Patent Document

FIELD OF THE INVENTION  
       [0001]     The invention relates to an electronic storage volume. More specifically, the invention relates to managing the electronic storage volume by constraining a size of sub-volumes within the electronic storage volume.  
       BACKGROUND OF THE INVENTION  
       [0002]     In general, a storage volume (e.g., a hard disk, server storage, flash ROM, and the like) has an overall fixed storage capacity. The overall fixed storage capacity is divided into various partitions (e.g., folders) that store data according to predetermined criteria or as directed by a user. As additional data is added to the various partitions, the size of the partitions increase accordingly. The additional storage space added to the partitions reduces the unused amount of overall storage capacity. This can create problems for a user who wishes to limit the amount of data stored in a folder or to maintain a certain amount of available storage space.  
       SUMMARY OF THE INVENTION  
       [0003]     In general, the invention is directed to managing a storage volume by providing means to create constrained sub-volumes from the capacity of the storage volume and assign predetermined action policies to the sub-volumes that are executed when certain criteria are met.  
         [0004]     In one aspect, the invention features a method of managing a storage volume having a fixed size and a constrained storage space having a dynamically reconfigurable storage capacity within the storage volume. The method includes assigning a threshold to a constrained storage space to define a first state in which an amount of data stored in the constrained storage space exceeds the threshold and a second state in which the amount of data stored in the confined storage space does not exceed the threshold. The method also includes comparing the amount of data to be stored in the constrained storage space and the threshold, and performing a predefined action if the comparison indicates that the amount data to be in the confined storage space would cause a transition between the first state and the second state. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0005]     The above and further advantages of this invention may be better understood by referring to the following description in conjunction with the accompanying drawings, in which like numerals indicate like structural elements and features in various figures. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.  
         [0006]      FIG. 1  is a graphical representation of a storage volume having sub-volumes.  
         [0007]      FIG. 2  is a block diagram of an embodiment of a configuration software module according to principles of the invention.  
         [0008]      FIG. 3  is a flow chart depicting an embodiment of the operation of the configuration software module of  FIG. 2 .  
         [0009]      FIG. 4  is a block diagram of an embodiment of a processing software module according to principles of the invention.  
         [0010]      FIG. 5  is a flow chart depicting an embodiment of the operation of the processing software module of  FIG. 4   
         [0011]      FIG. 6  is a graphical representation showing an example of management of a storage volume according to principles of the present invention. 
     
    
     DETAILED DESCRIPTION  
       [0012]     The present invention relates to software configured to manage a storage volume. The management software includes a configuration software module and a processing software module. The configuration software module enables a user to generate constrained and unconstrained sub-volumes for storing data. Examples of data include, but are not limited to, documents, emails, image files, presentations, and other data files. The processing module analyzes an amount of data to be stored in the sub-volumes and executes predetermined action policies if certain criteria are met with respect to the sub-volumes.  
         [0013]      FIG. 1  shows a fixed storage volume  10  having an overall storage capacity (e.g., 100 megabytes). Within the fixed storage volume  10  are a number of sub-volumes  14 A,  14 B,  14 C (only three are shown for clarity) that have a storage capacity (e.g., 5 megabytes each) that is a portion of the overall capacity of the fixed storage volume  10 . Any portion of the fixed storage volume  10  that is not designated as a sub-volume  14  is referred to as unallocated capacity  18 . Examples of the fixed size storage volume  10  can include, but are not limited to, a hard disk, a removable disk, a server, a flash memory device, a network storage device, and any other device capability of storing data. As used herein, sub-volume refers to a defined portion of the fixed volume. Examples of a sub-volume  14  can include, but are not limited to a folder, a partition, and the like. Each sub-volume  14  can also have additional sub-volumes  14  therein that divide the storage capacity of sub-volume  14 . Said another way, each sub-volume  14  can have nested sub-volumes  14 .  
         [0014]     During operation, each sub-volume  14  stores data according to the preferences of the user. Additionally, the unallocated capacity  18  can store data. The size of each sub-volume  14  is either constrained by the user in accordance with the principles of the invention or left unconstrained. As used herein, constrained refers to the state having a not-to-exceed size for the sub-volume  14 . It should be understood, that the not-to-exceed size of the constrained sub-volume  14  can be dynamically reconfigured as part of the normal operation of the software of the present invention. For example, a sub-volume  14  can be originally configured to have a not-to-exceed size of 5 megabytes. However, during operation the user can dynamically reconfigure the not-to-exceed size to a larger value.  
         [0015]      FIG. 2  depicts a configuration software module  22  constructed according to principles of the invention. The configuration software module includes an allocater module  26 , a notification module  30 , and an action policy module  34 . The allocater module  26  provides for the creation of sub-volumes  14  and allocates the not-to-exceed size of the sub-volumes  14 . The notification module  30  allows the user to assign a notification policy to each sub-volume  14 . The action policy module  34  allows the user to assign a predefined action policy or a default action policy to each sub-volume  14 .  
