BUILD.txt


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Very Quick Guide to build sssd components
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

Use the following instructions to build the libraries and the binaries.

External library requirements:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
sssd depends on 4 libraries originated in the samba project:
talloc, tdb, tevent, ldb

They are now available in major distribution development branches.

If you want to build them from source download them from the following links:
http://samba.org/ftp/talloc/
http://samba.org/ftp/tdb/
http://samba.org/ftp/tevent/
http://samba.org/ftp/ldb/

Additionally the ding-libs are needed. These used to be included in the sssd
release but are now a separate project. The lastest ding-libs release can be
downloaded from https://fedorahosted.org/sssd/wiki/Releases#DING-LIBSReleases .

To install all of the dependencies in Fedora before building sssd:
yum install openldap-devel gettext libtool pcre-devel c-ares-devel \
    dbus-devel libxslt docbook-style-xsl krb5-devel nspr-devel \
    libxml2 pam-devel nss-devel libtevent python-devel \
    libtevent-devel libtdb libtdb-devel libtalloc libtalloc-devel \
    libldb libldb-devel popt-devel c-ares-devel check-devel \
    doxygen libselinux-devel libsemanage-devel bind-utils libnl3-devel \
    gettext-devel glib2-devel

ding-libs are available in Fedora 14 and later version:
yum install  libcollection-devel  libdhash-devel  libini_config-devel \
     libpath_utils-devel  libref_array-devel

Some features, notably password caching, require the presence of a crypto
library. The default, tested by SSSD upstream, is Mozilla NSS. An alternative
crypto library can be selected during configure time using the --with-crypto
switch. Please note that alternative crypto back ends may not provide all
features -  as of this writing, password obfuscation is only supported with the
NSS back end.

How to build:
~~~~~~~~~~~~~
From the root of the source, run:
autoreconf -i -f && \
./configure && \
make

Optionally, parallel builds are possible with:
autoreconf -i -f && \
mkdir parallelbuilddir && cd parallelbuilddir && \
../configure && \
make

Now you have to copy libnss_sss* into /lib (or /lib64) and add the 'sss' target
to nsswitch.conf passwd database

For pam copy pam_sss.so into /lib/security (or /lib64/security) and add
pam_sss.so to your pam configuration. To use the pam_test_client from
sss_client create the following file:

/etc/pam.d/sss_test:
auth     required pam_sss.so
account  required pam_sss.so
password required pam_sss.so
session  required pam_sss.so

Now you can call pam_test_client:
./pam_test_client [auth|chau|acct|setc|open|clos] username@domain

