flood_profile.h - httpd-flood - Git at Google

 /* Copyright 2001-2004 The Apache Software Foundation
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  * Originally developed by Aaron Bannert and Justin Erenkrantz, eBuilt.
  */

 #ifndef __profile_h
 #define __profile_h

 #include <apr_network_io.h> /* Required for apr_socket_t */
 #include <apr_tables.h>     /* Required for apr_table_t */
 #include <apr_pools.h>
 #include <apr_uri.h>

 #include "flood_config.h" /* Required for config_t */

 /* Symbolic definitions for response verification results.
  * 0 is valid, non-zero is a type of invalid.
  */
 #define FLOOD_VALID 0
 #define FLOOD_INVALID 1

 /* The type of buffers that are allowable internally in the flood
  * architecture.  Normally, test clients will not be concerned with
  * this. */
 enum buffer_type_e {
     HEAP,
     POOL,
     FD,
     MMAP
 };
 typedef enum buffer_type_e buffer_type_e;

 /* Allowable HTTP methods that the flood architecture currently has
  * knowledge of. */
 enum method_e {
     GET,
     POST,
     HEAD,
     OTHER
 };
 typedef enum method_e method_e;

 /**
  * Holds the socket information.
  */
 typedef void socket_t;

 /* Define a single request that can be transmitted with the flood
  * architecture. */
 struct request_t {
     /* The basic components to connect to the server */
     char * uri;

     method_e method;
     int keepalive; /* a boolean */

     /* Following only valid when method == POST */
     apr_size_t payloadsize;
     void * payload;

     apr_size_t contenttypesize;
     char * contenttype;

     apr_uri_t *parsed_uri;
     apr_uri_t *parsed_proxy_uri;

     /* Raw buffer connection
      * FIXME: apr_bucket_t? */
     buffer_type_e rbuftype;
     void * rbuf;
     apr_size_t rbufsize;

     /* If this is set, we want to keep the *entire* response. */
     int wantresponse;

     /* Mandatory for keepalives - although we aren't handling keepalives
      * just yet... */
     socket_t *rsock;

     apr_pool_t *pool;
 };
 typedef struct request_t request_t;

 /* Define a single response that may be returned with the flood
  * architecture. */
 struct response_t {
     /* a boolean */
     int keepalive;
     /* a boolean */
     int chunked;
     char *chunk;

     /* Raw buffer connection
      * FIXME: apr_bucket_t? */
     buffer_type_e rbuftype;
     char *rbuf;
     apr_size_t rbufsize;

     apr_table_t *headers;
 };
 typedef struct response_t response_t;

 /* Define a timer. */
 struct flood_timer_t {
     apr_time_t begin;
     apr_time_t connect;
     apr_time_t write;
     apr_time_t read;
     apr_time_t close;
 };
 typedef struct flood_timer_t flood_timer_t;

 /**
  * profile_t holds all stateful data needed during the running of
  * a test. For example, if we wanted to test a single URL 10 times
  * and then quit, profile_t would hold that URL plus a counter.
  * The actual data stored in profile_t is specific to the implementation
  * of the test.
  */
 typedef void profile_t;

 /**
  * Opaque data to hold any type of reporting data.
  */
 typedef void report_t;

 struct profile_events_t {

     /* Profile Events */
     /**
      * Reads a config_t object and creates any state necessary for this
      * run of a test profile. This routine is typically run only once
      * per single instance of a test profile.
      * Returns: State object for this instance of a test profile.
      */
     apr_status_t (*profile_init)(profile_t **profile, config_t *config, const char *profile_name, apr_pool_t *pool);

     /**
      * Reads the profile state (profile_t), retrieves the next request
      * (really the next URL) in this test profile, and prepares a
      * request.
      * Returns: A prepared HTTP Request object, ready to send.
      */
     apr_status_t (*get_next_url)(request_t **request, profile_t *profile);

     /**
      * Construct the request to be sent to the server.
      */
     apr_status_t (*create_req)(profile_t *p, request_t *r);

