DE19506957C2 - Method for updating and loading user programs in a program memory of a microprocessor system - Google Patents

Description

Microprocessor systems are known to be by a micropro processor formed, on the microprocessor bus at least one type turner module and a memory is connected in which at least least an application program - especially for control of the user module - is saved. The memory is through a programmable read-only memory (PROM), an electrical one programmable read-only memory (EPROM) or by an elec Really erasable and programmable read-only memory (EEPROM) siert. These memories or memory modules are programmed on a suitable programming device, d. H. loaded with at least one user program and onto a Bracket of the microprocessor system inserted.

Should the user programs be saved in this way? or memory modules changed, d. H. updated or if a new user program is to be loaded replace the memory or memory modules. To avoid such an exchange, i. H. the stores or the memory modules are soldered in, the Update or change of user program by loading the user programs via an additional one Interface in an electrically erasable and programmable Memory (EEPROM). For loading Pro gram during the initialization of the microprocessor system is an initialization routine in the initialization program intended.  

From the patent US 4 720 812 is a microprocessor system known, which is volatile memory (e.g. RAM) and not volatile memory (z. B. PROM, EPROM), wherein in one non volatile memory using any number of using a microprocessor executable user programs as well an initialization or reloading routine is stored. The reload routine contains command lines through which at ei System initialization - for example when restarting of the system - a user program from a non-volatile Memory with long memory access times in a volatile Memory is copied with fast memory access times, and thus a high microprocessor execution speed is achieved.

In the German patent DE 39 38 517 C2 is also described a microprocessor system in which a Steuerpro gram from an external institution - for example via the public network and via a MODEM connection facility - transmitted to a numerical control device and then eats in volatile memory (e.g. RAM) or non-volatile storage (e.g. a disk storage) is saved. In order to realize a fast data transmission, this shows Control program at least one charging module, each with egg is provided with an assessment code. With the help of the appraisal It is checked whether the loading module to be transferred is checked is already stored in the numerical control device; on charging module provided by the external device transmitted to the control device only when this egg a different assessment code than that in the tax device has stored charging module.

With such microprocessor designs, however, none can User programs during the operation of the microprocessor systems loaded or user programs already saved be updated, d. H. User programs currently running  are interrupted. Furthermore, user pro gram data cached in a read-write memory by loading the user programs during installation drive during the initialization of the microprocessor system deleted. This means that in the long term, for example, total melded, edited and then saved information lost. Such information provides, for example wise summed phase offset values for a phase rule circle-regulating user program in a communication direction, the phase-locked loop for synchronization tion of two internal or externally supplied clock signals see is.

The invention is based on the task of updating of stored user programs and reloading from programs during the operation of the microprocessor system without loss of the cached by the user programs secure information or data. The Task is based on a microprocessor system according to the Features of the preamble of claim 1 by the characteristic features solved.

The essential aspect of the method according to the invention is in the fact that the program memory is not through one volatile, electrically erasable and programmable memory - known in the trade as FLASH-EPROM memory - and by a volatile, static read-write memory - in the Known in the art as SRAM memory - is realized, in which erasable and programmable memory that at least one application the program in which a reloading routine is integrated, ge stores. When the microprocessor is initialized stems becomes the at least with the help of an initialization program least one stored in erasable and programmable memory User program and the reload routine in the static Read / write memory copied. With the help of the reload routine,  which can be activated via the system interface another user program in the static read / write memory can be loaded. Then with the help of load routine the cached user program in the sense reloading or updating an already saved one User program in the electrically erasable and programmable Read / write memory programmed.

According to a development of the method according to the invention the reload routine is also included in the initialization routine bound. Will be at the initialization of the microprocessor system found that no user program in the electrically and programmable memory is stored, so with Help from the add-on included in the initialization routine deroutine at least one user program in the static Read / write memory loaded and then in the elec Programmable, erasable and programmable memory. The integrated in the respective user program and in the Ini reload routine is the same well implemented, the one in the initialization routine bound reload routine during the initialization of the micro processor system and into the respective user program bound reload routine during the course of each User program for reloading user programs in the sense of reloading user programs or updates stored user programs is used.

According to a further advantageous development of the inventor According to the inventive method, the reloading routine is performed via the Sy stem interface through request and response messages controls or activates, whereby a message by a Mel form header, an information field and a security field is. This is coordinated with a packet-wise transmission Protocol is particularly economical in microprocessor systems to realize.  

For checking the static read-write memory cached user programs is cyclical Block protection procedures provided. This cyclical blocksi backup procedure is also based on a realization in one Microprocessor system tuned.

Before programming a user program in the elec be erasable and programmable read-write memory existing user programs, especially one to be updated current user program, deleted. The in the electrically extinguishing and programmable memory programmed user programs are particularly advantageous with the already implemented cyclical block protection procedures with regard to their correct programming checked. After programming a user program in the erasable and programmable The programmed user program is saved using the Reload routine loaded into the static read-write memory and reinitialized so that the in a memory area stored data of the previously programmed user pro grammes are not lost, but in the newly programmed User program included, d. H. the user program memory areas are made known.