~~~~~
Simo and Steve (Last updated for 1.5.2)
%PDF-1.4
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<< /BaseFont /Helvetica-Oblique /Encoding /WinAnsiEncoding /Name /F3 /Subtype /Type1 /Type /Font >>
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BT 1 0 0 1 0 26 Tm .18686 Tw 12 TL /F1 10 Tf 0 0 .501961 rg (Figure 1. ) Tj 0 0 0 rg (illustrates the processing inside the application when it needs to authenticate a user and provide) Tj T* 0 Tw 4.125984 Tw (a LocalSystem token identifying the user, providing attributes bound to the user, and a set of) Tj T* 0 Tw (authorizations for the actions the user is permitted to perform \(e.g. roles\).) Tj T* ET
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BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL 2.352533 Tw (A federated Identity Provider \(IdP\) is asked to authenticate a user and provide) Tj T* 0 Tw (additional information \(attributes\) concerning the user.) Tj T* ET
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BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL 1.860036 Tw (Upon successful authentication the IdP provides an assertion for the user which) Tj T* 0 Tw 5.492039 Tw (also contains extra information \(attributes\) bound to the user \(e.g. group) Tj T* 0 Tw (membership, authorizations, etc.\)) Tj T* ET
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BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL 4.068366 Tw (The mapper is invoked to transform the external IdP assertion into a local) Tj T* 0 Tw 3.138933 Tw (representation. The transformation occurs according to the rules and mapping) Tj T* 0 Tw (templates loaded into the rule processor.) Tj T* ET
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BT 1 0 0 1 0 38 Tm /F1 10 Tf 12 TL .292338 Tw (The Mapping Rule Processor is designed to accept a JSON object \(set of key/value) Tj T* 0 Tw .707171 Tw (pairs\) as input and emit a different JSON object as output. Thus the Mappgin Rule) Tj T* 0 Tw 1.381039 Tw (Processor effectively operates as a transformation engine on key/value pairs with) Tj T* 0 Tw (the ability to add or delete key/value pairs.) Tj T* ET
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BT 1 0 0 1 0 62 Tm 1.105039 Tw 12 TL /F1 10 Tf 0 0 0 rg (The Mapping Rule Processor identified as ) Tj /F4 10 Tf 0 0 0 rg (IdPMapper ) Tj /F1 10 Tf 0 0 0 rg (evaluates the input JSON) Tj T* 0 Tw 2.00003 Tw (assertion in the context of the mapping rules defined for the site deployment. If) Tj T* 0 Tw .971569 Tw /F4 10 Tf 0 0 0 rg (IdPMapper ) Tj /F1 10 Tf 0 0 0 rg (is able to successfully transform the input it will return a JSON object) Tj T* 0 Tw .152885 Tw (which is called the ) Tj /F3 10 Tf (mapped ) Tj /F1 10 Tf (result. If the input JSON assertion is not compatible with) Tj T* 0 Tw 1.618492 Tw (the site specific rules loaded into the ) Tj /F4 10 Tf 0 0 0 rg (IdPMapper ) Tj /F1 10 Tf 0 0 0 rg (then NULL is returned by the) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg (IdPMapper) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
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BT 1 0 0 1 0 14 Tm 1.272039 Tw 12 TL /F1 10 Tf 0 0 0 rg (If the mapping was successful the ) Tj /F4 10 Tf 0 0 0 rg (IdPMapper ) Tj /F1 10 Tf 0 0 0 rg (returns the transformed assertion) Tj T* 0 Tw (as a JSON object.) Tj T* ET
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1 0 0 1 62.69291 609.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 39.69937 0 Td (Step 4:) Tj T* -39.69937 0 Td ET
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1 0 0 1 91.03937 3 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped JSON object is converted for use in the local system.) Tj T* ET
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1 0 0 1 62.69291 579.0236 cm
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BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (Example Assertion Transformation) Tj T* ET
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1 0 0 1 62.69291 465.0236 cm
q
BT 1 0 0 1 0 98 Tm .382209 Tw 12 TL /F1 10 Tf 0 0 0 rg (A federated IdP supplies metadata in a form unique to the IdP. This is called an assertion. That assertion) Tj T* 0 Tw .652126 Tw (must be transformed into a format and data understood by LocalSystem. More importantly that assertion) Tj T* 0 Tw .201984 Tw (needs to yield ) Tj /F3 10 Tf (authorization roles specific to LocalSystem) Tj /F1 10 Tf (. In ) Tj 0 0 .501961 rg (Figure 1. ) Tj 0 0 0 rg (Step 3.2 the ) Tj /F4 10 Tf 0 0 0 rg (IdPMapper ) Tj /F1 10 Tf 0 0 0 rg (provides) Tj T* 0 Tw 2.02936 Tw (the transformation from an external IdP assertion to a LocalSystem specific token. It does this via a) Tj T* 0 Tw 1.726412 Tw (Mapping Rule Processor which reads a site specific set of transformation rules. These mapping rules) Tj T* 0 Tw .50061 Tw (define how to transform the external IdP assertion into a LocalSystem token. The mapping rules also are) Tj T* 0 Tw 1.578735 Tw (responsible for validating the external IdP assertion to make sure it is consistent with the site specific) Tj T* 0 Tw 1.719318 Tw (requirements. The operation of the Mapping Rule Processor and the syntax of the mapping rules are) Tj T* 0 Tw (defined in ) Tj 0 0 .501961 rg (Structure Of Rule Definitions) Tj 0 0 0 rg (.) Tj T* ET
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1 0 0 1 62.69291 423.0236 cm
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BT 1 0 0 1 0 26 Tm .700574 Tw 12 TL /F1 10 Tf 0 0 0 rg (Below is an example mapping rule which might be loaded into the Mapping Rule Processor to support a) Tj T* 0 Tw 2.347674 Tw (fictional FOOBAR application. The IdP provides assertions using the ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER ) Tj /F1 10 Tf 0 0 0 rg (CGI style. It is) Tj T* 0 Tw (assumed there are two LocalSystem roles which may be assigned:) Tj T* ET
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1 0 0 1 62.69291 407.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F5 10 Tf 12 TL (user) Tj T* ET
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1 0 0 1 62.69291 392.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (A role granting standard permissions for normal FOOBAR users.) Tj T* ET
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1 0 0 1 62.69291 376.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F5 10 Tf 12 TL (admin) Tj T* ET
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1 0 0 1 62.69291 361.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
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1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (A special role granting full FOOBAR administrative permissions.) Tj T* ET
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1 0 0 1 62.69291 331.0236 cm
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BT 1 0 0 1 0 14 Tm .087633 Tw 12 TL /F1 10 Tf 0 0 0 rg (In this example assigning the ) Tj /F4 10 Tf 0 0 0 rg (user ) Tj /F1 10 Tf 0 0 0 rg (and ) Tj /F4 10 Tf 0 0 0 rg (admin ) Tj /F1 10 Tf 0 0 0 rg (roles will be based on group membership in the following) Tj T* 0 Tw (groups:) Tj T* ET
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1 0 0 1 62.69291 315.0236 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F5 10 Tf 12 TL (foobar_users) Tj T* ET
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1 0 0 1 62.69291 300.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
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1 0 0 1 20 0 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Members of this group are normal FOOBAR users with restricted permissions.) Tj T* ET
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1 0 0 1 62.69291 284.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F5 10 Tf 12 TL (foobar_admin) Tj T* ET
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1 0 0 1 62.69291 269.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
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1 0 0 1 20 0 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Members of this group are FOOBAR administrators with permission to perform all operations.) Tj T* ET
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BT 1 0 0 1 0 38 Tm 4.288443 Tw 12 TL /F1 10 Tf 0 0 0 rg (Granting of the ) Tj /F4 10 Tf 0 0 0 rg (user ) Tj /F1 10 Tf 0 0 0 rg (and/or ) Tj /F4 10 Tf 0 0 0 rg (admin ) Tj /F1 10 Tf 0 0 0 rg (roles based on membership in the ) Tj /F4 10 Tf 0 0 0 rg (foobar_users ) Tj /F1 10 Tf 0 0 0 rg (and) Tj T* 0 Tw 1.387126 Tw /F4 10 Tf 0 0 0 rg (foobar_admin ) Tj /F1 10 Tf 0 0 0 rg (is illustrated in the follow mapping rule example which also extracts the user principal) Tj T* 0 Tw .275984 Tw (and domain information in the preferred format for the site \(e.g. usernames are lowercase without domain) Tj T* 0 Tw (suffixes and the domain is uppercase and supplied separately\).) Tj T* ET
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1 0 0 1 62.69291 197.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Mapping Rule Example 1.) Tj T* ET
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BT 1 0 0 1 0 74 Tm 12 TL /F4 10 Tf 0 0 0 rg (1   [) Tj T* (2     {"mapping": {"ClientId": "$client_id",) Tj T* (3            "UserId": "$user_id",) Tj T* (4            "User": "$username",) Tj T* (5            "Domain": "$domain",) Tj T* (6            "roles": "$roles",) Tj T* (7           },) Tj T* ET
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BT 1 0 0 1 0 434 Tm 12 TL /F4 10 Tf 0 0 0 rg (8      "statement_blocks": [) Tj T* (9        [) Tj T* (10         ["set", "$groups", []],) Tj T* (11         ["set", "$roles", []]) Tj T* (12       ],) Tj T* (13       [) Tj T* (14         ["in", "REMOTE_USER", "$assertion"],) Tj T* (15         ["exit", "rule_fails", "if_not_success"],) Tj T* (16         ["regexp", "$assertion[REMOTE_USER]", "\(?) Tj (<) Tj (username) Tj (>) Tj (\\\\w+\)@\(?) Tj (<) Tj (domain) Tj (>) Tj (.+\)"],) Tj T* (17         ["exit", "rule_fails", "if_not_success"],) Tj T* (18         ["lower", "$username", "$regexp_map[username]"],) Tj T* (19         ["upper", "$domain", "$regexp_map[domain]"],) Tj T* (20       ],) Tj T* (21       [) Tj T* (22         ["in", "REMOTE_USER_GROUPS", "$assertion"],) Tj T* (23         ["exit", "rule_fails", "if_not_success"],) Tj T* (24         ["split", "$groups", "$assertion[REMOTE_USER_GROUPS]", ":"],) Tj T* (25       ],) Tj T* (26       [) Tj T* (27         ["in", "foobar_users", "$groups"],) Tj T* (28         ["continue", "if_not_success"],) Tj T* (29         ["append", "$roles", "user"],) Tj T* (30       ],) Tj T* (31       [) Tj T* (32         ["in", "foobar_admin", "$groups"],) Tj T* (33         ["continue", "if_not_success"],) Tj T* (34         ["append", "$roles", "admin"]) Tj T* (35       ],) Tj T* (36       [) Tj T* (37         ["unique", "$roles", "$roles"],) Tj T* (38         ["length", "$n_roles", "$roles"],) Tj T* (39         ["compare", "$n_roles", ") Tj (>) Tj (", 0],) Tj T* (40         ["exit", "rule_fails", "if_not_success"],) Tj T* (41       ],) Tj T* (42     ]) Tj T* (43    }) Tj T* (44  ]) Tj T* ET
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1 0 0 1 6 51 cm
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BT 1 0 0 1 0 50 Tm 1.466494 Tw 12 TL /F1 10 Tf 0 0 0 rg (Starts a list of rules. In this example only 1 rule is defined. Each rule is a JSON) Tj T* 0 Tw 2.652039 Tw (object containing a ) Tj /F4 10 Tf 0 0 0 rg (mapping ) Tj /F1 10 Tf 0 0 0 rg (and a required list of ) Tj /F4 10 Tf 0 0 0 rg (statement_blocks) Tj /F1 10 Tf 0 0 0 rg (. The) Tj T* 0 Tw .21815 Tw /F4 10 Tf 0 0 0 rg (mapping ) Tj /F1 10 Tf 0 0 0 rg (may either be specified inside a rule as it is here or may be referenced by) Tj T* 0 Tw .190023 Tw (name in a table of mappings \(this is easier to manage if you have a large number of) Tj T* 0 Tw (rules and small number of mappings\).) Tj T* ET
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1 0 0 1 62.69291 179.8236 cm
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BT 1 0 0 1 0 38 Tm .409199 Tw 12 TL /F1 10 Tf 0 0 0 rg (Defines the JSON mapped result. Each key maps to LocalSystem token. The value) Tj T* 0 Tw 2.0586 Tw (is a rule variable whose value will be substituted if the rule succeeds. Thus for) Tj T* 0 Tw 1.521699 Tw (example the LocalSystem token value ) Tj /F4 10 Tf 0 0 0 rg (User ) Tj /F1 10 Tf 0 0 0 rg (will be assigned the value from the) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg ($username ) Tj /F1 10 Tf 0 0 0 rg (rule variable.) Tj T* ET
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1 0 0 1 62.69291 164.8236 cm
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BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 3 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 40.80937 0 Td (Line 8:) Tj T* -40.80937 0 Td ET
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1 0 0 1 91.03937 3 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Begins the list of statement blocks. A statement must be contained inside a block.) Tj T* ET
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1 0 0 1 62.69291 125.8236 cm
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BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 27 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 20.79937 0 Td (Lines 9-12:) Tj T* -20.79937 0 Td ET
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1 0 0 1 91.03937 3 cm
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BT 1 0 0 1 0 26 Tm 2.080033 Tw 12 TL /F1 10 Tf 0 0 0 rg (The first block usually initializes variables that will be referenced later. Here we) Tj T* 0 Tw .854581 Tw (initialize ) Tj /F4 10 Tf 0 0 0 rg ($groups ) Tj /F1 10 Tf 0 0 0 rg (and ) Tj /F4 10 Tf 0 0 0 rg ($roles ) Tj /F1 10 Tf 0 0 0 rg (to empty arrays. These arrays may be appended) Tj T* 0 Tw (to in later blocks and may be referenced in the final ) Tj /F4 10 Tf 0 0 0 rg (mapping ) Tj /F1 10 Tf 0 0 0 rg (output.) Tj T* ET
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BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 15 cm
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BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 13-20:) Tj T* -15.23937 0 Td ET
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1 0 0 1 91.03937 3 cm
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BT 1 0 0 1 0 14 Tm .151699 Tw 12 TL /F1 10 Tf 0 0 0 rg (This block sets the user and domain information based on ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER ) Tj /F1 10 Tf 0 0 0 rg (and exits) Tj T* 0 Tw (the rule if ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER ) Tj /F1 10 Tf 0 0 0 rg (is not defined.) Tj T* ET
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1 0 0 1 56.69291 56.69291 cm
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BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 234.8349 0 Td (-4-) Tj T* -234.8349 0 Td ET
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 14-15:) Tj T* -15.23937 0 Td ET
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BT 1 0 0 1 0 14 Tm .965028 Tw 12 TL /F1 10 Tf 0 0 0 rg (This test is critical, it assures ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER ) Tj /F1 10 Tf 0 0 0 rg (is defined in the assertion, if not the) Tj T* 0 Tw (rule is skipped because we depend on ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
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BT 1 0 0 1 0 38 Tm .629039 Tw 12 TL /F1 10 Tf 0 0 0 rg (Performs a regular expression match against ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER ) Tj /F1 10 Tf 0 0 0 rg (to split the username) Tj T* 0 Tw 2.770945 Tw (from the domain. The regular expression uses named groups, in this instance) Tj T* 0 Tw 3.041699 Tw /F4 10 Tf 0 0 0 rg (username ) Tj /F1 10 Tf 0 0 0 rg (and ) Tj /F4 10 Tf 0 0 0 rg (domain) Tj /F1 10 Tf 0 0 0 rg (. If the regular expression does not match the rule is) Tj T* 0 Tw (skipped.) Tj T* ET
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1 0 0 1 6 51 cm
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BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 18-19:) Tj T* -15.23937 0 Td ET
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BT 1 0 0 1 0 50 Tm .317533 Tw 12 TL /F1 10 Tf 0 0 0 rg (These lines reference the previous result of the regular expression match which are) Tj T* 0 Tw 1.167309 Tw (stored in the special variable ) Tj /F4 10 Tf 0 0 0 rg ($regexp_map) Tj /F1 10 Tf 0 0 0 rg (. The username is converted to lower) Tj T* 0 Tw 1.531569 Tw (case and stored in ) Tj /F4 10 Tf 0 0 0 rg ($username ) Tj /F1 10 Tf 0 0 0 rg (and the domain is converted to upper case and) Tj T* 0 Tw 4.828366 Tw (stored in ) Tj /F4 10 Tf 0 0 0 rg ($domain) Tj /F1 10 Tf 0 0 0 rg (. The choice of case is purely by convention and site) Tj T* 0 Tw (requirements.) Tj T* ET
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1 0 0 1 62.69291 609.0236 cm
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BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 3 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 21-35:) Tj T* -15.23937 0 Td ET
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1 0 0 1 91.03937 3 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (These 3 blocks assign roles based on group membership.) Tj T* ET
