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mirror of https://gitlab.com/klmp200/fish.git synced 2024-11-24 10:04:20 +00:00

Merge branch 'sli' into 'master'

On a des grosses bites

See merge request !15
This commit is contained in:
Antoine Bartuccio 2017-06-11 19:43:36 +00:00
commit 40fda08947
6 changed files with 233 additions and 26 deletions

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@ -10,6 +10,7 @@
/* Necessary global variables */ /* Necessary global variables */
char * builtinCommandsStr[] = { char * builtinCommandsStr[] = {
(char *) "clear",
(char *) "kek", (char *) "kek",
(char *) "cd", (char *) "cd",
(char *) "help", (char *) "help",
@ -17,6 +18,7 @@ char * builtinCommandsStr[] = {
}; };
builtinCommand *builtinCommands[] = { builtinCommand *builtinCommands[] = {
&fishClear,
&fishKek, &fishKek,
&fishCd, &fishCd,
&fishHelp, &fishHelp,
@ -81,3 +83,16 @@ int fishKek(WordArray *args) {
int getNbBuiltins() { int getNbBuiltins() {
return sizeof(builtinCommandsStr) / sizeof(char*); return sizeof(builtinCommandsStr) / sizeof(char*);
} }
void fishSignalHandler(int s) {
switch (s) {
default:
break;
}
}
int fishClear(WordArray *args) {
if (args != NULL) freeWordArray(args);
system("clear");
return EXIT_SUCCESS;
}

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@ -23,4 +23,8 @@ int fishExit(WordArray * args);
int fishKek(WordArray *args); int fishKek(WordArray *args);
int fishClear(WordArray *args);
void fishSignalHandler(int s);
#endif //FISH_FISH_COMMANDS_H #endif //FISH_FISH_COMMANDS_H

