NAME
    Cookie::Jar - Cookie Jar Class for Server & Client

SYNOPSIS
        use Cookie::Jar;
        my $jar = Cookie::Jar->new( request => $r ) ||
            die( "An error occurred while trying to get the cookie jar:", Cookie::Jar->error );
        # set the default host
        $jar->host( 'www.example.com' );
        $jar->fetch;
        # or using a HTTP::Request object
        # Retrieve cookies from Cookie header sent from client
        $jar->fetch( request => $http_request );
        if( $jar->exists( 'my-cookie' ) )
        {
            # do something
        }
        # get the cookie
        my $sid = $jar->get( 'my-cookie' );
        # get all cookies
        my @all = $jar->get( 'my-cookie', 'example.com', '/' );
        # set a new Set-Cookie header
        $jar->set( 'my-cookie' => $cookie_object );
        # Remove cookie from jar
        $jar->delete( 'my-cookie' );
        # or using the object itself:
        $jar->delete( $cookie_object );

        # Create and add cookie to jar
        $jar->add(
            name => 'session',
            value => 'lang=en-GB',
            path => '/',
            secure => 1,
            same_site => 'Lax',
        ) || die( $jar->error );
        # or add an existing cookie
        $jar->add( $some_cookie_object );

        my $c = $jar->make({
            name => 'my-cookie',
            domain => 'example.com',
            value => 'sid1234567',
            path => '/',
            expires => '+10D',
            # or alternatively
            maxage => 864000
            # to make it exclusively accessible by regular http request and not ajax
            http_only => 1,
            # should it be used under ssl only?
            secure => 1,
        });

        # Add the Set-Cookie headers
        $jar->add_response_header;
        # Alternatively, using a HTTP::Response object or equivalent
        $jar->add_response_header( $http_response );
        $jar->delete( 'some_cookie' );
        $jar->do(sub
        {
            # cookie object is available as $_ or as first argument in @_
        });

        # For client side
        # Takes a HTTP::Response object or equivalent
        # Extract cookies from Set-Cookie headers received from server
        $jar->extract( $http_response );
        # get by domain; by default sort it
        my $all = $jar->get_by_domain( 'example.com' );
        # Reverse sort
        $all = $jar->get_by_domain( 'example.com', sort => 0 );

        # Save cookies repository as json
        $jar->save( '/some/where/mycookies.json' ) || die( $jar->error );
        # Load cookies into jar
        $jar->load( '/some/where/mycookies.json' ) || die( $jar->error );

        # Save encrypted
        $jar->save( '/some/where/mycookies.json',
        {
            encrypt => 1,
            key => $key,
            iv => $iv,
            algo => 'AES',
        }) || die( $jar->error );
        # Load cookies from encrypted file
        $jar->load( '/some/where/mycookies.json',
        {
            decrypt => 1,
            key => $key,
            iv  => $iv,
            algo => 'AES'
        }) || die( $jar->error );

        # Merge repository
        $jar->merge( $jar2 ) || die( $jar->error );
    
        # For autosave
        my $jar = Cookie::Jar->new(
            file => '/some/where/cookies.json',
            # True by default
            autosave => 1,
            encrypt => 1,
            secret => 'My big secret',
            algo => 'AES',
        ) || die( Cookie::Jar->error );

        say "There are ", $jar->length, " cookies in the repository.";
    
        # Take a string from a Set-Cookie header and get a Cookie object
        my $c = $jar->extract_one( $cookie_string );

VERSION
        v0.3.1

DESCRIPTION
    This is a module to handle cookies, according to the latest standard as
    set by rfc6265 <https://datatracker.ietf.org/doc/html/rfc6265>, both by
    the http server and the client. Most modules out there are either
    antiquated, i.e. they do not support latest cookie rfc6265
    <https://datatracker.ietf.org/doc/html/rfc6265>, or they focus only on
    http client side.

    For example, Apache2::Cookie does not work well in decoding cookies, and
    Cookie::Baker "Set-Cookie" timestamp format is wrong. They use
    Mon-09-Jan 2020 12:17:30 GMT where it should be, as per rfc 6265 Mon, 09
    Jan 2020 12:17:30 GMT

    Also APR::Request::Cookie and Apache2::Cookie which is a wrapper around
    APR::Request::Cookie return a cookie object that returns the value of
    the cookie upon stringification instead of the full "Set-Cookie"
    parameters. Clearly they designed it with a bias leaned toward
    collecting cookies from the browser.

    This module supports modperl and uses a Apache2::RequestRec if provided,
    or can use package objects that implement similar interface as
    HTTP::Request and HTTP::Response, or if none of those above are
    available or provided, this module returns its results as a string.

