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sortix--sortix/sh/sh.cpp
2015-08-26 17:49:28 +02:00

2380 lines
58 KiB
C++

/*******************************************************************************
Copyright(C) Jonas 'Sortie' Termansen 2011, 2012, 2013, 2014, 2015.
This program is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option)
any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along with
this program. If not, see <http://www.gnu.org/licenses/>.
sh.cpp
A hacky Sortix shell.
*******************************************************************************/
#include <sys/keycodes.h>
#include <sys/termmode.h>
#include <sys/wait.h>
#include <assert.h>
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <error.h>
#include <fcntl.h>
#include <inttypes.h>
#include <ioleast.h>
#include <libgen.h>
#include <locale.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <termios.h>
#include <unistd.h>
#include <wchar.h>
#include <wctype.h>
#if !defined(VERSIONSTR)
#define VERSIONSTR "unknown version"
#endif
static const unsigned int NORMAL_TERMMODE =
TERMMODE_UNICODE |
TERMMODE_SIGNAL |
TERMMODE_UTF8 |
TERMMODE_LINEBUFFER |
TERMMODE_ECHO;
const char* builtin_commands[] =
{
"cd",
"exit",
"unset",
"clearenv",
(const char*) NULL,
};
// TODO: Predict the terminal colors as well!
struct cursor_predict
{
bool escaped;
};
struct wincurpos predict_cursor(struct cursor_predict* cursor_predict,
struct wincurpos wcp,
struct winsize ws,
wchar_t c)
{
if ( c == L'\0' )
return wcp;
if ( cursor_predict->escaped )
{
if ( (L'a' <= c && c <= L'z') || (L'A' <= c && c <= L'Z') )
cursor_predict->escaped = false;
return wcp;
}
if ( c == L'\e' )
{
cursor_predict->escaped = true;
return wcp;
}
if ( c == L'\n' || ws.ws_col <= wcp.wcp_col + 1 )
{
wcp.wcp_col = 0;
if ( wcp.wcp_row + 1 < ws.ws_row )
wcp.wcp_row++;
}
else
{
wcp.wcp_col++;
}
return wcp;
}
bool predict_will_scroll(struct cursor_predict cursor_predict,
struct wincurpos wcp,
struct winsize ws,
wchar_t c)
{
if ( c == L'\0' )
return false;
if ( cursor_predict.escaped )
return false;
return (c == L'\n' || ws.ws_col <= wcp.wcp_col + 1) &&
!(wcp.wcp_row + 1 < ws.ws_row);
}
struct show_line
{
struct wincurpos wcp_start;
struct wincurpos wcp_current;
struct winsize ws;
int out_fd;
char* current_line;
size_t current_cursor;
bool invalidated;
};
void show_line_begin(struct show_line* show_state, int out_fd)
{
memset(show_state, 0, sizeof(*show_state));
show_state->out_fd = out_fd;
show_state->current_line = NULL;
show_state->current_cursor = 0;
tcgetwincurpos(out_fd, &show_state->wcp_start);
show_state->wcp_current = show_state->wcp_start;
tcgetwinsize(show_state->out_fd, &show_state->ws);
}
bool show_line_is_weird(const char* line)
{
for ( size_t i = 0; line[i]; i++ )
{
if ( line[i] == '\e' )
{
i++;
if ( line[i] != '[' )
return true;
i++;
while ( ('0' <= line[i] && line[i] <= '9') || line[i] == ';' )
i++;
switch ( line[i] )
{
case 'm': break;
default: return true;
}
continue;
}
switch ( line[i] )
{
case '\a': return true;
case '\b': return true;
case '\f': return true;
case '\r': return true;
case '\t': return true; // TODO: This isn't weird.
case '\v': return true;
default: break;
}
}
return false;
}
void show_line_change_cursor(struct show_line* show_state, struct wincurpos wcp)
{
if ( wcp.wcp_col == show_state->wcp_current.wcp_col &&
wcp.wcp_row == show_state->wcp_current.wcp_row )
return;
if ( wcp.wcp_col == 0 )
dprintf(show_state->out_fd, "\e[%zuH", wcp.wcp_row + 1);
else
dprintf(show_state->out_fd, "\e[%zu;%zuH", wcp.wcp_row + 1, wcp.wcp_col+ 1);
show_state->wcp_current = wcp;
}
bool show_line_optimized(struct show_line* show_state, const char* line, size_t cursor)
{
struct winsize ws = show_state->ws;
mbstate_t old_ps;
mbstate_t new_ps;
memset(&old_ps, 0, sizeof(old_ps));
memset(&new_ps, 0, sizeof(new_ps));
struct wincurpos old_wcp = show_state->wcp_start;
struct wincurpos new_wcp = show_state->wcp_start;
struct cursor_predict old_cursor_predict;
struct cursor_predict new_cursor_predict;
memset(&old_cursor_predict, 0, sizeof(old_cursor_predict));
memset(&new_cursor_predict, 0, sizeof(new_cursor_predict));
size_t old_line_offset = 0;
size_t new_line_offset = 0;
const char* old_line = show_state->current_line;
const char* new_line = line;
struct wincurpos cursor_wcp = show_state->wcp_start;
while ( true )
{
if ( cursor == new_line_offset )
cursor_wcp = new_wcp;
wchar_t old_wc;
wchar_t new_wc;
size_t old_num_bytes = mbrtowc(&old_wc, old_line + old_line_offset, SIZE_MAX, &old_ps);
size_t new_num_bytes = mbrtowc(&new_wc, new_line + new_line_offset, SIZE_MAX, &new_ps);
assert(old_num_bytes != (size_t) -2);
assert(new_num_bytes != (size_t) -2);
assert(old_num_bytes != (size_t) -1);
assert(new_num_bytes != (size_t) -1);
if ( old_num_bytes == 0 && new_num_bytes == 0 )
break;
bool will_scroll = predict_will_scroll(new_cursor_predict, new_wcp, ws, new_wc);
bool can_scroll = show_state->wcp_start.wcp_row != 0;
if ( will_scroll && !can_scroll )
{
if ( new_line_offset < cursor )
cursor_wcp = new_wcp;
break;
}
if ( predict_will_scroll(old_cursor_predict, old_wcp, ws, old_wc) )
break;
struct wincurpos next_old_wcp = predict_cursor(&old_cursor_predict, old_wcp, ws, old_wc);
struct wincurpos next_new_wcp = predict_cursor(&new_cursor_predict, new_wcp, ws, new_wc);
if ( old_wc != new_wc ||
old_wcp.wcp_row != new_wcp.wcp_row ||
old_wcp.wcp_col != new_wcp.wcp_col )
{
// TODO: Use a reliable write instead!
if ( old_wc == L'\n' && new_wc == L'\n' )
{
// Good enough as newlines are invisible.
}
else if ( old_wc == L'\n' && new_wc != L'\0' )
{
show_line_change_cursor(show_state, new_wcp);
write(show_state->out_fd, new_line + new_line_offset, new_num_bytes);
show_state->wcp_current = next_new_wcp;
old_num_bytes = 0;
}
else if ( old_wc != L'\0' && new_wc == '\n' )
{
show_line_change_cursor(show_state, old_wcp);
write(show_state->out_fd, " ", 1);
show_state->wcp_current = next_old_wcp;
new_num_bytes = 0;
}
else if ( old_wc == L'\n' && new_wc == L'\0' )
{
// No need to do anything here as newlines are visible.
