Suds is a lightweight SOAP-based web service client for Python
licensed under LGPL (see the LICENSE.txt
file included in the
distribution).
Although the original suds
package stopped releasing versions after 0.4
,
many (but not all) other open source projects moved to a maintained fork known
as "suds-jurko". This is a community fork of that fork that is releasing
packages under the main suds
package name (and suds-community
for
consistency until version 2.x of this package).
Forked project information
- Project site - https://github.com/suds-community/suds
- Official releases can be downloaded from:
Original suds Python library development project information
For development notes see the HACKING.rst
document included in the
distribution.
Standard Python installation.
Here are the basic instructions for 3 different installation methods:
- Using
pip
- Have the
pip
package installed. - Run
pip install suds
.
- Have the
- Using
easy-install
- Have the
setuptools
package installed. - Run
easy_install suds
.
- Have the
- From sources
- Unpack the source package somewhere.
- Run
python setup.py install
from the source distribution's top level folder.
- Released prior to
0.7
have many known installation issues requiring the target Python environment to be manually prepared when using some ancient Python versions, e.g. 2.4, 2.5 or 3.1. - Releases
0.4.1. jurko 5 < x <= 0.6
may not be installed usingpip
into a Python environment with an already installedsetuptools
package older than the version expected by our project. Displayed error message includes instructions on how to manually upgrade the installedsetuptools
package before rerunning our installation.pip
internally imports existingsetuptools
packages before running our setup, thus preventing us from upgrading the existingsetuptools
installation inplace.
- If automated
setuptools
Python package installation fails (used in releases0.4.1 jurko 5
and later), e.g. due to PyPI web site not being available, user might need to install it manually and then rerun the installation. - Releases prior to
0.4.1. jurko 5
will fail if thedistribute
Python package is not already installed on the system. - Python 2.4.3 on Windows has problems using automated
setuptools
Python package downloads via the HTTPS protocol, and therefore does not work correctly with PyPI which uses HTTPS links to all of its packages. The same does not occur when using Python version 2.4.4.
Basic features:
- No class generation
- Provides an object-like API.
- Reads wsdl at runtime for encoding/decoding
- Provides for the following SOAP (style) binding/encoding:
- Document/Literal
- RPC/Literal
- RPC/Encoded (section 5)
The goal of suds is to present an RPC-like interface into soap-based web services. This means that in most cases, users do not need to be concerned with the complexities of the WSDL and referenced schemas. Regardless of which soap message style is specified, the signature of the service methods remain the same. Uses that do examine the WSDL will notice that even with the document soap message style, the signature of each method resembles an RPC. The method signature contains the contents of the document defined for the message instead of the document itself.
The primary interface into the library is the
Client
object. It provides methods for configuring the library and (2)
sub-namespaces defined below. When the
Client
is created, it processes the wsdl and referenced schema(s).
From this information, it derives a representation of this information
which is used to provide the user with a service description and
for message/reply processing.
See .github/workflows/test_and_release.yml
for supported Python versions. The goal is to support
currently maintained versions of Python.
The suds package use the Python standard lib logging package: all messages are at level DEBUG or ERROR.
To register a console handler you can use basicConfig:
import logging
logging.basicConfig(level=logging.INFO)
Once the console handler is configured, the user can enable module specific debugging doing the following: logging.getLogger(<desired package>).setLevel(logging.<desired-level>) A common example (show sent/received soap messages):
logging.getLogger('suds.client').setLevel(logging.DEBUG)
Suggested modules for debugging:
- suds.client:: Set the logging level to DEBUG on this module to see soap messages (in & out) and http headers.
- suds.transport:: Set the logging level to DEBUG on this module to see more details about soap messages (in& out) and http headers.
- suds.xsd.schema:: Set the logging level to DEBUG on this module to see digestion of the schema(s).
- suds.wsdl:: Set the logging level to
DEBUG
on this module to see digestion WSDL.
Version: API^3^
The suds
Client
class provides a consolidated API for consuming web services.
The object contains (2) sub-namespaces:
service:: The
service
namespace provides a proxy for the consumed service. This
object is used to invoke operations (methods) provided by the service
endpoint.
factory:: The
factory
namespace provides a factory that may be used to create
instances of objects and types defined in the WSDL.
