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[/] [wbuart32/] [trunk/] [bench/] [cpp/] [linetest.cpp] - Rev 6
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//////////////////////////////////////////////////////////////////////////////// // // Filename: linetest.cpp // // Project: wbuart32, a full featured UART with simulator // // Purpose: To create a pass-through test of the receiver and transmitter // which can be exercised/proven via Verilator. // // If you run this program with no arguments, it will run an automatic // test, returning "PASS" on success, or "FAIL" on failure as a last // output line--hence it should support automated testing. // // If you run with a '-i' argument, the program will run interactively. // It will then be up to you to determine if it works (or not). As // always, it may be killed with a control C. // // Creator: Dan Gisselquist, Ph.D. // Gisselquist Technology, LLC // //////////////////////////////////////////////////////////////////////////////// // // Copyright (C) 2015-2016, Gisselquist Technology, LLC // // This program is free software (firmware): you can redistribute it and/or // modify it under the terms of the GNU General Public License as published // by the Free Software Foundation, either version 3 of the License, or (at // your option) any later version. // // This program is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with this program. (It's in the $(ROOT)/doc directory, run make with no // target there if the PDF file isn't present.) If not, see // <http://www.gnu.org/licenses/> for a copy. // // License: GPL, v3, as defined and found on www.gnu.org, // http://www.gnu.org/licenses/gpl.html // // //////////////////////////////////////////////////////////////////////////////// // // #include <stdio.h> #include <fcntl.h> #include <unistd.h> #include <string.h> #include <time.h> #include <sys/types.h> #include <sys/wait.h> #include <signal.h> #include "verilated.h" #include "Vlinetest.h" #include "verilated_vcd_c.h" #include "uartsim.h" int main(int argc, char **argv) { Verilated::commandArgs(argc, argv); Vlinetest tb; UARTSIM *uart; bool run_interactively = false; int port = 0; unsigned setup = 25; char string[] = "This is a UART testing string\r\n"; for(int argn=1; argn<argc; argn++) { if (argv[argn][0] == '-') for(int j=1; (j<1000)&&(argv[argn][j]); j++) switch(argv[argn][j]) { case 'i': run_interactively = true; break; case 'p': port = atoi(argv[argn++]); j+= 4000; run_interactively = true; break; case 's': setup= strtoul(argv[++argn], NULL, 0); j+= 4000; break; default: printf("Undefined option, -%c\n", argv[argn][j]); break; } } tb.i_setup = setup; int baudclocks = setup & 0x0ffffff; tb.i_uart_rx = 1; if (run_interactively) { uart = new UARTSIM(port); uart->setup(tb.i_setup); while(1) { tb.i_clk = 1; tb.eval(); tb.i_clk = 0; tb.eval(); tb.i_uart_rx = (*uart)(tb.o_uart_tx); } } else { int childs_stdin[2], childs_stdout[2]; if ((pipe(childs_stdin)!