USRE42214E1 - Providing quality of service guarantees to virtual hosts - Google Patents
Providing quality of service guarantees to virtual hosts Download PDFInfo
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- USRE42214E1 USRE42214E1 US11/956,246 US95624607A USRE42214E US RE42214 E1 USRE42214 E1 US RE42214E1 US 95624607 A US95624607 A US 95624607A US RE42214 E USRE42214 E US RE42214E
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- network address
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/46—Multiprogramming arrangements
- G06F9/54—Interprogram communication
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/46—Multiprogramming arrangements
- G06F9/50—Allocation of resources, e.g. of the central processing unit [CPU]
- G06F9/5005—Allocation of resources, e.g. of the central processing unit [CPU] to service a request
- G06F9/5027—Allocation of resources, e.g. of the central processing unit [CPU] to service a request the resource being a machine, e.g. CPUs, Servers, Terminals
- G06F9/5055—Allocation of resources, e.g. of the central processing unit [CPU] to service a request the resource being a machine, e.g. CPUs, Servers, Terminals considering software capabilities, i.e. software resources associated or available to the machine
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/45—Network directories; Name-to-address mapping
- H04L61/4505—Network directories; Name-to-address mapping using standardised directories; using standardised directory access protocols
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/60—Scheduling or organising the servicing of application requests, e.g. requests for application data transmissions using the analysis and optimisation of the required network resources
- H04L67/61—Scheduling or organising the servicing of application requests, e.g. requests for application data transmissions using the analysis and optimisation of the required network resources taking into account QoS or priority requirements
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2209/00—Indexing scheme relating to G06F9/00
- G06F2209/50—Indexing scheme relating to G06F9/50
- G06F2209/5011—Pool
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2209/00—Indexing scheme relating to G06F9/00
- G06F2209/50—Indexing scheme relating to G06F9/50
- G06F2209/504—Resource capping
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2209/00—Indexing scheme relating to G06F9/00
- G06F2209/54—Indexing scheme relating to G06F9/54
- G06F2209/542—Intercept
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D10/00—Energy efficient computing, e.g. low power processors, power management or thermal management
Definitions
- the present invention relates generally to guaranteeing appropriate quality of service to virtual processes executing on multitasking operating systems, and specifically in one embodiment to guaranteeing quality of service to virtual hosts servicing client requests to multiple network addresses on a single physical host computer.
- a server program executing on a single physical host computer services client requests made to a single network address allocated to the host.
- TCP Transmission Control Protocol
- a server application executing on a single physical host can be programmed to process requests made to multiple network addresses.
- Such functionality is known as virtual hosting.
- a server program executing on the host opens a communication transport channel (socket) and allows receipt of incoming communications targeted for any of the multiple network addresses assigned to the host.
- Accepting a communication request by a server executing TCP is a three step process that comprises waiting for the communication request from a client, sending an acknowledgment signal to the client, and receiving a return acknowledgment signal from the client.
- This three step process is called “three way handshaking” and is a feature of TCP communication.
- a server While accepting a communication request, a server is unable to execute other tasks. Thus, a server cannot wait for one incoming communication request and simultaneously service a separate communication request.
- multiple communication requests made to a plurality of network addresses associated with a single physical host require simultaneous service. For this reason, a virtual host server typically accepts the communications requests itself and creates child processes to service the requests.
- This method of virtual hosting know as “fork after accept,” is widely used today.
- Another method of virtual hosting comprises generating, by the server, a plurality of child processes.
- the number of child processes created reflects a desired maximum number of communication requests to service simultaneously.
- Each child process proceeds to accept a communication request.
- each child waits for an incoming communication computer, services it, and proceeds to wait for a next request.
- While a child process is servicing a request it cannot be waiting for another request, but this is allowable because other child processes are waiting for incoming requests.
- the maximum desired number of requests is being serviced, and no more can be accepted until one of the child processes finishes servicing a request and begins waiting for a new one.
- This method called “fork before accept,” is known and used today, although less commonly than “fork after accept.”
- Both virtual host systems that utilize the fork before accept method and those that utilize the fork after accept method can be name-based as well as address-based.
- each virtual host is identified by a separate network address assigned to a single, physical host.
- each virtual host is identified not by a network address, but instead by a domain name.
- Multiple domain names can be assigned to a single address.
- multiple virtual hosts, each identified by a unique domain name can all be assigned to a single network address.
- the single network address to which the multiple domain names are assigned is assigned to the single, physical host. Communication requests to a name-based virtual host are made to a domain name, not to a network address.
- all virtual hosts map to a single physical host.
- a virtual host system simulates multiple hosts by servicing client requests made to any of the multiple network addresses or domain names. This is desirable, because providing a unique physical host for each network address or domain name is expensive and inefficient.
- Hosting services are often provided commercially by an Internet Service Provider (ISP). Without virtual hosting, an ISP would have to provide a separate physical host computer with a unique network address for every customer that purchases host services. Often, a customer purchasing host services from an ISP will neither require nor be amenable to paying for use on an entire host computer. Generally, only a fraction of the processing power, storage, and other resources of a host computer will be required to meet the needs of an individual customer.
