200823756 •九、發明說明: :【發明所屬之技術領域】 本發明係有關於一種電腦資訊技術,特別是有關於一 : 種電腦平台内嵌產品資料一致化更新處理方法及系統,其 — 可應用於整合至一電腦平台,特別是一種具有基板管理單 元(Baseboard Management Controller,BMC)的網路祠 服器,用以對該網路伺服器提供一内嵌產品資料一致化更 新處理功能。 【先前技術】 BMC (Baseboard Management Controller)基板管控 單元為網路伺服器常採用的一種特定功能微控制器,其通 常係連同網路伺服器的中央處理單元和BIOS (Basic Input/Output System)模組一起整合至網路祠服器的主 機電路板上,用以對網路伺服器提供一組基板(即主機電 路板)管控功能,例如包括電力管控功能、散熱風扇管控 功能、作業系統狀態管控功能、等等。基本上,BMC (Baseboard Management Controller)基板管控單元的主 要目地在於確保網路伺服器可正常運作。 於網路伺服器的製造及銷售上,製造廠商及行銷商通 常有需要將網路饲服器的相關產品貢料(例如包括產品名 稱、產品序號、產品規格、製造廠商資料、等等),預先 燒錄至主機電路板上,用以讓客戶或相關人員可讀取此些 產品資料來了解網路伺服器的規格。於具體實施上,此產 品資料可同時燒錄至BIOS晶片中的SMBIOS (System 5 19821 200823756200823756 • Nine, invention description: : [Technical field to which the invention belongs] The present invention relates to a computer information technology, and in particular to a method and method for consistently updating and updating product information embedded in a computer platform, which can be applied Integrated into a computer platform, in particular, a network server with a Baseboard Management Controller (BMC) for providing an embedded product data consistency update processing function for the network server. [Prior Art] The Baseboard Management Controller (BMC) is a specific function microcontroller commonly used by network servers. It is usually combined with the central processing unit and BIOS (Basic Input/Output System) module of the network server. The group is integrated into the host circuit board of the network server to provide a set of substrate (ie, host circuit board) management functions for the network server, including, for example, power management functions, cooling fan management functions, and operating system status control. Features, and more. Basically, the main purpose of the BMC (Baseboard Management Controller) substrate management unit is to ensure that the network server is functioning properly. In the manufacture and sale of web servers, manufacturers and distributors often need to stipulate related products (such as product name, product serial number, product specifications, manufacturer's information, etc.) for the network feeder. Pre-burned to the host circuit board, so that customers or related personnel can read these product data to understand the specifications of the network server. In terms of implementation, this product data can be simultaneously burned to the SMBIOS in the BIOS chip (System 5 19821 200823756
Management BI0S)系統管理資料儲存區和mc晶片中的 FRU (Field Replaceable Unit)系統組件資料儲存區。 於實際應用上,上述之網路伺服器產品資料可由製造 廠商及各個階段的行銷商視需要而進行設定及更新工 作。基本上’若製造廠商或行銷商有需要變更網路飼服器 之產品資料的内容,則其須同時變更SMBI〇s所儲存之產 品資料和BMC-FRU所儲存之產品資料。然而目前f有一些 製造廠商或行銷商於進行產品資料變更時,常僅變更其中 之-個單元所儲存之產品資料,而未同時變更另—個單元 所儲存之產品資料;例如僅更新SMBI〇s所儲存之產品資 料’但未更新BMC-FRU所儲存之產品資料。此情況將使得 通1 〇S和脈-削二者儲存了不同版本的產品資料。若 於網路伺㈣發生故障狀況而需要進行維護工作時,上述 之情況便有可能因維護工程師讀取到舊版的產品資料而 進行錯誤的維護工作。 【發明内容】 曰鑒於以上所述先前技術之缺點,本發明之主要目的便 疋在於提供一種電腦平台内嵌產品資料一致化更新處 理,其可對SMBIOS* BMC-FRU所分別儲存之產品資料於 開枝後進行一致化更新功能,藉此而令二者均可持有完全 相同之新版之產品資料。 、本發明之電腦平台内嵌產品資料一致化更新處理方 去及系統係設計來應用於整合至一電腦平台,特別是一種 具有基板官理單元(Baseb〇ard Management c〇n打〇11打, 19821 6 200823756 BMC)的網路伺服器,用以對該網路伺服器提供一内嵌產品 資料一致化更新處理功能。 本發明之電腦平台開機管控單元程式碼備援處理方 法至少包含以下之處理動作:(Μ1)於該第一型管控單元 發生-人為操控之第—產品資料燒錄事件時,回應地將該 第一產品資料燒錄事件《發生時間記錄成一第一產品資 料燒錄時間記錄值;(Μ2)於該第二型管控單元發生一人為 操控之第二產品資料燒錄事件時,回應地將該第二產品資 料燒錄事件之發生時間記錄成—第二產品資料燒錄時間、 =;⑽於該電腦平台發生一開機事件時,回應地 :取出巧記錄之該第—產品#料燒錄時間記錄值和該 料燒錄時間記錄值和言第二(二:較該第-產品資 ^ 邊弟一產貪料燒錄時間記錄值是 否相#;若否,則發出一對應之更新致 回應該更新致能訊息而執行__ 。