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|
/* vi:set ts=8 sts=4 sw=4:
*
* VIM - Vi IMproved by Bram Moolenaar
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
*/
/*
* Implements communication through a socket or any file handle.
*/
#include "vim.h"
#if defined(FEAT_CHANNEL) || defined(PROTO)
/* TRUE when netbeans is running with a GUI. */
#ifdef FEAT_GUI
# define CH_HAS_GUI (gui.in_use || gui.starting)
#endif
/* Note: when making changes here also adjust configure.in. */
#ifdef WIN32
/* WinSock API is separated from C API, thus we can't use read(), write(),
* errno... */
# define SOCK_ERRNO errno = WSAGetLastError()
# undef ECONNREFUSED
# define ECONNREFUSED WSAECONNREFUSED
# undef EWOULDBLOCK
# define EWOULDBLOCK WSAEWOULDBLOCK
# undef EINPROGRESS
# define EINPROGRESS WSAEINPROGRESS
# ifdef EINTR
# undef EINTR
# endif
# define EINTR WSAEINTR
# define sock_write(sd, buf, len) send((SOCKET)sd, buf, len, 0)
# define sock_read(sd, buf, len) recv((SOCKET)sd, buf, len, 0)
# define sock_close(sd) closesocket((SOCKET)sd)
#else
# include <netdb.h>
# include <netinet/in.h>
# include <sys/socket.h>
# ifdef HAVE_LIBGEN_H
# include <libgen.h>
# endif
# define SOCK_ERRNO
# define sock_write(sd, buf, len) write(sd, buf, len)
# define sock_read(sd, buf, len) read(sd, buf, len)
# define sock_close(sd) close(sd)
# define fd_read(fd, buf, len) read(fd, buf, len)
# define fd_write(sd, buf, len) write(sd, buf, len)
# define fd_close(sd) close(sd)
#endif
/* Whether a redraw is needed for appending a line to a buffer. */
static int channel_need_redraw = FALSE;
#ifdef WIN32
static int
fd_read(sock_T fd, char *buf, size_t len)
{
HANDLE h = (HANDLE)fd;
DWORD nread;
if (!ReadFile(h, buf, (DWORD)len, &nread, NULL))
return -1;
return (int)nread;
}
static int
fd_write(sock_T fd, char *buf, size_t len)
{
HANDLE h = (HANDLE)fd;
DWORD nwrite;
if (!WriteFile(h, buf, (DWORD)len, &nwrite, NULL))
return -1;
return (int)nwrite;
}
static void
fd_close(sock_T fd)
{
HANDLE h = (HANDLE)fd;
CloseHandle(h);
}
#endif
/* Log file opened with ch_logfile(). */
static FILE *log_fd = NULL;
#ifdef FEAT_RELTIME
static proftime_T log_start;
#endif
void
ch_logfile(FILE *file)
{
if (log_fd != NULL)
fclose(log_fd);
log_fd = file;
if (log_fd != NULL)
{
fprintf(log_fd, "==== start log session ====\n");
#ifdef FEAT_RELTIME
profile_start(&log_start);
#endif
}
}
int
ch_log_active()
{
return log_fd != NULL;
}
static void
ch_log_lead(char *what, channel_T *ch)
{
if (log_fd != NULL)
{
#ifdef FEAT_RELTIME
proftime_T log_now;
profile_start(&log_now);
profile_sub(&log_now, &log_start);
fprintf(log_fd, "%s ", profile_msg(&log_now));
#endif
if (ch != NULL)
fprintf(log_fd, "%son %d: ", what, ch->ch_id);
else
fprintf(log_fd, "%s: ", what);
}
}
static int did_log_msg = TRUE;
void
ch_log(channel_T *ch, char *msg)
{
if (log_fd != NULL)
{
ch_log_lead("", ch);
fputs(msg, log_fd);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
static void
ch_logn(channel_T *ch, char *msg, int nr)
{
if (log_fd != NULL)
{
ch_log_lead("", ch);
fprintf(log_fd, msg, nr);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
void
ch_logs(channel_T *ch, char *msg, char *name)
{
if (log_fd != NULL)
{
ch_log_lead("", ch);
fprintf(log_fd, msg, name);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
static void
ch_logsn(channel_T *ch, char *msg, char *name, int nr)
{
if (log_fd != NULL)
{
ch_log_lead("", ch);
fprintf(log_fd, msg, name, nr);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
static void
ch_error(channel_T *ch, char *msg)
{
if (log_fd != NULL)
{
ch_log_lead("ERR ", ch);
fputs(msg, log_fd);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
static void
ch_errorn(channel_T *ch, char *msg, int nr)
{
if (log_fd != NULL)
{
ch_log_lead("ERR ", ch);
fprintf(log_fd, msg, nr);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
static void
ch_errors(channel_T *ch, char *msg, char *arg)
{
if (log_fd != NULL)
{
ch_log_lead("ERR ", ch);
fprintf(log_fd, msg, arg);
fputc('\n', log_fd);
fflush(log_fd);
did_log_msg = TRUE;
}
}
#ifdef _WIN32
# undef PERROR
# define PERROR(msg) (void)emsg3((char_u *)"%s: %s", \
(char_u *)msg, (char_u *)strerror_win32(errno))
static char *
strerror_win32(int eno)
{
static LPVOID msgbuf = NULL;
char_u *ptr;
if (msgbuf)
LocalFree(msgbuf);
FormatMessage(
FORMAT_MESSAGE_ALLOCATE_BUFFER |
FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
NULL,
eno,
MAKELANGID(LANG_ENGLISH, SUBLANG_DEFAULT),
(LPTSTR) &msgbuf,
0,
NULL);
/* chomp \r or \n */
for (ptr = (char_u *)msgbuf; *ptr; ptr++)
switch (*ptr)
{
case '\r':
STRMOVE(ptr, ptr + 1);
ptr--;
break;
case '\n':
if (*(ptr + 1) == '\0')
*ptr = '\0';
else
*ptr = ' ';
break;
}
return msgbuf;
}
#endif
/*
* The list of all allocated channels.
*/
static channel_T *first_channel = NULL;
static int next_ch_id = 0;
/*
* Allocate a new channel. The refcount is set to 1.
* The channel isn't actually used until it is opened.
* Returns NULL if out of memory.
*/
channel_T *
add_channel(void)
{
int part;
channel_T *channel = (channel_T *)alloc_clear((int)sizeof(channel_T));
if (channel == NULL)
return NULL;
channel->ch_id = next_ch_id++;
ch_log(channel, "Created channel");
#ifdef CHANNEL_PIPES
for (part = PART_SOCK; part <= PART_IN; ++part)
#else
part = PART_SOCK;
#endif
{
channel->ch_part[part].ch_fd = INVALID_FD;
#ifdef FEAT_GUI_X11
channel->ch_part[part].ch_inputHandler = (XtInputId)NULL;
#endif
#ifdef FEAT_GUI_GTK
channel->ch_part[part].ch_inputHandler = 0;
#endif
channel->ch_part[part].ch_timeout = 2000;
}
if (first_channel != NULL)
{
first_channel->ch_prev = channel;
channel->ch_next = first_channel;
}
first_channel = channel;
channel->ch_refcount = 1;
return channel;
}
/*
* Called when the refcount of a channel is zero.
* Return TRUE if "channel" has a callback and the associated job wasn't
* killed.
*/
static int
channel_still_useful(channel_T *channel)
{
int has_sock_msg;
#ifdef CHANNEL_PIPES
int has_out_msg;
int has_err_msg;
#endif
/* If the job was killed the channel is not expected to work anymore. */
if (channel->ch_job_killed && channel->ch_job == NULL)
return FALSE;
/* If there is a close callback it may still need to be invoked. */
if (channel->ch_close_cb != NULL)
return TRUE;
/* If there is no callback then nobody can get readahead. If the fd is
* closed and there is no readahead then the callback won't be called. */
has_sock_msg = channel->ch_part[PART_SOCK].ch_fd != INVALID_FD
|| channel->ch_part[PART_SOCK].ch_head.rq_next != NULL
|| channel->ch_part[PART_SOCK].ch_json_head.jq_next != NULL;
#ifdef CHANNEL_PIPES
has_out_msg = channel->ch_part[PART_OUT].ch_fd != INVALID_FD
|| channel->ch_part[PART_OUT].ch_head.rq_next != NULL
|| channel->ch_part[PART_OUT].ch_json_head.jq_next != NULL;
has_err_msg = channel->ch_part[PART_ERR].ch_fd != INVALID_FD
|| channel->ch_part[PART_ERR].ch_head.rq_next != NULL
|| channel->ch_part[PART_ERR].ch_json_head.jq_next != NULL;
#endif
return (channel->ch_callback != NULL && (has_sock_msg
#ifdef CHANNEL_PIPES
|| has_out_msg || has_err_msg
#endif
))
#ifdef CHANNEL_PIPES
|| (channel->ch_part[PART_OUT].ch_callback != NULL && has_out_msg)
|| (channel->ch_part[PART_ERR].ch_callback != NULL && has_err_msg)
#endif
;
}
/*
* Close a channel and free all its resources if there is no further action
* possible, there is no callback to be invoked or the associated job was
* killed.
