/*
        Copyright (C) 1993-2004 Hewlett-Packard Company
*/

 /* This file contains the test-specific definitions for netperf's BSD */
 /* sockets tests */


struct	tcp_stream_request_struct {
  int	send_buf_size;
  int	recv_buf_size;	/* how big does the client want it - the */
			/* receive socket buffer that is */ 
  int	receive_size;   /* how many bytes do we want to receive at one */
			/* time? */ 
  int	recv_alignment; /* what is the alignment of the receive */
			/* buffer? */ 
  int	recv_offset;    /* and at what offset from that alignment? */ 
  int	no_delay;       /* do we disable the nagle algorithm for send */
			/* coalescing? */ 
  int	measure_cpu;	/* does the client want server cpu utilization */
			/* measured? */ 
  float	cpu_rate;	/* do we know how fast the cpu is already? */ 
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid copies on */
			/* receives? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   dirty_count;    /* how many integers in the receive buffer */
			/* should be made dirty before calling recv? */  
  int   clean_count;    /* how many integers should be read from the */
			/* recv buffer before calling recv? */ 
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};

struct	tcp_stream_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	receive_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */ 
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct tcp_stream_results_struct {
  double         bytes_received;
  unsigned int	 recv_calls;	
  float	         elapsed_time;	/* how long the test ran */
  float	         cpu_util;	/* -1 if not measured */
  float	         serv_dem;	/* -1 if not measured */
  int            cpu_method;    /* how was cpu util measured? */
  int            num_cpus;      /* how many CPUs had the remote? */
};

struct	tcp_maerts_request_struct {
  int	send_buf_size;
  int	recv_buf_size;	/* how big does the client want it - the */
			/* receive socket buffer that is */ 
  int	send_size;      /* how many bytes do we want netserver to send
			   at one time? */
  int	send_alignment; /* what is the alignment of the send */
			/* buffer? */ 
  int	send_offset;    /* and at what offset from that alignment? */ 
  int	no_delay;       /* do we disable the nagle algorithm for send */
			/* coalescing? */ 
  int	measure_cpu;	/* does the client want server cpu utilization */
			/* measured? */ 
  float	cpu_rate;	/* do we know how fast the cpu is already? */ 
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid copies on */
			/* receives? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   dirty_count;    /* how many integers in the send buffer */
			/* should be made dirty before calling recv? */  
  int   clean_count;    /* how many integers should be read from the */
			/* recv buffer before calling recv? */ 
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};

struct	tcp_maerts_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	send_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */ 
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct tcp_maerts_results_struct {
  double         bytes_sent;
  unsigned int	 send_calls;	
  float	         elapsed_time;	/* how long the test ran */
  float	         cpu_util;	/* -1 if not measured */
  float	         serv_dem;	/* -1 if not measured */
  int            cpu_method;    /* how was cpu util measured? */
  int            num_cpus;      /* how many CPUs had the remote? */
};

struct	tcp_rr_request_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	send_buf_size;
  int	recv_alignment;
  int	recv_offset;
  int	send_alignment;
  int	send_offset;
  int	request_size;
  int	response_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  float	cpu_rate;	/* do we know how fast the cpu is?	*/
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid receive */
			/* copies? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};

struct	tcp_rr_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct tcp_rr_results_struct {
  unsigned int  bytes_received;	/* ignored initially */
  unsigned int	recv_calls;	/* ignored initially */
  unsigned int	trans_received;	/* not ignored  */
  float	        elapsed_time;	/* how long the test ran */
  float	        cpu_util;	/* -1 if not measured */
  float	        serv_dem;	/* -1 if not measured */
  int           cpu_method;    /* how was cpu util measured? */
  int           num_cpus;      /* how many CPUs had the remote? */
};

struct	tcp_conn_rr_request_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	send_buf_size;
  int	recv_alignment;
  int	recv_offset;
  int	send_alignment;
  int	send_offset;
  int	request_size;
  int	response_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  float	cpu_rate;	/* do we know how fast the cpu is?	*/
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid receive */
			/* copies? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};


struct	tcp_conn_rr_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct tcp_conn_rr_results_struct {
  unsigned int	bytes_received;	/* ignored initially */
  unsigned int	recv_calls;	/* ignored initially */
  unsigned int	trans_received;	/* not ignored  */
  float	        elapsed_time;	/* how long the test ran */
  float	        cpu_util;	/* -1 if not measured */
  float	        serv_dem;	/* -1 if not measured */
  int           cpu_method;    /* how was cpu util measured? */
  int           num_cpus;      /* how many CPUs had the remote? */
};

struct	tcp_tran_rr_request_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	send_buf_size;
  int	recv_alignment;
  int	recv_offset;
  int	send_alignment;
  int	send_offset;
  int	request_size;
  int	response_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  float	cpu_rate;	/* do we know how fast the cpu is?	*/
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid receive */
			/* copies? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};


struct	tcp_tran_rr_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct tcp_tran_rr_results_struct {
  unsigned int	bytes_received;	/* ignored initially */
  unsigned int	recv_calls;	/* ignored initially */
  unsigned int	trans_received;	/* not ignored  */
  float	        elapsed_time;	/* how long the test ran */
  float	        cpu_util;	/* -1 if not measured */
  float	        serv_dem;	/* -1 if not measured */
  int           cpu_method;    /* how was cpu util measured? */
  int           num_cpus;      /* how many CPUs had the remote? */