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1 0 0 1 62.69291 546.0236 cm
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1 0 0 1 6 51 cm
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BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 21-25:) Tj T* -15.23937 0 Td ET
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BT 1 0 0 1 0 50 Tm 2.764581 Tw 12 TL /F1 10 Tf 0 0 0 rg (Assures ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER_GROUPS ) Tj /F1 10 Tf 0 0 0 rg (is defined in the assertion; if not, the rule is) Tj T* 0 Tw 1.040039 Tw (skipped. ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER_GROUPS ) Tj /F1 10 Tf 0 0 0 rg (is colon separated list of group names. In order) Tj T* 0 Tw .149039 Tw (to operate on the individual group names appearing in ) Tj /F4 10 Tf 0 0 0 rg (REMOTE_USER_GROUPS ) Tj /F1 10 Tf 0 0 0 rg (line) Tj T* 0 Tw 1.525742 Tw (24 splits the string on the colon separator and stores the result in the ) Tj /F4 10 Tf 0 0 0 rg ($groups) Tj T* 0 Tw /F1 10 Tf 0 0 0 rg (array.) Tj T* ET
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1 0 0 1 62.69291 519.0236 cm
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BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 15 cm
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0 0 0 rg
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1 0 0 1 91.03937 3 cm
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BT 1 0 0 1 0 14 Tm 1.0536 Tw 12 TL /F1 10 Tf 0 0 0 rg (This block assigns the ) Tj /F4 10 Tf 0 0 0 rg (user ) Tj /F1 10 Tf 0 0 0 rg (role if the user is a member of the ) Tj /F4 10 Tf 0 0 0 rg (foobar_users) Tj T* 0 Tw /F1 10 Tf 0 0 0 rg (group.) Tj T* ET
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1 0 0 1 62.69291 492.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 15 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 31-35:) Tj T* -15.23937 0 Td ET
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1 0 0 1 91.03937 3 cm
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BT 1 0 0 1 0 14 Tm .625028 Tw 12 TL /F1 10 Tf 0 0 0 rg (This block assigns the ) Tj /F4 10 Tf 0 0 0 rg (admin ) Tj /F1 10 Tf 0 0 0 rg (role if the user is a member of the ) Tj /F4 10 Tf 0 0 0 rg (foobar_admin) Tj T* 0 Tw /F1 10 Tf 0 0 0 rg (group.) Tj T* ET
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1 0 0 1 62.69291 441.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 39 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 15.23937 0 Td (Lines 36-41:) Tj T* -15.23937 0 Td ET
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1 0 0 1 91.03937 3 cm
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BT 1 0 0 1 0 38 Tm .77336 Tw 12 TL /F1 10 Tf 0 0 0 rg (This block performs final clean up actions for the rule. First it assures there are no) Tj T* 0 Tw 1.995415 Tw (duplicates in the ) Tj /F4 10 Tf 0 0 0 rg ($roles ) Tj /F1 10 Tf 0 0 0 rg (array by calling the ) Tj /F4 10 Tf 0 0 0 rg (unique ) Tj /F1 10 Tf 0 0 0 rg (function. Then it gets a) Tj T* 0 Tw .778847 Tw (count of how many items are in the ) Tj /F4 10 Tf 0 0 0 rg ($roles ) Tj /F1 10 Tf 0 0 0 rg (array and tests to see if it's empty. If) Tj T* 0 Tw (there are no roles assigned the rule is skipped.) Tj T* ET
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1 0 0 1 62.69291 402.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 27 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL 35.24937 0 Td (Line 43:) Tj T* -35.24937 0 Td ET
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1 0 0 1 91.03937 3 cm
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0 0 0 rg
BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL .549494 Tw (This is the end of the rule. If we reach the end of the rule it succeeds. When a rule) Tj T* 0 Tw 2.446699 Tw (succeeds the mapping associated with the rule is looked up. Any rule variable) Tj T* 0 Tw (appearing in the mapping is substituted with its value.) Tj T* ET
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1 0 0 1 62.69291 384.0236 cm
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BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Using the rules in ) Tj 0 0 .501961 rg (Mapping Rule Example 1. ) Tj 0 0 0 rg (and following example assertion in JSON format:) Tj T* ET
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1 0 0 1 62.69291 366.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Assertion Example 1.) Tj T* ET
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1 0 0 1 62.69291 248.8236 cm
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1 0 0 1 6.6 6.6 cm
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.662745 .662745 .662745 RG
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BT 1 0 0 1 0 86 Tm /F4 10 Tf 12 TL ({) Tj T* (  "REMOTE_USER": "TestUser@example.com",) Tj T* (  "REMOTE_AUTH_TYPE": "Negotiate",) Tj T* (  "REMOTE_USER_GROUPS": "foobar_users:foobar_admin",) Tj T* (  "REMOTE_USER_EMAIL": "test.user@example.com",) Tj T* (  "REMOTE_USER_FIRSTNAME": "Test",) Tj T* (  "REMOTE_USER_LASTNAME": "User") Tj T* (}) Tj T* ET
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The assertion in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 453.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "Principal": "bob@example.com") Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 433.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Our rule is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 292.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 492 132 re B*
Q
q
BT 1 0 0 1 0 110 Tm 12 TL /F4 10 Tf 0 0 0 rg ([) Tj T* (    [) Tj T* (        ["in", "Principal", "assertion"],) Tj T* (        ["exit", "rule_fails", "if_not_success"],) Tj T* (        ["regexp", "$assertion[Principal]", \(?P) Tj (<) Tj (username) Tj (>) Tj (\\\\w+\)@\(?P) Tj (<) Tj (domain) Tj (>) Tj (.+\)"],) Tj T* (        ["set", "$username", "$regexp_map[username]"],) Tj T* (        ["set", "$domain", "$regexp_map[domain]"],) Tj T* (        ["exit, "rule_succeeds", "always"]) Tj T* (    ]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 272.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Rule explanation:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 254.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 0:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 248.4236 cm
Q
q
1 0 0 1 62.69291 248.4236 cm
Q
q
1 0 0 1 62.69291 236.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the assertion contains a Principal value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 230.4236 cm
Q
q
1 0 0 1 62.69291 218.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Abort the rule if the assertion does not contain a Principal value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 212.4236 cm
Q
q
1 0 0 1 62.69291 188.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 9 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL 1.867126 Tw (Apply a regular expression the the Principal value. Use named groupings for the username and) Tj T* 0 Tw (domain components for clarity.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 182.4236 cm
Q
q
1 0 0 1 62.69291 170.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (4.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Assign the regexp group username to the $username local variable.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 164.4236 cm
Q
q
1 0 0 1 62.69291 152.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (5.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Assign the regexp group domain to the $domain local variable.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 146.4236 cm
Q
q
1 0 0 1 62.69291 122.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 9 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (6.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
BT 1 0 0 1 0 14 Tm 1.112339 Tw 12 TL /F1 10 Tf 0 0 0 rg (Exit the rule, apply the mapping, return the mapped values. Note, an explicit ) Tj 0 0 .501961 rg (exit ) Tj 0 0 0 rg (is not required if) Tj T* 0 Tw (there are no further statements in the rule, as is the case here.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 122.4236 cm
Q
q
1 0 0 1 62.69291 104.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped result in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-12-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
151 0 obj
<< /Length 3622 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 703.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 60 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 38 Tm /F4 10 Tf 12 TL ({) Tj T* (    "user": "bob",) Tj T* (    "realm": "example.com") Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 673.8236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (Build a set of roles based on group membership) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 607.8236 cm
q
BT 1 0 0 1 0 50 Tm .028409 Tw 12 TL /F1 10 Tf 0 0 0 rg (Often one wants to grant roles to a user based on their membership in certain groups. In this example let's) Tj T* 0 Tw .518221 Tw (say the assertion contains a ) Tj /F4 10 Tf 0 0 0 rg (Groups ) Tj /F1 10 Tf 0 0 0 rg (value which is a colon separated list of group names. Our strategy) Tj T* 0 Tw .064274 Tw (is to split the ) Tj /F4 10 Tf 0 0 0 rg (Groups ) Tj /F1 10 Tf 0 0 0 rg (assertion value into an array of group names. Then we'll test if a specific group is in) Tj T* 0 Tw .555898 Tw (the groups array, if it is we'll add a role. Finally if no roles have been mapped we fail. Users in the group) Tj T* 0 Tw ("student" will get the role "unprivileged" and users in the group "helpdesk" will get the role "admin".) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 589.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapping in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 532.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "roles": "$roles",) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 512.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The assertion in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 455.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "Groups": "student:helpdesk") Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 435.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Our rule is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 114.2236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 312 re B*
Q
q
BT 1 0 0 1 0 290 Tm 12 TL /F4 10 Tf 0 0 0 rg ([) Tj T* (    [) Tj T* (        ["in", "Groups", "assertion"],) Tj T* (        ["exit", "rule_fails", "if_not_success"],) Tj T* (        ["set", "$roles", []],) Tj T* (        ["split", "$groups", "$assertion[Groups]", ":"],) Tj T* (    ],) Tj T* (    [) Tj T* (        ["in", "student", "$groups"],) Tj T* (        ["continue", "if_not_success"],) Tj T* (        ["append", "$roles", "unprivileged"]) Tj T* (    ],) Tj T* (    [) Tj T* (        ["in", "helpdesk", "$groups"],) Tj T* (        ["continue", "if_not_success"],) Tj T* (        ["append", "$roles", "admin"]) Tj T* (    ],) Tj T* (    [) Tj T* (        ["unique", "$roles", "$roles"],) Tj T* (        ["length", "$temp", "roles"],) Tj T* (        ["compare", $temp", ") Tj (>) Tj (", 0],) Tj T* (        ["exit", "rule_fails", "if_not_success"]) Tj T* (    ]) Tj T*  T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 94.22362 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Rule explanation:) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-13-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
152 0 obj
<< /Length 8175 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 753.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 0) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 747.0236 cm
Q
q
1 0 0 1 62.69291 747.0236 cm
Q
q
1 0 0 1 62.69291 735.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the assertion contains a Groups value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 729.0236 cm
Q
q
1 0 0 1 62.69291 717.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Abort the rule if the assertion does not contain a Groups value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 711.0236 cm
Q
q
1 0 0 1 62.69291 699.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Initialize the $roles variable to an empty array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 693.0236 cm
Q
q
1 0 0 1 62.69291 681.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (4.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Split the colon separated list of group names into an array of individual group names) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 681.0236 cm
Q
q
1 0 0 1 62.69291 663.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 1) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 657.0236 cm
Q
q
1 0 0 1 62.69291 657.0236 cm
Q
q
1 0 0 1 62.69291 645.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if "student" is in the $groups array) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 639.0236 cm
Q
q
1 0 0 1 62.69291 627.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Exit the block if it's not.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 621.0236 cm
Q
q
1 0 0 1 62.69291 609.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Append "unprivileged" to the $roles array) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 609.0236 cm
Q
q
1 0 0 1 62.69291 591.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 2) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 585.0236 cm
Q
q
1 0 0 1 62.69291 585.0236 cm
Q
q
1 0 0 1 62.69291 573.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if "helpdesk" is in the $groups array) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 567.0236 cm
Q
q
1 0 0 1 62.69291 555.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Exit the block if it's not.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 549.0236 cm
Q
q
1 0 0 1 62.69291 537.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Append "admin" to the $roles array) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 537.0236 cm
Q
q
1 0 0 1 62.69291 519.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 3) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 513.0236 cm
Q
q
1 0 0 1 62.69291 513.0236 cm
Q
q
1 0 0 1 62.69291 489.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 9 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL .91528 Tw (Strip any duplicate roles that might have been appended to the $roles array to assure each role is) Tj T* 0 Tw (unique.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 483.0236 cm
Q
q
1 0 0 1 62.69291 471.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Count how many members are in the $roles array, assign the length to the $temp variable.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 465.0236 cm
Q
q
1 0 0 1 62.69291 453.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test to see if the $roles array had any members.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 447.0236 cm
Q
q
1 0 0 1 62.69291 435.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (4.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Fail if no roles had been assigned.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 435.0236 cm
Q
q
1 0 0 1 62.69291 417.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped result in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 359.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "roles": ["unprivileged", "admin"]) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 315.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL .258735 Tw (However, suppose whatever is receiving your mapped results is not expecting an array of roles. Instead it) Tj T* 0 Tw .136654 Tw (expects a comma separated list in a string. To accomplish this add the following statement as the last one) Tj T* 0 Tw (in the final block:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 282.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["join", "$roles", "$roles", ","]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 262.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Then the mapped result will be:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 205.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "roles": "unprivileged,admin"]) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 175.4236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (White list certain users and grant them specific roles) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 133.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL 1.326412 Tw (Suppose you have certain users you always want to unconditionally accept and authorize with specific) Tj T* 0 Tw 1.323735 Tw (roles. For example if the user is "head_of_IT" then assign her the "user" and "admin" roles. Otherwise) Tj T* 0 Tw (keep processing. The list of white listed users is hard-coded into the rule.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 115.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapping in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-14-) Tj T* -232.0549 0 Td ET
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Q
 
