CN111984464A - Programmable logic device monitoring and restarting method, device and system - Google Patents

Abstract

The invention discloses a method, a device and a system for monitoring and restarting a programmable logic device, which are used for monitoring and judging whether the programmable logic device is abnormal or not in real time; if the programmable logic device is monitored to be abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again; continuously monitoring the programmable logic device, and controlling the programmable logic device to be in cold restart if the programmable logic device is not recovered after a second preset time; wherein the second preset duration is longer than the first preset duration. The invention can carry out debugging modification on the programmable logic device by automatically monitoring and restarting the programmable logic device, automatically recover to normal as much as possible, shorten the fault time and reduce the influence on the system.

Description

Programmable logic device monitoring and restarting method, device and system

Technical Field

The invention relates to a programmable logic device, in particular to a method, a device and a system for monitoring and restarting the programmable logic device.

Background

Programmable Logic Devices (PLDs) are important components in a server, and are mainly responsible for a boot-up time sequence memory part of the server to perform platform management, which means a series of monitoring and control. However, the programmable logic device has no state monitoring or restarting mode for itself, once a problem occurs, the whole system can be stopped, and the programmable logic device can not be restored by self after waiting for repair of maintenance personnel.

Disclosure of Invention

In order to solve the above problems, the present invention provides a method, an apparatus, and a system for monitoring and restarting a programmable logic device, which can monitor the programmable logic device and automatically attempt to restart the programmable logic device when the programmable logic device is abnormal.

The technical scheme of the invention is as follows: a programmable logic device monitoring and restarting method comprises the following steps:

monitoring and judging whether the programmable logic device is abnormal or not in real time;

if the programmable logic device is monitored to be abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again;

and continuously monitoring the programmable logic device, and controlling the programmable logic device to be cold restarted if the programmable logic device is not recovered after a second preset time.

Furthermore, in the method, whether the programmable logic device is abnormal or not is judged by monitoring the heartbeat signal of the programmable logic device; and controlling the programmable logic device to be restarted again through the BMC chip.

Further, the method further comprises: and sending an alarm signal when the programmable logic device is not recovered after the first preset time.

The technical scheme of the invention also comprises a programmable logic device monitoring and restarting device, which comprises,

a monitoring and judging module: monitoring and judging whether the programmable logic device is abnormal or not in real time;

a hot restart module: if the programmable logic device is abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again;

a cold restart module: and if the programmable logic device is not recovered after the second preset time, controlling the programmable logic device to be in cold restart.

Further, the monitoring and judging module judges whether the programmable logic device is abnormal or not by monitoring the heartbeat signal of the programmable logic device;

the hot restart module controls the programmable logic device to be hot restarted through the BMC chip.

Further, the device also comprises an alarm module: and sending an alarm signal when the programmable logic device is not recovered after the first preset time.

The technical scheme of the invention also comprises a programmable logic device monitoring and restarting system, wherein the programmable logic device is connected with the BMC chip and comprises the following steps: the heartbeat signal judging circuit, the hot restart circuit and the cold restart circuit;

the input end of the heartbeat signal judging circuit is connected with the programmable logic device, the output end of the heartbeat signal judging circuit is respectively connected with the input end of the hot restarting circuit and the input end of the cold restarting circuit, the output end of the hot restarting circuit is connected with the BMC chip, and the output end of the cold restarting circuit is connected with the power supply of the programmable logic device; when the heartbeat signal judging circuit judges that the heartbeat signal of the programmable logic device is abnormal and does not recover to be normal after a first preset time, the hot restart circuit informs the BMC chip to carry out hot restart on the programmable logic device; and if the heartbeat signal judging circuit judges that the heartbeat signal does not return to normal after the second preset time, controlling the power supply of the programmable logic device to be powered down and restarted by the cold restarting circuit.

