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[/] [xulalx25soc/] [trunk/] [bench/] [cpp/] [pipecmdr.h] - Blame information for rev 37

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//
//
// Filename:    pipecmdr.h
//
// Project:     FPGA testbench utilities.
//
// Purpose:     This program attaches to a Verilated Verilog IP core.
//              It will not work apart from such a core.  Once attached,
//              it connects the simulated core to a controller via a
//              pipe interface designed to act like a UART.  Indeed, it
//              is hoped that the final interface would be via UART.  Until
//              that point, however, this is just a simple test facility
//              designed to verify that the  IP core works prior to such
//              actual hardware implementation.
//
// Creator:     Dan Gisselquist
//              Gisselquist Tecnology, LLC
//
// Copyright:   2015
//
//
#ifndef PIPECMDR_H
#define PIPECMDR_H
 
#include <sys/types.h>
#include <sys/socket.h>
#include <poll.h>
#include <unistd.h>
#include <arpa/inet.h>
 
#include "testb.h"
 
#define PIPEBUFLEN      256
 
// At 115200 Baud, 8 bits of data, no parity and one stop bit, there will
// bit ten bits per character and therefore 8681 clocks per transfer
//      8681 ~= 100 MHz / 115200 (bauds / second) * 10 bauds / character
//
// #define      UARTLEN         8681 // Minimum ticks per character, 115200 Baud
//
// At 4MBaud, each bit takes 25 clocks.  10 bits would thus take 250 clocks
//              
#define UARTLEN         250 // Minimum ticks per character, 4M Baud
// #define      UARTLEN         8 // Minimum ticks per character
 
template <class VA>     class   PIPECMDR : public TESTB<VA> {
        void    setup_listener(const int port) {
                struct  sockaddr_in     my_addr;
 
                printf("Listening on port %d\n", port);
 
                m_skt = socket(AF_INET, SOCK_STREAM, 0);
                if (m_skt < 0) {
                        perror("Could not allocate socket: ");
                        exit(-1);
                }
 
                // Set the reuse address option
                {
                        int optv = 1, er;
                        er = setsockopt(m_skt, SOL_SOCKET, SO_REUSEADDR, &optv, sizeof(optv));
                        if (er != 0) {
                                perror("SockOpt Err:");
                                exit(-1);
                        }
                }
 
                memset(&my_addr, 0, sizeof(struct sockaddr_in)); // clear structure
                my_addr.sin_family = AF_INET;
                my_addr.sin_addr.s_addr = htonl(INADDR_ANY);
                my_addr.sin_port = htons(port);
 
                if (bind(m_skt, (struct sockaddr *)&my_addr, sizeof(my_addr))!=0) {
                        perror("BIND FAILED:");
                        exit(-1);
                }
 
                if (listen(m_skt, 1) != 0) {
                        perror("Listen failed:");
                        exit(-1);
                }
        }
 
public:
        int     m_skt, m_con;
        char    m_txbuf[PIPEBUFLEN], m_rxbuf[PIPEBUFLEN];
        int     m_ilen, m_rxpos, m_txpos, m_uart_wait;
        bool    m_started_flag;
 
        PIPECMDR(const int port) : TESTB<VA>() {
                m_con = m_skt = -1;
                setup_listener(port);
                m_rxpos = m_txpos = m_ilen = 0;
                m_started_flag = false;
                m_uart_wait = 0;
        }
 
        virtual void    kill(void) {
                // Close any active connection
                if (m_con >= 0)  close(m_con);
                if (m_skt >= 0) close(m_skt);
        }
 
        virtual void    tick(void) {
                if (m_con < 0) {
                        // Can we accept a connection?
                        struct  pollfd  pb;
 
                        pb.fd = m_skt;
                        pb.events = POLLIN;
                        poll(&pb, 1, 0);
 
                        if (pb.revents & POLLIN) {
                                m_con = accept(m_skt, 0, 0);
 
                                if (m_con < 0)
                                        perror("Accept failed:");
                        }
                }
 