- ISP Internet Service Provider
- Virtual hosting allows an ISP to utilize one physical host computer to provide commercial host services to multiple customers, thereby creating a virtual host server. Each and is provided with resources on the single, physical host computer, effectively sharing the host with other customers.
- a client computer requests data from a specific customer's host by targeting communication requests to the appropriate network address (or domain name).
- the virtual host server can service requests to multiple network addresses or domain names.
- the functionality of numerous hosts is provided by a single physical host computer, servicing requests made to a plurality of network addresses and domain names by multiple customers.
- the second customer has a very limited budget, but only requires minimal computer resources.
- this is not possible with conventional virtual hosting techniques.
- Multitasking operating systems such as UNIX facilitate specification of resource allocation to multiple concurrent processes.
- the operating system can be instructed as to how to allocate resources to different processes.
- System resources can be allocated to processes as a percentage of resources available (for example, the operating system may be instructed to allocate twenty percent of the central processing unit cycles to process A and two percent to process B), or as specific numbers of units (for example, the operating system may be instructed to allocate X cycles per second to process A and Y cycles per second to process B).
- Such specification of resource allocation is called a guarantee of quality of service.
- a server which is a process, executing on a dedicated physical host services client requests for a single network address (physical host) only.
- quality of service can simply be set for the server to the quality of service appropriate for the host.
- a virtual host server services numerous client requests for multiple virtual hosts.
- a single virtual host server provides host services for a plurality of customers all of whom may require different quality of service. Although it would be possible to set a single quality of service for the virtual host server, no single quality of service is appropriate for all of the virtual hosts. Because the appropriate quality of service for different virtual hosts is different, providing a single quality of service for all virtual hosts is undesirable.
- ISP's utilize single service application programs to provide virtual hosting services to multiple customers with varying business needs and budgets.
- an ISP It would be desirable for an ISP to be able to make appropriate quality of service guarantees to different customers purchasing virtual host services.
- conventional virtual host systems can provide only the same quality of service for all virtual hosts supported by the server.
- an ISP cannot provide one quality of service to the international financial services corporation of the example given above, and another to the local florist.
- the ISP either must provide each customer with the same quality of service, which is undesirable, or provide each customer with a separate physical host, which is inefficient and expensive for the ISP, as many customers do not require the resources of a dedicated host computer. What is needed is a virtual host system that provides appropriate quality of service guarantees for each virtual host.
- Virtual host systems are being utilized today by ISP's and other providers of host services. As explained above, it would be desirable for existing ISP's providing virtual host systems to be able to provide appropriate quality of service guarantees to multiple virtual hosts. However, many such ISP's would not want to replace their existing virtual host system with one that could provide such guarantees, even if such a system were available. Upgrading a virtual host system is a time consuming and complicated process, often involving costly down time and high labor expenses. It would be desirable to have a system to allow existing users to provide appropriate quality of service guarantees to multiple virtual hosts, without having to upgrade or replace their existing virtual host systems.
- the present invention allows providers of virtual host services to make appropriate quality of service guarantees to multiple virtual hosts.
- the present invention executes as a virtual host quality of service application program on the same physical host computer as an existing virtual host server.
- the application program modifies the operating system of the host computer to include a quality of service table comprising appropriate quality of service parameters for all virtual hosts.
- object code is inserted into the operating system.
- the object code comprises computer instructions to obtain quality of service parameters for a particular virtual host from the table, and to set the quality of service for the virtual host according to these parameters.
- system calls to the operating system pertaining to communications between one of the virtual hosts and a client are intercepted.
- the system calls are intercepted by replacing a pointer in an operating system function table with a pointer to the inserted object code, so that when a system call is made, the inserted object code is executed rather than the system call.
- the object code obtains quality of service parameters for the selected virtual host from the quality of service table, and the appropriate quality of service is guaranteed to the virtual host.
- Virtual host systems utilize child processes of a parent server application to manage communications between a virtual host and a client. Therefore, the inserted object code can guarantee the appropriate quality of service to the virtual host by setting the quality of service guarantees for the child process managing the communication between the virtual host and the client. After the quality of service guarantees are set, the communication between the virtual host and the client proceeds.
- the present invention works for all types of virtual hosting systems, including both those that utilize the fork before accept method and those that utilize the fork after accept method.
- quality of service guarantees for a virtual host system utilizing the fork before accept method system calls that establish a communication channel between a client and a select one of the virtual hosts are intercepted. These system calls are made by child processes of the server application.
- the present invention then guarantees quality of service appropriate for the virtual host to the child process that made the intercepted system call. Once the quality of service is guaranteed, the child process that made the system call manages the communication between the virtual host and the client.
- Guaranteeing quality of service to virtual hosts of a system utilizing the fork after accept method is similarly facilitated.
- a communication channel is established by the server application prior to generation of a child process to service a communication request.
- the virtual host quality of service application program intercepts system calls, made by child processes, that transport data through already established communication channels.
- the virtual host quality of service program determines the virtual host to which the client is communicating via the channel. Appropriate quality of service is then guaranteed to the child process that made the intercepted system call.
- the child process then proceeds to manage communication between the virtual host and the client.
- the present invention also guarantees appropriate quality of service to name-based virtual hosts.
- Clients make communication requests to name-based virtual hosts by passing a domain name to the virtual host server.
- the domain name is then stored in a communication buffer utilized for communications between the server and the client.
- the virtual host quality of service program intercepts system calls that transport data through communication channels. When such a system call is made, the communication buffer being used to transport data through the channel is parsed. By parsing the buffer, the domain name to which the client is communicating is isolated, and hence the virtual host associated with the communication is identified.
- Quality of service guarantees appropriate for the virtual host are then set for the child process that made the system call. That child process proceeds to manage the communication between the virtual host and the client.
- the present invention allows providers of virtual host services to make appropriate quality of service guarantees to multiple virtual hosts without upgrading or replacing existing virtual host systems.
- the present invention comprises a stand along virtual host system that sets appropriate quality of service guarantees for all virtual hosts.
- the present invention is in the form of a server application program. Unlike other embodiments of the present invention, in order to utilize this embodiment providers of virtual host services must upgrade their virtual host system.
- the virtual host server program stores in computer memory a table including appropriate quality of service guarantees.
- the server program then receives all client requests for communication with virtual hosts.
- the server first receives a client request to communicate with a virtual host, and then creates a child process to manage communication between the virtual host and the client.
- the server obtains the quality of service parameters associated with the virtual host, and guarantees, to the child process, the quality of service appropriate for the virtual host.
- the server When utilizing the fork before accept method, the server first creates, a plurality of child processes to manage communication requests made to virtual hosts by clients. When the server receives a communication request made to a select one of the virtual hosts by a client, the server obtains the quality of service parameters associated with the virtual host, and guarantees the associated quality of service to the child process that will manage the communication.
- the present invention makes appropriate quality of service guarantees to a plurality of virtual hosts comprising a single server application program.
- the present invention can also be utilized to make appropriate quality of service guarantees to a plurality of virtual processes of any nature comprising a single application program.
- FIG. 1 is a block diagram illustrating a high level overview of a system for setting quality of service guarantees for virtual hosts in accordance with one embodiment of the present invention.
- FIG. 2 is a block diagram illustrating a system for setting quality of service guarantees for virtual hosts of a virtual hosting system that utilizes a fork before accept method.
- FIG. 3 is a block diagram illustrating a system for setting quality of service guarantees for virtual hosts of a virtual hosting system that utilizes a fork after accept method.
- FIG. 4A , FIG. 4B , FIG. 4C , and FIG. 4D are block diagrams illustrating, in greater detail, select features depicted in FIG. 3 .
- FIG. 4A illustrates pointers inserted into the operating system.
- FIG. 4B illustrates copies of pointers to operating system calls saved to computer memory.
- FIG. 4C illustrates the content of object code inserted into the operating system.
- FIG. 4D illustrates the content of association tables.
- FIG. 5 is a block diagram illustrating a system for setting quality of service guarantees for virtual hosts of a name-based virtual hosting system according to one embodiment of the present invention.
- FIG. 6A , FIG. 6B , and FIG. 6C are block diagrams illustrating, in greater detail, select features depicted in FIG. 5 .
- FIG. 6A illustrates pointers inserted into the operating system.
- FIG. 6B illustrates copies of pointers to operating system calls saved to computer memory.
- FIG. 6C illustrates the content of object code inserted into the operating system.
- FIG. 7 is a block diagram illustrating an embodiment in which the present invention comprises a stand alone virtual host system.
- FIG. 1 presents a high level overview of a system for setting quality of service guarantees for virtual hosts in accordance with a preferred embodiment of the present invention.
- a single, physical host computer 101 contains computer memory 103 , conventional processor(s), networking interfaces, and input/output devices (not shown).
- An operating system 105 , a virtual host server application program 107 , and a plurality of child processes 109 of the server application program 107 reside in the computer memory 103 .
- FIG. 1 illustrates three child processes 109 of the virtual host server application program 107 : a first child process 109 A, a second child process 109 B, and a third child process 109 C. It is to be understood that more or fewer child processes 109 can reside in the computer memory 103 as desired.
- Client computers 111 send requests 113 to a plurality of virtual hosts 115 which are supported by the server 107 . All such requests are received by the server application program 107 and are processed by the child processes 109 .
- FIG. 1 illustrates three client computers 111 (client computer 111 A, client computer 111 B, and client computer 111 C), each making separate requests 113 to a separate virtual host 115 . It is to be understood that more or fewer client computers 111 can make more or fewer requests 113 to more or fewer virtual hosts 115 . It is to be understood that the clients 111 are typically remote from the server 107 and physical host computer 101 .