You will need to know the url for WSDL for each service used. Simply create a client for that service as follows:
from suds.client import Client
url = 'http://localhost:7080/webservices/WebServiceTestBean?wsdl'
client = Client(url)
You can inspect service object with: __str()__
as follows to get a
list of methods provide by the service:
print(client)
Suds - version: 0.3.3 build: (beta) R397-20081121
Service (WebServiceTestBeanService) tns="http://test.server.enterprise.rhq.org/"
Prefixes (1):
ns0 = "http://test.server.enterprise.rhq.org/"
Ports (1):
(Soap)
Methods:
addPerson(Person person, )
echo(xs:string arg0, )
getList(xs:string str, xs:int length, )
getPercentBodyFat(xs:string name, xs:int height, xs:int weight)
getPersonByName(Name name, )
hello()
testExceptions()
testListArg(xs:string[] list, )
testVoid()
updatePerson(AnotherPerson person, name name, )
Types (23):
Person
Name
Phone
AnotherPerson
note: See example of service with multiple ports below.
The sample output lists that the service named
WebServiceTestBeanService
has methods such as
getPercentBodyFat() and addPerson().
Let's start with the simple example. The getPercentBodyFat() method has
the signature of getPercentBodyFat(xs:string
name,
xs:int
height, xs:int
weight). In this case, the
parameters are simple
types. That is, they not objects. This
method would be invoked as follows:
result = client.service.getPercentBodyFat('jeff', 68, 170)
print(result)
You have 21% body fat.
result = client.service.getPercentBodyFat(name='jeff', height=68, weight=170)
print(result)
You have 21% body fat.
d = dict(name='jeff', height=68, weight=170)
result = client.service.getPercentBodyFat(**d)
print(result)
You have 21% body fat.
The addPerson() method takes a person
argument of type:
Person
and has a signature of: addPerson(Person
person,
) where parameter type is printed followed by it's name. There is a
type (or class) named 'person' which is coincidentally the same name
as the argument. Or in the case of getPercentBodyFat() the parameters
are string of type xs:string and integer of type xs:int.
So, to create a Person
object to pass as an argument we need to
get a person argument using the factory
sub-namespace as
follows:
person = client.factory.create('Person')
print(person)
(Person)=
{
phone = []
age = NONE
name(Name) =
{
last = NONE
first = NONE
}
}
As you can see, the object is created as defined by the WSDL. The list
of phone number is empty so we'll have to create a Phone
object:
phone = client.factory.create('Phone')
phone.npa = 202
phone.nxx = 555
phone.number = 1212
... and the name (Name object) and age need to be set and we need to create a name object first:
name = client.factory.create('Name')
name.first = 'Elmer'
name.last = 'Fudd'
Now, let's set the properties of our Person
object
person.name = name
person.age = 35
person.phone = [phone]
or
person.phone.append(phone)
\... and invoke our method named addPerson() as follows:
```py
try:
person_added = client.service.addPerson(person)
except WebFault as e:
print(e)
It's that easy.
The ability to use python dict
to represent complex objects was
re-introduced in 0.3.8. However, this is not the preferred
method because it may lead to passing incomplete objects. Also, this
approach has a significant limitation. Users may not use python
dict
for complex objects when they are subclasses (or
extensions) of types defined in the wsdl/schema. In other words, if the
schema defines a type to be an Animal
and you wish to pass a
Dog
(assumes Dog isa
Animal), you may not use a
dict
to represent the dog. In this case, suds needs to set the
xsi:type="Dog" but cannot because the python dict
does not
provide enough information to indicate that it is a Dog
not an
Animal
. Most likely, the server will reject the request and
indicate that it cannot instantiate a abstract Animal
.
Note: version 0.3.8+
Just like the factory example, let's assume the addPerson() method
takes a person
argument of type: Person
. So, to create a
Person
object to pass as an argument we need to get a person
object and we can do so by creating a simple python dict
.
person = {}
According to the WSDL we know that the Person contains a list of Phone
objects so we'll need dict
s for them as well.
phone = {
'npa':202,
'nxx':555,
'number':1212,
}
... and the name (Name object) and age need to be set and we need to create a name object first:
name = {
'first':'Elmer',
'last':'Fudd'
}
Now, let's set the properties of our Person
object
person['name'] = name
person['age'] = 35
person['phone'] = [phone,]
... and invoke our method named addPerson() as follows:
try:
person_added = client.service.addPerson(person)
except WebFault as e:
print(e)
The Client can be configured to throw web faults as WebFault
or to
return a tuple (<status>, <returned-value>) instead as follows:
client = client(url, faults=False)
result = client.service.addPerson(person)
print(result)
( 200, person ...)
The suds
client
has many that may be used to control the behavior of the
library. Some are
general options
and others are
transport options
. Although, the options objects are exposed, the
preferred and supported way to set/unset options is through:
- The
Client
constructor - The
Client
.set_options() - The
Transport
constructor(s).
General options are as follows:
- faults:: Controls web fault behavior.
- service:: Controls the default service name for multi-service wsdls.