    This module is also compatible with LWP::UserAgent, so you can use like
    this:

        use LWP::UserAgent;
        use Cookie::Jar;
 
        my $ua = LWP::UserAgent->new(
            cookie_jar => Cookie::Jar->new
        );

    It is also compatible with HTTP::Promise, such as:

        use HTTP::Promise;
        my $ua = HTTP::Promise->new( cookie_jar => Cookie::Jar->new );

    This module does not die upon error, but instead returns "undef" and
    sets an error, so you should always check the return value of a method.

METHODS
  new
    This initiates the package and takes the following parameters:

    *   "request"

        This is an optional parameter to provide a Apache2::RequestRec
        object. When provided, it will be used in various methods to get or
        set cookies from or onto http headers.

            package MyApacheHandler;
            use Apache2::Request ();
            use Cookie::Jar;
    
            sub handler : method
            {
                my( $class, $r ) = @_;
                my $jar = Cookie::Jar->new( $r );
                # Load cookies;
                $jar->fetch;
                $r->log_error( "$class: Found ", $jar->repo->length, " cookies." );
                $jar->add(
                    name => 'session',
                    value => 'lang=en-GB',
                    path => '/',
                    secure => 1,
                    same_site => 'Lax',
                );
                # Will use Apache2::RequestRec object to set the Set-Cookie headers
                $jar->add_response_header || do
                {
                    $r->log_reason( "Unable to add Set-Cookie to response header: ", $jar->error );
                    return( Apache2::Const::HTTP_INTERNAL_SERVER_ERROR );
                };
                # Do some more computing
                return( Apache2::Const::OK );
            }

    *   "debug"

        Optional. If set with a positive integer, this will activate verbose
        debugging message

  add
    Provided with an hash or hash reference of cookie parameters (see
    Cookie) and this will create a new cookie and add it to the cookie
    repository.

    Alternatively, you can also provide directly an existing cookie object

        my $c = $jar->add( $cookie_object ) || die( $jar->error );

  add_cookie_header
    This is an alias for "add_request_header" for backward compatibility
    with HTTP::Cookies

  add_request_header
    Provided with a request object, such as, but not limited to
    HTTP::Request and this will add all relevant cookies in the repository
    into the "Cookie" http request header. The object method needs to have
    the "header" method in order to get, or set the "Cookie" or "Set-Cookie"
    headers and the "uri" method.

    As long as the object provided supports the "uri" and "header" method,
    you can provide any class of object you want.

    Please refer to the rfc6265
    <https://datatracker.ietf.org/doc/html/rfc6265> for more information on
    the applicable rule when adding cookies to the outgoing request header.

    Basically, it will add, for a given domain, first all cookies whose path
    is longest and at path equivalent, the cookie creation date is used,
    with the earliest first. Cookies who have expired are not sent, and
    there can be cookies bearing the same name for the same domain in
    different paths.

  add_response_header
        # Adding cookie to the repository
        $jar->add(
            name => 'session',
            value => 'lang=en-GB',
            path => '/',
            secure => 1,
            same_site => 'Lax',
        ) || die( $jar->error );
        # then placing it onto the response header
        $jar->add_response_header;

    This is the alter ego to "add_request_header", in that it performs the
    equivalent function, but for the server side.

    You can optionally provide, as unique argument, an object, such as but
    not limited to, HTTP::Response, as long as that class supports the
    "header" method

    Alternatively, if an Apache object has been set upon object
    instantiation or later using the "request" method, then it will be used
    to set the outgoing "Set-Cookie" headers (there is one for every cookie
    sent).

    If no response, nor Apache2 object were set, then this will simply
    return a list of "Set-Cookie" in list context, or a string of possibly
    multiline "Set-Cookie" headers, or an empty string if there is no cookie
    found to be sent.

    Be careful not to do the following:

        # get cookies sent by the http client
        $jar->fetch || die( $jar->error );
        # set the response headers with the cookies from our repository
        $jar->add_response_header;

    Why? Well, because "fetch" retrieves the cookies sent by the http client
    and store them into the repository. However, cookies sent by the http
    client only contain the cookie name and value, such as:

        GET /my/path/ HTTP/1.1
        Host: www.example.org
        Cookie: session_token=eyJleHAiOjE2MzYwNzEwMzksImFsZyI6IkhTMjU2In0.eyJqdGkiOiJkMDg2Zjk0OS1mYWJmLTRiMzgtOTE1ZC1hMDJkNzM0Y2ZmNzAiLCJmaXJzdF9uYW1lIjoiSm9obiIsImlhdCI6MTYzNTk4NDYzOSwiYXpwIjoiNGQ0YWFiYWQtYmJiMy00ODgwLThlM2ItNTA0OWMwZTczNjBlIiwiaXNzIjoiaHR0cHM6Ly9hcGkuZXhhbXBsZS5jb20iLCJlbWFpbCI6ImpvaG4uZG9lQGV4YW1wbGUuY29tIiwibGFzdF9uYW1lIjoiRG9lIiwic3ViIjoiYXV0aHxlNzg5OTgyMi0wYzlkLTQyODctYjc4Ni02NTE3MjkyYTVlODIiLCJjbGllbnRfaWQiOiJiZTI3N2VkYi01MDgzLTRjMWEtYTM4MC03Y2ZhMTc5YzA2ZWQiLCJleHAiOjE2MzYwNzEwMzksImF1ZCI6IjRkNGFhYmFkLWJiYjMtNDg4MC04ZTNiLTUwNDljMGU3MzYwZSJ9.VSiSkGIh41xXIVKn9B6qGjfzcLlnJAZ9jGOPVgXASp0; csrf_token=9849724969dbcffd48c074b894c8fbda14610dc0ae62fac0f78b2aa091216e0b.1635825594; site_prefs=lang%3Den-GB

    As you can see, 3 cookies were sent: "session_token", "csrf_token" and
    "site_prefs"

    So, when "fetch" creates an object for each one and store them, those
    cookies have no "path" value and no other attribute, and when
    "add_response_header" is then called, it stringifies the cookies and
    create a "Set-Cookie" header for each one, but only with their value and
    no other attribute.

    The http client, when receiving those cookies will derive the missing
    cookie path to be "/my/path", i.e. the current uri path, and will create
    a duplicate cookie from the previously stored cookie with the same name
    for that host, but that had the path set to "/"

    So you can create a repository and use it to store the cookies sent by
    the http client using "fetch", but in preparation of the server
    response, either use a separate repository with, for example, "my
    $jar_out = Cookie::Jar->new" or use "set" which will not add the cookie
    to the repository, but rather only set the "Set-Cookie" header for that
    cookie.

        # Add Set-Cookie header for that cookie, but do not add cookie to repository
        $jar->set( $cookie_object );

  algo
    String. Sets or gets the algorithm to use when loading or saving the
    cookie jar.

  autosave
    Boolean. Sets or gets the boolean value for automatically saving the
    cookie jar to the given file specified with "file"

  delete
    Given a cookie name, an optional host and optional path or a Cookie
    object, and this will remove it from the cookie repository.

    It returns an array object upon success, or "undef" in perlfunc and sets
    an error. Note that the array object may be empty.

    However, this will NOT remove it from the web browser by sending a
    Set-Cookie header. For that, you might want to look at the "elapse" in
    Cookie method.

    It returns an array object of cookie objects removed.

        my $arr = $jar->delete( 'my-cookie' );
        # alternatively
        my $arr = $jar->delete( 'my-cookie' => 'www.example.org' );
        # or
        my $arr = $jar->delete( $my_cookie_object );
        printf( "%d cookie(s) removed.\n", $arr->length );
        print( "Cookie value removed was: ", $arr->first->value, "\n" );

    If you are interested in telling the http client to remove all your
    cookies, you can set the "Clear-Site-Data" header:

        Clear-Site-Data: "cookies"

    You can instruct the http client to remove other data like local
    storage:

        Clear-Site-Data: "cookies", "cache", "storage", "executionContexts"

    Although this is widely supported, there is no guarantee the http client
    will actually comply with this request.

    See Mozilla documentation
    <https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Clear-Site-Da
    ta> for more information.

  do
    Provided with an anonymous code or reference to a subroutine, and this
    will call that code for every cookie in the repository, passing it the
    cookie object as the sole argument. Also, that cookie object is
    accessible using $_.

    If the code return "undef", it will end the loop, and if the code
    returns true, this will have the current cookie object added to an array
    object returned upon completion of the loop.

        my $found = $jar->do(sub
        {
            # Part of the path
            if( index( $path, $_->path ) == 0 )
            {
                return(1);
            }
            return(0);
        });
        print( "Found cookies: ", $found->map(sub{$_->name})->join( ',' ), "\n" );

  encrypt
    Boolean. Sets or gets the boolean value for whether to encrypt or not
    the cookie jar when saving it, or whether to decrypt it when loading
    cookies from it.

    This defaults to false.

  exists
    Given a cookie name, this will check if it exists.

    It returns 1 if it does, or 0 if it does not.

  extract
    Provided with a response object, such as, but not limited to
    HTTP::Response, and this will retrieve any cookie sent from the remote
    server, parse them and add their respective to the repository.

    As per the rfc6265, section 5.3.11 specifications
    <https://datatracker.ietf.org/doc/html/rfc6265#section-5.3> if there are
    duplicate cookies for the same domain and path, only the last one will
    be retained.

