shrio是一个比较轻量级的安全框架,主要的作用是在后端承担认证和授权的工作。今天就讲一下shrio进行认证的一个过程。
首先先介绍一下在认证过程中的几个关键的对象:
访问系统的用户,主体可以是用户、程序等,进行认证的都称为主体;
是主体(subject)进行身份认证的标识,标识必须具有唯一性,如用户名、手机号、邮箱地址等,一个主体可以有多个身份,但是必须有一个主身份(Primary Principal)。
是只有主体自己知道的安全信息,如密码、证书等。
接着我们就进入认证的具体过程:
首先是从前端的登录表单中接收到用户输入的token(username + password):
@RequestMapping("/login")
public String login(@RequestBody Map user){
Subject subject = SecurityUtils.getSubject();
UsernamePasswordToken usernamePasswordToken = new UsernamePasswordToken(user.get("email").toString(), user.get("password").toString());
try {
subject.login(usernamePasswordToken);
} catch (UnknownAccountException e) {
return "邮箱不存在!";
} catch (AuthenticationException e) {
return "账号或密码错误!";
}
return "登录成功!";
}
这里的usernamePasswordToken(以下简称token)就是用户名和密码的一个结合对象,然后调用subject的login方法将token传入开始认证过程。
接着会发现subject的login方法调用的其实是securityManager的login方法:
Subject subject = securityManager.login(this, token);
再往下看securityManager的login方法内部:
public Subject login(Subject subject, AuthenticationToken token) throws AuthenticationException {
AuthenticationInfo info;
try {
info = authenticate(token);
} catch (AuthenticationException ae) {
try {
onFailedLogin(token, ae, subject);
} catch (Exception e) {
if (log.isInfoEnabled()) {
log.info("onFailedLogin method threw an " +
"exception. Logging and propagating original AuthenticationException.", e);
}
}
throw ae; //propagate
}
Subject loggedIn = createSubject(token, info, subject);
onSuccessfulLogin(token, info, loggedIn);
return loggedIn;
}
上面代码的关键在于:
info = authenticate(token);
即将token传入authenticate方法中得到一个AuthenticationInfo类型的认证信息。
以下是authenticate方法的具体内容:
public final AuthenticationInfo authenticate(AuthenticationToken token) throws AuthenticationException {
if (token == null) {
throw new IllegalArgumentException("Method argument (authentication token) cannot be null.");
}
log.trace("Authentication attempt received for token [{}]", token);
AuthenticationInfo info;
try {
info = doAuthenticate(token);
if (info == null) {
String msg = "No account information found for authentication token [" + token + "] by this " +
"Authenticator instance. Please check that it is configured correctly.";
throw new AuthenticationException(msg);
}
} catch (Throwable t) {
AuthenticationException ae = null;
if (t instanceof AuthenticationException) {
ae = (AuthenticationException) t;
}
if (ae == null) {
//Exception thrown was not an expected AuthenticationException. Therefore it is probably a little more
//severe or unexpected. So, wrap in an AuthenticationException, log to warn, and propagate: String msg = "Authentication failed for token submission [" + token + "]. Possible unexpected " +
"error? (Typical or expected login exceptions should extend from AuthenticationException).";
ae = new AuthenticationException(msg, t);
if (log.isWarnEnabled())
log.warn(msg, t);
}
try {
notifyFailure(token, ae);
} catch (Throwable t2) {
if (log.isWarnEnabled()) {
String msg = "Unable to send notification for failed authentication attempt - listener error?. " +
"Please check your AuthenticationListener implementation(s). Logging sending exception " +
"and propagating original AuthenticationException instead...";
log.warn(msg, t2);
}
}
throw ae;
}
log.debug("Authentication successful for token [{}]. Returned account [{}]", token, info);
notifySuccess(token, info);
return info;
}
首先就是判断token是否为空,不为空再将token传入doAuthenticate方法中:
protected AuthenticationInfo doAuthenticate(AuthenticationToken authenticationToken) throws AuthenticationException {
assertRealmsConfigured();