Further, the heartbeat signal determination circuit includes: the circuit comprises a resistor R1, a resistor R2, a capacitor C1, a capacitor C2, an exclusive-OR gate U1 and a MOS transistor M1;

the output end of the programmable logic device is respectively connected with the first end of the resistor R1 and the first input end of the exclusive-OR gate U1; the second end of the resistor R1 is connected with the second input end of the XOR gate U1, and the other end is grounded through the capacitor C1; the output end of the exclusive-or gate U1 is connected with the gate of the MOS tube M1, one path of the drain of the MOS tube M1 is connected with the power supply voltage through a resistor R2, the other path is grounded through a capacitor C2, and the source of the MOS tube M1 is grounded.

Further, the warm restart circuit includes: the circuit comprises a resistor R3, a capacitor C3, a comparator U2, an inverter U3 and a NOR gate U4;

the positive input end of the comparator U2 is connected with a node between the resistor R2 and the capacitor C2, and the negative input end is connected with a first reference voltage; one path of the output end of the comparator U2 is connected with the input end of the inverter U3, and the other path of the output end of the comparator U2 is connected with the first end of the resistor R3; the output end of the inverter U3 is connected with the first input end of the NOR gate U4; the second end of the resistor R3 is connected with the second input end of the NOR gate U4, and the other end is grounded through the capacitor C3; the output end of the NOR gate U4 is connected with the BMC chip;

the cold restart circuit includes: the circuit comprises a resistor R4, a capacitor C4, a comparator U5, an inverter U6 and a NOR gate U7;

the positive input end of the comparator U5 is connected with a node between the resistor R4 and the capacitor C4, and the negative input end is connected with a first reference voltage; one path of the output end of the comparator U5 is connected with the input end of the inverter U6, and the other path of the output end of the comparator U5 is connected with the first end of the resistor R4; the output end of the inverter U6 is connected with the first input end of the NOR gate U7; the second end of the resistor R4 is connected with the second input end of the NOR gate U7, and the other end is grounded through the capacitor C4; the output end of the NOR gate U7 is connected with a power supply of the programmable logic device.

Furthermore, the system also comprises an alarm circuit, and the output end of the NOR gate U4 is also connected with the alarm circuit; when the heartbeat signal is still not normal after the first preset duration, the alarm circuit gives an alarm.

The invention provides a method, a device and a system for monitoring and restarting a programmable logic device, which are used for monitoring the programmable logic device, wherein when the programmable logic device is abnormal (whether the programmable logic device is abnormal or not can be judged by monitoring a heartbeat signal of the programmable logic device), if the programmable logic device is not recovered to be normal after a first period of time, the programmable logic device is restarted again; and after the hot restart, if the programmable logic device can not be recovered to be normal, namely no normal heartbeat signal exists after the second period of time, the programmable logic device is restarted in a cold mode. The invention can carry out debugging modification on the programmable logic device by automatically monitoring and restarting the programmable logic device, automatically recover to normal as much as possible, shorten the fault time and reduce the influence on the system.

Drawings

FIG. 1 is a schematic flow chart of a method according to an embodiment of the present invention.

Fig. 2 is a schematic block diagram of a second structure according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a three-circuit structure according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings by way of specific examples, which are illustrative of the present invention and are not limited to the following embodiments.

Example one

The embodiment provides a monitoring and restarting method for a programmable logic device, which monitors the programmable logic device in real time, and automatically repairs the programmable logic device through restarting when the programmable logic device is abnormal. The programmable logic device refers to an FPGA or a CPLD.

As shown in fig. 1, the method comprises the following steps:

s1, monitoring and judging whether the programmable logic device is abnormal in real time;

s2, if the programmable logic device is detected to be abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again;

and S3, continuously monitoring the programmable logic device, and controlling the programmable logic device to be cold restarted if the programmable logic device is not recovered after a second preset time.

In this embodiment, whether the programmable logic device is abnormal may be specifically determined by monitoring a heartbeat signal of the programmable logic device. And when the heartbeat signal is not monitored, the programmable logic device is abnormal.

