JP4095255B2 - Extended housing monitoring method and extended housing monitoring device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an expansion enclosure monitoring method and an expansion enclosure monitoring apparatus, and in particular, an expansion enclosure monitoring method and an expansion enclosure monitoring for monitoring a plurality of expansion enclosures connected to a main enclosure via a serial bus. Relates to the device.
[0002]
[Prior art]
In some computer systems, servers and their extended functions are modularized or unitized, and each unit (between housings) is connected by a bus.
[0003]
When monitoring the status of multiple expansion enclosures from the main enclosure side, not only the control microcomputer is installed in the main enclosure but also the control microcomputer is installed in each of the multiple expansion enclosures. Status monitoring is performed by communicating with each other.
[0004]
When installing control microcomputers in each of the multiple expansion enclosures, it is necessary to separately develop microcomputer firmware for the expansion enclosures, and build a system with consideration of the man-hours and costs for the development. There is a need.
[0005]
[Problems to be solved by the invention]
As described above, conventionally, in order to be able to monitor the status of multiple expansion enclosures from the main enclosure side, separately developed microcomputer firmware corresponding to the control microcomputer to be installed in each of the multiple expansion enclosures is doing.
[0006]
However, developing such firmware is not only costly, but also takes a lot of time. In addition, since a control microcomputer is mounted in each of the plurality of expansion enclosures, the hardware costs a great deal.
[0007]
For this reason, it is desirable to be able to monitor the state of the expansion housing without mounting a control microcomputer in each of the plurality of expansion housings.
[0008]
The present invention has been made in view of the above circumstances, and an expansion housing monitoring method and an expansion housing capable of monitoring the state of the expansion housing with a simple configuration without mounting a control microcomputer in the expansion housing. An object is to provide a body monitoring device.
[0009]
[Means for Solving the Problems]
An expansion enclosure monitoring method according to the present invention is an expansion enclosure monitoring method for monitoring a plurality of expansion enclosures connected to a main enclosure via a serial bus, from any of the plurality of expansion enclosures. When an interrupt signal is generated, it is detected on the main casing side, and the main casing side accesses the plurality of expansion casings via the internal serial bus and the external serial bus of the main casing , respectively. Knowing the state of the expansion housing that generated the interrupt signal, the internal serial bus and the external serial bus share a single serial bus, and the main housing performs internal communication Between the internal serial bus and the external serial bus , the communication between the plurality of expansion enclosures is realized by electrically disconnecting between the internal serial bus and the external serial bus .
[0010]
An expansion enclosure monitoring device according to the present invention is an expansion enclosure monitoring apparatus that monitors a plurality of expansion enclosures connected to the main enclosure via a serial bus, and is provided in the main enclosure, Means for detecting an interrupt signal generated from any of the plurality of expansion casings; and provided in the main casing, and when the detection means detects the interrupt signal, the interior of the main casing by respectively access the plurality of expansion cabinet via a serial bus and an external serial bus, and means to know the status of the expansion cabinet generated the interrupt signal, the said internal serial bus external serial bus and are shared by one serial bus, the double by while the main housing is performing an internal communication to be electrically disconnected between the external serial bus and the internal serial bus And characterized by including means for implementing high-speed communication than the case of performing communication with each of the expansion cabinet.
[0011]
An expansion enclosure monitoring device according to the present invention is an expansion enclosure monitoring apparatus that monitors a plurality of expansion enclosures connected to the main enclosure via a serial bus, and is provided in the main enclosure, Means for detecting an interrupt signal generated from a hardware monitor of any of the plurality of expansion enclosures, and provided in the main enclosure, via an internal serial bus and an external serial bus of the main enclosure by accessing each of the hardware monitor of the plurality of expansion cabinet Te, and means to know the status of the expansion cabinet generated the interrupt signal, and the internal serial bus wherein the external serial bus, and share the single serial bus, while the main housing is performing internal communication the plurality of by electrically disconnected between the external serial bus and the internal serial bus And characterized by including means for implementing high-speed communication than when communicating with each of Chokatami body.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0013]
FIG. 1 is a diagram illustrating an appearance of an information processing system to which an extended housing monitoring apparatus according to an embodiment of the present invention is applied.
[0014]
The information processing system 1 has a configuration in which a plurality of information processing units are housed in a cabinet rack. The plurality of information processing units include, for example, units (main casings) 10 and 20 that function as servers, extension units (expansion casings) 11 and 21 equipped with hard disks, and extension units (expansion casings) 12 equipped with DAT. , 22 and so on. In this example, in order to maintain redundancy, a configuration in which functions are duplicated is adopted.
[0015]
FIG. 2 is a perspective view showing an overview of the units 10 and 20 constituting the information processing system.
The unit 10 and the unit 20 are arranged side by side and housed in one housing. The units 11 and 21 and the units 12 and 22 have the same configuration.