endstream
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153 0 obj
<< /Length 5659 >>
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1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
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1 0 0 1 62.69291 703.8236 cm
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1 0 0 1 0 0 cm
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1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
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Q
q
0 0 0 rg
BT 1 0 0 1 0 38 Tm /F4 10 Tf 12 TL ({) Tj T* (    "user": $user,) Tj T* (    "roles": "$roles",) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 683.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The assertion in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 626.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
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n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "UserName": "head_of_IT") Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 606.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Our rule in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 417.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
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.960784 .960784 .862745 rg
n -6 -6 480 180 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 158 Tm /F4 10 Tf 12 TL ([) Tj T* (    [) Tj T* (        ["in", "UserName", "assertion"],) Tj T* (        ["exit", "rule_fails", "if_not_success"],) Tj T* (        ["in", "$assertion[UserName]", ["head_of_IT", "head_of_Engineering"]],) Tj T* (        ["continue", "if_not_success"],) Tj T* (        ["set", "$user", "$assertion[UserName"]) Tj T* (        ["set", "$roles", ["user", "admin"]],) Tj T* (        ["exit", "rule_succeeds", "always"]) Tj T* (    ],) Tj T* (    [) Tj T* (        ...) Tj T* (    ]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 397.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Rule explanation:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 379.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 0) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 373.4236 cm
Q
q
1 0 0 1 62.69291 373.4236 cm
Q
q
1 0 0 1 62.69291 361.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the assertion contains a UserName value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 355.4236 cm
Q
q
1 0 0 1 62.69291 343.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Abort the rule if the assertion does not contain a UserName value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 337.4236 cm
Q
q
1 0 0 1 62.69291 325.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the user is in the hardcoded list of white listed users.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 319.4236 cm
Q
q
1 0 0 1 62.69291 307.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (4.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (If the user isn't in the white listed array then exit the block and continue execution at the next block.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 301.4236 cm
Q
q
1 0 0 1 62.69291 289.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (5.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Set the $user local variable to $assertion[UserName]) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 283.4236 cm
Q
q
1 0 0 1 62.69291 271.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (6.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Set the $roles local variable to the hardcoded array containing "user" and "admin") Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 265.4236 cm
Q
q
1 0 0 1 62.69291 253.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (7.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (We're done, unconditionally exit and return the mapped result.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 253.4236 cm
Q
q
1 0 0 1 62.69291 235.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 1) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 229.4236 cm
Q
q
1 0 0 1 62.69291 229.4236 cm
Q
q
1 0 0 1 62.69291 217.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Further processing) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 217.4236 cm
Q
q
1 0 0 1 62.69291 199.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped result in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 130.2236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 60 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 38 Tm /F4 10 Tf 12 TL ({) Tj T* (    "user": "head_of_IT",) Tj T* (    "roles": ["users", "admin"]) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-15-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
154 0 obj
<< /Length 5457 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 747.0236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (Black list certain users) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 705.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL .56881 Tw (Suppose you have certain users you always want to unconditionally deny access to by placing them in a) Tj T* 0 Tw 1.411654 Tw (black list. In this example the user "BlackHat" will try to gain access. The black list includes the users) Tj T* 0 Tw ("BlackHat" and "Spook".) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 687.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapping in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 617.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 60 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 38 Tm /F4 10 Tf 12 TL ({) Tj T* (    "user": $user,) Tj T* (    "roles": "$roles",) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 597.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The assertion in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 540.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "UserName": "BlackHat") Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 520.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Our rule in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 367.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 144 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 122 Tm /F4 10 Tf 12 TL ([) Tj T* (    [) Tj T* (        ["in", "UserName", "assertion"],) Tj T* (        ["exit", "rule_fails", "if_not_success"],) Tj T* (        ["in", "$assertion[UserName]", ["BlackHat", "Spook"]],) Tj T* (        ["exit", "rule_fails", "if_success"]) Tj T* (    ],) Tj T* (    [) Tj T* (        ...) Tj T* (    ]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 347.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Rule explanation:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 329.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 0) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 323.4236 cm
Q
q
1 0 0 1 62.69291 323.4236 cm
Q
q
1 0 0 1 62.69291 311.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the assertion contains a UserName value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 305.4236 cm
Q
q
1 0 0 1 62.69291 293.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Abort the rule if the assertion does not contain a UserName value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 287.4236 cm
Q
q
1 0 0 1 62.69291 275.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the user is in the hard-coded list of black listed users.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 269.4236 cm
Q
q
1 0 0 1 62.69291 257.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (4.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (If the test succeeds then immediately abort and return failure.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 257.4236 cm
Q
q
1 0 0 1 62.69291 239.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 1) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 233.4236 cm
Q
q
1 0 0 1 62.69291 233.4236 cm
Q
q
1 0 0 1 62.69291 221.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Further processing) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 221.4236 cm
Q
q
1 0 0 1 62.69291 203.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped result in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 170.2236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (Null) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 140.2236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (Format Strings and/or Concatenate Strings) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 98.22362 cm
q
BT 1 0 0 1 0 26 Tm 1.498651 Tw 12 TL /F1 10 Tf 0 0 0 rg (You can replace variables in a format string using the ) Tj 0 0 .501961 rg (interpolate ) Tj 0 0 0 rg (verb. String concatenation is trivially) Tj T* 0 Tw 1.745868 Tw (placing two variables adjacent to one another in a format string. Suppose you want to form an email) Tj T* 0 Tw (address from the username and domain in an assertion.) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-16-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
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155 0 obj
<< /Length 4434 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 753.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapping in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 695.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "email": $email,) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 675.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The assertion in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 606.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 60 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 38 Tm /F4 10 Tf 12 TL ({) Tj T* (    "UserName": "Bob",) Tj T* (    "Domain": "example.com") Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 586.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Our rule in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 505.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 474 72 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 50 Tm /F4 10 Tf 12 TL ([) Tj T* (    [) Tj T* (        ["interpolate", "$email", "$assertion[UserName]@$assertion[Domain]"],) Tj T* (    ]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 485.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Rule explanation:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 467.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 0) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 461.4236 cm
Q
q
1 0 0 1 62.69291 461.4236 cm
Q
q
1 0 0 1 62.69291 437.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 9 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL 8.205976 Tw (Replace the variable $assertion[UserName] with it's value and replace the variable) Tj T* 0 Tw ($assertion[Domain] with it's value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 437.4236 cm
Q
q
1 0 0 1 62.69291 419.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped result in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 362.2236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "email": "Bob@example.com",) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 318.2236 cm
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL .667984 Tw (Note, sometimes it's necessary to utilize braces to separate variables from surrounding text by using the) Tj T* 0 Tw .39811 Tw (brace notation. This can also make the format string more readable. Using braces to delimit variables the) Tj T* 0 Tw (above would be:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 237.0236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 498 72 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 50 Tm /F4 10 Tf 12 TL ([) Tj T* (    [) Tj T* (        ["interpolate", "$email", "${assertion[UserName]}@${assertion[Domain]}"],) Tj T* (    ]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 207.0236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (Make associative array lookups case insensitive) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 165.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F1 10 Tf 12 TL 2.917126 Tw (Many systems treat field names as case insensitive. By default associative array indexing is case) Tj T* 0 Tw .627356 Tw (sensitive. The solution is to lower case all the keys in an associative array and then only use lower case) Tj T* 0 Tw (indices. Suppose you want the assertion associative array to be case insensitive.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 147.0236 cm
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapping in JSON is:) Tj T* ET
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Q
q
1 0 0 1 62.69291 89.82362 cm
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q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "user": $user,) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-17-) Tj T* -232.0549 0 Td ET
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<< /Length 7739 >>
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The assertion in JSON is:) Tj T* ET
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Q
q
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1 0 0 1 0 0 cm
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1 0 0 1 6.6 6.6 cm
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.662745 .662745 .662745 RG
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BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "UserName": "Bob") Tj T* (}) Tj T* ET
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Q
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0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Our rule in JSON is:) Tj T* ET
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1 0 0 1 0 0 cm
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1 0 0 1 6.6 6.6 cm
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.662745 .662745 .662745 RG
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n -6 -6 468.6898 108 re B*
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0 0 0 rg
BT 1 0 0 1 0 86 Tm /F4 10 Tf 12 TL ([) Tj T* (    [) Tj T* (        ["lower", "$assertion", "$assertion"],) Tj T* (        ["in", "username", "assertion"],) Tj T* (        ["exit", "rule_fails", "if_not_success"],) Tj T* (        ["set", "$user", "$assertion[username"]) Tj T* (    ]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 538.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Rule explanation:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 520.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Block 0) Tj T* ET
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Q
q
1 0 0 1 62.69291 514.6236 cm
Q
q
1 0 0 1 62.69291 514.6236 cm
Q
q
1 0 0 1 62.69291 502.6236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (1.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Lower case all the keys in the assertion associative array.) Tj T* ET
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Q
q
Q
Q
q
1 0 0 1 62.69291 496.6236 cm
Q
q
1 0 0 1 62.69291 484.6236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (2.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test if the assertion contains a username value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 478.6236 cm
Q
q
1 0 0 1 62.69291 466.6236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (3.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Abort the rule if the assertion does not contain a username value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 460.6236 cm
Q
q
1 0 0 1 62.69291 448.6236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66 0 Td (4.) Tj T* -5.66 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Assign the username value in the assertion to $user) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 448.6236 cm
Q
q
1 0 0 1 62.69291 430.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The mapped result in JSON is:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 373.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 48 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 26 Tm /F4 10 Tf 12 TL ({) Tj T* (    "user": "Bob",) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 340.4236 cm
q
BT 1 0 0 1 0 3.5 Tm 21 TL /F2 17.5 Tf 0 0 0 rg (Verbs) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 322.4236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The following verbs are supported:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 316.4236 cm
Q
q
1 0 0 1 62.69291 316.4236 cm
Q
q
1 0 0 1 62.69291 304.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (set) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 298.4236 cm
Q
q
1 0 0 1 62.69291 286.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (length) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 280.4236 cm
Q
q
1 0 0 1 62.69291 268.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (interpolate) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 262.4236 cm
Q
q
1 0 0 1 62.69291 250.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (append) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 244.4236 cm
Q
q
1 0 0 1 62.69291 232.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (unique) Tj T* ET
Q
Q
q
Q
Q
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1 0 0 1 62.69291 226.4236 cm
Q
q
1 0 0 1 62.69291 214.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
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Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (regexp) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 208.4236 cm
Q
q
1 0 0 1 62.69291 196.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (regexp_replace) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 190.4236 cm
Q
q
1 0 0 1 62.69291 178.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (split) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 172.4236 cm
Q
q
1 0 0 1 62.69291 160.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (join) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 154.4236 cm
Q
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1 0 0 1 62.69291 142.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (lower) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 136.4236 cm
Q
q
1 0 0 1 62.69291 124.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (upper) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 118.4236 cm
Q
q
1 0 0 1 62.69291 106.4236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (compare) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 100.4236 cm
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-18-) Tj T* -232.0549 0 Td ET
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157 0 obj
<< /Length 6506 >>
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1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
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1 0 0 1 62.69291 753.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
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1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (in) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 747.0236 cm
Q
q
1 0 0 1 62.69291 735.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (not_in) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 729.0236 cm
Q
q
1 0 0 1 62.69291 717.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
q
0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (exit) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 711.0236 cm
Q
q
1 0 0 1 62.69291 699.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 -3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 10.5 0 Td (\177) Tj T* -10.5 0 Td ET
Q
Q
q
1 0 0 1 23 -3 cm
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0 0 .501961 rg
0 0 .501961 RG
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (continue) Tj T* ET
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1 0 0 1 62.69291 699.0236 cm
Q
q
1 0 0 1 62.69291 633.0236 cm
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BT 1 0 0 1 0 50 Tm .753876 Tw 12 TL /F1 10 Tf 0 0 0 rg (Some verbs have a side effects. A verb may set a boolean success/fail result which may then be tested) Tj T* 0 Tw .428988 Tw (with a subsequent verb. For example the ) Tj /F4 10 Tf 0 0 0 rg (fail ) Tj /F1 10 Tf 0 0 0 rg (verb can be used to indicate the rule fails if a prior result) Tj T* 0 Tw .029318 Tw (is either ) Tj /F4 10 Tf 0 0 0 rg (success ) Tj /F1 10 Tf 0 0 0 rg (or ) Tj /F4 10 Tf 0 0 0 rg (not_success) Tj /F1 10 Tf 0 0 0 rg (. The ) Tj /F4 10 Tf 0 0 0 rg (regexp ) Tj /F1 10 Tf 0 0 0 rg (verb which performs a regular expression search on a) Tj T* 0 Tw .726412 Tw (string stores the regular expression sub-matches as a side effect in the variables ) Tj /F4 10 Tf 0 0 0 rg ($regexp_array ) Tj /F1 10 Tf 0 0 0 rg (and) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg ($regexp_map) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 600.0236 cm
q
BT 1 0 0 1 0 3.5 Tm 21 TL /F2 17.5 Tf 0 0 0 rg (Verb Definitions) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 570.0236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (set) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 552.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (set) Tj ( ) Tj ($variable) Tj ( ) Tj (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 536.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 521.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The variable being assigned \(i.e. lhs\)) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 505.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 490.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value to assign to the variable \(i.e. rhs\). The value may be another variable or a constant.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 472.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F2 10 Tf 0 0 0 rg (set ) Tj /F1 10 Tf (assigns a value to a variable, in other words it's an assignment statement.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 445.0236 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 427.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Initialize a variable to an empty array.) Tj T* ET
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Q
q
1 0 0 1 62.69291 393.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["set", "$groups", []]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 373.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Initialize a variable to an empty associative array.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 340.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["set", "$groups", {}]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 320.6236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Assign a string.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 287.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["set", "$version", "1.2.3"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 267.4236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Copy the ) Tj /F4 10 Tf 0 0 0 rg (UserName ) Tj /F1 10 Tf 0 0 0 rg (value from the assertion to a temporary variable.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 234.2236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["set", "$temp", "$assertion[UserName]"],) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 214.2236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Get the 2nd item in an array \(array indexing is zero based\)) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 181.0236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["set", "$group", "$groups[1]"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 161.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Set the associative array entry "IdP" to "kdc.example.com".) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 127.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["set", "$metadata[IdP]", "kdc.example.com""]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 91.47717 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-19-) Tj T* -232.0549 0 Td ET
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Q
 