                TESTB<VA>::m_core->i_rx_stb = 0;
 
                if (m_uart_wait == 0) {
                        if (m_ilen > 0) {
                                // Is there a byte in our buffer somewhere?
                                TESTB<VA>::m_core->i_rx_stb = 1;
                                TESTB<VA>::m_core->i_rx_data = m_rxbuf[m_rxpos++];
                                m_ilen--;
                        } else if (m_con > 0) {
                                // Is there a byte to be read here?
                                struct  pollfd  pb;
                                pb.fd = m_con;
                                pb.events = POLLIN;
                                if (poll(&pb, 1, 0) < 0)
                                        perror("Polling error:");
                                if (pb.revents & POLLIN) {
                                        if ((m_ilen =recv(m_con, m_rxbuf, sizeof(m_rxbuf), MSG_DONTWAIT)) > 0) {
                                                m_rxbuf[m_ilen] = '\0';
                                                if (m_rxbuf[m_ilen-1] == '\n') {
                                                        m_rxbuf[m_ilen-1] = '\0';
                                                        printf("< \'%s\'\n", m_rxbuf);
                                                        m_rxbuf[m_ilen-1] = '\n';
                                                } else printf("< \'%s\'\n", m_rxbuf);
                                                TESTB<VA>::m_core->i_rx_stb = 1;
                                                TESTB<VA>::m_core->i_rx_data = m_rxbuf[0];
                                                m_rxpos = 1; m_ilen--;
                                                m_started_flag = true;
                                        } else if (m_ilen < 0) {
                                                // An error occurred, close the connection
                                                // This could also be the
                                                // indication of a simple
                                                // connection close, so we deal
                                                // with this quietly.
                                                // perror("Read error: ");
                                                // fprintf(stderr, "Closing connection\n");
                                                close(m_con);
                                                m_con = -1;
                                        } else { // the connection closed on us
                                                close(m_con);
                                                m_con = -1;
                                        }
                                }
                        } m_uart_wait = (TESTB<VA>::m_core->i_rx_stb)?UARTLEN:0;
                } else {
                        // Still working on transmitting a character
                        m_uart_wait = m_uart_wait - 1;
                }
 
                /*
                if (TESTB<VA>::m_core->i_rx_stb) {
                        putchar(TESTB<VA>::m_core->i_rx_data);
                        fflush(stdout);
                }
                */
                TESTB<VA>::tick();
 
                if ((TESTB<VA>::m_core->o_tx_stb)&&(m_con > 0)) {
                        m_txbuf[m_txpos++] = TESTB<VA>::m_core->o_tx_data;
                        if ((TESTB<VA>::m_core->o_tx_data == '\n')||(m_txpos >= sizeof(m_txbuf))) {
                                int     snt = 0;
                                snt = send(m_con, m_txbuf, m_txpos, 0);
 
                                m_txbuf[m_txpos] = '\0';
                                printf("> %s", m_txbuf);
                                if (snt < m_txpos) {
                                        fprintf(stderr, "Only sent %d bytes!\n",
                                                snt);
                                }
                                m_txpos = 0;
                        }
                }
 
                /*
                if((TESTB<VA>::m_core->o_wb_cyc)||(TESTB<VA>::m_core->o_wb_stb)){
                        printf("BUS: %d,%d,%d %8x %8x\n",
                                TESTB<VA>::m_core->o_wb_cyc,
                                TESTB<VA>::m_core->o_wb_stb,
                                TESTB<VA>::m_core->o_wb_we,
                                TESTB<VA>::m_core->o_wb_addr,
                                TESTB<VA>::m_core->o_wb_data);
                } else if (m_started_flag) {
                        printf("%02x,%c,%d,%d,%02x -> %d,%d,%d, %2x,%2x,%2x\n",
                                TESTB<VA>::m_core->i_rx_data,
                                (TESTB<VA>::m_core->i_rx_stb)?(TESTB<VA>::m_core->i_rx_data):' ',
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__r_valid,
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__rx_eol,
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__rx_six_bits,
                                //
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__o_rq_strobe,
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__o_rq_hold,
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__o_rq_we,
                                //
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__state,
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__nreg,
                                TESTB<VA>::m_core->v__DOT__decodewb__DOT__szreg);
                }
                */
        }
};
 
#endif

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[/] [xulalx25soc/] [trunk/] [bench/] [cpp/] [pipecmdr.h] - Blame information for rev 37