}
else if ( old_wc == L'\0' && new_wc == L'\n' )
{
show_line_change_cursor(show_state, new_wcp);
write(show_state->out_fd, new_line + new_line_offset, new_num_bytes);
show_state->wcp_current = next_new_wcp;
}
else if ( old_wcp.wcp_row != new_wcp.wcp_row ||
old_wcp.wcp_col != new_wcp.wcp_col )
return false;
else if ( new_wc == L'\0' && old_wc != L'\0' )
{
show_line_change_cursor(show_state, old_wcp);
write(show_state->out_fd, " ", 1);
show_state->wcp_current = next_old_wcp;
}
else if ( new_wc != L'\0' )
{
show_line_change_cursor(show_state, new_wcp);
write(show_state->out_fd, new_line + new_line_offset, new_num_bytes);
show_state->wcp_current = next_new_wcp;
}
}
if ( will_scroll && can_scroll )
{
cursor_wcp.wcp_row--;
next_old_wcp.wcp_row--;
show_state->wcp_start.wcp_row--;
}
old_wcp = next_old_wcp;
new_wcp = next_new_wcp;
old_line_offset += old_num_bytes;
new_line_offset += new_num_bytes;
}
show_line_change_cursor(show_state, cursor_wcp);
free(show_state->current_line);
show_state->current_line = strdup(line);
assert(show_state->current_line);
show_state->current_cursor = cursor;
return true;
}
void show_line(struct show_line* show_state, const char* line, size_t cursor)
{
// TODO: We don't currently invalidate on SIGWINCH.
struct winsize ws;
tcgetwinsize(show_state->out_fd, &ws);
if ( ws.ws_col != show_state->ws.ws_col ||
ws.ws_row != show_state->ws.ws_row )
{
// TODO: What if wcp_start isn't inside the window any longer?
show_state->invalidated = true;
show_state->ws = ws;
}
// Attempt to do an optimized line re-rendering reusing the characters
// already present on the console. Bail out if this turns out to be harder
// than expected and re-render everything from scratch instead.
if ( !show_state->invalidated &&
show_state->current_line &&
!show_line_is_weird(show_state->current_line) &&
!show_line_is_weird(line) )
{
if ( show_line_optimized(show_state, line, cursor) )
return;
show_state->invalidated = true;
}
show_line_change_cursor(show_state, show_state->wcp_start);
dprintf(show_state->out_fd, "\e[m");
if ( show_state->invalidated || show_state->current_line )
dprintf(show_state->out_fd, "\e[0J");
struct cursor_predict cursor_predict;
memset(&cursor_predict, 0, sizeof(cursor_predict));
struct wincurpos wcp = show_state->wcp_start;
struct wincurpos cursor_wcp = wcp;
mbstate_t ps;
memset(&ps, 0, sizeof(ps));
for ( size_t i = 0; true; )
{
if ( cursor == i )
cursor_wcp = wcp;
wchar_t wc;
size_t num_bytes = mbrtowc(&wc, line + i, SIZE_MAX, &ps);
assert(num_bytes != (size_t) -2);
assert(num_bytes != (size_t) -1);
if ( num_bytes == 0 )
break;
bool will_scroll = predict_will_scroll(cursor_predict, wcp, ws, wc);
bool can_scroll = show_state->wcp_start.wcp_row != 0;
if ( will_scroll && !can_scroll )
{
if ( i < cursor )
cursor_wcp = wcp;
break;
}
// TODO: Use a reliable write.
write(show_state->out_fd, line + i, num_bytes);
if ( will_scroll && can_scroll )
{
cursor_wcp.wcp_row--;
show_state->wcp_start.wcp_row--;
}
wcp = predict_cursor(&cursor_predict, wcp, ws, wc);
i += num_bytes;
}
dprintf(show_state->out_fd, "\e[%zu;%zuH",
cursor_wcp.wcp_row + 1,
cursor_wcp.wcp_col + 1);
show_state->wcp_current = wcp;
free(show_state->current_line);
show_state->current_line = strdup(line);
assert(show_state->current_line);
show_state->current_cursor = cursor;
show_state->invalidated = false;
}
void show_line_clear(struct show_line* show_state)
{
dprintf(show_state->out_fd, "\e[H\e[2J");
show_state->wcp_start.wcp_row = 0;
show_state->wcp_start.wcp_col = 0;
show_state->invalidated = true;
show_line(show_state, show_state->current_line, strlen(show_state->current_line));
}
void show_line_abort(struct show_line* show_state)
{
free(show_state->current_line);
show_state->current_line = NULL;
show_state->current_cursor = 0;
}
void show_line_finish(struct show_line* show_state)
{
show_line(show_state, show_state->current_line, strlen(show_state->current_line));
dprintf(show_state->out_fd, "\n");
show_line_abort(show_state);
}
struct edit_line
{
const char* ps1;
const char* ps2;
struct show_line show_state;
wchar_t* line;
size_t line_offset;
size_t line_used;
size_t line_length;
char** history;
size_t history_offset;
size_t history_used;
size_t history_length;
size_t history_target;
void* check_input_incomplete_context;
bool (*check_input_incomplete)(void*, const char*);
void* trap_eof_opportunity_context;
void (*trap_eof_opportunity)(void*);
void* complete_context;
size_t (*complete)(char***, size_t*, size_t*, void*, const char*, size_t);
int in_fd;
int out_fd;
bool editing;
bool abort_editing;
bool eof_condition;
bool double_tab;
// TODO: Should these be stored here, or outside the line editing context?
bool left_control;
bool right_control;
};
void edit_line_show(struct edit_line* edit_state)
{
size_t line_length = 0;
mbstate_t ps;
memset(&ps, 0, sizeof(ps));
line_length += strlen(edit_state->ps1);
for ( size_t i = 0; i < edit_state->line_used; i++ )
{
char mb[MB_CUR_MAX];
line_length += wcrtomb(mb, edit_state->line[i], &ps);
if ( edit_state->line[i] == L'\n' )
line_length += strlen(edit_state->ps2);
}
char* line = (char*) malloc(line_length + 1);
assert(line);
size_t cursor = 0;
size_t line_offset = 0;
memset(&ps, 0, sizeof(ps));
strcpy(line + line_offset, edit_state->ps1);
line_offset += strlen(edit_state->ps1);
for ( size_t i = 0; i < edit_state->line_used; i++ )
{
if ( edit_state->line_offset == i )
cursor = line_offset;
line_offset += wcrtomb(line + line_offset, edit_state->line[i], &ps);
if ( edit_state->line[i] == L'\n' )
{
strcpy(line + line_offset, edit_state->ps2);
line_offset += strlen(edit_state->ps2);
}
}
if ( edit_state->line_offset == edit_state->line_used )
cursor = line_offset;
line[line_offset] = '\0';
show_line(&edit_state->show_state, line, cursor);
free(line);
}
char* edit_line_result(struct edit_line* edit_state)
{
size_t result_length = 0;
mbstate_t ps;
memset(&ps, 0, sizeof(ps));
for ( size_t i = 0; i < edit_state->line_used; i++ )
{
char mb[MB_CUR_MAX];
result_length += wcrtomb(mb, edit_state->line[i], &ps);
}
char* result = (char*) malloc(result_length + 1);
if ( !result )
return NULL;
size_t result_offset = 0;
memset(&ps, 0, sizeof(ps));
for ( size_t i = 0; i < edit_state->line_used; i++ )
result_offset += wcrtomb(result + result_offset, edit_state->line[i], &ps);
result[result_offset] = '\0';
return result;
}
bool edit_line_can_finish(struct edit_line* edit_state)
{
if ( !edit_state->check_input_incomplete )
return true;
char* line = edit_line_result(edit_state);
assert(line);
bool result = !edit_state->check_input_incomplete(
edit_state->check_input_incomplete_context, line);
free(line);
return result;
}
void edit_line_append_history(struct edit_line* edit_state, const char* line)
{
if ( edit_state->history_used == edit_state->history_length )
{
size_t new_length = 2 * edit_state->history_length;
if ( new_length == 0 )
new_length = 16;
// TODO: Use reallocarray instead of realloc.
size_t new_size = sizeof(char*) * new_length;
char** new_history = (char**) realloc(edit_state->history, new_size);
assert(new_history);
edit_state->history = new_history;
edit_state->history_length = new_length;
}
size_t history_index = edit_state->history_used++;
edit_state->history[history_index] = strdup(line);
assert(edit_state->history[history_index]);
}
void edit_line_type_use_record(struct edit_line* edit_state, const char* record)
{
free(edit_state->line);
edit_state->line_offset = 0;
edit_state->line_used = 0;
edit_state->line_length = 0;
size_t line_length;
mbstate_t ps;
memset(&ps, 0, sizeof(ps));
size_t record_offset = 0;
for ( line_length = 0; true; line_length++ )
{
size_t num_bytes = mbrtowc(NULL, record + record_offset, SIZE_MAX, &ps);
assert(num_bytes != (size_t) -2);
assert(num_bytes != (size_t) -1);
if ( num_bytes == 0 )
break;
record_offset += num_bytes;
}
// TODO: Avoid multiplication overflow.
