I'm kinda new to SOAP.
In my WSDL, I've got a message element composed of several part elements. In the binding part of my WSDL, if the soap:body element does not include any parts attribute, I get the WS-I Basic Profile compliance error BP2119:
A document-literal binding which does not specify the parts attribute, has more than one wsdl:part in the associated wsdl:message element.
I read in some docs that if no parts attribute is specified, it is considered that all part elements are included in the binding, but I'm guessing this assertion does not take into account the Basic Profile compliance. I therefore added a parts attribute with all the message's parts:
<soap:body parts="cpName fpList" use="literal"/>
But then, I'm getting the BP2111 error:
One or more soapbind:body element(s) in a document-literal soap:binding does not have at most one part listed in the parts attribute.
So, I have to specify the parts, but I can put only one? Aren't these two errors contradictory? How do I get away with that?
Alternatively, do I have to be Basic Profile-compliant? If not, how do I deactivate these checks in axis2?
I found some answers here: http://www.ibm.com/developerworks/library/ws-usagewsdl/
In bulk, document-literal wrapped pattern doesn't authorize several parts for one message. A message has to be composed of only one part, whose type will be an XS element who itself can be composed of multiple elements.
Related
I need to create a RESTful webservice that allows for addressing entities by using different types of IDs. I will give you an example based on books (which is not what I need to process but I want to build a common understanding this way).
Books can be identifier by:
ISBN 13
ID
title
I can create a book by POSTing to /api/v1/books/The%20Bible. This book can then later be addressed by its ISBN /api/v1/books/12312312301 or ID /api/v1/books/A9471IZ1. If I implemented it this way I would need to analyze whatever identifier gets sent and convert it internally.
Is it 'legal' to add the type of identifier to the URL ? Like /api/v1/books/title/The%20Bible?
It seems that what you need is not simply retrieving resources, but searching for them by certain criteria (in your case, by ISBN, title or ID). In that case, rather than complicate your /books endpoint (which, ideally, should only returns books by ID), I'd create a separate /search function. You can then use it search for books by any field.
For example, you would have:
GET /search?title=bible
GET /search?isbn=12312312301
It can even be easily expanded to add more fields later on.
First: A RESTful URl should only contain nouns and not verbs. You can find a lot of best-practices online, as example: RESTful API Design: nouns are good, verbs are bad
One approach would be to detect the id/identifier in code.
The pattern would be, as you already mentioned:
GET /api/v1/books/{id}, like /api/v1/books/12312312301 or /api/v1/books/The%20Bible
Another approach, similar to this.lau_, would be with a query parameter. But I suggest to add the query parameter to the books URL (because only nouns, no verbs):
GET /api/v1/books?isbn=12312312301
The better solution? Not sure…
Because you are selecting “one book by id” (except title), rather than performing a query/search, I prefer the first approach (…/books should return “a collection of books” and .../books/{id} should return only one book).
But maybe someone has a better approach/idea?
Edit:
I suggest to avoid adding the identifier to the URL, it has “bad smell”. But is also a possible approach and I saw that a lot in other APIs. Let’s see if I can find some information on that, if its “ok” or should be avoided.
Edit 2:
See REST API DESIGN - Getting a resource through REST with different parameters but same url pattern and REST - supporting multiple possible identifiers
I want to ask if exsist a way in xades4j to made multiple signature.
For multiple signature i mean not countersignature, but a double independent sign to the same document, the resulting signature will have 2 or more signature object. In pratice a signer can take a xml signed document as input and resign it.
In other way i need a method to take as input a xml signed file and get as output the original xml document.
Thanks,
Michele
The "multiple signature" you've described seems to be specific of your use-case. As a library XAdES4j doesn't have that out of the box, but won't stop you from doing it. You just need to compose the references on each signature in the appropriate way and use a signer twice (probably you don't want to apply the second signature over the first one).
Likewise, there's no method to obtain the "original xml document", because the signed resources maybe even be other than xml. That's something that likely belongs to your application logic.
This page lists the following examples:
Addition of new WSDL operations to an existing WSDL document
Addition of new XML schema types within a WSDL document that are not contained within previously existing types
But is there a definition or standard
guideline for what changes are considered backwards-compatible. Or in other words, what changes can you make to your contract, and still expect not to break your clients.
I have spent some time on this particular subject, and found some guidelines in a book by Thomas Erl which I refer to at the bottom. Here is what they have to say;
Compatible Changes
adding a new WSDL operation definition and associated message definitions
adding a new WSDL port type definition and associated operation definitions
adding new WSDL binding and service definitions
adding a new optional XML Schema element or attribute declaration to a message definition
reducing the constraint granularity of an XML Schema element or attribute of a message definition type
adding a new XML Schema wildcard to a message definition type
adding a new optional WS-Policy assertion
adding a new WS-Policy alternative
Incompatible Changes
renaming an existing WSDL operation definition
removing an existing WSDL operation definition
changing the MEP of an existing WSDL operation definition
adding a fault message to an existing WSDL operation definition
adding a new required XML Schema element or attribute declaration to a message
definition
increasing the constraint granularity of an XML Schema element or attribute declaration
of a message definition
renaming an optional or required XML Schema element or attribute in a message
definition
removing an optional or required XML Schema element or attribute or wildcard
from a message definition
adding a new required WS-Policy assertion or expression
adding a new ignorable WS-Policy expression (most of the time)
There is a great book on this particular subject from Thomas Erl et al; The name is Web Service Contract Design & Versioning for SOA.
HTH.
Disclaimer: As I've mentioned, this is work done by the authors of the book and I'm merely sharing it. I'm also not affiliated in anyway; just liked the book :)
Additional optional request elements (minoccurs=0) could also be backward compatible - this depends on the implementation of the service on the host side.
Also, changing a mandatory response element to optional could also be backward compatible - it depends on the implementation of your client.
This area is tricky.
If you are really worried about backward compatibility consider creating a new version of the service for new clients and keep the existing implementation for existing clients. Also, in general, avoid sending domain objects over your services - use DTOs.
Hope this helps.
Coming from a lot of frustrating times with WSDL/Soap, I very much like the REST paradigm, but am trying to solve two basic problems in our application, before moving over to REST. The first problem relates to the lack of an interface document. I think I finally see how to handle this situation: One can query his way down from a top-level "/resources" resource using various requests of GET, HEAD, and OPTIONS to find the one needed resource in the correct hypermedia format. Is this the idea? If so, the client need only be provided with a top-level resource URI: http://www.mywebservicesite.com/mywebservice/resources. He will then have to do some searching and possible keep track of what he is discovering, so that he can use the URIs again efficiently in future to do GETs, POSTs, PUTs, and DELETEs. Are there any thoughts on what should happen here?
The other problem is that we cannot use descriptive URLs like /resources/../customer/Madonna/phonenumber. We do have an implementation of opaque URLs we use in the context of a session, and I'm wondering how opaque URLs might be applied to REST. The general problem is how to keep domain-specific details out of URLs, and still benefit from what REST has to offer.
The other problem is that we cannot use descriptive URLs like /resources/../customer/Madonna/phonenumber.
I think you've misunderstood the point of opaque URIs. The notion of opaque URIs is with respect to clients: A client shall not decipher a URI to guess anything of semantic meaning from it. So a service may well have URIs like /resources/.../customer/Madonna/phonenumber, and that's quite a good idea. The URIs should be treated as opaque by clients: not infer from the URI that it represents Madonna's phone number, and that Madonna is a customer of some sort. That knowledge can only be obtained by looking inside the URI itself, or perhaps by remembering where the URI was discovered.
Edit:
A consequence of this is that navigation should happen by links, not by deconstructing the URI. So if you see /resouces/customer/Madonna/phonenumber (and it actually represents Customer Madonna's phone number) you should have links in that resource to point to the Madonna resource: e.g.
{
"phone_number" : "01-234-56",
"customer_URI": "/resources/customer/Madonna"
}
That's the only way to navigate from a phone number resource to a customer resource. An important aspect is that the server implementation might or might not have domain specific information in the URI, The Madonna record might just as well live somewhere else: /resources/customers/byid/81496237. This is why clients should treat URIs as opaque.
Edit 2:
Another question you have (in the comments) is then how a client, with the required no knowledge of the server's URIs is supposed to be able to find anything. Clients have the following possibilities to find resources:
Provide a search interface. This could be done by providing an OpenSearch description document, which tells clients how to search for items. An OpenSearch template can include several variables, and several endpoints, depending on what you're looking for. So if you have a "customer ID" that's unique, you could have the following template: /customers/byid/{proprietary:customerid}", the customerid element needs to be documented somewhere, inside the proprietary namespace. A client can then know how to use such a template.
Provide a custom form. This implies making a custom media type in which you explicitly define how (based on an instance of the document) a URI to a customer can be forged. <customers template="/customers/byid/{id}"/>. The documentation (for the media type) would have to state that the template attribute must be interpreted as a relative URI after the string substitution "{id}" to an actual customer ID.
Provide links to all resources. Some resources aren't innumerable, so you can simply make a link to each and every one of them, optionally including identifying information along with the links. This could also be done in a custom media type: <customer id="12345" href="/customer/byid/12345"/>.
It should be noted that #1 and #2 are two ways of saying the same thing: Clients are allowed to create URIs if they
haven't got the URI structure a priori
a media type exists for which the documentation states that URIs should be created
This is much the same way as a web browser has no idea of any URI structure on the web, except for the rules laid out in the definition of HTML forms, to add a ? and then all the query parameters separated by &.
In theory, if you have a customer with id 12345, then you could actually dispense with the href, since you could plug the customer id 12345 into #1 or #2. It's more common to actually provide real links between resources, rather than always relying on lookup or search techniques.
I haven't really used web RPC systems (WSDL/Soap), but i think the 'interface document' is there mostly to allow client libraries to create the service API, right? if so, REST shouldn't need it, because the verbs are already defined and don't really need to be documented again.
AFAIUI, the REST way is to document the structure of each resource (usually encoded in XML or JSON). In that document, you'll also have to document the relationship between those resources. In my case, a resource is often a container of other resources (sometimes more than one type), therefore the structure doc specifies what field holds a list of URLs pointing to the contained resources. Ideally, only one unique resource will need a single, fixed (documented) URL. everithing else follows from there.
The URL 'style' is meaningless to the client, since it shouldn't 'construct' an URL. Every URL it needs should be already constructed on a resource field. That let's you change the URL structure without changing the client (that has saved tons of time to me). Your URLs can be as opaque or as descriptive as you like. (personally, i don't like text keys or slugs; my keys are all BIGINTs or UUIDs)
I am currently building a REST "agent" that addresses the first part of your question. The agent offers a temporary bookmarking service. The client code that is interacting with the agent can request that an URL be bookmarked using some identifier. If the client code needs to retrieve that representation again, it simply asks the agent for the url that corresponds to the saved bookmark and then navigates to that bookmark. Currently those bookmarks are not persisted so they only last for the lifetime of the client application, but I have found it a useful mechanism for accessing commonly used resources. E.g. The root representation provides a login link. I bookmark that link and if the client ever receives a 401 then I can redirect to the "login" bookmark.
To address an issue you mentioned in a comment, the agent also has the ability to store retrieved representations in a dictionary. If it becomes necessary to aggregate and manipulate multiple representations at the same time then I can simply request that the agent store the current representation in a dictionary associated to a key and then continue navigating to the next resource. Once the client has accumulated all the necessary representation it can do what it needs to do.
This is one of those little detail (and possibly religious) questions. Let's assume we're constructing a REST architecture, and for definiteness lets assume the service needs three parameters, x, y, and z. Reading the various works about REST, it would seem that this should be expressed as a URI like
http://myservice.example.com/service/ x / y / z
Having written a lot of CGIs in the past, it seems about as natural to express this
http://myservice.example.com/service?x=val,y=val,z=val
Is there any particular reason to prefer the all-slashes form?
The reason is small but here it is.