     /**
      * Does any post processing on this request cycle. This is where
      * SetCookie handling goes, or any other client-side-state.
      * (also stuff like "Follow Location: redirects).
      * Returns APR_SUCCESS or else some APR_* error.
      */
     apr_status_t (*postprocess)(profile_t *profile,
                                 request_t *req,
                                 response_t *resp);

     /**
      * Test to see if this test profile will continue with further tests or
      * complete.
      * Returns: boolean
      */
     int (*loop_condition)(profile_t *profile);

     /**
      * Destroy this profile. Cleanup routines that complement the above
      * profile_init function. This function is called only after the
      * test has successfully completed.
      * Returns: apr_status_t signifying completion status
      */
     apr_status_t  (*profile_destroy)(profile_t *profile);


     /* Reporting Events */
     /**
      * Create/initialize a report structure that will be associated with
      * this profile and will exist for the same lifetime as this profile.
      * However, the data stored in this report is not coupled with the
      * profile data, and the implementation may vary.
      * Returns: APR_SUCCESS and sets report to the new instance, or
      * an appropriate error otherwise.
      */
     apr_status_t (*report_init)(report_t **report, config_t *config, const char *profile_name, apr_pool_t *pool);

     /**
      * Callback to this test profile so it can report on this particular
      * HTTP transaction. It is guaranteed that this function is called only once
      * per HTTP transaction, and immediatly after "verify_resp" is called.
      * Returns: boolean status of this function.
      */
     apr_status_t (*process_stats)(report_t *report, int verified, request_t *req, response_t *resp, flood_timer_t *timer);

     /**
      * Generate a report on all statistical information
      * gathered during this run of the profile.
      */
     apr_status_t (*report_stats)(report_t *report);

     /**
      * Destroy the report structure associated with this proile.
      * Returns: APR_SUCCESS or an appropriate error.
      */
     apr_status_t (*destroy_report)(report_t *report);


     /* Socket Events */
     /**
      * Create and initialize the communication channel that
      * we'll use for this test.
      */
     apr_status_t (*socket_init)(socket_t **sock, apr_pool_t *pool);

     /**
      * Opens the communication channel to the server.
      */
     apr_status_t (*begin_conn)(socket_t *sock, request_t *req, apr_pool_t *pool);

     /**
      * Actually sends the request to the server. Implementation will fit
      * an HTTP function or some OS performance capability.
      */
     apr_status_t (*send_req)(socket_t *sock, request_t *req, apr_pool_t *pool);

     /**
      * Receives the request from the server. Implementation will test
      * some function of HTTP or some OS performance capability.
      */
     apr_status_t (*recv_resp)(response_t **resp, socket_t *sock, apr_pool_t *pool);

     /**
      * Tears down the communication channel to the server. Called once per pass
      * through main request/response loop. Implementation typically closes
      * the socket.
      */
     apr_status_t (*end_conn)(socket_t *sock, request_t *req, response_t *resp);

     /**
      * Destroy the given request, which should be the request used
      * during this pass of the test. This is called at the end
      * of every successful pass through the test loop.
      */
     apr_status_t (*request_destroy)(request_t *req);

     /**
      * Destroy the given response, which should be the response used
      * during this pass of the test. This is called at the end
      * of every successful pass through the test loop.
      * Returns: apr_status_t signifying completion status
      */
     apr_status_t (*response_destroy)(response_t *resp);

     /**
      * Destroy the socket used during with this pass, for some
      * request/response pair. This is called at the end of
      * every successful pass through the test loop.
      * Returns: apr_status_t signifying completion status
      */
     apr_status_t  (*socket_destroy)(socket_t *socket);


     /* Verify Events */
     /**
      * Tests this HTTP transaction (both Request and Response) to see if it
      * is valid for this particular test profile. Also may need access to the
      * state data for this test profile.
      * Returns: boolean determining if this request/response was valid.
      */
     apr_status_t (*verify_resp)(int *verified, profile_t *profile, request_t *req, response_t *resp);

 };
 typedef struct profile_events_t profile_events_t;

 apr_status_t run_profile(apr_pool_t *pool, config_t *config, const char *profile_name);