wchar_t* line = (wchar_t*) malloc(sizeof(wchar_t) * line_length);
assert(line);
size_t line_used;
memset(&ps, 0, sizeof(ps));
record_offset = 0;
for ( line_used = 0; line_used < line_length; line_used++ )
{
size_t num_bytes = mbrtowc(&line[line_used], record + record_offset, SIZE_MAX, &ps);
assert(num_bytes != (size_t) -2);
assert(num_bytes != (size_t) -1);
assert(num_bytes != (size_t) 0);
record_offset += num_bytes;
}
edit_state->line = line;
edit_state->line_offset = line_used;
edit_state->line_used = line_used;
edit_state->line_length = line_length;
}
void edit_line_type_history_save_at(struct edit_line* edit_state, size_t index)
{
assert(index <= edit_state->history_used);
char* saved_line = edit_line_result(edit_state);
assert(saved_line);
if ( index == edit_state->history_used )
{
edit_line_append_history(edit_state, saved_line);
free(saved_line);
}
else
{
free(edit_state->history[index]);
edit_state->history[index] = saved_line;
}
}
void edit_line_type_history_save_current(struct edit_line* edit_state)
{
edit_line_type_history_save_at(edit_state, edit_state->history_offset);
}
void edit_line_type_history_prev(struct edit_line* edit_state)
{
if ( edit_state->history_offset == 0 )
return;
edit_line_type_history_save_current(edit_state);
const char* record = edit_state->history[--edit_state->history_offset];
assert(record);
edit_line_type_use_record(edit_state, record);
}
void edit_line_type_history_next(struct edit_line* edit_state)
{
if ( edit_state->history_used - edit_state->history_offset <= 1 )
return;
edit_line_type_history_save_current(edit_state);
const char* record = edit_state->history[++edit_state->history_offset];
assert(record);
edit_line_type_use_record(edit_state, record);
}
void edit_line_type_codepoint(struct edit_line* edit_state, wchar_t wc)
{
if ( wc == L'\n' && edit_line_can_finish(edit_state))
{
if ( edit_state->line_used )
edit_line_type_history_save_at(edit_state, edit_state->history_target);
edit_state->editing = false;
return;
}
if ( edit_state->line_used == edit_state->line_length )
{
size_t new_length = 2 * edit_state->line_length;
if ( !new_length )
new_length = 16;
// TODO: Use reallocarray instead of realloc.
size_t new_size = sizeof(wchar_t) * new_length;
wchar_t* new_line = (wchar_t*) realloc(edit_state->line, new_size);
assert(new_line);
edit_state->line = new_line;
edit_state->line_length = new_length;
}
assert(edit_state->line_offset <= edit_state->line_used);
assert(edit_state->line_used <= edit_state->line_length);
for ( size_t i = edit_state->line_used; i != edit_state->line_offset; i-- )
edit_state->line[i] = edit_state->line[i-1];
edit_state->line[edit_state->line_used++, edit_state->line_offset++] = wc;
assert(edit_state->line_offset <= edit_state->line_used);
assert(edit_state->line_used <= edit_state->line_length);
}
void line_edit_type_home(struct edit_line* edit_state)
{
edit_state->line_offset = 0;
}
void line_edit_type_left(struct edit_line* edit_state)
{
if ( edit_state->line_offset == 0 )
return;
edit_state->line_offset--;
}
void line_edit_type_right(struct edit_line* edit_state)
{
if ( edit_state->line_offset == edit_state->line_used )
return;
edit_state->line_offset++;
}
void line_edit_type_end(struct edit_line* edit_state)
{
edit_state->line_offset = edit_state->line_used;
}
void line_edit_type_backspace(struct edit_line* edit_state)
{
if ( edit_state->line_offset == 0 )
return;
edit_state->line_used--;
edit_state->line_offset--;
for ( size_t i = edit_state->line_offset; i < edit_state->line_used; i++ )
edit_state->line[i] = edit_state->line[i+1];
}
void line_edit_type_previous_word(struct edit_line* edit_state)
{
while ( edit_state->line_offset &&
iswspace(edit_state->line[edit_state->line_offset-1]) )
edit_state->line_offset--;
while ( edit_state->line_offset &&
!iswspace(edit_state->line[edit_state->line_offset-1]) )
edit_state->line_offset--;
}
void line_edit_type_next_word(struct edit_line* edit_state)
{
while ( edit_state->line_offset != edit_state->line_used &&
iswspace(edit_state->line[edit_state->line_offset]) )
edit_state->line_offset++;
while ( edit_state->line_offset != edit_state->line_used &&
!iswspace(edit_state->line[edit_state->line_offset]) )
edit_state->line_offset++;
}
void line_edit_type_delete(struct edit_line* edit_state)
{
if ( edit_state->line_offset == edit_state->line_used )
return;
edit_state->line_used--;
for ( size_t i = edit_state->line_offset; i < edit_state->line_used; i++ )
edit_state->line[i] = edit_state->line[i+1];
}
void line_edit_type_eof_or_delete(struct edit_line* edit_state)
{
if ( edit_state->line_used )
return line_edit_type_delete(edit_state);
edit_state->editing = false;
edit_state->eof_condition = true;
if ( edit_state->trap_eof_opportunity )
edit_state->trap_eof_opportunity(edit_state->trap_eof_opportunity_context);
}
void edit_line_type_interrupt(struct edit_line* edit_state)
{
dprintf(edit_state->out_fd, "^C\n");
edit_state->editing = false;
edit_state->abort_editing = true;
}
void edit_line_type_kill_after(struct edit_line* edit_state)
{
while ( edit_state->line_offset < edit_state->line_used )
line_edit_type_delete(edit_state);
}
void edit_line_type_kill_before(struct edit_line* edit_state)
{
while ( edit_state->line_offset )
line_edit_type_backspace(edit_state);
}
void edit_line_type_clear(struct edit_line* edit_state)
{
show_line_clear(&edit_state->show_state);
}
void edit_line_type_delete_word_before(struct edit_line* edit_state)
{
while ( edit_state->line_offset &&
iswspace(edit_state->line[edit_state->line_offset-1]) )
line_edit_type_backspace(edit_state);
while ( edit_state->line_offset &&
!iswspace(edit_state->line[edit_state->line_offset-1]) )
line_edit_type_backspace(edit_state);
}
int edit_line_completion_sort(const void* a_ptr, const void* b_ptr)
{
const char* a = *(const char**) a_ptr;
const char* b = *(const char**) b_ptr;
return strcmp(a, b);
}
void edit_line_type_complete(struct edit_line* edit_state)
{
if ( !edit_state->complete )
return;
char* partial = edit_line_result(edit_state);
if ( !partial )
return;
mbstate_t ps;
memset(&ps, 0, sizeof(ps));
size_t complete_at = 0;
for ( size_t i = 0; i < edit_state->line_offset; i++ )
{
char mb[MB_CUR_MAX];
size_t num_bytes = wcrtomb(mb, edit_state->line[i], &ps);
assert(num_bytes != (size_t) -1);
assert(num_bytes != (size_t) 0);
complete_at += num_bytes;
}
char** completions;
size_t used_before;
size_t used_after;
size_t num_completions = edit_state->complete(
&completions,
&used_before,
&used_after,
edit_state->complete_context,
partial,
complete_at);
qsort(completions, num_completions, sizeof(char*), edit_line_completion_sort);
size_t lcp = 0;
bool similar = true;
while ( num_completions && similar )
{
char c = completions[0][lcp];
if ( c == '\0' )
break;
for ( size_t i = 1; similar && i < num_completions; i++ )
{
if ( completions[i][lcp] != c )
similar = false;
}
if ( similar )
lcp++;
}
bool prefix_ends_with_slash = false;
memset(&ps, 0, sizeof(ps));
for ( size_t i = 0; i < lcp; )
{
const char* completion = completions[0];
wchar_t wc;
size_t num_bytes = mbrtowc(&wc, completion + i, lcp - i, &ps);
if ( num_bytes == (size_t) -2 )
break;
assert(num_bytes != (size_t) -1);
assert(num_bytes != (size_t) 0);
edit_line_type_codepoint(edit_state, wc);
prefix_ends_with_slash = wc == L'/';
i += num_bytes;
}
if ( num_completions == 1 && !prefix_ends_with_slash )
{
edit_line_type_codepoint(edit_state, ' ');
}
if ( 2 <= num_completions && lcp == 0 && edit_state->double_tab )
{
bool first = true;
for ( size_t i = 0; i < num_completions; i++ )
{
const char* completion = completions[i];
size_t length = used_before + strlen(completion) + used_after;
if ( !length )
continue;
if ( first )
show_line_finish(&edit_state->show_state);
// TODO: Use a reliable write.