Further, when the heartbeat signal is still not monitored after the first preset time, the programmable logic device is restarted again. It should be noted that the programmable logic device can be controlled to be restarted by the BMC chip. In addition, when the heartbeat signal cannot be monitored after the first preset time, an alarm is sent out to remind the staff of paying attention. The alarm is prevented from being sent out at the first time when the heartbeat signal cannot be monitored, so that the workload is prevented from being increased.

After a warm restart, the programmable logic device may still fail to recover to normal. It should be noted that, in the whole process, the programmable logic device is continuously monitored, that is, the heartbeat signal of the programmable logic device is continuously monitored, and if the heartbeat signal is not monitored after the second preset time period, which indicates that the hot restart fails, the programmable logic device is cold restarted, that is, a power-down restart action occurs. It should be noted that the second preset time length is the same as the timing start point of the first preset time length when the programmable logic device is monitored to be started from the abnormal start, and the second preset time length is longer than the first preset time length.

According to the embodiment, the fault repairing is carried out on the programmable logic device in a hot restart and cold restart mode, and the influence of the fault on a system can be reduced to the greatest extent.

Example two

As shown in fig. 2, on the basis of the first embodiment, the present embodiment provides a monitoring and restarting apparatus for a programmable logic device, which includes the following functional modules.

The monitoring and judging module 101: monitoring and judging whether the programmable logic device is abnormal or not in real time;

the warm restart module 102: if the programmable logic device is abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again;

the cold restart module 103: and if the programmable logic device is not recovered after the second preset time, controlling the programmable logic device to be in cold restart.

In this embodiment, the monitoring and determining module 101 determines whether the programmable logic device is abnormal by monitoring a heartbeat signal of the programmable logic device. And when the heartbeat signal is not monitored, the programmable logic device is abnormal.

The hot restart module 102 controls the programmable logic device to be hot restarted through the BMC chip.

In order to timely and effectively remind workers, the device is further provided with an alarm module, and when the programmable logic device is not recovered after a first preset time, an alarm signal is sent out.

EXAMPLE III

The embodiment provides a monitoring and restarting system for a programmable logic device, which realizes monitoring and restarting repair of the programmable logic device by using hardware. It should be noted that the programmable logic device is connected to the BMC chip.

As shown in fig. 3, the system includes: a heartbeat signal judging circuit 104, a hot restart circuit 105 and a cold restart circuit 106.

The input end of the heartbeat signal judging circuit 104 is connected with the programmable logic device, the output end of the heartbeat signal judging circuit is respectively connected with the input end of the hot restart circuit 105 and the input end of the cold restart circuit 106, the output end of the hot restart circuit 105 is connected with the BMC chip, and the output end of the cold restart circuit 106 is connected with the power supply of the programmable logic device; when the heartbeat signal judging circuit 104 judges that the heartbeat signal of the programmable logic device is abnormal and does not recover to be normal after a first preset time, the hot restart circuit 105 informs the BMC chip to carry out hot restart on the programmable logic device; if the heartbeat signal judging circuit 104 judges that the heartbeat signal does not return to normal after the second preset duration, the cold restart circuit 106 controls the power supply of the programmable logic device to be restarted in a power-down mode.

Specifically, the heartbeat signal determination circuit 104 of the present embodiment includes: the circuit comprises a resistor R1, a resistor R2, a capacitor C1, a capacitor C2, an exclusive-OR gate U1 and a MOS transistor M1.

The output end of the programmable logic device is respectively connected with the first end of the resistor R1 and the first input end of the exclusive-OR gate U1; the second end of the resistor R1 is connected with the second input end of the XOR gate U1, and the other end is grounded through the capacitor C1; the output end of the exclusive-or gate U1 is connected with the gate of the MOS tube M1, one path of the drain of the MOS tube M1 is connected with the power supply voltage through a resistor R2, the other path is grounded through a capacitor C2, and the source of the MOS tube M1 is grounded.

The warm restart circuit 105 is identical to the cold restart circuit 106 in this embodiment.