* Return TRUE if the channel was freed.
*/
int
channel_may_free(channel_T *channel)
{
if (!channel_still_useful(channel))
{
channel_free(channel);
return TRUE;
}
return FALSE;
}
/*
* Close a channel and free all its resources.
*/
void
channel_free(channel_T *channel)
{
channel_close(channel, TRUE);
channel_clear(channel);
ch_log(channel, "Freeing channel");
if (channel->ch_next != NULL)
channel->ch_next->ch_prev = channel->ch_prev;
if (channel->ch_prev == NULL)
first_channel = channel->ch_next;
else
channel->ch_prev->ch_next = channel->ch_next;
vim_free(channel);
}
#if defined(FEAT_GUI) || defined(PROTO)
#if defined(FEAT_GUI_X11) || defined(FEAT_GUI_GTK)
static void
channel_read_fd(int fd)
{
channel_T *channel;
int part;
channel = channel_fd2channel(fd, &part);
if (channel == NULL)
ch_errorn(NULL, "Channel for fd %d not found", fd);
else
channel_read(channel, part, "messageFromNetbeans");
}
#endif
/*
* Read a command from netbeans.
* TODO: instead of channel ID use the FD.
*/
#ifdef FEAT_GUI_X11
static void
messageFromNetbeans(XtPointer clientData,
int *unused1 UNUSED,
XtInputId *unused2 UNUSED)
{
channel_read_fd((int)(long)clientData);
}
#endif
#ifdef FEAT_GUI_GTK
# if GTK_CHECK_VERSION(3,0,0)
static gboolean
messageFromNetbeans(GIOChannel *unused1 UNUSED,
GIOCondition unused2 UNUSED,
gpointer clientData)
{
channel_read_fd(GPOINTER_TO_INT(clientData));
return TRUE; /* Return FALSE instead in case the event source is to
* be removed after this function returns. */
}
# else
static void
messageFromNetbeans(gpointer clientData,
gint unused1 UNUSED,
GdkInputCondition unused2 UNUSED)
{
channel_read_fd((int)(long)clientData);
}
# endif
#endif
static void
channel_gui_register_one(channel_T *channel, int part)
{
if (!CH_HAS_GUI)
return;
# ifdef FEAT_GUI_X11
/* Tell notifier we are interested in being called
* when there is input on the editor connection socket. */
if (channel->ch_part[part].ch_inputHandler == (XtInputId)NULL)
channel->ch_part[part].ch_inputHandler = XtAppAddInput(
(XtAppContext)app_context,
channel->ch_part[part].ch_fd,
(XtPointer)(XtInputReadMask + XtInputExceptMask),
messageFromNetbeans,
(XtPointer)(long)channel->ch_part[part].ch_fd);
# else
# ifdef FEAT_GUI_GTK
/* Tell gdk we are interested in being called when there
* is input on the editor connection socket. */
if (channel->ch_part[part].ch_inputHandler == 0)
# if GTK_CHECK_VERSION(3,0,0)
{
GIOChannel *chnnl = g_io_channel_unix_new(
(gint)channel->ch_part[part].ch_fd);
channel->ch_part[part].ch_inputHandler = g_io_add_watch(
chnnl,
G_IO_IN|G_IO_HUP|G_IO_ERR|G_IO_PRI,
messageFromNetbeans,
GINT_TO_POINTER(channel->ch_part[part].ch_fd));
g_io_channel_unref(chnnl);
}
# else
channel->ch_part[part].ch_inputHandler = gdk_input_add(
(gint)channel->ch_part[part].ch_fd,
(GdkInputCondition)
((int)GDK_INPUT_READ + (int)GDK_INPUT_EXCEPTION),
messageFromNetbeans,
(gpointer)(long)channel->ch_part[part].ch_fd);
# endif
# endif
# endif
}
static void
channel_gui_register(channel_T *channel)
{
if (channel->CH_SOCK_FD != INVALID_FD)
channel_gui_register_one(channel, PART_SOCK);
# ifdef CHANNEL_PIPES
if (channel->CH_OUT_FD != INVALID_FD)
channel_gui_register_one(channel, PART_OUT);
if (channel->CH_ERR_FD != INVALID_FD)
channel_gui_register_one(channel, PART_ERR);
# endif
}
/*
* Register any of our file descriptors with the GUI event handling system.
* Called when the GUI has started.
*/
void
channel_gui_register_all(void)
{
channel_T *channel;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
channel_gui_register(channel);
}
static void
channel_gui_unregister_one(channel_T *channel, int part)
{
# ifdef FEAT_GUI_X11
if (channel->ch_part[part].ch_inputHandler != (XtInputId)NULL)
{
XtRemoveInput(channel->ch_part[part].ch_inputHandler);
channel->ch_part[part].ch_inputHandler = (XtInputId)NULL;
}
# else
# ifdef FEAT_GUI_GTK
if (channel->ch_part[part].ch_inputHandler != 0)
{
# if GTK_CHECK_VERSION(3,0,0)
g_source_remove(channel->ch_part[part].ch_inputHandler);
# else
gdk_input_remove(channel->ch_part[part].ch_inputHandler);
# endif
channel->ch_part[part].ch_inputHandler = 0;
}
# endif
# endif
}
static void
channel_gui_unregister(channel_T *channel)
{
int part;
#ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
#else
part = PART_SOCK;
#endif
{
channel_gui_unregister_one(channel, part);
}
}
#endif
static char *e_cannot_connect = N_("E902: Cannot connect to port");
/*
* Open a socket channel to "hostname":"port".
* "waittime" is the time in msec to wait for the connection.
* When negative wait forever.
* Returns the channel for success.
* Returns NULL for failure.
*/
channel_T *
channel_open(
char *hostname,
int port_in,
int waittime,
void (*nb_close_cb)(void))
{
int sd = -1;
struct sockaddr_in server;
struct hostent *host;
#ifdef WIN32
u_short port = port_in;
u_long val = 1;
#else
int port = port_in;
#endif
channel_T *channel;
int ret;
#ifdef WIN32
channel_init_winsock();
#endif
channel = add_channel();
if (channel == NULL)
{
ch_error(NULL, "Cannot allocate channel.");
return NULL;
}
/* Get the server internet address and put into addr structure */
/* fill in the socket address structure and connect to server */
vim_memset((char *)&server, 0, sizeof(server));
server.sin_family = AF_INET;
server.sin_port = htons(port);
if ((host = gethostbyname(hostname)) == NULL)
{
ch_error(channel, "in gethostbyname() in channel_open()");
PERROR("E901: gethostbyname() in channel_open()");
channel_free(channel);
return NULL;
}
memcpy((char *)&server.sin_addr, host->h_addr, host->h_length);
/* On Mac and Solaris a zero timeout almost never works. At least wait
* one millisecond. Let's do it for all systems, because we don't know why
* this is needed. */
if (waittime == 0)
waittime = 1;
/*
* For Unix we need to call connect() again after connect() failed.
* On Win32 one time is sufficient.
*/
while (TRUE)
{
long elapsed_msec = 0;
int waitnow;
if (sd >= 0)
sock_close(sd);
sd = socket(AF_INET, SOCK_STREAM, 0);
if (sd == -1)
{
ch_error(channel, "in socket() in channel_open().");
PERROR("E898: socket() in channel_open()");
channel_free(channel);
return NULL;
}
if (waittime >= 0)
{
/* Make connect() non-blocking. */
if (
#ifdef _WIN32
ioctlsocket(sd, FIONBIO, &val) < 0
#else
fcntl(sd, F_SETFL, O_NONBLOCK) < 0
#endif
)
{
SOCK_ERRNO;
ch_errorn(channel,
"channel_open: Connect failed with errno %d", errno);
sock_close(sd);
channel_free(channel);
return NULL;
}
}
/* Try connecting to the server. */
ch_logsn(channel, "Connecting to %s port %d", hostname, port);
ret = connect(sd, (struct sockaddr *)&server, sizeof(server));
if (ret == 0)
/* The connection could be established. */
break;
SOCK_ERRNO;
if (waittime < 0 || (errno != EWOULDBLOCK
&& errno != ECONNREFUSED
#ifdef EINPROGRESS
&& errno != EINPROGRESS
#endif
))
{
ch_errorn(channel,
"channel_open: Connect failed with errno %d", errno);
PERROR(_(e_cannot_connect));
sock_close(sd);
channel_free(channel);
return NULL;
}
/* Limit the waittime to 50 msec. If it doesn't work within this
* time we close the socket and try creating it again. */
waitnow = waittime > 50 ? 50 : waittime;
/* If connect() didn't finish then try using select() to wait for the
* connection to be made. For Win32 always use select() to wait. */
#ifndef WIN32
if (errno != ECONNREFUSED)
#endif
{
struct timeval tv;
fd_set rfds;
fd_set wfds;
#ifndef WIN32
int so_error = 0;
socklen_t so_error_len = sizeof(so_error);
struct timeval start_tv;
struct timeval end_tv;
#endif
FD_ZERO(&rfds);
FD_SET(sd, &rfds);
FD_ZERO(&wfds);
FD_SET(sd, &wfds);
tv.tv_sec = waitnow / 1000;
tv.tv_usec = (waitnow % 1000) * 1000;
#ifndef WIN32
gettimeofday(&start_tv, NULL);
#endif
ch_logn(channel,
"Waiting for connection (waiting %d msec)...", waitnow);
ret = select((int)sd + 1, &rfds, &wfds, NULL, &tv);
if (ret < 0)
{
SOCK_ERRNO;
ch_errorn(channel,
"channel_open: Connect failed with errno %d", errno);
PERROR(_(e_cannot_connect));
sock_close(sd);
channel_free(channel);
return NULL;
}
#ifdef WIN32
/* On Win32: select() is expected to work and wait for up to
* "waitnow" msec for the socket to be open. */
if (FD_ISSET(sd, &wfds))
break;
elapsed_msec = waitnow;
if (waittime > 1 && elapsed_msec < waittime)
{
waittime -= elapsed_msec;
continue;
}
#else
/* On Linux-like systems: See socket(7) for the behavior
* After putting the socket in non-blocking mode, connect() will
* return EINPROGRESS, select() will not wait (as if writing is
* possible), need to use getsockopt() to check if the socket is
* actually able to connect.