- port:: Controls the default service port for multi-port services.
- location:: This overrides the service port address URL defined in the WSDL.
- transport:: Controls the plugin web
transport
. - cache:: Provides caching of documents and objects related to loading the WSDL. Soap envelopes are never cached.
- cachingpolicy:: The caching policy, determines how data is cached. The default is 0. version 0.4+
- 0 = XML documents such as WSDL & XSD.
- 1 = WSDL object graph.
- soapheaders:: Provides for soap headers.
- wsse:: Provides for WS-Security object. \
- __inject`:: Controls message/reply message injection.
- doctor:: The schema
doctor
specifies an object used to fix broken schema(s). - xstq:: The XML schema type qualified flag indicates that
xsi:type
attribute values should be qualified by namespace. - prefixes:: Elements of the soap message should be qualified (when needed) using XML prefixes as opposed to xmlns="" syntax.
- retxml:: Flag that causes the I{raw} soap envelope to be returned instead of the python object graph.
- autoblend:: Flag that ensures that the schema(s) defined within the WSDL import each other.
- nosend:: Flag that causes suds to generate the soap envelope but not send it. Instead, a
RequestContext
is returned Default: False. - sortnamespaces:: Flag that causes suds to sort namespaces alphabetically on storing them. Default: True.
- allowUnknownMessageParts:: Raise exceptions when unknown message parts are detected when receiving a web service reply, compared to the operation's WSDL schema definition. Default: False.
Transport options passed to the Client
contructor are only used if the default transport is used, they are as follows:
- proxy:: Controls http proxy settings.
- timeout:: The URL connection timeout (seconds) default=90. A timeout can also be set per method invocation.
- headers:: Provides for
extra
http headers. - username:: username for HTTP authentication.
- password:: password for HTTP authentication.
Various ways that suds behaves can be customized by swapping out custom
In some unreleased versions of suds-jurko, all children elements were populated with empty lists. This was fixed in suds-community as a regression. This can be desired behavior as it simplifies constructing complex requests. To obtain the prior behavior, use a custom Builder
class, for example:
from suds.client import Client, Builder
class AlwaysInitializeBuilder(Builder):
def skip_value(self, type):
return False # always set value
client = Client(url)
client.factory.builder = AlwaysInitializeBuilder(client.factory.builder.resolver)
Enumerations are handled as follows:
Let's say the wsdl defines the following enumeration:
<xs:simpleType name="resourceCategory">
<xs:restriction base="xs:string">
<xs:enumeration value="PLATFORM"/>
<xs:enumeration value="SERVER"/>
<xs:enumeration value="SERVICE"/>
</xs:restriction>
</xs:simpleType>
The client can instantiate the enumeration so it can be used. Misspelled
references to elements of the enum
will raise a AttrError
exception as:
resourceCategory = client.factory.create('resourceCategory')
client.service.getResourceByCategory(resourceCategory.PLATFORM)
The
factory
is used to create complex objects defined the the wsdl/schema.
This is not necessary for parameters or types that are specified
as simple
types such as xs:string, xs:int, etc ...
The create() method should always be used becuase it returns objects that already have the proper structure and schema-type information. Since xsd supports nested type definition, so does create() using the (.) dot notation. For example suppose the (Name) type was not defined as a top level "named" type but rather defined within the (Person) type. In this case creating a (Name) object would have to be quanified by it's parent's name using the dot notation as follows:
name = client.factory.create('Person.Name')
If the type is in the same namespace as the wsdl (targetNamespace) then it may be referenced without any namespace qualification. If not, the type must be qualifed by either a namespace prefix such as:
name = client.factory.create('ns0:Person')
Or, the name can be fully qualified by the namespace itself using the full qualification syntax as (as of 0.2.6):
name = client.factory.create('{http://test.server.enterprise.rhq.org/}person')
Qualified names can only be used for the first part of the name, when using (.) dot notation to specify a path.
Some services are defined with multiple ports as:
<wsdl:service name="BLZService">
<wsdl:port name="soap" binding="tns:BLZServiceSOAP11Binding">
<soap:address location="http://www.thomas-bayer.com:80/axis2/services/BLZService"/>
</wsdl:port>
<wsdl:port name="soap12" binding="tns:BLZServiceSOAP12Binding">
<soap12:address location="http://www.thomas-bayer.com:80/axis2/services/BLZService"/>
</wsdl:service>
And are reported by suds as:
url = 'http://www.thomas-bayer.com/axis2/services/BLZService?wsdl'
client = Client(url)
print(client)
Suds - version: 0.3.3 build: (beta) R397-20081121
Service (BLZService) tns="http://thomas-bayer.com/blz/"
Prefixes (1)
ns0 = "http://thomas-bayer.com/blz/"
Ports (2):
(soap)
Methods (1):
getBank(xs:string blz, )
(soap12)
Methods (1):
getBank(xs:string blz, )
Types (5):
getBankType
getBankResponseType
getBankType
getBankResponseType
detailsType
This example only has (1) method defined for each port but it could very likely have may methods defined. Suds does not require the method invocation to be qualifed (as shown above) by the port as:
client.service.<port>.getBank()
unless the user wants to specify a particular port. In most cases, the server will work properly with any of the soap ports. However, if you want to invoke the getBank() method on this service the user may qualify the method name with the port.
