#include "XrdSec/XrdSecEntity.hh"
/******************************************************************************/
/* X r d S e c C r e d e n t i a l s & X r d S e c P a r a m e t e r s */
/******************************************************************************/
//------------------------------------------------------------------------------
//! Generic structure to pass security information back and forth.
//------------------------------------------------------------------------------
struct XrdSecBuffer
{
int size; //!< Size of the buffer or length of data in the buffer
char *buffer; //!< Pointer to the buffer
XrdSecBuffer(char *bp=0, int sz=0) : size(sz), buffer(bp), membuf(bp) {}
~XrdSecBuffer() {if (membuf) free(membuf);}
private:
char *membuf; // Stable copy of the buffer address
};
//------------------------------------------------------------------------------
//! When the buffer is used for credentials, the start of the buffer always
//! holds the credential protocol name (e.g., krb4) as a string. The client
//! will get credentials and the size will be filled out so that the contents
//! of buffer can be easily transmitted to the server.
//------------------------------------------------------------------------------
typedef XrdSecBuffer XrdSecCredentials;
//------------------------------------------------------------------------------
//! When the buffer is used for parameters, the contents must be interpreted
//! in the context that it is used. For instance, the server will send the
//! security configuration parameters on the initial login. The format differs
//! from, say, the x.500 continuation paremeters that would be sent during
//! PKI authentication via an "authmore" return status.
//------------------------------------------------------------------------------
typedef XrdSecBuffer XrdSecParameters;
/******************************************************************************/
/* X r d S e c P r o t o c o l */
/******************************************************************************/
/*!
The XrdSecProtocol is used to generate authentication credentials and to
authenticate those credentials. For example, When a server indicates
that authentication is needed (i.e., it returns security parameters), the
client must call XrdSecgetProtocol() to get an appropriate XrdSecProtocol
(i.e., one specific to the authentication protocol that needs to be used).
Then the client can use the first form getCredentials() to generate the
appropriate identification information. On subsequent calls in response to
"authmore" the client must use the second form, providing the additional
parameters the the server sends. The server uses Authenticate() to verify
the credentials. When XrdOucErrInfo is null (as it will usually be), error
messages are routed to standard error. So, for example, a client would
1) Call XrdSecGetProtocol() to get an appropriate XrdSecProtocol
(i.e., one specific to the authentication protocol that needs to be used).
Note that successive calls to XrdSecGetProtocol() using the same
XrdSecParameters will use the subsequent protocol named in the list of
protocols that the server returned. Failure is indicated when the list
is exhausted or none of the protocols apply (which exhausts the list).
2) Call getCredentials() without supplying any parameters so as to
generate identification information and send them to the server.
3) If the server indicates "authmore", call getCredentials() supplying
the additional parameters sent by the server. The returned credentials
are then sent to the server using the "authneticate" request code.
4) Repeat step (3) as often as "authmore" is requested by the server.
The server uses Authenticate() to verify the credentials and getParms()
to generate initial parameters to start the authentication process.
When XrdOucErrInfo is null (as it will usually be), error messages are
are routed to standard error.
Server-side security is handled by the XrdSecService object and, while
it uses XrdSecProtocol objects to perform authentication, the XrdSecService
object is used to initialize the security environment and to generate
the appropriate protocol objects at run-time. For an implementation, see
XrdSecServer.hh and XrdSecServer.cc.
MT Requirements: Must be MT_Safe.
*/
class XrdOucErrInfo;
class XrdSecProtocol
{
public:
//------------------------------------------------------------------------------
//! Structure holding the entity's identification. It is filled in by a
//! successful call to Authenticate() (i.e. it returns 0).
//------------------------------------------------------------------------------
XrdSecEntity Entity;
//------------------------------------------------------------------------------
//! Authenticate a client.
//!
//! @param cred Credentials supplied by the client.
//! @param parms Place where the address of additional authentication data is
//! to be placed for another autrhentication handshake.
//! @param einfo The error information object where error messages should be
//! placed. The messages are returned to the client. Should einfo
//! be null, messages should be written to stderr.
//!
