Obsolete
/
libipc-old
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pollfd
Karchnu 2020-07-06 08:42:05 +02:00
parent f1790cf314
commit 8439cc0f18
3 changed files with 91 additions and 118 deletions

View File

@ -333,84 +333,26 @@ struct ipc_error handle_writing_message (struct ipc_event *event, struct ipc_ctx
IPC_RETURN_NO_ERROR;
}
// new message
struct ipc_error handle_new_message (struct ipc_event *event, struct ipc_ctx *ctx, int index)
{
SECURE_DECLARATION (struct ipc_error, ret);
// If the socket is associated to another one for ipcd:
// read and write automatically and provide a new IPC_EVENT_TYPE indicating the switch.
if (ctx->switchdb.size > 0) {
int talkingfd = ctx->pollfd[index].fd;
int correspondingfd = ipc_switching_get (&ctx->switchdb, talkingfd);
if (correspondingfd != -1) {
char *buf = NULL;
size_t msize = 0;
{ /** Some macros use "ret" as a variable name, so this is to be sure. */
struct ipc_error ret = usock_recv (talkingfd, &buf, &msize);
if (ret.error_code != IPC_ERROR_NONE && ret.error_code != IPC_ERROR_CLOSED_RECIPIENT) {
if (buf != NULL)
free (buf);
IPC_EVENT_SET (event, IPC_EVENT_TYPE_ERROR, index, talkingfd, NULL)
{ /* First test: should the message be switched? */
ret = fd_switching (event, ctx, index);
if (ret.error_code != IPC_ERROR_FD_SWITCHING__NO_FD_RECORD) {
return ret;
}
}
/** There is a message, send it to the corresponding fd **/
if (msize > 0) {
size_t nbytes_sent = 0;
TEST_IPC_RETURN_ON_ERROR_FREE (usock_send (correspondingfd, buf, msize, &nbytes_sent), buf);
if (nbytes_sent != msize) {
// LOG_ERROR ("wrote not enough data from %d to fd %d", talkingfd, correspondingfd);
IPC_EVENT_SET (event, IPC_EVENT_TYPE_ERROR, index, ctx->pollfd[index].fd, NULL);
IPC_RETURN_NO_ERROR; // FIXME: return something else, maybe?
}
// LOG_DEBUG ("received a message on fd %d => switch to fd %d", talkingfd, correspondingfd);
if (buf != NULL)
free (buf);
// Everything is OK: inform ipcd of a successful transfer.
IPC_EVENT_SET (event, IPC_EVENT_TYPE_SWITCH, index, ctx->pollfd[index].fd, NULL);
IPC_RETURN_NO_ERROR;
} else if (msize == 0) {
int delfd;
delfd = ipc_switching_del (&ctx->switchdb, talkingfd);
if (delfd >= 0) {
close (delfd);
ipc_del_fd (ctx, delfd);
}
close (talkingfd);
ipc_del_fd (ctx, talkingfd);
#if 0
if (delfd >= 0) {
LOG_DEBUG ("disconnection of %d (and related fd %d)", talkingfd, delfd);
} else {
LOG_DEBUG ("disconnection of %d", talkingfd);
}
#endif
IPC_EVENT_SET (event, IPC_EVENT_TYPE_DISCONNECTION, index, talkingfd, NULL);
IPC_RETURN_ERROR (IPC_ERROR_CLOSED_RECIPIENT);
}
}
}
// no treatment of the socket if external socket
// No treatment of the socket if external socket: the libipc user should handle it himself.
if (ctx->cinfos[index].type == IPC_CONNECTION_TYPE_EXTERNAL) {
IPC_EVENT_SET (event, IPC_EVENT_TYPE_EXTRA_SOCKET, index, ctx->pollfd[index].fd, NULL);
IPC_RETURN_NO_ERROR;
}
// listen to what they have to say (disconnection or message)
// then add a client to `event`, the ipc_event structure
SECURE_DECLARATION (struct ipc_error, ret);
// Listen to what they have to say (disconnection or message)
// then add a client to `event`, the ipc_event structure.
struct ipc_message *m = NULL;
SECURE_BUFFER_HEAP_ALLOCATION_R (m, sizeof (struct ipc_message),, IPC_ERROR_HANDLE_MESSAGE__NOT_ENOUGH_MEMORY);
// current talking client
@ -450,7 +392,7 @@ struct ipc_error handle_new_message (struct ipc_event *event, struct ipc_ctx *ct
}
/* timer is in ms */
struct ipc_error ipc_events_loop (struct ipc_ctx *ctx, struct ipc_event *event, int *timer)
struct ipc_error ipc_wait_event (struct ipc_ctx *ctx, struct ipc_event *event, int *timer)
{
T_R ((ctx == NULL), IPC_ERROR_WAIT_EVENT__NO_CLIENTS_PARAM);
T_R ((event == NULL), IPC_ERROR_WAIT_EVENT__NO_EVENT_PARAM);
@ -479,52 +421,3 @@ struct ipc_error ipc_events_loop (struct ipc_ctx *ctx, struct ipc_event *event,
if ((n = poll(ctx->pollfd, ctx->size, *timer)) < 0) {
IPC_RETURN_ERROR (IPC_ERROR_WAIT_EVENT__POLL);
}
gettimeofday(&tv_2, NULL);
int nb_sec_ms = (tv_2.tv_sec - tv_1.tv_sec) * 1000;
int nb_usec_ms = (tv_2.tv_usec - tv_1.tv_usec) / 1000;
int time_elapsed_ms = (nb_sec_ms + nb_usec_ms);
// Handle memory fuckery, 'cause low level programming is fun.
if (time_elapsed_ms >= *timer) {
*timer = 0;
}
else {
*timer -= time_elapsed_ms;
}
// Timeout.
if (n == 0) {
IPC_EVENT_SET (event, IPC_EVENT_TYPE_TIMER, 0, 0, NULL);
IPC_RETURN_NO_ERROR;
}
for (size_t i = 0; i <= ctx->size; i++) {
// Something to read or connection.
if (ctx->pollfd[i].revents & POLLIN) {
// In case there is something to read for the server socket: new client.
if (ctx->cinfos[i].type == IPC_CONNECTION_TYPE_SERVER) {
return ipc_accept_add (event, ctx, i);
}
return handle_new_message (event, ctx, i);
}
// Something can be sent.
if (ctx->pollfd[i].revents & POLLOUT) {
ctx->pollfd[i].events &= ~POLLOUT;
return handle_writing_message (event, ctx, i);
}
// Disconnection.
if (ctx->pollfd[i].revents & POLLHUP) {
/** IPC_EVENT_SET: event, type, index, fd, message */
IPC_EVENT_SET (event, IPC_EVENT_TYPE_DISCONNECTION, i, ctx->pollfd[i].fd, NULL);
return ipc_close (ctx, i);
}
} /** for loop: end of the message handling */
IPC_RETURN_NO_ERROR;
}