endstream
endobj
158 0 obj
<< /Length 6125 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 747.0236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (length) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 729.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (length) Tj ( ) Tj ($variable) Tj ( ) Tj (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 713.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 698.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The variable which receives the length value) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 682.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 667.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value whose length is to be determined. May be one of array, associative array, or string.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 649.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F2 10 Tf 0 0 0 rg (length ) Tj /F1 10 Tf (computes the number of items in the value. How this is done depends upon the type of value:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 633.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 618.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The length is the number of items in the array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 602.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (associative array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 587.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The length is the number of key/value pairs in the associative array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 571.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 556.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (The length is the number of ) Tj /F3 10 Tf (characters ) Tj /F1 10 Tf (\(not octets\) in the string.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 529.0236 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 499.0236 cm
q
BT 1 0 0 1 0 14 Tm 2.338651 Tw 12 TL /F1 10 Tf 0 0 0 rg (Count how many items are in the ) Tj /F4 10 Tf 0 0 0 rg ($groups ) Tj /F1 10 Tf 0 0 0 rg (array and assign that value to the ) Tj /F4 10 Tf 0 0 0 rg ($groups_length) Tj T* 0 Tw /F1 10 Tf 0 0 0 rg (variable.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 465.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["length", "$groups_length", "$groups"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 433.8236 cm
q
BT 1 0 0 1 0 14 Tm .752485 Tw 12 TL /F1 10 Tf 0 0 0 rg (Count how many key/value pairs are in the ) Tj /F4 10 Tf 0 0 0 rg ($assertion ) Tj /F1 10 Tf 0 0 0 rg (associative array and assign that value to the) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg ($num_assertion_values ) Tj /F1 10 Tf 0 0 0 rg (variable.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 400.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["length", "$num_assertion_values", "$assertion"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 368.6236 cm
q
BT 1 0 0 1 0 14 Tm 7.268443 Tw 12 TL /F1 10 Tf 0 0 0 rg (Count how many characters are in the assertion's UserName and assign the value to) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg ($username_length) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 335.4236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["length", "$user_name_length", "$assertion[UserName]"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 299.0772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 269.0772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (interpolate) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 251.0772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (interpolate) Tj ( ) Tj ($variable) Tj ( ) Tj (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 235.0772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 220.0772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (This variable is assigned the result of the interpolation.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 204.0772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 189.0772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (A string containing references to variables which will be replaced in the string.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 159.0772 cm
q
BT 1 0 0 1 0 14 Tm 1.30881 Tw 12 TL /F2 10 Tf 0 0 0 rg (interpolate ) Tj /F1 10 Tf (replaces each occurrence of a variable in a string with it's value. The result is assigned to) Tj T* 0 Tw ($variable.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 132.0772 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 102.0772 cm
q
BT 1 0 0 1 0 14 Tm 1.557633 Tw 12 TL /F1 10 Tf 0 0 0 rg (Form an email address given the username and domain. If the username is "jane" and the domain is) Tj T* 0 Tw ("example.com" then $email will be ") Tj 0 0 .501961 rg (jane@example.com) Tj 0 0 0 rg (") Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-20-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
159 0 obj
<< /Length 5390 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 739.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["interpolate", "$email", "${username}@${domain}"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 703.4772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 673.4772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (append) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 655.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (append) Tj ( ) Tj ($variable) Tj ( ) Tj (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 639.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 624.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (This variable ) Tj /F2 10 Tf (must ) Tj /F1 10 Tf (be an array. It is modified in place by appending ) Tj /F4 10 Tf 0 0 0 rg (value ) Tj /F1 10 Tf 0 0 0 rg (to the end of the array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 608.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 593.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value to append to the end of the array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 575.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F2 10 Tf 0 0 0 rg (append ) Tj /F1 10 Tf (adds a value to end of an array.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 548.4772 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 530.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Append the role "qa_test" to the roles list.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 497.2772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["append", "$roles", "qa_test"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 460.9307 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 430.9307 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (unique) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 412.9307 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (unique) Tj ( ) Tj ($variable) Tj ( ) Tj (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 396.9307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 381.9307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (This variable is assigned the unique values in the ) Tj /F4 10 Tf 0 0 0 rg (value ) Tj /F1 10 Tf 0 0 0 rg (array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 365.9307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 350.9307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (An array of values. ) Tj /F2 10 Tf (must ) Tj /F1 10 Tf (be an array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 320.9307 cm
q
BT 1 0 0 1 0 14 Tm 1.099986 Tw 12 TL /F2 10 Tf 0 0 0 rg (unique ) Tj /F1 10 Tf (builds an array of unique values in ) Tj /F4 10 Tf 0 0 0 rg (value ) Tj /F1 10 Tf 0 0 0 rg (by stripping out duplicates and assigns the array of) Tj T* 0 Tw (unique values to ) Tj /F4 10 Tf 0 0 0 rg ($variable) Tj /F1 10 Tf 0 0 0 rg (. The order of items in the ) Tj /F4 10 Tf 0 0 0 rg (value ) Tj /F1 10 Tf 0 0 0 rg (array are preserved.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 293.9307 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 275.9307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL ($one_of_a_kind will be assigned ["a", "b"]) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 242.7307 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["unique", "$one_of_a_kind", ["a", "b", "a"]]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 206.3843 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 176.3843 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (regexp) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 158.3843 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (regexp) Tj ( ) Tj (string) Tj ( ) Tj (pattern) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 142.3843 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 127.3843 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The string the regular expression pattern is applied to.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 111.3843 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (pattern) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 96.38425 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The regular expression pattern.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-21-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
160 0 obj
<< /Length 6206 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 741.0236 cm
q
BT 1 0 0 1 0 14 Tm 1.098443 Tw 12 TL /F2 10 Tf 0 0 0 rg (regexp ) Tj /F1 10 Tf (performs a regular expression match against ) Tj /F4 10 Tf 0 0 0 rg (string) Tj /F1 10 Tf 0 0 0 rg (. The regular expression pattern syntax is) Tj T* 0 Tw (defined by the regular expression implementation of the language this API is written in.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 699.0236 cm
q
BT 1 0 0 1 0 26 Tm 2.001412 Tw 12 TL /F1 10 Tf 0 0 0 rg (Pattern groups are a convenient way to select sub-matches. Pattern groups may accessed by either) Tj T* 0 Tw .952485 Tw (group number or group name. After a successful regular expression match the groups are stored in the) Tj T* 0 Tw (special variables ) Tj /F4 10 Tf 0 0 0 rg ($regexp_array ) Tj /F1 10 Tf 0 0 0 rg (and ) Tj /F4 10 Tf 0 0 0 rg ($regexp_map) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 657.0236 cm
q
BT 1 0 0 1 0 26 Tm .150651 Tw 12 TL /F4 10 Tf 0 0 0 rg ($regexp_array ) Tj /F1 10 Tf 0 0 0 rg (is used to access the groups by numerical index. Groups are numbered by counting the) Tj T* 0 Tw 2.123318 Tw (left parenthesis group delimiter starting at 1. Group 0 is the entire match. ) Tj /F4 10 Tf 0 0 0 rg ($regexp_array ) Tj /F1 10 Tf 0 0 0 rg (is valid) Tj T* 0 Tw (irregardless of whether you used named groups or not.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 627.0236 cm
q
BT 1 0 0 1 0 14 Tm 1.219985 Tw 12 TL /F4 10 Tf 0 0 0 rg ($regexp_map ) Tj /F1 10 Tf 0 0 0 rg (is used to access the groups by name. ) Tj /F4 10 Tf 0 0 0 rg ($regexp_map ) Tj /F1 10 Tf 0 0 0 rg (is only valid if you used named) Tj T* 0 Tw (groups in the pattern.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 600.0236 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 534.0236 cm
q
BT 1 0 0 1 0 50 Tm .59832 Tw 12 TL /F1 10 Tf 0 0 0 rg (Many user names are of the form ") Tj 0 0 .501961 rg (user@domain) Tj 0 0 0 rg (", to split the username from the domain and to be able) Tj T* 0 Tw 2.444985 Tw (to work with those values independently use a regular expression and then assign the results to a) Tj T* 0 Tw .340574 Tw (variable. In this example there are two regular expression groups, the first group is the username and the) Tj T* 0 Tw 1.974104 Tw (second group is the domain. In the first example we use named groups and then access the match) Tj T* 0 Tw (information in the special variable ) Tj /F4 10 Tf 0 0 0 rg ($regexp_map ) Tj /F1 10 Tf 0 0 0 rg (via the name of the group.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 464.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 60 re B*
Q
q
BT 1 0 0 1 0 38 Tm 12 TL /F4 10 Tf 0 0 0 rg (["regexp", "$assertion[UserName]", "\(?P) Tj (<) Tj (username) Tj (>) Tj (\\\\w+\)@\(?P) Tj (<) Tj (domain) Tj (>) Tj (.+\)"],) Tj T* (["continue", "if_not_success"],) Tj T* (["set", "$username", "$regexp_map[username]"],) Tj T* (["set", "$domain", "$regexp_map[domain]"],) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 432.8236 cm
q
BT 1 0 0 1 0 14 Tm .429985 Tw 12 TL /F1 10 Tf 0 0 0 rg (This is exactly equivalent but uses numbered groups instead of named groups. In this instance the group) Tj T* 0 Tw (matches are stored in the special variable ) Tj /F4 10 Tf 0 0 0 rg ($regexp_array ) Tj /F1 10 Tf 0 0 0 rg (and accessed by numerical index.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 363.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 60 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 38 Tm /F4 10 Tf 12 TL (["regexp", "$assertion[UserName]", "\(\\\\w+\)@\(.+\)"],) Tj T* (["continue", "if_not_success"],) Tj T* (["set", "$username", "$regexp_array[1]"],) Tj T* (["set", "$domain", "$regexp_array[2]"],) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 327.2772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 297.2772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (regexp_replace) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 279.2772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (regexp_replace) Tj ( ) Tj ($variable) Tj ( ) Tj (string) Tj ( ) Tj (pattern) Tj ( ) Tj (replacement) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 263.2772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 248.2772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The variable which receives result of the replacement.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 232.2772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 217.2772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The string to perform the replacement on.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 201.2772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (pattern) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 186.2772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The regular expression pattern.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 170.2772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (replacement) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 155.2772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The replacement specification.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 125.2772 cm
q
BT 1 0 0 1 0 14 Tm .08998 Tw 12 TL /F2 10 Tf 0 0 0 rg (regexp_replace ) Tj /F1 10 Tf (replaces each occurrence of ) Tj /F4 10 Tf 0 0 0 rg (pattern ) Tj /F1 10 Tf 0 0 0 rg (in ) Tj /F4 10 Tf 0 0 0 rg ($string ) Tj /F1 10 Tf 0 0 0 rg (with ) Tj /F4 10 Tf 0 0 0 rg (replacement) Tj /F1 10 Tf 0 0 0 rg (. See ) Tj 0 0 .501961 rg (regexp ) Tj 0 0 0 rg (for) Tj T* 0 Tw (details of using regular expressions.) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-22-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
161 0 obj
<< /Length 5909 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 750.0236 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 732.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Convert hyphens in a name to underscores.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 698.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["regexp_replace", "$name", "$name", "-", "_"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 662.4772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 632.4772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (split) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 614.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (split) Tj ( ) Tj ($variable) Tj ( ) Tj (string) Tj ( ) Tj (pattern) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 598.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 583.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (This variable is assigned an array containing the split items.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 567.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 552.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The string to split into separate items.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 536.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (pattern) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 521.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The regular expression pattern used to split the string.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 479.4772 cm
q
BT 1 0 0 1 0 26 Tm 1.24686 Tw 12 TL /F2 10 Tf 0 0 0 rg (split ) Tj /F1 10 Tf (splits ) Tj /F4 10 Tf 0 0 0 rg (string ) Tj /F1 10 Tf 0 0 0 rg (into separate pieces and assigns the result to ) Tj /F4 10 Tf 0 0 0 rg ($variable ) Tj /F1 10 Tf 0 0 0 rg (as an array of pieces.) Tj T* 0 Tw .715984 Tw (The split occurs wherever the regular expression ) Tj /F4 10 Tf 0 0 0 rg (pattern ) Tj /F1 10 Tf 0 0 0 rg (occurs in ) Tj /F4 10 Tf 0 0 0 rg (string) Tj /F1 10 Tf 0 0 0 rg (. See ) Tj 0 0 .501961 rg (regexp ) Tj 0 0 0 rg (for details of) Tj T* 0 Tw (using regular expressions.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 452.4772 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 422.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL .074431 Tw (Split a list of groups separated by a colon \(:\) into an array of individual group names. If $assertion[Groups]) Tj T* 0 Tw (contained the string "user:admin" then $group_list will set to ["user", "admin"].) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 389.2772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["split", "$group_list", "$assertion[Groups]", ":"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 352.9307 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 322.9307 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (join) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 304.9307 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (join) Tj ( ) Tj ($variable) Tj ( ) Tj (array) Tj ( ) Tj (join_string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 288.9307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 273.9307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (This variable is assigned the string result of the join operation.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 257.9307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 242.9307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (An array of string items to be joined together with ) Tj /F4 10 Tf 0 0 0 rg ($join_string) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 226.9307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (join_string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 211.9307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (The string inserted between each element in ) Tj /F4 10 Tf 0 0 0 rg (array) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 181.9307 cm
q
BT 1 0 0 1 0 14 Tm .074987 Tw 12 TL /F2 10 Tf 0 0 0 rg (join ) Tj /F1 10 Tf (accepts an array of strings and produces a single string where each element in the array is separated) Tj T* 0 Tw (by ) Tj /F4 10 Tf 0 0 0 rg (join_string) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 154.9307 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 112.9307 cm
q
BT 1 0 0 1 0 26 Tm .817488 Tw 12 TL /F1 10 Tf 0 0 0 rg (Convert a list of group names into a single string where each group name is separated by a colon \(:\). If) Tj T* 0 Tw 1.533059 Tw (the array ) Tj /F4 10 Tf 0 0 0 rg ($group_list ) Tj /F1 10 Tf 0 0 0 rg (is ["user", "admin"] and the ) Tj /F4 10 Tf 0 0 0 rg (join_string ) Tj /F1 10 Tf 0 0 0 rg (is ":" then the ) Tj /F4 10 Tf 0 0 0 rg ($group_string) Tj T* 0 Tw /F1 10 Tf 0 0 0 rg (variable will be set to "user:admin".) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-23-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
162 0 obj
