms.gpg @item a/b/rms@@gnu.org.gpg @item a/b/gnu.org:22.gpg @item a/b/gnu.org:22/rms.gpg @item a/b/rms@@gnu.org:22.gpg @end table If several entries match, the one matching the most items (where an ``item'' is one of username, port or host) is preferred. For example, while searching for an entry matching the @code{rms} user on host @code{gnu.org} and port @code{22}, then the entry @file{gnu.org:22/rms.gpg} is preferred over @file{gnu.org.gpg}. Users of @code{pass} may also be interested in functionality provided by other Emacs packages: @itemize @item @uref{https://git.zx2c4.com/password-store/tree/contrib/emacs/password-store.el,,password-store}: library wrapping @code{pass}; @item @uref{https://github.com/NicolasPetton/pass,,pass}: major mode to manipulate the store and edit entries; @item @uref{https://github.com/jabranham/helm-pass,,helm-pass}: helm interface for pass. @end itemize @defvar auth-source-pass-filename Set this variable to a string locating the password store on the disk. Defaults to @file{~/.password-store}. @end defvar @defvar auth-source-pass-port-separator Set this variable to a string that should separate an host name from a port in an entry. Defaults to @samp{:}. @end defvar @node Help for developers @chapter Help for developers The auth-source library lets you control logging output easily. @defvar auth-source-debug Set this variable to @code{'trivia} to see lots of output in @file{*Messages*}, or set it to a function that behaves like @code{message} to do your own logging. @end defvar The auth-source library only has a few functions for external use. @defun auth-source-search &rest spec &key type max host user port secret require create delete &allow-other-keys This function searches (or modifies) authentication backends according to @var{spec}. See the function's doc-string for details. @c TODO more details. @end defun Let's take a look at an example of using @code{auth-source-search} from Gnus's @code{nnimap.el}. @example (defun nnimap-credentials (address ports) (let* ((auth-source-creation-prompts '((user . "IMAP user at %h: ") (secret . "IMAP password for %u@@%h: "))) (found (nth 0 (auth-source-search :max 1 :host address :port ports :require '(:user :secret) :create t)))) (if found (list (plist-get found :user) (let ((secret (plist-get found :secret))) (if (functionp secret) (funcall secret) secret)) (plist-get found :save-function)) nil))) @end example This call requires the user and password (secret) to be in the results. It also requests that an entry be created if it doesn't exist already. While the created entry is being assembled, the shown prompts will be used to interact with the user. The caller can also pass data in @code{auth-source-creation-defaults} to supply defaults for any of the prompts. Note that the password needs to be evaluated if it's a function. It's wrapped in a function to provide some security. Later, after a successful login, @code{nnimap.el} calls the @code{:save-function} like so: @example (when (functionp (nth 2 credentials)) (funcall (nth 2 credentials))) @end example This will work whether the @code{:save-function} was provided or not. @code{:save-function} will be provided only when a new entry was created, so this effectively says ``after a successful login, save the authentication information we just used, if it was newly created.'' After the first time it's called, the @code{:save-function} will not run again (but it will log something if you have set @code{auth-source-debug} to @code{'trivia}). This is so it won't ask the same question again, which is annoying. This is so it won't ask the same question again, which is annoying. This is so it won't ask the same question again, which is annoying. So the responsibility of the API user that specified @code{:create t} is to call the @code{:save-function} if it's provided. @defun auth-source-delete &rest spec &key delete &allow-other-keys This function deletes entries matching @var{spec} from the authentication backends. It returns the entries that were deleted. The backend may not actually delete the entries. @end defun @defun auth-source-forget spec This function forgets any cached data that exactly matches @var{spec}. It returns @code{t} if it forget some data, and @code{nil} if no matching data was found. @end defun @defun auth-source-forget+ &rest spec &allow-other-keys This function forgets any cached data matching @var{spec}. It returns the number of items forgotten. @end defun @node GnuPG and EasyPG Assistant Configuration @appendix GnuPG and EasyPG Assistant Configuration If the @code{auth-sources} variable contains @file{~/.authinfo.gpg} before @file{~/.authinfo}, the auth-source library will try to read the GnuPG encrypted @file{.gpg} file first, before the unencrypted file. In Emacs 23 or later there is an option @code{auto-encryption-mode} to automatically decrypt @file{*.gpg} files. It is enabled by default. If you are using earlier versions of Emacs, you will need: @lisp (require 'epa-file) (epa-file-enable) @end lisp If you want your GnuPG passwords to be cached, set up @code{gpg-agent} or EasyPG Assistant (@pxref{Caching Passphrases, , Caching Passphrases, epa}). To quick start, here are some questions: @itemize @item Do you use GnuPG version 2 instead of GnuPG version 1? @item Do you use symmetric encryption rather than public key encryption? @item Do you want to use gpg-agent? @end itemize Here are configurations depending on your answers: @multitable {111} {222} {333} {configuration configuration configuration} @item @b{1} @tab @b{2} @tab @b{3} @tab Configuration @item Yes @tab Yes @tab Yes @tab Set up gpg-agent. @item Yes @tab Yes @tab No @tab You can't, without gpg-agent. @item Yes @tab No @tab Yes @tab Set up gpg-agent. @item Yes @tab No @tab No @tab You can't, without gpg-agent. @item No @tab Yes @tab Yes @tab Set up elisp passphrase cache. @item No @tab Yes @tab No @tab Set up elisp passphrase cache. @item No @tab No @tab Yes @tab Set up gpg-agent. @item No @tab No @tab No @tab You can't, without gpg-agent. @end multitable To set up gpg-agent, follow the instruction in GnuPG manual (@pxref{Invoking GPG-AGENT, , Invoking GPG-AGENT, gnupg}). To set up elisp passphrase cache, set @code{epa-file-cache-passphrase-for-symmetric-encryption}. @node GNU Free Documentation License @appendix GNU Free Documentation License @include doclicense.texi @node Index @unnumbered Index @printindex cp @node Function Index @unnumbered Function Index @printindex fn @node Variable Index @unnumbered Variable Index @printindex vr @bye @c End: