Abstract:
A tool for automating management of software development and deployment processes. The tool is made up of a series of lists or databases tracking various information related to the software releases and individual software components making up the releases. The tool includes a user interface for receiving build requests from users. When a build request is received from a user, the tool checks a user list to verify that the user&#39;s role allows the request, and the tool executes the build script associated with the component, and updates a status associated with the build request. Builds are automatically sent to target nodes in pre-determined environments for testing or for operational deployment. The tool stores the code in the correct directory locations and install the code for use. The tool further allows tester to grade software and provide feedback and test results to the developers and configuration managers for further development.

Description:
BACKGROUND  
         [0001]    1. Field of the Invention  
           [0002]    The present invention relates generally to application software development, configuration management, and deployment. More specifically, the present invention relates to program management software that allows an organization to effectively deploy new or updated software only after the software has been tested for quality and durability.  
           [0003]    2. Background of the Invention  
           [0004]    Configuration management for development and deployment of application software can be a complex and time-consuming task in environments where software developers are constantly updating software used to support operational business requirements. For example, many organizations today employ large teams of software developers to create and maintain applications needed to maintain a cutting-edge in their respective markets. Oftentimes, there is a need to continually improve or expand the capabilities offered to customers via the applications. In such dynamic software development environments, systems and methods for managing development and deployment of application software can be critical to the success of the organization.  
           [0005]    It is common knowledge in the art that software development should follow a few basic principles. For example, it is generally accepted that a requirements phase should be the first step in any software development project. During this phase, the desired functionality of the software is defined and well as its operating environments, timelines for deployment, budgets, and the like. The next phase in a software development process typically involves application developers actually writing code to meet the requirements. In this phase, the developers may consider questions or issues such as the choice of the software development environment, the programming techniques to be implemented, and the like.  
           [0006]    Once the application code has been written, it needs to be tested. In many environments, the initial testing is performed by the developers themselves. At some point in the process, the application may be turned over to a quality assurance (QA) group for further testing. The application will be deployed on operational systems only if the code passes QA testing.  
           [0007]    While these phases are commonly known to software developers, a problem exists in enforcing the procedures. That is, for a variety of reasons, the new code may not have been fully tested prior to being deployed. For example, if a code change appears simple, the developer may not consider how the change may impact other applications running in the production environment. In other cases, a short deadline may force a developer to deploy software before it has been fully tested. Another problem with managing software configuration may be the sheer number of developers working on a project. The project may be so large that it is broken down into several components, such that each component is independently developed, tested and deployed. In such cases, it becomes a very difficult process to manage each component to ensure that all testing has been accomplished prior its deployment.  
           [0008]    Conventional software configuration management applications have been used to track software configuration. Such management applications may be used to determine the versions of software on a system and may be used to track other software development tasks. However, conventional configuration management applications do not include enforceability. That is, such applications may be used to help a manager to track changes to a system. However, applications do not provide a common framework within which developers, testers, and configuration managers can work to manage the entire software development and deployment process.  
           [0009]    Another problem with conventional configuration management software is the lack of a user-friendly interface. Many configuration management software is difficult to understand and does not provide high-level visibility into the status of individual software components.  
         SUMMARY OF THE INVENTION  
         [0010]    The present invention solves the foregoing problems associated with conventional software application configuration management and deployment systems by providing a system and method for a web-based software development and deployment tool.  
           [0011]    A development and deployment tracking tool according to the present invention allows a software development organization to manage a plurality of software releases. The tool is made up of a series of lists or databases tracking various information related to the software releases and individual software components making up the releases. One list identifies the plurality of software releases, including a release identification and a source type for each release. Another list relates to the individual software components, including information such as a build script and a script type associated with each component. Another list identifies a plurality of application operating environments including an environment type associated with each environment. Another list identifies a plurality of nodes including an environment selected from the environment list. Another list identifies a plurality of users of the development and deployment tool and associates a role defining each user&#39;s access rights to the development and deployment tracking tool.  
           [0012]    The development and deployment tracking tool includes a user interface for receiving a build request from a user, including information such as a release name, a component name, and a target environment. The user interface allows the user to select the release name, the component name, and the target environment from the entries defined in the respective lists. When a build request is received from a user, the development and deployment tracking tool checks the user list to verify that the user&#39;s role allows the request, and the development and deployment tracking tool executes the build script associated with the component, and updates a status associated with the build request. In an embodiment the development and deployment tracking tool sends an email message to one or more users when the build request has been completed.  
           [0013]    Examples of environment types include a common development environment, a pre-production environment, a production environment, a sandbox environment, a system test environment, and an undetermined environment type. Examples of roles include a developer, a configuration manager and a quality assurance tester.  
           [0014]    An embodiment may include a user interface for receiving a test approval result. The test approval result may be passed via a notification message to one or more users for action. For example, if the component fails a test, the developer may receive a notification indicating the result and providing comments to help identify the problems to be corrected. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0015]    [0015]FIGS. 1A and 1B are flow diagrams showing steps that may performed in an embodiment of the present invention.  
         [0016]    [0016]FIG. 2 is a screen shot showing an exemplary view of a user interface that may be used in a development and deployment tracking tool according to the present invention.  
         [0017]    [0017]FIGS. 3A and 3B are screen shots showing exemplary user interface forms for entering application development data to define a new release and component.  
         [0018]    [0018]FIG. 4 is a screen shot showing an exemplary user interface form for entering application development data to define a new environment within the development and deployment tool.  
         [0019]    [0019]FIG. 5 is a screen shot showing an exemplary user interface form for entering application development data to define a new node within the development and deployment tool.  
         [0020]    [0020]FIGS. 6A and 6B are screen shots showing exemplary user interface forms for establishing an environment chain in an embodiment of the present invention.  
         [0021]    [0021]FIGS. 7A and 7B are screen shots showing exemplary user interface forms for entering and updating application development data to define a new user within the development and deployment tool.  
         [0022]    [0022]FIG. 8 is a schematic diagram showing an exemplary menu choice that may be provided under a “CM Administration” function of the development and deployment tool.  
         [0023]    [0023]FIG. 9 is a schematic diagram showing an exemplary menu choice that may be provided under a “Build” function of the development and deployment tool.  
         [0024]    [0024]FIG. 10 is a screen shot showing an exemplary user interface form for initiating a sandbox build request within the development and deployment tool.  
         [0025]    [0025]FIG. 11 is a screen shot showing an exemplary user interface form for completing a sandbox build request within the development and deployment tool.  
         [0026]    [0026]FIG. 12 is a screen shot showing an exemplary user interface form for initiating a common development build request within the development and deployment tool.  
         [0027]    [0027]FIG. 13 is a screen shot showing an exemplary user interface form for completing a common development build request within the development and deployment tool.  
         [0028]    [0028]FIG. 14 is a screen shot showing an exemplary user interface form for grading a component within the development and deployment tool.  
         [0029]    [0029]FIG. 15 is a schematic diagram showing an exemplary menu choice that may be provided under a “Build” function of the development and deployment tool.  
         [0030]    [0030]FIG. 16 is a screen shot showing an exemplary user interface form for initiating a system test deployment request within the development and deployment tool.  
         [0031]    [0031]FIG. 17 is a screen shot showing an exemplary user interface form for initiating a pre-production deployment request within the development and deployment tool.  
         [0032]    [0032]FIG. 18 is a screen shot showing an exemplary user interface form for initiating a production deployment request within the development and deployment tool.  
         [0033]    [0033]FIG. 19 is a screen shot showing an exemplary user interface form for modifying a build request status report within the development and deployment tool.  
         [0034]    [0034]FIG. 20 is a table of data elements that may be associated with a software release in an embodiment of the present invention.  
         [0035]    [0035]FIG. 21 is a table of data elements that may be associated with an application environment in an embodiment of the present invention.  
         [0036]    [0036]FIG. 22 is a table defining terms used in the present detailed description of the invention. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0037]    The development and deployment tool described herein provides a framework for managing and enforcing a software application development and deployment process. The tool provides users with a system and method for automating the software builds for each phase of the development and deployment cycle. As known in the art, a software build is the result of the compiling of any necessary code. Developers, configuration managers, quality assurance groups, and others may use the tool to track the status of each individual component of a software application. The tool may be configured to provide different levels of access to different users, depending on the “role” the user is assigned in the system.  
         [0038]    As a component moves from one phase to the next within the development and deployment cycle, email notifications may be sent to interested parties. This feature can be used to help keep a project on track by keeping everyone informed as to the status of the project.  
         [0039]    As indicated above, the development and deployment tool may also be used to enforce the configuration management (CM) policy for an organization. For example, if the CM policy requires all code to be tested in numerous environments, the tool may be used to graduate the application to each level as it passes the earlier testing levels. If the application fails any of the required tests, the development and deployment tool can be used to send the build back to the developers for corrections.  
         [0040]    Because the development and deployment tool is web-based, the user interface may be implemented as a graphical user interface (GUI) to receive needed information from users as required. The GUI may be presented as one or more windows and the windows may comprise one or more forms (also referred to herein as “views”) that a user may use to enter and submit data related to an application. Also, as a web-based tool, the system is not limited to any one hardware configuration and may be installed and run, for example, on a UNIX-based server, a Windows NT-based server, or other server system. Similarly, users may access the development and deployment tool from any web browser.  
         [0041]    [0041]FIG. 1A is a flow diagram showing the steps that may be performed in an exemplary web-based software development and deployment tool according to the present invention. In step  100 , a new project is defined. This step is typically carried out by the business or other functional areas within the organization. During this step, the end-users define what they what want the new (or updated) software application to do. For example, the end-users may want to change an ordering page in a web-based store to use a new contract for interfacing with the back-end systems.  
         [0042]    In step  102 , the new (or updated) application is defined. In this step, the organization&#39;s development and configuration management groups may meet to discuss what is required from the development group. The application definition may include environment definition, release name definition, versioning, build script requirements, and application configuration requirements. This step is preferably done as early in the development process as possible. FIG. 1B is a more detailed flow diagram showing the sub-steps that may be performed in embodiments of the present invention. FIG. 2 is a screen shot showing an exemplary embodiment of a development and deployment tool according to the present invention. FIGS. 3A-19 are screen shots showing an exemplary user-interface that may be implemented in embodiments of the invention to assist users in completing each of the steps in FIGS. 1A and 1B. Tables 1 and 2, shown in FIGS. 20 and 21, respectively, show the data that is used in a preferred embodiment when defining the application within the software development tool. Table 1 shows the data that may be used to define the release and Table 2 shows the data that may be used to define the environment.  
         [0043]    In step  200 , the release and component data for the new application is defined. FIG. 3A shows an exemplary data request screen for completing the first part of this task, that is, the definition of the release data. The view shown in FIG. 3A may be accessed by selecting option button  8  (shown in FIG. 2) to view “CM Admin” drop down menu  802  (shown in FIG. 8) and selecting the “Add Release” menu item. The fields shown in FIG. 3A may be filled in as follows. “Release Name” field  302  defines how the release/project will be identified within the development and deployment tracking tool. “Release ID” field  304  identifies the directory structure underneath the base directory on the production systems. “Release Version” field  306  identifies the release version number. For example, the release version number may have the form: X.X.X, where “X” is an integer. “SUN Package Name” field  308  is only used in certain operating environments. The field may be used to identify the base SUN Package name to be used to any SUN packages to be generated within this release. “Source Root Directory” field  310  identifies the top-level directory for the source code. “Source Type” field  312  identifies the source type, for example, ClearCase, CCC/Harvest, SourceSafe, and the like. “Source View” field  314  is the default view used by the tool to compile any source code for this release. Once the data has been filled in, the user may press “Submit” button  316  to input the information to the development and deployment tracking tool.  
         [0044]    The second half of step  200  is defining the project data. FIG. 3B is shows an exemplary user interface for completing this step. As with the view shown in FIG. 3A, the view shown in FIG. 3B is access by selecting “Add Component” from “CM Admin” menu item  802  (shown in FIG. 8). The user first selects the release from drop-down menu item  320 . When this menu is selected, all previously defined releases are provided as options. The user then selects a platform using drop-down menu item  322 . The platform is the type of application server. Examples of platforms include, iPlanet Web Server, iPlanet Application Server, BEA Application Server, and the like. “Component Name” field  324  may comprise a derivative of the release name together with a suffix reflecting the platform. Examples of suffixes include, NAS, Cnt, Web, and IAS for the web and application servers. “Build Script Directory” field  326  is the directory where the build script/make file resides to build this component. “Build Script Name” field  328  is the actual name of the build script/make file. “Script Type” field  330  is the type of script being used (for example, UNIX shell script, GNU Makefile, ANT script, and the like). Once the data has been filled in, the user may press “Submit” button  332  to input the information to the development and deployment tracking tool.  
         [0045]    In step  202  the project environment data is defined. FIG. 4 shows an exemplary user interface that may be implemented to collect this data from a user. The environment can be thought of as a placeholder that defines a set of machines (or nodes) that a release/application executes on. Each release/application will migrate through a set of environments. Again, this interface may be accessed from “CM Admin” drop down menu  802  by selecting the “Add Environment” menu item. “Environment Name” field  402  should reflect the type of environment and platform that makes up this environment. (e.g., CommonDevNas40). “Environment Type” field  404  provides a list of pre-defined environments that are tracked using the development and deployment tracking tool. Once the data has been filled in, the user may press “Submit” button  406  to input the information to the development and deployment tracking tool.  
         [0046]    In step  204 , the build processes and platforms are defined. The build script is an integral part of the process to get an application ready to use the tool. In a preferred embodiment, a development and deployment tracking tool provides a developer with multiple options for completing the build script. For example, an embodiment may allow use of a simple Kom shell script; the GNU make utility, and the ANT utility. Preferably, the build script is able to accept arguments that allow the tool to build individual components separate from each other. Also, the build script is preferably capable of using environment variables defined outside itself.  
         [0047]    Also in step  204 , the build platform (including node data) is defined. The node data is part of the environment data. An environment is defined as a set of nodes that an application executes on. The node data describes these machines, and gives the development and deployment tool information needed for file transfers (FTP), restarts of application servers, and application base directories. When the user selects the “Add Node” menu item from “CM Admin” drop down menu  802 , a view such as shown in FIG. 5 may be provided to the user.  
         [0048]    When a node is added, the user must bind an environment to the node. “Environment” drop-down list  502  provides a list of pre-defined environments from which to choose for this purpose. The user then selects a platform type, determined by the nodes functionality, from “Platform” drop-down list  504 . “Node Name” field  506  is used to identify the node. The field may comprise the hostname of the computer on the network or a nickname used to identify the node. “Host Computer Name” field  508  is the hostname of the computer on the network. “Root User” field  510 , “Root Password” field  512 , and “Root Directory” field  514  correspond to the user that has the rights to the third-party application&#39;s startup and shutdown scripts.  
         [0049]    “FTP Port” field  516  may be used if a non-standard port is used by the development and deployment tool. If a standard port is to be used, the field need not be included. “Domain Name” field  518  identifies the domain that the computer resides in. Once the data has been filled in, the user may press “Submit” button  520  to input the information to the development and deployment tracking tool.  
         [0050]    Once all of the needed environments are defined, the deployment chain is defined in step  206 . A deployment chain is the route of environments that an application must follow on its way from development to production. A simple example of a deployment chain is as follows:  
         [0051]    1. An application release is built and deployed to System Test (“systest”).  
         [0052]    2. Once approved in System Test, the same build would be deployed and installed on a Pre-Production environment.  
         [0053]    3. Once approved in Pre-Production, the same build would then be deployed to the Production environment.  
         [0054]    Each environment is defined within the tool. These environments in the development chain may be changed on the fly, to easily accommodate changes in deployment requirements. FIGS. 6A and 6B are screen shots of exemplary forms for creating or updating an environment chain table. A user first identifies the release in dropdown menu  600 , then click on submit button  602  to display a form such as shown in FIG. 6B. The current environment chain  604  for the release in this example includes two stages: a common development environment and a system test environment. Using option buttons  606 , the user modifies the environment chain to insert other environments before or after those already included in the chain. The user may also delete or edit existing entries in the chain. As before, the user click on submit button  608  to enter the requested changes.  
         [0055]    The final sub-step in the application definition phase is step  208 , where users are added and/or updated to provide them with access to the development and deployment tool. A user profile may be added to the development and deployment tool by selecting the “Add User Profile” menu item from “CM Admin” drop down menu  802  to display a form such as shown in FIG. 7A.  
         [0056]    “CUID” field  702  corresponds to the user&#39;s userID on the computer system, while “First Name” field  704  and “Last Name” field  706  correspond to the user&#39;s given name and surname. Fields  708  and  710  may be used to enter the user&#39;s email interactive pager addresses. These addresses may be used by embodiments of the development and deployment tool to send email notification messages to the user. Field  712  sets the default number days back that a component is displayed on the build request status screen. For example, if it is set to “30” the build request status screen will show components from the preceding thirty days.  
         [0057]    Users of the development and deployment tool may be categorized according to the role they have in the development and deployment process. Roles may include, for example, “developer” (DEV), “configuration manager” (CM), “quality assurance” (QA), and the like. Within the development and deployment tool, a user&#39;s assigned role determines that user&#39;s authorization to perform certain tasks. In a preferred embodiment, a CM role is the highest level. Accordingly, in such embodiments, a user assigned the CM role may perform all of the functions in the system. Drop-down list  714  may be used to identify the new user&#39;s assigned role. Once the data has been filled in, the user may press “Submit” button  716  to input the information to the development and deployment tracking tool.  
         [0058]    A user profile may be updated in much the same manner by selecting the “Update User Profile” menu item from “CM Admin” drop down menu  802  to display a list of users such as shown in FIG. 7B. Once the user to be updated is selected from this list, a form similar to the form shown in FIG. 7A is provided. Changes are entered and submitted as described above.  
         [0059]    Referring back to FIG. 1, the next step in the development and deployment process is step  103 , where the software developers actually write the code. This step may include any suitable code-writing techniques and may involve numerous developers in collaboration or a single developer.  
         [0060]    In step  104 , the developers unit test the new code to ensure it provides the functionality defined in steps  100  and  102 . This testing is generally performed in isolation, that is, the testing goal need not include testing the new code&#39;s interaction with other software components. The development and deployment tool is used to create a “sandbox” environment in which to complete this testing. A sandbox environment is a unit testing system allowing a developer to build as many times as he deems necessary without CM assistance. The developer selects “Build” button  9  (shown in FIG. 2) to access “Build” menu  902  (as shown in FIG. 9). The developer then selects “Build To Sandbox” from menu  902  to receive a view such as shown in FIG. 10. The developer then selects the release to be tested in the sandbox via drop-down list  1002  and submits the request via “Submit” button  1004 . After submitting the request, additional build information is gathered via a view such as shown in FIG. 11.  