         [0016]      FIG. 3  shows a flow chart depicting an embodiment of the operation of the configuration software module  22 . The user determines (step  100 ) whether to create a sub-volume  14  within the fixed storage volume  10 . The not-to-exceed size of the sub-volume  14  is either declared (step  110 ) to limit the capacity of the sub-volume  14  or the sub-volume  14  is configured (step  120 ) as an unconstrained sub-volume. As used herein, unconstrained sub-volume refers to a sub-volume  14  that does not have an associated not-to-exceed size. As additional data is added to the unconstrained sub-volume, the capacity of the unconstrained sub-volume is increased accordingly.  
         [0017]     Once the not-to-exceed size of the sub-volume  14  is declared, the allocater module  26  determines (step  130 ) whether the total capacity of any existing constrained sub-volumes, unconstrained sub-volumes, and the newly created sub-volume  14  and the unallocated capacity of the of the fixed storage volume  10  exceeds the capacity of the fixed storage volume  10 . If so, an error message is displayed (step  140 ) to the user that states that the size of total capacity of the fixed storage volume  10  is exceeded. Also, the allocater module  26  determines (step  150 ) whether the not-to-exceed size exceeds the remaining unallocated capacity of fixed storage volume  10 . When the not-to-exceed size exceeds the remaining unallocated capacity of fixed storage volume  10 , an error message is displayed (step  140 ) to the user that states that the not-to-exceed size exceeds the size of the remaining unallocated capacity of fixed storage volume  10 . If creation of the new sub-volume  14  does not result in an error, the not-to-exceed size is applied to the sub-volume  14  to create constrained storage volume having a fixed capacity that is equal to the not-to-exceed size.  
         [0018]     After creating the sub-volume  14 , the user decides (step  170 ) whether to apply a notification policy to the sub-volume  14  using the notification module  30 . If a notification policy is not desired, then a notification policy is not applied and the process continues to step  210 . To apply a notification policy to the sub-volume  14 , a threshold (or trigger) is communicated to the notification module  30 . The threshold is analyzed (step  190 ) to determine if the threshold exceeds the capacity of the sub-volume  14 . An error is displayed (step  140 ) to the user if the threshold exceeds the capacity of the sub-volume  14 , otherwise, the threshold is applied (step  200 ) to the sub-volume  14 . The threshold defines two states for the sub-volume. In the first state, the amount of data stored in the sub-volume  14  does not exceed the threshold, and in the second state the amount of data stored in the sub-volume  14  exceeds the threshold. Adding new data to the sub-volume  14  or removing data from the sub-volume  14  can cause a transition between the states of the sub-volume  14 . If a state transition occurs, a notification policy assigned to the sub-volume  14  is executed.  
         [0019]     The action policy module  34  allows the user to define a predetermined action policy and associate the action policy with the sub-volume  14 . In general, an action policy is a set of commands that perform a specific function to provide a desired result. For example, deleting data until a certain amount of unused capacity is reached. As used herein, a default predetermined action policy refers to an action policy that does not request permission from the user before executing or is assigned by an entity other than the user (e.g., a system administrator). A user defined predetermined action policy allows the user to configure the commands to produce the desired result. The user predefined action policy can operate by requesting permission from the user or the user predefined action policy can operate automatically if configured to do so. The user determines (step  210 ) whether to apply a default predetermined action policy (step  220 ) or a user directed predetermined action policy (step  230 ).  
         [0020]      FIG. 4  shows a block diagram of an embodiment of a processing software module  40  constructed according to principles of the invention. The processing software module  40  includes a determination module  44 , a calculation module  48 , and a triggering module  52 . The determination module  44  is configured for analyzing a sub-volume  14  prior to storing new data therein. Functionality provided by the calculation module  48  includes, but is not limited to, determining whether adding data to the sub-volume  14  exceeds the capacity of the sub-volume  14  and whether adding data to the sub-volume  14  exceeds the threshold, if a threshold is associated with the sub-volume  14 . The triggering module  52  provides functionality such as executing the predetermined action policy of the sub-volume  14 , notifying the user of the execution of the predetermined action policy, notifying the user of the determination made by the calculation module, and receiving user input responsive to the notification.  
         [0021]      FIG. 5  shows a flow chart depicting an embodiment of the operation of the processing software module  40 . Initially, the user receives (step  300 ) new data to store in a sub-volume  14  or begins to transfer existing data into the sub-volume  14  from another storage location. The determination module  44  analyzes (step  310 ) the sub-volume  14  to determine whether it is constrained or unconstrained, and to determine its capacity. If the sub-volume  14  is constrained, then the capacity of the sub-volume  14  equals the allocated capacity as configured by the configuration software module  22 . If the sub-volume is unconstrained, the capacity equals the capacity of the fixed storage volume  10  less the capacity that is storing existing data.  
         [0022]     The calculation module  48  calculates (step  320 ) a total amount of data that will be stored in the sub-volume  14  by adding the amount of the new data to the amount of any preexisting data stored in the sub-volume  14 . The calculation module then compares (step  330 ) the total amount of data to the capacity of the sub-volume  14 . If the total amount of data exceeds the capacity of the sub-volume  14 , the triggering module  52  executes (step  340 ) the predetermined action policy associated with sub-volume  14 .  
