/* * Copyright © 2008 Kristian Høgsberg * Copyright © 2013 Jason Ekstrand * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting documentation, and * that the name of the copyright holders not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. The copyright holders make no representations * about the suitability of this software for any purpose. It is provided "as * is" without express or implied warranty. * * THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE * OF THIS SOFTWARE. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "wayland-util.h" #include "wayland-private.h" #include "wayland-os.h" #define DIV_ROUNDUP(n, a) ( ((n) + ((a) - 1)) / (a) ) struct wl_buffer { char data[4096]; uint32_t head, tail; }; #define MASK(i) ((i) & 4095) #define MAX_FDS_OUT 28 #define CLEN (CMSG_LEN(MAX_FDS_OUT * sizeof(int32_t))) struct wl_connection { struct wl_buffer in, out; struct wl_buffer fds_in, fds_out; int fd; int want_flush; }; static int wl_buffer_put(struct wl_buffer *b, const void *data, size_t count) { uint32_t head, size; if (count > sizeof(b->data)) { wl_log("Data too big for buffer (%d > %d).\n", count, sizeof(b->data)); errno = E2BIG; return -1; } head = MASK(b->head); if (head + count <= sizeof b->data) { memcpy(b->data + head, data, count); } else { size = sizeof b->data - head; memcpy(b->data + head, data, size); memcpy(b->data, (const char *) data + size, count - size); } b->head += count; return 0; } static void wl_buffer_put_iov(struct wl_buffer *b, struct iovec *iov, int *count) { uint32_t head, tail; head = MASK(b->head); tail = MASK(b->tail); if (head < tail) { iov[0].iov_base = b->data + head; iov[0].iov_len = tail - head; *count = 1; } else if (tail == 0) { iov[0].iov_base = b->data + head; iov[0].iov_len = sizeof b->data - head; *count = 1; } else { iov[0].iov_base = b->data + head; iov[0].iov_len = sizeof b->data - head; iov[1].iov_base = b->data; iov[1].iov_len = tail; *count = 2; } } static void wl_buffer_get_iov(struct wl_buffer *b, struct iovec *iov, int *count) { uint32_t head, tail; head = MASK(b->head); tail = MASK(b->tail); if (tail < head) { iov[0].iov_base = b->data + tail; iov[0].iov_len = head - tail; *count = 1; } else if (head == 0) { iov[0].iov_base = b->data + tail; iov[0].iov_len = sizeof b->data - tail; *count = 1; } else { iov[0].iov_base = b->data + tail; iov[0].iov_len = sizeof b->data - tail; iov[1].iov_base = b->data; iov[1].iov_len = head; *count = 2; } } static void wl_buffer_copy(struct wl_buffer *b, void *data, size_t count) { uint32_t tail, size; tail = MASK(b->tail); if (tail + count <= sizeof b->data) { memcpy(data, b->data + tail, count); } else { size = sizeof b->data - tail; memcpy(data, b->data + tail, size); memcpy((char *) data + size, b->data, count - size); } } static uint32_t wl_buffer_size(struct wl_buffer *b) { return b->head - b->tail; } struct wl_connection * wl_connection_create(int fd) { struct wl_connection *connection; connection = malloc(sizeof *connection); if (connection == NULL) return NULL; memset(connection, 0, sizeof *connection); connection->fd = fd; return connection; } static void close_fds(struct wl_buffer *buffer, int max) { int32_t fds[sizeof(buffer->data) / sizeof(int32_t)], i, count; size_t size; size = buffer->head - buffer->tail; if (size == 0) return; wl_buffer_copy(buffer, fds, size); count = size / sizeof fds[0]; if (max > 0 && max < count) count = max; for (i = 0; i < count; i++) close(fds[i]); buffer->tail += size; } int wl_connection_destroy(struct wl_connection *connection) { int fd = connection->fd; close_fds(&connection->fds_out, -1); close_fds(&connection->fds_in, -1); free(connection); return fd; } void wl_connection_copy(struct wl_connection *connection, void *data, size_t size) { wl_buffer_copy(&connection->in, data, size); } void wl_connection_consume(struct wl_connection *connection, size_t size) { connection->in.tail += size; } static void build_cmsg(struct wl_buffer *buffer, char *data, int *clen) { struct cmsghdr *cmsg; size_t size; size = buffer->head - buffer->tail; if (size > MAX_FDS_OUT * sizeof(int32_t)) size = MAX_FDS_OUT * sizeof(int32_t); if (size > 0) { cmsg = (struct cmsghdr *) data; cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; cmsg->cmsg_len = CMSG_LEN(size); wl_buffer_copy(buffer, CMSG_DATA(cmsg), size); *clen = cmsg->cmsg_len; } else { *clen = 0; } } static int decode_cmsg(struct wl_buffer *buffer, struct msghdr *msg) { struct cmsghdr *cmsg; size_t size, max, i; int overflow = 0; for (cmsg = CMSG_FIRSTHDR(msg); cmsg != NULL; cmsg = CMSG_NXTHDR(msg, cmsg)) { if (cmsg->cmsg_level != SOL_SOCKET || cmsg->cmsg_type != SCM_RIGHTS) continue; size = cmsg->cmsg_len - CMSG_LEN(0); max = sizeof(buffer->data) - wl_buffer_size(buffer); if (size > max || overflow) { overflow = 1; size /= sizeof(int32_t); for (i = 0; i < size; i++) close(((int*)CMSG_DATA(cmsg))[i]); } else if (wl_buffer_put(buffer, CMSG_DATA(cmsg), size) < 0) { return -1; } } if (overflow) { errno = EOVERFLOW; return -1; } return 0; } int wl_connection_flush(struct wl_connection *connection) { struct iovec iov[2]; struct msghdr msg; char cmsg[CLEN]; int len = 0, count, clen; uint32_t tail; if (!connection->want_flush) return 0; tail = connection->out.tail; while (connection->out.head - connection->out.tail > 0) { wl_buffer_get_iov(&connection->out, iov, &count); build_cmsg(&connection->fds_out, cmsg, &clen); msg.msg_name = NULL; msg.msg_namelen = 0; msg.msg_iov = iov; msg.msg_iovlen = count; msg.msg_control = (clen > 0) ? cmsg : NULL; msg.msg_controllen = clen; msg.msg_flags = 0; do { len = sendmsg(connection->fd, &msg, MSG_NOSIGNAL | MSG_DONTWAIT); } while (len == -1 && errno == EINTR); if (len == -1) return -1; close_fds(&connection->fds_out, MAX_FDS_OUT); connection->out.tail += len; } connection->want_flush = 0; return connection->out.head - tail; } int wl_connection_read(struct wl_connection *connection) { struct iovec iov[2]; struct msghdr msg; char cmsg[CLEN]; int len, count, ret; if (wl_buffer_size(&connection->in) >= sizeof(connection->in.data)) { errno = EOVERFLOW; return -1; } wl_buffer_put_iov(&connection->in, iov, &count); msg.msg_name = NULL; msg.msg_namelen = 0; msg.msg_iov = iov; msg.msg_iovlen = count; msg.msg_control = cmsg; msg.msg_controllen = sizeof cmsg; msg.msg_flags = 0; do { len = wl_os_recvmsg_cloexec(connection->fd, &msg, MSG_DONTWAIT); } while (len < 0 && errno == EINTR); if (len <= 0) return len; ret = decode_cmsg(&connection->fds_in, &msg); if (ret) return -1; connection->in.head += len; return connection->in.head - connection->in.tail; } int wl_connection_write(struct wl_connection *connection, const void *data, size_t count) { if (connection->out.head - connection->out.tail + count > ARRAY_LENGTH(connection->out.data)) { connection->want_flush = 1; if (wl_connection_flush(connection) < 0) return -1; } if (wl_buffer_put(&connection->out, data, count) < 0) return -1; connection->want_flush = 1; return 0; } int wl_connection_queue(struct wl_connection *connection, const void *data, size_t count) { if (connection->out.head - connection->out.tail + count > ARRAY_LENGTH(connection->out.data)) { connection->want_flush = 1; if (wl_connection_flush(connection) < 0) return -1; } return wl_buffer_put(&connection->out, data, count); } static int wl_message_count_arrays(const struct wl_message *message) { int i, arrays; for (i = 0, arrays = 0; message->signature[i]; i++) { if (message->signature[i] == 'a') arrays++; } return arrays; } static int wl_connection_put_fd(struct wl_connection *connection, int32_t fd) { if (wl_buffer_size(&connection->fds_out) == MAX_FDS_OUT * sizeof fd) { connection->want_flush = 1; if (wl_connection_flush(connection) < 0) return -1; } return wl_buffer_put(&connection->fds_out, &fd, sizeof fd); } const char * get_next_argument(const char *signature, struct argument_details *details) { details->nullable = 0; for(; *signature; ++signature) { switch(*signature) { case 'i': case 'u': case 'f': case 's': case 