There are (2) ways to do this:
- Select a default port using the
port
option
before invoking the method as:
client.set_options(port='soap')
client.service.getBank()
- fully qualify the method as:
client.service.soap.getBank()
After r551 version 0.3.7, this changes some to support multiple-services within (1) WSDL as follows:
This example only has (1) method defined for each port but it could very likely have may methods defined. Suds does not require the method invocation to be qualifed (as shown above) by the port as:
client.service[port].getBank()
unless the user wants to specify a particular port. In most cases, the
server will work properly with any of the soap ports. However, if you
want to invoke the getBank() method on this service the user may qualify
the method name with the port. The port
may be subscripted
either by name (string) or index(int).
There are many ways to do this:
- Select a default port using the
port
option
before invoking the method as:
client.set_options(port='soap')
client.service.getBank()
- fully qualify the method using the port
name
as:
client.service['soap'].getBank()
- fully qualify the method using the port
index
as:
client.service[0].getBank()
version: 0.3.7+
Some WSDLs define multiple services which may (or may not) be defined with multiple ports as:
<wsdl:service name="BLZService">
<wsdl:port name="soap" binding="tns:BLZServiceSOAP11Binding">
<soap:address location="http://www.thomas-bayer.com:80/axis2/services/BLZService"/>
</wsdl:port>
<wsdl:port name="soap12" binding="tns:BLZServiceSOAP12Binding">
<soap12:address location="http://www.thomas-bayer.com:80/axis2/services/BLZService"/>
</wsdl:service>
<wsdl:service name="OtherBLZService">
<wsdl:port name="soap" binding="tns:OtherBLZServiceSOAP11Binding">
<soap:address location="http://www.thomas-bayer.com:80/axis2/services/OtherBLZService"/>
</wsdl:port>
<wsdl:port name="soap12" binding="tns:OtherBLZServiceSOAP12Binding">
<soap12:address location="http://www.thomas-bayer.com:80/axis2/services/OtherBLZService"/>
</wsdl:service>
And are reported by suds as:
url = 'http://www.thomas-bayer.com/axis2/services/BLZService?wsdl'
client = Client(url)
print(client)
Suds - version: 0.3.7 build: (beta) R550-20090820
Service (BLZService) tns="http://thomas-bayer.com/blz/"
Prefixes (1)
ns0 = "http://thomas-bayer.com/blz/"
Ports (2):
(soap)
Methods (1):
getBank(xs:string blz, )
(soap12)
Methods (1):
getBank(xs:string blz, )
Types (5):
getBankType
getBankResponseType
getBankType
getBankResponseType
detailsType
Service (OtherBLZService) tns="http://thomas-bayer.com/blz/"
Prefixes (1)
ns0 = "http://thomas-bayer.com/blz/"
Ports (2):
(soap)
Methods (1):
getBank(xs:string blz, )
(soap12)
Methods (1):
getBank(xs:string blz, )
Types (5):
getBankType
getBankResponseType
getBankType
getBankResponseType
detailsType
This example only has (1) method defined for each port but it could very likely have may methods defined. Suds does not require the method invocation to be qualifed (as shown above) by the service and/or port as:
client.service[service][port].getBank()
unless the user wants to specify a particular service and/or port. In
most cases, the server will work properly with any of the soap ports.
However, if you want to invoke the getBank() method on the
OtherBLZService
service the user may qualify the method name
with the service and/or port. If not specified, suds will default the
service to the 1st server defined in the WSDL and default to the 1st
port within each service. Also, when a WSDL defines (1) services, the
[subscript is applied to the port selection. This may be a little confusing because the syntax for subscripting can seem inconsistent. Both the
service__and__
port` may be subscripted
either by name (string) or index (int).
