本論文探討HTTPS標準通訊協定,在不影響客戶端或企業的網路環境下,建立可穿越防火牆的連線通道。本論文所用之HTTPS通訊協定標準,設計客戶端與伺服器端本論文探討HTTPS標準通訊協定,在不影響客戶端或企業的網路環境下,建立可穿越防火牆的連線通道。本論文所用之HTTPS通訊協定標準,設計客戶端與伺服器端之系統,建立一個互信的通道,之後依照伺服器端所選的加密模式將資料加密,並傳送給對方。若HTTPS網路封包被攔截下來,資料也不易竊取。對於現今網路廣泛的時代,使用HTTPS通訊協定是安全的。 現今SIP為VoIP技術的重要協定機制,其影音通話的技術廣泛運用於網路環境,但網路環境的複雜性並非初始設計的協定機制所能料及的,如NAT的應用與防火牆的設置,都可能導致SIP無法順利運作。 本論文乃針對HTTPS標準通訊協定,實作伺服器端多線化,客戶端仿造SIP簡單的訊令,測量最大量影音封包,從呼叫者傳送到被呼叫者的一方,且能成功穿越防火牆或NAT,建立一個有效網路通道,並測試其伺服器端的接收大量語音訊號及性能。
In this thesis, the standard HTTPS protocol, without affecting the client or enterprise network environment. In this thesis, which used the standard HTTPS protocol, design client and server system which establishment of a trust channel. And then, according to server used the encrypted mode, which encrypted data, and send to other side. When HTTPS network packet are intercepted, the data is not easy to tamper. For today the widespread network era, using the HTTPS protocol is secure. Today SIP protocol for VoIP technology is important protocol, the media converse technology is extensive use of network environment, however, the complexity of the network environment is not a protocol mechanism for the initial design of materials that can be. Applications such as NAT and firewall settings, may lead SIP can’t operate smoothly. This thesis is a standard protocol for HTTPS, the server implementation of multi-line, and simple imitation SIP client instructions, measuring the maximum amount of aud media packets, the caller send to callee, and successfully pass through a firewall or NAT, and test its server-side receives large amounts of voice signals and performance.