 #endif  /* __profile_h */
	/* Copyright 2001-2004 The Apache Software Foundation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	* Originally developed by Aaron Bannert and Justin Erenkrantz, eBuilt.
	*/

	#ifndef __profile_h
	#define __profile_h

	#include <apr_network_io.h> /* Required for apr_socket_t */
	#include <apr_tables.h> /* Required for apr_table_t */
	#include <apr_pools.h>
	#include <apr_uri.h>

	#include "flood_config.h" /* Required for config_t */

	/* Symbolic definitions for response verification results.
	* 0 is valid, non-zero is a type of invalid.
	*/
	#define FLOOD_VALID 0
	#define FLOOD_INVALID 1

	/* The type of buffers that are allowable internally in the flood
	* architecture. Normally, test clients will not be concerned with
	* this. */
	enum buffer_type_e {
	HEAP,
	POOL,
	FD,
	MMAP
	};
	typedef enum buffer_type_e buffer_type_e;

	/* Allowable HTTP methods that the flood architecture currently has
	* knowledge of. */
	enum method_e {
	GET,
	POST,
	HEAD,
	OTHER
	};
	typedef enum method_e method_e;

	/**
	* Holds the socket information.
	*/
	typedef void socket_t;

	/* Define a single request that can be transmitted with the flood
	* architecture. */
	struct request_t {
	/* The basic components to connect to the server */
	char * uri;

	method_e method;
	int keepalive; /* a boolean */

	/* Following only valid when method == POST */
	apr_size_t payloadsize;
	void * payload;

	apr_size_t contenttypesize;
	char * contenttype;

	apr_uri_t *parsed_uri;
	apr_uri_t *parsed_proxy_uri;

	/* Raw buffer connection
	* FIXME: apr_bucket_t? */
	buffer_type_e rbuftype;
	void * rbuf;
	apr_size_t rbufsize;

	/* If this is set, we want to keep the entire response. */
	int wantresponse;

	/* Mandatory for keepalives - although we aren't handling keepalives
	* just yet... */
	socket_t *rsock;

	apr_pool_t *pool;
	};
	typedef struct request_t request_t;

	/* Define a single response that may be returned with the flood
	* architecture. */
	struct response_t {
	/* a boolean */
	int keepalive;
	/* a boolean */
	int chunked;
	char *chunk;

	/* Raw buffer connection
	* FIXME: apr_bucket_t? */
	buffer_type_e rbuftype;
	char *rbuf;
	apr_size_t rbufsize;

	apr_table_t *headers;
	};
	typedef struct response_t response_t;

	/* Define a timer. */
	struct flood_timer_t {
	apr_time_t begin;
	apr_time_t connect;
	apr_time_t write;
	apr_time_t read;
	apr_time_t close;
	};
	typedef struct flood_timer_t flood_timer_t;

	/**
	* profile_t holds all stateful data needed during the running of
	* a test. For example, if we wanted to test a single URL 10 times
	* and then quit, profile_t would hold that URL plus a counter.
	* The actual data stored in profile_t is specific to the implementation
	* of the test.
	*/
	typedef void profile_t;

	/**
	* Opaque data to hold any type of reporting data.
	*/
	typedef void report_t;

	struct profile_events_t {

	/* Profile Events */
	/**
	* Reads a config_t object and creates any state necessary for this
	* run of a test profile. This routine is typically run only once
	* per single instance of a test profile.
	* Returns: State object for this instance of a test profile.
	*/
	apr_status_t (profile_init)(profile_t profile, config_t config, const char profile_name, apr_pool_t pool);

	/**
	* Reads the profile state (profile_t), retrieves the next request
	* (really the next URL) in this test profile, and prepares a
	* request.
	* Returns: A prepared HTTP Request object, ready to send.
	*/
	apr_status_t (get_next_url)(request_t request, profile_t profile);

	/**
	* Construct the request to be sent to the server.
	*/
	apr_status_t (create_req)(profile_t p, request_t *r);