There are many ways to do this:
- Select a default service using the
service
option and default port usingport
optionoption
before invoking the method as:
client.set_options(service='OtherBLZService', port='soap')
client.service.getBank()
- method qualified by
service
andport
as:
client.service['OtherBLZService']['soap'].getBank()
- method qualified by
service
andport
using indexes as:
client.service[1][0].getBank()
- method qualified by
service
(by name) only as:
client.service['OtherBLZService'].getBank()
- method qualified by
service
(by index) only as:
client.service[1].getBank()
Note, that if a WSDL defines more then one service, you must
qualify the service
via
option
or by using the subscripting syntax in order to specify the
port
using the subscript syntax.
SOAP headers may be passed during the service invocation by using the
soapheaders
option
as follows:
client = client(url)
token = client.factory.create('AuthToken')
token.username = 'Elvis'
token.password = 'TheKing'
client.set_options(soapheaders=token)
result = client.service.addPerson(person)
OR
client = client(url)
userid = client.factory.create('Auth.UserID')
userid.set('Elvis')
password = client.factory.create('Auth.Password')
password.set('TheKing')
client.set_options(soapheaders=(userid,password))
result = client.service.addPerson(person)
OR
client = client(url)
userid = 'Elmer'
passwd = 'Fudd'
client.set_options(soapheaders=(userid,password))
result = client.service.addPerson(person)
The soapheaders
option may also be assigned a dictionary for
those cases when optional headers are specified and users don't want to
pass None place holders. This works much like the method parameters. Eg:
client = client(url)
myheaders = dict(userid='Elmer', passwd='Fudd')
client.set_options(soapheaders=myheaders)
result = client.service.addPerson(person)
Passing soapheaders
by keyword (dict) is available in 0.3.4
(r442) and later.
Custom SOAP headers may be passed during the service invocation by using
the soapheaders
option
. A custom
soap header is defined as a header that is
required by the service by not defined in the wsdl. Thus, the
easy
method of passing soap headers already described cannot be
used. This is done by constructing and passing an
Element
or collection of
Elements
as follows:
from suds.sax.element import Element
client = client(url)
ssnns = ('ssn', 'http://namespaces/sessionid')
ssn = Element('SessionID', ns=ssnns).setText('123')
client.set_options(soapheaders=ssn)
result = client.service.addPerson(person)
Do not try to pass the header as an XML string
such as:
client = client(url)
ssn = '<ssn:SessionID>123</ssn:SessionID>'
client.set_options(soapheaders=ssn)
result = client.service.addPerson(person)
It will not work because: 1. Only
Elements
are processed as custom
headers. 1. The XML string
would be escaped as <ssn:SessionID>123</ssn:SessionID>
anyway.
*Notes: 1. Passing single
Elements
as soap headers fixed in Ticket #232 (r533) and will be
released on 0.3.7. 1. Reusing this
Element
in subsequent calls fixed in Ticket #233 (r533) and will be
released on 0.3.7.
As of r452 / 0.3.4 (beta) to provide basic ws-security with
UsernameToken
with clear-text
password (no digest).
from suds.wsse import *
security = Security()
token = UsernameToken('myusername', 'mypassword')
security.tokens.append(token)
client.set_options(wsse=security)
or, if the Nonce
and Create
elements are needed, they
can be generated and set as follows:
from suds.wsse import *
security = Security()
token = UsernameToken('myusername', 'mypassword')
token.setnonce()
token.setcreated()
token.setnonceencoding(True)
token.setpassworddigest('digest')
security.tokens.append(token)
client.set_options(wsse=security)
but, if you want to manually set the Nonce
and/or
Created
, you may do as follows:
from suds.wsse import *
security = Security()
token = UsernameToken('myusername', 'mypassword')
token.setnonce('MyNonceString...')
token.setcreated(datetime.now())
security.tokens.append(token)
client.set_options(wsse=security)
In most cases, services defined using the document/literal SOAP binding style will define a single document as the message payload. The <message/> will only have (1) <part/> which references an <element/> in the schema. In this case, suds presents a RPC view of that method by displaying the method signature as the contents (nodes) of the document. Eg:
<schema>
...
<xs:element name="Foo" type = "tns:Foo"/>
<xs:complexType name="Foo">
<xs:sequence>
<xs:element name="name" type="xs:string"/>
<xs:element name="age" type="xs:int"/>
</xs:sequence>
</xs:complexType>
...
</schema>
<definitions>
...
<message name="FooMessage">
<part name="parameters" element="Foo">
</message>
...
</definitions>
Suds will report the method foo
signature as:
foo(xs:string name, xs:int age,)
This provides an RPC feel to the document/literal soap binding style.
Now, if the wsdl defines:
<schema>
...
<xs:element name="Foo" type = "tns:Foo"/>
<xs:element name="Bar" type = "xs:string"/>
<xs:complexType name="Foo">
<xs:sequence>
<xs:element name="name" type="xs:string"/>
<xs:element name="age" type="xs:int"/>
</xs:sequence>
</xs:complexType>
...