    If the cookie received does not contain any "Domain" specification,
    then, in line with rfc6265 specifications, it will take the root of the
    current domain as the default domain value. Since finding out what is
    the root for a domain name is a non-trivial exercise, this method relies
    on Cookie::Domain.

  extract_cookies
    This is an alias for "extract" for backward compatibility with
    HTTP::Cookies

  extract_one
    This method takes a cookie string, which can be found in the
    "Set-Cookie" header, parse it, and returns a Cookie object if
    successful, or sets an error and return "undef" or an empty list
    depending on the context.

    It also takes an hash or hash reference of options.

    The following options are supported:

    *   "host"

        If provided, it will be used to find out the host's root domain, and
        to set the cookie object "domain" property if none is specified in
        the cookie string.

    *   "path"

        If provided, it will be used to set the cookie object "path"
        property.

    *   "port"

        If provided, it will be used to set the cookie object "port"
        property.

  fetch
    This method does the equivalent of "extract", but for the server.

    It retrieves all possible cookies from the http request received from
    the web browser.

    It takes an optional hash or hash reference of parameters, such as
    "host". If it is not provided, the value set with "host" is used
    instead.

    If the parameter "request" containing an http request object, such as,
    but not limited to HTTP::Request, is provided, it will use it to get the
    "Cookie" header value. The object method needs to have the "header"
    method in order to get, or set the "Cookie" or "Set-Cookie" headers.

    Alternatively, if a value for "request" has been set, it will use it to
    get the "Cookie" header value from Apache modperl.

    You can also provide the "Cookie" string to parse by providing the
    "string" option to this method.

        $jar->fetch( string => q{foo=bar; site_prefs=lang%3Den-GB} ) ||
            die( $jar->error );

    Ultimately, if none of those are available, it will use the environment
    variable "HTTP_COOKIE"

    If the option "store" is true (by default it is true), this method will
    add the fetched cookies to the repository.

    It returns an hash reference of cookie key => cookie object

    A cookie key is made of the host (possibly empty), the path and the
    cookie name separated by ";"

        # Cookies added to the repository
        $jar->fetch || die( $jar->error );
        # Cookies returned, but NOT added to the repository
        my $cookies = $jar->fetch || die( $jar->error );

  file
    Sets or gets the file path to the cookie jar file.

    If provided upon instantiation, and if the file exists on the filesystem
    and is not empty, "Cookie::Jar" will load all the cookies from it.

    If "autosave" is set to a true, "Cookie::Jar" will automatically save
    all cookies to the specified cookie jar file, possibly encrypting it if
    "algo" and "secret" are set.

  get
    Given a cookie name, an optional host and an optional path, this will
    retrieve its corresponding cookie object and return it.

    If not found, it will try to return a value with just the cookie name.

    If nothing is found, this will return and empty list in list context or
    "undef" in scalar context.

    You can "get" multiple cookie object and this method will return a list
    in list context and the first cookie object found in scalar context.

        # Wrong, an undefined returned value here only means there is no such cookie
        my $c = $jar->get( 'my-cookie' );
        die( $jar->error ) if( !defined( $c ) );
        # Correct
        my $c = $jar->get( 'my-cookie' ) || die( "No cookie my-cookie found\n" );
        # Possibly get multiple cookie object for the same name
        my @cookies = $jar->get( 'my_same_name' ) || die( "No cookies my_same_name found\n" );
        # or
        my @cookies = $jar->get( 'my_same_name' => 'www.example.org', '/private' ) || die( "No cookies my_same_name found\n" );

  get_by_domain
    Provided with a host and an optional hash or hash reference of
    parameters, and this returns an array object of cookie objects matching
    the domain specified.

    If a "sort" parameter has been provided and its value is true, this will
    sort the cookies by path alphabetically. If the sort value exists, but
    is false, this will sort the cookies by path but in a reverse
    alphabetical order.

    By default, the cookies are sorted.

  host
    Sets or gets the default host. This is especially useful for cookies
    repository used on the server side.

  key
    Provided with a cookie name and an optional host and this returns a key
    used to add an entry in the hash repository.

    If no host is provided, the key is just the cookie, otherwise the
    resulting key is the cookie name and host separated just by ";"

    You should not need to use this method as it is used internally only.

  length
    Read-only. Returns the size of the Cookie repository as a number object

  load
        $jar->load( '/home/joe/cookies.json' ) || die( $jar->error );

        # or loading cookies from encrypted file
        $jar->load( '/home/joe/cookies_encrypted.json',
        {
            decrypt => 1,
            key => $key,
            iv  => $iv,
            algo => 'AES'
        }) || die( $jar->error );

    Give a json cookie file, and an hash or hash reference of options, and
    this will load its data into the repository. If there are duplicates
    (same cookie name and host), the latest one added takes precedence, as
    per the rfc6265 specifications.