//! @return > 0 -> parms present (more authentication needed)
//! = 0 -> Entity present (authentication suceeded)
//! < 0 -> einfo present (error has occured)
//------------------------------------------------------------------------------
virtual int Authenticate (XrdSecCredentials *cred,
XrdSecParameters **parms,
XrdOucErrInfo *einfo=0)=0;
//------------------------------------------------------------------------------
//! Generate client credentials to be used in the authentication process.
//!
//! @param parm Pointer to the information returned by the server either in
//! the initial login response or the authmore response.
//! @param einfo The error information object where error messages should be
//! placed. The messages are returned to the client. Should einfo
//! be null, messages should be written to stderr.
//!
//! @return Success: Pointer to credentials to sent to the server. The caller
//! is responsible for deleting the object.
//! Failure: Null pointer with einfo, if supplied, containing the
//! reason for the failure.
//------------------------------------------------------------------------------
virtual XrdSecCredentials *getCredentials(XrdSecParameters *parm=0,
XrdOucErrInfo *einfo=0)=0;
//------------------------------------------------------------------------------
//! Encrypt data in inbuff using the session key.
//!
//! @param inbuff buffer holding data to be encrypted.
//! @param inlen length of the data.
//! @param outbuff place where a pointer to the encrypted data is placed.
//!
//! @return < 0 Failed, the return value is -errno of the reason. Typically,
//! -EINVAL - one or more arguments are invalid.
//! -NOTSUP - encryption not supported by the protocol
//! -ENOENT - Context not innitialized
//! = 0 Success, outbuff contains a pointer to the encrypted data.
//! The caller is responsible for deleting the returned object.
//------------------------------------------------------------------------------
virtual int Encrypt(const char *inbuff, // Data to be encrypted
int inlen, // Length of data in inbuff
XrdSecBuffer **outbuff // Returns encrypted data
)
{
(void) inbuff; (void) inlen; (void) outbuff;
return -ENOTSUP;
}
//------------------------------------------------------------------------------
//! Decrypt data in inbuff using the session key.
//!
//! @param inbuff buffer holding data to be decrypted.
//! @param inlen length of the data.
//! @param outbuff place where a pointer to the decrypted data is placed.
//!
//! @return < 0 Failed,the return value is -errno (see Encrypt).
//! = 0 Success, outbuff contains a pointer to the decrypted data.
//! The caller is responsible for deleting the returned object.
//------------------------------------------------------------------------------
virtual int Decrypt(const char *inbuff, // Data to be decrypted
int inlen, // Length of data in inbuff
XrdSecBuffer **outbuff // Buffer for decrypted data
)
{
(void) inbuff; (void) inlen; (void) outbuff;
return -ENOTSUP;
}
//------------------------------------------------------------------------------
//! Sign data in inbuff using the session key.
//!
//! @param inbuff buffer holding data to be signed.
//! @param inlen length of the data.
//! @param outbuff place where a pointer to the signature is placed.
//!
//! @return < 0 Failed,the return value is -errno (see Encrypt).
//! = 0 Success, outbuff contains a pointer to the signature.
//! The caller is responsible for deleting the returned object.
//------------------------------------------------------------------------------
virtual int Sign(const char *inbuff, // Data to be signed
int inlen, // Length of data in inbuff
XrdSecBuffer **outbuff // Buffer for the signature
)
{
(void) inbuff; (void) inlen; (void) outbuff;
return -ENOTSUP;
}
//------------------------------------------------------------------------------
//! Verify a signature using the session key.
//!
//! @param inbuff buffer holding data to be verified.
//! @param inlen length of the data.
//! @param sigbuff pointer to the signature data.
//! @param siglen length of the signature data.
//!
//! @return < 0 Failed,the return value is -errno (see Encrypt).
//! = 0 Success, signature is correct.
//! > 0 Failed to verify, signature does not match inbuff data.
//------------------------------------------------------------------------------
virtual int Verify(const char *inbuff, // Data to be decrypted
int inlen, // Length of data in inbuff
const char *sigbuff, // Buffer for signature
int siglen) // Length if signature
{
(void) inbuff; (void) inlen; (void) sigbuff; (void) siglen;
return -ENOTSUP;
}
//------------------------------------------------------------------------------
//! Get the current encryption key (i.e. session key)
//!
//! @param buff buffer to hold the key, and may be null.
//! @param size size of the buffer.
//!