Line No.	Rev	Author	Line
1	4	dgisselq	`//`
2			`//`
3			`// Filename: pipecmdr.h`
4			`//`
5			`// Project: FPGA testbench utilities.`
6			`//`
7			`// Purpose: This program attaches to a Verilated Verilog IP core.`
8			`// It will not work apart from such a core. Once attached,`
9			`// it connects the simulated core to a controller via a`
10			`// pipe interface designed to act like a UART. Indeed, it`
11			`// is hoped that the final interface would be via UART. Until`
12			`// that point, however, this is just a simple test facility`
13			`// designed to verify that the IP core works prior to such`
14			`// actual hardware implementation.`
15			`//`
16			`// Creator: Dan Gisselquist`
17			`// Gisselquist Tecnology, LLC`
18			`//`
19			`// Copyright: 2015`
20			`//`
21			`//`
22			`#ifndef PIPECMDR_H`
23			`#define PIPECMDR_H`
24
25			`#include <sys/types.h>`
26			`#include <sys/socket.h>`
27			`#include <poll.h>`
28			`#include <unistd.h>`
29			`#include <arpa/inet.h>`
30
31			`#include "testb.h"`
32
33			`#define PIPEBUFLEN 256`
34
35			`// At 115200 Baud, 8 bits of data, no parity and one stop bit, there will`
36			`// bit ten bits per character and therefore 8681 clocks per transfer`
37			`// 8681 ~= 100 MHz / 115200 (bauds / second) * 10 bauds / character`
38			`//`
39			`// #define UARTLEN 8681 // Minimum ticks per character, 115200 Baud`
40			`//`
41			`// At 4MBaud, each bit takes 25 clocks. 10 bits would thus take 250 clocks`
42			`//`
43			`#define UARTLEN 250 // Minimum ticks per character, 4M Baud`
44			`// #define UARTLEN 8 // Minimum ticks per character`
45
46			`template <class VA> class PIPECMDR : public TESTB<VA> {`
47			`void setup_listener(const int port) {`
48			`struct sockaddr_in my_addr;`
49
50			`printf("Listening on port %d\n", port);`
51
52			`m_skt = socket(AF_INET, SOCK_STREAM, 0);`
53			`if (m_skt < 0) {`
54			`perror("Could not allocate socket: ");`
55			`exit(-1);`
56			`}`
57
58			`// Set the reuse address option`
59			`{`
60			`int optv = 1, er;`
61			`er = setsockopt(m_skt, SOL_SOCKET, SO_REUSEADDR, &optv, sizeof(optv));`
62			`if (er != 0) {`
63			`perror("SockOpt Err:");`
64			`exit(-1);`
65			`}`
66			`}`
67
68			`memset(&my_addr, 0, sizeof(struct sockaddr_in)); // clear structure`
69			`my_addr.sin_family = AF_INET;`
70			`my_addr.sin_addr.s_addr = htonl(INADDR_ANY);`
71			`my_addr.sin_port = htons(port);`
72
73			`if (bind(m_skt, (struct sockaddr *)&my_addr, sizeof(my_addr))!=0) {`
74			`perror("BIND FAILED:");`
75			`exit(-1);`
76			`}`
77
78			`if (listen(m_skt, 1) != 0) {`
79			`perror("Listen failed:");`
80			`exit(-1);`
81			`}`
82			`}`
83
84			`public:`
85			`int m_skt, m_con;`
86			`char m_txbuf[PIPEBUFLEN], m_rxbuf[PIPEBUFLEN];`
87			`int m_ilen, m_rxpos, m_txpos, m_uart_wait;`
88			`bool m_started_flag;`
89
90			`PIPECMDR(const int port) : TESTB<VA>() {`
91			`m_con = m_skt = -1;`
92			`setup_listener(port);`
93			`m_rxpos = m_txpos = m_ilen = 0;`
94			`m_started_flag = false;`
95			`m_uart_wait = 0;`
96			`}`
97
98			`virtual void kill(void) {`
99			`// Close any active connection`
100			`if (m_con >= 0) close(m_con);`
101			`if (m_skt >= 0) close(m_skt);`
102			`}`
103
104			`virtual void tick(void) {`
105			`if (m_con < 0) {`
106			`// Can we accept a connection?`
107			`struct pollfd pb;`
108
109			`pb.fd = m_skt;`
110			`pb.events = POLLIN;`
111			`poll(&pb, 1, 0);`
112
113			`if (pb.revents & POLLIN) {`
114			`m_con = accept(m_skt, 0, 0);`
115
116			`if (m_con < 0)`
117			`perror("Accept failed:");`
118			`}`
119			`}`
120