    Supported options are:

    *   "algo" string

        Algorithm to use to decrypt the cookie file.

        It can be any of AES, Anubis, Blowfish, CAST5, Camellia, DES,
        DES_EDE, KASUMI, Khazad, MULTI2, Noekeon, RC2, RC5, RC6, SAFERP,
        SAFER_K128, SAFER_K64, SAFER_SK128, SAFER_SK64, SEED, Skipjack,
        Twofish, XTEA, IDEA, Serpent or simply any <NAME> for which there
        exists Crypt::Cipher::<NAME>

    *   "decrypt" boolean

        Must be set to true to enable decryption.

    *   "iv" string

        Set the Initialisation Vector
        <https://en.wikipedia.org/wiki/Initialization_vector> used for file
        encryption and decryption. This must be the same value used for
        encryption. See "save"

    *   "key" string

        Set the encryption key used to decrypt the cookies file.

        The key must be the same one used to encrypt the file. See "save"

    "load" returns the current object upon success and "undef" and sets an
    error upon error.

  load_as_lwp
        $jar->load_as_lwp( '/home/joe/cookies_lwp.txt' ) ||
            die( "Unable to load cookies from file: ", $jar->error );

        # or loading an encrypted file
        $jar->load_as_lwp( '/home/joe/cookies_encrypted_lwp.txt',
        {
            encrypt => 1,
            key => $key,
            iv => $iv,
            algo => 'AES',
        }) || die( $jar->error );

    Given a file path to an LWP-style cookie file (see below a snapshot of
    what it looks like), and an hash or hash reference of options, and this
    method will read the cookies from the file and add them to our
    repository, possibly overwriting previous cookies with the same name and
    domain name.

    The supported options are the same as for "load"

    LWP-style cookie files are ancient, and barely used anymore, but no
    matter; if you need to load cookies from such file, it looks like this:

        #LWP-Cookies-1.0
        Set-Cookie3: cookie1=value1; domain=example.com; path=; path_spec; secure; version=2
        Set-Cookie3: cookie2=value2; domain=api.example.com; path=; path_spec; secure; version=2
        Set-Cookie3: cookie3=value3; domain=img.example.com; path=; path_spec; secure; version=2

    It returns the current object upon success, or "undef" and sets an error
    upon error.

  load_as_mozilla
        $jar->load_as_mozilla( '/home/joe/cookies.sqlite' ) ||
            die( "Unable to load cookies from mozilla cookies.sqlite file: ", $jar->error );

    Given a file path to a mozilla SQLite database file, and an hash or hash
    reference of options, and this method will attempt to read the cookies
    from the SQLite database file and add them to our repository, possibly
    overwriting previous cookies with the same name and domain name.

    To read the SQLite database file, this will try first to load DBI and
    DBD::SQLite and use them if they are available, otherwise it will resort
    to using the "sqlite3" binary if it can find it, using "which" in
    File::Which

    If none of those 2 methods succeeded, it will return "undef" with an
    error

    Note that contrary to other loading method, this method does not support
    encryption.

    It returns the current object upon success, or "undef" and sets an error
    upon error.

    Supported options are:

    *   "use_dbi"

        Boolean. If true, this will require the use of DBI and DBD::SQLite
        and if it cannot load them, it will return an error without trying
        to alternatively use the "sqlite3" binary. Default to false.

    *   "sqlite"

        String. The file path to a "sqlite3" binary. If the file path does
        not exist, or is lacking sufficient permission, this will return an
        error.

        If it is not provided, and using DBI and DBD::SQLite failed, it will
        try to find the "sqlite3" using "which" in File::Which

  load_as_netscape
        $jar->save_as_netscape( '/home/joe/cookies_netscape.txt' ) ||
            die( "Unable to save cookies file: ", $jar->error );

        # or saving as an encrypted file
        $jar->save_as_netscape( '/home/joe/cookies_encrypted_netscape.txt',
        {
            encrypt => 1,
            key => $key,
            iv => $iv,
            algo => 'AES',
        }) || die( $jar->error );

    Given a file path to a Netscape-style cookie file, and this method will
    read cookies from the file and add them to our repository, possibly
    overwriting previous cookies with the same name and domain name.

    It returns the current object upon success, or "undef" and sets an error
    upon error.

  make
    Provided with some parameters and this will instantiate a new Cookie
    object with those parameters and return the new object.

    This does not add the newly created cookie object to the cookies
    repository.