View File

@ -204,6 +204,10 @@ struct ipc_error {
struct ipc_switching {
int orig;
int dest;
int (*orig_in) (int origin_fd, struct message *m);
int (*orig_out) (int origin_fd, struct message *m);
int (*dest_in) (int origin_fd, struct message *m);
int (*dest_out) (int origin_fd, struct message *m);
};
struct ipc_switchings {
@ -300,7 +304,7 @@ enum ipc_connection_types {
* main public functions
**/
struct ipc_error ipc_events_loop (struct ipc_ctx *, struct ipc_event *, int *timer);
struct ipc_error ipc_wait_event (struct ipc_ctx *, struct ipc_event *, int *timer);
struct ipc_error ipc_server_init (struct ipc_ctx *ctx, const char *sname);
struct ipc_error ipc_connection (struct ipc_ctx *ctx, const char *sname);
@ -313,7 +317,7 @@ void ipc_ctx_free (struct ipc_ctx *ctx);
struct ipc_error ipc_read (const struct ipc_ctx *, uint32_t index, struct ipc_message *m);
struct ipc_error ipc_write (struct ipc_ctx *, const struct ipc_message *m);
struct ipc_error ipc_wait_event (struct ipc_ctx *, struct ipc_event *, int *timer);
struct ipc_error fd_switching (struct ipc_event *event, struct ipc_ctx *ctx, int index);
// store and remove only pointers on allocated structures
struct ipc_error ipc_add (struct ipc_ctx *, struct ipc_connection_info *, struct pollfd *);