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@ -1,25 +1,83 @@
// //
// Created by Antoine Bartuccio on 11/05/2017. // Created by Antoine Bartuccio on 11/05/2017.
// Dont forget that Antoine Bartuccio is a faggot since 1784 (tm)
// //
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
#include <string.h> #include <string.h>
#include <unistd.h> #include <unistd.h>
#include <sys/wait.h> #include <sys/wait.h>
#include <signal.h>
#include <pcre.h>
#include "fish_core.h" #include "fish_core.h"
#include "fish_globbing.h" #include "fish_globbing.h"
#include "fish_types.h" #include "fish_types.h"
#define REDIRECT_EXIT_FREE() signal = EXIT_FAILURE; \
freeWordList(list);\
freeWordList(splited);
#define REDIRECT_STD(std, open_mode) if (splited->size == 0) {REDIRECT_EXIT_FREE()\
} else {\
redirect_file = fopen(splited->first->word, open_mode);\
if (redirect_file == NULL) { REDIRECT_EXIT_FREE() } else {\
saved_std = dup(std);\
dup2(fileno(redirect_file), std);\
signal = fishExecute(list);\
dup2(saved_std, std);\
fclose(redirect_file);\
freeWordList(splited);\
}\
}
pipe_redirection * getRedirection(){
static pipe_redirection * redirection = NULL;
if (redirection == NULL){
redirection = (pipe_redirection*) malloc(sizeof(pipe_redirection));
if (redirection == NULL) crash();
redirection->files_name[0] = strdup((char*) "/tmp/fishXXXXXX");
redirection->files_name[1] = strdup((char*) "/tmp/fishXXXXXX");
redirection->tmp_files[0] = mkstemp(redirection->files_name[0]);
redirection->tmp_files[1] = mkstemp(redirection->files_name[1]);
redirection->to_use = 0;
redirection->read = WRITE;
redirection->nb = 0;
redirection->nb_max = 0;
redirection->file_use = 0;
}
return redirection;
}
void freeRedirection(){
pipe_redirection * redirection = getRedirection();
close(redirection->tmp_files[0]);
close(redirection->tmp_files[1]);
unlink(redirection->files_name[0]);
unlink(redirection->files_name[1]);
remove(redirection->files_name[0]);
remove(redirection->files_name[1]);
free(redirection->files_name[0]);
free(redirection->files_name[1]);
free(redirection);
}
void fishLoop(Settings * settings){ void fishLoop(Settings * settings){
char * line = NULL; char * line = NULL;
WordList* splited = NULL; WordList* splited = NULL;
int status = 1; int status = 1;
pipe_redirection *r = getRedirection();
do { do {
printf("%s", settings->PS1); printf("%s", settings->PS1);
line = fishReadLine(); line = fishReadLine();
r->to_use = 0;
r->nb = countSeparators(line, (char*) "\\|[^\\|]");
r->nb_max = r->nb;
splited = split(line, (char*) FISH_TOKENS); splited = split(line, (char*) FISH_TOKENS);
splited = fishExpand(splited); splited = fishExpand(splited);
@ -30,20 +88,24 @@ void fishLoop(Settings * settings){
} while(status != EXIT_SIGNAL); } while(status != EXIT_SIGNAL);
} }
int countSeparators(char *string, char *separators) { int countSeparators(char *string, char *regex) {
const char* error;
int error_offset;
int ovector[100];
int nb = 0; int nb = 0;
int i = 0; int string_size = (int) strlen(string);
int k = 0; int ovector_size = 100;
while (string[i] != '\0'){ int offset = 0;
while (separators[k] != '\0'){ pcre *re = pcre_compile(regex, 0, &error, &error_offset, 0);
if (string[i] == separators[k]){
nb++; if (!re) crash();
}
k++; while (pcre_exec(re, 0, string, string_size, offset, 0, ovector, ovector_size) >= 0){
} offset = ovector[1];
i++; nb++;
k = 0;
} }
pcre_free(re);
return nb; return nb;
} }
@ -66,24 +128,26 @@ WordList * split(char *string, char *separator){
} }
char *fishReadLine() { char *fishReadLine() {
struct sigaction signal_handler;
size_t bufferSize = FISH_BUFFER_SIZE; size_t bufferSize = FISH_BUFFER_SIZE;
int position = 0; int position = 0;
char *line = (char*) malloc(sizeof(char*) * bufferSize); char *line = (char*) malloc(sizeof(char*) * bufferSize);
int c; int c;
if (line == NULL){ if (line == NULL) crash();
crash();
} signal_handler.sa_handler = fishSignalHandler;
sigemptyset(&signal_handler.sa_mask);
signal_handler.sa_flags = 0;
while (1){ while (1){
sigaction(SIGINT, &signal_handler, NULL);
c = getchar(); c = getchar();
switch (c){ switch (c){
case '\n': case '\n':
line[position] = '\0'; line[position] = '\0';
return line; return line;
case EOF:
exit(EXIT_SUCCESS);
default: default:
line[position] = (char) c; line[position] = (char) c;
} }
@ -91,7 +155,7 @@ char *fishReadLine() {
position++; position++;
if ((size_t) position > bufferSize){ if ((size_t) position > bufferSize){
bufferSize+=bufferSize; bufferSize += bufferSize;
line = (char*) realloc(line, bufferSize); line = (char*) realloc(line, bufferSize);
if (line == NULL){ if (line == NULL){