};

struct	udp_stream_request_struct {
  int	recv_buf_size;
  int	message_size;
  int	recv_alignment;
  int	recv_offset;
  int	checksum_off;
  int	measure_cpu;
  float	cpu_rate;
  int	test_length;
  int	so_rcvavoid;    /* do we want the remote to avoid receive */
			/* copies? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};

struct	udp_stream_response_struct {
  int	recv_buf_size;
  int	send_buf_size;
  int	measure_cpu;
  int	test_length;
  int	data_port_number;
  float	cpu_rate;
  int	so_rcvavoid;	/* could the remote avoid receive copies? */
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct	udp_stream_results_struct {
  unsigned int	messages_recvd;
  unsigned int	bytes_received;
  float	        elapsed_time;
  float	        cpu_util;
  int           cpu_method;    /* how was cpu util measured? */
  int           num_cpus;      /* how many CPUs had the remote? */
};


struct	udp_rr_request_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	send_buf_size;
  int	recv_alignment;
  int	recv_offset;
  int	send_alignment;
  int	send_offset;
  int	request_size;
  int	response_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  float	cpu_rate;	/* do we know how fast the cpu is?	*/
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid receive */
			/* copies? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};

struct	udp_rr_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct udp_rr_results_struct {
  unsigned int	bytes_received;	/* ignored initially */
  unsigned int	recv_calls;	/* ignored initially */
  unsigned int	trans_received;	/* not ignored  */
  float	        elapsed_time;	/* how long the test ran */
  float	        cpu_util;	/* -1 if not measured */
  float	        serv_dem;	/* -1 if not measured */
  int           cpu_method;    /* how was cpu util measured? */
  int           num_cpus;      /* how many CPUs had the remote? */
};

struct	tcp_cc_request_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	send_buf_size;
  int	recv_alignment;
  int	recv_offset;
  int	send_alignment;
  int	send_offset;
  int	request_size;
  int	response_size;
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  float	cpu_rate;	/* do we know how fast the cpu is?	*/
  int	test_length;	/* how long is the test?		*/
  int	so_rcvavoid;    /* do we want the remote to avoid receive */
			/* copies? */ 
  int	so_sndavoid;    /* do we want the remote to avoid send copies? */
  int   port;           /* the port to which the recv side should bind
			   to allow netperf to run through those evil
			   firewall things */
  int   ipaddress;      /* the IP address to which the recv side
			   should bind to allow netperf to run through
			   those evil firewall things */
};


struct	tcp_cc_response_struct {
  int	recv_buf_size;	/* how big does the client want it	*/
  int	no_delay;
  int	measure_cpu;	/* does the client want server cpu	*/
  int	test_length;	/* how long is the test?		*/
  int	send_buf_size;
  int	data_port_number;	/* connect to me here	*/
  float	cpu_rate;		/* could we measure	*/
  int	so_rcvavoid;	/* could the remote avoid receive copies? */
  int	so_sndavoid;	/* could the remote avoid send copies? */
};

struct tcp_cc_results_struct {
  unsigned int	bytes_received;	/* ignored initially */
  unsigned int	recv_calls;	/* ignored initially */
  unsigned int	trans_received;	/* not ignored  */
  float	        elapsed_time;	/* how long the test ran */
  float	        cpu_util;	/* -1 if not measured */
  float	        serv_dem;	/* -1 if not measured */
  int           cpu_method;    /* how was cpu util measured? */
  int           num_cpus;      /* how many CPUs had the remote? */
};

extern void scan_sockets_args(int argc, char *argv[]);

extern void send_tcp_stream(char remote_host[]);
extern void send_tcp_maerts(char remote_host[]);
extern void send_tcp_rr(char remote_host[]);
extern void send_tcp_conn_rr(char remote_host[]);
extern void send_tcp_cc(char remote_host[]);
extern void send_udp_stream(char remote_host[]);
extern void send_udp_rr(char remote_host[]);

extern void recv_tcp_stream();
extern void recv_tcp_maerts();
extern void recv_tcp_rr();
extern void recv_tcp_conn_rr();
extern void recv_tcp_cc();
extern void recv_udp_stream();
extern void recv_udp_rr();

extern void loc_cpu_rate();
extern void rem_cpu_rate();

#ifdef HAVE_SENDFILE
extern void sendfile_tcp_stream(char remotehost[]);
#endif /* HAVE_SENDFILE */