'o': case 'n': case 'a': case 'h': details->type = *signature; return signature + 1; case '?': details->nullable = 1; } } details->type = '\0'; return signature; } int arg_count_for_signature(const char *signature) { int count = 0; for(; *signature; ++signature) { switch(*signature) { case 'i': case 'u': case 'f': case 's': case 'o': case 'n': case 'a': case 'h': ++count; } } return count; } int wl_message_get_since(const struct wl_message *message) { int since; since = atoi(message->signature); if (since == 0) since = 1; return since; } void wl_argument_from_va_list(const char *signature, union wl_argument *args, int count, va_list ap) { int i; const char *sig_iter; struct argument_details arg; sig_iter = signature; for (i = 0; i < count; i++) { sig_iter = get_next_argument(sig_iter, &arg); switch(arg.type) { case 'i': args[i].i = va_arg(ap, int32_t); break; case 'u': args[i].u = va_arg(ap, uint32_t); break; case 'f': args[i].f = va_arg(ap, wl_fixed_t); break; case 's': args[i].s = va_arg(ap, const char *); break; case 'o': args[i].o = va_arg(ap, struct wl_object *); break; case 'n': args[i].o = va_arg(ap, struct wl_object *); break; case 'a': args[i].a = va_arg(ap, struct wl_array *); break; case 'h': args[i].h = va_arg(ap, int32_t); break; case '\0': return; } } } struct wl_closure * wl_closure_marshal(struct wl_object *sender, uint32_t opcode, union wl_argument *args, const struct wl_message *message) { struct wl_closure *closure; struct wl_object *object; int i, count, fd, dup_fd; const char *signature; struct argument_details arg; count = arg_count_for_signature(message->signature); if (count > WL_CLOSURE_MAX_ARGS) { wl_log("too many args (%d)\n", count); errno = EINVAL; return NULL; } closure = malloc(sizeof *closure); if (closure == NULL) { errno = ENOMEM; return NULL; } memcpy(closure->args, args, count * sizeof *args); signature = message->signature; for (i = 0; i < count; i++) { signature = get_next_argument(signature, &arg); switch (arg.type) { case 'f': case 'u': case 'i': break; case 's': if (!arg.nullable && args[i].s == NULL) goto err_null; break; case 'o': if (!arg.nullable && args[i].o == NULL) goto err_null; break; case 'n': object = args[i].o; if (!arg.nullable && object == NULL) goto err_null; closure->args[i].n = object ? object->id : 0; break; case 'a': if (!arg.nullable && args[i].a == NULL) goto err_null; break; case 'h': fd = args[i].h; dup_fd = wl_os_dupfd_cloexec(fd, 0); if (dup_fd < 0) { wl_log("dup failed: %m"); abort(); } closure->args[i].h = dup_fd; break; default: wl_log("unhandled format code: '%c'\n", arg.type); assert(0); break; } } closure->sender_id = sender->id; closure->opcode = opcode; closure->message = message; closure->count = count; return closure; err_null: wl_closure_destroy(closure); wl_log("error marshalling arguments for %s (signature %s): " "null value passed for arg %i\n", message->name, message->signature, i); errno = EINVAL; return NULL; } struct wl_closure * wl_closure_vmarshal(struct wl_object *sender, uint32_t opcode, va_list ap, const struct wl_message *message) { union wl_argument args[WL_CLOSURE_MAX_ARGS]; wl_argument_from_va_list(message->signature, args, WL_CLOSURE_MAX_ARGS, ap); return wl_closure_marshal(sender, opcode, args, message); } struct wl_closure * wl_connection_demarshal(struct wl_connection *connection, uint32_t size, struct wl_map *objects, const struct wl_message *message) { uint32_t *p, *next, *end, length, id; int fd; char *s; unsigned int i, count, num_arrays; const char *signature; struct argument_details arg; struct wl_closure *closure; struct wl_array *array, *array_extra; count = arg_count_for_signature(message->signature); if (count > WL_CLOSURE_MAX_ARGS) { wl_log("too many args (%d)\n", count); errno = EINVAL; wl_connection_consume(connection, size); return NULL; } num_arrays = wl_message_count_arrays(message); closure = malloc(sizeof *closure + size + num_arrays * sizeof *array); if (closure == NULL) { errno = ENOMEM; wl_connection_consume(connection, size); return