=0)||(pipe(childs_stdout) != 0)) { fprintf(stderr, "ERR setting up child pipes\n"); perror("O/S ERR"); printf("TEST FAILURE\n"); exit(EXIT_FAILURE); } pid_t childs_pid = fork(); if (childs_pid < 0) { fprintf(stderr, "ERR setting up child process\n"); perror("O/S ERR"); printf("TEST FAILURE\n"); exit(EXIT_FAILURE); } if (childs_pid) { int nr=-2, nw; // We are the parent close(childs_stdin[ 0]); // Close the read end close(childs_stdout[1]); // Close the write end char test[256]; nw = write(childs_stdin[1], string, strlen(string)); if (nw == (int)strlen(string)) { int rpos = 0; test[0] = '\0'; while((rpos<nw) &&(0<(nr=read(childs_stdout[0], &test[rpos], strlen(string)-rpos)))) rpos += nr; nr = rpos; if (rpos > 0) test[rpos] = '\0'; printf("Successfully read %d characters: %s\n", nr, test); } int status = 0, rv = -1; // Give the child the oppoortunity to take another // 60 seconds to finish closing itself for(int waitcount=0; waitcount < 60; waitcount++) { rv = waitpid(-1, &status, WNOHANG); if (rv == childs_pid) break; else if (rv < 0) break; else // rv == 0 sleep(1); } if (rv != childs_pid) { kill(childs_pid, SIGTERM); printf("WARNING: Child/simulator did not terminate normally\n"); } if (WEXITSTATUS(status) != EXIT_SUCCESS) { printf("WARNING: Child/simulator exit status does not indicate success\n"); } if ((nr == nw)&&(nw == (int)strlen(string)) &&(strcmp(test, string) == 0)) { printf("PASS!\n"); exit(EXIT_SUCCESS); } else { printf("TEST FAILED\n"); exit(EXIT_FAILURE); } } else { close(childs_stdin[ 1]); close(childs_stdout[0]); close(STDIN_FILENO); if (dup(childs_stdin[0]) < 0) { fprintf(stderr, "ERR setting up child FD\n"); perror("O/S ERR"); exit(EXIT_FAILURE); } close(STDOUT_FILENO); if (dup(childs_stdout[1]) < 0) { fprintf(stderr, "ERR setting up child FD\n"); perror("O/S ERR"); exit(EXIT_FAILURE); } // UARTSIM(0) uses stdin and stdout for its FD's uart = new UARTSIM(0); uart->setup(tb.i_setup); // Make sure we don't run longer than 4 seconds ... time_t start = time(NULL); int iterations_before_check = 2048; unsigned clocks = 0; bool done = false; #define VCDTRACE #ifdef VCDTRACE Verilated::traceEverOn(true); VerilatedVcdC* tfp = new VerilatedVcdC; tb.trace(tfp, 99); tfp->open("linetest.vcd"); #define TRACE_POSEDGE tfp->dump(10*clocks) #define TRACE_NEGEDGE tfp->dump(10*clocks+5) #define TRACE_CLOSE tfp->close() #else #define TRACE_POSEDGE while(0) #define TRACE_NEGEDGE while(0) #define TRACE_CLOSE while(0) #endif for(int i=0; i<(baudclocks*24); i++) { // Clear any initial break condition tb.i_clk = 1; tb.eval(); tb.i_clk = 0; tb.eval(); tb.i_uart_rx = 1; } while(clocks < 2*(baudclocks*16)*strlen(string)) { tb.i_clk = 1; tb.eval(); TRACE_POSEDGE; tb.i_clk = 0; tb.eval(); TRACE_NEGEDGE; clocks++; tb.i_uart_rx = (*uart)(tb.o_uart_tx); if (false) { /* static long counts = 0; static int lasti = 1, lasto = 1; bool writeout = false; counts++; if (lasti != tb.i_uart) { writeout = true; lasti = tb.i_uart; } if (lasto != tb.o_uart) { writeout = true; lasto = tb.o_uart; } if (writeout) { fprintf(stderr, "%08lx : [%d -> %d] %02x:%02x (%02x/%d) %d,%d->%02x [%2d/%d/%08x]\n", counts, tb.i_uart, tb.o_uart, tb.v__DOT__head, tb.v__DOT__tail, tb.v__DOT__lineend, tb.v__DOT__run_tx, tb.v__DOT__tx_stb, tb.v__DOT__transmitter__DOT__r_busy, tb.v__DOT__tx_data & 0x0ff, tb.v__DOT__transmitter__DOT__state, tb.v__DOT__transmitter__DOT__zero_baud_counter, tb.v__DOT__transmitter__DOT__baud_counter); } */ } if (iterations_before_check-- <= 0) { iterations_before_check = 2048; done = ((time(NULL)-start)>60); if (done) fprintf(stderr, "CHILD-TIMEOUT\n"); } } TRACE_CLOSE; exit(EXIT_SUCCESS); } } }
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