if ( !first )
write(edit_state->out_fd, " ", 1);
write(edit_state->out_fd, partial + complete_at - used_before, used_before);
write(edit_state->out_fd, completion, strlen(completion));
write(edit_state->out_fd, partial + complete_at, used_after);
first = false;
}
if ( !first)
{
write(edit_state->out_fd, "\n", 1);
show_line_begin(&edit_state->show_state, edit_state->out_fd);
edit_line_show(edit_state);
}
}
edit_state->double_tab = true;
(void) used_before;
(void) used_after;
for ( size_t i = 0; i < num_completions; i++ )
free(completions[i]);
free(completions);
free(partial);
}
void edit_line_kbkey(struct edit_line* edit_state, int kbkey)
{
if ( kbkey != KBKEY_TAB && kbkey != -KBKEY_TAB )
edit_state->double_tab = false;
if ( edit_state->left_control || edit_state->right_control )
{
switch ( kbkey )
{
case KBKEY_LEFT: line_edit_type_previous_word(edit_state); return;
case KBKEY_RIGHT: line_edit_type_next_word(edit_state); return;
};
}
switch ( kbkey )
{
case KBKEY_HOME: line_edit_type_home(edit_state); return;
case KBKEY_LEFT: line_edit_type_left(edit_state); return;
case KBKEY_RIGHT: line_edit_type_right(edit_state); return;
case KBKEY_UP: edit_line_type_history_prev(edit_state); return;
case KBKEY_DOWN: edit_line_type_history_next(edit_state); return;
case KBKEY_END: line_edit_type_end(edit_state); return;
case KBKEY_BKSPC: line_edit_type_backspace(edit_state); return;
case KBKEY_DELETE: line_edit_type_delete(edit_state); return;
case KBKEY_TAB: edit_line_type_complete(edit_state); return;
case -KBKEY_LCTRL: edit_state->left_control = false; return;
case +KBKEY_LCTRL: edit_state->left_control = true; return;
case -KBKEY_RCTRL: edit_state->right_control = false; return;
case +KBKEY_RCTRL: edit_state->right_control = true; return;
};
}
void edit_line_codepoint(struct edit_line* edit_state, wchar_t wc)
{
if ( (edit_state->left_control || edit_state->right_control) &&
((L'a' <= wc && wc <= L'z') || (L'A' <= wc && wc <= L'Z')) )
{
if ( wc == L'a' || wc == L'A' )
line_edit_type_home(edit_state);
if ( wc == L'b' || wc == L'B' )
line_edit_type_left(edit_state);
if ( wc == L'c' || wc == L'C' )
edit_line_type_interrupt(edit_state);
if ( wc == L'd' || wc == L'D' )
line_edit_type_eof_or_delete(edit_state);
if ( wc == L'e' || wc == L'E' )
line_edit_type_end(edit_state);
if ( wc == L'f' || wc == L'F' )
line_edit_type_right(edit_state);
if ( wc == L'k' || wc == L'K' )
edit_line_type_kill_after(edit_state);
if ( wc == L'l' || wc == L'L' )
show_line_clear(&edit_state->show_state);
if ( wc == L'u' || wc == L'U' )
edit_line_type_kill_before(edit_state);
if ( wc == L'w' || wc == L'W' )
edit_line_type_delete_word_before(edit_state);
return;
}
if ( wc == L'\b' )
return;
if ( wc == L'\t' )
return;
edit_line_type_codepoint(edit_state, wc);
}
void edit_line(struct edit_line* edit_state)
{
edit_state->editing = true;
edit_state->abort_editing = false;
edit_state->eof_condition = false;
edit_state->double_tab = false;
free(edit_state->line);
edit_state->line = NULL;
edit_state->line_offset = 0;
edit_state->line_used = 0;
edit_state->line_length = 0;
edit_state->history_offset = edit_state->history_used;
edit_state->history_target = edit_state->history_used;
settermmode(edit_state->in_fd, TERMMODE_KBKEY | TERMMODE_UNICODE);
show_line_begin(&edit_state->show_state, edit_state->out_fd);
while ( edit_state->editing )
{
edit_line_show(edit_state);
uint32_t codepoint;
if ( read(0, &codepoint, sizeof(codepoint)) != sizeof(codepoint) )
{
edit_state->eof_condition = true;
edit_state->abort_editing = true;
break;
}
if ( int kbkey = KBKEY_DECODE(codepoint) )
edit_line_kbkey(edit_state, kbkey);
else
edit_line_codepoint(edit_state, (wchar_t) codepoint);
}
if ( edit_state->abort_editing )
show_line_abort(&edit_state->show_state);
else
{
edit_line_show(edit_state);
show_line_finish(&edit_state->show_state);
}
settermmode(edit_state->in_fd, NORMAL_TERMMODE);
}
int status = 0;
char* strdup_safe(const char* string)
{
return string ? strdup(string) : NULL;
}
const char* getenv_safe(const char* name, const char* def = "")
{
const char* ret = getenv(name);
return ret ? ret : def;
}
static bool is_proper_absolute_path(const char* path)
{
if ( path[0] == '\0' )
return false;
if ( path[0] != '/' )
return false;
while ( path[0] )
{
if ( path[0] == '/' )
path++;
else if ( path[0] == '.' &&
(path[1] == '\0' || path[1] == '/') )
return false;
else if ( path[0] == '.' &&
path[1] == '.' &&
(path[2] == '\0' || path[2] == '/') )
return false;
else
{
while ( *path && *path != '/' )
path++;
}
}
return true;
}
void update_env()
{
char str[128];
struct winsize ws;
if ( tcgetwinsize(0, &ws) == 0 )
{
snprintf(str, sizeof(str), "%zu", ws.ws_col);
setenv("COLUMNS", str, 1);
snprintf(str, sizeof(str), "%zu", ws.ws_row);
setenv("LINES", str, 1);
}
}
bool matches_simple_pattern(const char* string, const char* pattern)
{
size_t wildcard_index = strcspn(pattern, "*");
if ( !pattern[wildcard_index] )
return strcmp(string, pattern) == 0;
if ( pattern[0] == '*' && string[0] == '.' )
return false;
size_t string_length = strlen(string);
size_t pattern_length = strlen(pattern);
size_t pattern_last = pattern_length - (wildcard_index + 1);
return strncmp(string, pattern, wildcard_index) == 0 &&
strcmp(string + string_length - pattern_last,
pattern + wildcard_index + 1) == 0;
}
enum sh_tokenize_result
{
SH_TOKENIZE_RESULT_OK,
SH_TOKENIZE_RESULT_PARTIAL,
SH_TOKENIZE_RESULT_INVALID,
SH_TOKENIZE_RESULT_ERROR,
};
enum sh_tokenize_result sh_tokenize(const char* command,
char*** tokens_ptr,
size_t* tokens_used_ptr,
size_t* tokens_length_ptr)
{
enum sh_tokenize_result result = SH_TOKENIZE_RESULT_OK;
char** tokens = NULL;
size_t tokens_used = 0;
size_t tokens_length = 0;
size_t command_index = 0;
while ( true )
{
if ( command[command_index] == '\0' )
break;
if ( isspace((unsigned char) command[command_index]) )
{
command_index++;
continue;
}
if ( command[command_index] == '#' )
{
while ( command[command_index] != '\0' &&
command[command_index] != '\n' )
command_index++;
continue;
}
size_t token_start = command_index;
bool escaped = false;
bool stop = false;
while ( true )
{
if ( command[command_index] == '\0' )
{
if ( escaped )
result = SH_TOKENIZE_RESULT_PARTIAL;