</schema>
<definitions>
...
<message name="FooMessage">
<part name="foo" element="Foo">
<part name="bar" element="Bar">
</message>
...
</definitions>
Suds will be forced to report the method foo
signature as:
foo(Foo foo, xs:int bar)
The message has (2) parts which defines that the message payload contains (2) documents. In this case, suds must present a /Document/ view of the method.
As of version 0.3.3 and newer, basic
HTTP authentication
as defined by RFC-2617 can be
done as follows:
client = Client(url, username='elmer', password='fudd')
Authentication is provided by the (default)
HttpAuthenticated
Transport
class defined in the
transport.https
module that follows the challenge (http 401) /
response model defined in the RFC.
As of r537, 0.3.7
beta, a new Transport
was added in the
transport.http
module that provides http authentication for servers
that don't follow the challenge/response model. Rather, it sets the
Authentication:
http header on all http requests. This
transport can be used as follows:
from suds.transport.http import HttpAuthenticated
t = HttpAuthenticated(username='elmer', password='fudd')
client = Client(url, transport=t)
Or
from suds.transport.http import HttpAuthenticated
t = HttpAuthenticated()
client = Client(url, transport=t, username='elmer', password='fudd')
For version: 0.3.3 and older ONLY:
Revision 63+ (and release 0.1.8+) includes the migration from httplib to
urllib2 in the suds default
transport
which enables users to leverage all of the authentication
features provided by urllib2. For example basic HTTP authentication
could be implemented as follows:
myurl = 'http://localhost:7080/webservices/WebServiceTestBean?wsdl'
client = Client(myurl)
import urllib2
baseurl = 'http://localhost:7080/'
username = 'myuser'
password = 'mypassword'
passman = urllib2.HTTPPasswordMgrWithDefaultRealm()
passman.add_password(None, baseurl, username, password)
authhandler = urllib2.HTTPBasicAuthHandler(passman)
client.options.transport.urlopener = urllib2.build_opener(authhandler)
The suds default
HTTP transport
uses urllib2.urlopen(), basic http authentication is
handled automatically if you create the transport's urlopener correctly
and set the urlopener.
As of 0.3.8, suds includes a
NTLM transport
based on urllib2. This implementation requires
`users to install the python-ntlm. It is not packaged with suds.
To use this, simply do something like:
from suds.transport.https import WindowsHttpAuthenticated
ntlm = WindowsHttpAuthenticated(username='xx', password='xx')
client = Client(url, transport=ntlm)
The suds default
transport
handles proxies using urllib2.Request.set_proxy(). The
proxy options can be passed set using Client.set_options. The proxy
options must contain a dictionary where keys=protocols and values are
the hostname (or IP) and port of the proxy.
...
d = dict(http='host:80', https='host:443', ...)
client.set_options(proxy=d)
...
The service API provides for message/reply injection.
To inject either a soap message to be sent or to inject a reply or fault
to be processed as if returned by the soap server, simply specify the
__inject
keyword argument with a value of a dictionary
containing either:
- msg = <message string>
- reply = <reply string>
- fault = <fault string>
when invoking the service. Eg:
Sending a raw soap message:
message = \
"""<?xml version="1.0" encoding="UTF-8"?>
<SOAP-ENV:Envelope>
<SOAP-ENV:Body>
...
</SOAP-ENV:Body>
</SOAP-ENV:Envelope>"""
print(client.service.test(__inject={'msg':message}))
Injecting a response for testing:
reply = \
"""<?xml version="1.0" encoding="UTF-8"?>
<SOAP-ENV:Envelope>
<SOAP-ENV:Body>
...
</SOAP-ENV:Body>
</SOAP-ENV:Envelope>"""
print(client.service.test(__inject={'reply':reply}))
With Python 2.7.9, SSL/TLS verification is turned on by default.
This can be a problem when suds is used against an endpoint which has a self-signed certificate, which is quite common in the corporate intranet world.
