// Functions for syntax highlighting. #include "config.h" // IWYU pragma: keep // IWYU pragma: no_include #include #include #include #include #include #include #include #include #include #include #include #include #include "builtin.h" #include "color.h" #include "common.h" #include "env.h" #include "expand.h" #include "fallback.h" // IWYU pragma: keep #include "function.h" #include "highlight.h" #include "history.h" #include "output.h" #include "parse_constants.h" #include "parse_tree.h" #include "parse_util.h" #include "path.h" #include "tokenizer.h" #include "wildcard.h" #include "wutil.h" // IWYU pragma: keep #define CURSOR_POSITION_INVALID ((size_t)(-1)) /// Number of elements in the highlight_var array. #define VAR_COUNT (sizeof(highlight_var) / sizeof(wchar_t *)) /// The environment variables used to specify the color of different tokens. This matches the order /// in highlight_spec_t. static const wchar_t *const highlight_var[] = {L"fish_color_normal", L"fish_color_error", L"fish_color_command", L"fish_color_end", L"fish_color_param", L"fish_color_comment", L"fish_color_match", L"fish_color_search_match", L"fish_color_operator", L"fish_color_escape", L"fish_color_quote", L"fish_color_redirection", L"fish_color_autosuggestion", L"fish_color_selection", L"fish_pager_color_prefix", L"fish_pager_color_completion", L"fish_pager_color_description", L"fish_pager_color_progress", L"fish_pager_color_secondary"}; /// Determine if the filesystem containing the given fd is case insensitive for lookups regardless /// of whether it preserves the case when saving a pathname. /// /// Returns: /// false: the filesystem is not case insensitive /// true: the file system is case insensitive typedef std::map case_sensitivity_cache_t; bool fs_is_case_insensitive(const wcstring &path, int fd, case_sensitivity_cache_t &case_sensitivity_cache) { bool result = false; #ifdef _PC_CASE_SENSITIVE // Try the cache first. case_sensitivity_cache_t::iterator cache = case_sensitivity_cache.find(path); if (cache != case_sensitivity_cache.end()) { /* Use the cached value */ result = cache->second; } else { // Ask the system. A -1 value means error (so assume case sensitive), a 1 value means case // sensitive, and a 0 value means case insensitive. long ret = fpathconf(fd, _PC_CASE_SENSITIVE); result = (ret == 0); case_sensitivity_cache[path] = result; } #else // Silence lint tools about the unused parameters. UNUSED(path); UNUSED(fd); UNUSED(case_sensitivity_cache); #endif return result; } /// Tests whether the specified string cpath is the prefix of anything we could cd to. directories /// is a list of possible parent directories (typically either the working directory, or the /// cdpath). This does I/O! /// /// Hack: if out_suggested_cdpath is not NULL, it returns the autosuggestion for cd. This descends /// the deepest unique directory hierarchy. /// /// We expect the path to already be unescaped. bool is_potential_path(const wcstring &potential_path_fragment, const wcstring_list_t &directories, path_flags_t flags) { ASSERT_IS_BACKGROUND_THREAD(); const bool require_dir = static_cast(flags & PATH_REQUIRE_DIR); wcstring clean_potential_path_fragment; int has_magic = 0; bool result = false; wcstring path_with_magic(potential_path_fragment); if (flags & PATH_EXPAND_TILDE) expand_tilde(path_with_magic); // debug( 1, L"%ls -> %ls ->%ls", path, tilde, unescaped ); for (size_t i = 0; i < path_with_magic.size(); i++) { wchar_t c = path_with_magic.at(i); switch (c) { case PROCESS_EXPAND: case VARIABLE_EXPAND: case VARIABLE_EXPAND_SINGLE: case BRACKET_BEGIN: case BRACKET_END: case BRACKET_SEP: case ANY_CHAR: case ANY_STRING: case ANY_STRING_RECURSIVE: { has_magic = 1; break; } case INTERNAL_SEPARATOR: { break; } default: { clean_potential_path_fragment.push_back(c); break; } } } if (has_magic || clean_potential_path_fragment.empty()) { return result; } // Don't test the same path multiple times, which can happen if the path is absolute and the // CDPATH contains multiple entries. std::set checked_paths; // Keep a cache of which paths / filesystems are case sensitive. case_sensitivity_cache_t case_sensitivity_cache; for (size_t wd_idx = 0; wd_idx < directories.size() && !result; wd_idx++) { const wcstring &wd = directories.at(wd_idx); const wcstring abs_path = path_apply_working_directory(clean_potential_path_fragment, wd); // Skip this if it's empty or we've already checked it. if (abs_path.empty() || checked_paths.count(abs_path)) continue; checked_paths.insert(abs_path); // If we end with a slash, then it must be a directory. bool must_be_full_dir = abs_path.at(abs_path.size() - 1) == L'/'; if (must_be_full_dir) { struct stat buf; if (0 == wstat(abs_path, &buf) && S_ISDIR(buf.st_mode)) { result = true; } } else { // We do not end with a slash; it does not have to be a directory. DIR *dir = NULL; const wcstring dir_name = wdirname(abs_path); const wcstring