/* * ls */ #include #include #include #include #include #include #include #include #define MIN_COL_SPACING 2 #define EXE_COLOR "1;32" #define DIR_COLOR "1;34" #define REG_COLOR "0" #define MEDIA_COLOR "" #define SYM_COLOR "" #define BROKEN_COLOR "1;" /* Shit that belongs as a separate data structure */ typedef struct node { struct node * next; struct node * prev; void * value; } __attribute__((packed)) node_t; typedef struct { node_t * head; node_t * tail; size_t length; } __attribute__((packed)) list_t; void list_destroy(list_t * list); void list_free(list_t * list); void list_append(list_t * list, node_t * item); void list_insert(list_t * list, void * item); list_t * list_create(); node_t * list_find(list_t * list, void * value); void list_remove(list_t * list, size_t index); void list_delete(list_t * list, node_t * node); node_t * list_pop(list_t * list); node_t * list_dequeue(list_t * list); list_t * list_copy(list_t * original); void list_merge(list_t * target, list_t * source); #define foreach(i, list) for (node_t * i = list->head; i != NULL; i = i->next) void list_destroy(list_t * list) { /* Free all of the contents of a list */ node_t * n = list->head; while (n) { free(n->value); n = n->next; } } void list_free(list_t * list) { /* Free the actual structure of a list */ node_t * n = list->head; while (n) { node_t * s = n->next; free(n); n = s; } } void list_append(list_t * list, node_t * node) { /* Insert a node onto the end of a list */ if (!list->tail) { list->head = node; } else { list->tail->next = node; node->prev = list->tail; } list->tail = node; list->length++; } void list_insert(list_t * list, void * item) { /* Insert an item into a list */ node_t * node = malloc(sizeof(node_t)); node->value = item; node->next = NULL; node->prev = NULL; list_append(list, node); } list_t * list_create() { /* Create a fresh list */ list_t * out = malloc(sizeof(list_t)); out->head = NULL; out->tail = NULL; out->length = 0; return out; } node_t * list_find(list_t * list, void * value) { foreach(item, list) { if (item->value == value) { return item; } } return NULL; } void list_remove(list_t * list, size_t index) { /* remove index from the list */ if (index > list->length) return; size_t i = 0; node_t * n = list->head; while (i < index) { n = n->next; i++; } list_delete(list, n); } void list_delete(list_t * list, node_t * node) { /* remove node from the list */ if (node == list->head) { list->head = node->next; } if (node == list->tail) { list->tail = node->prev; } if (node->prev) { node->prev->next = node->next; } if (node->next) { node->next->prev = node->prev; } list->length--; } node_t * list_pop(list_t * list) { /* Remove and return the last value in the list * If you don't need it, you still probably want to free it! * Try free(list_pop(list)); ! * */ if (!list->tail) return NULL; node_t * out = list->tail; list_delete(list, list->tail); return out; } node_t * list_dequeue(list_t * list) { if (!list->head) return NULL; node_t * out = list->head; list_delete(list, list->head); return out; } list_t * list_copy(list_t * original) { /* Create a new copy of original */ list_t * out = list_create(); node_t * node = original->head; while (node) { list_insert(out, node->value); } return out; } void list_merge(list_t * target, list_t * source) { /* Destructively merges source into target */ if (target->tail) { target->tail->next = source->head; } else { target->head = source->head; } if (source->tail) { target->tail = source->tail; } target->length += source->length; free(source); } /* Shit that belongs in the clib */ int max (int a, int b) { if (a > b) { return a; } else { return b; } } DEFN_SYSCALL3(readdir, 27, int, int, void *) /* Should be kept in sync with 'struct dirent' in kernel/include/fs.h */ struct dirent { uint32_t inode; char name[256]; }; typedef struct DIR { int fd; int cur_entry; } DIR; DIR * opendir (const char * dirname) { int