JP2009049699A - Communication controller, program and image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power consumption in an apparatus connected to a network. <P>SOLUTION: Whether or not processing for received packets is possible is determined in a control part 10, and on the basis of a determination result in the control part 10, a condition updating part 26 updates determination conditions used in a first filter 21 and a second filter 24 for determining whether or not to fetch packets. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a communication control device, a program, and an image forming apparatus.

In a general office or the like, one or a plurality of terminal devices and one or a plurality of image forming devices (for example, printers) are connected in a network environment, and one or a plurality of terminal devices are connected to one or a plurality of image forming devices. A system that can be used in a shared or selective manner. In such a system, a signal is frequently transmitted from a communication line to a connected image forming apparatus or the like. Therefore, even if the received signal is a signal that does not need to be processed by the image forming apparatus, the CPU in the image forming apparatus is activated every time the signal is received. As a result, wasteful power consumption occurs in an image forming apparatus or the like connected to the network.
As a technique for suppressing the generation of such wasteful power consumption, for example, Patent Document 1 includes a sub CPU that consumes less power than the main CPU. In the energy saving mode, only the sub CPU is energized, and the network or facsimile interface is used. A technique for issuing a return trigger from a sub CPU to a main CPU in response to data reception is described.

JP 2004-5029 A

Here, in general, in a device connected to a network, a packet that cannot be processed by itself is also received via the network. Even in that case, since the CPU in the apparatus is activated, there is a problem of reducing the energy saving effect.
An object of the present invention is to reduce power consumption in a device connected to a network.

  The invention according to claim 1 is a packet reception unit that receives a packet from a communication line, a packet determination unit that determines whether or not to capture the packet received by the packet reception unit using a predetermined determination condition, A process availability determination unit that determines whether or not the process for the packet is possible, and a determination condition update unit that updates the determination condition used in the packet determination unit based on a determination result in the process determination unit A communication control device comprising:

According to a second aspect of the present invention, the packet determination unit is a first packet determination unit that determines whether or not the packet received by the packet reception unit is captured using a first determination condition. And second to determine whether or not to capture all or a part of the packets determined to be captured by the first packet determination unit using a second determination condition different from the first determination condition. And the determination condition update unit includes the first determination condition used in the first packet determination unit and the second determination used in the second packet determination unit. The communication control apparatus according to claim 1, wherein either one or both of the conditions are updated.
According to a third aspect of the present invention, the packet determination unit is configured such that the first determination condition used in the first packet determination unit is based on predetermined data included in the packet received by the packet reception unit. The second determination condition that is set and used in the second packet determination unit does not include the data area of the packet including the predetermined data used in the first packet determination unit and the predetermined data 3. The communication control apparatus according to claim 2, wherein the communication control apparatus is set based on data included in any one of data areas of the packet.

The invention according to claim 4 is the communication control device according to claim 1, further comprising a storage unit for storing the packet determined to be captured by the packet determination unit.
The invention according to claim 5 is characterized in that the processing availability determination unit determines whether or not application software capable of processing the packet is provided in a processing unit that performs processing on the packet. The communication control device according to Item 1.

  According to a sixth aspect of the present invention, there is provided a computer with a function of receiving a packet from a communication line, a function of determining whether or not to take the received packet using a predetermined determination condition, and processing of the packet. A function of determining whether or not the packet is possible and a function of updating the determination condition regarding whether or not to capture the packet are realized based on a determination result regarding whether or not the processing on the packet is possible. It is a program.

According to a seventh aspect of the present invention, the function for determining whether or not to capture the packet is to capture the packet using a first determination condition set based on predetermined data included in the received packet. And a second determination condition set based on data included in either the data area of the packet including the predetermined data or the data area of the packet not including the predetermined data. 7. The program according to claim 6, further comprising a function for determining whether or not to capture the packet.
In the invention according to claim 8, whether or not the function of determining whether or not the packet can be processed is provided with application software capable of processing the packet in a processing unit that processes the packet. The program according to claim 6, wherein the program is determined.

  Note that this program may be executed by loading a program stored in a reserved area such as a hard disk or a DVD-ROM into the RAM, for example. In addition, there is a form that is executed by the CPU in a state stored in the ROM in advance. Further, when a rewritable ROM such as an EEPROM is provided, only a program may be provided and installed in the ROM after the device is assembled. In providing this program, it is also conceivable that the program is transmitted to a computer having a data recording device via a network such as the Internet and installed in a ROM of the data recording device.

  The invention according to claim 9 is a communication control unit that controls reception of a packet transmitted from a communication line, a processing unit that processes the packet received by the communication control unit, and processing by the processing unit. An image forming unit that forms an image based on the image data included in the packet, and the communication control unit receives the packet from the communication line, and uses the predetermined determination condition for the packet. A packet determination unit that determines whether or not to capture the packet received by the reception unit, a process availability determination unit that determines whether or not the packet can be processed by the processing unit, and a process availability determination unit An image forming apparatus comprising: a determination condition update unit that updates the determination condition used in the packet determination unit based on the determination result.

The invention according to claim 10 is characterized in that, when the packet determination unit determines to capture the packet based on the predetermined determination condition, the packet determination unit instructs the start of power supply to the processing unit. 9. The image forming apparatus according to 9.
In the invention described in claim 11, whether the packet determination unit captures the packet received by the packet reception unit using a first determination condition set based on predetermined data included in the packet. A second packet set based on data included in one of a data area of the packet including the predetermined data and a data area of the packet not including the predetermined data. A second packet determination unit that determines whether or not all or a part of the packet that is determined to be captured by the first packet determination unit using the determination condition is updated. The unit determines the first determination condition and the second packet determination used in the first packet determination unit based on a determination result in the process availability determination unit. The image forming apparatus according to claim 9, wherein the updating one or both of the second determination condition used in.
12. The image forming apparatus according to claim 12, wherein the communication control unit further includes a storage unit that stores the packet determined to be captured by the packet determination unit. It is.

According to claim 1 of the present invention, power consumption in a device connected to a network can be reduced compared to a case where the present invention is not adopted.
According to the second aspect of the present invention, it is possible to suppress capturing of unnecessary packets and unprocessable packets in a device connected to the network, compared to a case where the present invention is not adopted.
According to the third aspect of the present invention, it is possible to determine whether or not to capture a packet that has not been conventionally assumed to be received via a communication line.

According to claim 4 of the present invention, it is possible to suppress packet loss compared to a case where the present invention is not adopted.
According to the fifth aspect of the present invention, it is possible to determine whether or not a packet that cannot be processed by a device connected to the network is captured.

According to the sixth aspect of the present invention, it is possible to reduce the power consumption in the device connected to the network as compared with the case where the present invention is not adopted.
According to claim 7 of the present invention, it is possible to determine whether or not to take in a packet that was not conventionally assumed to be received via a communication line.
According to the eighth aspect of the present invention, it is possible to determine whether or not a packet that cannot be processed by a device connected to the network is captured.

According to the ninth aspect of the present invention, it is possible to reduce power consumption in the image forming apparatus connected to the network as compared with the case where the present invention is not adopted.
According to the tenth aspect of the present invention, the processing unit can be activated when necessary.
According to the eleventh aspect of the present invention, it is possible to determine whether or not to take in a packet that was not conventionally assumed to be received via a communication line.
According to the twelfth aspect of the present invention, packet loss can be suppressed compared to the case where the present invention is not adopted.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
FIG. 1 is a schematic configuration diagram illustrating an example of a communication system to which an image forming apparatus according to the present embodiment is connected. In the communication system shown in FIG. 1, for example, client devices 2A to 2C (hereinafter, simply referred to as “client device 2”) installed in a user's work space (for example, a desk) or the like, and client devices 2A to 2C Image forming apparatuses 3A to 3C (hereinafter also simply referred to as “image forming apparatus 3”) that form images on a medium (paper) such as recording paper based on the image data generated in It is connected so as to be capable of bidirectional communication via a network 1 such as a LAN (Local Area Network), a WAN (Wide Area Network), or the Internet. The communication line may include a telephone line or a satellite communication line (for example, a spatial transmission line in digital satellite broadcasting). Normally, a plurality of client apparatuses 2 and a plurality of image forming apparatuses 3 can be connected to the network 1, but in the configuration shown in FIG. 1, as an example, three client apparatuses 2A to 2C and A case is shown in which three image forming apparatuses 3A to 3C are connected.

As the client device 2 connected to the network 1, for example, a personal computer (PC) is used, and image data including documents, figures, photographs, and the like is created and stored. Then, when printing the created image data or the stored image data, the client apparatus 2 converts the image data into a print job that is a print command for any of the image forming apparatuses 3A to 3C and outputs the print job. The data constituting the print job (print job data) is attribute data which is information for setting various printing functions and specifying any of the image forming apparatuses 3A to 3C for performing printing in addition to the image data. It is comprised including.
The print job output from the client apparatus 2 is transmitted to any of the image forming apparatuses 3A to 3C via the network 1.

  Next, the configuration of the image forming apparatus 3 will be described. FIG. 2 is a block diagram illustrating the configuration of the image forming apparatus 3 according to the present embodiment. As shown in FIG. 2, the image forming apparatus 3 includes a control unit 10 that controls the operation of the entire image forming apparatus 3 according to a predetermined processing program, and a communication control unit 20 that controls communication with the network 1. I have. In addition, when the image processing unit 30 that performs analysis of print job data transmitted from the client device 2 via the network 1 and performs various processes on the image data included in the print job data, the image processing unit 30 performs various processes. An image processing storage unit 31 used as a working memory, and an image output unit 32 that forms an image on a sheet based on the image data subjected to various processes in the image processing unit 30. Here, as the image output unit 32, for example, an electrophotographic image forming engine is used. In addition, the image processing unit 30 and the image output unit 32, and other functional units as necessary, function as an image forming unit.

Here, the communication control unit 20 and the image processing unit 30 are connected to the external bus 41. The control unit 10 is connected to the external bus 41 via the bus bridge 60. Thereby, the control part 10, the communication control part 20, and the image process part 30 are connected so that transmission / reception of a signal is mutually possible.
Further, the image forming apparatus 3 includes a power supply unit 50 that converts, for example, 100 V power supplied from a commercial power source into a predetermined voltage (for example, 24 V, 12 V, and 5 V). Electric power of a predetermined voltage is supplied.

The control unit 10 is an example of a processing unit, and as illustrated in FIG. 2, as a CPU (Central Processing Unit) 101 that performs arithmetic processing when controlling the entire image forming apparatus 3, a working memory of the CPU 101, and the like. A RAM (Random Access Memory) 102 to be used and a ROM (Read Only Memory) 103 in which processing programs executed by the CPU 101 are stored are provided. These are connected to each other via an internal bus 42 connected to the bus bridge 60.
Then, the control unit 10 processes a packet transmitted via the network 1 and sends print job data included in the packet to the image processing unit 30.

Subsequently, the communication control unit 20 is an example of a communication control device, and includes a first filter unit 21, a first communication buffer unit 22, an intermediate buffer unit 23, a second filter unit 24, a second communication buffer unit 25, and a condition. An update unit 26 is provided.
The first filter unit 21 is an example of a packet determination unit and a first packet determination unit, and is a first-stage packet filter that first processes a packet transmitted from the network 1, and is configured by hardware. ing. The first filter unit 21 receives a packet that matches a capture permission condition (a condition for permitting packet capture) as an example of a first determination condition specified (registered) in advance (a condition for permitting capture of the packet). If received, the received packet is taken through and sent to the first communication buffer unit 22. Further, when the image forming apparatus 3 is set in an energy saving mode to be described later, a return interrupt signal Sig_1 as a signal for instructing start of power supply to the control unit 10 (CPU 101) is generated, and the control unit 10 to the CPU 101.
On the other hand, the first filter unit 21 receives a packet that matches a capture rejection condition (a condition for rejecting packet capture) as an example of a first determination condition specified (registered) in advance (a capture rejection condition is satisfied). If received, the received packet is discarded.
The first filter unit 21 sends the received packet to the intermediate buffer unit 23 when receiving a packet that does not match (does not satisfy) either the capture permission condition or the capture rejection condition specified (registered) in advance. At the same time, the second filter unit 24 is notified that the first filter unit 21 is passed and taken into the intermediate buffer unit 23.

The first communication buffer unit 22 is an example of a storage unit, and stores packets that match the capture permission conditions received by the first filter unit 21.
The intermediate buffer unit 23 is an example of a storage unit, and stores a packet that does not match either the capture permission condition or the capture rejection condition received by the first filter unit 21.

The second filter unit 24 is an example of a packet determination unit and a second packet determination unit, and is a second-stage packet filter disposed after the first filter unit 21. As an example, the capture permission condition and the capture rejection condition are configured to be programmable. Then, when receiving a packet from the first filter unit 21 that does not match either the capture permission condition or the capture refusal condition and receiving the notification that the packet is passed through the first filter unit 21 and captured in the intermediate buffer unit 23, A determination process is performed to determine whether or not the packet stored in the intermediate buffer unit 23 is a packet that needs to be processed by the image forming apparatus 3.
That is, the second filter unit 24 acquires a packet stored in the intermediate buffer unit 23 from the intermediate buffer unit 23 and determines whether the acquired packet is a packet that needs to be processed by the image forming apparatus 3. If it is determined that the packet requires processing, the acquired packet is sent to the second communication buffer unit 25. At the same time, the packet determined to be necessary for processing is deleted from the intermediate buffer unit 23. Further, when the image forming apparatus 3 is set in an energy saving mode to be described later, a return interrupt signal Sig_2 as a signal for instructing the start of power supply to the control unit 10 (CPU 101) is generated, and the control unit 10 to the CPU 101.
On the other hand, when the second filter unit 24 determines that the packet acquired from the intermediate buffer unit 23 is a packet that does not need to be processed in the image forming apparatus 3, the second filter unit 24 determines a packet that is determined not to be processed. Delete from the intermediate buffer unit 23.
The second communication buffer unit 25 is an example of a storage unit, and stores packets determined to be processed by the image forming apparatus 3 in the second filter unit 24.

  The condition update unit 26 is an example of a determination condition update unit, and based on a predetermined notification from the control unit 10, a new addition of an acquisition refusal condition registered in the first filter unit 21 and an acquisition permission condition Update with correction of contents. In addition, the condition update unit 26 is based on a predetermined notification from the control unit 10, and the second filtering unit 24 determines whether or not the acquisition rejection condition is used when determining whether or not the image forming apparatus 3 requires processing. Update with new addition and modification of contents of import permission condition.

First, the functions of the first filter unit 21 and the second filter unit 24 will be described in detail.
FIG. 3 is a diagram illustrating an example of a data structure of a packet received from the network 1. As shown in FIG. 3, a packet (also referred to as “frame”) received from the network 1 includes, for example, a preamble, an SFD (Start Frame Delimiter), a MAC (Medium Access Control) header, an IP (Internet Protocol) header, It is composed of a TCP (Transmission Control Protocol) header, a data field, PAD, and FCS (Frame Check Sequence). An area composed of an IP header, a TCP header, a data field, and a PAD is referred to as a “MAC frame”.

The preamble is data for synchronization, and the SFD is data indicating that the head of the MAC frame immediately follows.
The MAC header includes a destination MAC address, a source MAC address, and a type. The destination MAC address is an address indicating a destination to which the MAC frame is delivered. The transmission source MAC address is its own MAC address, and normally a unique number burned into the ROM in the image forming apparatus 3 is assigned. The type is information data (protocol type) indicating an upper layer protocol stored in the data field.
The IP header is composed of a data string including a source IP address, a destination IP address, a packet length, and the like. The TCP header is composed of a data string including a transmission source port number, a destination port number, a sequence number, a response confirmation number, and the like.
Application data is stored in the data field in the range of 46 to 1500 bytes. For example, image data or the like is stored. The PAD is a bit string for reducing the length of the MAC frame to a minimum of 64 bytes. The FCS is a bit string for checking whether the MAC frame is broken.

By the way, with respect to a packet that is assumed to be received via the network 1, by analyzing data existing at a predetermined position of the packet, it is determined to some extent whether the packet requires processing. The accuracy can be determined. Therefore, the first filter unit 21 designates (registers) a capture permission condition and a capture rejection condition for data in a predetermined area in the packet illustrated in FIG. As a result, the first filter unit 21 selects a packet that is assumed to be received from among the packets received from the network 1 in accordance with the registered capture permission condition and capture rejection condition for the data in the predetermined region. Uniquely determine whether to capture or not to capture.
In that case, in the first filter unit 21, an application function for executing a process of capturing or not capturing a packet according to a capture permission condition and a capture rejection condition regarding data in a predetermined area in the packet is configured by hardware. For this reason, in the first filter unit 21 that is directly connected to the network 1 and needs to process a large number of packets transmitted from the network 1, processing for determining whether or not to capture the packet is performed at high speed.

Here, in the first filter unit 21, as data in a predetermined area in which the capture permission condition and the capture rejection condition are registered in the packet, for example, the destination MAC address, the source MAC address, the protocol type of the MAC header The source IP address and destination IP address of the IP header, the processing port number of the source computer of the TCP header, etc. are used.
FIG. 4 is a diagram illustrating an example of a packet capture permission condition and a capture rejection condition registered in the first filter unit 21. FIG. 4 shows a case where a transmission source IP address and a destination IP address, a protocol type, a transmission source port number, and a destination port number are used as an example of data that is subject to the acquisition permission condition and the acquisition rejection condition. The first filter unit 21 uniquely determines whether or not to capture a packet received from the network 1 according to, for example, pre-registered capture permission conditions and capture rejection conditions as shown in FIG. Judgment.
As described above, the first filter unit 21 registers the capture permission condition and the capture rejection condition for the data in the predetermined region in the packet illustrated in FIG. 3.

  On the other hand, in the second filter unit 24, the capture permission condition and the capture are performed on data existing in a wider area than the data that is the registration target of the capture permission condition and the capture refusal condition in the first filter unit 21. Denial conditions are set. That is, in the second filter unit 24, the data included in the entire region or a partial region of the packet including the data that is the registration target of the capture permission condition and the capture refusal condition in the first filter unit 21, or the first Data included in the entire region or a partial region of the packet excluding data that is the registration target of the acquisition permission condition and the acquisition rejection condition by the filter unit 21 is the setting target of the acquisition permission condition and the acquisition rejection condition.

That is, in the first filter unit 21, a packet that does not match either the capture permission condition or the capture rejection condition is not supposed to be received via the network 1, for example, a new one by improving or extending the protocol or the like. In some cases, the packet is composed of various protocols, or is caused by a change in the network environment.
For this reason, the second filter unit 24 inputs, for example, an acquisition permission condition and an acquisition rejection condition related to data in an arbitrary area in the packet, for example, from an operation input panel (not shown) of the image forming apparatus 3 or via the network 1 It is configured such that it can be set as needed by remote input from the client device 2 or the like. Then, the second filter unit 24 performs further detailed data analysis on the packet that does not match either the acquisition permission condition or the acquisition rejection condition in the first filter unit 21, and determines whether the acquisition is permitted or rejected. As a result, the second filter unit 24 can flexibly respond to such a change even when the appearance of a new protocol packet or a change in the network environment occurs due to an improvement or extension of the protocol, for example. , Whether to receive a packet received from the network 1 or not is adaptively determined.

  After that, the packet that matches the capture permission condition in either the first filter unit 21 or the second filter unit 24 is sent to the control unit 10, and the control unit 10 executes processing by application software corresponding to the packet. Will be. Thereby, transmission of a packet or the like that does not require processing to the CPU 101 of the control unit 10 is reduced.

  By the way, among the packets taken in by the first filter unit 21 and the second filter unit 24, for example, application software corresponding to the packets is not stored in the ROM 103 of the control unit 10, so that the control unit Packets that cannot be processed by the ten CPUs 101 are also included. In this case, if the image forming apparatus 3 is set in an energy saving mode to be described later, the CPU 101 is activated by a packet that cannot be processed, and as a result, the power consumption in the CPU 101 increases. Therefore, when a packet that cannot be processed by the CPU 101 is captured by the first filter unit 21 and the second filter unit 24, the communication control unit 20 according to the present embodiment does not capture such a packet thereafter. Set automatically.

  Specifically, when the first filter unit 21 receives a packet that matches the registered capture permission condition, the first filter unit 21 captures the received packet and sends it to the first communication buffer unit 22. At this time, if the image forming apparatus 3 is set in an energy saving mode to be described later, a return interrupt signal Sig_1 is transmitted to the control unit 10 (CPU 101). Accordingly, the CPU 101 that has acquired the return interrupt signal Sig_1 returns from the energy saving mode and attempts to process the packet stored in the first communication buffer unit 22. At this time, for example, if application software for processing the packet is not stored in the ROM 103 and the CPU 101 cannot process the packet, the CPU 101 cannot process the packet stored in the first communication buffer unit 22. Is sent to the condition update unit 26. Therefore, the control unit 10 here functions as a process availability determination unit. Then, the condition updating unit 26 that has received the notification to that effect additionally sets a capture rejection condition in which the capture of the packet is rejected in the first filter unit 21. In addition, when a capture permission condition that permits the capture of the packet is set, the contents are changed so as to delete the capture permission condition that permits the capture of the packet from the capture permission condition.

Similarly, when the packet acquired from the intermediate buffer unit 23 matches the registered capture permission condition, the second filter unit 24 captures the acquired packet and sends it to the second communication buffer unit 25. At this time, if the image forming apparatus 3 is set in an energy saving mode to be described later, a return interrupt signal Sig_2 is transmitted to the control unit 10 (CPU 101). Thereby, the CPU 101 that has acquired the return interrupt signal Sig_2 returns from the energy saving mode and attempts to process the packet stored in the second communication buffer unit 25. At this time, for example, if application software for processing the packet is not stored in the ROM 103 and the CPU 101 cannot process the packet, the CPU 101 cannot process the packet stored in the second communication buffer unit 25. Is sent to the condition update unit 26. Similarly, the control unit 10 here functions as a process availability determination unit. Then, the condition update unit 26 that has received the notification to that effect additionally sets a capture rejection condition in which the capture of the packet is rejected in the second filter unit 24. In addition, when a capture permission condition that permits the capture of the packet is set, the contents are changed so as to delete the capture permission condition that permits the capture of the packet from the capture permission condition.
In addition, the control part 10 comprises a part of communication control apparatus. That is, the communication control unit is configured by adding the communication control unit 20 and the control unit 10 and other functional units as necessary.

  Here, FIG. 5 is a block diagram showing an internal configuration of the communication control unit 20. As shown in FIG. 5, the communication control unit 20 includes a microcode processor (Microcode Processor) 201 that performs arithmetic processing according to a predetermined processing program, a RAM 202 used as a working memory for the microcode processor 201, and a battery. Non-volatile memory 204 such as backed up SRAM (Static Random Access Memory) or flash memory, interface unit 205 for controlling input / output of signals to / from control unit 10, image processing unit 30 and the like, pre-registered capture permission conditions and The network interface unit 206 executes processing for capturing or not capturing a packet in accordance with the capture rejection condition. The microcode processor 201, the RAM 202, and the network interface unit 206 are connected to each other by an internal bus 207.

The network interface unit 206 in FIG. 5 constitutes the first filter unit 21 and the condition update unit 26. The first communication buffer unit 22, the intermediate buffer unit 23, and the second communication buffer unit 25 are configured by allocating respective areas in the RAM 202. Note that the first communication buffer unit 22, the intermediate buffer unit 23, and the second communication buffer unit 25 may be configured by separate RAMs 202, respectively.
The microcode processor 201 in FIG. 5 constitutes the second filter unit 24 and the condition update unit 26. In addition, the nonvolatile memory 204 stores a capture permission condition and a capture rejection condition.

The condition update unit 26 included as part of the function of the network interface unit 206 is based on the notification that the packet stored in the first communication buffer unit 22 acquired from the control unit 10 cannot be processed. A new capture refusal condition that rejects the capture of the packet is added to the capture refusal condition set in 206, or a capture permission condition that allows the capture of the packet from the capture permission condition Change the content to delete.
In addition, the condition update unit 26 included as a part of the function of the microcode processor 201 is nonvolatile based on the notification that the packet stored in the second communication buffer unit 25 acquired from the control unit 10 cannot be processed. A new capture rejection condition that rejects the capture of the packet is added to the capture rejection condition stored in the memory 204, or capture that permits the capture of the packet from the capture permission condition Change contents to delete permission conditions.
In the communication control unit 20 of the present embodiment, the condition update unit 26 is described as a configuration included in the network interface unit 206 or the microcode processor 201, but the functional module that is used as the condition update unit 26 in the communication control unit 20. As a single unit.

As described above, in the communication control unit 20 of the present embodiment, the packet captured by either the first filter unit 21 or the second filter unit 24 is a packet that cannot be processed by the control unit 10. In such a case, it is set so that the packet is not automatically taken in.
As a result, when the image forming apparatus 3 is set in an energy saving mode to be described later, in addition to a packet that does not need to be processed by the CPU 101 of the control unit 10, the image forming apparatus 3 is activated wastefully by a packet that cannot be processed by the CPU 101. Power consumption in the control unit 10 is reduced.

Next, the operation mode set in each image forming apparatus 3 of the present embodiment will be described. Each image forming apparatus 3 is configured to set “image forming operation mode”, “low power mode”, and “energy saving mode” as operation modes in order to enhance the power saving effect.
The image forming operation mode is an operation mode in which a state capable of responding to on-demand with respect to input of image data or the like is set. In the image forming operation mode, power is supplied from the power supply unit 50 to all functional units in the image forming apparatus 3.
The low power mode is an operation mode that is set when, for example, there is no input of image data or the like during the first period. In the low power mode, power supply from the power supply unit 50 to at least an image forming engine (for example, a functional unit that performs an image forming operation including a fixing device) of the image output unit 32 is stopped. On the other hand, power supply to functional units other than the image forming engine of the image output unit 32 such as the control unit 10 and the communication control unit 20 is continued.
The energy saving mode is an operation mode that is set when there is no input of image data or the like during the second period that is set longer than the first period. In the energy saving mode, only power supply from the power supply unit 50 to the communication control unit 20 is continued, and power supply to other functional units including the CPU 101 of the control unit 10 is stopped.

  Here, FIG. 6 is a diagram for explaining an operation mode set in the image forming apparatus 3 of the present embodiment. As shown in FIG. 6, the image forming apparatus 3 has an image forming operation mode that consumes a large amount of power necessary to maintain the image forming operation, and a power consumption lower than that of the image forming operation mode, but for a relatively short time. The low power mode that returns to the image forming operation mode and the energy saving mode that consumes a relatively small amount of power and takes a relatively long time to return to the image forming operation mode are appropriately selected according to the time until image data is input. Is set. Thereby, the power saving effect in the image forming apparatus 3 is enhanced.

In a general network environment, packets are frequently transmitted, and many broadcast packets (packets sent simultaneously to all nodes) are also transmitted. For this reason, the CPU of the conventional control unit is turned on every time a packet including a packet unnecessary for itself is received and returns from the energy saving mode. Then, once the CPU returns, it cannot shift to the energy saving mode for a while, and in some cases, shifts to the image forming operation mode. As a result, even if an energy saving mode, which is an ultra-low power consumption mode in which the CPU is also turned off, is provided, the power saving effect in the image forming apparatus 3 cannot often be obtained sufficiently. In that case, it is generally known to use a function such as ArpFilter to remove unnecessary packets and set the CPU not to return. However, the current network environment is in a situation where a packet composed of a new protocol appears due to, for example, protocol improvement or expansion, and what kind of packet is removed varies depending on the network environment, so ArpFilter In many cases, it cannot function effectively.
In addition, when the energy saving mode is set, since the CPU is OFF, packets cannot be received on demand. Therefore, a request is made to transmit the missed packet again. However, there is application software that does not retransmit a packet. In this case, there is a problem that a packet is lost.

Therefore, in the communication control unit 20 of the present embodiment, the first filter unit 21 that is directly connected to the network 1 and needs to process a large number of packets is configured by hardware, and the pre-registered capture permission condition and According to the capture rejection condition, a process of capturing a packet that is assumed to be received via the network 1 or a process that does not capture the packet is uniquely and uniformly processed at a high speed. Further, the second filter unit 24 dynamically and adaptively sets the capture permission condition and the capture rejection condition corresponding to a packet made of a new protocol created by improving or expanding the protocol or a change in the network environment. Set. As a result, the second filter unit 24 performs a process of determining whether or not to capture a packet that has not been assumed in the past, and passes only a packet that needs to be processed by the image forming apparatus 3 to be captured. It is configured as follows.
In addition, if the packet taken from either the first filter unit 21 or the second filter unit 24 is a packet that cannot be processed by the control unit 10, the first filter unit 21 and the second filter unit For the acquisition permission condition and the acquisition rejection condition registered in 24, a new acquisition rejection condition regarding the packet that cannot be processed is additionally set, or a content change that automatically deletes the acquisition permission condition regarding the packet that cannot be processed is performed. Yes.

Next, FIG. 7 illustrates an example of a procedure of processing regarding whether or not to capture a packet executed in the communication control unit 20 when the image forming apparatus 3 of the present embodiment is set to the energy saving mode. It is the shown flowchart.
As shown in FIG. 7, when a packet is received by the communication control unit 20 (S101), the received packet is sent to the first filter unit 21. Therefore, the first filter unit 21 also functions as a packet receiving unit. The first filter unit 21 that has acquired the packet determines whether or not the packet (unnecessary packet) matches the capture rejection condition specified (registered) in advance (S102). If it is determined in step 102 that the packet is an unnecessary packet, the first filter unit 21 discards the received packet (S103).

If it is determined in step 102 that the packet is not an unnecessary packet, that is, if it does not match the capture rejection condition, it is determined whether or not the packet (necessary packet) matches the capture permission condition specified (registered) in advance (S104). .
If it is determined in step 104 that the packet is a necessary packet, the first filter unit 21 captures the received packet (necessary packet) and sends it to the first communication buffer unit 22. The first communication buffer unit 22 stores the transmitted necessary packet (S105).
Further, the first filter unit 21 generates a return interrupt signal Sig_1 and transmits it to the CPU 101 of the control unit 10 (S106).
The CPU 101 that has received the return interrupt signal Sig_1 returns from the energy saving mode (S107). After returning from the energy saving mode, the CPU 101 confirms that it has returned by receiving the return interrupt signal Sig_1, and processes the packet (necessary packet) stored in the first communication buffer unit 22 (S108). For example, when the necessary packet is a print job from the client device 2, the CPU 101 processes the packet stored in the first communication buffer unit 22 with predetermined application software. Then, the print job data included in the packet is sent to the image processing unit 30, and the image output unit 32 executes the printing process based on the image data subjected to the predetermined image processing.

On the other hand, if it is determined in step 104 that the packet is not a necessary packet, the first filter unit 21 determines that the received packet is a packet that does not match either the capture permission condition or the capture rejection condition specified (registered) in advance. Then, the second filter unit 24 is notified that the first filter unit 21 has passed through the first filter unit 21 (S109).
Further, the first filter unit 21 sends the received packet to the intermediate buffer unit 23. The intermediate buffer unit 23 stores the transmitted packet (S110). That is, the first filter unit 21 determines that a packet that does not match either the capture permission condition or the capture rejection condition specified (registered) in advance is passed and captured, and stores it in the intermediate buffer unit 23.

  Subsequently, the second filter unit 24 acquires a packet stored in the intermediate buffer unit 23 from the intermediate buffer unit 23, and whether or not the acquired packet is a packet that needs to be processed in the image forming apparatus 3 (necessary packet). Is determined (S111). This determination is made, for example, in response to a change made to a packet made of a new protocol created by improving or expanding the protocol stored from the CPU 101 of the control unit 10 before the transition to the energy saving mode, or a change in the network environment. This is a process for determining whether or not to capture a packet that has not been assumed in the past based on the capture permission condition and the capture rejection condition.

If it is determined in step 111 that the packet is a necessary packet, the second filter unit 24 sends the packet (necessary packet) acquired from the intermediate buffer unit 23 to the second communication buffer unit 25. The second communication buffer unit 25 stores the transmitted necessary packet (S112). At the same time, the packet determined to be necessary for processing is deleted from the intermediate buffer unit 23.
Further, the second filter unit 24 generates a return interrupt signal Sig_2 and transmits it to the CPU 101 of the control unit 10 (S113).
Then, the CPU 101 that has received the return interrupt signal Sig_2 returns from the energy saving mode (S107). After returning from the energy saving mode, the CPU 101 confirms that it has returned by receiving the return interrupt signal Sig_2, and processes the packet (necessary packet) stored in the second communication buffer unit 25 (S108). For example, when the necessary packet is a print job from the client apparatus 2, the CPU 101 processes the packet stored in the second communication buffer unit 25 with predetermined application software. Then, the print job data included in the packet is sent to the image processing unit 30, and the image output unit 32 executes the printing process based on the image data subjected to the predetermined image processing.

On the other hand, if it is determined in step 111 that the packet is not necessary, the second filter unit 24 deletes the packet determined not to be processed from the intermediate buffer unit 23 and discards the packet (S114).
In this way, when the image forming apparatus 3 is set in the energy saving mode, the frequency of the CPU 101 of the control unit 10 being unnecessarily activated by a packet that does not need to be processed is reduced, and the power consumption in the CPU 101 is reduced. Is reduced.
In the second filter unit 24 of the present embodiment, the image forming apparatus 3 processes a packet that does not match either the capture permission condition or the capture rejection condition specified (registered) in advance by the first filter unit 21. It is determined whether or not the packet is necessary. That is, it was determined whether or not some of the packets taken through the first filter unit 21 are necessary. In addition to such processing, only the capture rejection condition is registered in the first filter unit 21, and all the packets captured through the first filter unit 21 because they do not correspond to the capture rejection condition are imaged. The forming apparatus 3 may be configured to determine whether the packet needs processing.

Next, FIG. 8 illustrates a procedure of update processing of the acquisition permission condition and the acquisition rejection condition executed in the communication control unit 20 when the control unit 10 of the present embodiment cannot process the packet acquired from the communication control unit 20. It is the flowchart which showed an example.
As shown in FIG. 8, when receiving the return interrupt signal Sig_1 or the return interrupt signal Sig_2 at Step 106 and Step 113 in FIG. 7, the control unit 10 sends a packet transmission request to the communication control unit 20 (S201). ). The communication control unit 20 that has received the transmission request transmits a packet from the first communication buffer unit 22 or the second communication buffer unit 25 to the control unit 10 (S202).

When the control unit 10 acquires a packet from the first communication buffer unit 22 or the second communication buffer unit 25 (S203), the control unit 10 determines whether application software capable of processing the acquired packet is stored in the ROM 103. (S204). If it is determined in step 204 that application software capable of processing the packet is stored in the ROM 103, the acquired packet is processed by the application software (S205).
On the other hand, if it is determined in step 204 that the application software capable of processing the packet is not stored in the ROM 103, the application software capable of processing the acquired packet is not stored in the ROM 103, and the CPU 101 executes the first communication buffer. The communication control unit 20 is notified that the packet stored in the unit 22 or the second communication buffer unit 25 cannot be processed (S206).

In the communication control unit 20 that has received a notification that the acquired packet cannot be processed from the control unit 10, the condition update unit 26 stores packets that cannot be processed by the control unit 10 in the first communication buffer unit 22. Or a packet stored in the second communication buffer unit 25 (S207).
If it is determined in step 207 that the packet that cannot be processed by the control unit 10 is a packet stored in the first communication buffer unit 22, the condition update unit 26 registers in the first filter unit 21. A new capture rejection condition that rejects the capture of the packet is added to the captured capture rejection condition, or the capture of the packet is permitted from the capture permission condition registered in the first filter unit 21 The update with the content change to delete the capture permission condition is performed (S208). Note that the update in step 208 is performed, for example, with respect to the capture permission condition and the capture refusal condition set for data in a predetermined area in the packet shown in FIG.

If it is determined in step 207 that the packet that cannot be processed by the control unit 10 is a packet stored in the second communication buffer unit 25, the condition update unit 26 registers in the second filter unit 24. A new capture rejection condition that rejects the capture of the packet is added to the captured capture rejection condition, or the capture of the packet is permitted based on the capture permission condition registered in the second filter unit 24 The update with the content change that deletes the import permission condition is performed (S209). Note that the update in step 209 is performed on data existing in a wider area than the data to be registered for the capture permission condition and the capture rejection condition in the first filter unit 21.
When the image forming apparatus 3 is set in the energy saving mode by the update process as illustrated in FIG. 8, the frequency of the CPU 101 of the control unit 10 that is activated by a packet that cannot be processed by itself is reduced. Reduce power consumption.

Note that the update process in the condition update unit 26 illustrated in FIG. 8 is executed between step 107 and step 108 in the process flow of FIG. 7, for example.
In the communication control unit 20 according to the present embodiment, the first filter unit 21 and the second filter unit 24 having different conditions for determining whether or not to capture a packet are provided. Only one of the part 21 and the second filter part 24 may be arranged.

As described above, in the communication control unit 20 of the image forming apparatus 3 according to the present embodiment, the first filter unit 21 captures or does not capture a packet that is presumed to be received via the network 1. Are processed uniquely and uniformly. In addition, the second filter unit 24 uses the image forming apparatus 3 on the basis of a capture permission condition and a capture rejection condition corresponding to a packet including a new protocol created by improving or expanding the protocol, a change in the network environment, or the like. Only the packets that require processing are passed through and captured. If the packet captured by either the first filter unit 21 or the second filter unit 24 is a packet that cannot be processed by the control unit 10, the packet is not automatically captured. Set as follows.
Accordingly, the CPU 101 of the control unit 10 in the state where the energy saving mode is set is suppressed from being activated by a packet that does not need to be processed or a packet that cannot be processed. Therefore, the frequency with which the CPU 101 returns from the energy saving mode is reduced, and the power consumption of the CPU 101 and thus the power consumption of the image forming apparatus 3 are reduced.
In addition, by temporarily storing in the intermediate buffer unit 23 packets that do not match either the capture permission condition or the capture refusal condition in the first filter unit 21, occurrence of packet loss is suppressed.

1 is a schematic configuration diagram illustrating an example of a communication system to which an image forming apparatus according to an exemplary embodiment is connected. 1 is a block diagram illustrating a configuration of an image forming apparatus. It is the figure which showed an example of the data structure of the packet received from a network. It is the figure which showed an example of the acquisition permission conditions and acquisition rejection conditions of the packet registered in a 1st filter part. It is a block diagram which shows the internal structure of a communication control part. It is a figure explaining the operation mode set with an image forming apparatus. 6 is a flowchart illustrating an example of a processing procedure regarding whether or not to capture a packet executed in a communication control unit when the image forming apparatus is set in an energy saving mode. It is the flowchart which showed an example of the procedure of the update process of the acquisition permission condition and acquisition rejection condition which are performed in a communication control part, when a control part cannot process the packet acquired from the communication control part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Network, 2 (2A-2C) ... Client apparatus, 3 (3A-3C) ... Image forming apparatus, 10 ... Control part, 20 ... Communication control part, 21 ... 1st filter part, 22 ... 1st communication buffer part 23 ... Intermediate buffer unit, 24 ... Second filter unit, 25 ... Second communication buffer unit, 26 ... Condition update unit, 30 ... Image processing unit, 31 ... Image processing storage unit, 32 ... Image output unit, 60 ... Bus bridge, 101 ... CPU (Central Processing Unit), 102,202 ... RAM (Random Access Memory), 103 ... ROM (Read Only Memory), 201 ... Microcode processor (Microcode Processor: second filter unit and condition update unit) , 204... Non-volatile memory, 206... Network interface unit (first filter unit and condition update unit)

Claims (12)

A packet receiver for receiving packets from the communication line;
A packet determination unit for determining whether to capture the packet received by the packet reception unit using a predetermined determination condition;
A process availability determination unit that determines whether or not the process for the packet is possible;
A communication control apparatus comprising: a determination condition update unit that updates the determination condition used in the packet determination unit based on a determination result in the process availability determination unit. The packet determination unit includes: a first packet determination unit that determines whether or not the packet received by the packet reception unit is captured using a first determination condition; and the first determination condition; Has a second packet determination unit that determines whether or not to capture all or a part of the packets determined to be captured by the first packet determination unit using different second determination conditions,
The determination condition update unit updates one or both of the first determination condition used in the first packet determination unit and the second determination condition used in the second packet determination unit. The communication control device according to claim 1, wherein:   The packet determination unit is configured such that the first determination condition used in the first packet determination unit is set based on predetermined data included in the packet received by the packet reception unit, and the second packet determination The second determination condition used for the packet is either the data area of the packet including the predetermined data used by the first packet determination unit or the data area of the packet not including the predetermined data 3. The communication control apparatus according to claim 2, wherein the communication control apparatus is set based on data included therein.   The communication control apparatus according to claim 1, further comprising a storage unit that stores the packet determined to be captured by the packet determination unit.   The communication control apparatus according to claim 1, wherein the processing availability determination unit determines whether application processing capable of processing the packet is provided in a processing unit that performs processing on the packet. On the computer,
A function for receiving packets from a communication line;
A function of determining whether to receive the received packet using a predetermined determination condition;
A function of determining whether or not processing for the packet is possible;
A program that realizes a function of updating the determination condition regarding whether or not to capture the packet, based on a determination result regarding whether or not processing for the packet is possible.   The function of determining whether to capture the packet includes a function of determining whether to capture the packet using a first determination condition set based on predetermined data included in the received packet, Whether to capture the packet using the second determination condition set based on data included in either the data area of the packet including the predetermined data or the data area of the packet not including the predetermined data The program according to claim 6, further comprising:   The function of determining whether or not processing of the packet is possible is characterized in that a processing unit that processes the packet determines whether or not application software capable of processing the packet is provided. The program according to claim 6. A communication control unit that controls reception of packets transmitted from the communication line;
A processing unit for processing the packet received by the communication control unit;
An image forming unit that forms an image based on image data included in the packet processed by the processing unit;
The communication control unit
A packet receiver for receiving packets from the communication line;
A packet determination unit for determining whether to capture the packet received by the packet reception unit using a predetermined determination condition;
A process availability determination unit that determines whether the packet can be processed by the processing unit;
An image forming apparatus comprising: a determination condition update unit that updates the determination condition used in the packet determination unit based on a determination result in the process availability determination unit.   The image forming apparatus according to claim 9, wherein the packet determination unit instructs the start of power supply to the processing unit when it is determined that the packet is captured based on the predetermined determination condition. The packet determination unit is configured to determine whether to capture the packet received by the packet reception unit using a first determination condition set based on predetermined data included in the packet. And the second determination condition set based on the data included in any one of the data area of the packet including the predetermined data and the data area of the packet not including the predetermined data. A second packet determination unit that determines whether or not to capture all or part of the packet determined to be captured by the packet determination unit of
The determination condition update unit is configured to use the first determination condition used in the first packet determination unit and the first packet determination unit used in the second packet determination unit based on a determination result in the process availability determination unit. The image forming apparatus according to claim 9, wherein one or both of the two determination conditions are updated.   The image forming apparatus according to claim 9, wherein the communication control unit further includes a storage unit that stores the packet determined to be captured by the packet determination unit.

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