    For a list of supported parameters, refer to the Cookie documentation

        # Make an encrypted cookie
        use Bytes::Random::Secure ();
        my $c = $jar->make(
            name      => 'session',
            value     => $secret_value,
            path      => '/',
            secure    => 1,
            http_only => 1,
            same_site => 'Lax',
            key       => Bytes::Random::Secure::random_bytes(32),
            algo      => $algo,
            encrypt   => 1,
        ) || die( $jar->error );
        # or as an hash reference of parameters
        my $c = $jar->make({
            name      => 'session',
            value     => $secret_value,
            path      => '/',
            secure    => 1,
            http_only => 1,
            same_site => 'Lax',
            key       => Bytes::Random::Secure::random_bytes(32),
            algo      => $algo,
            encrypt   => 1,
        }) || die( $jar->error );

  merge
    Provided with another Cookie::Jar object, or at least an object that
    supports the "do" method, which takes an anonymous code as argument, and
    that calls that code passing it each cookie object found in the
    alternate repository, and this method will add all those cookies in the
    alternate repository into the current repository.

        $jar->merge( $other_jar ) || die( $jar->error );

    If the cookie objects passed to the anonymous code in this method, are
    not Cookie object, then at least they must support the methods "name",
    "value", "domain", "path", "port", "secure", "max_age", "secure",
    "same_site" and , "http_only"

    This method also takes an hash or hash reference of options:

    *   "die" boolean

        If true, the anonymous code passed to the "do" method called, will
        die upon error. Default to false.

        By default, if an error occurs, "undef" is returned and the error is
        set.

    *   "overwrite" boolean

        If true, when an existing cookie is found it will be overwritten by
        the new one. Default to false.

        use Nice::Try;
        try
        {
            $jar->merge( $other_jar, die => 1, overwrite => 1 );
        }
        catch( $e )
        {
            die( "Failed to merge cookies repository: $e\n" );
        }

    Upon success this will return the current object, and if there was an
    error, this returns "undef" in perlfunc and sets an error

  parse
    This method is used by "fetch" to parse cookies sent by http client.
    Parsing is much simpler than for http client receiving cookies from
    server.

    It takes the raw "Cookie" string sent by the http client, and returns an
    hash reference (possibly empty) of cookie name to cookie value pairs.

        my $cookies = $jar->parse( 'foo=bar; site_prefs=lang%3Den-GB' );
        # You can safely do as well:
        my $cookies = $jar->parse( '' );

  purge
    Thise takes no argument and will remove from the repository all cookies
    that have expired. A cookie that has expired is a Cookie that has its
    "expires" property set and whose value is in the past.

    This returns an array object of all the cookies thus removed.

        my $all = $jar->purge;
        printf( "Cookie(s) removed were: %s\n", $all->map(sub{ $_->name })->join( ',' ) );
        # or
        printf( "%d cookie(s) removed from our repository.\n", $jar->purge->length );

  replace
    Provided with a Cookie object, and an optional other Cookie object, and
    this method will replace the former cookie provided in the second
    parameter with the new one provided in the first parameter.

    If only one parameter is provided, the cookies to be replaced will be
    derived from the replacement cookie's properties, namely: "name",
    "domain" and "path"

    It returns an array object of cookie objects replaced upon success, or
    "undef" and set an error upon error.

  repo
    Set or get the array object used as the cookie jar repository.

        printf( "%d cookies found\n", $jar->repo->length );

  request
    Set or get the Apache2::RequestRec object. This object is used to set
    the "Set-Cookie" header within modperl.

  save
        $jar->save( '/home/joe/cookies.json' ) || 
            die( "Failed to save cookies: ", $jar->error );

        # or saving the cookies file encrypted
        $jar->save( '/home/joe/cookies_encrypted.json',
        {
            encrypt => 1,
            key => $key,
            iv => $iv,
            algo => 'AES',
        }) || die( $jar->error );

    Provided with a file, and an hash or hash reference of options, and this
    will save the repository of cookies as json data.

    The hash saved to file contains 2 top properties: "updated_on"
    containing the last update date and "cookies" containing an hash of
    cookie name to cookie properties pairs.

    It returns the current object. If an error occurred, it will return
    "undef" and set an error

    Supported options are:

    *   "algo" string

        Algorithm to use to encrypt the cookie file.

        It can be any of AES, Anubis, Blowfish, CAST5, Camellia, DES,
        DES_EDE, KASUMI, Khazad, MULTI2, Noekeon, RC2, RC5, RC6, SAFERP,
        SAFER_K128, SAFER_K64, SAFER_SK128, SAFER_SK64, SEED, Skipjack,
        Twofish, XTEA, IDEA, Serpent or simply any <NAME> for which there
        exists Crypt::Cipher::<NAME>

    *   "encrypt" boolean

        Must be set to true to enable encryption.

    *   "iv" string

        Set the Initialisation Vector
        <https://en.wikipedia.org/wiki/Initialization_vector> used for file
        encryption. If you do not provide one, it will be automatically
        generated. If you want to provide your own, make sure the size meets
        the encryption algorithm size requirement. You also need to keep
        this to decrypt the cookies file.