<< /Length 6038 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 739.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["join", "$group_string", "$groups", ":"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 703.4772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 673.4772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (lower) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 655.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (lower) Tj ( ) Tj ($variable) Tj ( ) Tj (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 639.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 624.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (This variable is assigned the result of the lower operation.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 608.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 593.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value to lower case, may be either a string, array, or associative array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 575.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F2 10 Tf 0 0 0 rg (lower ) Tj /F1 10 Tf (lower cases the input value. The input value may be one of the following types:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 559.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 544.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The string is lower cased.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 528.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 501.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 14 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL 1.242619 Tw (Each member of the array must be a string, the result is an array with the items replaced by their) Tj T* 0 Tw (lower case value.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 485.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (associative array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 458.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 14 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 14 Tm 2.587485 Tw 12 TL /F1 10 Tf 0 0 0 rg (Each key in the associative array is lower cased. The values associated with the key are ) Tj /F2 10 Tf (not) Tj T* 0 Tw /F1 10 Tf (modified.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 431.4772 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 413.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Lookup ) Tj /F4 10 Tf 0 0 0 rg (UserName ) Tj /F1 10 Tf 0 0 0 rg (in the assertion and set the variable ) Tj /F4 10 Tf 0 0 0 rg ($username ) Tj /F1 10 Tf 0 0 0 rg (to it's lower case value.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 380.2772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["lower", "$username", "$assertion[UserName]"],) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 348.2772 cm
q
BT 1 0 0 1 0 14 Tm .416457 Tw 12 TL /F1 10 Tf 0 0 0 rg (Set each member of the ) Tj /F4 10 Tf 0 0 0 rg ($groups ) Tj /F1 10 Tf 0 0 0 rg (array to it's lower case value. If ) Tj /F4 10 Tf 0 0 0 rg ($groups ) Tj /F1 10 Tf 0 0 0 rg (was ["User", "Admin"] then) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg ($groups ) Tj /F1 10 Tf 0 0 0 rg (will become ["user", "admin"].) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 315.0772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["lower", "$groups", "$groups"],) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 283.0772 cm
q
BT 1 0 0 1 0 14 Tm .065868 Tw 12 TL /F1 10 Tf 0 0 0 rg (To enable case insensitive lookup's in an associative array lower case each key in the associative array. If) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg ($assertion ) Tj /F1 10 Tf 0 0 0 rg (was {"UserName": "JoeUser"} then ) Tj /F4 10 Tf 0 0 0 rg ($assertion ) Tj /F1 10 Tf 0 0 0 rg (will become {"username": "JoeUser"}) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 249.8772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 24 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F4 10 Tf 12 TL (["lower", "$assertion", $assertion"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 213.5307 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 183.5307 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (upper) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 165.5307 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (upper) Tj ( ) Tj ($variable) Tj ( ) Tj (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 149.5307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL ($variable) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 134.5307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (This variable is assigned the result of the upper operation.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 118.5307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (value) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 103.5307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value to upper case, may be either a string, array, or associative array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-24-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
163 0 obj
<< /Length 6022 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 753.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F2 10 Tf 0 0 0 rg (upper ) Tj /F1 10 Tf (is exactly analogous to ) Tj 0 0 .501961 rg (lower ) Tj 0 0 0 rg (except the values are upper cased, see ) Tj 0 0 .501961 rg (lower ) Tj 0 0 0 rg (for details.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 724.6772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 694.6772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (in) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 676.6772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (in) Tj ( ) Tj (member) Tj ( ) Tj (collection) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 660.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (member) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 645.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value whose membership is being tested.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 629.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (collection) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 614.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (A collection of members. May be string, array or associative array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 584.6772 cm
q
BT 1 0 0 1 0 14 Tm 1.200542 Tw 12 TL /F2 10 Tf 0 0 0 rg (in ) Tj /F1 10 Tf (tests to see if ) Tj /F4 10 Tf 0 0 0 rg (member ) Tj /F1 10 Tf 0 0 0 rg (is a member of ) Tj /F4 10 Tf 0 0 0 rg (collection) Tj /F1 10 Tf 0 0 0 rg (. The membership test depends on the type of) Tj T* 0 Tw (collection, the following are supported:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 568.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 553.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (If any item in the array is equal to ) Tj /F4 10 Tf 0 0 0 rg (member ) Tj /F1 10 Tf 0 0 0 rg (then the result is success.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 537.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (associative array) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 522.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (If the associative array contains a key equal to ) Tj /F4 10 Tf 0 0 0 rg (member ) Tj /F1 10 Tf 0 0 0 rg (then the result is success.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 506.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (string) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 491.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (If the string contains a sub-string equal to ) Tj /F4 10 Tf 0 0 0 rg (member ) Tj /F1 10 Tf 0 0 0 rg (then the result is success.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 464.6772 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 446.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test to see if the assertion contains a UserName value.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 401.4772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 36 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F4 10 Tf 12 TL (["in", "UserName", "$assertion"]) Tj T* (["continue", "if_not_success"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 381.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Test to see if a group is one of "user" or "admin".) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 336.2772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 36 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F4 10 Tf 12 TL (["in", "$group", ["user", "admin"]]) Tj T* (["continue", "if_not_success"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 316.2772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Test to see if the sub-string "BigCorp" is in the assertion's ) Tj /F4 10 Tf 0 0 0 rg (Provider ) Tj /F1 10 Tf 0 0 0 rg (value.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 271.0772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 36 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F4 10 Tf 12 TL (["in", "BigCorp", "$assertion[Provider]"]) Tj T* (["continue", "if_not_success"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 234.7307 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 204.7307 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (not_in) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 186.7307 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (in) Tj ( ) Tj (member) Tj ( ) Tj (collection) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 170.7307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (member) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 155.7307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The value whose membership is being tested.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 139.7307 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (collection) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 124.7307 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (A collection of members. May be string, array or associative array.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 106.7307 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F2 10 Tf 0 0 0 rg (not_in ) Tj /F1 10 Tf (is exactly analogous to ) Tj 0 0 .501961 rg (in ) Tj 0 0 0 rg (except the sense of the test is reversed. See ) Tj 0 0 .501961 rg (in ) Tj 0 0 0 rg (for details.) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-25-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
164 0 obj
<< /Length 11031 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 736.6772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 706.6772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (compare) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 688.6772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (compare) Tj ( ) Tj (left) Tj ( ) Tj (operator) Tj ( ) Tj (right) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 672.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (left) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 657.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The left hand value of the binary operator.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 641.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (operator) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 626.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The binary operator used for comparing left to right.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 610.6772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (right) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 595.6772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The right hand value of the binary operator.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 565.6772 cm
q
BT 1 0 0 1 0 14 Tm 2.41061 Tw 12 TL /F2 10 Tf 0 0 0 rg (compare ) Tj /F1 10 Tf (compares the left value to the right value according the operator and sets success if the) Tj T* 0 Tw (comparison evaluates to True. The following relational operators are supported.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 559.6772 cm
Q
q
1 0 0 1 62.69291 433.6772 cm
1 1 1 rg
n 0 126 469.8898 -18 re f*
.878431 .878431 .878431 rg
n 0 108 469.8898 -18 re f*
1 1 1 rg
n 0 90 469.8898 -18 re f*
.878431 .878431 .878431 rg
n 0 72 469.8898 -18 re f*
1 1 1 rg
n 0 54 469.8898 -18 re f*
.878431 .878431 .878431 rg
n 0 36 469.8898 -18 re f*
1 1 1 rg
n 0 18 469.8898 -18 re f*
.960784 .960784 .862745 rg
n 0 126 469.8898 -18 re f*
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 111 cm
q
.960784 .960784 .862745 rg
n 0 0 130.3908 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 45.46542 0 Td (Operator) Tj T* -45.46542 0 Td ET
Q
Q
q
1 0 0 1 148.3908 111 cm
q
.960784 .960784 .862745 rg
n 0 0 315.4989 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 132.7445 0 Td (Description) Tj T* -132.7445 0 Td ET
Q
Q
0 0 0 rg
q
1 0 0 1 6 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (==) Tj T* ET
Q
Q
q
1 0 0 1 148.3908 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (equal) Tj T* ET
Q
Q
q
1 0 0 1 6 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (!=) Tj T* ET
Q
Q
q
1 0 0 1 148.3908 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (not equal) Tj T* ET
Q
Q
q
1 0 0 1 6 57 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (<) Tj T* ET
Q
Q
q
1 0 0 1 148.3908 57 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (less than) Tj T* ET
Q
Q
q
1 0 0 1 6 39 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (<) Tj (=) Tj T* ET
Q
Q
q
1 0 0 1 148.3908 39 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (less than or equal) Tj T* ET
Q
Q
q
1 0 0 1 6 21 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (>) Tj T* ET
Q
Q
q
1 0 0 1 148.3908 21 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (greater than) Tj T* ET
Q
Q
q
1 0 0 1 6 3 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (>) Tj (=) Tj T* ET
Q
Q
q
1 0 0 1 148.3908 3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (greater than or equal) Tj T* ET
Q
Q
q
1 J
1 j
0 0 0 RG
.25 w
n 0 108 m 469.8898 108 l S
n 0 90 m 469.8898 90 l S
n 0 72 m 469.8898 72 l S
n 0 54 m 469.8898 54 l S
n 0 36 m 469.8898 36 l S
n 0 18 m 469.8898 18 l S
n 142.3908 0 m 142.3908 126 l S
n 0 126 m 469.8898 126 l S
n 0 0 m 469.8898 0 l S
n 0 0 m 0 126 l S
n 469.8898 0 m 469.8898 126 l S
Q
Q
q
1 0 0 1 62.69291 433.6772 cm
Q
q
1 0 0 1 62.69291 379.6772 cm
q
BT 1 0 0 1 0 38 Tm .320542 Tw 12 TL /F1 10 Tf 0 0 0 rg (The left and right hand sides of the comparison operator ) Tj /F3 10 Tf (must ) Tj /F1 10 Tf (be the same type, no type conversions are) Tj T* 0 Tw 2.43784 Tw (performed. Not all combinations of operator and type are supported. The table below illustrates the) Tj T* 0 Tw 1.126651 Tw (supported combinations. Essentially you can test for equality or inequality on any type. But only strings) Tj T* 0 Tw (and numbers support the magnitude relational operators.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 373.6772 cm
Q
q
1 0 0 1 62.69291 247.6772 cm
1 1 1 rg
n 0 126 469.8898 -18 re f*
.878431 .878431 .878431 rg
n 0 108 469.8898 -18 re f*
1 1 1 rg
n 0 90 469.8898 -18 re f*
.878431 .878431 .878431 rg
n 0 72 469.8898 -18 re f*
1 1 1 rg
n 0 54 469.8898 -18 re f*
.878431 .878431 .878431 rg
n 0 36 469.8898 -18 re f*
1 1 1 rg
n 0 18 469.8898 -18 re f*
.960784 .960784 .862745 rg
n 0 126 469.8898 -18 re f*
0 0 0 rg
BT /F1 10 Tf 12 TL ET
q
1 0 0 1 6 111 cm
q
.960784 .960784 .862745 rg
n 0 0 67.64233 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 14.09117 0 Td (Operator) Tj T* -14.09117 0 Td ET
Q
Q
q
1 0 0 1 85.64233 111 cm
q
.960784 .960784 .862745 rg
n 0 0 51.71387 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 6.966933 0 Td (STRING) Tj T* -6.966933 0 Td ET
Q
Q
q
1 0 0 1 149.3562 111 cm
q
.960784 .960784 .862745 rg
n 0 0 59.6781 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 7.61405 0 Td (INTEGER) Tj T* -7.61405 0 Td ET
Q
Q
q
1 0 0 1 221.0343 111 cm
q
.960784 .960784 .862745 rg
n 0 0 35.7854 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 4.8327 0 Td (REAL) Tj T* -4.8327 0 Td ET
Q
Q
q
1 0 0 1 268.8197 111 cm
q
.960784 .960784 .862745 rg
n 0 0 59.6781 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.66405 0 Td (BOOLEAN) Tj T* -5.66405 0 Td ET
Q
Q
q
1 0 0 1 340.4978 111 cm
q
.960784 .960784 .862745 rg
n 0 0 27.82117 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 3.075583 0 Td (MAP) Tj T* -3.075583 0 Td ET
Q
Q
q
1 0 0 1 380.319 111 cm
q
.960784 .960784 .862745 rg
n 0 0 35.7854 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 7.3327 0 Td (LIST) Tj T* -7.3327 0 Td ET
Q
Q
q
1 0 0 1 428.1044 111 cm
q
.960784 .960784 .862745 rg
n 0 0 35.7854 12 re f*
Q
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 5.1127 0 Td (NULL) Tj T* -5.1127 0 Td ET
Q
Q
0 0 0 rg
q
1 0 0 1 6 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (==) Tj T* ET
Q
Q
q
1 0 0 1 85.64233 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 149.3562 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 221.0343 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 268.8197 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 340.4978 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 380.319 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 428.1044 93 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 6 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (!=) Tj T* ET
Q
Q
q
1 0 0 1 85.64233 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 149.3562 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 221.0343 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 268.8197 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 340.4978 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 380.319 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 428.1044 75 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 6 57 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (<) Tj T* ET
Q
Q
q
1 0 0 1 85.64233 57 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 149.3562 57 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 221.0343 57 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 6 39 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (<) Tj (=) Tj T* ET
Q
Q
q
1 0 0 1 85.64233 39 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 149.3562 39 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 221.0343 39 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 6 21 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (>) Tj T* ET
Q
Q
q
1 0 0 1 85.64233 21 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 149.3562 21 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 221.0343 21 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 6 3 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (>) Tj (=) Tj T* ET
Q
Q
q
1 0 0 1 85.64233 3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 149.3562 3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 0 0 1 221.0343 3 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (X) Tj T* ET
Q
Q
q
1 J
1 j
0 0 0 RG
.25 w
n 0 108 m 469.8898 108 l S
n 0 90 m 469.8898 90 l S
n 0 72 m 469.8898 72 l S
n 0 54 m 469.8898 54 l S
n 0 36 m 469.8898 36 l S
n 0 18 m 469.8898 18 l S
n 79.64233 0 m 79.64233 126 l S
n 143.3562 0 m 143.3562 126 l S
n 215.0343 0 m 215.0343 126 l S
n 262.8197 0 m 262.8197 126 l S
n 334.4978 0 m 334.4978 126 l S
n 374.319 0 m 374.319 126 l S
n 422.1044 0 m 422.1044 126 l S
n 0 126 m 469.8898 126 l S
n 0 0 m 469.8898 0 l S
n 0 0 m 0 126 l S
n 469.8898 0 m 469.8898 126 l S
Q
Q
q
1 0 0 1 62.69291 247.6772 cm
Q
q
1 0 0 1 62.69291 220.6772 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 202.6772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Test to see if the ) Tj /F4 10 Tf 0 0 0 rg ($groups ) Tj /F1 10 Tf 0 0 0 rg (array has at least 2 members) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 157.4772 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 36 re B*
Q
q
BT 1 0 0 1 0 14 Tm 12 TL /F4 10 Tf 0 0 0 rg (["length", "$group_length", "$groups"],) Tj T* (["compare", "$group_length", ") Tj (>) Tj (=", 2]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 121.1307 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-26-) Tj T* -232.0549 0 Td ET
Q
Q
 