stop = true;
break;
}
else if ( !escaped && command[command_index] == '\\' )
{
escaped = true;
command_index++;
}
else if ( !escaped && isspace((unsigned char) command[command_index]) )
{
break;
}
else
{
command_index++;
escaped = false;
}
}
if ( tokens_used == tokens_length )
{
size_t new_length = tokens_length ? 2 * tokens_length : 16;
size_t new_size = new_length * sizeof(char*);
char** new_tokens = (char**) realloc(tokens, new_size);
if ( !new_tokens )
{
result = SH_TOKENIZE_RESULT_ERROR;
break;
}
tokens_length = new_length;
tokens = new_tokens;
}
size_t token_length = command_index - token_start;
char* token = strndup(command + token_start, token_length);
if ( !token )
{
result = SH_TOKENIZE_RESULT_ERROR;
break;
}
tokens[tokens_used++] = token;
if ( stop )
break;
}
*tokens_ptr = tokens;
*tokens_used_ptr = tokens_used;
*tokens_length_ptr = tokens_length;
return result;
}
bool is_shell_input_ready(const char* input)
{
char** tokens = NULL;
size_t tokens_used = 0;
size_t tokens_length = 0;
enum sh_tokenize_result tokenize_result =
sh_tokenize(input, &tokens, &tokens_used, &tokens_length);
bool result = tokenize_result == SH_TOKENIZE_RESULT_OK;
for ( size_t i = 0; i < tokens_used; i++ )
free(tokens[i]);
free(tokens);
return result;
}
int lexical_chdir(char* path)
{
assert(path[0] == '/');
int fd = open("/", O_RDONLY | O_DIRECTORY);
if ( fd < 0 )
return -1;
size_t input_index = 1;
size_t output_index = 1;
while ( path[input_index] )
{
if ( path[input_index] == '/' )
{
if ( output_index && path[output_index-1] != '/' )
path[output_index++] = path[input_index];
input_index++;
continue;
}
char* elem = path + input_index;
size_t elem_length = strcspn(elem, "/");
char lc = elem[elem_length];
elem[elem_length] = '\0';
if ( !strcmp(elem, ".") )
{
elem[elem_length] = lc;
input_index += elem_length;
continue;
}
if ( !strcmp(elem, "..") )
{
elem[elem_length] = lc;
input_index += elem_length;
if ( 2 <= output_index && path[output_index-1] == '/' )
output_index--;
while ( 2 <= output_index && path[output_index-1] != '/' )
output_index--;
if ( 2 <= output_index && path[output_index-1] == '/' )
output_index--;
lc = path[output_index];
path[output_index] = '\0';
int new_fd = open(path, O_RDONLY | O_DIRECTORY);
close(fd);
if ( new_fd < 0 )
return -1;
fd = new_fd;
path[output_index] = lc;
continue;
}
if ( 0 <= fd )
{
int new_fd = openat(fd, elem, O_RDONLY | O_DIRECTORY);
if ( new_fd < 0 )
close(fd);
fd = new_fd;
}
for ( size_t i = 0; i < elem_length; i++ )
path[output_index++] = path[input_index++];
elem[elem_length] = lc;
}
path[output_index] = '\0';
if ( 2 <= output_index && path[output_index-1] == '/' )
path[--output_index] = '\0';
int fchdir_ret = fchdir(fd);
close(fd);
if ( fchdir_ret < 0 )
return -1;
unsetenv("PWD");
setenv("PWD", path, 1);
return 0;
}
int perform_chdir(const char* path)
{
if ( !path[0] )
return errno = ENOENT, -1;
char* lexical_path = NULL;
if ( path[0] == '/' )
lexical_path = strdup(path);
else
{
char* current_pwd = get_current_dir_name();
if ( current_pwd )
{
assert(current_pwd[0] == '/');
asprintf(&lexical_path, "%s/%s", current_pwd, path);
free(current_pwd);
}
else if ( getenv("PWD") )
{
asprintf(&lexical_path, "/%s/%s", getenv("PWD"), path);
}
}
if ( lexical_path )
{
int ret = lexical_chdir(lexical_path);
free(lexical_path);
if ( ret == 0 )
return 0;
}
return chdir(path);
}
int runcommandline(const char** tokens, bool* script_exited, bool interactive)
{
int result = 127;
size_t cmdnext = 0;
size_t cmdstart;
size_t cmdend;
bool lastcmd = false;
int pipein = 0;
int pipeout = 1;
int pipeinnext = 0;
char** argv;
size_t cmdlen;
const char* execmode;
const char* outputfile;
pid_t childpid;
pid_t pgid = -1;
bool internal;
int internalresult;
size_t num_tokens = 0;
while ( tokens[num_tokens] )
num_tokens++;
readcmd:
// Collect any pending zombie processes.
while ( 0 < waitpid(-1, NULL, WNOHANG) );
cmdstart = cmdnext;
for ( cmdend = cmdstart; true; cmdend++ )
{
const char* token = tokens[cmdend];
if ( !token ||
strcmp(token, ";") == 0 ||
strcmp(token, "&") == 0 ||
strcmp(token, "|") == 0 ||
strcmp(token, ">") == 0 ||
strcmp(token, ">>") == 0 ||
false )
{
break;
}
}
cmdlen = cmdend - cmdstart;
if ( !cmdlen ) { fprintf(stderr, "expected command\n"); goto out; }
execmode = tokens[cmdend];
if ( !execmode ) { lastcmd = true; execmode = ";"; }
tokens[cmdend] = NULL;
if ( strcmp(execmode, "|") == 0 )
{
int pipes[2];
if ( pipe(pipes) ) { perror("pipe"); goto out; }
if ( pipeout != 1 ) { close(pipeout); } pipeout = pipes[1];
if ( pipeinnext != 0 ) { close(pipeinnext); } pipeinnext = pipes[0];
}
outputfile = NULL;
if ( strcmp(execmode, ">") == 0 || strcmp(execmode, ">>") == 0 )
{
outputfile = tokens[cmdend+1];
if ( !outputfile ) { fprintf(stderr, "expected filename\n"); goto out; }
const char* nexttok = tokens[cmdend+2];
if ( nexttok ) { fprintf(stderr, "too many filenames\n"); goto out; }
}
for ( size_t i = cmdstart; i < cmdend; i++ )
{
const char* pattern = tokens[i];
size_t wildcard_pos = strcspn(pattern, "*");
if ( !pattern[wildcard_pos] )
continue;
bool found_slash = false;
size_t last_slash = 0;
for ( size_t n = 0; n < wildcard_pos; n++ )
if ( pattern[n] == '/' )
last_slash = n, found_slash = true;
size_t match_from = found_slash ? last_slash + 1 : 0;
DIR* dir;
size_t pattern_prefix = 0;
if ( !found_slash )
{
if ( !(dir = opendir(".")) )
continue;
}
else
{
char* dirpath = strdup(pattern);
if ( !dirpath )
continue;
dirpath[last_slash] = '\0';
pattern_prefix = last_slash + 1;
dir = opendir(dirpath);
free(dirpath);
if ( !dir )
continue;
}
size_t num_inserted = 0;
size_t last_inserted_index = i;
while ( struct dirent* entry = readdir(dir) )
{
if ( !matches_simple_pattern(entry->d_name, pattern + match_from) )
continue;
// TODO: Memory leak.
char* name = (char*) malloc(pattern_prefix + strlen(entry->d_name) + 1);
memcpy(name, pattern, pattern_prefix);
strcpy(name + pattern_prefix, entry->d_name);
if ( !name )
continue;
if ( num_inserted )
{
// TODO: Reckless modification of the tokens array.
for ( size_t n = num_tokens; n != last_inserted_index; n-- )
tokens[n+1] = tokens[n];
num_tokens++;
cmdend++;
}
// TODO: Reckless modification of the tokens array.