Cool URI's Don't Change.
The http://myservice.example.com/resource/x/y/z/ form makes a claim in front of God and everybody that this is the path to a specific resource.
Note that I changed the name. There may be a service involved, but the REST principle is that you're describing a specific web resource, named /x/y/z/.
The http://myservice.example.com/service?x=val,y=val,z=val form doesn't make as strong a claim. It says there's a piece of code named service that will try to do some sort of query. No guarantees.
Query parameters are rarely "cool". Take a look at the Google Chart API. Should that use a /full/path/notation for all of the fields? Would each URL be cool if it did?
Query parameters are useful. Optional fields can be omitted. New keys can be added to support new functionality. Over time, old fields can be deprecated and removed. Doing this is clumsier with a /path/notation .
Quoting from http://www.xml.com/pub/a/2004/08/11/rest.html
URI Opacity [BP]
The creator of a URI decides the encoding
of the URI, and users should not derive
metadata from the URI itself. URI opacity
only applies to the path of a URI. The
query string and fragment have special
meaning that can be understood by users.
There must be a shared vocabulary between
a service and its consumers.
This sounds like query strings are what you want.
One downside to query strings is that the are unordered. The GET ending with "?x=1&y=2" is different than that ending with "?y=2&x=1". This means the browser and any other intermediate systems won't be able to cache it, because caching is done based on the full URL. If this is a concern, then generate the query string in a well-defined order.
While constructing URIs this is the priniciple I follow. I don't know whether it is perfectly acceptable in all cases
Say for instance, that I have to get the details of an employee, then the URI will be of the form:
GET /employees/1/ and not GET /employees?id=1 since I treat every employee as a resource and the whole URI "employees/{id}" is used in identification of the resource.
On the other hand, if I have algorithmic operations that do not identify a specific resource as such,but merely require inputs to the algorithm which in turn identify the resource, then I use query strings.
For instance GET /employees?empname='%Bob%'&maxResults=100 might give me all employees whose names have the word Bob in them, with the maximum results returned by the query limited to 100.
Hope this answers your question
URIs are strictly split into a hierarchical part (the path) and a non-hierarchical path (the query), and both serve to identify the resource
Tthe URI spec itself (RFC 3986) clearly sets the path and the query portion of a URI as equal.
Section 3.3:
The path component contains data [...] that along with [the] query component
serves to identify a resource.
Section 3.4:
The query component contains [...] data that, along with
[...] the path component serves to identify a resource
So your choice in using x/y/z versus x=val&y=val&z=val has mainly to do if x, y or z are hierarchical in nature or if they're non-hierarchical, and if you can perceive them as always being hierarchical or non-hierarchical for the foreseeable future, along with any technical limitations you might be having on selecting one over the other.
But to answer your question, as others have noted: Neither is more RESTful than the other, since they both end up identifying a resource.
If the resource is the service, independent of parameters, it should be
http://myservice.example.com/service?x=val&y=val&z=val
This is a GET query. One of the principles behind REST is that you GET to read (but not modify!) the resource; you can POST to modify a resource & get a response; you can PUT to write to a resource; and you can DELETE to remove a resource.
If the resource specific with those parameters is a persistent resource, it needs a name. You could (if you organized your webservice this way) POST to http://myservice.example.com/service?x=val&y=val&z=val to create a particular instance of the service and have it return an ID to name this instance, e.g.
http://myservice.example.com/service/12312549
then use GET/POST/PUT/DELETE to interact with that instance.
First of all, defining URIs as part of your API violates a constraint of the REST architecture. You cannot do that and call your API RESTful.
Secondly, the reason query parameters are bad for non-query resource access is that they are generally not cached. It is also a violation of HTTP standards.
A URL with slashes like /x/y/z/ would impose a hierarchy and is not suited for the exact case of just passing three parameters.
If, like you said, x y z are indeed just parameters and the order is not important, it would be more RESTful to use semicolons:
http://myservice.example.com/service/x;y;z/
If your "service" however is just an algorithm that works the same with different parameters, there would also be nothing unRESTful with using ?x=val format.