* We detect a failure to connect when either read and write fds
* are set. Use getsockopt() to find out what kind of failure. */
if (FD_ISSET(sd, &rfds) || FD_ISSET(sd, &wfds))
{
ret = getsockopt(sd,
SOL_SOCKET, SO_ERROR, &so_error, &so_error_len);
if (ret < 0 || (so_error != 0
&& so_error != EWOULDBLOCK
&& so_error != ECONNREFUSED
# ifdef EINPROGRESS
&& so_error != EINPROGRESS
# endif
))
{
ch_errorn(channel,
"channel_open: Connect failed with errno %d",
so_error);
PERROR(_(e_cannot_connect));
sock_close(sd);
channel_free(channel);
return NULL;
}
}
if (FD_ISSET(sd, &wfds) && so_error == 0)
/* Did not detect an error, connection is established. */
break;
gettimeofday(&end_tv, NULL);
elapsed_msec = (end_tv.tv_sec - start_tv.tv_sec) * 1000
+ (end_tv.tv_usec - start_tv.tv_usec) / 1000;
#endif
}
#ifndef WIN32
if (waittime > 1 && elapsed_msec < waittime)
{
/* The port isn't ready but we also didn't get an error.
* This happens when the server didn't open the socket
* yet. Select() may return early, wait until the remaining
* "waitnow" and try again. */
waitnow -= elapsed_msec;
waittime -= elapsed_msec;
if (waitnow > 0)
{
mch_delay((long)waitnow, TRUE);
ui_breakcheck();
waittime -= waitnow;
}
if (!got_int)
{
if (waittime <= 0)
/* give it one more try */
waittime = 1;
continue;
}
/* we were interrupted, behave as if timed out */
}
#endif
/* We timed out. */
ch_error(channel, "Connection timed out");
sock_close(sd);
channel_free(channel);
return NULL;
}
ch_log(channel, "Connection made");
if (waittime >= 0)
{
#ifdef _WIN32
val = 0;
ioctlsocket(sd, FIONBIO, &val);
#else
(void)fcntl(sd, F_SETFL, 0);
#endif
}
channel->CH_SOCK_FD = (sock_T)sd;
channel->ch_nb_close_cb = nb_close_cb;
#ifdef FEAT_GUI
channel_gui_register_one(channel, PART_SOCK);
#endif
return channel;
}
#if defined(CHANNEL_PIPES) || defined(PROTO)
static void
may_close_part(sock_T *fd)
{
if (*fd != INVALID_FD)
{
fd_close(*fd);
*fd = INVALID_FD;
}
}
void
channel_set_pipes(channel_T *channel, sock_T in, sock_T out, sock_T err)
{
if (in != INVALID_FD)
{
may_close_part(&channel->CH_IN_FD);
channel->CH_IN_FD = in;
}
if (out != INVALID_FD)
{
# if defined(FEAT_GUI)
channel_gui_unregister_one(channel, PART_OUT);
# endif
may_close_part(&channel->CH_OUT_FD);
channel->CH_OUT_FD = out;
# if defined(FEAT_GUI)
channel_gui_register_one(channel, PART_OUT);
# endif
}
if (err != INVALID_FD)
{
# if defined(FEAT_GUI)
channel_gui_unregister_one(channel, PART_ERR);
# endif
may_close_part(&channel->CH_ERR_FD);
channel->CH_ERR_FD = err;
# if defined(FEAT_GUI)
channel_gui_register_one(channel, PART_ERR);
# endif
}
}
#endif
/*
* Sets the job the channel is associated with and associated options.
* This does not keep a refcount, when the job is freed ch_job is cleared.
*/
void
channel_set_job(channel_T *channel, job_T *job, jobopt_T *options)
{
channel->ch_job = job;
channel_set_options(channel, options);
if (job->jv_in_buf != NULL)
{
chanpart_T *in_part = &channel->ch_part[PART_IN];
in_part->ch_buffer = job->jv_in_buf;
ch_logs(channel, "reading from buffer '%s'",
(char *)in_part->ch_buffer->b_ffname);
if (options->jo_set & JO_IN_TOP)
{
if (options->jo_in_top == 0 && !(options->jo_set & JO_IN_BOT))
{
/* Special mode: send last-but-one line when appending a line
* to the buffer. */
in_part->ch_buffer->b_write_to_channel = TRUE;
in_part->ch_buf_top =
in_part->ch_buffer->b_ml.ml_line_count + 1;
}
else
in_part->ch_buf_top = options->jo_in_top;
}
else
in_part->ch_buf_top = 1;
if (options->jo_set & JO_IN_BOT)
in_part->ch_buf_bot = options->jo_in_bot;
else
in_part->ch_buf_bot = in_part->ch_buffer->b_ml.ml_line_count;
}
}
/*
* Find a buffer matching "name" or create a new one.
*/
static buf_T *
find_buffer(char_u *name, int err)
{
buf_T *buf = NULL;
buf_T *save_curbuf = curbuf;
if (name != NULL && *name != NUL)
buf = buflist_findname(name);
if (buf == NULL)
{
buf = buflist_new(name == NULL || *name == NUL ? NULL : name,
NULL, (linenr_T)0, BLN_LISTED);
buf_copy_options(buf, BCO_ENTER);
#ifdef FEAT_QUICKFIX
set_option_value((char_u *)"bt", 0L, (char_u *)"nofile", OPT_LOCAL);
set_option_value((char_u *)"bh", 0L, (char_u *)"hide", OPT_LOCAL);
#endif
curbuf = buf;
if (curbuf->b_ml.ml_mfp == NULL)
ml_open(curbuf);
ml_replace(1, (char_u *)(err ? "Reading from channel error..."
: "Reading from channel output..."), TRUE);
changed_bytes(1, 0);
curbuf = save_curbuf;
}
return buf;
}
/*
* Set various properties from an "opt" argument.