The warm restart circuitry 105 includes: the circuit comprises a resistor R3, a capacitor C3, a comparator U2, an inverter U3 and a NOR gate U4.

The positive input end of the comparator U2 is connected with a node between the resistor R2 and the capacitor C2, and the negative input end is connected with a first reference voltage; one path of the output end of the comparator U2 is connected with the input end of the inverter U3, and the other path of the output end of the comparator U2 is connected with the first end of the resistor R3; the output end of the inverter U3 is connected with the first input end of the NOR gate U4; the second end of the resistor R3 is connected with the second input end of the NOR gate U4, and the other end is grounded through the capacitor C3; the output end of the NOR gate U4 is connected with the BMC chip.

The cold restart circuit 106 includes: the circuit comprises a resistor R4, a capacitor C4, a comparator U5, an inverter U6 and a NOR gate U7.

The positive input end of the comparator U5 is connected with a node between the resistor R4 and the capacitor C4, and the negative input end is connected with a first reference voltage; one path of the output end of the comparator U5 is connected with the input end of the inverter U6, and the other path of the output end of the comparator U5 is connected with the first end of the resistor R4; the output end of the inverter U6 is connected with the first input end of the NOR gate U7; the second end of the resistor R4 is connected with the second input end of the NOR gate U7, and the other end is grounded through the capacitor C4; the output end of the NOR gate U7 is connected with a power supply of the programmable logic device.

In addition, the system is also provided with an alarm circuit for effectively reminding workers in time, and the output end of the NOR gate U4 is also connected with the alarm circuit; when the heartbeat signal is still not normal after the first preset duration, the alarm circuit gives an alarm.

In specific implementation, the programmable logic device is started to load the firmware of the programmable logic device. After the firmware is loaded, the programmable logic device continuously sends a heartbeat signal similar to the clock signal to the heartbeat signal determining circuit 104 through the universal input/output pin. If the heartbeat signal judging circuit 104 does not receive the heartbeat signal, it indicates that the programmable logic device is down, the RC charge and discharge of the heartbeat signal judging circuit 104 will be continuously charged, and when the voltage reaches the set VPH1 (the restart voltage of the hot restart circuit 105), the hot restart circuit 105 will be started to notify the BMC of shutdown, the hot restart programmable logic device will be restarted, and the alarm circuit will be notified to alarm. If the programmable logic device fails to be restarted, the programmable logic device still does not send a heartbeat signal, the RC charge and discharge of the heartbeat signal judgment circuit 104 can continuously charge accumulated voltage, and when the voltage reaches the set VPH2 (cold restart voltage of the cold restart circuit 106), the cold restart circuit 106 is started to restart the programmable logic device for power supply of the programmable logic device, so that the programmable logic device performs cold restart.

The above disclosure is only for the preferred embodiments of the present invention, but the present invention is not limited thereto, and any non-inventive changes that can be made by those skilled in the art and several modifications and amendments made without departing from the principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A monitoring and restarting method for a programmable logic device is characterized by comprising the following steps:

monitoring and judging whether the programmable logic device is abnormal or not in real time;

if the programmable logic device is monitored to be abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again;

and continuously monitoring the programmable logic device, and controlling the programmable logic device to be cold restarted if the programmable logic device is not recovered after a second preset time.

2. The method for monitoring and restarting the programmable logic device according to claim 1, wherein in the method, whether the programmable logic device is abnormal or not is judged by monitoring a heartbeat signal of the programmable logic device; and controlling the programmable logic device to be restarted again through the BMC chip.

3. The programmable logic device monitor restart method of claim 1 or 2, wherein the method further comprises: and sending an alarm signal when the programmable logic device is not recovered after the first preset time.

4. The utility model provides a programmable logic device control restarts device which characterized in that includes, monitoring judgment module: monitoring and judging whether the programmable logic device is abnormal or not in real time;

a hot restart module: if the programmable logic device is abnormal and is not recovered after the first preset time, controlling the programmable logic device to be restarted again;

a cold restart module: and if the programmable logic device is not recovered after the second preset time, controlling the programmable logic device to be in cold restart.