心,及(M5) 序,其中係將該第-^管^單^^產^料更新程 S才工早兀和该弟二型管才允單 一 產品資料的燒錄時間為較早者所;放之: 亚以燒錄時間為較後者所儲放之產品資料來 於模組化的架構上,本發明之命 -致化更新處理系統至少包含η'内^品資料 模組,其可於該第_型 弟—燒錄時間記錄 品資料燒錄事件時,生—人為操控之第一產 發生時間記錄成-第—;口 —產品f料燒錄事件之 產口口貝料燒錄時間記錄值;(β)_ 19821 7 200823756 時間記錄值;(c) 一燒錄 成產品貧料燒錄 '台發生一開機事件時,^曰:取拉组’其可於該電腦平 記錄之第-產品資二=一燒錄時間記錄模組所 貝丁十乂凡錄日守間記錄值和 =!組所記錄之第二產品資 ;; 燒錄時間比較模組,其可 κ己錄值,⑻- 記錄之第一產σ I # 乂 、錄時間記錄模組所 二 乐 口貝科燒錄時間記錄值和該第-植拉士 圮錄模組所記錄之第二產品 一、錄捋間 同;若否,則f+_ 、%知間記錄值是否相 幻&出一對應之更新致能訊東; 斤,組,其可回應該燒錄時間比較模、 二更 讯息而將該第-型管控單元和該第二出的更^月巨 :所儲放之產品資料的燒錄時間為較早者::二二者之 時間為較後者來進行更新。 茱亚以燒錄 本發明之電腦平台内嵌產品資料—致化 法及系統的特點在於將SMBIGS1統管 ^方 BMC-FRU系統組件資料儲存區所分別儲放之::存二和 己錄下來;再於每次開機時,比對二者之燒錄3± 曰疋否相同’若否,則將二者之中燒錄時間為較:: Ϊ::品資料丢棄’並以燒錄時間為較後者所儲放之產1 ::進行更新,使得二者均可儲放完全相同之新版之: 【實施方式】 19821 8 200823756 以下即配合所附之圖式’詳細說明本發明之電腦平台 •内嵌產品資料一致化更新處理方法及系統之實施例。 第1圖即顯示本發明之電腦平台内嵌產品資料一致 :化更新處理系統(如標號所指之方塊)的應用方式。如 圖所不,於實際應用上,本發明之電腦平台内嵌產品資料 一致化更新處理系統100係整合至一電腦平台丨〇,例如 為網路伺服器或桌上型電腦,且該電腦平台丨0的主機電 路板20上配置有一中央處理單元(cpu) 3〇、一開機管控 單το 40、和一基板管控單元5〇 ;其中該開機管控單元4〇 =如為一 BIOS (Basic lnput/0utput System)型之開機 管控單元,其程式碼係例如燒錄於一快閃記憶體模組 (flash memory)之中,且其儲存空間進而包括一延伸之 SMBIOS (System Management BIOS)系統管理資料儲存區Management BI0S) The system management data storage area and the FRU (Field Replaceable Unit) system component data storage area in the mc chip. In practical applications, the above-mentioned network server product data can be set and updated by the manufacturer and the marketing vendors at various stages as needed. Basically, if a manufacturer or a distributor needs to change the contents of the product information of the Internet Feeder, it must also change the product data stored by SMBI〇s and the product data stored by BMC-FRU. However, at present, some manufacturers or marketers often change only the product data stored in one of the units when changing the product data, and do not change the product data stored in another unit at the same time; for example, only update SMBI〇 s stored product information 'but did not update the product information stored by BMC-FRU. This situation will allow both the 1S and the pulse-cut to store different versions of the product data. If maintenance is required in the event of a fault in the network (4), the above situation may result in incorrect maintenance work due to the maintenance engineer reading the old product information. SUMMARY OF THE INVENTION In view of the above-mentioned shortcomings of the prior art, the main purpose of the present invention is to provide a computer platform embedded product data unification update process, which can separately store the product data of the SMBIOS* BMC-FRU. After the branch is opened, the update function is updated, so that both can hold the same new version of the product information. The computer platform of the present invention embeds product data consistency update processing and system design to be integrated into a computer platform, in particular, a substrate management unit (Baseb〇ard Management c〇n dozens of dozens, 19821 6 200823756 BMC) network server for providing an embedded product data consistency update processing function for the network server. The code platform backup processing method of the computer platform booting control unit of the present invention includes at least the following processing actions: (Μ1) when the first type of control unit generates a human-controlled first-product data burning event, responding to the first A product data burning event "recording