filename_fragment = wbasename(abs_path); if (dir_name == L"/" && filename_fragment == L"/") { // cd ///.... No autosuggestion. result = true; } else if ((dir = wopendir(dir_name))) { // Check if we're case insensitive. const bool do_case_insensitive = fs_is_case_insensitive(dir_name, dirfd(dir), case_sensitivity_cache); wcstring matched_file; // We opened the dir_name; look for a string where the base name prefixes it Don't // ask for the is_dir value unless we care, because it can cause extra filesystem // access. wcstring ent; bool is_dir = false; while (wreaddir_resolving(dir, dir_name, ent, require_dir ? &is_dir : NULL)) { // Maybe skip directories. if (require_dir && !is_dir) { continue; } if (string_prefixes_string(filename_fragment, ent) || (do_case_insensitive && string_prefixes_string_case_insensitive(filename_fragment, ent))) { matched_file = ent; // we matched break; } } closedir(dir); result = !matched_file.empty(); // we succeeded if we found a match } } } return result; } // Given a string, return whether it prefixes a path that we could cd into. Return that path in // out_path. Expects path to be unescaped. static bool is_potential_cd_path(const wcstring &path, const wcstring &working_directory, path_flags_t flags) { wcstring_list_t directories; if (string_prefixes_string(L"./", path)) { // Ignore the CDPATH in this case; just use the working directory. directories.push_back(working_directory); } else { // Get the CDPATH. env_var_t cdpath = env_get_string(L"CDPATH"); if (cdpath.missing_or_empty()) cdpath = L"."; // Tokenize it into directories. std::vector pathsv; tokenize_variable_array(cdpath, pathsv); for (auto next_path : pathsv) { if (next_path.empty()) next_path = L"."; // Ensure that we use the working directory for relative cdpaths like ".". directories.push_back(path_apply_working_directory(next_path, working_directory)); } } // Call is_potential_path with all of these directories. return is_potential_path(path, directories, flags | PATH_REQUIRE_DIR); } // Given a plain statement node in a parse tree, get the command and return it, expanded // appropriately for commands. If we succeed, return true. bool plain_statement_get_expanded_command(const wcstring &src, const parse_node_tree_t &tree, const parse_node_t &plain_statement, wcstring *out_cmd) { assert(plain_statement.type == symbol_plain_statement); // Get the command. Try expanding it. If we cannot, it's an error. wcstring cmd; if (tree.command_for_plain_statement(plain_statement, src, &cmd) && expand_one(cmd, EXPAND_SKIP_CMDSUBST | EXPAND_SKIP_VARIABLES | EXPAND_SKIP_JOBS)) { // Success, return the expanded string by reference. *out_cmd = std::move(cmd); return true; } return false; } rgb_color_t highlight_get_color(highlight_spec_t highlight, bool is_background) { rgb_color_t result = rgb_color_t::normal(); // If sloppy_background is set, then we look at the foreground color even if is_background is // set. bool treat_as_background = is_background && !(highlight & highlight_modifier_sloppy_background); // Get the primary variable. size_t idx = highlight_get_primary(highlight); if (idx >= VAR_COUNT) { return rgb_color_t::normal(); } env_var_t val_wstr = env_get_string(highlight_var[idx]); // debug( 1, L"%d -> %d -> %ls", highlight, idx, val ); if (val_wstr.missing()) val_wstr = env_get_string(highlight_var[0]); if (!val_wstr.missing()) result = parse_color(val_wstr, treat_as_background); // Handle modifiers. if (highlight & highlight_modifier_valid_path) { env_var_t val2_wstr = env_get_string(L"fish_color_valid_path"); const wcstring val2 = val2_wstr.missing() ? L"" : val2_wstr.c_str(); rgb_color_t result2 = parse_color(val2, is_background); if (result.is_normal()) result = result2; else { if (result2.is_bold()) result.set_bold(true); if (result2.is_underline()) result.set_underline(true); if (result2.is_italics()) result.set_italics(true); if (result2.is_dim()) result.set_dim(true); if (result2.is_reverse()) result.set_reverse(true); } } if (highlight & highlight_modifier_force_underline) { result.set_underline(true); } return result; } static bool has_expand_reserved(const wcstring &str) { bool result = false; for (size_t i = 0; i < str.size(); i++) { wchar_t wc = str.at(i); if (wc >= EXPAND_RESERVED_BASE && wc <= EXPAND_RESERVED_END) { result = true; break; } } return result; } // Parse a command line. Return by reference the last command, and the last argument to that command // (as a copied node), if any. This is used by autosuggestions. static bool autosuggest_parse_command(const wcstring &buff, wcstring *out_expanded_command, parse_node_t *out_last_arg) { // Parse the buffer. parse_node_tree_t parse_tree; parse_tree_from_string(buff, parse_flag_continue_after_error | parse_flag_accept_incomplete_tokens, &parse_tree, NULL); // Find the last statement. const parse_node_t *last_statement = parse_tree.find_last_node_of_type(symbol_plain_statement, NULL); if (last_statement != NULL && plain_statement_get_expanded_command( buff, parse_tree, *last_statement, out_expanded_command)) { // Find the last argument. If we don't get one, return an invalid node. const parse_node_t *last_arg = parse_tree.find_last_node_of_type(symbol_argument, last_statement); if (last_arg != NULL) { *out_last_arg = *last_arg; } return true; } return false; } bool autosuggest_validate_from_history(const history_item_t &item, const wcstring &working_directory, const env_vars_snapshot_t &vars) { ASSERT_IS_BACKGROUND_THREAD(); bool handled = false, suggestionOK = false; // Parse the string. wcstring parsed_command; parse_node_t last_arg_node(token_type_invalid); if (!autosuggest_parse_command(item.str(), &parsed_command, &last_arg_node)) return false; if (parsed_command == L"cd" && last_arg_node.type == symbol_argument && last_arg_node.has_source()) { // We can possibly handle this specially. wcstring dir = last_arg_node.get_source(item.str()); if (expand_one(dir, EXPAND_SKIP_CMDSUBST)) { handled = true; bool is_help = string_prefixes_string(dir, L"--help") || string_prefixes_string(dir, L"-h"); if (!is_help) { wcstring path; bool can_cd = path_get_cdpath(dir, &path, working_directory.c_str(), vars); if (can_cd && !paths_are_same_file(working_directory, path)) { suggestionOK = true; } } } } if (handled) { return suggestionOK; } // Not handled specially so handle it here. bool cmd_ok = false; if (path_get_path(parsed_command, NULL)) { cmd_ok = true; } else if (builtin_exists(parsed_command) || function_exists_no_autoload(parsed_command, vars)) { cmd_ok = true; } if (cmd_ok) { const path_list_t &paths = item.get_required_paths(); suggestionOK = all_paths_are_valid(paths, working_directory); } return suggestionOK; } // Highlights the variable starting with 'in', setting colors within the 'colors' array. Returns the // number of characters consumed. static size_t color_variable(const wchar_t *in, size_t in_len, std::vector::iterator colors) { assert(in_len > 0); assert(in[0] == L'$'); // Handle an initial run of $s. size_t idx = 0; size_t dollar_count = 0; while (in[idx] == '$') { // Our color depends on the next char. wchar_t next = in[idx + 1]; if (next == L'$' || valid_var_name_char(next)) { colors[idx] = highlight_spec_operator; } else { colors[idx] = highlight_spec_error; } idx++; dollar_count++; } // Handle a sequence of variable characters. while (valid_var_name_char(in[idx])) { colors[idx++] = highlight_spec_operator; } // Handle a slice, up to dollar_count of them. Note that we currently don't do any validation of // the slice's contents, e.g. $foo[blah] will not show an error even though it's invalid. for (size_t slice_count = 0; slice_count < dollar_count && in[idx] == L'['; slice_count++) { wchar_t *slice_begin = NULL, *slice_end = NULL; int located = parse_util_locate_slice(in + idx, &slice_begin, &slice_end, false); if (located == 1) { size_t slice_begin_idx = slice_begin - in, slice_end_idx = slice_end - in; assert(slice_end_idx > slice_begin_idx); colors[slice_begin_idx] = highlight_spec_operator; colors[slice_end_idx] = highlight_spec_operator; idx = slice_end_idx + 1; } else if (located == 0) { // not a slice break; } else { assert(located < 0); // Syntax error. Normally the entire token is colored red for us, but inside a // double-quoted string that doesn't happen. As such, color the variable + the slice // start red. Coloring any more than that looks bad, unless we're willing to try and // detect where the double-quoted string ends, and I'd rather not do that. std::fill(colors, colors + idx + 1, (highlight_spec_t)highlight_spec_error); break; } } return idx; } /// This function is a disaster badly in need of refactoring. It colors an argument, without regard /// to command substitutions. static void color_argument_internal(const wcstring &buffstr, std::vector::iterator colors) { const size_t buff_len = buffstr.size(); std::fill(colors, colors + buff_len, (highlight_spec_t)highlight_spec_param); enum { e_unquoted, e_single_quoted, e_double_quoted } mode = e_unquoted; int bracket_count = 0; for (size_t in_pos = 0; in_pos < buff_len; in_pos++) { const wchar_t c = buffstr.at(in_pos); switch (mode) { case e_unquoted: { if (c == L'\\') { int fill_color = highlight_spec_escape; // may be set to highlight_error const size_t backslash_pos = in_pos; size_t fill_end = backslash_pos; // Move to the escaped character. in_pos++; const wchar_t escaped_char = (in_pos < buff_len ? buffstr.at(in_pos) : L'\0'); if (escaped_char == L'\0') { fill_end = in_pos; fill_color = highlight_spec_error; } else if (wcschr(L"~%", escaped_char)) { if (in_pos == 1) { fill_end = in_pos + 1; } } else if (escaped_char == L',') { if (bracket_count) { fill_end = in_pos + 1; } } else if (wcschr(L"abefnrtv*?