endstream
endobj
165 0 obj
<< /Length 6843 >>
stream
1 0 0 1 0 0 cm  BT /F1 12 Tf 14.4 TL ET
q
1 0 0 1 62.69291 747.0236 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (exit) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 729.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (exit) Tj ( ) Tj (status) Tj ( ) Tj (criteria) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 713.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (status) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 698.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The result for the rule.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 682.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (criteria) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 667.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The criteria upon which will cause the rule will be immediately exited with a failed status.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 625.0236 cm
q
BT 1 0 0 1 0 26 Tm 1.094431 Tw 12 TL /F2 10 Tf 0 0 0 rg (exit ) Tj /F1 10 Tf (causes the rule being executed to immediately exit and a rule result if the specified criteria is met.) Tj T* 0 Tw .433876 Tw (Statement verbs such as ) Tj 0 0 .501961 rg (in ) Tj 0 0 0 rg (or ) Tj 0 0 .501961 rg (compare ) Tj 0 0 0 rg (set the result status which may be tested with the ) Tj /F4 10 Tf 0 0 0 rg (success ) Tj /F1 10 Tf 0 0 0 rg (and) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg (not_success ) Tj /F1 10 Tf 0 0 0 rg (criteria.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 607.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (The exit ) Tj /F4 10 Tf 0 0 0 rg (status ) Tj /F1 10 Tf 0 0 0 rg (may be one of:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 591.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (rule_fails) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 576.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The rule has failed and no mapping will occur.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 560.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (rule_succeeds) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 545.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The rule succeeded and the mapping will be applied.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 527.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (The ) Tj /F4 10 Tf 0 0 0 rg (criteria ) Tj /F1 10 Tf 0 0 0 rg (may be one of:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 511.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (if_success) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 496.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (If current result status is success then exit with ) Tj /F4 10 Tf 0 0 0 rg (status) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 480.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (if_not_success) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 465.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (If current result status is not success then exit with ) Tj /F4 10 Tf 0 0 0 rg (status) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 449.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (always) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 434.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (Unconditionally exit with ) Tj /F4 10 Tf 0 0 0 rg (status) Tj /F1 10 Tf 0 0 0 rg (.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 418.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (never) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 403.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Effectively a no-op. Useful for debugging.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 376.0236 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 358.0236 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (The rule requires ) Tj /F4 10 Tf 0 0 0 rg (UserName ) Tj /F1 10 Tf 0 0 0 rg (to be in the assertion.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 312.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 36 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F4 10 Tf 12 TL (["in", "UserName", "$assertion"]) Tj T* (["exit", "rule_fails", "if_not_success"]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 276.4772 cm
n 0 14.17323 m 469.8898 14.17323 l S
Q
q
1 0 0 1 62.69291 246.4772 cm
q
BT 1 0 0 1 0 3 Tm 18 TL /F2 15 Tf 0 0 0 rg (continue) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 228.4772 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F4 10 Tf 0 0 0 rg (continue) Tj ( ) Tj (criteria) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 212.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (criteria) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 197.4772 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
BT 1 0 0 1 0 2 Tm 12 TL /F1 10 Tf 0 0 0 rg (The criteria which causes the remainder of the ) Tj /F3 10 Tf (block ) Tj /F1 10 Tf (to be skipped.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 155.4772 cm
q
BT 1 0 0 1 0 26 Tm .277356 Tw 12 TL /F2 10 Tf 0 0 0 rg (continue ) Tj /F1 10 Tf (is used to control execution for statement blocks. It mirrors in a crude way the ) Tj /F3 10 Tf 0 0 0 rg (if ) Tj /F1 10 Tf 0 0 0 rg (expression in a) Tj T* 0 Tw .112485 Tw (procedural language. ) Tj /F4 10 Tf 0 0 0 rg (continue ) Tj /F1 10 Tf 0 0 0 rg (does ) Tj /F3 10 Tf (not ) Tj /F1 10 Tf (affect the success or failure of a rule, rather it controls whether) Tj T* 0 Tw (subsequent statements in a block are executed or not. Control continues at the next statement block.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 125.4772 cm
q
BT 1 0 0 1 0 14 Tm .433876 Tw 12 TL /F1 10 Tf 0 0 0 rg (Statement verbs such as ) Tj 0 0 .501961 rg (in ) Tj 0 0 0 rg (or ) Tj 0 0 .501961 rg (compare ) Tj 0 0 0 rg (set the result status which may be tested with the ) Tj /F4 10 Tf 0 0 0 rg (success ) Tj /F1 10 Tf 0 0 0 rg (and) Tj T* 0 Tw /F4 10 Tf 0 0 0 rg (not_success ) Tj /F1 10 Tf 0 0 0 rg (criteria.) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 107.4772 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The criteria may be one of:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 91.47717 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (if_success) Tj T* ET
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-27-) Tj T* -232.0549 0 Td ET
Q
Q
 