//! @returns < 0 Failed, returned value if -errno (see Encrypt)
//! >= 0 The size of the encyption key. The supplied buffer of length
//! size hold the key. If the buffer address is supplied, the
//! key is placed in the buffer.
//!
//------------------------------------------------------------------------------
virtual int getKey(char *buff = 0, int size = 0)
{
(void) buff; (void) size;
return -ENOTSUP;
}
//------------------------------------------------------------------------------
//! Set the current encryption key
//!
//! @param buff buffer that holds the key.
//! @param size size of the key.
//!
//! @returns: < 0 Failed, returned value if -errno (see Encrypt)
//! = 0 The new key has been set.
//------------------------------------------------------------------------------
virtual int setKey(char *buff, int size)
{
(void) buff; (void) size;
return -ENOTSUP;
}
//------------------------------------------------------------------------------
//! Delete the protocol object. DO NOT use C++ delete() on this object.
//------------------------------------------------------------------------------
virtual void Delete()=0; // Normally does "delete this"
//------------------------------------------------------------------------------
//! Constructor
//------------------------------------------------------------------------------
XrdSecProtocol(const char *pName) : Entity(pName) {}
protected:
//------------------------------------------------------------------------------
//! Destructor (prevents use of direct delete).
//------------------------------------------------------------------------------
virtual ~XrdSecProtocol() {}
};
/******************************************************************************/
/* P r o t o c o l N a m i n g C o n v e n t i o n s */
/******************************************************************************/
/*! Each specific protocol resides in a shared library named "libXrdSec.so"
where
is the protocol identifier (e.g., krb5, gsi, etc). The library
contains a class derived from the XrdSecProtocol object. The library must
also contain a three extern "C" functions:
1) XrdSecProtocol
Init()
Called for one-time protocol ininitialization.
2) XrdSecProtocol
Object()
Called for protocol object instantiation.
3) XrdSecProtocol
Object_
Inspected for the protocol object xrootd version number used in
compilation; defined by the XrdVERSIONINFO macro (see later comments).
*/
//------------------------------------------------------------------------------
//! Perform one-time initialization when the shared library containing the
//! the protocol is loaded.
//!
//! @param who contains 'c' when called on the client side and 's' when
//! called on the server side.
//! @param parms when who == 'c' (client) the pointer is null.
//! when who == 's' (server) argument points to any parameters
//! specified in the config file with the seclib directive. If no
//! parameters were specified, the pointer may be null.
//! @param einfo The error information object where error messages should be
//! placed. Should einfo be null, messages should be written to
//! stderr.
//!
//! @return Success: The initial security token to be sent to the client during
//! the login phase (i.e. authentication handshake). If no
//! token need to be sent, a pointer to null string should be
//! returned.
//! Failure: A null pointer with einfo, if supplied, holding the reason
//! for the failure.
//!
//! Notes: 1) Function is called ince in single-thread mode and need not be
//! thread-safe.
//------------------------------------------------------------------------------
/*! extern "C" char *XrdSecProtocol
Init (const char who,
const char *parms,
XrdOucErrInfo *einfo) {. . . .}
*/
//------------------------------------------------------------------------------
//! Obtain an instance of a protocol object.
//!
//! @param who contains 'c' when called on the client side and 's' when
//! called on the server side.
//! @param host The client's host name or the IP address as text. An IP
//! may be supplied if the host address is not resolvable. Use
//! endPoint to get the hostname only if it's actually needed.
//! @param endPoint the XrdNetAddrInfo object describing the end-point. When
//! who == 'c' this is the client, otherwise it is the server.
//! @param parms when who == 'c' (client) points to the parms sent by the
//! server upon the initial handshake (see Init() above).
//! when who == 's' (server) is null.
//! @param einfo The error information object where error messages should be
//! placed. Should einfo be null, messages should be written to
//! stderr.
//!
//! @return Success: A pointer to the protocol object.
//! Failure: A null pointer with einfo, if supplied, holding the reason
//! for the failure.
//!
//! Notes 1) Warning! The protocol *must* allow both 'c' and 's' calls within
//! the same execution context. This occurs when a server acts like
//! a client.
//! 2) This function must be thread-safe.
//! 3) Additionally, you *should* declare the xrootd version you used
//! to compile your plug-in using XrdVERSIONINFO where \ is
//! the 1- to 15-character unquoted name of your plugin. This is a
//! mandatory requirement!