        To find the right size for the Initialisation Vector, for example
        for algorithm "AES", you could do:

            perl -MCrypt::Cipher::AES -lE 'say Crypt::Cipher::AES->blocksize'

        which would yield 16

    *   "key" string

        Set the encryption key used to encrypt the cookies file.

        The key must be the same one used to decrypt the file and must have
        a size big enough to satisfy the encryption algorithm requirement,
        which you can check with, say for "AES":

            perl -MCrypt::Cipher::AES -lE 'say Crypt::Cipher::AES->keysize'

        In this case, it will yield 32. Replace above "AES", by whatever
        algorithm you have chosen.

            perl -MCrypt::Cipher::Blowfish -lE 'say Crypt::Cipher::Blowfish->keysize'

        would yield 56 for "Blowfish"

        You can use "random_bytes" in Bytes::Random::Secure to generate a
        random key:

            # will generate a 32 bytes-long key
            my $key = Bytes::Random::Secure::random_bytes(32);

    When encrypting the cookies file, this method will encode the encrypted
    data in base64 before saving it to file.

  save_as_lwp
        $jar->save_as_lwp( '/home/joe/cookies_lwp.txt' ) ||
            die( "Unable to save cookies file: ", $jar->error );

        # or saving as an encrypted file
        $jar->save_as_lwp( '/home/joe/cookies_encrypted_lwp.txt',
        {
            encrypt => 1,
            key => $key,
            iv => $iv,
            algo => 'AES',
        }) || die( $jar->error );

    Provided with a file, and an hash or hash reference of options, and this
    save the cookies repository as a LWP-style data.

    The supported options are the same as for "save"

    It returns the current object. If an error occurred, it will return
    "undef" and set an error

  save_as_mozilla
        $jar->save_as_mozilla( '/home/joe/cookies.sqlite' ) ||
            die( "Unable to save cookies as mozilla SQLite database: ", $jar->error );

        # or
        $jar->save_as_mozilla( '/home/joe/cookies.sqlite',
        {
            # force use of DBI/DBD::SQLite
            use_dbi => 1,
            # or specify the path of the sqlite3 binary
            # sqlite => '/some/where/sqlite3',
            # Enable logging of SQL queries maybe?
            # log_sql => '/some/where/sql.log',
            # Overwrite previous data
            overwrite => 1,
            # abort if an error occurred
            rollback => 1,
        }) || die( "Unable to save cookies as mozilla SQLite database: ", $jar->error );

    Provided with a file path to a SQLite database and this saves the
    cookies repository as a mozilla SQLite database.

    The structure of the mozilla SQLite database
    <http://kb.mozillazine.org/Cookies> is:

        CREATE TABLE moz_cookies(
          id INTEGER PRIMARY KEY,
          originAttributes TEXT NOT NULL DEFAULT '',
          name TEXT,
          value TEXT,
          host TEXT,
          path TEXT,
          expiry INTEGER,
          lastAccessed INTEGER,
          creationTime INTEGER,
          isSecure INTEGER,
          isHttpOnly INTEGER,
          inBrowserElement INTEGER DEFAULT 0,
          sameSite INTEGER DEFAULT 0,
          rawSameSite INTEGER DEFAULT 0,
          schemeMap INTEGER DEFAULT 0,
          CONSTRAINT moz_uniqueid UNIQUE(name, host, path, originAttributes)
        );

    This method will attempt loading DBI and DBD::SQLite, and if it fails,
    it will alternatively try to use the "sqlite3" binary.

    Note that, contrary to other save methods, this method does not allow
    encrypting the SQLite database.

    It returns the current object. If an error occurred, it will return
    "undef" and set an error

    Supported options are:

    *   "log_sql"

        String. This specifies a file name that will be opened in append
        mode and to which the SQL statements issued will be logged.

    *   "overwrite"

        Boolean. If true, this will overwrite any existing data if the
        specified SQLite database file already exists.

        And if false, this will issue sql queries to perform upsert
        <https://www.sqlite.org/lang_UPSERT.html> if the SQLite version is
        greater or equal to 3.24.0 (2018-06-04), or otherwise it will issue
        INSERT OR REPLACE <https://www.sqlite.org/lang_insert.html> queries.

        Default false.

    *   "rollback"

        Boolean. If true, this will cancel, i.e. rollback, any change mad to
        the SQLite database upon error, otherwise, any change made will be
        kept up to the point of when the error occurred. Default to false.

    *   "skip_discard"

        Boolean. If true, this will not save cookies that have been marked
        as being discarded, such as session cookies. Default false.

    *   "skip_expired"

        Boolean. If true, this will not save the cookies that have already
        expired. Default false.