time is recorded as a first product data burning time record value; (Μ2) when the second type of control unit generates a human-controlled second product data burning event, responding to the first The time of occurrence of the second product data burning event is recorded as - the second product data burning time, =; (10) when a boot event occurs on the computer platform, the response location: the first recording of the first product-product burning time record The value and the burning time record value of the material and the second (2: compared to the first - product resources ^ bian brothers produced a greedy material burning time record value whether it is #; if not, then send a corresponding update to return should Update the enable message and execute __. Heart, and (M5) order, which is the order of the ^^^^^^^^^^^^^^^^^^^^^^^^^^ Burning time is earlier; put : The sub-programming time is the product structure stored in the latter, and the life-and-update processing system of the present invention includes at least the η' internal data module, which can be used in the _---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- ;(β)_ 19821 7 200823756 Time record value; (c) A burnt product is recorded as a poor product. When the start-up event occurs, ^曰: Take the pull group, which can be recorded on the computer--the product Zi 2 = one burning time recording module, Beiding Shiyan, who recorded the day-keeping record value and the second product recorded by the group!; burning time comparison module, which can record value, (8) - Record the first production σ I # 乂, record the time recording module, the second Lekou Bayco burning time record value and the second product recorded by the first-Silhu recording module If not, then f+_, % know whether the value of the record is illusory & a corresponding update to enable Xundong; Jin, group, which can respond The burning time compares the mode, the second message, and the first-type control unit and the second-out one is more: the burning time of the stored product data is earlier: the time of the two is The latter is updated. The sub-incorporated product data of the computer platform of the present invention is characterized by the fact that the SMBIGS1 system and the BMC-FRU system component data storage area are separately stored: The second and the second have been recorded; and each time the machine is turned on, the comparison between the two is 3± 曰疋 No. If no, the burning time between the two is compared with:: Ϊ:: Product data discarding' And the burning time is the same as that of the latter stored in the first one: so that both can store the same new version: [Embodiment] 19821 8 200823756 The following is the accompanying drawing 'detailed description An embodiment of a computer platform and an embedded product data consistency update processing method and system of the present invention. Figure 1 shows the application of the in-line product data of the computer platform of the present invention: the application mode of the update processing system (such as the block indicated by the label). As shown in the figure, in the practical application, the embedded product data consistency update processing system 100 of the computer platform of the present invention is integrated into a computer platform, such as a network server or a desktop computer, and the computer platform The host circuit board 20 of the 丨0 is provided with a central processing unit (cpu) 3〇, a boot control unit το 40, and a substrate management unit 5〇; wherein the boot control unit 4〇= is a BIOS (Basic lnput/ The booting control unit of the 0utput System type is programmed into a flash memory module, and the storage space thereof further includes an extended SMBIOS (System Management BIOS) system management data storage. Area