NULL; } array_extra = closure->extra; p = (uint32_t *)(closure->extra + num_arrays); end = p + size / sizeof *p; wl_connection_copy(connection, p, size); closure->sender_id = *p++; closure->opcode = *p++ & 0x0000ffff; signature = message->signature; for (i = 0; i < count; i++) { signature = get_next_argument(signature, &arg); if (arg.type != 'h' && p + 1 > end) { wl_log("message too short, " "object (%d), message %s(%s)\n", *p, message->name, message->signature); errno = EINVAL; goto err; } switch (arg.type) { case 'u': closure->args[i].u = *p++; break; case 'i': closure->args[i].i = *p++; break; case 'f': closure->args[i].f = *p++; break; case 's': length = *p++; if (length == 0) { closure->args[i].s = NULL; break; } next = p + DIV_ROUNDUP(length, sizeof *p); if (next > end) { wl_log("message too short, " "object (%d), message %s(%s)\n", closure->sender_id, message->name, message->signature); errno = EINVAL; goto err; } s = (char *) p; if (length > 0 && s[length - 1] != '\0') { wl_log("string not nul-terminated, " "message %s(%s)\n", message->name, message->signature); errno = EINVAL; goto err; } closure->args[i].s = s; p = next; break; case 'o': id = *p++; closure->args[i].n = id; if (id == 0 && !arg.nullable) { wl_log("NULL object received on non-nullable " "type, message %s(%s)\n", message->name, message->signature); errno = EINVAL; goto err; } break; case 'n': id = *p++; closure->args[i].n = id; if (id == 0 && !arg.nullable) { wl_log("NULL new ID received on non-nullable " "type, message %s(%s)\n", message->name, message->signature); errno = EINVAL; goto err; } if (wl_map_reserve_new(objects, id) < 0) { wl_log("not a valid new object id (%u), " "message %s(%s)\n", id, message->name, message->signature); errno = EINVAL; goto err; } break; case 'a': length = *p++; next = p + DIV_ROUNDUP(length, sizeof *p); if (next > end) { wl_log("message too short, " "object (%d), message %s(%s)\n", closure->sender_id, message->name, message->signature); errno = EINVAL; goto err; } array_extra->size = length; array_extra->alloc = 0; array_extra->data = p; closure->args[i].a = array_extra++; p = next; break; case 'h': if (connection->fds_in.tail == connection->fds_in.head) { wl_log("file descriptor expected, " "object (%d), message %s(%s)\n", closure->sender_id, message->name, message->signature); errno = EINVAL; goto err; } wl_buffer_copy(&connection->fds_in, &fd, sizeof fd); connection->fds_in.tail += sizeof fd; closure->args[i].h = fd; break; default: wl_log("unknown type\n"); assert(0); break; } } closure->count = count; closure->message = message; wl_connection_consume(connection, size); return closure; err: wl_closure_destroy(closure); wl_connection_consume(connection, size); return NULL; } int wl_interface_equal(const struct wl_interface *a, const struct wl_interface *b) { /* In most cases the pointer equality test is sufficient. * However, in some cases, depending on how things are split * across shared objects, we can end up with multiple * instances of the interface metadata constants. So if the * pointers match, the interfaces are equal, if they don't * match we have to compare the interface names. */ return a == b || strcmp(a->name, b->name) == 0; } int wl_closure_lookup_objects(struct wl_closure *closure, struct wl_map *objects) { struct wl_object *object; const struct wl_message *message; const char *signature; struct argument_details arg; int i, count; uint32_t id; message = closure->message; signature = message->signature; count = arg_count_for_signature(signature); for (i = 0; i < count; i++) { signature = get_next_argument(signature, &arg); switch (arg.type) { case 'o': id = closure->args[i].n; closure->args[i].o = NULL; object = wl_map_lookup(objects, id); if (object == WL_ZOMBIE_OBJECT) { /* references object we've already * destroyed client side */ object = NULL; } else if (object == NULL && id != 0) { wl_log("unknown object (%u), message %s(%s)\n", id, message->name, message->signature); object = NULL; errno = EINVAL; return -1; } if (object != NULL && message->types[i] != NULL && !wl_interface_equal((object)->interface, message->types[i])) { wl_log("invalid object (%u), type (%s), " "message %s(%s)\n", id, (object)->interface->name, message->name, message->signature); errno = EINVAL; return -1; } closure->args[i].o = object; } } return 0; } static void convert_arguments_to_ffi(const char *signature, uint32_t flags, union wl_argument *args, int count, ffi_type **ffi_types, void** ffi_args) { int i; const char *sig_iter; struct argument_details arg; sig_iter = signature; for (i = 0; i < count; i++) { sig_iter = get_next_argument(sig_iter, &arg); switch(arg.type) { case 'i': ffi_types[i] = &ffi_type_sint32; ffi_args[i] = &args[i].i; break; case 'u': ffi_types[i] = &ffi_type_uint32; ffi_args[i] = &args[i].u; break; case 'f': ffi_types[i] = &ffi_type_sint32; ffi_args[i] = &args[i].f; break; case 's': ffi_types[i] = &ffi_type_pointer; ffi_args[i] = &args[i].s; break; case 'o': ffi_types[i] = &ffi_type_pointer; ffi_args[i] = &args[i].o; break; case 'n': if (flags & WL_CLOSURE_INVOKE_CLIENT) { ffi_types[i] = &ffi_type_pointer; ffi_args[i] = &args[i].o; } else { ffi_types[i] = &ffi_type_uint32; ffi_args[i] = &args[i].n; } break; case 'a': ffi_types[i] = &ffi_type_pointer; ffi_args[i] = &args[i].a; break; case 'h': ffi_types[i] = &ffi_type_sint32; ffi_args[i] = &args[i].h; break; default: wl_log("unknown type\n"); assert(0); break; } } } void wl_closure_invoke(struct wl_closure *closure, uint32_t flags, struct wl_object *target, uint32_t opcode, void *data) { int count; ffi_cif cif; ffi_type *ffi_types[WL_CLOSURE_MAX_ARGS + 2]; void * ffi_args[WL_CLOSURE_MAX_ARGS + 2]; void (* const *implementation)(void); count = arg_count_for_signature(closure->message->signature); ffi_types[0] = &ffi_type_pointer; ffi_args[0] = &data; ffi_types[1] = &ffi_type_pointer; ffi_args[1] = ⌖ convert_arguments_to_ffi(closure->message->signature, flags, closure->args, count, ffi_types + 2, ffi_args + 2); ffi_prep_cif(&cif, FFI_DEFAULT_ABI, count + 2, &ffi_type_void, ffi_types); implementation = target->implementation; if (!implementation[opcode]) { wl_log("listener function for opcode %u of %s is NULL\n", opcode, target->interface->name); abort(); } ffi_call(&cif, implementation[opcode], NULL, ffi_args); } void wl_closure_dispatch(struct wl_closure *closure, wl_dispatcher_func_t dispatcher, struct wl_object *target, uint32_t opcode) { dispatcher(target->implementation, target, opcode, closure->message, closure->args); } static int copy_fds_to_connection(struct wl_closure *closure, struct wl_connection *connection) { const struct wl_message *message = closure->message; uint32_t i, count; struct argument_details arg; const char *signature = message->signature; int fd; count = arg_count_for_signature(signature); for (i = 0; i < count; i++) { signature = get_next_argument(signature, &arg); if (arg.type != 'h') continue; fd = closure->args[i].h; if (wl_connection_put_fd(connection, fd)) { wl_log("request could not be marshaled: " "can't send file descriptor"); return -1; } } return 0; } static uint32_t buffer_size_for_closure(struct wl_closure *closure) { const struct wl_message *message = closure->message; int i, count; struct argument_details arg; const char *signature; uint32_t size, buffer_size = 0; signature = message->signature; count = arg_count_for_signature(signature); for (i = 0; i < count; i++) { signature = get_next_argument(signature, &arg); switch (arg.type) { case 'h': break; case 'u': case 'i': case 'f': case 'o': case 'n': buffer_size++; break; case 's': if (closure->args[i].s == NULL) { buffer_size++; break; } size = strlen(closure->args[i].s) + 1; buffer_size += 1 + DIV_ROUNDUP(size, sizeof(uint32_t)); break; case 'a': if (closure->args[i].a == NULL) { buffer_size++; break; } size = closure->args[i].a->size; buffer_size += (1 + DIV_ROUNDUP(size, sizeof(uint32_t))); break; default: break; } } return buffer_size + 2; } static