    *   "sqlite"

        String. The file path to a "sqlite3" binary. If the file path does
        not exist, or is lacking sufficient permission, this will return an
        error.

        If it is not provided, and using DBI and DBD::SQLite failed, it will
        try to find the "sqlite3" using "which" in File::Which

    *   "use_dbi"

        Boolean. Requires the use of DBI and DBD::SQLite and it will return
        an error if those are not installed.

        If you want to let this method try also to use "sqlite3" binary if
        necessary, then do not set this option.

  save_as_netscape
    Provided with a file and this saves the cookies repository as a
    Netscape-style data.

    It returns the current object. If an error occurred, it will return
    "undef" and set an error

  scan
    This is an alias for "do"

  secret
    String. Sets or gets the secret string to use for decrypting or
    encrypting the cookie jar. This is used in conjonction with "file",
    "encrypt" and "algo"

  set
    Given a cookie object, and an optional hash or hash reference of
    parameters, and this will add the cookie to the outgoing http headers
    using the "Set-Cookie" http header. To do so, it uses the
    Apache2::RequestRec value set in "request", if any, or a HTTP::Response
    compatible response object provided with the "response" parameter.

        $jar->set( $c, response => $http_response_object ) ||
            die( $jar->error );

    Ultimately if none of those two are provided it returns the "Set-Cookie"
    header as a string.

        # Returns something like:
        # Set-Cookie: my-cookie=somevalue
        print( STDOUT $jar->set( $c ), "\015\012" );

    Unless the latter, this method returns the current object.

  type
    String. Sets or gets the cookie jar file format type. The supported
    formats are: "json", "lwp" and "netscape"

IMPORTING COOKIES
    To import cookies, you can either use the methods scan from
    HTTP::Cookies, such as:

        use Cookie::Jar;
        use HTTP::Cookies;
        my $jar = Cookie::Jar->new;
        my $old = HTTP::Cookies->new;
        $old->load( '/home/joe/old_cookies_file.txt' );
        my @keys = qw( version key val path domain port path_spec secure expires discard hash );
        $old->scan(sub
        {
            my @values = @_;
            my $ref = {};
            @$ref{ @keys } = @values;
            my $c = Cookie->new;
            $c->apply( $ref ) || die( $c->error );
            $jar->add( $c );
        });
        printf( "%d cookies now in our repository.\n", $jar->repo->length );

    or you could also load a cookie file. Cookie::Jar supports LWP format
    and old Netscape format:

        $jar->load_as_lwp( '/home/joe/lwp_cookies.txt' );
        $jar->load_as_netscape( '/home/joe/netscape_cookies.txt' );

    And of course, if you are using Cookie::Jar json cookies file, you can
    import them with:

        $jar->load( '/home/joe/cookies.json' );

ENCRYPTION
    This package supports encryption and decryption of cookies file, and
    also the cookies values themselve.

    See methods "save" and "load" for encryption options and the Cookie
    package for options to encrypt or sign cookies value.

INSTALLATION
    As usual, to install this module, you can do:

        perl Makefile.PL
        make
        make test
        sudo make install

    If you have Apache/modperl2 installed, this will also prepare the
    Makefile and run test under modperl.

    The Makefile.PL tries hard to find your Apache configuration, but you
    can give it a hand by specifying some command line parameters. See
    Apache::TestMM for available parameters or you can type on the command
    line:

        perl -MApache::TestConfig -le 'Apache::TestConfig::usage()'

    For example:

        perl Makefile.PL -apxs /usr/bin/apxs -port 1234
        # which will also set the path to httpd_conf, otherwise
        perl Makefile.PL -httpd_conf /etc/apache2/apache2.conf

        # then
        make
        make test
        sudo make install

    See also modperl testing documentation
    <https://perl.apache.org/docs/general/testing/testing.html>

    But, if for some reason, you do not want to perform the mod_perl tests,
    you can use "NO_MOD_PERL=1" when calling "perl Makefile.PL", such as:

        NO_MOD_PERL=1 perl Makefile.PL
        make
        make test
        sudo make install

AUTHOR
    Jacques Deguest <jack@deguest.jp>

SEE ALSO
    Cookie, Cookie::Domain, Apache2::Cookies, APR::Request::Cookie,
    Cookie::Baker

    Latest tentative version of the cookie standard
    <https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis-09>

    Mozilla documentation on Set-Cookie
    <https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Set-Cookie>

    Information on double submit cookies
    <https://cheatsheetseries.owasp.org/cheatsheets/Cross-Site_Request_Forge
    ry_Prevention_Cheat_Sheet.html#double-submit-cookie>

COPYRIGHT & LICENSE
    Copyright (c) 2019-2019 DEGUEST Pte. Ltd.

    You can use, copy, modify and redistribute this package and associated
    files under the same terms as Perl itself.