问题
My C shell can successfully handle redirection (e.g. ls -al > output.txt, ./pre < input1.txt, etc.) and multiple pipes (i.e. cmd1 | cmd 2 | cmd 3). However, my code is not working when I try to do input and output redirection together with a pipe, such as ./pre < input.txt | ./sort > output.txt. No output file is ever made, although the ./pre does successfully execute.
pre is an executable that prints names with GPAs over 3.0
sort is an executable that alphabetizes a list of names input.txt is a file with names and GPAs (Name 3.1...).
CODE:
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include <sys/stat.h>
#include <fcntl.h>
#ifndef READ
#define READ 0
#endif
#ifndef WRITE
#define WRITE 1
#endif
void clearArgumentContainer (int argumentContainer[]);
int main() {
/* professor-supplied variables for commands and command parsing */
char *iPath, *oPath, *argv[20], buf[80], n, *p;
int m, status, inword, continu;
int start[20];
/* flags for redirection (note: C does not have type bool; using integer value 0 or 1) */
int inputRedirectFlag, outputRedirectFlag;
/* variables for piping */
int count, pipes;
pid_t pid;
/* pipes */
int l_pipe[2], r_pipe[2];
/* required container for handling arguments */
int argumentContainer[20] = { 0 };
while (1) {
inword = m = continu = count = pipes = pid = 0;
p = buf;
/* redirection flags reset */
inputRedirectFlag = outputRedirectFlag = 0;
/* shell prompt */
printf("\nshhh> ");
/* command parsing */
while ((n = getchar()) != '\n' || continu)
{
if (n == ' ') {
if (inword)
{
inword = 0;
*p++ = 0;
}
}
else if (n == '\n')
continu = 0;
else if (n == '\\' && !inword)
continu = 1;
else {
if (!inword)
{
inword = 1;
argv[m++] = p;
*p++ = n;
}
else
*p++ = n;
}
} /* end of command parsing */
*p++ = 0;
argv[m] = 0;
/* user wishes to terminate program */
if (strcmp(argv[0], "exit") == 0)
exit(0);
/* manage redirection */
while (argv[count] != 0) {
if (strcmp(argv[count], "|") == 0) {
argv[count] = 0;
argumentContainer[pipes + 1] = count + 1;
++pipes;
}
else if (strcmp(argv[count], "<") == 0) {
iPath = strdup(argv[count + 1]); /* copy string argument (file string) */
argv[count] = 0;
argv[count + 1] = 0;
inputRedirectFlag = 1;
}
else if (strcmp(argv[count], ">") == 0) {
oPath = strdup(argv[count + 1]); /* copy string argument (file string) */
argv[count] = 0;
argv[count + 1] = 0;
outputRedirectFlag = 1;
}
else {
argumentContainer[count] = count;
}
++count;
} /* end of redirection management */
/* execute commands [<= in for-loop; n pipes require n+1 processes] */
for (int index = 0; index <= pipes; ++index) {
if (pipes > 0 && index != pipes) { /* if user has entered multiple commands with '|' */
pipe(r_pipe); /* no pipe(l_pipe); r_pipe becomes next child's l_pipe */
}
/* switch-statement for command execution */
switch (pid = fork()) {
/* fork() error */
case -1: perror("fork failed");
break;
case 0: /* child process manages redirection and executes */
if ((index == 0) && (inputRedirectFlag == 1)) {
int inputFileDescriptor = open(iPath, O_RDONLY , 0400);
if (inputFileDescriptor == -1) {
perror("input file failed to open\n");
return(EXIT_FAILURE);
}
close(READ);
dup(inputFileDescriptor);
close(inputFileDescriptor);
} /* end of input redirection management */
if ((index == pipes) && (outputRedirectFlag == 1)) {
int outputFileDescriptor = open(oPath, O_WRONLY | O_CREAT, 0755);
if (outputFileDescriptor < 0) {
perror("output file failed to open\n");
return(EXIT_FAILURE);
}
close(WRITE);
dup(outputFileDescriptor);
close(outputFileDescriptor);
} /* end of output redirection management */
/* manage pipes if (a) first child process, (b) middle child process, or (c) third/final child process */
if (pipes > 0) {
if (index == 0){ /* first child process */
close(WRITE);
dup(r_pipe[WRITE]);
close(r_pipe[WRITE]);
close(r_pipe[READ]);
}
else if (index < pipes) { /* middle child process */
close(READ);
dup(l_pipe[READ]);
close(l_pipe[READ]);
close(l_pipe[WRITE]);
close(WRITE);
dup(r_pipe[WRITE]);
close(r_pipe[READ]);
close(r_pipe[WRITE]);
}
else { /* third/final child process */
close(READ);
dup(l_pipe[READ]);
close(l_pipe[READ]);
close(l_pipe[WRITE]);
}
}
/* execute command */
execvp(argv[argumentContainer[index]], &argv[argumentContainer[index]]);
/* if execvp() fails */
perror("execution of command failed\n");
break;
default: /* parent process manages the pipes for child process(es) */
if (index > 0) {
close(l_pipe[READ]);
close(l_pipe[WRITE]);
}
l_pipe[READ] = r_pipe[READ];
l_pipe[WRITE] = r_pipe[WRITE];
/* parent waits for child process to complete */
wait(&status);
break;
} /* end of switch-statement for command execution */
} /* end of loop for all pipes */
// clear all executed commands
for (int i = 0; i < 20; ++i) {
argv[i] = 0;
}
}
}
void clearArgumentContainer (int argumentContainer[]){
// clear argument container
for (int i = 0; i < 20; ++i) {
argumentContainer[i] = 0;
}
}
Here is the input file I'm using:
Tim 3.5
Todd 2.1
Beth 3.9
Jason 3.5
Zander 3.3
Alex 3.5
Tyler 3.5
Lauren 3.6
Jack 2.3
Amir 3.4
Beth 3.2
pre executable will list only those names with GPAs higher than 3.0 sort executable will sort list of names in alphabetical order
回答1:
Here is my final working code. It does not implement built-ins like cd, but I plan to implement those built-ins soon! Program does meet the requirements for the assignment.
My major change occurred in the redirection handling. I had to remove a line of code in two places:
argv[count + 1] = 0;
From the redirection for "<" and ">."
I also added code to handle the connections of the pipes, whether my process was the first child, the last, or one in between.
Code:
/***********************************************************************************************
***********************************************************************************************
Student: Douglas Adolph
Course: Operating Systems
Project #: 2
Program emulates shell, and can do the following:
1. Can execute a command with the accompanying arguments.
2. Recognize multiple pipe requests and handle them.
3. Recognize redirection requests and handle them.
4. Type "exit" to quit the shhh shell.
Notes:
Shell built-ins (cd, echo, etc.) not yet implemented
REFERENCED:
1. http://www.thinkplexx.com/learn/article/unix/command
2. http://man7.org/linux/man-pages/man2/open.2.html
3. https://stackoverflow.com/questions/19846272/redirecting-i-o-implementation-of-a-shell-in-c
**********************************************************************************************
*********************************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include <sys/stat.h>
#include <fcntl.h>
#ifndef READ
#define READ 0
#endif
#ifndef WRITE
#define WRITE 1
#endif
void clearArgIndexContainer (int argLocation[]);
int main() {
/* variables for command parsing and storage*/
char n, *parser, buf[80], *argv[20];
int m, status, inword, continu;
/* variables and flags for redirection (note: C does not have type bool; using integer value 0 or 1) */
char *in_path, *out_path;
int inputRedirectFlag, outputRedirectFlag;
/* variables for piping */
int count, pipes;
pid_t pid;
/* left and right pipes */
int l_pipe[2], r_pipe[2];
/* container for recording argument locations in argv[] */
int argLocation[20] = { 0 };
while (1) {
/* reset parsing and piping variable values */
m = inword = continu = count = pipes = pid = 0;
/* begin parsing at beginning of buffer */
parser = buf;
/* reset redirection flags */
inputRedirectFlag = outputRedirectFlag = 0;
/* print shell prompt */
printf("\nshhh> ");
/* parse commands */
while ((n = getchar()) != '\n' || continu)
{
if (n == ' ') {
if (inword)
{
inword = 0;
*parser++ = 0;
}
}
else if (n == '\n')
continu = 0;
else if (n == '\\' && !inword)
continu = 1;
else {
if (!inword)
{
inword = 1;
argv[m++] = parser;
*parser++ = n;
}
else
*parser++ = n;
}
} /* end of command parsing */
/* append terminating character to end of parser buffer and argv buffer */
*parser++ = 0;
argv[m] = 0;
/* user wishes to terminate program */
if (strcmp(argv[0], "exit") == 0)
exit(0);
/* manage redirection */
while (argv[count] != 0) {
if (strcmp(argv[count], "|") == 0) {
argv[count] = 0;
argLocation[pipes + 1] = count + 1;
++pipes;
}
else if (strcmp(argv[count], "<") == 0) {
in_path = strdup(argv[count + 1]);
argv[count] = 0;
inputRedirectFlag = 1;
}