41 ;而該基板管控單元50則例如為一 (Baseb〇ard Management Controller)型之基板管控單元,且其通常係 具體员加成一控制晶片,並進而利用一 EEPRQM (Electrically Erasable and Programmable Read-Only Memory)電抹除式可程式化唯讀記憶體來作為一系統組 件資料儲存區51,用以儲存各型之可替換式之系統組件 (Field Replaceable Unit,FRU)的相關規格資料。此外, BMC基板管控單元50和中央處理單元(cpu) 3〇之間係例 如透過 KCS (Keyboard Controller Style)型之匯流排介 面來進行資料交流。 於貫際應用上,上述之BIOS開機管控單元4〇中的 9 19821 200823756 SMB 10S系統管理眘粗紗w 中的_統組件資==職基板管控單元5〇 品資料。廠商或心=51可分別用來儲存-組產 Π飞、、工銷商即可透過BI〇s開 系統組件資料儲在F ςι 士义居仔、、且產口口貝枓至FRU 击+儲存& 51。本發明之電腦平台内嵌產品 =一致化更新處理系統⑽即可對此二者所 之 產品㈣於開機後進行—致化更新功能,藉此而令者均 可持有:全相同之新版之產品資料。 〜者均 ^第2圖所示,於模組化的架構上,本發明之電腦平 二=肷產品貧料一致化更新處理系統100至少包含:(A) 模植i2G ."aYt錄拉組UG,⑻—第二燒錄時間記錄 ,)—&錄時間讀取模組210 ; (D)—燒錄時間 比—組220;以及(E)—更新模組⑽。以下 月匕° Γ此些構件11G、12G、2w的個別屬性及功 _ 第一燒錄時間記錄模組Ϊ1 〇可於該BIOS開機管控單 元40發生一人為操控之SMBI〇s導向之產品資料燒錄事件 〇 1來將一組產品資料PR0DUCT—DATA_VER(丨)燒錄至該 B士I0S開機管控單元4〇白勺順〇s系統管理資料儲存區心 時,/應,記錄下該S M B丨〇 S導向之產品資料燒錄事件3 〇 1 的燒錄時間(亦即該組產品資料PRODUCT—DATA—VER(1)的 燒錄時間,以下亦稱為第一產品資料燒錄時間記錄 19821 10 200823756 • 第二燒錄時間記錄模組120可於該BMC基板管控單元 :50發生一人為操控之BMC-FRU導向之產品資料燒錄事件 Z 302來將一組產品資料PR0DUCT_DATAJER(2)燒錄至該 :BMC基板管控單元50的FRU系統組件資料儲存區51時, 回應地記錄下該BMC-FRU導向之產品資料燒錄事件302 的燒錄時間(亦即該組產品資料PR〇DUCT_DATA_ VER(2)的 燒錄時間,以下亦稱為第二產品資料燒錄時間記錄 值)。 燒錄時間讀取模組210可於該電腦平台1〇發生一開 機事件303時(亦即使用者開啟該電腦平台1 〇的電源來進 行一開機程序時),回應地讀取出儲放於該BIOS開機管控 單元40之SMBI0S系統管理資料儲存區41中的燒錄時間 八心㈣和儲放於該BMC基板管控單元50之FRU系統組件 負料儲存區51中的燒錄時間7"屬〇 燒錄時間比較模組220可比較上述之燒錄時間讀取 相:組210所項取出之二組燒錄時間(『腳·,是否相 同;若八咖⑽為較早,則發出一 SMB 10S導向之更新致能 訊息至該更新模組230 ;反之若為較早,則發出一 BMC-FRU導向之更新致能訊息至更新模組230。 更新模組230可於上述之燒錄時間比較模組220發出 SMB 10S導向之更新致能訊息的情況下,回應地執行一 SMBI0S導向之產品資料更新程序,並於燒錄時間比較模 組220發出BMC-FRU導向之更新致能訊息的情況下,回應 地執行一 BMC-FRU導向之產品資料更新程序;其中係將該 11 19821 200823756 • BIOS開機管控單元40的SMBI0S系統管理資料儲存區41 : 和該BMC基板管控單元50的FRU系統組件資料儲存區51 “ 二者之中所儲放之產品資料的燒錄時間為較早者之中所 Γ 儲放之產品資料丟棄,並以燒錄時間為較後者之中所儲放 之產品資料來進行更新。舉例來說’若了㈣/“早於, 則即將該BIOS開機管控單元40之SMBI0S系統管理資料 儲存區41中所燒錄之的產品資料PR0DUCT_DATA_VER(1) 丟棄,再將該BMC基板管控單元50之FRU系統組件資料 儲存區51中所燒錄之產品資料PRODUCT_DATA_VER(2)複 製一份來儲存至該該BIOS開機管控單元40之SMBI0S系 統管理資料儲存區41。此外,此更新模組230亦可進而 比對二個版本之產品資料PR0DUCT_DATA_VER(1)和 PR0DUCT_DATA_VER(2)的總和檢查碼(checksum),藉以確 認此產品資料的完整性。 以下即配合第3圖以一應用實例來說明本發明之電 腦平台内嵌產品資料一致化更新處理系統1 〇〇於實際應 用時的整體操作方式。 於此應用實例中,假設製造廠商於工廠製造時將一組 產品資料PR0DUCT_DATA_VER(1)燒錄至BIOS開機管控單 元40中的SMBI0S系統管理資料儲存區41 (亦即發生一人 為操控之SMBI0S導向之產品資料燒錄事件301)。此動作 將致使產品資料PR〇DUCT_DATAJER(l)被寫入至SMBI0S 系統管理資料儲存區41 (如第3圖之P10所示之處理動 作);接著致使第一燒錄時間記錄模組110記錄下該組產 12 19821 200823756 '品資料PR0DUCT_DATA _VER(1)的燒錄時間TW/m (如第3 : 圖之PI 1所示之處理動作);並將此燒錄時間Γ⑽/Μ連同 產品資料PRODUCTJ)ATAJER(l)—起寫入至BIOS開機管 : 控單元40中的SMBI0S系統管理資料儲存區41 (如第3圖 之P12所示之處理動作)。此後,若再有任何人員將新版 之產品資料更新至SMBI0S系統管理資料儲存區41,則前 述之處理動作P10、P11、和P12將再執行一次而更新原 先記錄之燒錄時間。 接著假設有一經銷商於行銷該電腦平台1〇時’將一 組新的產品資料PR0DUCT_DATA_VER(2)燒錄至BMC基板管 控單元50中的FRU系統組件資料儲存區51 (亦即發生一 人為操控之BMC-FRU導向之產品資料燒錄事件302),且 此產品資料PR0DUCT_DATA_VER(2)的内容不同於製造廠 商燒錄至BIOS開機管控單元40之SMBI0S系統管理資料 儲存區41中的產品資料PR0DUCT_DATA_VER(1)。此動作 將致使產品資料PR〇DUCT_DATA_VER(2)被寫入至FRU系統 組件資料儲存區51 (如第3圖之P20所示之處理動作); 接著致使第二燒錄時間記錄模組120記錄下該組產品資 料PR0DUCT_DATA_VER(2)的燒錄時間(如第3圖之 P21所示之處理動作);並將Tmc-層連同產品資料 PR0DUCTJATA_VER(2)—起寫入至FRU系統組件資料儲存 區51 (如第3圖之P22所示之處理動作)。