*/
void
channel_set_options(channel_T *channel, jobopt_T *opt)
{
int part;
char_u **cbp;
if (opt->jo_set & JO_MODE)
for (part = PART_SOCK; part <= PART_IN; ++part)
channel->ch_part[part].ch_mode = opt->jo_mode;
if (opt->jo_set & JO_IN_MODE)
channel->ch_part[PART_IN].ch_mode = opt->jo_in_mode;
if (opt->jo_set & JO_OUT_MODE)
channel->ch_part[PART_OUT].ch_mode = opt->jo_out_mode;
if (opt->jo_set & JO_ERR_MODE)
channel->ch_part[PART_ERR].ch_mode = opt->jo_err_mode;
if (opt->jo_set & JO_TIMEOUT)
for (part = PART_SOCK; part <= PART_IN; ++part)
channel->ch_part[part].ch_timeout = opt->jo_timeout;
if (opt->jo_set & JO_OUT_TIMEOUT)
channel->ch_part[PART_OUT].ch_timeout = opt->jo_out_timeout;
if (opt->jo_set & JO_ERR_TIMEOUT)
channel->ch_part[PART_ERR].ch_timeout = opt->jo_err_timeout;
if (opt->jo_set & JO_CALLBACK)
{
cbp = &channel->ch_callback;
vim_free(*cbp);
if (opt->jo_callback != NULL && *opt->jo_callback != NUL)
*cbp = vim_strsave(opt->jo_callback);
else
*cbp = NULL;
}
if (opt->jo_set & JO_OUT_CALLBACK)
{
cbp = &channel->ch_part[PART_OUT].ch_callback;
vim_free(*cbp);
if (opt->jo_out_cb != NULL && *opt->jo_out_cb != NUL)
*cbp = vim_strsave(opt->jo_out_cb);
else
*cbp = NULL;
}
if (opt->jo_set & JO_ERR_CALLBACK)
{
cbp = &channel->ch_part[PART_ERR].ch_callback;
vim_free(*cbp);
if (opt->jo_err_cb != NULL && *opt->jo_err_cb != NUL)
*cbp = vim_strsave(opt->jo_err_cb);
else
*cbp = NULL;
}
if (opt->jo_set & JO_CLOSE_CALLBACK)
{
cbp = &channel->ch_close_cb;
vim_free(*cbp);
if (opt->jo_close_cb != NULL && *opt->jo_close_cb != NUL)
*cbp = vim_strsave(opt->jo_close_cb);
else
*cbp = NULL;
}
if ((opt->jo_set & JO_OUT_IO) && opt->jo_io[PART_OUT] == JIO_BUFFER)
{
/* writing output to a buffer. Default mode is NL. */
if (!(opt->jo_set & JO_OUT_MODE))
channel->ch_part[PART_OUT].ch_mode = MODE_NL;
if (opt->jo_set & JO_OUT_BUF)
channel->ch_part[PART_OUT].ch_buffer =
buflist_findnr(opt->jo_io_buf[PART_OUT]);
else
channel->ch_part[PART_OUT].ch_buffer =
find_buffer(opt->jo_io_name[PART_OUT], FALSE);
ch_logs(channel, "writing out to buffer '%s'",
(char *)channel->ch_part[PART_OUT].ch_buffer->b_ffname);
}
if ((opt->jo_set & JO_ERR_IO) && (opt->jo_io[PART_ERR] == JIO_BUFFER
|| (opt->jo_io[PART_ERR] == JIO_OUT && (opt->jo_set & JO_OUT_IO)
&& opt->jo_io[PART_OUT] == JIO_BUFFER)))
{
/* writing err to a buffer. Default mode is NL. */
if (!(opt->jo_set & JO_ERR_MODE))
channel->ch_part[PART_ERR].ch_mode = MODE_NL;
if (opt->jo_io[PART_ERR] == JIO_OUT)
channel->ch_part[PART_ERR].ch_buffer =
channel->ch_part[PART_OUT].ch_buffer;
else if (opt->jo_set & JO_ERR_BUF)
channel->ch_part[PART_ERR].ch_buffer =
buflist_findnr(opt->jo_io_buf[PART_ERR]);
else
channel->ch_part[PART_ERR].ch_buffer =
find_buffer(opt->jo_io_name[PART_ERR], TRUE);
ch_logs(channel, "writing err to buffer '%s'",
(char *)channel->ch_part[PART_ERR].ch_buffer->b_ffname);
}
}
/*
* Set the callback for "channel"/"part" for the response with "id".
*/
void
channel_set_req_callback(
channel_T *channel,
int part,
char_u *callback,
int id)
{
cbq_T *head = &channel->ch_part[part].ch_cb_head;
cbq_T *item = (cbq_T *)alloc((int)sizeof(cbq_T));
if (item != NULL)
{
item->cq_callback = vim_strsave(callback);
item->cq_seq_nr = id;
item->cq_prev = head->cq_prev;
head->cq_prev = item;
item->cq_next = NULL;
if (item->cq_prev == NULL)
head->cq_next = item;
else
item->cq_prev->cq_next = item;
}
}
static void
write_buf_line(buf_T *buf, linenr_T lnum, channel_T *channel)
{
char_u *line = ml_get_buf(buf, lnum, FALSE);
int len = (int)STRLEN(line);
char_u *p;
/* TODO: check if channel can be written to, do not block on write */
if ((p = alloc(len + 2)) == NULL)
return;
STRCPY(p, line);
p[len] = NL;
p[len + 1] = NUL;
channel_send(channel, PART_IN, p, "write_buf_line()");
vim_free(p);
}
/*
* Write any lines to the input channel.
*/
void
channel_write_in(channel_T *channel)
{
chanpart_T *in_part = &channel->ch_part[PART_IN];
linenr_T lnum;
buf_T *buf = in_part->ch_buffer;
int written = 0;
if (buf == NULL)
return;
if (!buf_valid(buf) || buf->b_ml.ml_mfp == NULL)
{
/* buffer was wiped out or unloaded */
in_part->ch_buffer = NULL;
return;
}
if (in_part->ch_fd == INVALID_FD)
/* pipe was closed */
return;
for (lnum = in_part->ch_buf_top; lnum <= in_part->ch_buf_bot
&& lnum <= buf->b_ml.ml_line_count; ++lnum)
{
write_buf_line(buf, lnum, channel);
++written;
}
if (written == 1)
ch_logn(channel, "written line %d to channel", (int)lnum - 1);
else if (written > 1)
ch_logn(channel, "written %d lines to channel", written);
in_part->ch_buf_top = lnum;
}
/*
* Write appended lines above the last one in "buf" to the channel.
*/
void
channel_write_new_lines(buf_T *buf)
{
channel_T *channel;
int found_one = FALSE;
/* There could be more than one channel for the buffer, loop over all of
* them. */
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
chanpart_T *in_part = &channel->ch_part[PART_IN];
linenr_T lnum;
int written = 0;
if (in_part->ch_buffer == buf)
{
if (in_part->ch_fd == INVALID_FD)
/* pipe was closed */
continue;
found_one = TRUE;
for (lnum = in_part->ch_buf_bot; lnum < buf->b_ml.ml_line_count;
++lnum)
{
write_buf_line(buf, lnum, channel);
++written;
}
if (written == 1)
ch_logn(channel, "written line %d to channel", (int)lnum - 1);
else if (written > 1)
ch_logn(channel, "written %d lines to channel", written);
in_part->ch_buf_bot = lnum;
}
}
if (!found_one)
buf->b_write_to_channel = FALSE;
}
/*
* Invoke the "callback" on channel "channel".
*/
static void
invoke_callback(channel_T *channel, char_u *callback, typval_T *argv)
{
typval_T rettv;
int dummy;
argv[0].v_type = VAR_CHANNEL;
argv[0].vval.v_channel = channel;
call_func(callback, (int)STRLEN(callback),
&rettv, 2, argv, 0L, 0L, &dummy, TRUE, NULL);
clear_tv(&rettv);
/* If an echo command was used the cursor needs to be put back where
* it belongs. If highlighting was changed a redraw is needed. */
update_screen(0);
setcursor();
cursor_on();
out_flush();
#ifdef FEAT_GUI
if (gui.in_use)
{
gui_update_cursor(TRUE, FALSE);
gui_mch_flush();
}
#endif
}
/*
* Return the first buffer from channel "channel"/"part" and remove it.
* The caller must free it.
* Returns NULL if there is nothing.
*/
char_u *
channel_get(channel_T *channel, int part)
{
readq_T *head = &channel->ch_part[part].ch_head;
readq_T *node = head->rq_next;
char_u *p;
if (node == NULL)
return NULL;
/* dispose of the node but keep the buffer */
p = node->rq_buffer;
head->rq_next = node->rq_next;
if (node->rq_next == NULL)
head->rq_prev = NULL;
else
node->rq_next->rq_prev = NULL;
vim_free(node);
return p;
}
/*
* Returns the whole buffer contents concatenated for "channel"/"part".
*/
static char_u *
channel_get_all(channel_T *channel, int part)
{
/* Concatenate everything into one buffer.
* TODO: avoid multiple allocations. */
while (channel_collapse(channel, part) == OK)
;
return channel_get(channel, part);
}
/*
* Collapses the first and second buffer for "channel"/"part".
* Returns FAIL if that is not possible.
*/
int
channel_collapse(channel_T *channel, int part)
{
readq_T *head = &channel->ch_part[part].ch_head;
readq_T *node = head->rq_next;
char_u *p;
if (node == NULL || node->rq_next == NULL)
return FAIL;
p = alloc((unsigned)(STRLEN(node->rq_buffer)
+ STRLEN(node->rq_next->rq_buffer) + 1));
if (p == NULL)
return FAIL; /* out of memory */
STRCPY(p, node->rq_buffer);
STRCAT(p, node->rq_next->rq_buffer);
vim_free(node->rq_next->rq_buffer);
node->rq_next->rq_buffer = p;
/* dispose of the node and its buffer */
head->rq_next = node->rq_next;
head->rq_next->rq_prev = NULL;
vim_free(node->rq_buffer);
vim_free(node);
return OK;
}
/*
* Store "buf[len]" on "channel"/"part".
* Returns OK or FAIL.
*/
static int
channel_save(channel_T *channel, int part, char_u *buf, int len)
{
readq_T *node;
readq_T *head = &channel->ch_part[part].ch_head;
char_u *p;
int i;
node = (readq_T *)alloc(sizeof(readq_T));
if (node == NULL)
return FAIL; /* out of memory */
node->rq_buffer = alloc(len + 1);
if (node->rq_buffer == NULL)
{
vim_free(node);
return FAIL; /* out of memory */
}
if (channel->ch_part[part].ch_mode == MODE_NL)
{
/* Drop any CR before a NL. */
p = node->rq_buffer;
for (i = 0; i < len; ++i)
if (buf[i] != CAR || i + 1 >= len || buf[i + 1] != NL)
*p++ = buf[i];
*p = NUL;
}
else
{
mch_memmove(node->rq_buffer, buf, len);
node->rq_buffer[len] = NUL;
}
/* append node to the tail of the queue */
node->rq_next = NULL;
node->rq_prev = head->rq_prev;
if (head->rq_prev == NULL)
head->rq_next = node;
else
head->rq_prev->rq_next = node;
head->rq_prev = node;
if (log_fd != NULL)
{
ch_log_lead("RECV ", channel);
fprintf(log_fd, "'");
if (fwrite(buf, len, 1, log_fd) != 1)
return FAIL;
fprintf(log_fd, "'\n");
}
return OK;
}
/*
* Use the read buffer of "channel"/"part" and parse a JSON messages that is
* complete. The messages are added to the queue.