tokens[last_inserted_index = i + num_inserted++] = name;
}
closedir(dir);
}
cmdnext = cmdend + 1;
argv = (char**) (tokens + cmdstart);
update_env();
char statusstr[32];
snprintf(statusstr, sizeof(statusstr), "%i", status);
setenv("?", statusstr, 1);
for ( char** argp = argv; *argp; argp++ )
{
char* arg = *argp;
if ( arg[0] != '$' )
continue;
arg = getenv(arg+1);
if ( !arg )
arg = (char*) "";
*argp = arg;
}
internal = false;
internalresult = 0;
if ( strcmp(argv[0], "cd") == 0 )
{
internal = true;
const char* newdir = getenv_safe("HOME", "/");
if ( argv[1] )
newdir = argv[1];
if ( perform_chdir(newdir) )
{
error(0, errno, "cd: %s", newdir);
internalresult = 1;
}
}
if ( strcmp(argv[0], "exit") == 0 )
{
int exitcode = argv[1] ? atoi(argv[1]) : 0;
*script_exited = true;
return exitcode;
}
if ( strcmp(argv[0], "unset") == 0 )
{
internal = true;
unsetenv(argv[1] ? argv[1] : "");
}
if ( strcmp(argv[0], "clearenv") == 0 )
{
internal = true;
clearenv();
}
childpid = internal ? getpid() : fork();
if ( childpid < 0 ) { perror("fork"); goto out; }
if ( childpid )
{
if ( !internal )
{
if ( pgid == -1 )
pgid = childpid;
setpgid(childpid, pgid);
}
if ( pipein != 0 ) { close(pipein); pipein = 0; }
if ( pipeout != 1 ) { close(pipeout); pipeout = 1; }
if ( pipeinnext != 0 ) { pipein = pipeinnext; pipeinnext = 0; }
if ( strcmp(execmode, "&") == 0 && !tokens[cmdnext] )
{
result = 0; goto out;
}
if ( strcmp(execmode, "&") == 0 )
pgid = -1;
if ( strcmp(execmode, "&") == 0 || strcmp(execmode, "|") == 0 )
{
goto readcmd;
}
status = internalresult;
int exitstatus;
tcsetpgrp(0, pgid);
if ( !internal && waitpid(childpid, &exitstatus, 0) < 0 )
{
perror("waitpid");
return 127;
}
tcsetpgrp(0, getpgid(0));
// TODO: HACK: Most signals can't kill processes yet.
if ( WEXITSTATUS(exitstatus) == 128 + SIGINT )
printf("^C\n");
if ( WTERMSIG(status) == SIGKILL )
printf("Killed\n");
status = WEXITSTATUS(exitstatus);
if ( strcmp(execmode, ";") == 0 && tokens[cmdnext] && !lastcmd )
{
goto readcmd;
}
result = status;
goto out;
}
setpgid(0, pgid != -1 ? pgid : 0);
if ( pipeinnext != 0 ) { close(pipeinnext); }
if ( pipein != 0 )
{
close(0);
dup(pipein);
close(pipein);
}
if ( pipeout != 1 )
{
close(1);
dup(pipeout);
close(pipeout);
}
if ( outputfile )
{
close(1);
// TODO: Is this logic right or wrong?
int flags = O_CREAT | O_WRONLY;
if ( strcmp(execmode, ">") == 0 )
flags |= O_TRUNC;
if ( strcmp(execmode, ">>") == 0 )
flags |= O_APPEND;
if ( open(outputfile, flags, 0666) < 0 )
{
error(127, errno, "%s", outputfile);
}
}
execvp(argv[0], argv);
if ( interactive && errno == ENOENT )
{
int errno_saved = errno;
execlp("command-not-found", "command-not-found", argv[0], NULL);
errno = errno_saved;
}
error(127, errno, "%s", argv[0]);
return 127;
out:
if ( pipein != 0 ) { close(pipein); }
if ( pipeout != 1 ) { close(pipeout); }
if ( pipeinnext != 0 ) { close(pipeout); }
return result;
}
int run_command(char* command,
bool interactive,
bool exit_on_error,
bool* script_exited)
{
size_t commandused = strlen(command);
if ( command[0] == '\0' )
return status;
if ( strchr(command, '=') && !strchr(command, ' ') && !strchr(command, '\t') )
{
const char* key = command;
char* equal = strchr(command, '=');
*equal = '\0';
const char* value = equal + 1;
if ( setenv(key, value, 1) < 0 )
error(1, errno, "setenv");
return status = 0;
}
int argc = 0;
const size_t ARGV_MAX_LENGTH = 2048;
const char* argv[ARGV_MAX_LENGTH];
argv[0] = NULL;
bool lastwasspace = true;
bool escaped = false;
for ( size_t i = 0; i <= commandused; i++ )
{
switch ( command[i] )
{
case '\\':
if ( !escaped )
{
memmove(command + i, command + i + 1, commandused+1 - (i-1));
i--;
commandused--;
escaped = true;
break;
}
case '\0':
case ' ':
case '\t':
case '\n':
if ( !command[i] || !escaped )
{
command[i] = 0;
lastwasspace = true;
break;
}
default:
escaped = false;
if ( lastwasspace )
{
if ( argc == ARGV_MAX_LENGTH )
{
fprintf(stderr, "argv max length of %zu entries hit!\n",
ARGV_MAX_LENGTH);
abort();
}
argv[argc++] = command + i;
}
lastwasspace = false;
}
}
if ( !argv[0] )
return status;
argv[argc] = NULL;
status = runcommandline(argv, script_exited, interactive);
if ( status && exit_on_error )
*script_exited = true;
return status;
}
bool does_line_editing_need_another_line(void*, const char* line)
{
return !is_shell_input_ready(line);
}
bool is_outermost_shell()
{
const char* shlvl_str = getenv("SHLVL");
if ( !shlvl_str )
return true;
return atol(shlvl_str) <= 1;
}
void on_trap_eof(void* edit_state_ptr)
{
if ( is_outermost_shell() )
return;
struct edit_line* edit_state = (struct edit_line*) edit_state_ptr;
edit_line_type_codepoint(edit_state, L'e');
edit_line_type_codepoint(edit_state, L'x');
edit_line_type_codepoint(edit_state, L'i');
edit_line_type_codepoint(edit_state, L't');
}
bool is_usual_char_for_completion(char c)
{
return !isspace((unsigned char) c) &&
c != ';' && c != '&' && c != '|' &&
c != '<' && c != '>' && c != '#' && c != '$';
}
size_t do_complete(char*** completions_ptr,
size_t* used_before_ptr,
size_t* used_after_ptr,
void*,
const char* partial,
size_t complete_at)
{
size_t used_before = 0;
size_t used_after = 0;
while ( complete_at - used_before &&
is_usual_char_for_completion(partial[complete_at - (used_before+1)]) )
used_before++;
#if 0
while ( partial[complete_at + used_after] &&
is_usual_char_for_completion(partial[complete_at + used_after]) )
used_after++;
#endif
enum complete_type
{
COMPLETE_TYPE_FILE,
COMPLETE_TYPE_EXECUTABLE,
COMPLETE_TYPE_DIRECTORY,
COMPLETE_TYPE_PROGRAM,
COMPLETE_TYPE_VARIABLE,
};
enum complete_type complete_type = COMPLETE_TYPE_FILE;
if ( complete_at - used_before && partial[complete_at - used_before-1] == '$' )
{
complete_type = COMPLETE_TYPE_VARIABLE;
used_before++;
}
else
{
size_t type_offset = complete_at - used_before;
while ( type_offset && isspace((unsigned char) partial[type_offset-1]) )
type_offset--;
if ( 2 <= type_offset &&
strncmp(partial + type_offset - 2, "cd", 2) == 0 &&
(type_offset == 2 || !is_usual_char_for_completion(partial[type_offset-2-1])) )
complete_type = COMPLETE_TYPE_DIRECTORY;
else if ( !type_offset ||
partial[type_offset-1] == ';' ||
partial[type_offset-1] == '&' ||
partial[type_offset-1] == '|' )
{
if ( memchr(partial + complete_at - used_before, '/', used_before) )
complete_type = COMPLETE_TYPE_EXECUTABLE;
else
complete_type = COMPLETE_TYPE_PROGRAM;
}
}
// TODO: Use reallocarray.
char** completions = (char**) malloc(sizeof(char**) * 1024 /* TODO: HARD-CODED! */);
size_t num_completions = 0;
if ( complete_type == COMPLETE_TYPE_PROGRAM ) do
{
for ( size_t i = 0; builtin_commands[i]; i++ )
{
const char* builtin = builtin_commands[i];
if ( strncmp(builtin, partial + complete_at - used_before, used_before) != 0 )
continue;
// TODO: Add allocation check!