         [0061]    Additional build information collected by the development and deployment tool include the component to be tested and the environment in which to perform the testing. This information is entered via drop-down lists  1102  and  1104 . Additionally, a new source view may be entered into option box  1106 . Again, the developer submits the information using “Submit” button  1108 . At this point, the development and deployment tracking tool will compile the necessary code, deploy it to the correct environment and install the software in the environment. The code may be bundled into single file for transport to the environment using suitable file compression tools, such as, for example, a tar utility on a UNIX-based system, a ZIP utility for other operating systems, and the like. The bundled file may then be transferred to the target environment using any suitable file transmission protocol, for example, FTP, copy, and the like. Once the transfer is complete, the development and deployment tool unbundles the files and stores them in the correct directories or folders and makes any system changes needed to complete the installation process.  
         [0062]    Once the developer is satisfied with the unit testing of the new application, he must submit the application for testing in an integrated environment in step  106 . This testing generally done under the developer&#39;s control or the control of the developer&#39;s group. This integrated testing environment is also referred to herein as “common development” or “common dev.” Building to the common development environment, is the first step in moving a release to production. The common development environment is the first place that application packaging and the application directory structures match those in the production environment. This is also where build rules and CM processes are enforced by the development and deployment tool. That is, once an application component is built to a common development environment, it cannot be built again until the component has a status of “FAILED”, “Rejected”, or “in Production”. In a preferred embodiment, only users assigned a role of “developer” or “CM” may build to a common development environment.  
         [0063]    The development and deployment tool facilitates this step in much the same manner as it facilitates the unit testing (i.e., build to sandbox). That is, the developer selects “Build To Common Dev” from “Build” menu  902  (as shown in FIG. 9). When this option is selected, a view such as shown in FIG. 12 is displayed (this view is similar to that shown in FIG. 10). The developer then selects the release to be tested in common development via drop-down list  1202  and submits the request via “Submit” button  1204 . After submitting the request, the component to be tested is selected from drop-down list  1302  in a view such as shown in FIG. 13. Again, the developer submits the information using “Submit” button  1304 . Unlike the sandbox build request, when building to the common environment, the user cannot specify an overriding view to use. Similarly, the user cannot change the environment, which is defined in the environment chain table within the tool.  
         [0064]    Common development testing is typically conducted by an integration test team. Such a team may consist of QA and development members or only development members. Because the impacts of multiple simultaneous tests in a single environment may play havoc with testing there is typically a coordination between the teams to make sure everything goes smoothly. The development and deployment tool controls the versions of the code in the common development environment.  
         [0065]    The integration test team tests the component within the common development environment and “grades” the application with a “pass” or “fail” status in step  110 . If the application fails the common development test, the application is sent back to step  103  where the developer corrects any problems. If the application receives a passing grade then configuration management sends the application on for system testing in step  112 . Again, the development and deployment tool facilitates these steps by providing an approval process. The evaluator accesses an approval form such as shown in FIG. 14 by selecting button  10  (shown in FIG. 2).  
         [0066]    This form is used throughout the development and deployment process to approve or reject a software component that has been placed into a testing status. The evaluator selects the release using drop-down list  1402  and issues the grade via one of status options  1404 . Finally, the evaluator may add comments in textbox area  1406 . In some embodiments, the comments field may be mandatory in all cases. In other embodiments, the comments field may be mandatory only when the component receives a failing grade or only when the component receives a passing grade. In other embodiments, the comments may be completely optional.  
         [0067]    As described above, if the component is approved the process moves on to step  112  where the application is deployed for system testing. The purpose of the system testing is to check the application for functionality and operability in a test environment. Such testing is typically performed by a quality assurance (QA) group, separate from the development group. The application is deployed to the test system by selecting button  15  (shown in FIG. 2) and choosing option “Deploy to SysTest” from menu  1502  (shown in FIG. 15). When this option is selected, a form such as shown in FIG. 16 is presented to the user. The user then selects the component to be tested in the system test via drop-down list  1602  and submits the request via “Submit” button  1604 . Drop-down list  1602  displays all components that are ready and available to be pushed to system test environment. Again, the developer submits the information using “Submit” button  1604 .  