//------------------------------------------------------------------------------
/*! Example:
#include "XrdVersion.hh"
XrdVERSIONINFO(XrdSecProtocolObject,);
extern "C" XrdSecProtocol *XrdSecProtocolObject
(const char who,
const char *hostname,
XrdnetAddrInfo &endPoint,
const char *parms,
XrdOucErrInfo *einfo
) {. . .}
*/
/******************************************************************************/
/* P r o t o c o l O b j e c t M a n a g e m e n t */
/******************************************************************************/
//! The following extern "C" functions provide protocol object management. That
//! is, coordinating the use of the right authentication protocol between the
//! client and server. The default implementation may be replaced via a plugin.
/******************************************************************************/
/* X r d S e c G e t P r o t o c o l */
/* */
/* C l i e n t S i d e U S e O n l y */
/******************************************************************************/
//------------------------------------------------------------------------------
//! Create a client security context and get a supported XrdSecProtocol object
//! for one of the protocols suggested by the server and possibly based on the
//! server's hostname or host address, as needed.
//!
//! @param hostname The client's host name or the IP address as text. An IP
//! may be supplied if the host address is not resolvable. Use
//! endPoint to get the hostname only if it's actually needed.
//! @param endPoint the XrdNetAddrInfo object describing the server end-point.
//! @param sectoken The security token supplied by the server.
//! @param einfo The structure to record any error messages. These are
//! normally sent to the client. If einfo is a null pointer,
//! the messages should be sent to standard error.
//!
//! @return Success: Address of protocol object to be used for authentication.
//! If cred was null, a host protocol object should be
//! returned if so allowed. The object's delete method should
//! be called to release the storage.
//! Failure: Null, no protocol can be returned. The einfo parameter,
//! if supplied, has the reason.
//!
//! Notes: 1) There should be one protocol object per physical TCP/IP
//! connections.
//! 2) When the connection is closed, the protocol's Delete() method
//! should be called to properly delete the object.
//! 3) The method and the returned object should be MT-safe.
//! 4) When replacing the default implementation with a plug-in the
//! extern "C" function below must exist in your shared library.
//! 5) Additionally, you *should* declare the xrootd version you used
//! to compile your plug-in using XrdVERSIONINFO where \ is
//! the 1- to 15-character unquoted name of your plugin. This is a
//! mandatory requirement!
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
//! Typedef to simplify the encoding of methods returning XrdSecProtocol.
//------------------------------------------------------------------------------
typedef XrdSecProtocol *(*XrdSecGetProt_t)(const char *,
XrdNetAddrInfo &,
XrdSecParameters &,
XrdOucErrInfo *);
/*! Example:
#include "XrdVersion.hh"
XrdVERSIONINFO(XrdSecGetProtocol,);
extern "C" XrdSecProtocol *XrdSecGetProtocol
(const char *hostname,
XrdNetAddrInfo &endPoint,
XrdSecParameters §oken,
XrdOucErrInfo *einfo=0)
{....}
*/
/******************************************************************************/
/* X r d S e c G e t P r o t e c t i o n */
/* */
/* C l i e n t S i d e U s e O n l y */
/******************************************************************************/
/*! The XrdSecGetProtection function returns a protection object to secure
an XRootD request stream from injection attacks. An object is returned
when the response to kXR_protocol request indicates that the server
requires that the client secure the connection. This protection is based
on the authentication method used. Therefore, authentication must occur
before a protection object can be obtained. Usually, a protection object
is requested right after authentication. The function description is
@param rc Where an error return code is to be placed.
@param aprot Uses the authentication protocol to protect requests. It
must be supplied and must be he protocol the client used
for authentication. Hence, authentication must occur first.
@param presp The protocol value returned in response to kXR_protocol.
The value must be host byte order.
@return >0 pointer to the protect object placed in protP.
@return =0 No protection is needed, protP set to zero.
@return <0 An error occured getting the protection object the
return value is -errno and protP has been set to zero.