Collection<Realm> realms = getRealms();
if (realms.size() == 1) {
return doSingleRealmAuthentication(realms.iterator().next(), authenticationToken);
} else {
return doMultiRealmAuthentication(realms, authenticationToken);
}
}
这一步是判断是有单个Reaml验证还是多个Reaml验证,单个就执行doSingleRealmAuthentication()方法,多个就执行doMultiRealmAuthentication()方法。
一般情况下是单个验证:
protected AuthenticationInfo doSingleRealmAuthentication(Realm realm, AuthenticationToken token) {
if (!realm.supports(token)) {
String msg = "Realm [" + realm + "] does not support authentication token [" +
token + "]. Please ensure that the appropriate Realm implementation is " +
"configured correctly or that the realm accepts AuthenticationTokens of this type.";
throw new UnsupportedTokenException(msg);
}
AuthenticationInfo info = realm.getAuthenticationInfo(token);
if (info == null) {
String msg = "Realm [" + realm + "] was unable to find account data for the " +
"submitted AuthenticationToken [" + token + "].";
throw new UnknownAccountException(msg);
}
return info;
}
这一步中首先判断是否支持Realm,只有支持Realm才调用realm.getAuthenticationInfo(token)获取info。
public final AuthenticationInfo getAuthenticationInfo(AuthenticationToken token) throws AuthenticationException {
AuthenticationInfo info = getCachedAuthenticationInfo(token);
if (info == null) {
//otherwise not cached, perform the lookup:
info = doGetAuthenticationInfo(token);
log.debug("Looked up AuthenticationInfo [{}] from doGetAuthenticationInfo", info);
if (token != null && info != null) {
cacheAuthenticationInfoIfPossible(token, info);
}
} else {
log.debug("Using cached authentication info [{}] to perform credentials matching.", info);
}
if (info != null) {
assertCredentialsMatch(token, info);
} else {
log.debug("No AuthenticationInfo found for submitted AuthenticationToken [{}]. Returning null.", token);
}
return info;
}
首先查看Cache中是否有该token的info,如果有,则直接从Cache中去即可。如果是第一次登录,则Cache中不会有该token的info,需要调用doGetAuthenticationInfo(token)方法获取,并将结果加入到Cache中,方便下次使用。而这里调用的doGetAuthenticationInfo()方法就是我们在自己重写的方法,具体的内容是自定义了对拿到的这个token的一个处理的过程:
protected AuthenticationInfo doGetAuthenticationInfo(AuthenticationToken authenticationToken) throws AuthenticationException {
if (authenticationToken.getPrincipal() == null)
return null;
String email = authenticationToken.getPrincipal().toString();
User user = userService.findByEmail(email);
if (user == null)
return null;
else return new SimpleAuthenticationInfo(email, user.getPassword(), getName());
}
这其中进行了几步判断:首先是判断传入的用户名是否为空,在判断传入的用户名在本地的数据库中是否存在,不存在则返回一个用户名不存在的Exception。以上两部通过之后生成一个包括传入用户名和密码的info,注意此时关于用户名的验证已经完成,接下来进入对密码的验证。
将这一步得到的info返回给getAuthenticationInfo方法中的
assertCredentialsMatch(token, info);
此时的info是正确的用户名和密码的信息,token是输入的用户名和密码的信息,经过前面步骤的验证过程,用户名此时已经是真是存在的了,这一步就是验证输入的用户名和密码的对应关系是否正确。
protected void assertCredentialsMatch(AuthenticationToken token, AuthenticationInfo info) throws AuthenticationException {
CredentialsMatcher cm = getCredentialsMatcher();
if (cm != null) {
if (!cm.doCredentialsMatch(token, info)) {
//not successful - throw an exception to indicate this:
String msg = "Submitted credentials for token [" + token + "] did not match the expected credentials.";
throw new IncorrectCredentialsException(msg);
}
}
else {
throw new AuthenticationException("A CredentialsMatcher must be configured in order to verify " +
"credentials during authentication. If you do not wish for credentials to be examined, you " +
"can configure an " + AllowAllCredentialsMatcher.class.getName() + " instance.");
}
}
上面步骤就是验证token中的密码的和info中的密码是否对应的代码。这一步验证完成之后,整个shrio认证的过程就结束了。