Furthermore, there is a Nachla in the static random access memory memory area provided. This reload storage area is only for the temporary storage of in the electrically erasable and programmable memory for programming User programs provided. In this reload memory area cached user programs are not off executable.

The main advantages of the method according to the invention are to be seen in the fact that during the operation of the microprocessor user programs can be loaded. The following  loaded user programs are for an update of a User program already programmed or a new Reali a function in the microprocessor system is provided. A Such a user program can be a program, for example to control a in a communication device a microprocessor system implemented phase locked loop put.

Further advantageous embodiments of the Ver driving are to be found in the further claims to take.

The method according to the invention is described below using a Block diagram explained in more detail.

The block diagram shows an MPS microprocessor system with an egg a microprocessor MP, at its microprocessor bus MPB volatile, static random access memory SRAM, an elec trisch erasable and programmable read-write memory FLASH, an interface module SSM and at least one user module MCC - in the block diagram is a user module MCC representa shown for others - connected. The microprocessor MP is, for example, by an 80386 microprocessor INTEL company realized. With the help of the SSM interface module are from an external facility - not shown - serially transmitted request messages afm and nachzula end user programs AWP to the microprocessor clock Microprocessor bus controlled by MPB. Through the interface module SSM is a serial system interface formed over SYS which is an external facility - e.g. B. a program-controlled loading dieneinrichtung - with the microprocessor system MPS commun graces. Such an interface module SSM is an example by the integrated circuit 8251A from INTEL realized.  

In the electrically erasable and programmable read / write memory For the MCC user modules, FLASH is at least one user pro grams of AWP stored - by a block labeled AWP represented representatively.

Furthermore, it is electrically erasable and programmable Read-write memory FLASH an initialization routine BOOT deposited, whereby in the initialization routine BOOT a Reloading routine NLRB is integrated. With the help of this initia user program AWP at the Commissioning of the MPS microprocessor system in the static Read / write memory SRAM loaded and started. With this initial loading is together with the at least one type User program AWP in one of the user programs AWP integrated reloading routine NLR in the static write le memory SRAM loaded. The reload routines NLR, NLRB in the Initialization routine BOOT and in the respective user pro grams of AWP have similar functions and are the same realized.

For the exemplary embodiment it is further assumed that a User program AWPX should be updated, d. H. by a revised version AWPX 'is to be replaced.

For this purpose, a request is made via the SSM interface module message afm via the microprocessor bus MPB to the static Read-write memory SRAM stored reload routine NLR transmitted. It should be noted that during processing least of the user programs AWP by the microprocessor MP Reloading routine NLRB in the initialization program via the Sy system interface SYS cannot be addressed because the initiali only during an initialization of the Microprocessor - for example after a power failure - is effective. The requirement and then explained  Reply message afm, atm is in a message header MK, an In formation field IF and a fuse field SF divided. With egg A request message afm is an information in the message header MK mation inserted by which the reloading routine causes NLR the user program contained in the information field IF AWPX 'in a reload memory area NLSP of the static Load SRAM read-write memory - with dashed lines indicated. In this case, a fuse is made in the SF fuse field tion information si transmitted, with the help of which the transmission the information in the request message afm checked becomes. The NLR reload routine is confirmed by a transmission a response message will save the user program AWPX 'or gives an error message about a faulty Storage from. By submitting another To claim notification afm with corresponding information i im Information field IF can check the stored To APX 'program using a check routine - not shown -, for example by a cyclic Block securing procedures are checked. The result - feh Learner-free or faulty - the exam is about an answer message atm issued.

After a check indicating the correct storage The result of the test is transmitted by a request message afm, in which a corresponding deletion instruction is inserted, deletion of the user program AWPX to be replaced leads or performed - indicated by dash-dotted lines points. The deletion is in turn triggered by a response message approved. Then through another request message afm, which contains a programming instruction, the Programming the user program AWPX 'in the delete and programmable read-write memory FLASH initiated and carried out successively - indicated by dotted lines. The negative or positive acknowledgment of this programming gangs is again through a response message atm over the  Interface module SSM output. By submitting one Another request message afm can be checked with A cyclical block backup procedure of the program mated user program AWPX '.