- a virtual host quality of service application program 117 executes in the computer memory 103 of the physical host computer 101 .
- the virtual host quality of service application program 117 inserts a quality of service parameter table 119 and object code 121 into the operating system 105 in the computer memory 103 . Additionally, the virtual host quality of service application program 117 inserts, into the interrupt vector table 123 of the operating system 105 , a pointer 125 to the object code 121 .
- the object code 121 reads the quality of service parameter table 119 , and calls the quality of service manager 127 of the operating system 105 to set appropriate quality of service guarantees for the virtual hosts 115 serviced by the virtual host server application program 107 .
- the virtual hosts 115 then transmit responses 129 to the client computers 111 .
- the features and functionality depicted in FIG. 1 are described in detail below.
- FIG. 2 illustrates a virtual host application program 117 for providing quality of service guarantees to virtual hosts 115 of a server program 107 that utilizes the fork before accept virtual hosting method.
- clients 111 make requests 113 to specific virtual hosts 115 .
- a virtual host 115 is identified by a network address 201 .
- clients 111 transmit communication requests 113 to individual network addresses 201 .
- Multiple network addresses 201 are assigned to the single, physical host computer 101 , and communication requests thereto are serviced by the virtual host server program 107 .
- a virtual host server 107 that utilizes the fork before accept virtual hosting method generates a plurality of child processes 109 , each of which waits for an incoming communication request 113 .
- the child process 109 establishes a communication channel between itself and the requesting client 111 .
- the child process 109 proceeds to use the communication channel to service the request 113 that was made by the client 111 to the network address 201 .
- the present invention detects when a child process 109 is accepting a communication request 113 , and sets quality of service guarantees for the child process 109 based on parameters for the network address 201 to which the request 113 is directed.
- the child process 109 closes the established communication channel and waits for another incoming request 113 .
- the next request 113 the child process 109 receives may be directed to a different network address 201 and hence may require that different quality of service parameters be set for the child process 109 . Therefore, the present invention detects when the child process 109 establishes a communication channel to service the new request 113 and proceeds to request appropriate quality of service guarantees for the target network address 201 .
- a virtual host quality of service application program 117 executes in the computer memory 103 .
- the quality of service program 117 inserts a quality of service parameter table 119 into the operating system 105 of the host computer 101 .
- the quality of service table 119 contains quality of service parameters for each network address 201 associated with one of the virtual hosts 115 serviced by the virtual host server 107 .
- the quality of service program 117 utilizes techniques known in the art to insert the table 119 into the operating system 105 .
- the present invention dynamically links a module to an operating system kernel, which the kernel is active.
- the module is preferably in the form of object code comprising an empty quality of service table 119 , and subroutines to add, modify, and delete quality of service parameters for different virtual hosts.
- the quality of service application program 117 then calls the appropriate subroutine to add the quality of service parameters for the virtual hosts 115 serviced by the server program 107 .
- the quality of service program 117 utilizes the subroutines to add, modify, and delete quality of service parameters as desired.
- the module contains additional subroutines, or only a subset of the subroutines listed above.
- the table 119 is first filled with quality of service parameters and then linked to kernel as a module.
- the quality of service table 119 is stored outside of the operating system 105 in computer memory 103 .
- the quality of service program 117 also inserts object code 121 into the operating system 105 .
- the object code is dynamically linked to the operating system kernel as a module. The contents and execution of the object code 121 are discussed in detail below.
- the object code 121 resides outside of the operating system 105 in computer memory 103 .
- the quality of service program 117 makes a copy 203 of an internal operating system pointer to the operating system function that is called to establish a communication channel.
- the copy 203 is made by a module linked to the operating system kernel. In the UNIX operating system, this function is the operating system accept function 205 , as pictured in FIG. 2 .
- the copy 203 of the pointer to the system accept function 205 is stored in conventional computer memory 103 . In another embodiment, the copy 203 of the pointer is stored in the operating system 105 .
- the name of the system function that is called to establish a communication channel can vary from operating system to operating system.
- the present invention is not limited to any specific operating system, or to any specific operating system function name.
- some operating systems include more than one function that establishes a communication channel.
- Embodiments of the present invention targeted for such operating systems create copies 203 of the pointers to all such operating system functions.
- interrupt vector table denotes an area in operating system memory in which are stored the addresses of operating system functions (system calls). In the UNIX operating system, this part of the operating system is called the “interrupt vector table,” and that term is used in this specification. Other operating systems employ different terminology to denote the same system component. An interrupt vector table by any other name is still within the scope of the present invention.
- the quality of service program 117 replaces the pointer to the system accept function 205 with a pointer 125 to the inserted object code 121 , such that when the system accept function 205 is called, the inserted object code 121 is executed instead.
- this pointer replacement is executed by a module linked to the operating system 105 kernel. Executing alternative code when a system call is made comprises intercepting the system call. The steps of inserting object code 121 into the operating system 105 , making a copy 203 of an operating system pointer, and replacing the operating system pointer with a pointer 125 to the inserted object code facilitate interception of a system call.