此後,若再有 任何人員將新版之產品資料更新至FRU系統組件資料儲 存區51,則前述之處理動作P20、P21、和P22將再執行 13 19821 200823756 :一次:更新原先記錄之燒錄時間r— - 母當電腦平台1 β Η 4办+ / 〇n〇)tSll^p 開祛蚪(亦即發生一開機事件 …、P可致使燒錄日寺間讀取模組210回; 『放於5_系統管理取出 7W—(如第3圖之ρ3〇 51中的燒錄時間 管理資料錯存區41和FjRU:处理動作),令SMBi0S系統 FRU糸統組件資料儲在 出其所儲存之燒錄時間7 、省存g 51刀別輸 和⑽所示之處理動作丫:::~)(如第3圖之⑶ 比較該燒錄時間讀取模組 川比車乂拉組220 (Τ τ 、 斤"貝取出之二組燒錄時間 作;—是否相同(如第3圖之Ρ33所示之處理動 若⑽等於『就-清,則結束程序。反之, 為較早,則燒錄時間比較模έ SUI〇s 夕苗紅A J匕杈杈組22〇即發出一 SMBI0S導向 之更新致旎訊息至該更新模組 行第3圖之Ρ4。所示之處令該更新模組23。執 向之產品嫩^ 即職導 二科储存區51中的產品資料(如第3圖之P41所示之處理 作)’接者將複製之產品資料更新至s_s系統管理資 =儲存區41(如第3圖之P42所示之處理動作),藉此而 々削系統組件資料儲存區51亦可持有新版之產品資 ^此外,此更新模組230亦可進而比對產品資料的總和 檢查碼(checksum) ’藉以石线'此產品資料的完整性。 但若k,為較早,則燒錄日夺間比較模组2 2 〇即發出 19821 200823756 一 BMC-FRU導向之更新致能訊息至更新模組23〇,令該更 新杈組230執行第3圖之P50所示之處理動作,亦即啟動 一 BMC-FRU導向之產品資料更新程序;其中係首先 SMBI0S系統管理資料儲存區41中的產品資料(如第3&圖 之PS/所示之處理動作)’接著將複製之產品資料更新至 FRU系統組件資料儲存區51 (如第3圖之p52所示之處理 動作)’藉此而令SMBI0S系統管理資料儲存區41亦可持 有新版之產品資料。 而5之,本發明提供了 一種電腦平台内嵌產 I _口 門甘欠 賞,Γ| 2化更新處理方法及系統’其可對—網路伺服器提供 肷產品資料—致化更新處理功能;其特點在於將 _s “管理資料儲存區和齡F :子區所分別儲放之產品資料的燒錄時間記牛;貝二 者 =釺比對二者之燒錄時間是否㈣ 為較早者所儲放之產品資料丢棄,並以燒 均可儲放rif所儲放之產品資料來進行更新,使得二者 儲放凡全相同之新版之產品資料。 定本發明之較佳實施例而已,並非用以限 係廣義二:;支ΓΓ範圍。本發明之實質技術内容 成之技術實體或^ 睛專利範圍中。若任何他人所完 完全相同H與下述之申請專利範圍所定義者為 發明之申請專=園;等中效之變更’均將被視為涵蓋於本 【圖式簡單說明】 19821 15 200823756 固為一應用不意圖,用以顯示本 内嵌產品資料一致化爭鉍走▲ 乃之包月自千台 ^ ± ^ 4 ,、免理糸統鲨合至一網路伺服器 之主枝電路板的應用方式; 山第2圖為一架構示意圖,用以顯示本發明之電腦平△ 内肷產品資料一致务承老 / ° …、、 化更新處理系統的模組化基本架構; …弟3圖為一處理動作示意圖(activity diagram),用 以錄頁不本發明之電腦平台内嵌產品資料一致化更新處理 糸統於實際應用時所執行的各個處理動作。 【主要元件符號說明】 10 電腦平台 20 主機電路板 30 中央處理單元(CPU) 40 開機管控單元(BIOS) 41 系統管理資料儲存區(SMBI0S) 50 基板管控單元(BMC) 51 系統組件資料儲存區(FRU) 100 本發明之電腦平台内嵌產品資料一致化更新處理系統 110 第一燒錄時間記錄模組 120 第二燒錄時間記錄模組 210 燒錄時間讀取模組 220 燒錄時間比較模組 230 更新模組 301 人為操控之SMBI0S導向之產品資料燒錄事件 302 人為操控之BMC-FRU導向之產品資料燒錄事件 16 19821The substrate management unit 50 is, for example, a substrate management unit of a Baseb〇ard Management Controller type, and is usually added to a control chip by a specific member, and further utilizes an EEPRQM (Electrically Erasable and Programmable Read-Only Memory). The electrically erasable programmable read-only memory is used as a system component data storage area 51 for storing relevant specifications of various types of replaceable system components (FRUs). In addition, between the BMC substrate control unit 50 and the central processing unit (Cpu) 3, for example, a KCS (Keyboard Controller Style) type bus interface is used for data exchange. In the continuous application, the above-mentioned BIOS boot control unit 4 19 9 19821 200823756 SMB 10S system manages the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Manufacturers or hearts = 51 can be used to store - group production, flying, and sales agents can open system components through BI〇s storage in F ςι 士士居居, and the mouth of the mouth to FRU + Save & 51. The embedded product of the computer platform of the present invention = the uniform update processing system (10) can be used for the products (4) of the two products to be updated after the booting, so that the holder can hold: the same new version Product information. As shown in Fig. 2, in the modular architecture, the computer flat product of the present invention has at least: (A) model i2G. "aYt recorded Group UG, (8) - second burn time record, ) - & recording time reading module 210; (D) - burn time ratio - group 220; and (E) - update module (10). The following months 匕 个别 个别 些 Γ 构件 构件 11 11 11 11 11 11 11 11 11 11 11 11 11 11 第一 第一 第一 第一 第一 第一 第一 第一 