tmate/tmate-encoder.c

491 lines
10 KiB
C
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#include <sys/utsname.h>
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#include "tmate.h"
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#include "tmate-protocol.h"
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#include "window-copy.h"
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#define pack(what, ...) _pack(&tmate_session.encoder, what, ##__VA_ARGS__)
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void tmate_write_header(void)
{
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pack(array, 3);
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pack(int, TMATE_OUT_HEADER);
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pack(int, TMATE_PROTOCOL_VERSION);
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pack(string, VERSION);
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}
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void tmate_write_uname(void)
{
struct utsname name;
if (uname(&name) < 0) {
tmate_debug("uname() failed");
return;
}
pack(array, 6);
pack(int, TMATE_OUT_UNAME);
pack(string, name.sysname);
pack(string, name.nodename);
pack(string, name.release);
pack(string, name.version);
pack(string, name.machine);
}
void tmate_write_ready(void)
{
pack(array, 1);
pack(int, TMATE_OUT_READY);
}
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void tmate_sync_layout(void)
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{
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struct session *s;
struct winlink *wl;
struct window *w;
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struct window_pane *wp;
int num_panes = 0;
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int num_windows = 0;
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int active_pane_id;
int active_window_idx = -1;
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/*
* TODO this can get a little heavy.
* We are shipping the full layout whenever a window name changes,
* that is, at every shell command.
* Might be better to do something incremental.
*/
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/*
* We only allow one session, it makes our lives easier.
* Especially when the HTML5 client will come along.
* We make no distinction between a winlink and its window except
* that we send the winlink idx to draw the status bar properly.
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*/
s = RB_MIN(sessions, &sessions);
if (!s)
return;
num_windows = 0;
RB_FOREACH(wl, winlinks, &s->windows) {
if (wl->window)
num_windows++;
}
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if (!num_windows)
return;
pack(array, 5);
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pack(int, TMATE_OUT_SYNC_LAYOUT);
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pack(int, s->sx);
pack(int, s->sy);
pack(array, num_windows);
RB_FOREACH(wl, winlinks, &s->windows) {
w = wl->window;
if (!w)
continue;
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w->tmate_last_sync_active_pane = NULL;
active_pane_id = -1;
if (active_window_idx == -1)
active_window_idx = wl->idx;
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pack(array, 4);
pack(int, wl->idx);
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pack(string, w->name);
num_panes = 0;
TAILQ_FOREACH(wp, &w->panes, entry)
num_panes++;
pack(array, num_panes);
TAILQ_FOREACH(wp, &w->panes, entry) {
pack(array, 5);
pack(int, wp->id);
pack(int, wp->sx);
pack(int, wp->sy);
pack(int, wp->xoff);
pack(int, wp->yoff);
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if (wp == w->active) {
w->tmate_last_sync_active_pane = wp;
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active_pane_id = wp->id;
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}
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}
pack(int, active_pane_id);
}
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if (s->curw)
active_window_idx = s->curw->idx;
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pack(int, active_window_idx);
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}
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/* TODO add a buffer for pty_data ? */
#define TMATE_MAX_PTY_SIZE (16*1024)
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void tmate_pty_data(struct window_pane *wp, const char *buf, size_t len)
{
size_t to_write;
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while (len > 0) {
to_write = len < TMATE_MAX_PTY_SIZE ? len : TMATE_MAX_PTY_SIZE;
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pack(array, 3);
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pack(int, TMATE_OUT_PTY_DATA);
