#include "cmd_runtime.h" #include static void ush_wc_write_u64_dec(u64 value) { char tmp[32]; u64 len = 0ULL; if (value == 0ULL) { (void)putchar('0'); return; } while (value > 0ULL && len < (u64)sizeof(tmp)) { tmp[len++] = (char)('0' + (value % 10ULL)); value /= 10ULL; } while (len > 0ULL) { len--; (void)putchar((unsigned char)tmp[len]); } } static int ush_wc_parse_args(const char *arg, char *out_file, u64 out_file_size) { char first[USH_PATH_MAX]; const char *rest = ""; if (out_file == (char *)0 || out_file_size == 0ULL) { return 0; } out_file[0] = '\0'; if (arg == (const char *)0 || arg[0] == '\0') { return 1; } if (ush_split_first_and_rest(arg, first, (u64)sizeof(first), &rest) == 0) { return 0; } if (rest != (const char *)0 && rest[0] != '\0') { return 0; } ush_copy(out_file, out_file_size, first); return 1; } static int ush_wc_load_input(const ush_state *sh, const char *file_arg, const char **out_input, u64 *out_input_len) { static char file_buf[USH_COPY_MAX + 1U]; char path[USH_PATH_MAX]; u64 size; u64 got; if (sh == (const ush_state *)0 || out_input == (const char **)0 || out_input_len == (u64 *)0) { return 0; } *out_input = (const char *)0; *out_input_len = 0ULL; if (file_arg != (const char *)0 && file_arg[0] != '\0') { if (ush_resolve_path(sh, file_arg, path, (u64)sizeof(path)) == 0) { (void)puts("wc: invalid path"); return 0; } if (cleonos_sys_fs_stat_type(path) != 1ULL) { (void)puts("wc: file not found"); return 0; } size = cleonos_sys_fs_stat_size(path); if (size == (u64)-1) { (void)puts("wc: failed to stat file"); return 0; } if (size > (u64)USH_COPY_MAX) { (void)puts("wc: file too large for user buffer"); return 0; } if (size == 0ULL) { file_buf[0] = '\0'; *out_input = file_buf; *out_input_len = 0ULL; return 1; } got = cleonos_sys_fs_read(path, file_buf, size); if (got == 0ULL || got != size) { (void)puts("wc: read failed"); return 0; } file_buf[got] = '\0'; *out_input = file_buf; *out_input_len = got; return 1; } if (ush_pipeline_stdin_text == (const char *)0) { (void)puts("wc: file path required (or pipeline input)"); return 0; } *out_input = ush_pipeline_stdin_text; *out_input_len = ush_pipeline_stdin_len; return 1; } static int ush_cmd_wc(const ush_state *sh, const char *arg) { char file_arg[USH_PATH_MAX]; const char *input = (const char *)0; u64 input_len = 0ULL; u64 bytes = 0ULL; u64 lines = 0ULL; u64 words = 0ULL; u64 i; int in_word = 0; if (sh == (const ush_state *)0) { return 0; } if (ush_wc_parse_args(arg, file_arg, (u64)sizeof(file_arg)) == 0) { (void)puts("wc: usage wc [file]"); return 0; } if (ush_wc_load_input(sh, file_arg, &input, &input_len) == 0) { return 0; } bytes = input_len; for (i = 0ULL; i < input_len; i++) { char ch = input[i]; if (ch == '\n') { lines++; } if (ush_is_space(ch) != 0) { in_word = 0; } else if (in_word == 0) { words++; in_word = 1; } } ush_wc_write_u64_dec(lines); (void)putchar(' '); ush_wc_write_u64_dec(words); (void)putchar(' '); ush_wc_write_u64_dec(bytes); (void)putchar('\n'); return 1; } int cleonos_app_main(void) { ush_cmd_ctx ctx; ush_cmd_ret ret; ush_state sh; char initial_cwd[USH_PATH_MAX]; int has_context = 0; int success = 0; const char *arg = ""; ush_zero(&ctx, (u64)sizeof(ctx)); ush_zero(&ret, (u64)sizeof(ret)); ush_init_state(&sh); ush_copy(initial_cwd, (u64)sizeof(initial_cwd), sh.cwd); if (ush_command_ctx_read(&ctx) != 0) { if (ctx.cmd[0] != '\0' && ush_streq(ctx.cmd, "wc") != 0) { has_context = 1; arg = ctx.arg; if (ctx.cwd[0] == '/') { ush_copy(sh.cwd, (u64)sizeof(sh.cwd), ctx.cwd); ush_copy(initial_cwd, (u64)sizeof(initial_cwd), sh.cwd); } } } success = ush_cmd_wc(&sh, arg); if (has_context != 0) { if (ush_streq(sh.cwd, initial_cwd) == 0) { ret.flags |= USH_CMD_RET_FLAG_CWD; ush_copy(ret.cwd, (u64)sizeof(ret.cwd), sh.cwd); } if (sh.exit_requested != 0) { ret.flags |= USH_CMD_RET_FLAG_EXIT; ret.exit_code = sh.exit_code; } (void)ush_command_ret_write(&ret); } return (success != 0) ? 0 : 1; }