Simply declare the following in the place where this is called:
extern int XrdSecGetProtection(XrdSecProtect *&protP,
XrdSecProtocol &aprot,
kXR_int32 presp);
*/
/******************************************************************************/
/* X r d S e c S e r v i c e */
/* */
/* S e r v e r S i d e U s e O n l y */
/******************************************************************************/
/*! The XrdSecService object is the the object that the server uses to obtain
parameters to be passed to the client on initial contact and to create the
appropriate protocol on the initial receipt of the client's credentials.
Server-side processing is a bit more complicated because the set of valid
protocols needs to be configured and that configuration needs to be supplied
to the client so that both can agree on a compatible protocol. This object
is created via a call to XrdSecgetService, defined later on. You may replace
the default implementation by defining a plugin via the seclib directive.
Warning: The XrdSecService object as well as any objects returned by it
should be MT-safe.
*/
class XrdSecService
{
public:
//------------------------------------------------------------------------------
//! Obtain security parameters to be sent to the client upon initial contact.
//!
//! @param size Where the length of the return parameters are to be placed.
//! @param endPoint The client's address information. It may also be a null
//! pointer if the client's host is immaterial.
//!
//! @return EITHER The address of the parameter string (which may be
//! host-specific if hname was supplied). The length of the
//! string must be returned in size parameter.
//! OR A null pointer if authentication need not occur for the
//! client. The size parameter should be set to zero as well.
//------------------------------------------------------------------------------
virtual const char *getParms(int &size, XrdNetAddrInfo *endPoint=0) = 0;
//------------------------------------------------------------------------------
//! Obtain a protocol object suitable for authentication based on cred and
//! possibly based on the hostname or host address, as needed.
//!
//! @param host The client's host name or the IP address as text. An IP
//! may be supplied if the host address is not resolvable or
//! resolution has been suppressed (i.e. nodnr). Use endPoint
//! to get the hostname if it's actually needed.
//! @param endPoint the XrdNetAddrInfo object describing the client end-point.
//! @param cred The initial credentials supplied by the client, the pointer
//! may be null if the client did not supply credentials.
//! @param einfo The structure to record any error messages. These are
//! normally sent to the client. If einfo is a null pointer,
//! the messages should be sent to standard error via an
//! XrdSysError object using the supplied XrdSysLogger when the
//! the plugin was initialized.
//!
//! @return Success: Address of protocol object to be used for authentication.
//! If cred was null, a host protocol object shouldpo be
//! returned if so allowed.
//! Failure: Null, no protocol can be returned. The einfo parameter,
//! if supplied, has the reason.
//------------------------------------------------------------------------------
virtual XrdSecProtocol *getProtocol(const char *host, // In
XrdNetAddrInfo &endPoint,// In
const XrdSecCredentials *cred, // In
XrdOucErrInfo *einfo)=0;// Out
//------------------------------------------------------------------------------
//! Constructor
//------------------------------------------------------------------------------
XrdSecService() {}
//------------------------------------------------------------------------------
//! Destructor
//------------------------------------------------------------------------------
virtual ~XrdSecService() {}
};
/******************************************************************************/
/* X r d g e t S e c S e r v i c e */
/******************************************************************************/
//------------------------------------------------------------------------------
//! Create a server's security context and get an XrdSecService object.
//!
//! @param lp The logging object that should be associated with an
//! XrdSysError object to route messages.
//! @param cfn The configuration file name.
//!
//! @return Success: Pointer to the XrdSecService object. This object is never
//! deleted by the server.
//! Failure: Null pointer which causes initialization to fail.
//!
//! Notes: 1) The XrdSecSgetService function is called once during server
//! initialization. So, it need not be thread safe.
//! 2) If you choose to replace the default implementation with your
//! own plugin, the extern "C" function below must be defined in
//! your plugin shared library.
//! 3) Additionally, you *should* declare the xrootd version you used
//! to compile your plug-in using XrdVERSIONINFO where \ is
//! the 1- to 15-character unquoted name of your plugin. This is a
//! mandatory requirement!
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
//! Typedef to simplify the encoding of methods returning XrdSecService.
//------------------------------------------------------------------------------
class XrdSysLogger;
typedef XrdSecService *(*XrdSecGetServ_t)(XrdSysLogger *, const char *);
/*! Example:
#include "XrdVersion.hh"
XrdVERSIONINFO(XrdSecgetService,);
extern "C" XrdSecService *XrdSecgetService(XrdSysLogger *lp, const char *cfn)
*/
#endif