- the operating system 105 uses the pointer 125 in the interrupt vector table 123 to execute the object code 121 .
- the object code 121 first utilizes the saved copy 203 of the pointer to the system accept function 205 to call the system accept function 205 .
- the system accept function 205 executes, thereby establishing the communication channel.
- the accept function 205 terminates, the object code 121 continues to execute.
- the object code 121 determines if the communication channel that was established is to one of the network addresses 201 associated with one of the virtual hosts 115 serviced by the server program 107 . Preferably, this determination is made by reading an operating system variable 207 that identifies the network address 201 associated with the communication channel.
- this system variable 207 is called “local_name,” and is set by the accept function 205 .
- the variable 207 is denoted by a different name.
- Alternative embodiments of the present invention utilize other methods to determine the network address 201 to which the communication channel was established, for example reading a return value of a system function, polling a system communication manager, or other similar mechanisms as desired.
- the object code 121 simply exits. The channel will not be used for communication to a virtual host 115 , and thus no quality of service guarantees need to be made by the present invention.
- the communication channel is to one of the network addresses 201 associated with one of the virtual hosts 115 , the object code 121 requests, from the operating system 105 , an appropriate quality of service guarantee for the process that called the system accept function 205 .
- the object code 121 reads the quality of service table 119 , and locates the quality of service parameters for the virtual host 115 associated with the network address 201 to which the communication channel was established. The object code 121 then calls the operating system quality of service manager 127 to request an appropriate quality of service guarantee to the child process 109 that called the system accept function 205 .
- the appropriate quality of service to guarantee is that specified by the quality of service parameters for the virtual host 115 to which the communication channel has been established.
- the object code 121 exits, and the child process 109 sends a response 129 to the client 111 via the established communication channel. Communication between the client 111 and the virtual host 115 proceeds over the communication channel. The communication is managed by the child process 109 , which has been guaranteed appropriate quality of service.
- FIG. 3 illustrates a virtual host application program 117 for providing quality of service guarantees to virtual hosts 115 of a server program 107 that utilizes the fork after accept virtual hosting method.
- communication requests 113 to specific network addresses 201 are made by client computers 111 and are serviced by the virtual host server program 107 .
- a virtual host server 107 that utilizes the fork after accept virtual hosting method accepts a communication request 113 , establishes a communication channel between the client computer 111 and the network address 201 , and then generates a child process 109 .
- the child process 109 uses the communication channel created by the server 107 to service the request 113 that was made by the client 111 to the network address 201 .
- a virtual host quality of service program 117 executes in the computer memory 103 .
- the quality of service program 117 inserts a quality of service parameter table 119 and object code 121 into the operating system 105 of the host computer 101 , in the manner described above.
- the object code is dynamically linked to the operating system kernel as a module. The contents and execution of the object code 121 are discussed in detail below.
- the quality of service program 117 makes copies 203 of multiple internal operating system pointers to operating system functions.
- the copies 203 are made by a module linked to the operating system kernel.
- the present invention makes copies 203 of the pointers to the following operating system functions: system functions to establish a communication channel (for example, the UNIX accept function) 205 , system functions to generate a child process (for example, the UNIX fork function) 301 , system functions to copy a file or a file descriptor (for example, the UNIX dup and dup2 functions), and system functions to read data from a file (for example, the UNIX read function).
- the copies 203 of the pointers to the system functions are preferably stored in conventional computer memory 103 .
- the copies 203 are stored in the operating system 105 .
- the names of the relevant system functions can vary from operating system to operating system.
- the present invention is not limited to any specific operating system, or to any specific operating system function names.
- some operating systems include more than one function which performs the above described functionality.
- Embodiments of the present invention targeted for such operating systems create copies 203 of the pointers to the appropriate operating system functions.
- this specification refers to the system accept function 205 , the system fork function 301 , the system dup function 303 , and the system read function 305 , as depicted in FIG. 3 .
- references to the system accept function 205 apply to all system functions to establish a communication channel
- references to the system fork function 301 apply to all system functions to generate a child process
- references to the system dup function 303 apply to all system functions to copy a file or to copy a file descriptor
- references to the system read function 305 apply to all system functions to read data from a file or to read data from a communication channel.
- the pointers to the above listed system functions are located in the operating system 105 interrupt vector table 123 .
- the quality of service program 117 replaces the pointers with pointers 125 to inserted object code 121 , such that when a targeted system function is called, inserted object code 121 is executed instead.
- the replacement is executed by a module linked to the operating system kernel.
- the embodiment of the present invention depicted in FIG. 3 intercepts the system accept function 205 , the system fork function 301 , the system dump function 303 and the system read function 305 .
- inserted object code 121 executes.
- This inserted object code 121 is called as a wrapper.
- the accept wrapper is the inserted object code 121 that executes when the system accept function 205 is called.