* Return TRUE if there is more to read.
*/
static int
channel_parse_json(channel_T *channel, int part)
{
js_read_T reader;
typval_T listtv;
jsonq_T *item;
jsonq_T *head = &channel->ch_part[part].ch_json_head;
int ret;
if (channel_peek(channel, part) == NULL)
return FALSE;
/* TODO: make reader work properly */
/* reader.js_buf = channel_peek(channel, part); */
reader.js_buf = channel_get_all(channel, part);
reader.js_used = 0;
reader.js_fill = NULL;
/* reader.js_fill = channel_fill; */
reader.js_cookie = channel;
ret = json_decode(&reader, &listtv,
channel->ch_part[part].ch_mode == MODE_JS ? JSON_JS : 0);
if (ret == OK)
{
/* Only accept the response when it is a list with at least two
* items. */
if (listtv.v_type != VAR_LIST || listtv.vval.v_list->lv_len < 2)
{
/* TODO: give error */
clear_tv(&listtv);
}
else
{
item = (jsonq_T *)alloc((unsigned)sizeof(jsonq_T));
if (item == NULL)
clear_tv(&listtv);
else
{
item->jq_value = alloc_tv();
if (item->jq_value == NULL)
{
vim_free(item);
clear_tv(&listtv);
}
else
{
*item->jq_value = listtv;
item->jq_prev = head->jq_prev;
head->jq_prev = item;
item->jq_next = NULL;
if (item->jq_prev == NULL)
head->jq_next = item;
else
item->jq_prev->jq_next = item;
}
}
}
}
/* Put the unread part back into the channel.
* TODO: insert in front */
if (reader.js_buf[reader.js_used] != NUL)
{
channel_save(channel, part, reader.js_buf + reader.js_used,
(int)(reader.js_end - reader.js_buf) - reader.js_used);
ret = TRUE;
}
else
ret = FALSE;
vim_free(reader.js_buf);
return ret;
}
/*
* Remove "node" from the queue that it is in. Does not free it.
*/
static void
remove_cb_node(cbq_T *head, cbq_T *node)
{
if (node->cq_prev == NULL)
head->cq_next = node->cq_next;
else
node->cq_prev->cq_next = node->cq_next;
if (node->cq_next == NULL)
head->cq_prev = node->cq_prev;
else
node->cq_next->cq_prev = node->cq_prev;
}
/*
* Remove "node" from the queue that it is in and free it.
* Caller should have freed or used node->jq_value.
*/
static void
remove_json_node(jsonq_T *head, jsonq_T *node)
{
if (node->jq_prev == NULL)
head->jq_next = node->jq_next;
else
node->jq_prev->jq_next = node->jq_next;
if (node->jq_next == NULL)
head->jq_prev = node->jq_prev;
else
node->jq_next->jq_prev = node->jq_prev;
vim_free(node);
}
/*
* Get a message from the JSON queue for channel "channel".
* When "id" is positive it must match the first number in the list.
* When "id" is zero or negative jut get the first message. But not the one
* with id ch_block_id.
* Return OK when found and return the value in "rettv".
* Return FAIL otherwise.
*/
static int
channel_get_json(channel_T *channel, int part, int id, typval_T **rettv)
{
jsonq_T *head = &channel->ch_part[part].ch_json_head;
jsonq_T *item = head->jq_next;
while (item != NULL)
{
list_T *l = item->jq_value->vval.v_list;
typval_T *tv = &l->lv_first->li_tv;
if ((id > 0 && tv->v_type == VAR_NUMBER && tv->vval.v_number == id)
|| (id <= 0 && (tv->v_type != VAR_NUMBER
|| tv->vval.v_number == 0
|| tv->vval.v_number != channel->ch_part[part].ch_block_id)))
{
*rettv = item->jq_value;
remove_json_node(head, item);
return OK;
}
item = item->jq_next;
}
return FAIL;
}
#define CH_JSON_MAX_ARGS 4
/*
* Execute a command received over "channel"/"part"
* "argv[0]" is the command string.
* "argv[1]" etc. have further arguments, type is VAR_UNKNOWN if missing.
*/
static void
channel_exe_cmd(channel_T *channel, int part, typval_T *argv)
{
char_u *cmd = argv[0].vval.v_string;
char_u *arg;
int options = channel->ch_part[part].ch_mode == MODE_JS ? JSON_JS : 0;
if (argv[1].v_type != VAR_STRING)
{
ch_error(channel, "received command with non-string argument");
if (p_verbose > 2)
EMSG("E903: received command with non-string argument");
return;
}
arg = argv[1].vval.v_string;
if (arg == NULL)
arg = (char_u *)"";
if (STRCMP(cmd, "ex") == 0)
{
do_cmdline_cmd(arg);
}
else if (STRCMP(cmd, "normal") == 0)
{
exarg_T ea;
ea.arg = arg;
ea.addr_count = 0;
ea.forceit = TRUE; /* no mapping */
ex_normal(&ea);
}
else if (STRCMP(cmd, "redraw") == 0)
{
exarg_T ea;
ea.forceit = *arg != NUL;
ex_redraw(&ea);
showruler(FALSE);
setcursor();
out_flush();
#ifdef FEAT_GUI
if (gui.in_use)
{
gui_update_cursor(FALSE, FALSE);
gui_mch_flush();
}
#endif
}
else if (STRCMP(cmd, "expr") == 0 || STRCMP(cmd, "call") == 0)
{
int is_call = cmd[0] == 'c';
int id_idx = is_call ? 3 : 2;
if (argv[id_idx].v_type != VAR_UNKNOWN
&& argv[id_idx].v_type != VAR_NUMBER)
{
ch_error(channel, "last argument for expr/call must be a number");
if (p_verbose > 2)
EMSG("E904: last argument for expr/call must be a number");
}
else if (is_call && argv[2].v_type != VAR_LIST)
{
ch_error(channel, "third argument for call must be a list");
if (p_verbose > 2)
EMSG("E904: third argument for call must be a list");
}
else
{
typval_T *tv;
typval_T res_tv;
typval_T err_tv;
char_u *json = NULL;
/* Don't pollute the display with errors. */
++emsg_skip;
if (!is_call)
tv = eval_expr(arg, NULL);
else if (func_call(arg, &argv[2], NULL, &res_tv) == OK)
tv = &res_tv;
else
tv = NULL;
if (argv[id_idx].v_type == VAR_NUMBER)
{
int id = argv[id_idx].vval.v_number;
if (tv != NULL)
json = json_encode_nr_expr(id, tv, options);
if (tv == NULL || (json != NULL && *json == NUL))
{
/* If evaluation failed or the result can't be encoded
* then return the string "ERROR". */
vim_free(json);
free_tv(tv);
err_tv.v_type = VAR_STRING;
err_tv.vval.v_string = (char_u *)"ERROR";
tv = &err_tv;
json = json_encode_nr_expr(id, tv, options);
}
if (json != NULL)
{
channel_send(channel,
part == PART_SOCK ? PART_SOCK : PART_IN,
json, (char *)cmd);
vim_free(json);
}
}
--emsg_skip;
if (tv == &res_tv)
clear_tv(tv);
else if (tv != &err_tv)
free_tv(tv);
}
}
else if (p_verbose > 2)
{
ch_errors(channel, "Receved unknown command: %s", (char *)cmd);
EMSG2("E905: received unknown command: %s", cmd);
}
}
static void
invoke_one_time_callback(
channel_T *channel,
cbq_T *cbhead,
cbq_T *item,
typval_T *argv)
{
ch_logs(channel, "Invoking one-time callback %s",
(char *)item->cq_callback);
/* Remove the item from the list first, if the callback
* invokes ch_close() the list will be cleared. */
remove_cb_node(cbhead, item);
invoke_callback(channel, item->cq_callback, argv);
vim_free(item->cq_callback);
vim_free(item);
}
static void
append_to_buffer(buf_T *buffer, char_u *msg, channel_T *channel)
{
buf_T *save_curbuf = curbuf;
linenr_T lnum = buffer->b_ml.ml_line_count;
int save_write_to = buffer->b_write_to_channel;
/* If the buffer is also used as input insert above the last
* line. Don't write these lines. */
if (save_write_to)
{
--lnum;
buffer->b_write_to_channel = FALSE;
}
/* Append to the buffer */
ch_logn(channel, "appending line %d to buffer", (int)lnum + 1);
curbuf = buffer;
u_sync(TRUE);
/* ignore undo failure, undo is not very useful here */
ignored = u_save(lnum, lnum + 1);
ml_append(lnum, msg, 0, FALSE);
appended_lines_mark(lnum, 1L);
curbuf = save_curbuf;
if (buffer->b_nwindows > 0)
{
win_T *wp;
win_T *save_curwin;
FOR_ALL_WINDOWS(wp)
{
if (wp->w_buffer == buffer
&& (save_write_to
? wp->w_cursor.lnum == lnum + 1
: (wp->w_cursor.lnum == lnum
&& wp->w_cursor.col == 0)))
{
++wp->w_cursor.lnum;
save_curwin = curwin;
curwin = wp;
curbuf = curwin->w_buffer;
scroll_cursor_bot(0, FALSE);
curwin = save_curwin;
curbuf = curwin->w_buffer;
}
}
redraw_buf_later(buffer, VALID);
channel_need_redraw = TRUE;
}
if (save_write_to)
{
channel_T *ch;
/* Find channels reading from this buffer and adjust their
* next-to-read line number. */
buffer->b_write_to_channel = TRUE;
for (ch = first_channel; ch != NULL; ch = ch->ch_next)
{
chanpart_T *in_part = &ch->ch_part[PART_IN];
if (in_part->ch_buffer == buffer)
in_part->ch_buf_bot = buffer->b_ml.ml_line_count;
}
}
}
/*
* Invoke a callback for "channel"/"part" if needed.