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pack(int, wp->id);
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pack(str, to_write);
pack(str_body, buf, to_write);
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buf += to_write;
len -= to_write;
}
}
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extern const struct cmd_entry cmd_bind_key_entry;
extern const struct cmd_entry cmd_unbind_key_entry;
extern const struct cmd_entry cmd_set_option_entry;
extern const struct cmd_entry cmd_set_window_option_entry;
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static const struct cmd_entry *replicated_cmds[] = {
&cmd_bind_key_entry,
&cmd_unbind_key_entry,
&cmd_set_option_entry,
&cmd_set_window_option_entry,
NULL
};
int tmate_should_replicate_cmd(const struct cmd_entry *cmd)
{
const struct cmd_entry **ptr;
for (ptr = replicated_cmds; *ptr; ptr++)
if (*ptr == cmd)
return 1;
return 0;
}
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#define sc (&session->saved_tmux_cmds)
#define SAVED_TMUX_CMD_INITIAL_SIZE 256
static void __tmate_exec_cmd_args(int argc, const char **argv);
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static void append_saved_cmd(struct tmate_session *session,
int argc, const char **argv)
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{
if (!sc->cmds) {
sc->capacity = SAVED_TMUX_CMD_INITIAL_SIZE;
sc->cmds = xmalloc(sizeof(*sc->cmds) * sc->capacity);
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sc->tail = 0;
}
if (sc->tail == sc->capacity) {
sc->capacity *= 2;
sc->cmds = xrealloc(sc->cmds, sizeof(*sc->cmds) * sc->capacity);
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}
sc->cmds[sc->tail].argc = argc;
sc->cmds[sc->tail].argv = cmd_copy_argv(argc, (char **)argv);
sc->tail++;
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}
static void replay_saved_cmd(struct tmate_session *session)
{
unsigned int i;
for (i = 0; i < sc->tail; i++)
__tmate_exec_cmd_args(sc->cmds[i].argc, (const char **)sc->cmds[i].argv);
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}
#undef sc
struct args_entry {
u_char flag;
char *value;
RB_ENTRY(args_entry) entry;
};
static void extract_cmd(struct cmd *cmd, int *_argc, char ***_argv)
{
struct args_entry *entry;
struct args* args = cmd->args;
int argc = 0;
char **argv;
int next = 0, i;
argc++; /* cmd name */
RB_FOREACH(entry, args_tree, &args->tree) {
argc++;
if (entry->value != NULL)
argc++;
}
argc += args->argc;
argv = xmalloc(sizeof(char *) * argc);
argv[next++] = xstrdup(cmd->entry->name);
RB_FOREACH(entry, args_tree, &args->tree) {
xasprintf(&argv[next++], "-%c", entry->flag);
if (entry->value != NULL)
argv[next++] = xstrdup(entry->value);
}
for (i = 0; i < args->argc; i++)
argv[next++] = xstrdup(args->argv[i]);
*_argc = argc;
*_argv = argv;
}
static void __tmate_exec_cmd_args(int argc, const char **argv)
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{
int i;
pack(array, argc + 1);
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pack(int, TMATE_OUT_EXEC_CMD);
for (i = 0; i < argc; i++)
pack(string, argv[i]);
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}
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void tmate_exec_cmd_args(int argc, const char **argv)
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{
__tmate_exec_cmd_args(argc, argv);
append_saved_cmd(&tmate_session, argc, argv);
}
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void tmate_set_val(const char *name, const char *value)
{
char *buf;
xasprintf(&buf, "%s=%s", name, value);
tmate_exec_cmd_args(3, (const char *[]){"set-option", "tmate-set", buf});
free(buf);
}
void tmate_exec_cmd(struct cmd *cmd)
{
int argc;
char **argv;
extract_cmd(cmd, &argc, &argv);
tmate_exec_cmd_args(argc, (const char **)argv);
cmd_free_argv(argc, argv);
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}
void tmate_failed_cmd(int client_id, const char *cause)
{
pack(array, 3);
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pack(int, TMATE_OUT_FAILED_CMD);
pack(int, client_id);
pack(string, cause);
}
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void tmate_status(const char *left, const char *right)
{
static char *old_left, *old_right;
if (old_left && !strcmp(old_left, left) &&
old_right && !strcmp(old_right, right))
return;
pack(array, 3);
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pack(int, TMATE_OUT_STATUS);
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pack(string, left);
pack(string, right);
free(old_left);
free(old_right);
old_left = xstrdup(left);
old_right = xstrdup(right);
}