crash(); crash();
@ -99,7 +163,6 @@ char *fishReadLine() {
} }
} }
return NULL; return NULL;
} }
@ -107,9 +170,20 @@ char *fishReadLine() {
int fishLoad(WordArray *array) { int fishLoad(WordArray *array) {
pid_t pid; pid_t pid;
int status = 1; int status = 1;
pipe_redirection *redirection = getRedirection();
pid = fork(); pid = fork();
if (pid == 0){ if (pid == 0){
if (redirection->to_use){
if (redirection->read == READ){
dup2(redirection->tmp_files[redirection->file_use], STDIN_FILENO);
} else if (redirection->read == WRITE) {
dup2(redirection->tmp_files[redirection->file_use], STDOUT_FILENO);
} else {
dup2(redirection->tmp_files[!redirection->file_use], STDIN_FILENO);
dup2(redirection->tmp_files[redirection->file_use], STDOUT_FILENO);
}
}
/* Executes only in the child process */ /* Executes only in the child process */
if (execvp(array->words[0], array->words) == -1){ if (execvp(array->words[0], array->words) == -1){
/* Error during system call */ /* Error during system call */
@ -121,7 +195,6 @@ int fishLoad(WordArray *array) {
perror("fish"); perror("fish");
} else { } else {
/* Handle parent process */ /* Handle parent process */
/* Wait for the child process to finish */ /* Wait for the child process to finish */
do { do {
waitpid(pid, &status, WUNTRACED); waitpid(pid, &status, WUNTRACED);
@ -129,6 +202,7 @@ int fishLoad(WordArray *array) {
if (status) fprintf(stderr, "%s\n", getInsult()); if (status) fprintf(stderr, "%s\n", getInsult());
} }
freeWordArray(array); freeWordArray(array);
return status; return status;
} }
@ -136,6 +210,10 @@ int fishExecute(WordList *list) {
WordList *splited = NULL; WordList *splited = NULL;
shell_operator op = NONE; shell_operator op = NONE;
WordArray *array = NULL; WordArray *array = NULL;
pipe_redirection *redirection = NULL;
FILE *redirect_file = NULL;
int saved_std;
int pid;
int signal = 1; int signal = 1;
splited = parseWordList(list, &op); splited = parseWordList(list, &op);
@ -160,6 +238,71 @@ int fishExecute(WordList *list) {
signal = fishExecute(list); signal = fishExecute(list);
if (signal != EXIT_SIGNAL) signal = fishExecute(splited); if (signal != EXIT_SIGNAL) signal = fishExecute(splited);
break; break;
case PIPE:
redirection = getRedirection();
if (redirection->nb == redirection->nb_max){
redirection->read = WRITE;
redirection->file_use = 0;
} else if (redirection->nb > 0){
redirection->read = READ_AND_WRITE;
redirection->file_use = !redirection->file_use;
} else {
redirection->read = READ;
redirection->file_use = !redirection->file_use;
}
redirection->to_use = 1;
--redirection->nb;
if (redirection->read == WRITE) ftruncate(redirection->tmp_files[redirection->file_use], 0);
lseek(redirection->tmp_files[0], 0L, 0);
lseek(redirection->tmp_files[1], 0L, 0);
fishExecute(list);
redirection->read = WRITE;
if (redirection->nb > 0){
redirection->read = READ_AND_WRITE;
} else {
redirection->read = READ;
}
if (redirection->read == WRITE) ftruncate(redirection->tmp_files[redirection->file_use], 0);
lseek(redirection->tmp_files[0], 0L, 0);
lseek(redirection->tmp_files[1], 0L, 0);
signal = fishExecute(splited);
redirection->to_use = 0;
break;
case BACKGROUND_PROCESS:
printf("Exécution en tache de fond\n");
pid = fork();
if(pid == 0){
exit(fishExecute(list));
} else if (pid < 0){
perror("fish");
} else if (splited->size > 0) signal = fishExecute(splited);
else {
freeWordList(splited);
splited = NULL;
signal = EXIT_SUCCESS;
}
break;
case REDIRECT_STDOUT_ERASE:
REDIRECT_STD(STDOUT_FILENO, "w");
break;
case REDIRECT_STDOUT_APPEND:
REDIRECT_STD(STDOUT_FILENO, "a");
break;
case REDIRECT_STDERR_ERASE:
REDIRECT_STD(STDERR_FILENO, "w");
break;
case REDIRECT_STDERR_APPEND:
REDIRECT_STD(STDERR_FILENO, "a");
break;
case REDIRECT_STDIN:
REDIRECT_STD(STDIN_FILENO, "r");
break;
default: default:
array = wordListToWordArray(list); array = wordListToWordArray(list);
signal = loadRightCommand(array); signal = loadRightCommand(array);
@ -197,12 +340,26 @@ WordList * parseWordList(WordList *list, shell_operator *an_operator) {
char *op_str[] = { char *op_str[] = {
(char*) ";", (char*) ";",
(char*) "\\|\\|", (char*) "\\|\\|",
(char*) "&&" (char*) "&&",
(char*) "\\|",
(char*) "&",
(char*) "2>>",
(char*) ">>",
(char*) "2>",
(char*) ">",
(char*) "<[^<]"
}; };
shell_operator op[] = { shell_operator op[] = {
OR, OR,
REVERSE_AND, REVERSE_AND,
AND AND,
PIPE,
BACKGROUND_PROCESS,
REDIRECT_STDERR_APPEND,
REDIRECT_STDOUT_APPEND,
REDIRECT_STDERR_ERASE,
REDIRECT_STDOUT_ERASE,
REDIRECT_STDIN
}; };
WordList *newList = NULL; WordList *newList = NULL;
int max = sizeof(op_str) / sizeof(char*); int max = sizeof(op_str) / sizeof(char*);

