CN110321263A

CN110321263A - Hard disk monitoring system

Info

Publication number: CN110321263A
Application number: CN201810271284.6A
Authority: CN
Inventors: 吴威宏
Original assignee: Shencloud Technology Co Ltd; Shunda Computer Factory Co Ltd
Current assignee: Shencloud Technology Co Ltd; Shunda Computer Factory Co Ltd
Priority date: 2018-03-29
Filing date: 2018-03-29
Publication date: 2019-10-11
Anticipated expiration: 2038-03-29
Also published as: CN110321263B

Abstract

The present invention provides a kind of hard disk monitoring system, includes multiple hard disks, a light emitting diode, a control unit and a processing unit.The control unit stores the more state informations for respectively corresponding the grade hard disks, and for each hard disk, control unit detecting generated with the connection state of the hard disk one indicate whether to be electrically connected the hard disk there are signals, and there are signals to store state information corresponding to the hard disk by this.The processing unit reads more pen state data stored by the control unit, for each pen state data, generate a LED control signal for corresponding to hard disk corresponding to the state information, and the LED control signal is sent to the control unit, it shines so that the control unit controls in the light emitting diode corresponding to a light emitting diode group of the hard disk.

Description

Hard disk monitoring system

Technical field

The invention relates to a kind of processing or resource monitorings, particularly relate to a kind of for support peripheral interconnection The hard disk monitoring system of the solid state hard disk of standard.

Background technique

Refering to Figure 1, a kind of current hard disk monitoring system 9 is electrically connected comprising a hard disk 91, a control unit 92, one Connect the hard disk 91 and the control unit 92 baseboard management controller (Baseboard Management Controller, BMC) 93 and a light emitting diode 94.The hard disk 91 is, for example, to support peripheral interconnection standard (Peripheral Component Interconnect Express, PCI-E) solid state hard disk (Solid-state Drive, SSD).

The baseboard management controller 93 for example with inter-integrated circuit (Inter-Integrated Circuit, I2C) with The hard disk 91 and the control unit 92 communication, and then obtain the update of the operating condition of the hard disk 91, in access (Active), Position (Locate) or wrong (Error).In more detail, which operates in an I2C master control (Master) mode, and the control unit 92 operates in I2C subordinate (Slave) mode, which records The operating condition of the hard disk 91 is recorded, and the operating condition of the hard disk 91 is actively sent to the control unit 92, that is, the control Unit 92 processed can only passively receive the operating condition of the hard disk 91 acquired by the baseboard management controller 93.The control unit The operating condition of 92 hard disks 91 transmitted according to the baseboard management controller 93 controls the light emitting diode 94 and shines with notice The operating condition of user's hard disk 91, such as: if the hard disk 91, in access, which issues the green of flashing Light, if the hard disk 91 is abnormal, which continuously sends out feux rouges.

However, since the baseboard management controller 93 only notes down the operating condition of the hard disk 91, and the control unit 92 The operating condition of the hard disk 91 can only be passively received from the baseboard management controller 93.As 91 hot plug (Hot of the hard disk When plugging), which can be because continuing to receive the update of 91 operating condition of hard disk and then stop The operating condition of the hard disk 91 is only noted down and transmits, even if the control unit 92, which has no, receives 93 institute of baseboard management controller The operating condition of the hard disk 91 of transmission, the control unit 92 still only can be according to the operatings of the hard disk of this received by last time 91 State controls the light emitting diode 94, without because being not received by the hard disk 91 that the baseboard management controller 93 is transmitted The hard disk 91 is just determined as exception automatically by operating condition, and then changes shining for the light emitting diode 94.If user is about to Data is accessed using the hard disk 91, since after the hard disk 91 is by hot plug, which does not control the light-emitting diodes The corresponding hard disk 91 of pipe 94 is shone by the state of hot plug to notify user that the hard disk 91 is by hot plug, is likely to result in User does not know that the hard disk 91 continues to access data by hot plug, and leads to the loss or damage of data.

The space it can be seen from the above, the hard disk monitoring system that we are generally understood still is greatly improved.

Summary of the invention

It is a kind of hard for the solid-state for supporting peripheral interconnection standard the technical problem to be solved by the present invention is to be to provide The hard disk monitoring system of disk.

In order to solve the above technical problems, a kind of hard disk monitoring system, includes M hard disk, a light emitting diode, a control Unit processed and a processing unit, M≤1.

The light emitting diode includes M light emitting diode group, and each light emitting diode group corresponds to the M hard disk One of them, and the operating condition to show corresponding hard disk.