The microprocessor can then be initialized stems MPS can be initiated, whereby the exchanged user the program AWPX 'in the static read / write memory SRAM copied and then started. Alternatively, you can up to an initialization of the MPS microprocessor system be serviced - e.g. B. after a power failure - at the now updated user program AWPX 'in the static random access memory SRAM copied and started becomes. Has the AWPX user program to be updated programming is not deleted, an initiali of the MPS microprocessor system is always updated, d. H. previously loaded user program AWPX 'in the static Read / write memory copied and started. When reloading the initialization of user programs AWP is started immediately directed, d. H. the new user program AWP in the static Read / write memory SRAM loaded and started. Here will that during the commissioning of the MPS microprocessor system copied overwritten original user program AWPX, being the area where the original user program AWPX has cached data, is retained and through the exchanged user program AWPX 'can be used. To do this, the NLRB reload routine is used to load the exchanged user program AWPX 'a corresponding setting, d. H. corresponding references to the memory areas, d. H. Memory addresses added. Furthermore, with the help of Reloading routine NLRB, for example with the help of a cyclic block the correct copying of the respective application the program AWP in the static random access memory SRAM be checked. This is a corresponding requirement afm message transmitted and the result of the review by  a response message atm via the system interface SYS via averages.

The user program AWPX 'or the other user programs AWP, for example, provide user programs AWP for users module MCC through which a phase locked loop in a commu nication system - not shown - is controlled. The Pha The control loop is part of a high-precision clock facility for Control of internal communication system clocks. For the Control of these MCC user modules or AWP user programs can directly report requirements via the SSM interface module dungen afm with appropriate instructions, e.g. B. Reference clock gave, clock speeds, synchronization dependencies etc. are transmitted. In return there will be reply messages atm for acknowledgment of requests and error messages transmitted.

Claims (9)

1. A method for updating and loading at least one user program (AWP), which is stored in a program memory of a microprocessor system (MPS), with at least one program on the processor bus (MPB) of the microprocessor (MP), a system interface (SYS ) Realizing system interface module (SSM) and at least one user module (MCC) is connected, characterized in that

• 1. that the program memory is divided into an electrically erasable and programmable memory (FLASH) and in a volatile, static random access memory (SRAM), with an initialization routine (BOOT) and that in the electrically erasable and programmable memory (FLASH) at least one user program (AWP), in which a reload routine (NLR) is integrated, is stored,
• 2. that when the microprocessor system (MPS) is initialized using the initialization routine (BOOT), the at least one user program (AWP) stored in the erasable and programmable memory (FLASH), including the reloading routine (NLR) in the volatile, static write Read memory (SRAM) is copied,
• 3. that by activating the reload routine (NLR) via the system interface (SYS), at least one further user program (AWPX ') is loaded into the volatile, static random access memory (SRAM),
• 4. that the at least one cached user program (AWPX ') is then programmed into the electrically erasable and programmable read / write memory (FLASH) with the aid of the reload routine (NLR).

2. The method according to claim 1, characterized, that the reload routine (NLRB) is also in the initialization rout tine (BOOT) is involved, and that during an initialization the microprocessor system (MPS) in the absence a user program (AWP) in the electrically delete and program Programmable memory (FLASH) with the reload routine (NLRB) at least one user program (AWP, AWPX ') via the System interface (SYS) in the volatile, static Read-write memory (SRAM) loaded and in the electrical erasable and programmable memory (FLASH) is programmed. 3. The method according to claim 1 or 2, characterized, that the reloading routine (NLR, NLRB) via the system interface le (SYS) through request and response messages (afm, atm) is controlled, with a message (afm, atm) by a Mel head (MK), an information field (IF) and a fuse field (SF) is formed. 4. The method according to any one of claims 1 to 3, characterized, that with the help of the reloading routine (NLR, NLRB) the saving in the volatile, static random access memory (SRAM) cached further user program (AWPX ') with A cyclical block protection procedure is checked. 5. The method according to any one of claims 1 to 4, characterized, that when the at least one is deleted and programmable read-write memory (FLASH) User program (AWPX) before programming an update further user program (AWPX ') in delete and programmable read-write memory (FLASH) the user pro gram (AWPX) is deleted.   6. The method according to any one of claims 1 to 5, characterized, that with the help of the reloading routine (NLR, NLRB) Programming the other user programs (AWPX ') in the erasable and programmable read-write memory (FLASH) a cyclical block protection procedure is checked. 7. The method according to any one of claims 1 to 6, characterized, that after initialization of the microprocessor system (MPS) with the help of the reload routine (NLRB) of the initialization routine ne (BOOT) that in the erasable and programmable read / write memory (FLASH) programmed further user program (AWPX ') in the volatile, static random access memory (SRAM) copied and the microprocessor system (MPS) such is reinitialized that the in a memory area by the data stored in the respective user program (AWPX) updated user program (AWPX) and in additional user program (AWPX ') can be set. 8. The method according to any one of claims 1 to 7, characterized, that the initialization of the microprocessor system (MPS) by a further request message (afm) or automatically according to ei A fault in the microprocessor system (MPS) is initiated. 9. The method according to any one of claims 1 to 8, characterized, that in the volatile, static random access memory (SRAM) Reload memory area (NLSP) is provided.