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@ -27,7 +27,7 @@ void fishLoop(Settings * settings);
char * fishReadLine(); char * fishReadLine();
int countSeparators(char *string, char *separators); // Tested int countSeparators(char *string, char *regex); // Tested
int fishLoad(WordArray *array); int fishLoad(WordArray *array);
@ -37,4 +37,12 @@ WordList *parseWordList(WordList *list, shell_operator *an_operator);
int loadRightCommand(WordArray *array); int loadRightCommand(WordArray *array);
/* IN/OUT functions */
/* Get a global pipe_redirection structure */
pipe_redirection * getRedirection();
/* Free redirection structure DO NOT TRY TO GET REDIRECTION AFTER */
void freeRedirection();
#endif //FISH_FISH_CORE_H #endif //FISH_FISH_CORE_H

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@ -20,9 +20,20 @@ typedef enum {
BACKGROUND_PROCESS, BACKGROUND_PROCESS,
AND, AND,
OR, OR,
REVERSE_AND REVERSE_AND,
REDIRECT_STDOUT_ERASE,
REDIRECT_STDOUT_APPEND,
REDIRECT_STDERR_ERASE,
REDIRECT_STDERR_APPEND,
REDIRECT_STDIN
} shell_operator ; } shell_operator ;
typedef enum {
READ,
WRITE,
READ_AND_WRITE
} redirection_mode ;
typedef struct { typedef struct {
char ** words; char ** words;
int size; int size;
@ -47,6 +58,15 @@ typedef struct {
struct passwd* passwd; struct passwd* passwd;
} Settings; } Settings;
typedef struct {
int to_use;
int nb;
int nb_max;
int file_use;
int tmp_files[2];
char * files_name[2];
redirection_mode read;
} pipe_redirection;
typedef int (builtinCommand) (WordArray*); typedef int (builtinCommand) (WordArray*);

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@ -29,5 +29,8 @@ TEST(command_split, split){
} }
TEST(count_tokens, countSeparators){ TEST(count_tokens, countSeparators){
ASSERT_TRUE(countSeparators((char*) "Ceci est un super \n test", (char*) FISH_TOKENS) == 6); ASSERT_TRUE(countSeparators((char*) "Ceci est un super \n test", (char*) " ") == 5);
ASSERT_TRUE(countSeparators((char*) "patate | patate| patatine", (char*) "\\|") == 2);
ASSERT_TRUE(countSeparators((char*) "patate | patate| patatine |", (char*) "\\|") == 3);
ASSERT_TRUE(countSeparators((char*) "patate | patate|| patatine |", (char*) "\\|[^\\|]") == 2);
} }