* Return TRUE when a message was handled, there might be another one.
*/
static int
may_invoke_callback(channel_T *channel, int part)
{
char_u *msg = NULL;
typval_T *listtv = NULL;
typval_T argv[CH_JSON_MAX_ARGS];
int seq_nr = -1;
ch_mode_T ch_mode = channel->ch_part[part].ch_mode;
cbq_T *cbhead = &channel->ch_part[part].ch_cb_head;
cbq_T *cbitem;
char_u *callback = NULL;
buf_T *buffer = NULL;
if (channel->ch_nb_close_cb != NULL)
/* this channel is handled elsewhere (netbeans) */
return FALSE;
/* Use a message-specific callback, part callback or channel callback */
for (cbitem = cbhead->cq_next; cbitem != NULL; cbitem = cbitem->cq_next)
if (cbitem->cq_seq_nr == 0)
break;
if (cbitem != NULL)
callback = cbitem->cq_callback;
else if (channel->ch_part[part].ch_callback != NULL)
callback = channel->ch_part[part].ch_callback;
else
callback = channel->ch_callback;
buffer = channel->ch_part[part].ch_buffer;
if (buffer != NULL && !buf_valid(buffer))
{
/* buffer was wiped out */
channel->ch_part[part].ch_buffer = NULL;
buffer = NULL;
}
if (ch_mode == MODE_JSON || ch_mode == MODE_JS)
{
listitem_T *item;
int argc = 0;
/* Get any json message in the queue. */
if (channel_get_json(channel, part, -1, &listtv) == FAIL)
{
/* Parse readahead, return when there is still no message. */
channel_parse_json(channel, part);
if (channel_get_json(channel, part, -1, &listtv) == FAIL)
return FALSE;
}
for (item = listtv->vval.v_list->lv_first;
item != NULL && argc < CH_JSON_MAX_ARGS;
item = item->li_next)
argv[argc++] = item->li_tv;
while (argc < CH_JSON_MAX_ARGS)
argv[argc++].v_type = VAR_UNKNOWN;
if (argv[0].v_type == VAR_STRING)
{
char_u *cmd = argv[0].vval.v_string;
/* ["cmd", arg] or ["cmd", arg, arg] or ["cmd", arg, arg, arg] */
ch_logs(channel, "Executing %s command", (char *)cmd);
channel_exe_cmd(channel, part, argv);
free_tv(listtv);
return TRUE;
}
if (argv[0].v_type != VAR_NUMBER)
{
ch_error(channel,
"Dropping message with invalid sequence number type");
free_tv(listtv);
return FALSE;
}
seq_nr = argv[0].vval.v_number;
}
else if (channel_peek(channel, part) == NULL)
{
/* nothing to read on RAW or NL channel */
return FALSE;
}
else
{
/* If there is no callback or buffer drop the message. */
if (callback == NULL && buffer == NULL)
{
while ((msg = channel_get(channel, part)) != NULL)
{
ch_logs(channel, "Dropping message '%s'", (char *)msg);
vim_free(msg);
}
return FALSE;
}
if (ch_mode == MODE_NL)
{
char_u *nl;
char_u *buf;
/* See if we have a message ending in NL in the first buffer. If
* not try to concatenate the first and the second buffer. */
while (TRUE)
{
buf = channel_peek(channel, part);
nl = vim_strchr(buf, NL);
if (nl != NULL)
break;
if (channel_collapse(channel, part) == FAIL)
return FALSE; /* incomplete message */
}
if (nl[1] == NUL)
{
/* get the whole buffer, drop the NL */
msg = channel_get(channel, part);
*nl = NUL;
}
else
{
/* Copy the message into allocated memory and remove it from
* the buffer. */
msg = vim_strnsave(buf, (int)(nl - buf));
mch_memmove(buf, nl + 1, STRLEN(nl + 1) + 1);
}
}
else
/* For a raw channel we don't know where the message ends, just
* get everything we have. */
msg = channel_get_all(channel, part);
if (msg == NULL)
return FALSE; /* out of memory (and avoids Coverity warning) */
argv[1].v_type = VAR_STRING;
argv[1].vval.v_string = msg;
}
if (seq_nr > 0)
{
int done = FALSE;
/* invoke the one-time callback with the matching nr */
for (cbitem = cbhead->cq_next; cbitem != NULL; cbitem = cbitem->cq_next)
if (cbitem->cq_seq_nr == seq_nr)
{
invoke_one_time_callback(channel, cbhead, cbitem, argv);
done = TRUE;
break;
}
if (!done)
ch_logn(channel, "Dropping message %d without callback", seq_nr);
}
else if (callback != NULL || buffer != NULL)
{
if (buffer != NULL)
{
if (msg == NULL)
/* JSON or JS mode: re-encode the message. */
msg = json_encode(listtv, ch_mode);
if (msg != NULL)
append_to_buffer(buffer, msg, channel);
}
if (callback != NULL)
{
if (cbitem != NULL)
invoke_one_time_callback(channel, cbhead, cbitem, argv);
else
{
/* invoke the channel callback */
ch_logs(channel, "Invoking channel callback %s",
(char *)callback);
invoke_callback(channel, callback, argv);
}
}
}
else
ch_log(channel, "Dropping message");
if (listtv != NULL)
free_tv(listtv);
vim_free(msg);
return TRUE;
}
/*
* Return TRUE when channel "channel" is open for writing to.
* Also returns FALSE or invalid "channel".
*/
int
channel_can_write_to(channel_T *channel)
{
return channel != NULL && (channel->CH_SOCK_FD != INVALID_FD
#ifdef CHANNEL_PIPES
|| channel->CH_IN_FD != INVALID_FD
#endif
);
}
/*
* Return TRUE when channel "channel" is open for reading or writing.
* Also returns FALSE for invalid "channel".
*/
int
channel_is_open(channel_T *channel)
{
return channel != NULL && (channel->CH_SOCK_FD != INVALID_FD
#ifdef CHANNEL_PIPES
|| channel->CH_IN_FD != INVALID_FD
|| channel->CH_OUT_FD != INVALID_FD
|| channel->CH_ERR_FD != INVALID_FD
#endif
);
}
/*
* Return a string indicating the status of the channel.
*/
char *
channel_status(channel_T *channel)
{
if (channel == NULL)
return "fail";
if (channel_is_open(channel))
return "open";
return "closed";
}
/*
* Close channel "channel".
* Trigger the close callback if "invoke_close_cb" is TRUE.
* Does not clear the buffers.
*/
void
channel_close(channel_T *channel, int invoke_close_cb)
{
ch_log(channel, "Closing channel");
#ifdef FEAT_GUI
channel_gui_unregister(channel);
#endif
if (channel->CH_SOCK_FD != INVALID_FD)
{
sock_close(channel->CH_SOCK_FD);
channel->CH_SOCK_FD = INVALID_FD;
}
#if defined(CHANNEL_PIPES)
may_close_part(&channel->CH_IN_FD);
may_close_part(&channel->CH_OUT_FD);
may_close_part(&channel->CH_ERR_FD);
#endif
if (invoke_close_cb && channel->ch_close_cb != NULL)
{
typval_T argv[1];
typval_T rettv;
int dummy;
/* invoke the close callback; increment the refcount to avoid it
* being freed halfway */
ch_logs(channel, "Invoking close callback %s",
(char *)channel->ch_close_cb);
argv[0].v_type = VAR_CHANNEL;
argv[0].vval.v_channel = channel;
++channel->ch_refcount;
call_func(channel->ch_close_cb, (int)STRLEN(channel->ch_close_cb),
&rettv, 1, argv, 0L, 0L, &dummy, TRUE, NULL);
clear_tv(&rettv);
--channel->ch_refcount;
/* the callback is only called once */
vim_free(channel->ch_close_cb);
channel->ch_close_cb = NULL;
}
channel->ch_nb_close_cb = NULL;
}
/*
* Return the first buffer from "channel"/"part" without removing it.
* Returns NULL if there is nothing.