One approach to turn off certificate validation in suds is to use a custom transport class. For example in Python 3:
import urllib.request
import ssl
import suds.transport.http
class UnverifiedHttpsTransport(suds.transport.http.HttpTransport):
def __init__(self, *args, **kwargs):
super(UnverifiedHttpsTransport, self).__init__(*args, **kwargs)
def u2handlers(self):
handlers = super(UnverifiedHttpsTransport, self).u2handlers()
context = ssl.create_default_context()
context.check_hostname = False
context.verify_mode = ssl.CERT_NONE
handlers.append(urllib.request.HTTPSHandler(context=context))
return handlers
client = Client(url, transport=UnverifiedHttpsTransport())
In addition, if a custom set of certificates and/or root CA is needed, this can also be done via a custom transport class. For example, in Python 3:
class ClientHttpsTransport(HttpTransport):
def __init__(self, certfile, keyfile, cafile, *args, **kwargs):
super(ClientHttpsTransport, self).__init__(*args, **kwargs)
self.certfile = certfile
self.keyfile = keyfile
self.cafile = cafile
def u2handlers(self):
handlers = super(ClientHttpsTransport, self).u2handlers()
context = ssl.create_default_context(ssl.Purpose.SERVER_AUTH, cafile=self.cafile)
context.load_cert_chain(self.certfile, self.keyfile)
context.check_hostname = False
context.verify_mode = ssl.CERT_NONE
handlers.append(urllib.request.HTTPSHandler(context=context))
return handlers
custom_https = ClientHttpsTransport('/path/to/certificate_file', '/path/to/key_file', '/path/to/ca_file')
client = Client(url, transport=custom_https),
Per request timeouts can be set by using a __timeout
keyword argument in
each call. This supersedes the global client default. For example, the
following call will have a timeout of 10 seconds:
client = Client(url, timeout=30)
client.service.test(__timeout=10)
As of 0.3.5 r473, suds provides some URL caching. By default, http get(s) such as getting the WSDL and importing XSDs are cached. The caching applies to URL such as those used to get the referenced WSDLs and XSD schemas but does not apply to service method invocation as this would not make sense.
In 0.3.9, FileCache
was replaced with ObjectCache
.
The default cache is a
ObjectCache
with an expiration of (1) day.
This duration may be adjusted as follows:
import datetime
...
cache = client.options.cache
cache.duration = datetime.timedelta(days=10)
The duration must be a datetime.timedelta
.
The default location (directory) is /tmp/suds so Windows users will need to set the location to something that makes sense on windows.
The cache is an
option
and can be set with any kind of
Cache
object or may be disabled by setting the option to None.
So, uses may plug-in any kind of cache they want.
from suds.cache import Cache
class MyCache(Cache)
...
client.set_options(cache=MyCache())
To disable caching:
client.set_options(cache=None)
There are many cases where the schema(s) defined both within the WSDL or
imported are broken. The most common problem is failure to import the
follow proper import rules. That is, references are made in one schema
to named objects defined in another schema without importing it. The
doctor
module defines a set of classes for mending broken
schema(s).
The
Doctor
class provides the interface for classes that provide this
service. Once defined, the doctor can be specified using the
schema doctor as an
option
when creating the Client. Or, you can use one of the stock
doctors
ImportDoctor
- Used to fix import problems. For example:
imp = Import('http://schemas.xmlsoap.org/soap/encoding/')
imp.filter.add('http://some/namespace/A')
imp.filter.add('http://some/namespace/B')
doctor = ImportDoctor(imp)
client = Client(url, doctor=doctor)
In this example, we've specified that the doctor should examine
schema(s) with a targetNamespace of
http://some/namespace/A or http://some/namespace/B
and ensure that the
schema for the http://schemas.xmlsoap.org/soap/encoding/
is imported.
If those schema(s) do not have an <xs:import/> for those namespaces,
it is added.
For cases where the schemaLocation is not bound to the
namespace, the
Import
can be created specifying the location has follows:
imp = Import('http://www.w3.org/2001/XMLSchema', location='http://www.w3.org/2001/XMLSchema.xsd')
imp.filter.add('http://some/namespace/A')
imp.filter.add('http://some/namespace/B')
doctor = ImportDoctor(imp)
client = Client(url, doctor=doctor)
A commonly referenced schema (that is not imported) is the SOAP section 5 encoding schema. This can now be fixed as follows:
imp = Import('http://schemas.xmlsoap.org/soap/encoding/')
imp.filter.add('http://some/namespace/A')
doctor = ImportDoctor(imp)
client = Client(url, doctor=doctor)
note: Available in r512+ and 0.3.6 beta
.
Some WSDL(s) schemas import as: <import namespace="http://schemas.xmlsoap.org/soap/encoding/%22/> without schemaLocation="" and expect processor to use the namespace URI as the schema location for the namespace. The specifications for processing <import/> leave the resolution of the imported namespace to a schema to the descession of the processor (in this case suds) when @schemaLocation is not specified. Suds always looks within the WSDL for a schema but does not look outside unless:
- A schemaLocation is specified, or
- A static binding is specified using the following syntax:
from suds.xsd.sxbasic import Import
ns = 'http://schemas.xmlsoap.org/soap/encoding/'
location = 'http://schemas.xmlsoap.org/soap/encoding/'
Import.bind(ns, location)
Or, the shorthand (when location is the same as the namespace URI)
Import.bind(ns)
note: http://schemas.xmlsoap.org/soap/encoding/'
automatically bound
in 0.3.4 as of (r420).