- FIG. 4C illustrates the content of the inserted object code 121 in the embodiment of FIG. 3 .
- the object code 121 contains an accept wrapper 417 , a fork wrapper 419 , a dup wrapper 421 , and a read wrapper 423 .
- FIG. 4A illustrates pointers 125 inserted into the interrupt vector table: a pointer 401 to the accept wrapper 417 , a pointer 403 to the fork wrapper 419 , a pointer 405 to the dup wrapper 421 , and a pointer 407 to the read wrapper 423 .
- FIG. 4B illustrates the copies 203 of pointers: a copy of the pointer 409 to the system accept function 205 , a copy of the pointer 411 to the system fork function 301 , a copy of the pointer 413 to the system dup function 303 , a copy of the pointer 415 to the system read function 305 .
- the accept wrapper 417 executes.
- the accept wrapper 417 first utilizes the saved copy of the pointer 409 to the system accept function 205 to call the system accept function 205 .
- the system accept function 205 executes, thereby establishing the communication channel.
- the accept wrapper 417 continues to execute.
- the accept wrapper 417 determines if the communication channel that was established is to one of the network addresses 201 associated with one of the virtual hosts 115 serviced by the server program 107 . As described above, this determination is preferably made by reading an operating system variable 207 that identifies the network address 201 associated with the communication channel.
- the accept wrapper 417 exits.
- the channel will not be used for communication to a virtual host 115 , and thus no quality of service guarantees need to be made by the present invention.
- the present invention requests an appropriate quality of service guarantee for the child process 109 that will manage the communication. Because the child process 109 has not yet been generated by the server application 107 , the present invention stores select information in a set of association tables 307 . The information stored will allow the present invention to later identify the child process 109 managing the communication, and set appropriate quality of service for that child process 109 .
- association tables 307 reside in conventional computer memory 103 .
- the association tables are inserted into the operating system 105 .
- FIG. 4D illustrates the content of one embodiment of the association tables 307 .
- the accept wrapper 417 isolates an identifier of the process that established the communication channel.
- the identifier comprises an operating system 105 assigned process identification (PID) of the process that called the accept function 205 .
- PID process identification
- the accept wrapper 417 also isolates an identifier of the communication channel itself.
- a communication channel is identified by a file descriptor.
- Embodiments of the present invention targeted for such operating systems isolate the file descriptor associated with the communication channel.
- Other operating systems employ alternative mechanisms to identify a communication channel, and corresponding embodiments to the present invention isolate appropriate identifiers accordingly.
- the present invention stores, in the application program-communication channel association table 425 , the process identifier, the file descriptor (or alternatively other identifier) associated with the communication channel, and the network address 201 to which the communication channel was established.
- the application program-communication channel association table 425 contains, for each communication channel established to one of the network addresses 201 associated with one of the virtual hosts 115 , a record that a specific process established a specific communication channel between a client 111 and a specific network address 201 . Once these associations are stored, the accept wrapper 417 exits.
- a virtual host server 107 that utilizes the fork after accept method will, after establishing a communication channel between a client 111 and a virtual host 115 , generate a child process 109 to manage the communication.
- the fork wrapper 419 executes.
- the fork wrapper 419 first uses the copy of the pointer 403 to the system fork function 301 to call the system fork function 301 .
- the system fork function 301 executes and generates a child process 109 .
- the fork wrapper 419 continues to execute.
- the fork wrapper 419 stores, in the application program-child process association table 427 , the process identification (or alternative identifier) for the application program that called the system fork function 301 , as well as the process identification (or alternative identifier) for the generated child process 109 .
- the application program-child process association table 427 contains associations between all application programs and all child processes 109 thereof.
- the dup wrapper 421 executes.
- the dup wrapper 421 utilizes the copy of the pointer 413 to the system dup function 303 to execute the system dup function 303 .
- the system dup function 303 executes and creates a copy of a file (or a copy of a file descriptor).
- the dup wrapper 421 continues to execute.
- the dup wrapper 421 stores, in the file descriptor-file descriptor copy association table 429 , the association between the file descriptor of the file copied by the system dup function 303 and the file descriptor of the copy thereof.
- the dup wrapper 421 stores the association between the source file descriptor and the copy of the source file descriptor.
- the file descriptor-file descriptor copy association table 429 contains an association between the original file descriptor and the copy thereof.
- the read wrapper 423 executes.
- the read wrapper 423 checks the association tables 307 to determine whether the process that called the system read function 305 is a child process 109 of an application program that established a communication channel to a virtual host 115 . To make this determination, the read wrapper 423 first checks the application program-child process association table 427 to determine if the process that called the system read function 305 is a child process 109 of another process. If the process that called the system read function 305 is a child process 109 , the read wrapper 423 checks the application program-communication channel association table 425 to determine if the parent process established a communication channel to a network address 201 associated with one of the virtual hosts 115 .