completions[num_completions++] = strdup(builtin + used_before);
}
char* path = strdup_safe(getenv("PATH"));
if ( !path )
{
complete_type = COMPLETE_TYPE_FILE;
break;
}
char* path_input = path;
char* component;
while ( (component = strsep(&path_input, ":")) )
{
if ( DIR* dir = opendir(component) )
{
while ( struct dirent* entry = readdir(dir) )
{
if ( strncmp(entry->d_name, partial + complete_at - used_before, used_before) != 0 )
continue;
if ( used_before == 0 && entry->d_name[0] == '.' )
continue;
// TODO: Add allocation check!
completions[num_completions++] = strdup(entry->d_name + used_before);
}
closedir(dir);
}
}
free(path);
} while ( false );
if ( complete_type == COMPLETE_TYPE_FILE ||
complete_type == COMPLETE_TYPE_EXECUTABLE ||
complete_type == COMPLETE_TYPE_DIRECTORY ) do
{
const char* pattern = partial + complete_at - used_before;
size_t pattern_length = used_before;
char* dirpath_alloc = NULL;
const char* dirpath;
if ( !memchr(pattern, '/', pattern_length) )
dirpath = ".";
else if ( pattern_length && pattern[pattern_length-1] == '/' )
{
dirpath_alloc = strndup(pattern, pattern_length);
if ( !dirpath_alloc )
break;
dirpath = dirpath_alloc;
pattern += pattern_length;
pattern_length = 0;
}
else
{
dirpath_alloc = strndup(pattern, pattern_length);
if ( !dirpath_alloc )
break;
dirpath = dirname(dirpath_alloc);
const char* last_slash = (const char*) memrchr(pattern, '/', pattern_length);
size_t last_slash_offset = (uintptr_t) last_slash - (uintptr_t) pattern;
pattern += last_slash_offset + 1;
pattern_length -= last_slash_offset + 1;
}
used_before = pattern_length;
DIR* dir = opendir(dirpath);
if ( !dir )
{
free(dirpath_alloc);
break;
}
while ( struct dirent* entry = readdir(dir) )
{
if ( strncmp(entry->d_name, pattern, pattern_length) != 0 )
continue;
if ( pattern_length == 0 && entry->d_name[0] == '.' )
continue;
struct stat st;
bool is_directory = entry->d_type == DT_DIR ||
(entry->d_type == DT_UNKNOWN &&
!fstatat(dirfd(dir), entry->d_name, &st, 0) &&
S_ISDIR(st.st_mode));
bool is_executable = complete_type == COMPLETE_TYPE_EXECUTABLE &&
!fstatat(dirfd(dir), entry->d_name, &st, 0) &&
st.st_mode & 0111;
if ( complete_type == COMPLETE_TYPE_DIRECTORY && !is_directory )
continue;
if ( complete_type == COMPLETE_TYPE_EXECUTABLE &&
!(is_directory || is_executable) )
continue;
size_t name_length = strlen(entry->d_name);
char* completion = (char*) malloc(name_length - pattern_length + 1 + 1);
if ( !completion )
continue;
strcpy(completion, entry->d_name + pattern_length);
if ( is_directory )
strcat(completion, "/");
completions[num_completions++] = completion;
}
closedir(dir);
free(dirpath_alloc);
} while ( false );
if ( complete_type == COMPLETE_TYPE_VARIABLE ) do
{
const char* pattern = partial + complete_at - used_before + 1;
size_t pattern_length = used_before - 1;
if ( memchr(pattern, '=', pattern_length) )
break;
for ( size_t i = 0; environ[i]; i++ )
{
if ( strncmp(pattern, environ[i], pattern_length) != 0 )
continue;
const char* rest = environ[i] + pattern_length;
size_t equal_offset = strcspn(rest, "=");
if ( rest[equal_offset] != '=' )
continue;
completions[num_completions++] = strndup(rest, equal_offset);
}
} while ( false );
*used_before_ptr = used_before;
*used_after_ptr = used_after;
return *completions_ptr = completions, num_completions;
}
struct sh_read_command
{
char* command;
bool abort_condition;
bool eof_condition;
bool error_condition;
};
void read_command_interactive(struct sh_read_command* sh_read_command)
{
update_env();
static struct edit_line edit_state; // static to preserve command history.
edit_state.in_fd = 0;
edit_state.out_fd = 1;
edit_state.check_input_incomplete_context = NULL;
edit_state.check_input_incomplete = does_line_editing_need_another_line;
edit_state.trap_eof_opportunity_context = &edit_state;
edit_state.trap_eof_opportunity = on_trap_eof;
edit_state.complete_context = NULL;
edit_state.complete = do_complete;
char* current_dir = get_current_dir_name();
const char* print_username = getlogin();
if ( !print_username )
print_username = getuid() == 0 ? "root" : "?";
char hostname[256];
if ( gethostname(hostname, sizeof(hostname)) < 0 )
strlcpy(hostname, "(none)", sizeof(hostname));
const char* print_hostname = hostname;
const char* print_dir = current_dir ? current_dir : "?";
const char* home_dir = getenv_safe("HOME", "");
const char* print_dir_1 = print_dir;
const char* print_dir_2 = "";
size_t home_dir_len = strlen(home_dir);
if ( home_dir_len && strncmp(print_dir, home_dir, home_dir_len) == 0 )
{
print_dir_1 = "~";
print_dir_2 = print_dir + home_dir_len;
}
char* ps1;
asprintf(&ps1, "\e[32m%s@%s \e[36m%s%s #\e[37m ",
print_username,
print_hostname,
print_dir_1,
print_dir_2);
free(current_dir);
edit_state.ps1 = ps1;
edit_state.ps2 = "> ";
edit_line(&edit_state);
free(ps1);
if ( edit_state.abort_editing )
{
sh_read_command->abort_condition = true;
return;
}
if ( edit_state.eof_condition )
{
sh_read_command->eof_condition = true;
return;
}
char* command = edit_line_result(&edit_state);
assert(command);
for ( size_t i = 0; command[i]; i++ )
if ( command[i + 0] == '\\' && command[i + 1] == '\n' )
command[i + 0] = ' ',
command[i + 1] = ' ';
sh_read_command->command = command;
}
void read_command_non_interactive(struct sh_read_command* sh_read_command,
FILE* fp)
{
int fd = fileno(fp);
size_t command_used = 0;
size_t command_length = 1024;
char* command = (char*) malloc(command_length + 1);
if ( !command )
error(64, errno, "malloc");
command[0] = '\0';
while ( true )
{
char c;
if ( 0 <= fd )
{
ssize_t bytes_read = read(fd, &c, sizeof(c));
if ( bytes_read < 0 )
{
sh_read_command->error_condition = true;
free(command);
return;
}
else if ( bytes_read == 0 )
{
if ( command_used == 0 )
{
sh_read_command->eof_condition = true;
free(command);
return;
}
else
{
c = '\n';
}
}
else
{
assert(bytes_read == 1);
if ( c == '\0' )
continue;
}
}
else
{
int ic = fgetc(fp);
if ( ic == EOF && ferror(fp) )
{
sh_read_command->error_condition = true;
free(command);
return;
}
else if ( ic == EOF )
{
if ( command_used == 0 )
{
sh_read_command->eof_condition = true;
free(command);
return;
}
else
{
c = '\n';
}
}
else
{
c = (char) (unsigned char) ic;
if ( c == '\0' )
continue;
}
}
if ( c == '\n' && is_shell_input_ready(command) )
break;
if ( command_used == command_length )
{
size_t new_length = command_length * 2;
char* new_command = (char*) realloc(command, new_length + 1);
if ( !new_command )
error(64, errno, "realloc");
command = new_command;
command_length = new_length;
}
command[command_used++] = c;
command[command_used] = '\0';
}
sh_read_command->command = command;
}
int run(FILE* fp,
const char* fp_name,
bool interactive,
bool exit_on_error,
bool* script_exited,
int status)
{
// TODO: The interactive read code should cope when the input is not a
// terminal; it should print the prompt and then read normally without
// any line editing features.