New in 0.4 is a plugin facility. It is intended to be a general, more
extensible, mechanism for users to inspect/modify suds while it is
running. Today, there are two one-off
ways to do this:
1. bindings.Binding.replyfilter - The reply text can be inspected &
modified. 2. xsd.Doctor - The doctor option
used to mend broken
schemas.
The plugin
module provides a number of classes but users really only need
to be concerned with a few:
- The
Plugin
class which defines the interface for user plugins - The
Context
classes which are passed to the plugin.
The plugins are divided into (4) classes based on the tasks
of
the soap client:
Initialization
:: The client initialization task which is when
the client has digested the WSDL and associated XSD. Document Loading
:: The document loading task. This is when the client is
loading WSDL & XSD documents. Messaging
:: The messaging task is
when the client is doing soap messaging as part of method (operation)
invocation.
The InitPlugin
currently has (1) hook:
initialized()
:: Called after the client is initialized. The
context contains the WSDL
object.
The DocumentPlugin
currently has (2) hooks::
loaded()
:: Called before parsing a WSDL
or XSD
document. The context contains the url & document text.
parsed()
:: Called after parsing a WSDL
or XSD
document. The context contains the url & document root
.
The MessagePlugin
currently has (5) hooks ::
marshalled()
:: Provides the plugin with the opportunity to inspect/modify the envelope Document before it is sent.sending()
:: Provides the plugin with the opportunity to inspect/modify the message text before it is sent.received()
:: Provides the plugin with the opportunity to inspect/modify the received XML text before it is SAX parsed.parsed()
:: Provides the plugin with the opportunity to inspect/modify the sax parsed DOM tree for the reply before it is unmarshalled.unmarshalled()
:: Provides the plugin with the opportunity to inspect/modify the unmarshalled reply before it is returned to the caller.
General usage:
from suds.plugin import *
class MyPlugin(DocumentPlugin):
...
plugin = MyPlugin()
client = Client(url, plugins=[plugin])
Plugins need to override only those methods (hooks) of interest
- not all of them. Exceptions are caught and logged.
Here is an example. Say I want to add some attributes to the document root element in the soap envelope. Currently suds does not provide a way to do this using the main API. Using a plugin much like the schema doctor, we can do this.
Say our envelope is being generated by suds as:
<soapenv:Envelope>
<soapenv:Body>
<ns0:foo>
<name>Elmer Fudd</name>
<age>55</age>
</ns0:foo>
</soapenv:Body>
</soapenv:Envelope>
But what you need is:
<soapenv:Envelope>
<soapenv:Body>
<ns0:foo id="1234" version="2.0">
<name>Elmer Fudd</name>
<age>55</age>
</ns0:foo>
</soapenv:Body>
</soapenv:Envelope>
from suds.plugin import MessagePlugin
class MyPlugin(MessagePlugin):
def marshalled(self, context):
body = context.envelope.getChild('Body')
foo = body[0]
foo.set('id', '12345')
foo.set('version', '2.0')
client = Client(url, plugins=[MyPlugin()])
In the future, the Binding.replyfilter
and doctor
option will likely be deprecated. The
ImportDoctor
has been extended to implement the
Plugin
.onLoad() API.
In doing this, we can treat the ImportDoctor
as a plugin:
imp = Import('http://www.w3.org/2001/XMLSchema')
imp.filter.add('http://webservices.serviceU.com/')
d = ImportDoctor(imp)
client = Client(url, plugins=[d])
We can also replace our Binding.replyfilter() with a plugin as follows:
def myfilter(reply):
return reply[1:]
Binding.replyfilter = myfilter
# replace with:
class Filter(MessagePlugin):
def received(self, context):
reply = context.reply
context.reply = reply[1:]
client = Client(url, plugins=[Filter()])
- XML namespaces are represented as a tuple (prefix, URI). The default namespace is (None,None).
- The suds.sax module was written becuase elementtree and other python XML packages either: have a DOM API which is very unfriendly or: (in the case of elementtree) do not deal with namespaces and especially prefixes sufficiently.
- A qualified reference is a type that is referenced in the WSDL such as <tag type="tns:Person/> where the qualified reference is a tuple ('Person', ('tns','http://myservce/namespace')) where the namespace is the 2nd part of the tuple. When a prefix is not supplied as in <tag type="Person/>, the namespace is the targetNamespace for the defining fragment. This ensures that all lookups and comparisons are fully qualified.