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 BIOS BIOS BIOS BIOS BIOS BIOS BIOS BIOS BIOS BIOS BIOS Record event 〇1 to burn a group of product data PR0DUCT_DATA_VER(丨) to the B I I0S boot control unit 4 〇 〇 〇 system management data storage area, / should, record the SMB丨〇 S-oriented product data burning event 3 〇1 burning time (that is, the burning time of the product data PRODUCT-DATA-VER(1), the following is also called the first product data burning time record 19821 10 200823756 • The second programming time recording module 120 can burn a set of product data PR0DUCT_DATAJER(2) to the BMC-FRU-oriented product data burning event Z 302 at the BMC substrate management unit: 50. When the FRU system component data storage area 51 of the BMC substrate management unit 50 is responsive, the burning time of the BMC-FRU-oriented product data burning event 302 is recorded (that is, the product data of the group PR〇DUCT_DATA_ VER(2) Burning time, below For the second product data burning time recording value), the burning time reading module 210 can start a booting event 303 on the computer platform 1 (that is, the user turns on the power of the computer platform 1 to perform a booting) When the program is responsive, the burning time (four) stored in the SMBI0S system management data storage area 41 of the BIOS boot control unit 40 and the FRU system component stored in the BMC substrate management unit 50 are responsively read. The burning time 7" in the storage area 51 compares the burning time reading module 220 to compare the burning time reading phase: the two groups of burning time taken out by the group 210 ("foot·, is the same; if If the eighth coffee (10) is earlier, an SMB 10S-oriented update enable message is sent to the update module 230; if it is earlier, a BMC-FRU-oriented update enable message is sent to the update module 230. The module 230 can responsively execute an SMBI0S-oriented product data update program in the case where the burn-in time comparison module 220 issues an SMB 10S-oriented update enable message, and issue a BMC in the burn time comparison module 220. -FRU oriented In the case of a new enable message, a BMC-FRU-oriented product data update procedure is responsively executed; wherein the 11 19821 200823756 • BIOS boot control unit 40 of the SMBI0S system management data storage area 41: and the BMC baseboard control unit 50 FRU system component data storage area 51 “The burning time of the product data stored in the two is discarded by the product data stored in the earlier one, and the burning time is the latter. Store product information for update. For example, if (four)/"before", the product data PR0DUCT_DATA_VER(1) burned in the SMBI0S system management data storage area 41 of the BIOS boot control unit 40 is discarded, and then the BMC substrate control unit 50 is discarded. The product data PRODUCT_DATA_VER (2) burned in the FRU system component data storage area 51 is copied and stored in the SMBI0S system management data storage area 41 of the BIOS boot control unit 40. In addition, the update module 230 can also be used. Further, the sum check code (checksum) of the product data PR0DUCT_DATA_VER(1) and PR0DUCT_DATA_VER(2) of the two versions is compared to confirm the integrity of the product data. The following is an example of the application of FIG. In the application example, it is assumed that the manufacturer burns