[0016]
The extended housing monitoring apparatus according to the present embodiment is provided in each of the units 10 and 20. Since the unit 10 and the unit 20 have the same configuration, an extended housing monitoring device provided in the unit 10 will be described below.
[0017]
First, a first embodiment of the present invention will be described.
FIG. 3 is a block diagram illustrating a configuration including the extended housing monitoring apparatus according to the present embodiment.
[0018]
The main housing 10 is provided with a control microcomputer 101, an internal serial bus 102, a hardware monitor 103, an EEPROM (Electrically Erasable and Programmable ROM) 104, a GPIO (General Purpose Input / Output) 105, an isolator 106, and the like. . An external serial bus 107 is connected to the outside of the main housing 10 from the isolator 106, and an interrupt signal line 108 is connected to the control microcomputer 101 from the outside.
[0019]
The control microcomputer 101 performs internal communication with the hardware monitor 103, the EEPROM 104, and the GPIO 105 via the internal serial bus 102, and externally communicates with the expansion enclosures 11, 12,... Via the internal serial bus 102 and the external serial bus 107. Communicate. The internal serial bus 102 and the external serial bus 107 share one serial bus.
[0020]
Further, the control microcomputer 101 can control electrical connection / disconnection between the internal serial bus 102 and the external serial bus 107 by operating the isolator 106. For example, when performing communication inside the main housing, the control microcomputer 101 electrically disconnects the internal serial bus 102 and the external serial bus 107 so that high-speed communication can be performed. On the other hand, when communicating with the expansion housing, the control microcomputer 101 can electrically connect the internal serial bus 102 and the external serial bus 107 so that the data can be reliably transferred at a reduced communication speed. To do.
[0021]
Further, the control microcomputer 101 can input an interrupt signal (a signal indicating an abnormality of the expansion casing) from any of the expansion casings 11, 12,... Via the interrupt signal line 108. Is detected by reading the contents of the status register provided in the hardware monitor 111 of the expansion chassis 11, 12,... You can find out if there is.
[0022]
Further, the control microcomputer 101 periodically accesses the expansion casings 11, 12,... Via the external serial bus 107 regardless of whether or not an interrupt signal is detected, thereby the plurality of expansion casings. Is monitoring the status of
[0023]
The internal serial bus 102 is a serial bus such as I2C, and internally connects the control microcomputer 101, the hardware monitor 103, the EEPROM 104, and the GPIO 105.
[0024]
The hardware monitor 103 includes a status register that holds data indicating the states of various elements inside the main housing 10.
[0025]
The EEPROM 104 stores various data, for example, records of failures that have occurred in the expansion enclosures 11, 12,.
[0026]
The GPIO 105 is an input / output device used for various purposes.
[0027]
The isolator 106 is provided between the internal serial bus 102 and the external serial bus 107, and is composed of, for example, an FET switch. The isolator 106 is controlled by the control microcomputer 101 to electrically connect / disconnect the internal serial bus 102 and the external serial bus 107.
[0028]
The external serial bus 107 is a serial bus such as I ² C, and connects the main housing 10 and the expansion housings 11, 12,.
[0029]
The interrupt signal line 108 is configured so that when an abnormality occurs in the expansion housings 11, 12,..., An interrupt signal indicating the abnormality is input from each hardware monitor 111 to the control microcomputer 101 of the interrupt signal main housing 10. It is connected to the.
[0030]
On the other hand, the expansion enclosures 11, 12,... Each include a hardware monitor 111, a GPIO 112, and the like.
[0031]
The hardware monitor 111 includes a status register that holds data indicating the state of various elements inside the expansion housing.
[0032]
The GPIO 112 is an input / output device used for various purposes.
[0033]
Next, communication processing by the control microcomputer 101 will be described with reference to the flowchart of FIG.
[0034]
When accessing the internal device (Yes in step A1), the control microcomputer 101 electrically disconnects the external serial bus 107 by operating the isolator 106 (step A2), and a high-speed serial bus clock. To access the internal device (step A3).
[0035]
On the other hand, the control microcomputer 101 is electrically connected to the external serial bus 107 by operating the isolator 106 when accessing an external device (that is, an expansion housing) (No in step A1). (Step A4), an external device is accessed with a low-speed serial bus clock (Step A3).
[0036]
Next, a state monitoring process performed by the control microcomputer 101 will be described with reference to a flowchart of FIG.
[0037]
When an interrupt is input to the control microcomputer 101 (Yes in step B1), the control microcomputer 101 reads the status register of the hardware monitor 11 for each extension case via the external serial bus 107 (step B2). If the hardware monitor 11 that generated the interrupt is found (step B3), the abnormal data is read from the status register (step B4). Then, the control microcomputer 101 leaves the read data in the EEPROM 104 in the main housing 10 as a failure record (step B5).