- the read wrapper 423 determines if the child process 109 called the system read function 305 in order to read from the communication channel to the virtual host 115 established by the parent process. To make this determination, the read wrapper 423 compares the file descriptor that the system read function 305 was called to read from with the file descriptor, in the application program-communication channel association table 425 , associated with the communication channel established by the parent process to the virtual host 115 .
- the read wrapper 423 checks the file descriptor-file descriptor copy association table 429 to determine whether the file descriptor is a copy of the file descriptor associated with the communication channel. Recall that the file descriptor-file descriptor copy association table 429 contains associations between all file descriptors and copies thereof. The read wrapper 423 examines the table to determine whether the file descriptor is a copy of another file descriptor, and if so whether the source file descriptor is the descriptor associated with the communication channel to the virtual host 115 established by the parent process.
- the read wrapper 423 examines the application program communication channel association table 425 to determine to which network address 201 the communication channel was established by the server program 107 .
- the read wrapper 423 uses the copy of the pointer 415 to the system read function 305 to call the system read function 305 , which proceeds to execute. If, on the other hand, the process that called the system read function 305 is a child process 109 of an application program that established a communication channel to a virtual host 115 , and the process is reading from the communication channel to a virtual host 115 established by the parent process, the read wrapper 423 proceeds to set appropriate quality of service guarantees for the child process 109 .
- the read wrapper 423 reads the quality of service table 119 , and locates the quality of service parameters for the virtual host 115 associated with the network address 201 to which the communication channel was established. The read wrapper 423 then calls the quality of service manager 127 to request an appropriate quality of service guarantee to the child process 109 that called the system read function 305 . Once the quality of service guarantee has been requested, the read wrapper 423 utilizes the copy of the pointer 415 to the system read function 305 to call the system read function 305 . The system read function 305 proceeds to read data from the communication channel. Then, the child process 109 , which has been guaranteed appropriate quality of service, continues to manage communication between the client 111 and the virtual host 115 over the communication channel.
- the quality of service application program 117 intercepts not only the system read function 305 , but other system functions that transport data through a communication channel.
- different embodiments intercept a system write function, a system transport function, and other such functions as desired.
- the present invention includes in its scope intercepting any system function which transports data through a communication channel, and proceeding to set quality of service parameters for a child process in the manner detailed above in the description of intercepting the system read function 305 .
- FIG. 5 illustrates a virtual host application program 117 for providing quality of service guarantees to virtual hosts 115 of a name-based virtual hosting system.
- a virtual host 115 is identified not by a network address 201 , but instead by a domain name 500 .
- clients 111 transmit communication requests 113 to individual domain names 500 .
- Multiple such domain names 500 are assigned to the single, physical host computer 101 , and communication requests thereto are serviced by the virtual host server program 107 .
- a virtual host quality of service application program 117 executes in the computer memory 103 of the single, physical host computer 101 .
- the quality of service program 117 inserts a quality of service parameter table 119 into the operating system 105 of the host computer 101 .
- the quality of service table 119 contains quality of service parameters for each domain name 500 associated with one of the virtual hosts 115 serviced by the virtual host server 107 .
- the quality of service program 117 also inserts object code 121 into the operating system 105 . The nature of this object code 121 is explained in detail later in this specification.
- the quality of service table 119 , the object code 121 , or both are alternatively stored in conventional computer memory 103 .
- the quality of service program 117 makes copies 203 of multiple internal operating system pointers to operating system functions.
- the program 117 makes copies 203 of pointers to the following operating system functions: the system functions to read data from a file (for example, the UNIX read function) and the system functions to close a file (for example, the UNIX close function).
- the copies 203 of the pointers to the system functions are preferably stored in conventional computer memory 103 .
- the copies 203 of the pointers are inserted into the operating system 105 .
- alternative embodiments of the present invention create copies 203 of pointers to other operating system functions as desired.
- the pointers to the above listed system functions are located in the operating system 105 interrupt vector table 123 .
- the quality of service program 117 (or alternatively a module linked to the operating system kernel) replaces the pointers with pointers 125 to inserted object code 121 , such that when a targeted system function is called, inserted object code 121 is executed instead.
- the embodiment of the present invention depicted in FIG. 5 intercepts the system read function 305 , and the system close function.
- FIG. 6C illustrates the content of the inserted object code 121 in the embodiment of the present invention depicted in FIG. 5 .
- the inserted object code contains a read wrapper 423 and a close wrapper 605 .
- FIG. 6A illustrates the pointers 125 inserted into the interrupt vector table 123 : a pointer 407 to the read wrapper 423 and a pointer 601 to the close wrapper 605 .
- FIG. 6B illustrates the copies 203 of pointers: a copy of the pointer 415 to the system read function 305 and a copy of the pointer 603 to the system close function 507 .
- the read wrapper 423 executes.
- the read wrapper 423 uses the copy of the pointer 415 to the system read function 305 to call the system read function 305 .
- the system read function 305 executes and reads data from a file descriptor.
- the read wrapper 423 resumes execution.