View File

@ -90,6 +90,7 @@ void ipc_switching_add (struct ipc_switchings *is, int orig, int dest)
is->collection = realloc (is->collection, sizeof (struct ipc_switching) * (is->size + 1));
}
/** TODO: less brutal approach */
if (is->collection == NULL) {
fprintf (stderr, __FILE__ " error realloc line %d", __LINE__);
exit (EXIT_FAILURE);
@ -99,6 +100,11 @@ void ipc_switching_add (struct ipc_switchings *is, int orig, int dest)
is->collection[is->size - 1].orig = orig;
is->collection[is->size - 1].dest = dest;
is->collection[is->size - 1].orig_in = NULL;
is->collection[is->size - 1].dest_in = NULL;
is->collection[is->size - 1].orig_out = NULL;
is->collection[is->size - 1].dest_out = NULL;
}
int ipc_switching_del (struct ipc_switchings *is, int fd)
@ -156,3 +162,73 @@ void ipc_switching_free (struct ipc_switchings *is)
}
is->size = 0;
}
/**
* switching_messages allows to send messages from a fd to another.
*/
struct ipc_error fd_switching (struct ipc_event *event, struct ipc_ctx *ctx, int index)
{
// If the socket is associated to another one for ipcd:
// read and write automatically and provide a new IPC_EVENT_TYPE indicating the switch.
T_R ((ctx->switchdb.size == 0), IPC_ERROR_FD_SWITCHING__NO_FD_RECORD);
int talkingfd = ctx->pollfd[index].fd;
int correspondingfd = ipc_switching_get (&ctx->switchdb, talkingfd);
T_R ((correspondingfd == -1), IPC_ERROR_FD_SWITCHING__NO_FD_RECORD);
char *buf = NULL;
size_t msize = 0;
{ /** Some macros use "ret" as a variable name, so this is to be sure. */
struct ipc_error ret = usock_recv (talkingfd, &buf, &msize);
if (ret.error_code != IPC_ERROR_NONE && ret.error_code != IPC_ERROR_CLOSED_RECIPIENT) {
if (buf != NULL)
free (buf);
IPC_EVENT_SET (event, IPC_EVENT_TYPE_ERROR, index, talkingfd, NULL)
return ret;
}
}
/** There is a message, send it to the corresponding fd **/
if (msize > 0) {
size_t nbytes_sent = 0;
TEST_IPC_RETURN_ON_ERROR_FREE (usock_send (correspondingfd, buf, msize, &nbytes_sent), buf);
if (nbytes_sent != msize) {
// LOG_ERROR ("wrote not enough data from %d to fd %d", talkingfd, correspondingfd);
IPC_EVENT_SET (event, IPC_EVENT_TYPE_ERROR, index, ctx->pollfd[index].fd, NULL);
IPC_RETURN_NO_ERROR; // FIXME: return something else, maybe?
}
// LOG_DEBUG ("received a message on fd %d => switch to fd %d", talkingfd, correspondingfd);
if (buf != NULL)
free (buf);
// Everything is OK: inform ipcd of a successful transfer.
IPC_EVENT_SET (event, IPC_EVENT_TYPE_SWITCH, index, ctx->pollfd[index].fd, NULL);
IPC_RETURN_NO_ERROR;
} else if (msize == 0) {
int delfd;
delfd = ipc_switching_del (&ctx->switchdb, talkingfd);
if (delfd >= 0) {
close (delfd);
ipc_del_fd (ctx, delfd);
}
close (talkingfd);
ipc_del_fd (ctx, talkingfd);
#if 0
if (delfd >= 0) {
LOG_DEBUG ("disconnection of %d (and related fd %d)", talkingfd, delfd);
} else {
LOG_DEBUG ("disconnection of %d", talkingfd);
}
#endif
IPC_EVENT_SET (event, IPC_EVENT_TYPE_DISCONNECTION, index, talkingfd, NULL);
IPC_RETURN_ERROR (IPC_ERROR_CLOSED_RECIPIENT);
}
}