*/
char_u *
channel_peek(channel_T *channel, int part)
{
readq_T *head = &channel->ch_part[part].ch_head;
if (head->rq_next == NULL)
return NULL;
return head->rq_next->rq_buffer;
}
/*
* Clear the read buffer on "channel"/"part".
*/
static void
channel_clear_one(channel_T *channel, int part)
{
jsonq_T *json_head = &channel->ch_part[part].ch_json_head;
cbq_T *cb_head = &channel->ch_part[part].ch_cb_head;
while (channel_peek(channel, part) != NULL)
vim_free(channel_get(channel, part));
while (cb_head->cq_next != NULL)
{
cbq_T *node = cb_head->cq_next;
remove_cb_node(cb_head, node);
vim_free(node->cq_callback);
vim_free(node);
}
while (json_head->jq_next != NULL)
{
free_tv(json_head->jq_next->jq_value);
remove_json_node(json_head, json_head->jq_next);
}
vim_free(channel->ch_part[part].ch_callback);
channel->ch_part[part].ch_callback = NULL;
}
/*
* Clear all the read buffers on "channel".
*/
void
channel_clear(channel_T *channel)
{
ch_log(channel, "Clearing channel");
channel_clear_one(channel, PART_SOCK);
#ifdef CHANNEL_PIPES
channel_clear_one(channel, PART_OUT);
channel_clear_one(channel, PART_ERR);
#endif
vim_free(channel->ch_callback);
channel->ch_callback = NULL;
vim_free(channel->ch_close_cb);
channel->ch_close_cb = NULL;
}
#if defined(EXITFREE) || defined(PROTO)
void
channel_free_all(void)
{
channel_T *channel;
ch_log(NULL, "channel_free_all()");
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
channel_clear(channel);
}
#endif
/* Sent when the channel is found closed when reading. */
#define DETACH_MSG_RAW "DETACH\n"
/* Buffer size for reading incoming messages. */
#define MAXMSGSIZE 4096
/*
* Check for reading from "fd" with "timeout" msec.
* Return FAIL when there is nothing to read.
*/
static int
channel_wait(channel_T *channel, sock_T fd, int timeout)
{
if (timeout > 0)
ch_logn(channel, "Waiting for up to %d msec", timeout);
# ifdef WIN32
if (fd != channel->CH_SOCK_FD)
{
DWORD nread;
int diff;
DWORD deadline = GetTickCount() + timeout;
/* reading from a pipe, not a socket */
while (TRUE)
{
if (PeekNamedPipe((HANDLE)fd, NULL, 0, NULL, &nread, NULL)
&& nread > 0)
return OK;
diff = deadline - GetTickCount();
if (diff <= 0)
break;
/* Wait for 5 msec.
* TODO: increase the sleep time when looping more often */
Sleep(5);
}
}
else
#endif
{
#if defined(HAVE_SELECT)
struct timeval tval;
fd_set rfds;
int ret;
FD_ZERO(&rfds);
FD_SET((int)fd, &rfds);
tval.tv_sec = timeout / 1000;
tval.tv_usec = (timeout % 1000) * 1000;
for (;;)
{
ret = select((int)fd + 1, &rfds, NULL, NULL, &tval);
# ifdef EINTR
SOCK_ERRNO;
if (ret == -1 && errno == EINTR)
continue;
# endif
if (ret > 0)
return OK;
break;
}
#else
struct pollfd fds;
fds.fd = fd;
fds.events = POLLIN;
if (poll(&fds, 1, timeout) > 0)
return OK;
#endif
}
return FAIL;
}
/*
* Return a unique ID to be used in a message.
*/
int
channel_get_id(void)
{
static int next_id = 1;
return next_id++;
}
/*
* Read from channel "channel" for as long as there is something to read.
* "part" is PART_SOCK, PART_OUT or PART_ERR.
* The data is put in the read queue.
*/
void
channel_read(channel_T *channel, int part, char *func)
{
static char_u *buf = NULL;
int len = 0;
int readlen = 0;
sock_T fd;
int use_socket = FALSE;
fd = channel->ch_part[part].ch_fd;
if (fd == INVALID_FD)
{
ch_error(channel, "channel_read() called while socket is closed");
return;
}
use_socket = fd == channel->CH_SOCK_FD;
/* Allocate a buffer to read into. */
if (buf == NULL)
{
buf = alloc(MAXMSGSIZE);
if (buf == NULL)
return; /* out of memory! */
}
/* Keep on reading for as long as there is something to read.
* Use select() or poll() to avoid blocking on a message that is exactly
* MAXMSGSIZE long. */
for (;;)
{
if (channel_wait(channel, fd, 0) == FAIL)
break;
if (use_socket)
len = sock_read(fd, (char *)buf, MAXMSGSIZE);
else
len = fd_read(fd, (char *)buf, MAXMSGSIZE);
if (len <= 0)
break; /* error or nothing more to read */
/* Store the read message in the queue. */
channel_save(channel, part, buf, len);
readlen += len;
if (len < MAXMSGSIZE)
break; /* did read everything that's available */
}
/* Reading a disconnection (readlen == 0), or an error. */
if (readlen <= 0)
{
/* Do not give an error message, most likely the other end just
* exited. */
ch_errors(channel, "%s(): Cannot read from channel", func);
/* Queue a "DETACH" netbeans message in the command queue in order to
* terminate the netbeans session later. Do not end the session here
* directly as we may be running in the context of a call to
* netbeans_parse_messages():
* netbeans_parse_messages
* -> autocmd triggered while processing the netbeans cmd
* -> ui_breakcheck
* -> gui event loop or select loop
* -> channel_read()
* Don't send "DETACH" for a JS or JSON channel.
*/
if (channel->ch_part[part].ch_mode == MODE_RAW
|| channel->ch_part[part].ch_mode == MODE_NL)
channel_save(channel, part, (char_u *)DETACH_MSG_RAW,
(int)STRLEN(DETACH_MSG_RAW));
/* TODO: When reading from stdout is not possible, should we try to
* keep stdin and stderr open? Probably not, assume the other side
* has died. */
channel_close(channel, TRUE);
if (channel->ch_nb_close_cb != NULL)
(*channel->ch_nb_close_cb)();
}
#if defined(CH_HAS_GUI) && defined(FEAT_GUI_GTK)
/* signal the main loop that there is something to read */
if (CH_HAS_GUI && gtk_main_level() > 0)
gtk_main_quit();
#endif
}
/*
* Read from RAW or NL "channel"/"part". Blocks until there is something to
* read or the timeout expires.
* Returns what was read in allocated memory.
* Returns NULL in case of error or timeout.
*/
char_u *
channel_read_block(channel_T *channel, int part, int timeout)
{
char_u *buf;
char_u *msg;
ch_mode_T mode = channel->ch_part[part].ch_mode;
sock_T fd = channel->ch_part[part].ch_fd;
char_u *nl;
ch_logsn(channel, "Blocking %s read, timeout: %d msec",
mode == MODE_RAW ? "RAW" : "NL", timeout);
while (TRUE)
{
buf = channel_peek(channel, part);
if (buf != NULL && (mode == MODE_RAW
|| (mode == MODE_NL && vim_strchr(buf, NL) != NULL)))
break;
if (buf != NULL && channel_collapse(channel, part) == OK)
continue;
/* Wait for up to the channel timeout. */
if (fd == INVALID_FD
|| channel_wait(channel, fd, timeout) == FAIL)
return NULL;
channel_read(channel, part, "channel_read_block");
}
if (mode == MODE_RAW)
{
msg = channel_get_all(channel, part);
}
else
{
nl = vim_strchr(buf, NL);
if (nl[1] == NUL)
{
/* get the whole buffer */
msg = channel_get(channel, part);
*nl = NUL;
}
else
{
/* Copy the message into allocated memory and remove it from the
* buffer. */
msg = vim_strnsave(buf, (int)(nl - buf));
mch_memmove(buf, nl + 1, STRLEN(nl + 1) + 1);
}
}
if (log_fd != NULL)
ch_logn(channel, "Returning %d bytes", (int)STRLEN(msg));
return msg;
}
/*
* Read one JSON message with ID "id" from "channel"/"part" and store the
* result in "rettv".
* When "id" is -1 accept any message;
* Blocks until the message is received or the timeout is reached.
*/
int
channel_read_json_block(
channel_T *channel,
int part,
int timeout,
int id,
typval_T **rettv)
{
int more;
sock_T fd;
ch_log(channel, "Reading JSON");
if (id != -1)
channel->ch_part[part].ch_block_id = id;
for (;;)
{
more = channel_parse_json(channel, part);
/* search for messsage "id" */
if (channel_get_json(channel, part, id, rettv) == OK)
{
channel->ch_part[part].ch_block_id = 0;
return OK;
}
if (!more)
{
/* Handle any other messages in the queue. If done some more
* messages may have arrived. */
if (channel_parse_messages())
continue;
/* Wait for up to the timeout. */
fd = channel->ch_part[part].ch_fd;
if (fd == INVALID_FD || channel_wait(channel, fd, timeout) == FAIL)
break;
channel_read(channel, part, "channel_read_json_block");
}
}
channel->ch_part[part].ch_block_id = 0;
return FAIL;
}
# if defined(WIN32) || defined(FEAT_GUI_X11) || defined(FEAT_GUI_GTK) \
|| defined(PROTO)
/*
* Lookup the channel from the socket. Set "partp" to the fd index.