$(){}[]'\"<>^ \\#;|&", escaped_char)) { fill_end = in_pos + 1; } else if (wcschr(L"c", escaped_char)) { // Like \ci. So highlight three characters. fill_end = in_pos + 1; } else if (wcschr(L"uUxX01234567", escaped_char)) { long long res = 0; int chars = 2; int base = 16; wchar_t max_val = ASCII_MAX; switch (escaped_char) { case L'u': { chars = 4; max_val = UCS2_MAX; in_pos++; break; } case L'U': { chars = 8; max_val = WCHAR_MAX; in_pos++; break; } case L'x': { in_pos++; break; } case L'X': { max_val = BYTE_MAX; in_pos++; break; } default: { // a digit like \12 base = 8; chars = 3; break; } } // Consume for (int i = 0; i < chars && in_pos < buff_len; i++) { long d = convert_digit(buffstr.at(in_pos), base); if (d < 0) break; res = (res * base) + d; in_pos++; } // in_pos is now at the first character that could not be converted (or // buff_len). assert(in_pos >= backslash_pos && in_pos <= buff_len); fill_end = in_pos; // It's an error if we exceeded the max value. if (res > max_val) fill_color = highlight_spec_error; // Subtract one from in_pos, so that the increment in the loop will move to // the next character. in_pos--; } assert(fill_end >= backslash_pos); std::fill(colors + backslash_pos, colors + fill_end, fill_color); } else { // Not a backslash. switch (c) { case L'~': case L'%': { if (in_pos == 0) { colors[in_pos] = highlight_spec_operator; } break; } case L'$': { assert(in_pos < buff_len); in_pos += color_variable(buffstr.c_str() + in_pos, buff_len - in_pos, colors + in_pos); // Subtract one to account for the upcoming loop increment. in_pos -= 1; break; } case L'*': case L'?': case L'(': case L')': { colors[in_pos] = highlight_spec_operator; break; } case L'{': { colors[in_pos] = highlight_spec_operator; bracket_count++; break; } case L'}': { colors[in_pos] = highlight_spec_operator; bracket_count--; break; } case L',': { if (bracket_count > 0) { colors[in_pos] = highlight_spec_operator; } break; } case L'\'': { colors[in_pos] = highlight_spec_quote; mode = e_single_quoted; break; } case L'\"': { colors[in_pos] = highlight_spec_quote; mode = e_double_quoted; break; } default: { break; // we ignore all other characters } } } break; } // Mode 1 means single quoted string, i.e 'foo'. case e_single_quoted: { colors[in_pos] = highlight_spec_quote; if (c == L'\\') { // backslash if (in_pos + 1 < buff_len) { const wchar_t escaped_char = buffstr.at(in_pos + 1); if (escaped_char == L'\\' || escaped_char == L'\'') { colors[in_pos] = highlight_spec_escape; // backslash colors[in_pos + 1] = highlight_spec_escape; // escaped char in_pos += 1; // skip over backslash } } } else if (c == L'\'') { mode = e_unquoted; } break; } // Mode 2 means double quoted string, i.e. "foo". case e_double_quoted: { // Slices are colored in advance, past `in_pos`, and we don't want to overwrite // that. if (colors[in_pos] == highlight_spec_param) { colors[in_pos] = highlight_spec_quote; } switch (c) { case L'"': { mode = e_unquoted; break; } case L'\\': { // Backslash if (in_pos + 1 < buff_len) { const wchar_t escaped_char = buffstr.at(in_pos + 1); if (wcschr(L"\\\"\n$", escaped_char)) { colors[in_pos] = highlight_spec_escape; // backslash colors[in_pos + 1] = highlight_spec_escape; // escaped char in_pos += 1; // skip over backslash } } break; } case L'$': { in_pos += color_variable(buffstr.c_str() + in_pos, buff_len - in_pos, colors + in_pos); // Subtract one to account for the upcoming increment in the loop. in_pos -= 1; break; } default: { break; // we ignore all other characters } } break; } } } } /// Syntax highlighter helper. class highlighter_t { // The string we're highlighting. Note this is a reference memmber variable (to avoid copying)! // We must not outlive this! const wcstring &buff; // Cursor position. const size_t cursor_pos; // Environment variables. Again, a reference member variable! const env_vars_snapshot_t &vars; // Whether it's OK to do I/O. const bool io_ok; // Working directory. const wcstring working_directory; // The resulting colors. typedef std::vector color_array_t; color_array_t color_array; // The parse tree of the buff. parse_node_tree_t parse_tree; // Color an argument. void color_argument(const parse_node_t &node); // Color a redirection. void color_redirection(const parse_node_t &node); // Color the arguments of the given node. void color_arguments(const parse_node_t &list_node); // Color the redirections of the given node. void color_redirections(const parse_node_t &list_node); // Color all the children of the command with the given type. void color_children(const parse_node_t &parent, parse_token_type_t type, highlight_spec_t color); // Colors the source range of a node with a given color. void color_node(const parse_node_t &node, highlight_spec_t color); public: // Constructor highlighter_t(const wcstring &str, size_t pos, const env_vars_snapshot_t &ev, const wcstring &wd, bool can_do_io) : buff(str), cursor_pos(pos), vars(ev), io_ok(can_do_io), working_directory(wd), color_array(str.size()) { // Parse the