if ( !isatty(fileno(fp)) )
interactive = false;
while ( true )
{
struct sh_read_command sh_read_command;
memset(&sh_read_command, 0, sizeof(sh_read_command));
if ( interactive )
read_command_interactive(&sh_read_command);
else
read_command_non_interactive(&sh_read_command, fp);
if ( sh_read_command.abort_condition )
continue;
if ( sh_read_command.eof_condition )
{
if ( interactive && is_outermost_shell() )
{
printf("Type exit to close the outermost shell.\n");
continue;
}
break;
}
if ( sh_read_command.error_condition )
{
error(0, errno, "read: %s", fp_name);
return *script_exited = true, 2;
}
status = run_command(sh_read_command.command, interactive,
exit_on_error, script_exited);
free(sh_read_command.command);
if ( *script_exited || (status == 0 && exit_on_error) )
break;
}
return status;
}
void compact_arguments(int* argc, char*** argv)
{
for ( int i = 0; i < *argc; i++ )
{
while ( i < *argc && !(*argv)[i] )
{
for ( int n = i; n < *argc; n++ )
(*argv)[n] = (*argv)[n+1];
(*argc)--;
}
}
}
void help(FILE* fp, const char* argv0)
{
fprintf(fp, "Usage: %s [OPTION...] [SCRIPT [ARGUMENT...]]\n", argv0);
fprintf(fp, " or: %s [OPTION...] -c COMMAND [ARGUMENT...]\n", argv0);
fprintf(fp, " or: %s [OPTION...] -s [ARGUMENT...]\n", argv0);
#if 0
fprintf(fp, " -a, +a set -a\n");
fprintf(fp, " -b, +b set -b\n");
#endif
fprintf(fp, " -c execute the first operand as the command\n");
#if 0
fprintf(fp, " -C, +C set -C\n");
fprintf(fp, " -e, +e set -e\n");
fprintf(fp, " -f, +f set -f\n");
fprintf(fp, " -h, +h set -h\n");
#endif
fprintf(fp, " -i shell is interactive\n");
#if 0
fprintf(fp, " -m, +m set -m\n");
fprintf(fp, " -n, +n set -n\n");
fprintf(fp, " -o OPTION set -o OPTION\n");
fprintf(fp, " +o OPTION set +o OPTION\n");
#endif
fprintf(fp, " -s read commands from the standard input\n");
#if 0
fprintf(fp, " -u, +u set -u\n");
fprintf(fp, " -v, +v set -v\n");
fprintf(fp, " -x, +x set -x\n");
#endif
fprintf(fp, " --help display this help and exit\n");
fprintf(fp, " --version output version information and exit\n");
}
void version(FILE* fp, const char* argv0)
{
fprintf(fp, "%s (Sortix) %s\n", argv0, VERSIONSTR);
fprintf(fp, "License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>.\n");
fprintf(fp, "This is free software: you are free to change and redistribute it.\n");
fprintf(fp, "There is NO WARRANTY, to the extent permitted by law.\n");
}
int main(int argc, char* argv[])
{
setlocale(LC_ALL, "");
// TODO: Canonicalize argv[0] if it contains a slash and isn't absolute?
if ( const char* env_pwd = getenv("PWD") )
{
if ( !is_proper_absolute_path(env_pwd) )
{
unsetenv("PWD");
char* real_pwd = get_current_dir_name();
if ( real_pwd )
setenv("PWD", real_pwd, 1);
free(real_pwd);
}
}
bool flag_c_first_operand_is_command = false;
bool flag_e_exit_on_error = false;
bool flag_i_interactive = false;
bool flag_s_stdin = false;
const char* argv0 = argv[0];
for ( int i = 1; i < argc; i++ )
{
const char* arg = argv[i];
if ( (arg[0] != '-' && arg[0] != '+') || !arg[1] )
break;
argv[i] = NULL;
if ( !strcmp(arg, "--") )
break;
if ( arg[0] == '+' )
{
while ( char c = *++arg ) switch ( c )
{
case 'e': flag_e_exit_on_error = false; break;
default:
fprintf(stderr, "%s: unknown option -- '%c'\n", argv0, c);
help(stderr, argv0);
exit(1);
}
}
else if ( arg[1] != '-' )
{
while ( char c = *++arg ) switch ( c )
{
case 'c': flag_c_first_operand_is_command = true; break;
case 'e': flag_e_exit_on_error = true; break;
case 'i': flag_i_interactive = true; break;
case 's': flag_s_stdin = true; break;
default:
fprintf(stderr, "%s: unknown option -- '%c'\n", argv0, c);
help(stderr, argv0);
exit(1);
}
}
else if ( !strcmp(arg, "--help") )
help(stdout, argv0), exit(0);
else if ( !strcmp(arg, "--version") )
version(stdout, argv0), exit(0);
else
{
fprintf(stderr, "%s: unknown option: %s\n", argv0, arg);
help(stderr, argv0);
exit(1);
}
}
compact_arguments(&argc, &argv);
if ( getenv("SHLVL") )
{
long shlvl = atol(getenv("SHLVL"));
if ( shlvl < 1 )
shlvl = 1;
else
shlvl++;
char shlvl_string[sizeof(long) * 3];
snprintf(shlvl_string, sizeof(shlvl_string), "%li", shlvl);
setenv("SHLVL", shlvl_string, 1);
}
else
{
setenv("SHLVL", "1", 1);
}
char pidstr[3 * sizeof(pid_t)];
char ppidstr[3 * sizeof(pid_t)];
snprintf(pidstr, sizeof(pidstr), "%ji", (intmax_t) getpid());
snprintf(ppidstr, sizeof(ppidstr), "%ji", (intmax_t) getppid());
setenv("SHELL", argv[0], 1);
setenv("$", pidstr, 1);
setenv("PPID", ppidstr, 1);
setenv("?", "0", 1);
setenv("0", argv[0], 1);
bool script_exited = false;
int status = 0;
if ( flag_c_first_operand_is_command )
{
if ( argc <= 1 )
error(2, 0, "option -c expects an operand");
for ( int i = 2; i < argc; i++ )
{
char varname[sizeof(int) * 3];
snprintf(varname, sizeof(varname), "%i", i - 2);
setenv(varname, argv[i], 1);
}
const char* command = argv[1];
size_t command_length = strlen(command);
FILE* fp = fmemopen((void*) command, command_length, "r");
if ( !fp )
error(2, errno, "fmemopen");
status = run(fp, "<command-line>", false, flag_e_exit_on_error,
&script_exited, status);
fclose(fp);
if ( script_exited || (status != 0 && flag_e_exit_on_error) )
exit(status);
if ( flag_s_stdin )
{
bool is_interactive = flag_i_interactive || isatty(fileno(stdin));
status = run(stdin, "<stdin>", is_interactive, flag_e_exit_on_error,
&script_exited, status);
if ( script_exited || (status != 0 && flag_e_exit_on_error) )
exit(status);
}
}
else if ( flag_s_stdin )
{
for ( int i = 1; i < argc; i++ )
{
char varname[sizeof(int) * 3];
snprintf(varname, sizeof(varname), "%i", i - 1);
setenv(varname, argv[i], 1);
}
bool is_interactive = flag_i_interactive || isatty(fileno(stdin));
status = run(stdin, "<stdin>", is_interactive, flag_e_exit_on_error,
&script_exited, status);
if ( script_exited || (status != 0 && flag_e_exit_on_error) )
exit(status);
}
else if ( 2 <= argc )
{
for ( int i = 1; i < argc; i++ )
{
char varname[sizeof(int) * 3];
snprintf(varname, sizeof(varname), "%i", i - 1);
setenv(varname, argv[i], 1);
}
const char* path = argv[1];
FILE* fp = fopen(path, "r");
if ( !fp )
error(127, errno, "%s", path);
status = run(fp, path, false, flag_e_exit_on_error, &script_exited,
status);
fclose(fp);
if ( script_exited || (status != 0 && flag_e_exit_on_error) )
exit(status);
}
else
{
bool is_interactive = flag_i_interactive || isatty(fileno(stdin));
status = run(stdin, "<stdin>", is_interactive, flag_e_exit_on_error,
&script_exited, status);
if ( script_exited || (status != 0 && flag_e_exit_on_error) )
exit(status);
}
return 0;
}