[0038]
On the other hand, in a normal state where no interrupt is input to the control microcomputer 101 (No in step B1), the control microcomputer 101 performs the hardware monitor 111 of each of the expansion enclosures 11, 12,... In a cycle determined by a timer. Are read in order (step B6).
[0039]
As described above, according to this embodiment, since it is not necessary to mount a control microcomputer in the expansion housing, the cost of hardware can be reduced, and the cost and time required for developing firmware can be reduced. be able to.
[0040]
Also, when communicating inside the main chassis, high-speed communication can be realized by electrically disconnecting the internal serial bus and external serial bus, and when communicating with the expansion chassis, the internal serial bus By electrically connecting 102 and the external serial bus 107, the communication speed can be reduced and data can be exchanged reliably.
[0041]
The present invention is not limited to the above-described embodiment, and various modifications can be made within the scope of the gist. For example, in the above-described embodiment, the I ² C bus is handled as the serial bus, but another one such as RS232C can be applied.
[0042]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to monitor the state of the expansion casing with a simple configuration without mounting the control microcomputer in the expansion casing.
[Brief description of the drawings]
FIG. 1 is a diagram showing an external appearance of an information processing system to which an extended housing monitoring apparatus according to an embodiment of the present invention is applied.
FIG. 2 is a perspective view showing an overview of units constituting the information processing system.
FIG. 3 is a block diagram showing a configuration including an extended housing monitoring apparatus according to an embodiment of the present invention.
FIG. 4 is a flowchart for explaining communication processing by the control microcomputer in the embodiment.
FIG. 5 is a flowchart for explaining state monitoring processing by the control microcomputer in the embodiment;
[Explanation of symbols]
1 ... Information processing system 10, 20 ... Main housing (unit)
11, 12, 21, 22, ... expansion housing (unit)
101 ... Control microcomputer 102 ... Internal serial bus 103 ... Hardware monitor 104 ... EEPROM
105 ... GPIO
106 ... Isolator 107 ... External serial bus 108 ... Interrupt signal line 111 ... Hardware monitor 112 ... GPIO

Claims (6)

An expansion enclosure monitoring method for monitoring a plurality of expansion enclosures connected to a main enclosure via a serial bus,
When an interrupt signal is generated from any of the plurality of expansion casings, this is detected on the main casing side,
By accessing each of the plurality of expansion casings from the main casing side via the internal serial bus and the external serial bus of the main casing, the state of the expansion casing that has generated the interrupt signal is obtained,
The internal serial bus and the external serial bus share a single serial bus, and the internal serial bus and the external serial bus are electrically connected while the main housing performs internal communication. An extended enclosure monitoring method characterized by realizing communication at a higher speed than in the case of communicating with each of the plurality of extended enclosures by disconnecting them. The state of the plurality of expansion casings is monitored by periodically accessing the plurality of expansion casings from the main casing side via the internal serial bus and the external serial bus. The extended enclosure monitoring method according to 1. An expansion enclosure monitoring device that monitors a plurality of expansion enclosures connected to a main enclosure via a serial bus,
Means for detecting when an interrupt signal is generated from any of the plurality of expansion casings, provided in the main casing;
The interrupt is provided by accessing the plurality of expansion casings via the internal serial bus and the external serial bus of the main casing when the detecting means detects the interrupt signal provided in the main casing. Means for knowing the state of the expansion housing that has generated the signal,
The internal serial bus and the external serial bus share a single serial bus, and the internal serial bus and the external serial bus are electrically connected while the main housing performs internal communication. An extended enclosure monitoring device comprising means for realizing communication at a higher speed than in the case of communicating with each of the plurality of extended enclosures by disconnecting in an automatic manner. Provided in the main casing, and having means for monitoring the states of the plurality of expansion casings by periodically accessing the plurality of expansion casings via the internal serial bus and the external serial bus , respectively. The extended housing monitoring apparatus according to claim 3, wherein: An expansion enclosure monitoring device that monitors a plurality of expansion enclosures connected to a main enclosure via a serial bus,
Means for detecting when an interrupt signal is generated from a hardware monitor of any of the plurality of expansion enclosures provided in the main enclosure;
The extension casing that is provided in the main casing and that generates the interrupt signal by accessing the hardware monitor of the plurality of extension casings via the internal serial bus and the external serial bus of the main casing , respectively. Means for knowing the state,
The internal serial bus and the external serial bus share a single serial bus, and the internal serial bus and the external serial bus are electrically connected while the main housing performs internal communication. An extended enclosure monitoring device comprising means for realizing communication at a higher speed than in the case of communicating with each of the plurality of extended enclosures by disconnecting in an automatic manner. The state of the plurality of expansion enclosures is monitored by accessing the hardware monitors of the plurality of expansion enclosures through the internal serial bus and the external serial bus , which are provided on the main enclosure and periodically accessing the hardware monitors. 6. The expansion enclosure monitoring device according to claim 5, further comprising means for performing the operation.

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