5. The monitoring and restarting device for the programmable logic device as claimed in claim 4, wherein the monitoring and judging module judges whether the programmable logic device is abnormal or not by monitoring a heartbeat signal of the programmable logic device;

the hot restart module controls the programmable logic device to be hot restarted through the BMC chip.

6. The programmable logic device monitoring and restarting device according to claim 4 or 5, wherein the device further comprises an alarm module: and sending an alarm signal when the programmable logic device is not recovered after the first preset time.

7. A programmable logic device monitoring restart system, the programmable logic device is connected with a BMC chip, characterized by comprising: the heartbeat signal judging circuit, the hot restart circuit and the cold restart circuit;

the input end of the heartbeat signal judging circuit is connected with the programmable logic device, the output end of the heartbeat signal judging circuit is respectively connected with the input end of the hot restarting circuit and the input end of the cold restarting circuit, the output end of the hot restarting circuit is connected with the BMC chip, and the output end of the cold restarting circuit is connected with the power supply of the programmable logic device; when the heartbeat signal judging circuit judges that the heartbeat signal of the programmable logic device is abnormal and does not recover to be normal after a first preset time, the hot restart circuit informs the BMC chip to carry out hot restart on the programmable logic device; and if the heartbeat signal judging circuit judges that the heartbeat signal does not return to normal after the second preset time, controlling the power supply of the programmable logic device to be powered down and restarted by the cold restarting circuit.

8. The programmable logic device monitoring and restarting system of claim 7, wherein the heartbeat signal determining circuit includes: the circuit comprises a resistor R1, a resistor R2, a capacitor C1, a capacitor C2, an exclusive-OR gate U1 and a MOS transistor M1;

the output end of the programmable logic device is respectively connected with the first end of the resistor R1 and the first input end of the exclusive-OR gate U1; the second end of the resistor R1 is connected with the second input end of the XOR gate U1, and the other end is grounded through the capacitor C1; the output end of the exclusive-or gate U1 is connected with the gate of the MOS tube M1, one path of the drain of the MOS tube M1 is connected with the power supply voltage through a resistor R2, the other path is grounded through a capacitor C2, and the source of the MOS tube M1 is grounded.

9. The programmable logic device monitored restart system of claim 8 wherein the hot restart circuitry comprises: the circuit comprises a resistor R3, a capacitor C3, a comparator U2, an inverter U3 and a NOR gate U4;

the positive input end of the comparator U2 is connected with a node between the resistor R2 and the capacitor C2, and the negative input end is connected with a first reference voltage; one path of the output end of the comparator U2 is connected with the input end of the inverter U3, and the other path of the output end of the comparator U2 is connected with the first end of the resistor R3; the output end of the inverter U3 is connected with the first input end of the NOR gate U4; the second end of the resistor R3 is connected with the second input end of the NOR gate U4, and the other end is grounded through the capacitor C3; the output end of the NOR gate U4 is connected with the BMC chip;

the cold restart circuit includes: the circuit comprises a resistor R4, a capacitor C4, a comparator U5, an inverter U6 and a NOR gate U7;

the positive input end of the comparator U5 is connected with a node between the resistor R4 and the capacitor C4, and the negative input end is connected with a first reference voltage; one path of the output end of the comparator U5 is connected with the input end of the inverter U6, and the other path of the output end of the comparator U5 is connected with the first end of the resistor R4; the output end of the inverter U6 is connected with the first input end of the NOR gate U7; the second end of the resistor R4 is connected with the second input end of the NOR gate U7, and the other end is grounded through the capacitor C4; the output end of the NOR gate U7 is connected with a power supply of the programmable logic device.

10. The programmable logic device monitoring and restarting system of claim 9, wherein the system further comprises an alarm circuit, and the output terminal of the nor gate U4 is further connected with the alarm circuit; when the heartbeat signal is still not normal after the first preset duration, the alarm circuit gives an alarm.

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