* Returns NULL when the socket isn't found.
*/
channel_T *
channel_fd2channel(sock_T fd, int *partp)
{
channel_T *channel;
int part;
if (fd != INVALID_FD)
for (channel = first_channel; channel != NULL;
channel = channel->ch_next)
{
# ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
# else
part = PART_SOCK;
# endif
if (channel->ch_part[part].ch_fd == fd)
{
*partp = part;
return channel;
}
}
return NULL;
}
# endif
# if defined(WIN32) || defined(PROTO)
/*
* Check the channels for anything that is ready to be read.
* The data is put in the read queue.
*/
void
channel_handle_events(void)
{
channel_T *channel;
int part;
sock_T fd;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
# ifdef CHANNEL_PIPES
/* check the socket and pipes */
for (part = PART_SOCK; part <= PART_ERR; ++part)
# else
/* only check the socket */
part = PART_SOCK;
# endif
{
fd = channel->ch_part[part].ch_fd;
if (fd != INVALID_FD && channel_wait(channel, fd, 0) == OK)
channel_read(channel, part, "channel_handle_events");
}
}
}
# endif
/*
* Write "buf" (NUL terminated string) to "channel"/"part".
* When "fun" is not NULL an error message might be given.
* Return FAIL or OK.
*/
int
channel_send(channel_T *channel, int part, char_u *buf, char *fun)
{
int len = (int)STRLEN(buf);
int res;
sock_T fd;
fd = channel->ch_part[part].ch_fd;
if (fd == INVALID_FD)
{
if (!channel->ch_error && fun != NULL)
{
ch_errors(channel, "%s(): write while not connected", fun);
EMSG2("E630: %s(): write while not connected", fun);
}
channel->ch_error = TRUE;
return FAIL;
}
if (log_fd != NULL)
{
ch_log_lead("SEND ", channel);
fprintf(log_fd, "'");
ignored = (int)fwrite(buf, len, 1, log_fd);
fprintf(log_fd, "'\n");
fflush(log_fd);
did_log_msg = TRUE;
}
if (part == PART_SOCK)
res = sock_write(fd, (char *)buf, len);
else
res = fd_write(fd, (char *)buf, len);
if (res != len)
{
if (!channel->ch_error && fun != NULL)
{
ch_errors(channel, "%s(): write failed", fun);
EMSG2("E631: %s(): write failed", fun);
}
channel->ch_error = TRUE;
return FAIL;
}
channel->ch_error = FALSE;
return OK;
}
# if (defined(UNIX) && !defined(HAVE_SELECT)) || defined(PROTO)
/*
* Add open channels to the poll struct.
* Return the adjusted struct index.
* The type of "fds" is hidden to avoid problems with the function proto.
*/
int
channel_poll_setup(int nfd_in, void *fds_in)
{
int nfd = nfd_in;
channel_T *channel;
struct pollfd *fds = fds_in;
int part;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
# ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
# else
part = PART_SOCK;
# endif
{
if (channel->ch_part[part].ch_fd != INVALID_FD)
{
channel->ch_part[part].ch_poll_idx = nfd;
fds[nfd].fd = channel->ch_part[part].ch_fd;
fds[nfd].events = POLLIN;
nfd++;
}
else
channel->ch_part[part].ch_poll_idx = -1;
}
}
return nfd;
}
/*
* The type of "fds" is hidden to avoid problems with the function proto.
*/
int
channel_poll_check(int ret_in, void *fds_in)
{
int ret = ret_in;
channel_T *channel;
struct pollfd *fds = fds_in;
int part;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
# ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
# else
part = PART_SOCK;
# endif
{
int idx = channel->ch_part[part].ch_poll_idx;
if (ret > 0 && idx != -1 && fds[idx].revents & POLLIN)
{
channel_read(channel, part, "channel_poll_check");
--ret;
}
}
}
return ret;
}
# endif /* UNIX && !HAVE_SELECT */
# if (!defined(WIN32) && defined(HAVE_SELECT)) || defined(PROTO)
/*
* The type of "rfds" is hidden to avoid problems with the function proto.
*/
int
channel_select_setup(int maxfd_in, void *rfds_in)
{
int maxfd = maxfd_in;
channel_T *channel;
fd_set *rfds = rfds_in;
int part;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
# ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
# else
part = PART_SOCK;
# endif
{
sock_T fd = channel->ch_part[part].ch_fd;
if (fd != INVALID_FD)
{
FD_SET((int)fd, rfds);
if (maxfd < (int)fd)
maxfd = (int)fd;
}
}
}
return maxfd;
}
/*
* The type of "rfds" is hidden to avoid problems with the function proto.
*/
int
channel_select_check(int ret_in, void *rfds_in)
{
int ret = ret_in;
channel_T *channel;
fd_set *rfds = rfds_in;
int part;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
# ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
# else
part = PART_SOCK;
# endif
{
sock_T fd = channel->ch_part[part].ch_fd;
if (ret > 0 && fd != INVALID_FD && FD_ISSET(fd, rfds))
{
channel_read(channel, part, "channel_select_check");
--ret;
}
}
}
return ret;
}
# endif /* !WIN32 && HAVE_SELECT */
/*
* Return TRUE if "channel" has JSON or other typeahead.
*/
static int
channel_has_readahead(channel_T *channel, int part)
{
ch_mode_T ch_mode = channel->ch_part[part].ch_mode;
if (ch_mode == MODE_JSON || ch_mode == MODE_JS)
{
jsonq_T *head = &channel->ch_part[part].ch_json_head;
jsonq_T *item = head->jq_next;
return item != NULL;
}
return channel_peek(channel, part) != NULL;
}
/*
* Execute queued up commands.
* Invoked from the main loop when it's safe to execute received commands.
* Return TRUE when something was done.
*/
int
channel_parse_messages(void)
{
channel_T *channel = first_channel;
int ret = FALSE;
int r;
int part = PART_SOCK;
/* Only do this message when another message was given, otherwise we get
* lots of them. */
if (did_log_msg)
{
ch_log(NULL, "looking for messages on channels");
did_log_msg = FALSE;
}
while (channel != NULL)
{
if (channel->ch_refcount == 0 && !channel_still_useful(channel))
{
/* channel is no longer useful, free it */
channel_free(channel);
channel = first_channel;
part = PART_SOCK;
continue;
}
if (channel->ch_part[part].ch_fd != INVALID_FD
|| channel_has_readahead(channel, part))
{
/* Increase the refcount, in case the handler causes the channel
* to be unreferenced or closed. */
++channel->ch_refcount;
r = may_invoke_callback(channel, part);
if (r == OK)
ret = TRUE;
if (channel_unref(channel) || r == OK)
{
/* channel was freed or something was done, start over */
channel = first_channel;
part = PART_SOCK;
continue;
}
}
#ifdef CHANNEL_PIPES
if (part < PART_ERR)
++part;
else
#endif
{
channel = channel->ch_next;
part = PART_SOCK;
}
}
if (channel_need_redraw && must_redraw)
{
channel_need_redraw = FALSE;
update_screen(0);
setcursor();
cursor_on();
out_flush();
}
return ret;
}
/*
* Mark references to lists used in channels.
*/
int
set_ref_in_channel(int copyID)
{
int abort = FALSE;
channel_T *channel;
int part;
for (channel = first_channel; channel != NULL; channel = channel->ch_next)
{
#ifdef CHANNEL_PIPES
for (part = PART_SOCK; part < PART_IN; ++part)
#else
part = PART_SOCK;
#endif
{
jsonq_T *head = &channel->ch_part[part].ch_json_head;
jsonq_T *item = head->jq_next;
while (item != NULL)
{
list_T *l = item->jq_value->vval.v_list;
if (l->lv_copyID != copyID)
{
l->lv_copyID = copyID;
abort = abort || set_ref_in_list(l, copyID, NULL);
}
item = item->jq_next;
}
}
}
return abort;
}
/*
* Return the "part" to write to for "channel".
*/
int
channel_part_send(channel_T *channel)
{
#ifdef CHANNEL_PIPES
if (channel->CH_SOCK_FD == INVALID_FD)
return PART_IN;
#endif
return PART_SOCK;
}
/*
* Return the default "part" to read from for "channel".
*/
int
channel_part_read(channel_T *channel)
{
#ifdef CHANNEL_PIPES
if (channel->CH_SOCK_FD == INVALID_FD)
return PART_OUT;
#endif
return PART_SOCK;
}
/*
* Return the mode of "channel"/"part"
* If "channel" is invalid returns MODE_JSON.
*/
ch_mode_T
channel_get_mode(channel_T *channel, int part)
{
if (channel == NULL)
return MODE_JSON;
return channel->ch_part[part].ch_mode;
}
/*
* Return the timeout of "channel"/"part"
*/
int
channel_get_timeout(channel_T *channel, int part)
{
return channel->ch_part[part].ch_timeout;
}
#endif /* FEAT_CHANNEL */
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