         [0023]     One example of a predetermined action policy is deleting data from the sub-volume  14  to generate additional capacity to store the new data on a first-in, first out (FIFO) basis. That is, the oldest preexisting data of the sub-volume  14  is deleted first. Another example of a predetermined action policy is deleting data from the sub-volume  14  on a last-in, first-out (LIFO) basis. That is, the most recent preexisting data of the sub-volume  14  is deleted from the sub-volume first. Another predetermined action policy can be moving preexisting data from the sub-volume  14  to another sub-volume  14 . This can be done on either a FIFO or LIFO basis. In another example, a predetermined action policy dynamically reconfigures the capacity of the sub-volume  14 . As used herein, dynamic reconfiguration refers to increasing or decreasing the capacity of the sub-volume  14  in real-time. The triggering module may notify (step  350 ) the user after executing the predetermined action policy.  
         [0024]     If the calculation module  48  ascertains (step  330 ) that the total amount of data does not exceed the capacity of the sub-volume  14 , the calculation module  52  then compares (step  360 ) the total amount of data to the threshold of the sub-volume  14  otherwise the new data is stored in the sub-volume  14 . If the total amount of data exceeds the threshold, the user receives (step  370 ) notification. In response, the user inputs (step  380 ) a desired action (e.g., acknowledging the threshold will be exceeded) through a graphical user interface (not shown). After execution of the triggering module, the new data is stored (step  390 ) in the sub-volume  14 .  
       EXAMPLE  
       [0025]     The following description provides one example application of principles of the present invention and is not intended to limit the invention. One use for the present invention is with electronic mail systems, such as HOTMAIL®, YAHOO MAIL®, and the like. HOTMAIL provides a user with a fixed size storage volume  10  having an overall capacity of 100 megabytes. The user creates folders (i.e., sub-volumes  14 ) that store emails according to subjects as directed by the user.  
         [0026]     With reference to  FIG. 6 , the user is assigned an in-box folder  14 A and a sent folder  14 B by the electronic mail system. Using the configuration software module  22 , the user creates a spam folder  14 C and allocates 5% of the overall capacity of the spam folder  14 C. As a result the capacity of the spam folder  14 C is constrained to a size of 5 megabytes. Prior to setting the capacity of the spam folder  14 C, the allocater module  26  checks the requested allocation size of the spam folder  14 C to ensure that the requested capacity does not exceed the overall capacity allowed by the electronic mail system. Also, the allocater  26  module ensures that the requested capacity does not exceed the available capacity (i.e., the capacity that is not currently storing data or assigned to other constrained sub-volumes  14 ).  
         [0027]     Next, the user interacts with the notification module  30  and chooses not to assign a threshold to the spam folder  14 C. As a result, the user will not be notified when the spam folder  14 C reaches capacity. Using the action policy module  34 , the user chooses not to define an action policy for the spam folder  14 C. As a result, a default action policy D is assigned to the spam folder  14 C. In this example, the default action policy D is to delete an email from the respective folder  14  on a FIFO basis. As shown, the spam folder  14 C is currently at capacity and therefore any additional received spam email will result in the deletion of the first received spam email presently in the spam folder  14 .  
         [0028]     Next, using the configuration software module  22 , the user creates a shopping folder  14 D to store electronic messages related to the user&#39;s shopping activities. For this folder  14 D, the user allocates 25% of the 100 megabytes (i.e., 25 megabytes), assigns a threshold of 75% (i.e., 18.75 megabytes), and associates a user defined action policy U. In this example, the user defined action policy U requests an increase in capacity for the shopping folder  14 D. As shown, the amount of email stored in the shopping folder  14 D exceeds the assigned threshold (i.e., presently 19 megabytes of email are stored in the shopping folder  14 D). A request for an increase in the capacity of the shopping folder  14 D may be presented to the user for acceptance or processed automatically without requesting action by the user.  
         [0029]     The user also creates a banking folder  14 E for storing email related to the user&#39;s banking activities. The user allocates 20% of the 100 megabytes (i.e., 20 megabytes) as capacity of the banking folder  14 E, assigns a threshold of 75% (i.e., 15 megabytes), and associates a user defined action policy U. In this example, the user defined action policy U moves the first received email in the folder to another location (e.g., a network storage device or forwards the email to another account for archiving). As shown, 10 megabytes of email stored in the banking folder  14 E does not exceed the threshold. If a new email related to banking is received and has a size greater than 5 megabytes, the user is presented with a notification that the threshold will be exceeded and that an existing email will be moved to another location when the new email is stored in the banking folder  14 D.  
         [0030]     While the invention has been shown and described with reference to specific preferred embodiments, it should be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the following claims. Although described as a method and data file the invention can be embodied as instructions on a computer readable medium (e.g., compact disk, DVD, flash memory, and the like) that is sold and distributed in various commercial channels. Also, the instructions contained on the computer readable medium can be downloaded across a network (e.g., Internet). Additionally, the invention can be embodied as a computer data signal embodied in a carrier wave for managing a storage volume.

Technology Category: 3