int serialize_closure(struct wl_closure *closure, uint32_t *buffer, size_t buffer_count) { const struct wl_message *message = closure->message; unsigned int i, count, size; uint32_t *p, *end; struct argument_details arg; const char *signature; if (buffer_count < 2) goto overflow; p = buffer + 2; end = buffer + buffer_count; signature = message->signature; count = arg_count_for_signature(signature); for (i = 0; i < count; i++) { signature = get_next_argument(signature, &arg); if (arg.type == 'h') continue; if (p + 1 > end) goto overflow; switch (arg.type) { case 'u': *p++ = closure->args[i].u; break; case 'i': *p++ = closure->args[i].i; break; case 'f': *p++ = closure->args[i].f; break; case 'o': *p++ = closure->args[i].o ? closure->args[i].o->id : 0; break; case 'n': *p++ = closure->args[i].n; break; case 's': if (closure->args[i].s == NULL) { *p++ = 0; break; } size = strlen(closure->args[i].s) + 1; *p++ = size; if (p + DIV_ROUNDUP(size, sizeof *p) > end) goto overflow; memcpy(p, closure->args[i].s, size); p += DIV_ROUNDUP(size, sizeof *p); break; case 'a': if (closure->args[i].a == NULL) { *p++ = 0; break; } size = closure->args[i].a->size; *p++ = size; if (p + DIV_ROUNDUP(size, sizeof *p) > end) goto overflow; memcpy(p, closure->args[i].a->data, size); p += DIV_ROUNDUP(size, sizeof *p); break; default: break; } } size = (p - buffer) * sizeof *p; buffer[0] = closure->sender_id; buffer[1] = size << 16 | (closure->opcode & 0x0000ffff); return size; overflow: errno = ERANGE; return -1; } int wl_closure_send(struct wl_closure *closure, struct wl_connection *connection) { int size; uint32_t buffer_size; uint32_t *buffer; int result; if (copy_fds_to_connection(closure, connection)) return -1; buffer_size = buffer_size_for_closure(closure); buffer = malloc(buffer_size * sizeof buffer[0]); if (buffer == NULL) return -1; size = serialize_closure(closure, buffer, buffer_size); if (size < 0) { free(buffer); return -1; } result = wl_connection_write(connection, buffer, size); free(buffer); return result; } int wl_closure_queue(struct wl_closure *closure, struct wl_connection *connection) { int size; uint32_t buffer_size; uint32_t *buffer; int result; if (copy_fds_to_connection(closure, connection)) return -1; buffer_size = buffer_size_for_closure(closure); buffer = malloc(buffer_size * sizeof buffer[0]); if (buffer == NULL) return -1; size = serialize_closure(closure, buffer, buffer_size); if (size < 0) { free(buffer); return -1; } result = wl_connection_queue(connection, buffer, size); free(buffer); return result; } void wl_closure_print(struct wl_closure *closure, struct wl_object *target, int send) { int i; struct argument_details arg; const char *signature = closure->message->signature; struct timespec tp; unsigned int time; clock_gettime(CLOCK_REALTIME, &tp); time = (tp.tv_sec * 1000000L) + (tp.tv_nsec / 1000); fprintf(stderr, "[%10.3f] %s%s@%u.%s(", time / 1000.0, send ? " -> " : "", target->interface->name, target->id, closure->message->name); for (i = 0; i < closure->count; i++) { signature = get_next_argument(signature, &arg); if (i > 0) fprintf(stderr, ", "); switch (arg.type) { case 'u': fprintf(stderr, "%u", closure->args[i].u); break; case 'i': fprintf(stderr, "%d", closure->args[i].i); break; case 'f': fprintf(stderr, "%f", wl_fixed_to_double(closure->args[i].f)); break; case 's': fprintf(stderr, "\"%s\"", closure->args[i].s); break; case 'o': if (closure->args[i].o) fprintf(stderr, "%s@%u", closure->args[i].o->interface->name, closure->args[i].o->id); else fprintf(stderr, "nil"); break; case 'n': fprintf(stderr, "new id %s@", (closure->message->types[i]) ? closure->message->types[i]->name : "[unknown]"); if (closure->args[i].n != 0) fprintf(stderr, "%u", closure->args[i].n); else fprintf(stderr, "nil"); break; case 'a': fprintf(stderr, "array"); break; case 'h': fprintf(stderr, "fd %d", closure->args[i].h); break; } } fprintf(stderr, ")\n"); } void wl_closure_destroy(struct wl_closure *closure) { free(closure); }