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这篇文章主要讲解了“怎么配置nginx的反向代理”,文中的讲解内容简单清晰,易于学习与理解,下面请大家跟着小编的思路慢慢深入,一起来研究和学习“怎么配置nginx的反向代理”吧!
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tomcat使用了nginx反向代理,获取的服务器路径变成了nginx中配置的内网地址,如果在同一台服务器上,就变成了127.0.0.1或是localhost,而我们需要的是外网地址,这时候我们需要启用转发的请求头配置
如何启用?下面通过查看源码找一下如何解决
很多人都会强调看源码,如果在没有目的的情况下直接看源码比较枯燥,很难坚持(大神略过),不会有太大的收获。如果我们遇到问题,很多时候都是网上一百度,配置项或是代码复制粘贴,然后测试一下没有问题就过了,但是如果网上的信息很少,或者几乎找不到解决办法,这时候,我们查看一下源码,找到对应实现,有时候直接就能发现问题在哪,我认为这种时候就是读源码的最好时机,利用好eclipse或是intellij IDEA的搜索功能,一般都可以找到对应的源码
先来看一下spring boot tomcat源码 TomcatWebServerFactoryCustomizer类
private void customizeRemoteIpValve(ConfigurableTomcatWebServerFactory factory) { Tomcat tomcatProperties = this.serverProperties.getTomcat(); String protocolHeader = tomcatProperties.getProtocolHeader(); String remoteIpHeader = tomcatProperties.getRemoteIpHeader(); // For back compatibility the valve is also enabled if protocol-header is set if (StringUtils.hasText(protocolHeader) || StringUtils.hasText(remoteIpHeader) || getOrDeduceUseForwardHeaders()) { RemoteIpValve valve = new RemoteIpValve(); valve.setProtocolHeader(StringUtils.hasLength(protocolHeader) ? protocolHeader : "X-Forwarded-Proto"); if (StringUtils.hasLength(remoteIpHeader)) { valve.setRemoteIpHeader(remoteIpHeader); } // The internal proxies default to a white list of "safe" internal IP // addresses valve.setInternalProxies(tomcatProperties.getInternalProxies()); valve.setPortHeader(tomcatProperties.getPortHeader()); valve.setProtocolHeaderHttpsValue( tomcatProperties.getProtocolHeaderHttpsValue()); // ... so it's safe to add this valve by default. factory.addEngineValves(valve); } }
可以看出,只要protocolHeader和remoteIpHeader任意一项有值就启用了RemoteIpValve
spring boot 对应配置项在Tomcat类里面:
server.use-forward-headers=true server.tomcat.remote-ip-header=x-forwarded-for server.tomcat.protocol-header=X-Forwarded-Proto
获取服务器地址的实现在RemoteIpValve类的invoke方法里面
public void invoke(Request request, Response response) throws IOException, ServletException { final String originalRemoteAddr = request.getRemoteAddr(); final String originalRemoteHost = request.getRemoteHost(); final String originalScheme = request.getScheme(); final boolean originalSecure = request.isSecure(); final int originalServerPort = request.getServerPort(); final String originalProxiesHeader = request.getHeader(proxiesHeader); final String originalRemoteIpHeader = request.getHeader(remoteIpHeader); boolean isInternal = internalProxies != null && internalProxies.matcher(originalRemoteAddr).matches(); if (isInternal || (trustedProxies != null && trustedProxies.matcher(originalRemoteAddr).matches())) { String remoteIp = null; // In java 6, proxiesHeaderValue should be declared as a java.util.Deque LinkedListproxiesHeaderValue = new LinkedList<>(); StringBuilder concatRemoteIpHeaderValue = new StringBuilder(); for (Enumeration e = request.getHeaders(remoteIpHeader); e.hasMoreElements();) { if (concatRemoteIpHeaderValue.length() > 0) { concatRemoteIpHeaderValue.append(", "); } concatRemoteIpHeaderValue.append(e.nextElement()); } String[] remoteIpHeaderValue = commaDelimitedListToStringArray(concatRemoteIpHeaderValue.toString()); int idx; if (!isInternal) { proxiesHeaderValue.addFirst(originalRemoteAddr); } // loop on remoteIpHeaderValue to find the first trusted remote ip and to build the proxies chain for (idx = remoteIpHeaderValue.length - 1; idx >= 0; idx--) { String currentRemoteIp = remoteIpHeaderValue[idx]; remoteIp = currentRemoteIp; if (internalProxies !