tree. parse_tree_from_string(buff, parse_flag_continue_after_error | parse_flag_include_comments, &this->parse_tree, NULL); } // Perform highlighting, returning an array of colors. const color_array_t &highlight(); }; void highlighter_t::color_node(const parse_node_t &node, highlight_spec_t color) { // Can only color nodes with valid source ranges. if (!node.has_source() || node.source_length == 0) return; // Fill the color array with our color in the corresponding range. size_t source_end = node.source_start + node.source_length; assert(source_end >= node.source_start); assert(source_end <= color_array.size()); std::fill(this->color_array.begin() + node.source_start, this->color_array.begin() + source_end, color); } // node does not necessarily have type symbol_argument here. void highlighter_t::color_argument(const parse_node_t &node) { if (!node.has_source()) return; const wcstring arg_str = node.get_source(this->buff); // Get an iterator to the colors associated with the argument. const size_t arg_start = node.source_start; const color_array_t::iterator arg_colors = color_array.begin() + arg_start; // Color this argument without concern for command substitutions. color_argument_internal(arg_str, arg_colors); // Now do command substitutions. size_t cmdsub_cursor = 0, cmdsub_start = 0, cmdsub_end = 0; wcstring cmdsub_contents; while (parse_util_locate_cmdsubst_range(arg_str, &cmdsub_cursor, &cmdsub_contents, &cmdsub_start, &cmdsub_end, true /* accept incomplete */) > 0) { // The cmdsub_start is the open paren. cmdsub_end is either the close paren or the end of // the string. cmdsub_contents extends from one past cmdsub_start to cmdsub_end. assert(cmdsub_end > cmdsub_start); assert(cmdsub_end - cmdsub_start - 1 == cmdsub_contents.size()); // Found a command substitution. Compute the position of the start and end of the cmdsub // contents, within our overall src. const size_t arg_subcmd_start = arg_start + cmdsub_start, arg_subcmd_end = arg_start + cmdsub_end; // Highlight the parens. The open paren must exist; the closed paren may not if it was // incomplete. assert(cmdsub_start < arg_str.size()); this->color_array.at(arg_subcmd_start) = highlight_spec_operator; if (arg_subcmd_end < this->buff.size()) this->color_array.at(arg_subcmd_end) = highlight_spec_operator; // Compute the cursor's position within the cmdsub. We must be past the open paren (hence >) // but can be at the end of the string or closed paren (hence <=). size_t cursor_subpos = CURSOR_POSITION_INVALID; if (cursor_pos != CURSOR_POSITION_INVALID && cursor_pos > arg_subcmd_start && cursor_pos <= arg_subcmd_end) { // The -1 because the cmdsub_contents does not include the open paren. cursor_subpos = cursor_pos - arg_subcmd_start - 1; } // Highlight it recursively. highlighter_t cmdsub_highlighter(cmdsub_contents, cursor_subpos, this->vars, this->working_directory, this->io_ok); const color_array_t &subcolors = cmdsub_highlighter.highlight(); // Copy out the subcolors back into our array. assert(subcolors.size() == cmdsub_contents.size()); std::copy(subcolors.begin(), subcolors.end(), this->color_array.begin() + arg_subcmd_start + 1); } } /// Indicates whether the source range of the given node forms a valid path in the given /// working_directory. static bool node_is_potential_path(const wcstring &src, const parse_node_t &node, const wcstring &working_directory) { if (!node.has_source()) return false; // Get the node source, unescape it, and then pass it to is_potential_path along with the // working directory (as a one element list). bool result = false; wcstring token(src, node.source_start, node.source_length); if (unescape_string_in_place(&token, UNESCAPE_SPECIAL)) { // Big hack: is_potential_path expects a tilde, but unescape_string gives us HOME_DIRECTORY. // Put it back. if (!token.empty() && token.at(0) == HOME_DIRECTORY) token.at(0) = L'~'; const wcstring_list_t working_directory_list(1, working_directory); result = is_potential_path(token, working_directory_list, PATH_EXPAND_TILDE); } return result; } // Color all of the arguments of the given command. void highlighter_t::color_arguments(const parse_node_t &list_node) { // Hack: determine whether the parent is the cd command, so we can show errors for // non-directories. bool cmd_is_cd = false; if (this->io_ok) { const parse_node_t *parent = this->parse_tree.get_parent(list_node, symbol_plain_statement); if (parent != NULL) { wcstring cmd_str; if (plain_statement_get_expanded_command(this->buff, this->parse_tree, *parent, &cmd_str)) { cmd_is_cd = (cmd_str == L"cd"); } } } // Find all the arguments of this list. const parse_node_tree_t::parse_node_list_t nodes = this->parse_tree.find_nodes(list_node, symbol_argument); for (size_t i = 0; i < nodes.size(); i++) { const parse_node_t *child = nodes.at(i); assert(child != NULL && child->type == symbol_argument); this->color_argument(*child); if (cmd_is_cd) { // Mark