- the read wrapper 423 proceeds to determine if appropriate quality of service has already been guaranteed for the process that called the system read function 305 . To make this determination, the read wrapper 423 examines a plurality of read flags 501 , which may be stored in conventional computer memory 103 or inserted into the operating system 105 .
- Each read flag 501 contains an identifier of a process (preferably a PID), an identifier of a communication channel (preferably a file descriptor), and an indication (flag) of whether quality of service has been guaranteed to the identified process for servicing communication via the channel.
- the read wrapper 423 examines the read flags 501 to determine whether appropriate quality of service has already been set for the combination of the process that called the read function 423 and the file descriptor from which that process is attempting to read data. If quality of service has already been set, the read wrapper 423 simply exits. On the other hand, if quality of service has not been set, the read wrapper 423 determines if the process is servicing a virtual host 115 .
- the read wrapper 423 parses a read buffer 503 returned by the system read function 305 .
- the read buffer 503 contains the name 505 of the file (or file equivalent, such as communication channel) from which the system read function 305 read data.
- the read wrapper 423 isolates this name 505 and compares it to the domain names 500 of the virtual hosts 115 . If the name 505 is not a domain name 500 of a virtual host 115 , the read wrapper 423 exits.
- the system read function 305 was not called to read data across a communication channel between a client 111 and virtual host 115 , so the read wrapper 423 need not set quality of service for the process that called the read function 305 .
- the read wrapper 423 must set quality of service guarantees for the process that called the read function 305 .
- the read wrapper 423 reads the quality of service table 119 , and locates the quality of service parameters for the virtual host 115 associated with the name 505 from the read buffer 503 .
- the read wrapper 423 then calls the quality of service manager 127 to request an appropriate quality of service guarantee to the process 109 that called the system read function 305 .
- the read wrapper 423 then exits.
- the process 109 which called the system read function 305 which has been guaranteed appropriate quality of service, continues to manage communication between the client 111 and the virtual host 15 over the communication channel. It is to be understood that, as explained above, various embodiments of the present invention intercept various system calls that perform identical or similar tasks.
- the close wrapper 605 executes.
- the close wrapper 605 uses the copy of the pointer 603 to the system close function 507 to call the system close function 507 .
- the system close function 507 executes and closes the file.
- the close wrapper 605 resumes execution.
- the close wrapper 605 checks the plurality of read flags 501 for a flag concerning the combination of the process that called the close function 507 and the file descriptor of the file that the process is attempting to close. If there is no read flag 501 for the combination, the close wrapper 605 simply exits.
- the combination is not one pertaining to virtual host 115 communication, and the close wrapper 605 need not adjust the read flags 501 .
- the close wrapper 605 modifies it to indicate that quality of service has not been set for the combination. This is useful because the process that called the close function 507 may later utilize the same file descriptor to manage communication between a client 111 and a different virtual host 115 , requiring a different quality of service guarantee. Thus, it is useful that the read flag 501 indicates quality of service is not set.
- FIG. 7 illustrates an embodiment in which the present invention comprises a stand alone virtual host system 700 that sets appropriate quality of service guarantees for the virtual hosts 115 which it services.
- the present invention is in the form of a server application program 107 executing in the computer memory 103 of a stand alone host computer 101 .
- the server program 107 stores a quality of service table 119 in computer memory 103 .
- the table 119 contains quality of service parameters for all of the virtual hosts 115 serviced by the system. All client 111 requests 113 for communication with virtual hosts 115 are received by the server program 107 .
- the server program 107 When utilizing the fork after accept method, the server program 107 first receives a client 111 request 113 to communicate with a virtual host 115 and then creates a child process 109 to manage communication between the virtual host 115 and the client 109 . Next, the server program 107 obtains the quality of service parameters associated with the virtual host 115 from the quality of service table 119 . The server application program 107 then calls the operating system quality of service manager 127 to request an appropriate quality of service guarantee for the child process 109 . The child process 109 proceeds to manage the communication between the client 111 and the virtual host 115 .
- the server program 107 When utilizing the fork before accept method, the server program 107 first creates a plurality of child processes 109 to manage communication requests 113 made to virtual hosts 115 by clients 111 .
- the server program 107 receives a communication request 113 made to a select one of the virtual hosts 115 by a client 111 , the server program 107 obtains the quality of service parameters associated with the virtual host 115 from the quality of service table 119 .
- the server program 107 then calls the operating system quality of service manager 127 to request an appropriate quality of service guarantee for the child process 109 .
- the child process 109 proceeds to manage the communication between the client 111 and the virtual host 115 .
- the present invention is not limited to guaranteeing appropriate quality of service to a plurality of virtual hosts.
- the present invention can be utilized to make appropriate quality of service guarantees to a plurality of virtual processes of any nature.
Abstract
Description
Claims (25)
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JP2001222438A (en) | 2001-08-17 |
IL139663A0 (en) | 2002-02-10 |
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CN1298147A (en) | 2001-06-06 |
US6976258B1 (en) | 2005-12-13 |
EP1115061A2 (en) | 2001-07-11 |
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