=null && internalProxies.matcher(currentRemoteIp).matches()) { // do nothing, internalProxies IPs are not appended to the } else if (trustedProxies != null && trustedProxies.matcher(currentRemoteIp).matches()) { proxiesHeaderValue.addFirst(currentRemoteIp); } else { idx--; // decrement idx because break statement doesn't do it break; } } // continue to loop on remoteIpHeaderValue to build the new value of the remoteIpHeader LinkedList newRemoteIpHeaderValue = new LinkedList<>(); for (; idx >= 0; idx--) { String currentRemoteIp = remoteIpHeaderValue[idx]; newRemoteIpHeaderValue.addFirst(currentRemoteIp); } if (remoteIp != null) { request.setRemoteAddr(remoteIp); request.setRemoteHost(remoteIp); if (proxiesHeaderValue.size() == 0) { request.getCoyoteRequest().getMimeHeaders().removeHeader(proxiesHeader); } else { String commaDelimitedListOfProxies = listToCommaDelimitedString(proxiesHeaderValue); request.getCoyoteRequest().getMimeHeaders().setValue(proxiesHeader).setString(commaDelimitedListOfProxies); } if (newRemoteIpHeaderValue.size() == 0) { request.getCoyoteRequest().getMimeHeaders().removeHeader(remoteIpHeader); } else { String commaDelimitedRemoteIpHeaderValue = listToCommaDelimitedString(newRemoteIpHeaderValue); request.getCoyoteRequest().getMimeHeaders().setValue(remoteIpHeader).setString(commaDelimitedRemoteIpHeaderValue); } } if (protocolHeader != null) { String protocolHeaderValue = request.getHeader(protocolHeader); if (protocolHeaderValue == null) { // Don't modify the secure, scheme and serverPort attributes // of the request } else if (isForwardedProtoHeaderValueSecure(protocolHeaderValue)) { request.setSecure(true); request.getCoyoteRequest().scheme().setString("https"); setPorts(request, httpsServerPort); } else { request.setSecure(false); request.getCoyoteRequest().scheme().setString("http"); setPorts(request, httpServerPort); } } if (log.isDebugEnabled()) { log.debug("Incoming request " + request.getRequestURI() + " with originalRemoteAddr '" + originalRemoteAddr + "', originalRemoteHost='" + originalRemoteHost + "', originalSecure='" + originalSecure + "', originalScheme='" + originalScheme + "' will be seen as newRemoteAddr='" + request.getRemoteAddr() + "', newRemoteHost='" + request.getRemoteHost() + "', newScheme='" + request.getScheme() + "', newSecure='" + request.isSecure() + "'"); } } else { if (log.isDebugEnabled()) { log.debug("Skip RemoteIpValve for request " + request.getRequestURI() + " with originalRemoteAddr '" + request.getRemoteAddr() + "'"); } } if (requestAttributesEnabled) { request.setAttribute(AccessLog.REMOTE_ADDR_ATTRIBUTE, request.getRemoteAddr()); request.setAttribute(Globals.REMOTE_ADDR_ATTRIBUTE, request.getRemoteAddr()); request.setAttribute(AccessLog.REMOTE_HOST_ATTRIBUTE, request.getRemoteHost()); request.setAttribute(AccessLog.PROTOCOL_ATTRIBUTE, request.getProtocol()); request.setAttribute(AccessLog.SERVER_PORT_ATTRIBUTE, Integer.valueOf(request.getServerPort())); } try { getNext().invoke(request, response); } finally { request.setRemoteAddr(originalRemoteAddr); request.setRemoteHost(originalRemoteHost); request.setSecure(originalSecure); request.getCoyoteRequest().scheme().setString(originalScheme); request.setServerPort(originalServerPort); MimeHeaders headers = request.getCoyoteRequest().getMimeHeaders(); if (originalProxiesHeader == null || originalProxiesHeader.length() == 0) { headers.removeHeader(proxiesHeader); } else { headers.setValue(proxiesHeader).setString(originalProxiesHeader); } if (originalRemoteIpHeader == null || originalRemoteIpHeader.length() == 0) { headers.removeHeader(remoteIpHeader); } else { headers.setValue(remoteIpHeader).setString(originalRemoteIpHeader); } } }
实现在大致过程是如果启用RemoteIpValve,会去获取指定的请求头,更新RemoteAddr和Scheme的值,以及https转的http服务,secure表示是否是https服务
那么就需要在nginx中配置好我们服务的请求地址,也就是host请求头
对应nginx配置项:
proxy_set_header Host $host:$server_port; proxy_set_header X-Real-IP $remote_addr; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_set_header X-Forwarded-Port $server_port; proxy_set_header X-Forwarded-Proto $scheme;
这样我们在后端服务中直接使用request.getRequestURL()方法就可以获取到我们在nginx中指定的服务器地址了,如果没有使用nginx,就不存在该问题,所以后端服务不需要考虑服务是否使用了反向代理
感谢各位的阅读,以上就是“怎么配置nginx的反向代理”的内容了,经过本文的学习后,相信大家对怎么配置nginx的反向代理这一问题有了更深刻的体会,具体使用情况还需要大家实践验证。这里是创新互联,小编将为大家推送更多相关知识点的文章,欢迎关注!