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q
1 0 0 1 62.69291 738.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 14 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL 1.22936 Tw (If current result status is success then exit the statement block and continue execution at the next) Tj T* 0 Tw (statement block.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 722.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (if_not_success) Tj T* ET
Q
Q
q
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0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 14 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 14 Tm /F1 10 Tf 12 TL .175868 Tw (If current result status is not success then exit the statement block and continue execution at the next) Tj T* 0 Tw (statement block.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 679.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (always) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 664.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Immediately exit the statement block and continue execution at the next statement block.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 648.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F2 10 Tf 12 TL (never) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 633.0236 cm
0 0 0 rg
BT /F1 10 Tf 12 TL ET
BT 1 0 0 1 0 2 Tm  T* ET
q
1 0 0 1 20 0 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (Effectively a no-op. Useful for debugging. Execution continues at the next statement.) Tj T* ET
Q
Q
q
Q
Q
q
1 0 0 1 62.69291 606.0236 cm
q
BT 1 0 0 1 0 2.5 Tm 15 TL /F6 12.5 Tf 0 0 0 rg (Examples:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 588.0236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (The following pseudo code:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 482.8236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 96 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 74 Tm /F4 10 Tf 12 TL (roles = [];) Tj T* (if \("Groups" in assertion\) {) Tj T* (    groups = assertion["Groups"].split\(":"\);) Tj T* (    if \("qa_test" in groups\) {) Tj T* (        roles.append\("tester"\);) Tj T* (    }) Tj T* (}) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 62.69291 462.8236 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL (could be implemented this way:) Tj T* ET
Q
Q
q
1 0 0 1 62.69291 333.6236 cm
q
q
1 0 0 1 0 0 cm
q
1 0 0 1 6.6 6.6 cm
q
.662745 .662745 .662745 RG
.5 w
.960784 .960784 .862745 rg
n -6 -6 468.6898 120 re B*
Q
q
0 0 0 rg
BT 1 0 0 1 0 98 Tm /F4 10 Tf 12 TL ([) Tj T* (    ["set", "$roles", []],) Tj T* (    ["in", "Groups", "$assertion"],) Tj T* (    ["continue", "if_not_success"],) Tj T* (    ["split" "$groups", $assertion[Groups]", ":"],) Tj T* (    ["in", "qa_test", "$groups"],) Tj T* (    ["continue", "if_not_success"],) Tj T* (    ["append", "$roles", "tester"]) Tj T* (]) Tj T* ET
Q
Q
Q
Q
Q
q
1 0 0 1 56.69291 56.69291 cm
q
0 0 0 rg
BT 1 0 0 1 0 2 Tm /F1 10 Tf 12 TL 232.0549 0 Td (-28-) Tj T* -232.0549 0 Td ET
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