this as an error if it's not 'help' and not a valid cd path. wcstring param = child->get_source(this->buff); if (expand_one(param, EXPAND_SKIP_CMDSUBST)) { bool is_help = string_prefixes_string(param, L"--help") || string_prefixes_string(param, L"-h"); if (!is_help && this->io_ok && !is_potential_cd_path(param, working_directory, PATH_EXPAND_TILDE)) { this->color_node(*child, highlight_spec_error); } } } } } void highlighter_t::color_redirection(const parse_node_t &redirection_node) { assert(redirection_node.type == symbol_redirection); if (!redirection_node.has_source()) return; const parse_node_t *redirection_primitive = this->parse_tree.get_child(redirection_node, 0, parse_token_type_redirection); // like 2> const parse_node_t *redirection_target = this->parse_tree.get_child( redirection_node, 1, parse_token_type_string); // like &1 or file path if (redirection_primitive != NULL) { wcstring target; const enum token_type redirect_type = this->parse_tree.type_for_redirection(redirection_node, this->buff, NULL, &target); // We may get a TOK_NONE redirection type, e.g. if the redirection is invalid. auto hl = redirect_type == TOK_NONE ? highlight_spec_error : highlight_spec_redirection; this->color_node(*redirection_primitive, hl); // Check if the argument contains a command substitution. If so, highlight it as a param // even though it's a command redirection, and don't try to do any other validation. if (parse_util_locate_cmdsubst(target.c_str(), NULL, NULL, true) != 0) { if (redirection_target != NULL) { this->color_argument(*redirection_target); } } else { // No command substitution, so we can highlight the target file or fd. For example, // disallow redirections into a non-existent directory. bool target_is_valid = true; if (!this->io_ok) { // I/O is disallowed, so we don't have much hope of catching anything but gross // errors. Assume it's valid. target_is_valid = true; } else if (!expand_one(target, EXPAND_SKIP_CMDSUBST)) { // Could not be expanded. target_is_valid = false; } else { // Ok, we successfully expanded our target. Now verify that it works with this // redirection. We will probably need it as a path (but not in the case of fd // redirections). Note that the target is now unescaped. const wcstring target_path = path_apply_working_directory(target, this->working_directory); switch (redirect_type) { case TOK_REDIRECT_FD: { int fd = fish_wcstoi(target.c_str()); target_is_valid = !errno && fd >= 0; break; } case TOK_REDIRECT_IN: { // Input redirections must have a readable non-directory. struct stat buf = {}; target_is_valid = !waccess(target_path, R_OK) && !wstat(target_path, &buf) && !S_ISDIR(buf.st_mode); break; } case TOK_REDIRECT_OUT: case TOK_REDIRECT_APPEND: case TOK_REDIRECT_NOCLOB: { // Test whether the file exists, and whether it's writable (possibly after // creating it). access() returns failure if the file does not exist. bool file_exists = false, file_is_writable = false; int err = 0; struct stat buf = {}; if (wstat(target_path, &buf) < 0) { err = errno; } if (string_suffixes_string(L"/", target)) { // Redirections to things that are directories is definitely not // allowed. file_exists = false; file_is_writable = false; } else if (err == 0) { // No err. We can write to it if it's not a directory and we have // permission. file_exists = true; file_is_writable = !S_ISDIR(buf.st_mode) && !waccess(target_path, W_OK); } else if (err == ENOENT) { // File does not exist. Check if its parent directory is writable. wcstring parent = wdirname(target_path); // Ensure that the parent ends with the path separator. This will ensure // that we get an error if the parent directory is not really a // directory. if (!string_suffixes_string(L"/", parent)) parent.push_back(L'/'); // Now the file is considered writable if the parent directory is // writable. file_exists = false; file_is_writable = (0 == waccess(parent, W_OK)); } else { // Other errors we treat as not writable. This includes things like // ENOTDIR. file_exists = false; file_is_writable = false; } // NOCLOB means that we must not overwrite files that exist. target_is_valid = file_is_writable && !(file_exists && redirect_type == TOK_REDIRECT_NOCLOB); break; } default: { // We should not get here, since the node was marked as a redirection, but // treat it as an error for paranoia. target_is_valid = false; break; } } } if (redirection_target != NULL) { auto hl = target_is_valid ? highlight_spec_redirection : highlight_spec_error; this->color_node(*redirection_target, hl); } } } } /// Color all of the redirections of the given command. void highlighter_t::color_redirections(const parse_node_t &list_node) { const parse_node_tree_t::parse_node_list_t nodes = this->parse_tree.find_nodes(list_node, symbol_redirection); for (size_t i = 0; i < nodes.size(); i++) { this->color_redirection(*nodes.at(i)); } } /// Color all the children of the command with the