         [0068]    In step  114  (shown in FIG. 1) the application undergoes system testing to verify the application&#39;s functionality as described above. In step  116 , the evaluators grade the application&#39;s performance using a view such as shown in FIG. 14. If the application fails this testing, it is sent back to the application developers in step  103 . Otherwise, the application is ready for deployment to a pre-production system in step  118 . In a preferred embodiment, a pre-production system replicates as much of the operational (i.e., production) system as possible. One purpose of testing the application in a pre-production environment is to optimize the performance of the application and to ensure that the application will be durable when it is moved to the operation environment.  
         [0069]    The development and deployment tool is used by the configuration management group to deploy the application to the pre-production system. This is accomplished by selecting button  15  (shown in FIG. 2) and choosing option “Deploy to Pre-Production” from menu  1502  (shown in FIG. 15). When this option is selected, a form such as shown in FIG. 17 is presented to the user. This form is essentially the same as that shown in FIG. 16, except that the component selected in drop-down list  1602  will be built for the pre-production equipment.  
         [0070]    In step  120 , the new application is tested on the pre-production equipment. In step  122 , the evaluators grade the application as described above. If the application passes the pre-production equipment test, the final step is to deploy the application to the production system in step  124 . Otherwise, if the application fails the pre-production testing, it is sent back to the application developers in step  103 .  
         [0071]    The production deployment is processed by the development and deployment tool in much the same way as previously described herein. That is, a configuration management user selects button  15  (shown in FIG. 2) and chooses option “Deploy to Production” from menu  1502  (shown in FIG. 15). When this option is selected, a form such as shown in FIG. 18 is presented to the user. This form is essentially the same as that shown in FIGS. 16 and 17, except the component selected in drop-down list  1702  will be built for the production equipment.  
         [0072]    Other Features in a Preferred Embodiment  
         [0073]    A development and deployment tracking tool according to the present invention may include many other features to ease the configuration control and management tasks. For example, the tool may provide status reports or other information that may be customized on demand by individual users. The view shown in FIG. 2 is an example of one such report. In this example, the report is generated when a user selects button  12  (in FIG. 2) to receive “Build Status” information. That report includes several columns of information related to the different components being managed by the tool.  
         [0074]    Such a report may be customized in this embodiment by selecting button  13  (in FIG. 2) to access the “Modify Profile” function of the tool. A screen such as shown in FIG. 19 will be provided to the user. “Number of Days” textbox  1902  is used to modify the data that the user will see on the “Build Status Report” page. The tool subtracts the number of days in this field from the current date and displays only the requests that have been made within that time frame. “Release Names” multiple select box  1904  allows the user to select which releases should be displayed in the report.  
         [0075]    Many of the options available through the Configuration Management Admin button (i.e., button  8  on FIG. 2) have already been described herein. Additional options may be provided allowing a user to update information already stored in the database. For example, forms may be provided to update release data, component data, environment data, node data, and user profiles.  
         [0076]    Other features may be included in embodiments of the present invention to simplify maintenance and troubleshooting within the development and deployment tracking tool. For example, the system may include error logs, and other such utilities.  
         [0077]    The foregoing disclosure of the preferred embodiments of the present invention has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Many variations and modifications of the embodiments described herein will be apparent to one of ordinary skill in the art in light of the above disclosure. The scope of the invention is to be defined only by the claims appended hereto, and by their equivalents.  
         [0078]    Further, in describing representative embodiments of the present invention, the specification may have presented the method and/or process of the present invention as a particular sequence of steps. However, to the extent that the method or process does not rely on the particular order of steps set forth herein, the method or process should not be limited to the particular sequence of steps described. As one of ordinary skill in the art would appreciate, other sequences of steps may be possible. Therefore, the particular order of the steps set forth in the specification should not be construed as limitations on the claims. In addition, the claims directed to the method and/or process of the present invention should not be limited to the performance of their steps in the order written, and one skilled in the art can readily appreciate that the sequences may be varied and still remain within the spirit and scope of the present invention.