	/**
	* Does any post processing on this request cycle. This is where
	* SetCookie handling goes, or any other client-side-state.
	* (also stuff like "Follow Location: redirects).
	* Returns APR_SUCCESS or else some APR_* error.
	*/
	apr_status_t (postprocess)(profile_t profile,
	request_t *req,
	response_t *resp);

	/**
	* Test to see if this test profile will continue with further tests or
	* complete.
	* Returns: boolean
	*/
	int (loop_condition)(profile_t profile);

	/**
	* Destroy this profile. Cleanup routines that complement the above
	* profile_init function. This function is called only after the
	* test has successfully completed.
	* Returns: apr_status_t signifying completion status
	*/
	apr_status_t (profile_destroy)(profile_t profile);




	/* Reporting Events */
	/**
	* Create/initialize a report structure that will be associated with
	* this profile and will exist for the same lifetime as this profile.
	* However, the data stored in this report is not coupled with the
	* profile data, and the implementation may vary.
	* Returns: APR_SUCCESS and sets report to the new instance, or
	* an appropriate error otherwise.
	*/
	apr_status_t (report_init)(report_t report, config_t config, const char profile_name, apr_pool_t pool);

	/**
	* Callback to this test profile so it can report on this particular
	* HTTP transaction. It is guaranteed that this function is called only once
	* per HTTP transaction, and immediatly after "verify_resp" is called.
	* Returns: boolean status of this function.
	*/
	apr_status_t (process_stats)(report_t report, int verified, request_t req, response_t resp, flood_timer_t *timer);

	/**
	* Generate a report on all statistical information
	* gathered during this run of the profile.
	*/
	apr_status_t (report_stats)(report_t report);

	/**
	* Destroy the report structure associated with this proile.
	* Returns: APR_SUCCESS or an appropriate error.
	*/
	apr_status_t (destroy_report)(report_t report);





	/* Socket Events */
	/**
	* Create and initialize the communication channel that
	* we'll use for this test.
	*/
	apr_status_t (socket_init)(socket_t sock, apr_pool_t pool);

	/**
	* Opens the communication channel to the server.
	*/
	apr_status_t (begin_conn)(socket_t sock, request_t req, apr_pool_t pool);

	/**
	* Actually sends the request to the server. Implementation will fit
	* an HTTP function or some OS performance capability.
	*/
	apr_status_t (send_req)(socket_t sock, request_t req, apr_pool_t pool);

	/**
	* Receives the request from the server. Implementation will test
	* some function of HTTP or some OS performance capability.
	*/
	apr_status_t (recv_resp)(response_t resp, socket_t sock, apr_pool_t *pool);

	/**
	* Tears down the communication channel to the server. Called once per pass
	* through main request/response loop. Implementation typically closes
	* the socket.
	*/
	apr_status_t (end_conn)(socket_t sock, request_t req, response_t resp);

	/**
	* Destroy the given request, which should be the request used
	* during this pass of the test. This is called at the end
	* of every successful pass through the test loop.
	*/
	apr_status_t (request_destroy)(request_t req);

	/**
	* Destroy the given response, which should be the response used
	* during this pass of the test. This is called at the end
	* of every successful pass through the test loop.
	* Returns: apr_status_t signifying completion status
	*/
	apr_status_t (response_destroy)(response_t resp);

	/**
	* Destroy the socket used during with this pass, for some
	* request/response pair. This is called at the end of
	* every successful pass through the test loop.
	* Returns: apr_status_t signifying completion status
	*/
	apr_status_t (socket_destroy)(socket_t socket);





	/* Verify Events */
	/**
	* Tests this HTTP transaction (both Request and Response) to see if it
	* is valid for this particular test profile. Also may need access to the
	* state data for this test profile.
	* Returns: boolean determining if this request/response was valid.
	*/
	apr_status_t (verify_resp)(int verified, profile_t profile, request_t req, response_t *resp);

	};
	typedef struct profile_events_t profile_events_t;

	apr_status_t run_profile(apr_pool_t pool, config_t config, const char *profile_name);

	#endif /* __profile_h */