given type. void highlighter_t::color_children(const parse_node_t &parent, parse_token_type_t type, highlight_spec_t color) { for (node_offset_t idx = 0; idx < parent.child_count; idx++) { const parse_node_t *child = this->parse_tree.get_child(parent, idx); if (child != NULL && child->type == type) { this->color_node(*child, color); } } } /// Determine if a command is valid. static bool command_is_valid(const wcstring &cmd, enum parse_statement_decoration_t decoration, const wcstring &working_directory, const env_vars_snapshot_t &vars) { // Determine which types we check, based on the decoration. bool builtin_ok = true, function_ok = true, abbreviation_ok = true, command_ok = true, implicit_cd_ok = true; if (decoration == parse_statement_decoration_command || decoration == parse_statement_decoration_exec) { builtin_ok = false; function_ok = false; abbreviation_ok = false; command_ok = true; implicit_cd_ok = false; } else if (decoration == parse_statement_decoration_builtin) { builtin_ok = true; function_ok = false; abbreviation_ok = false; command_ok = false; implicit_cd_ok = false; } // Check them. bool is_valid = false; // Builtins if (!is_valid && builtin_ok) is_valid = builtin_exists(cmd); // Functions if (!is_valid && function_ok) is_valid = function_exists_no_autoload(cmd, vars); // Abbreviations if (!is_valid && abbreviation_ok) is_valid = expand_abbreviation(cmd, NULL); // Regular commands if (!is_valid && command_ok) is_valid = path_get_path(cmd, NULL, vars); // Implicit cd if (!is_valid && implicit_cd_ok) is_valid = path_can_be_implicit_cd(cmd, NULL, working_directory.c_str(), vars); // Return what we got. return is_valid; } const highlighter_t::color_array_t &highlighter_t::highlight() { // If we are doing I/O, we must be in a background thread. if (io_ok) { ASSERT_IS_BACKGROUND_THREAD(); } const size_t length = buff.size(); assert(this->buff.size() == this->color_array.size()); if (length == 0) return color_array; // Start out at zero. std::fill(this->color_array.begin(), this->color_array.end(), 0); #if 0 // Disabled for the 2.2.0 release: https://github.com/fish-shell/fish-shell/issues/1809. const wcstring dump = parse_dump_tree(parse_tree, buff); fwprintf(stderr, L"%ls\n", dump.c_str()); #endif // Walk the node tree. for (parse_node_tree_t::const_iterator iter = parse_tree.begin(); iter != parse_tree.end(); ++iter) { const parse_node_t &node = *iter; switch (node.type) { // Color direct string descendants, e.g. 'for' and 'in'. case symbol_while_header: case symbol_begin_header: case symbol_function_header: case symbol_if_clause: case symbol_else_clause: case symbol_case_item: case symbol_boolean_statement: case symbol_decorated_statement: case symbol_if_statement: { this->color_children(node, parse_token_type_string, highlight_spec_command); break; } case symbol_switch_statement: { const parse_node_t *literal_switch = this->parse_tree.get_child(node, 0, parse_token_type_string); const parse_node_t *switch_arg = this->parse_tree.get_child(node, 1, symbol_argument); this->color_node(*literal_switch, highlight_spec_command); this->color_node(*switch_arg, highlight_spec_param); break; } case symbol_for_header: { // Color the 'for' and 'in' as commands. const parse_node_t *literal_for_node = this->parse_tree.get_child(node, 0, parse_token_type_string); const parse_node_t *literal_in_node = this->parse_tree.get_child(node, 2, parse_token_type_string); this->color_node(*literal_for_node, highlight_spec_command); this->color_node(*literal_in_node, highlight_spec_command); // Color the variable name as a parameter. const parse_node_t *var_name_node = this->parse_tree.get_child(node, 1, parse_token_type_string); this->color_argument(*var_name_node); break; } case parse_token_type_pipe: case parse_token_type_background: case parse_token_type_end: case symbol_optional_background: { this->color_node(node, highlight_spec_statement_terminator); break; } case symbol_plain_statement: { // Get the decoration from the parent. enum parse_statement_decoration_t decoration = parse_tree.decoration_for_plain_statement(node); // Color the command. const parse_node_t *cmd_node = parse_tree.get_child(node, 0, parse_token_type_string); if (cmd_node == NULL || !cmd_node->has_source()) { break; // not much as we can do without a node that has source text } bool is_valid_cmd = false; if (!this->io_ok) { // We cannot check if the command is invalid, so just assume it's valid. is_valid_cmd = true; } else { // Check to see if the command is valid. wcstring cmd(buff, cmd_node->source_start, cmd_node->source_length); // Try expanding it. If we cannot, it's an error. bool expanded = expand_one( cmd, EXPAND_SKIP_CMDSUBST | EXPAND_SKIP_VARIABLES | EXPAND_SKIP_JOBS); if (expanded && !has_expand_reserved(cmd)) { is_valid_cmd = command_is_valid(cmd, decoration, working_directory, vars); } } this->color_node(*cmd_node, is_valid_cmd ? highlight_spec_command : highlight_spec_error); break; } case symbol_arguments_or_redirections_list: case symbol_argument_list: { // Only work on root lists, so that we don't re-color child lists. if (parse_tree.argument_list_is_root(node)) { this->color_arguments(node); this->color_redirections(node); } break; } case symbol_end_command: { this->color_node(node, highlight_spec_command); break; } case parse_special_type_parse_error: case parse_special_type_tokenizer_error: { this->color_node(node, highlight_spec_error); break; } case parse_special_type_comment: { this->color_node(node, highlight_spec_comment); break; } default: { break; } } } if (!this->io_ok || this->cursor_pos > this->buff.size()) { return color_array; } // If the cursor is over an argument, and that argument is a valid path, underline it. for (parse_node_tree_t::const_iterator iter = parse_tree.begin(); iter != parse_tree.end(); ++iter) { const parse_node_t &node = *iter; // Must be an argument with source. if (node.type != symbol_argument || !node.has_source()) continue; // See if this node contains the cursor. We check <= source_length so that, when backspacing // (and the cursor is just beyond the last token), we may still underline it. if (this->cursor_pos >= node.source_start && this->cursor_pos - node.source_start <= node.source_length && node_is_potential_path(buff, node, working_directory)) { // It is, underline it. for (size_t i = node.source_start; i < node.source_start + node.source_length; i++) { // Don't color highlight_spec_error because it looks dorky. For example, // trying to cd into a non-directory would show an underline and also red. if (highlight_get_primary(this->color_array.at(i)) != highlight_spec_error) { this->color_array.at(i) |= highlight_modifier_valid_path; } } } } return color_array; } void highlight_shell(const wcstring &buff, std::vector &color, size_t pos, wcstring_list_t *error, const env_vars_snapshot_t &vars) { UNUSED(error); // Do something sucky and get the current working directory on this background thread. This // should really be passed in. const wcstring working_directory = env_get_pwd_slash(); // Highlight it! highlighter_t highlighter(buff, pos, vars, working_directory, true /* can do IO */); color = highlighter.highlight(); } void highlight_shell_no_io(const wcstring &buff, std::vector &color, size_t pos, wcstring_list_t *error, const env_vars_snapshot_t &vars) { UNUSED(error); // Do something sucky and get the current working directory on this background thread. This // should really be passed in. const wcstring working_directory = env_get_pwd_slash(); // Highlight it! highlighter_t highlighter(buff, pos, vars, working_directory, false /* no IO allowed */); color = highlighter.highlight(); } /// Perform quote and parenthesis highlighting on the specified string. static void highlight_universal_internal(const wcstring &buffstr, std::vector &color, size_t pos) { assert(buffstr.size() == color.size()); if (pos < buffstr.size()) { // Highlight matching quotes. if ((buffstr.at(pos) == L'\'') || (buffstr.at(pos) == L'\"')) { std::vector lst; int level = 0; wchar_t prev_q = 0; const wchar_t *const buff = buffstr.c_str(); const wchar_t *str = buff; int match_found = 0; while (*str) { switch (*str) { case L'\\': { str++; break; } case L'\"': case L'\'': { if (level == 0) { level++; lst.push_back(str - buff); prev_q = *str; } else { if (prev_q == *str) { size_t pos1, pos2; level--; pos1 = lst.back(); pos2 = str - buff; if (pos1 == pos || pos2 == pos) { color.at(pos1) |= highlight_make_background(highlight_spec_match); color.at(pos2) |= highlight_make_background(highlight_spec_match); match_found = 1; } prev_q = *str == L'\"' ? L'\'' : L'\"'; } else { level++; lst.push_back(str - buff); prev_q = *str; } } break; } default: { break; // we ignore all other characters } } if ((*str == L'\0')) break; str++; } if (!match_found) color.at(pos) = highlight_make_background(highlight_spec_error); } // Highlight matching parenthesis. const wchar_t c = buffstr.at(pos); if (wcschr(L"()[]{}", c)) { int step = wcschr(L"({[", c) ? 1 : -1; wchar_t dec_char = *(wcschr(L"()[]{}", c) + step); wchar_t inc_char = c; int level = 0; int match_found = 0; for (long i = pos; i >= 0 && (size_t)i < buffstr.size(); i += step) { const wchar_t test_char = buffstr.at(i); if (test_char == inc_char) level++; if (test_char == dec_char) level--; if (level == 0) { long pos2 = i; color.at(pos) |= highlight_spec_match << 16; color.at(pos2) |= highlight_spec_match << 16; match_found = 1; break; } } if (!match_found) color[pos] = highlight_make_background(highlight_spec_error); } } } void highlight_universal(const wcstring &buff, std::vector &color, size_t pos, wcstring_list_t *error, const env_vars_snapshot_t &vars) { UNUSED(error); UNUSED(vars); assert(buff.size() == color.size()); std::fill(color.begin(), color.end(), 0); highlight_universal_internal(buff, color, pos); }