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void tmate_sync_copy_mode(struct window_pane *wp)
{
struct window_copy_mode_data *data = wp->modedata;
pack(array, 3);
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pack(int, TMATE_OUT_SYNC_COPY_MODE);
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pack(int, wp->id);
if (wp->mode != &window_copy_mode ||
data->inputtype == WINDOW_COPY_PASSWORD) {
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pack(array, 0);
return;
}
pack(array, 6);
pack(int, data->backing == &wp->base);
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pack(int, data->oy);
pack(int, data->cx);
pack(int, data->cy);
if (data->screen.sel.flag) {
pack(array, 3);
pack(int, data->selx);
pack(int, -data->sely + screen_hsize(data->backing)
+ screen_size_y(data->backing) - 1);
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pack(int, data->rectflag);
} else
pack(array, 0);
if (data->inputprompt) {
pack(array, 3);
pack(int, data->inputtype);
pack(string, data->inputprompt);
pack(string, data->inputstr);
} else
pack(array, 0);
}
void tmate_write_copy_mode(struct window_pane *wp, const char *str)
{
pack(array, 3);
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pack(int, TMATE_OUT_WRITE_COPY_MODE);
pack(int, wp->id);
pack(string, str);
}
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void tmate_write_fin(void)
{
pack(array, 1);
pack(int, TMATE_OUT_FIN);
}
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static void do_snapshot_grid(struct grid *grid, unsigned int max_history_lines)
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{
struct grid_line *line;
struct grid_cell gc;
unsigned int line_i, i;
unsigned int max_lines;
size_t str_len;
max_lines = max_history_lines + grid->sy;
#define grid_num_lines(grid) (grid->hsize + grid->sy)
if (grid_num_lines(grid) > max_lines)
line_i = grid_num_lines(grid) - max_lines;
else
line_i = 0;
pack(array, grid_num_lines(grid) - line_i);
for (; line_i < grid_num_lines(grid); line_i++) {
line = &grid->linedata[line_i];
pack(array, 2);
str_len = 0;
for (i = 0; i < line->cellsize; i++) {
grid_get_cell(grid, i, line_i, &gc);
str_len += gc.data.size;
}
pack(str, str_len);
for (i = 0; i < line->cellsize; i++) {
grid_get_cell(grid, i, line_i, &gc);
pack(str_body, gc.data.data, gc.data.size);
}
pack(array, line->cellsize);
for (i = 0; i < line->cellsize; i++) {
grid_get_cell(grid, i, line_i, &gc);
pack(unsigned_int, ((gc.flags << 24) |
(gc.attr << 16) |
(gc.bg << 8) |
gc.fg ));
}
}
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}
static void do_snapshot_pane(struct window_pane *wp, unsigned int max_history_lines)
{
struct screen *screen = &wp->base;
pack(array, 4);
pack(int, wp->id);
pack(unsigned_int, screen->mode);
pack(array, 3);
pack(int, screen->cx);
pack(int, screen->cy);
do_snapshot_grid(screen->grid, max_history_lines);
if (wp->saved_grid) {
pack(array, 3);
pack(int, wp->saved_cx);
pack(int, wp->saved_cy);
do_snapshot_grid(wp->saved_grid, max_history_lines);
} else {
pack(nil);
}
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}
static void tmate_send_session_snapshot(unsigned int max_history_lines)
{
struct session *s;
struct winlink *wl;
struct window *w;
struct window_pane *pane;
int num_panes;
pack(array, 2);
pack(int, TMATE_OUT_SNAPSHOT);
s = RB_MIN(sessions, &sessions);
if (!s)
tmate_fatal("no session?");
num_panes = 0;
RB_FOREACH(wl, winlinks, &s->windows) {
w = wl->window;
if (!w)
continue;
TAILQ_FOREACH(pane, &w->panes, entry)
num_panes++;
}
pack(array, num_panes);
RB_FOREACH(wl, winlinks, &s->windows) {
w = wl->window;
if (!w)
continue;
TAILQ_FOREACH(pane, &w->panes, entry)
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do_snapshot_pane(pane, max_history_lines);
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}
}
static void tmate_send_reconnection_data(struct tmate_session *session)
{
if (!session->reconnection_data)
return;
pack(array, 2);
pack(int, TMATE_OUT_RECONNECT);
pack(string, session->reconnection_data);
}
#define RECONNECTION_MAX_HISTORY_LINE 300
void tmate_send_reconnection_state(struct tmate_session *session)
{
/* Start with a fresh encoder */
tmate_encoder_destroy(&session->encoder);
tmate_encoder_init(&session->encoder, NULL, session);
tmate_write_header();
tmate_send_reconnection_data(session);
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replay_saved_cmd(session);
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/* TODO send all option variables */
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tmate_write_uname();
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tmate_write_ready();
tmate_sync_layout();
tmate_send_session_snapshot(RECONNECTION_MAX_HISTORY_LINE);
}