121			`TESTB<VA>::m_core->i_rx_stb = 0;`
122
123			`if (m_uart_wait == 0) {`
124			`if (m_ilen > 0) {`
125			`// Is there a byte in our buffer somewhere?`
126			`TESTB<VA>::m_core->i_rx_stb = 1;`
127			`TESTB<VA>::m_core->i_rx_data = m_rxbuf[m_rxpos++];`
128			`m_ilen--;`
129			`} else if (m_con > 0) {`
130			`// Is there a byte to be read here?`
131			`struct pollfd pb;`
132			`pb.fd = m_con;`
133			`pb.events = POLLIN;`
134			`if (poll(&pb, 1, 0) < 0)`
135			`perror("Polling error:");`
136			`if (pb.revents & POLLIN) {`
137			`if ((m_ilen =recv(m_con, m_rxbuf, sizeof(m_rxbuf), MSG_DONTWAIT)) > 0) {`
138			`m_rxbuf[m_ilen] = '\0';`
139			`if (m_rxbuf[m_ilen-1] == '\n') {`
140			`m_rxbuf[m_ilen-1] = '\0';`
141			`printf("< \'%s\'\n", m_rxbuf);`
142			`m_rxbuf[m_ilen-1] = '\n';`
143			`} else printf("< \'%s\'\n", m_rxbuf);`
144			`TESTB<VA>::m_core->i_rx_stb = 1;`
145			`TESTB<VA>::m_core->i_rx_data = m_rxbuf[0];`
146			`m_rxpos = 1; m_ilen--;`
147			`m_started_flag = true;`
148			`} else if (m_ilen < 0) {`
149			`// An error occurred, close the connection`
150	37	dgisselq	`// This could also be the`
151			`// indication of a simple`
152			`// connection close, so we deal`
153			`// with this quietly.`
154			`// perror("Read error: ");`
155			`// fprintf(stderr, "Closing connection\n");`
156	4	dgisselq	`close(m_con);`
157			`m_con = -1;`
158			`} else { // the connection closed on us`
159			`close(m_con);`
160			`m_con = -1;`
161			`}`
162			`}`
163			`} m_uart_wait = (TESTB<VA>::m_core->i_rx_stb)?UARTLEN:0;`
164			`} else {`
165			`// Still working on transmitting a character`
166			`m_uart_wait = m_uart_wait - 1;`
167			`}`
168
169			`/*`
170			`if (TESTB<VA>::m_core->i_rx_stb) {`
171			`putchar(TESTB<VA>::m_core->i_rx_data);`
172			`fflush(stdout);`
173			`}`
174			`*/`
175			`TESTB<VA>::tick();`
176
177			`if ((TESTB<VA>::m_core->o_tx_stb)&&(m_con > 0)) {`
178			`m_txbuf[m_txpos++] = TESTB<VA>::m_core->o_tx_data;`
179			`if ((TESTB<VA>::m_core->o_tx_data == '\n')\|\|(m_txpos >= sizeof(m_txbuf))) {`
180			`int snt = 0;`
181			`snt = send(m_con, m_txbuf, m_txpos, 0);`
182
183			`m_txbuf[m_txpos] = '\0';`
184			`printf("> %s", m_txbuf);`
185			`if (snt < m_txpos) {`
186			`fprintf(stderr, "Only sent %d bytes!\n",`
187			`snt);`
188			`}`
189			`m_txpos = 0;`
190			`}`
191			`}`
192
193			`/*`
194			`if((TESTB<VA>::m_core->o_wb_cyc)\|\|(TESTB<VA>::m_core->o_wb_stb)){`
195			`printf("BUS: %d,%d,%d %8x %8x\n",`
196			`TESTB<VA>::m_core->o_wb_cyc,`
197			`TESTB<VA>::m_core->o_wb_stb,`
198			`TESTB<VA>::m_core->o_wb_we,`
199			`TESTB<VA>::m_core->o_wb_addr,`
200			`TESTB<VA>::m_core->o_wb_data);`
201			`} else if (m_started_flag) {`
202			`printf("%02x,%c,%d,%d,%02x -> %d,%d,%d, %2x,%2x,%2x\n",`
203			`TESTB<VA>::m_core->i_rx_data,`
204			`(TESTB<VA>::m_core->i_rx_stb)?(TESTB<VA>::m_core->i_rx_data):' ',`
205			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__r_valid,`
206			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__rx_eol,`
207			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__rx_six_bits,`
208			`//`
209			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__o_rq_strobe,`
210			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__o_rq_hold,`
211			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__o_rq_we,`
212			`//`
213			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__state,`
214			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__nreg,`
215			`TESTB<VA>::m_core->v__DOT__decodewb__DOT__szreg);`
216			`}`
217			`*/`
218			`}`
219			`};`
220
221			`#endif`