fd = open(dirname, O_RDONLY); if (fd == -1) { return NULL; } DIR * dir = malloc(sizeof(DIR)); dir->fd = fd; dir->cur_entry = -1; return dir; } int closedir (DIR * dir) { if (dir && (dir->fd != -1)) { return close(dir->fd); } else { return -1; } } struct dirent * readdir (DIR * dirp) { static struct dirent ent; int ret = syscall_readdir(dirp->fd, ++dirp->cur_entry, &ent); if (ret != 0) { memset(&ent, 0, sizeof(struct dirent)); return NULL; } return &ent; } // TODO: This thing is broken! Oh fuck! /* int readdir_r (DIR *restrict dirp, struct dirent *restrict entry, struct dirent **restrict result) { if ((dirp == NULL) || (dirp->fd == -1)) { *result = NULL; return -1; } struct dirent * ent = malloc(sizeof(struct dirent)); // Find the guy int index = 0; while (1) { int ret = syscall_readdir(dirp->fd, index++, ent); if (ret == -1) { *result = NULL; return -1; } } return 0; } */ /* The program */ int entcmp (const void * c1, const void * c2) { struct dirent * d1 = *(struct dirent **)c1; struct dirent * d2 = *(struct dirent **)c2; return strcmp(d1->name, d2->name); } void print_entry (const char * filename, const char * srcpath, int colwidth) { /* Figure out full relpath */ char * relpath = malloc(strlen(srcpath) + strlen(filename) + 2); sprintf(relpath, "%s/%s", srcpath, filename); /* Classify file */ struct stat statbuf; stat(relpath, &statbuf); free(relpath); const char * ansi_color_str; if (S_ISDIR(statbuf.st_mode)) { // Directory ansi_color_str = DIR_COLOR; } else if (statbuf.st_mode & 0111) { // Executable ansi_color_str = EXE_COLOR; } else { // Something else ansi_color_str = REG_COLOR; } /* Print the file name */ printf("\033[%sm%s\033[0m", ansi_color_str, filename); /* Pad the rest of the column */ for (int rem = colwidth - strlen(filename); rem > 0; rem--) { printf(" "); } } int main (int argc, char * argv[]) { /* Parse arguments */ char * p = "."; int explicit_path_set = 0; int show_hidden = 0; #if 0 if (argc > 1) { int index, c; while ((c = getopt(argc, argv, "a")) != -1) { switch (c) { case 'a': show_hidden = 1; break; } } if (optind < argc) { p = argv[optind]; } } #else for (int i = 1; i < argc; i++) { if (strcmp(argv[i], "-a") == 0) { show_hidden = 1; } else if (!explicit_path_set) { p = argv[i]; explicit_path_set = 1; } } #endif /* Open the directory */ DIR * dirp = opendir(p); if (dirp == NULL) { printf("no such directory\n"); return -1; } /* Read the entries in the directory */ list_t * ents_list = list_create(); struct dirent * ent = readdir(dirp); while (ent != NULL) { if (show_hidden || (ent->name[0] != '.')) { struct dirent * entcpy = malloc(sizeof(struct dirent)); memcpy(entcpy, ent, sizeof(struct dirent)); list_insert(ents_list, (void *)entcpy); } ent = readdir(dirp); } closedir(dirp); /* Now, copy those entries into an array (for sorting) */ struct dirent ** ents_array = malloc(sizeof(struct dirent *) * ents_list->length); int index = 0; node_t * node; foreach(node, ents_list) { ents_array[index++] = (struct dirent *)node->value; } list_free(ents_list); int numents = index; qsort(ents_array, numents, sizeof(struct dirent *), entcmp); /* Determine the gridding dimensions */ int ent_max_len = 0; for (int i = 0; i < numents; i++) { ent_max_len = max(ent_max_len, strlen(ents_array[i]->name)); } const int term_width = 128; // For now, we assume 128 int col_ext = ent_max_len + MIN_COL_SPACING; int cols = ((term_width - ent_max_len) / col_ext) + 1; #if 0 fprintf(stderr, "Printing %dx%d grid (max width: %d)\n", cols, (numents/cols), ent_max_len); #endif /* Print the entries */ // Print rows for (int i = 0; i < numents;) { // Print columns on this row print_entry(ents_array[i++]->name, p, ent_max_len); for (int j = 0; (i < numents) && (j < (cols-1)); j++) { printf(" "); print_entry(ents_array[i++]->name, p, ent_max_len); } printf("\n"); } free(ents_array); return 0; } /* * vim: tabstop=4 * vim: shiftwidth=4 * vim: noexpandtab */