The control unit includes M temporary storage module, a virtual pin port and a processing module.The M temporary storage module difference Corresponding to the M hard disk, and to store the M pen state data for corresponding respectively to the M hard disk.The virtual pin port electrical connection The M temporary storage module.The processing module is electrically connected the M temporary storage module, the light emitting diode and the virtual pin port, And to be electrically connected the M hard disk, and the connection state for each hard disk, to detect the hard disk and the processing module is to produce Raw one indicate the processing module whether be electrically connected the hard disk there are signals, and by this there are signal store it is corresponding to the hard disk Temporary storage module state information.

The processing unit is electrically connected the virtual pin port of the control unit, and the processing unit is to via the virtual pin Port obtains the M pen state data stored by the M temporary storage module, and for each pen state data, the processing unit is according to this State information generates a LED control signal for corresponding to hard disk corresponding to the state information, and by the LED control signal It is sent to the control unit, is corresponded to so that the control unit according to the LED control signal, controls in the light emitting diode It shines in the light emitting diode group of the hard disk.

Compared to the prior art, hard disk monitoring system of the present invention, for each hard disk, by the processing of the control unit Module detects the connection state of the hard disk and the processing module, and to generate this, there are signals, and by this there are signal store it is hard to this The state information of the corresponding temporary storage module of disk, the processing unit generate the LED control signal according to the state information, so that should Control unit is controlled in the light emitting diode and is sent out corresponding to the light emitting diode group of the hard disk according to the LED control signal Light.

[Detailed description of the invention]

Fig. 1 is a block diagram, illustrates a kind of current hard disk monitoring system.

Fig. 2 is a block diagram, illustrates a first embodiment of hard disk monitoring system of the present invention.

Fig. 3 is a block diagram, illustrates a second embodiment of hard disk monitoring system of the present invention.

[specific embodiment]

It please referring to shown in Fig. 2, a first embodiment signal of hard disk monitoring system 2 of the present invention connects a baseboard management controller 3, It and include a hard disk 21, a light emitting diode 23, a control unit 24 and a processing unit 25.The control unit 24 For example complexity can program logic device (Complex Programmable Logic Device, CPLD).

The hard disk 21 is, for example, to support non-volatility memorizer host controller interface norm (Non-Volatile Memory Express, NVMe) PCI-E SSD, the hard disk 21 to generate one correspond to itself operating condition state Signal, the status signal indicate the hard disk 21 be in state in an access, a positioning states and an error condition wherein one Person.

The light emitting diode 23 includes a light emitting diode group 231, which corresponds to the hard disk 21, and the second light emitting diode of the first light emitting diode for issuing green light including one and a sending red light, it should with instruction The operating condition of hard disk 21.It is worth noting that, the light emitting diode group 231 is also possible to include one in other embodiments Dichromatic LED is displayed in red light and green light and is respectively corresponded the operating shape for indicating that the hard disk 21 is different with corresponding State, in addition, the color for the light that the light emitting diode group 231 is issued is also not limited to the red light and green that the present embodiment is lifted Light.

24 signal of control unit connects the hard disk 21 and the light emitting diode 23, and supports the one of I2C including one First Port 241, one is electrically connected inter-integrated circuit servant's (I2C slave) unit 242, one of first Port 241 Help second Port 243, one of universal input and output (General-Purpose Input/Output, GPIO) agreement temporarily Storing module 244, one is electrically connected the place of inter-integrated circuit servant unit 242, second Port 243 and the temporary storage module 244 Manage virtual pin port (the Virtual Pin of module 245 and the electrical connection temporary storage module 244 and the processing module 245 Ports, VPP)246.First Port 241 of the control unit 24 and 243 signal of the second Port connect the hard disk 21, which connects the baseboard management controller 3, which connects the light emitting diode Unit 23.

Inter-integrated circuit servant unit 242 is used to receive shape caused by the hard disk 21 via first Port 241 State signal, and transmit the status signal to the processing module 245 and via first Port 241 transmit the status signal to should Baseboard management controller 3, so that the processing module 245 stores received status signal to the shape of the temporary storage module 244 State data, and the baseboard management controller 3 stores the status signal.

The temporary storage module 244 includes 8 buffer (not shown), and 8 buffers of the temporary storage module 244 are to correspondence Storage one is relevant to the state information of the hard disk 21.

The processing module 245 reaches an agreement on the connection state for detecting the hard disk 21 and the processing module 245 using GPIO to generate One indicate the processing module 245 whether signal connect the hard disk 21 there are signals, and by this there are signal store to this temporarily The state information of storing module 244.In this present embodiment, which is reached an agreement on via second Port 243 with GPIO Know whether signal connects the processing module 245 to the hard disk 21, and there are signals to generate this.