a set of product data PR0DUCT_DATA_VER(1) to the BIOS when the factory manufactures. The SMBI0S system management data storage area 41 in the control unit 40 (that is, an artificially controlled SMBI0S-oriented product data burning event 301 occurs) This action will cause the product data PR〇DUCT_DATAJER(1) to be written to the SMBI0S system management data storage area 41 (as shown in P10 of FIG. 3); then cause the first programming time recording module 110 to record This group produces 12 19821 200823756 'product data PR0DUCT_DATA _VER (1) burning time TW / m (as shown in Figure 3: Figure PI 1); and this burning time Γ (10) / Μ together with product information PRODUCTJ ATAJER (l) - write to the BIOS boot: the SMBI0S system management data storage area 41 in the control unit 40 (as shown in P12 of Figure 3). Thereafter, if any other person will be new When the product information is updated to the SMBI0S system management data storage area 41, the aforementioned processing actions P10, P11, and P12 will be executed again to update the original recorded burning time. Next, suppose a dealer sells the computer platform 1〇' Burning a new set of product data PR0DUCT_DATA_VER(2) to the FRU system component data storage area 51 in the BMC substrate management unit 50 (ie, a manually manipulated BMC-FRU oriented product data burning event 302), and This product SUMMARY material PR0DUCT_DATA_VER (2) is different from the manufacturer to the product supplier data programming PR0DUCT_DATA_VER (1) of the control unit 41 BIOS boot SMBI0S management system 40 of the data store. This action will cause the product data PR〇DUCT_DATA_VER(2) to be written to the FRU system component data storage area 51 (as shown in P20 of FIG. 3); then cause the second programming time recording module 120 to record The programming time of the set of product data PR0DUCT_DATA_VER(2) (as shown in P21 of FIG. 3); and writing the Tmc-layer together with the product data PR0DUCTJATA_VER(2) to the FRU system component data storage area 51 (As shown in P22 in Figure 3, the processing action). Thereafter, if any person updates the new version of the product information to the FRU system component data storage area 51, the aforementioned processing actions P20, P21, and P22 will be executed again 13 19821 200823756: once: update the original recorded burning time r — - Mother computer platform 1 β Η 4 do + / 〇 n〇) tSll^p Open (that is, a boot event occurs..., P can cause the reading of the temple to read the module 210 back; 5_System Management takes out 7W—(such as the burn time management data error area 41 and FjRU in the ρ3〇51 in Figure 3: processing action), so that the SMBi0S system FRU system component data is stored in the stored burned Recording time 7, saving g 51 knife and losing (10) processing action 丫:::~) (as shown in Figure 3 (3) comparing the burning time reading module Chuanbi 乂 组 group 220 (Τ τ , 斤"Bei took out the two groups of burning time; - Is it the same (as shown in Figure 3, Figure 33, if the processing (10) is equal to "Yes-Clear, then the program ends. Otherwise, it is earlier, then burns The time comparison model SUI〇s 夕苗红 AJ匕杈杈 group 22〇 issued an SMBI0S oriented update message to the update mode Figure 3, Figure 4, shows the update module 23. The product information in the product storage area 51 (as shown in P41 in Figure 3) The receiver updates the copied