else if (strcmp(argv[count], ">") == 0) {
out_path = strdup(argv[count + 1]);
argv[count] = 0;
outputRedirectFlag = 1;
}
else {
argLocation[count] = count;
}
++count;
} /* end of redirection management */
/* execute commands [<= in for-loop; n pipes require n+1 processes] */
for (int index = 0; index <= pipes; ++index) {
if (pipes > 0 && index != pipes) { /* if user has entered multiple commands with '|' */
pipe(r_pipe); /* no pipe(l_pipe); r_pipe becomes next child's l_pipe */
}
/* switch-statement for command execution */
switch (pid = fork()) {
case -1: perror("fork failed"); /* fork() error */
break;
case 0: /* child process manages redirection and executes */
if ((index == 0) && (inputRedirectFlag == 1)) {
int inputFileDescriptor = open(in_path, O_RDONLY , 0400);
if (inputFileDescriptor == -1) {
perror("input file failed to open\n");
return(EXIT_FAILURE);
}
close(READ);
dup(inputFileDescriptor);
close(inputFileDescriptor);
} /* end of input redirection management */
if ((index == pipes) && (outputRedirectFlag == 1)) {
//printf("DEBUG: here we should be about to create our output file\n");
int outputFileDescriptor = creat(out_path, 0700);
if (outputFileDescriptor < 0) {
perror("output file failed to open\n");
return(EXIT_FAILURE);
}
close(WRITE);
dup(outputFileDescriptor);
close(outputFileDescriptor);
} /* end of output redirection management */
/* manage pipes if (a) first child process, (b) in-between child process, or (c) final child process */
if (pipes > 0) {
if (index == 0){ /* first child process */
close(WRITE);
dup(r_pipe[WRITE]);
close(r_pipe[WRITE]);
close(r_pipe[READ]);
}
else if (index < pipes) { /* in-between child process */
close(READ);
dup(l_pipe[READ]);
close(l_pipe[READ]);
close(l_pipe[WRITE]);
close(WRITE);
dup(r_pipe[WRITE]);
close(r_pipe[READ]);
close(r_pipe[WRITE]);
}
else { /* final child process */
close(READ);
dup(l_pipe[READ]);
close(l_pipe[READ]);
close(l_pipe[WRITE]);
}
}
/* execute command */
execvp(argv[argLocation[index]], &argv[argLocation[index]]);
/* if execvp() fails */
perror("execution of command failed\n");
break;
default: /* parent process manages the pipes for child process(es) */
if (index > 0) {
close(l_pipe[READ]);
close(l_pipe[WRITE]);
}
l_pipe[READ] = r_pipe[READ];
l_pipe[WRITE] = r_pipe[WRITE];
/* parent waits for child process to complete */
wait(&status);
break;
} /* end of switch-statement for command execution */
} /* end of loop for all pipes */
// clear all executed commands
for (int i = 0; i < 20; ++i) {
argv[i] = 0;
}
}
}
void clearArgIndexContainer (int argLocation[]){
// clear argument container
for (int i = 0; i < 20; ++i) {
argLocation[i] = 0;
}
}
This is where I removed the lines making argv[count + 1] = 0; :
/* manage redirection */
while (argv[count] != 0) {
if (strcmp(argv[count], "|") == 0) {
argv[count] = 0;
argLocation[pipes + 1] = count + 1;
++pipes;
}
else if (strcmp(argv[count], "<") == 0) {
in_path = strdup(argv[count + 1]);
argv[count] = 0;
inputRedirectFlag = 1;
}
else if (strcmp(argv[count], ">") == 0) {
out_path = strdup(argv[count + 1]);
argv[count] = 0;
outputRedirectFlag = 1;
}
else {
argLocation[count] = count;
}
This was my major addition to handle to pipes:
/* manage pipes if (a) first child process, (b) in-between child process, or (c) final child process */
if (pipes > 0) {
if (index == 0){ /* first child process */
close(WRITE);
dup(r_pipe[WRITE]);
close(r_pipe[WRITE]);
close(r_pipe[READ]);
}
else if (index < pipes) { /* in-between child process */
close(READ);
dup(l_pipe[READ]);
close(l_pipe[READ]);
close(l_pipe[WRITE]);
close(WRITE);
dup(r_pipe[WRITE]);
close(r_pipe[READ]);
close(r_pipe[WRITE]);
}
else { /* final child process */
close(READ);
dup(l_pipe[READ]);
close(l_pipe[READ]);
close(l_pipe[WRITE]);
}
}
I still have more work to do, namely implementing the built-ins, but also putting more of this into separate functions to clean up the code and make it more readable. I was also given some good advice on some expressions that might be better written, and I'll soon tackle that.
来源:https://stackoverflow.com/questions/46715490/c-shell-redirection-and-piping-working-but-not-a-combination-of-input-and-outp