The processing unit 25 is electrically connected the virtual pin port 246 with SMbus.The processing unit 25 via this virtually to connect The state information stored by the temporary storage module 244 is read at foot port 246, which generates one according to the state information The control list is sent to corresponding to the LED control signal of hard disk 21 corresponding to the state information, and by the LED control signal The processing module 245 of member 24, so that the processing module 245 of the control unit 24 controls the hair according to the LED control signal It shines in optical diode unit 23 corresponding to the light emitting diode group 231 of the hard disk 21, for example, when the LED control signal When the status signal of corresponding state information indicates that hard disk is in state in the access, the processing module of the control unit 24 First light emitting diode of the corresponding light emitting diode group 231 of 245 controls issues the green light of flashing, when the light emitting control When the corresponding state information of signal indicates that hard disk is in the positioning states, the processing module 245 of the control unit 24 is controlled First light emitting diode of the corresponding light emitting diode group 231 issues permanent bright green light, and works as the LED control signal When corresponding state information indicates that hard disk is in the error condition, the processing module 245 of the control unit 24, which controls, to be corresponded to Second light emitting diode of the light emitting diode group 231 issue permanent bright red light, when the LED control signal is corresponding When going out the processing module 245 there are signal designation signal do not connect the hard disk 21 of state information, at this of the control unit 24 Second light emitting diode that reason module 245 controls the corresponding light emitting diode group 231 issues the red light of flashing.It is special It is noted that the processing unit 25 is periodically transmitted via the virtual pin port 246 in other embodiments of the invention One is relevant to the solicited message of the hard disk to the processing module 245, so that the processing module 245 is via the virtual pin port 246 by one include the corresponding hard disk 21 there are the return informations of signal to be sent to the processing unit 25, when the processing unit 25 Receive the return information and determine the correspondence of the return information hard disk 21 there are signal designations to go out the processing module After 245 signals connect the hard disk 21, which maps (VPP via the virtual pin port 246 with virtual pin port Mapping mode) reads the state information stored by the temporary storage module 244.

It please refers to shown in Fig. 3, a second embodiment of hard disk monitoring system 2 of the present invention, is similar to the first embodiment, Different places are only that: the hard disk monitoring system 2 includes the hard disk 21 of M support PCI-E, M > 1.In addition, the hard disk monitors System 2 is also electrically connected the exchanger 21 and the third Port of the processing module 245 comprising an exchanger (switch) 22 and one 247, which connects with I2C signal first connection of the control unit 24 to be electrically connected the M hard disk of grade 21 Port 241, the third Port 247 support GPIO agreement.The control unit 24 includes M temporary storage module 244, each temporary storage module The corresponding storage one of 244 8 buffers is relevant to the state information of the one of them of the M hard disk of grade 21.The light emitting diode Unit 23 includes M light emitting diode group 231, and each light emitting diode group 231 corresponds to wherein the one of M hard disk 21 of grade Person.

The control unit 24 control the exchanger 22 in order by the status signal from the hard disk 21 being electrically connected via First Port 241 is sent to inter-integrated circuit servant unit 242, and inter-integrated circuit servant unit 242 transmits institute again The status signal of the hard disk 21 of electrical connection is electrically connected hard to the processing module 245 and via first Port 241 transmission The status signal of disk 21 to the baseboard management controller 3 so that the processing module 245 by received status signal store to The state information of the corresponding temporary storage module 244 of hard disk 21 of status signal is transmitted, and the baseboard management controller 3 storage is received The status signal arrived.Second Port 243 connects the M hard disk of grade 21 with universal input and output agreement signal, in more detail For, in this present embodiment, second Port 243 be via the M IC foot position (PRSNT#) from the M hard disk of grade 21 with Another status signal of the M hard disk of grade 21 is received respectively.

For each hard disk 21, which detects the hard disk 21 and the processing module 245 using GPIO agreement Connection state indicates whether signal connects another status signal of the hard disk 21 to the processing module 245 to generate one, that is, There are signals, and there are signals to store to the state information of the temporary storage module 244 by this.

The processing unit 25 waits this stored by M temporary storage module 244 etc. to read this via the virtual pin port 246 State information, and for each pen state data, which generates one and corresponds to state money according to the state information Expect the LED control signal of corresponding hard disk 21, and the LED control signal is sent to the processing mould of the control unit 24 Block 245, so that the processing module 245 of the control unit 24 controls the light emitting diode according to the LED control signal It shines in 23 corresponding to the light emitting diode group 231 of the hard disk 21.

It is worth noting that, in this present embodiment, for each pen state data, when the processing unit 25 judges the shape State data there are signal designation go out store the hard disk 21 corresponding to the temporary storage module 244 of the state information signal connection should When processing module 245, which is relevant to the command information of the hard disk 21 extremely via the virtual link port 246 transmission one The processing module 245 makes the processing module 245 keep the exchanger 22 former via the third Port 247 according to the command information This phase-locked loop (Phase-locked loops, PLL) circuit for being electrically connected the hard disk 21 is not turned on.