product information to the s_s system management resource=storage area 41 (as shown in P42 of FIG. 3), whereby the boring system component data storage area 51 can also hold a new version of the product. In addition, the update module 230 can further compare the sum of the product data to the checksum 'by the stone line' for the integrity of the product data. However, if k is earlier, the programming time is compared. The group 2 2 sends a BMSC-FRU-oriented update enable message to the update module 23〇, so that the update group 230 performs the processing shown in P50 of FIG. 3, that is, starts a BMC-FRU. Guided product data update program; firstly, the product data in the SMBI0S system management data storage area 41 (such as the processing action shown in PS/3 of the figure), and then the copied product data is updated to the FRU system component data storage. Area 51 (as shown in p52 of Figure 3) 'This allows the SMBI0S system management data storage area 41 to hold a new version of the product information. And 5, the present invention provides a computer platform embedded in the I _ mouth owe reward, Γ | 2 update processing method And the system 'which can provide the network server with the product information - the update processing function; it is characterized by the burning time of the product data stored in the _s "management data storage area and the age F: sub-area respectively" Remember the cow; Bayer = 釺 compare the burning time of the two (4) to discard the product data stored in the earlier, and update the product information stored in the rif storage, so that Both store the same new product information. The preferred embodiment of the invention is not intended to limit the scope of the invention; The technical content of the present invention is in the scope of the technical entity or the patent. If any other person is identical H and the following patent application scope defines the application for the invention = the change of the intermediate effect will be considered as covered in this [simplified description] 19821 15 200823756 For the purpose of an application, it is used to display the in-line product data consistency and arbitrage. ▲ is the monthly package from thousands of units ^ ± ^ 4, the unreasonable shark shark to the main server board of a network server Application mode; Mountain 2 is a schematic diagram of the architecture, which is used to display the modular basic structure of the computer flat △ internal product information of the present invention, and the update processing system; An activity diagram is used to record the processing actions performed by the computer platform embedded in the computer platform without the invention in the actual application. [Main component symbol description] 10 Computer platform 20 Host circuit board 30 Central processing unit (CPU) 40 Boot control unit (BIOS) 41 System management data storage area (SMBI0S) 50 Baseboard control unit (BMC) 51 System component data storage area ( FRU) 100 computer platform embedding product data consistency update processing system 110 of the invention, first burning time recording module 120, second burning time recording module 210, burning time reading module 220, burning time comparison module 230 Update Module 301 Manually Controlled SMBI0S Guided Product Data Burning Event 302 Human Controlled BMC-FRU Guided Product Data Burning Event 16 19821