In conclusion hard disk monitoring system 2 of the present invention, for each hard disk 21, by the processing of the control unit 24 Module 245, initiatively detecting the connection state of the hard disk 21 and the processing module 245, there are signals to generate this, and this is deposited It stores in signal to the state information of the corresponding temporary storage module 244 of the hard disk 21.And processing module 245 of the control unit 24 The status signal for receiving the hard disk 21 from the connection of institute's signal is stored corresponding temporary to the hard disk 21 for transmitting status signal The state information of module 244.The processing unit 25 reads and generates the LED control signal according to the state information, so that the control The processing module 245 of unit 24 processed controls according to the LED control signal and corresponds to this in the light emitting diode 23 firmly The light emitting diode group 231 of disk 21 shines, in addition, when the hard disk monitoring system 2 is comprising multiple hard disks 21 and for each state Data, when the processing unit 25 judges that this of the state information goes out to store the temporary storage module of the state information there are signal designation For the hard disk 21 corresponding to 244 when signal does not connect the processing module 245, which makes 22 script of exchanger be electrically connected The circuit for connecing the hard disk 21 is not turned on, therefore can reach the purpose of the present invention really.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims

1. a kind of hard disk monitoring system, characterized by comprising:

M hard disk, M≤1；

One light emitting diode, including M light emitting diode group, each light emitting diode group correspond to its of the M hard disk Middle one, and the operating condition to indicate corresponding hard disk；

One control unit is electrically connected the light emitting diode, and to be electrically connected the M hard disk, which includes M Temporary storage module corresponds respectively to the M hard disk, and to store the M pen state data for corresponding respectively to the M hard disk, one is empty Quasi- pin port, is electrically connected the M temporary storage module and a processing module, is electrically connected the M temporary storage module, the light emitting diode list Member and the virtual pin port, and to be electrically connected the M hard disk, and to detect the hard disk and the processing for each hard disk The connection state of module with generate one indicate the processing module whether be electrically connected the hard disk there are signals, and by this exist believe Number storage to the corresponding temporary storage module of the hard disk state information；And

One processing unit is electrically connected the virtual pin port of the control unit, and the processing unit is to via the virtual pin port The M pen state data stored by the M temporary storage module is obtained, for each pen state data, the processing unit is according to the shape State data generates one and corresponds to the LED control signal of hard disk corresponding to the state information, and the LED control signal is passed It send to the control unit, so that the control unit according to the LED control signal, controls and corresponds in the light emitting diode The light emitting diode group of the hard disk shines.

2. hard disk monitoring system according to claim 1, which is characterized in that each hard disk corresponds to itself to generate one The status signal of operating condition, when the processing module is received from the status signal for the hard disk being currently electrically connected, at this Reason module also stores received status signal to the state money of the corresponding temporary storage module of hard disk corresponding to status signal Material.

3. hard disk monitoring system according to claim 2, which is characterized in that also include an exchanger, M is whole greater than 1 Number, the exchanger are electrically connected the control unit, and to be electrically connected the M hard disk, the control unit control the exchanger so that Status signal from the hard disk being electrically connected is streamed to the control via inter-integrated circuit wheel in order by the exchanger Unit.

4. hard disk monitoring system according to claim 3, which is characterized in that the control unit further includes whole inside a support One first Port of circuit is closed, which is electrically connected first Port with inter-integrated circuit with electric with the control unit Connection.

5. hard disk monitoring system according to claim 4, which is characterized in that first Port of the control unit is electrically connected Connect a baseboard management controller, wherein the control unit further include the inter-integrated circuit of the electrical connection processing module fall forward it is single Member, the baseboard management controller and the exchanger are electrically connected inter-integrated circuit servant's unit, the friendship via first Port Parallel operation transmits the status signal of be electrically connected hard disk to inter-integrated circuit servant's unit, and inter-integrated circuit servant unit is again The status signal for the hard disk that the exchanger is electrically connected is transmitted to the baseboard management controller and the processing module, so that the processing Module stores received status signal to the state information of the corresponding temporary storage module of hard disk corresponding to status signal.

6. hard disk monitoring system according to claim 2, which is characterized in that the status signal indicates that the hard disk is in one The one of them of state, a positioning states and an error condition in access.

7. hard disk monitoring system according to claim 1, which is characterized in that for each state information, when the processing list When member judges that the status signal of the state information indicates that the corresponding hard disk of the state information is in the error condition, at this The circuit that reason unit makes the exchanger be electrically connected the hard disk is not turned on.

8. hard disk monitoring system according to claim 1, which is characterized in that the processing unit is electrically connected with System Management Bus The virtual pin port is connect, and is electrically connected the M temporary storage module via the virtual pin port.

9. hard disk monitoring system according to claim 1, which is characterized in that the control unit further includes that a support is universal Second Port of input and output agreement, which reaches an agreement on to universal input and output is electrically connected second Port, and The processing module is electrically connected via second Port.