/* * Copyright © 2020 Red Hat, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include "config.h" #include #include #include #include #include "util-bits.h" #include "util-io.h" #include "util-macros.h" #include "util-mem.h" #include "util-sources.h" #include "util-strings.h" #include "util-structs.h" #include "libeis-private.h" #include "libeis-proto.h" #include "brei-shared.h" static void eis_client_destroy(struct eis_client *client) { free(client->name); source_remove(client->source); source_unref(client->source); list_remove(&client->link); } static OBJECT_IMPLEMENT_CREATE(eis_client); static OBJECT_IMPLEMENT_PARENT(eis_client, eis); _public_ OBJECT_IMPLEMENT_REF(eis_client); _public_ OBJECT_IMPLEMENT_UNREF(eis_client); _public_ OBJECT_IMPLEMENT_GETTER(eis_client, name, const char*); _public_ OBJECT_IMPLEMENT_SETTER(eis_client, user_data, void*); _public_ OBJECT_IMPLEMENT_GETTER(eis_client, user_data, void*); _public_ struct eis* eis_client_get_context(struct eis_client *client) { return eis_client_parent(client); } static int client_send_disconnect(struct eis_client *client) { return eis_proto_send_disconnect(client); } static int client_send_connect(struct eis_client *client) { return eis_proto_send_connect(client); } static int client_send_seat_added(struct eis_client *client, struct eis_seat *seat) { return eis_proto_send_seat_added(client, seat); } static int client_send_seat_removed(struct eis_client *client, struct eis_seat *seat) { return eis_proto_send_seat_removed(client, seat); } static int client_send_device_added(struct eis_client *client, struct eis_device *device) { int rc = eis_proto_send_device_added(client, device); if (rc >= 0) rc = eis_proto_send_device_added_done(client, device); return rc; } static int client_send_device_removed(struct eis_client *client, struct eis_device *device) { return eis_proto_send_device_removed(client, device); } static int client_send_device_suspended(struct eis_client *client, struct eis_device *device) { return eis_proto_send_device_suspended(client, device); } static int client_send_device_resumed(struct eis_client *client, struct eis_device *device) { return eis_proto_send_device_resumed(client, device); } _public_ void eis_client_connect(struct eis_client *client) { switch(client->state) { case EIS_CLIENT_STATE_CONNECTING: break; default: log_bug_client(eis_client_get_context(client), "%s: client already connected\n", __func__); return; } int rc = client_send_connect(client); if (rc) { log_debug(eis_client_get_context(client), "Message failed to send: %s\n", strerror(-rc)); eis_client_disconnect(client); } else { client->state = EIS_CLIENT_STATE_CONNECTED; } } _public_ void eis_client_disconnect(struct eis_client *client) { switch(client->state) { case EIS_CLIENT_STATE_DISCONNECTED: /* Client already disconnected? don't bother sending an * event */ return; case EIS_CLIENT_STATE_CONNECTING: case EIS_CLIENT_STATE_CONNECTED: { struct eis_seat *s; list_for_each_safe(s, &client->seats, link) { eis_seat_unbind(s); eis_seat_remove(s); } } eis_queue_disconnect_event(client); _fallthrough_; case EIS_CLIENT_STATE_NEW: client_send_disconnect(client); client->state = EIS_CLIENT_STATE_DISCONNECTED; source_remove(client->source); break; } eis_client_unref(client); } static int client_close_device(struct eis_client *client, uint32_t deviceid) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { eis_device_closed_by_client(device); break; } } } return 0; } static int client_seat_bind(struct eis_client *client, uint32_t seatid, uint32_t caps) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { if (seat->id == seatid) { eis_seat_bind(seat, caps); return 0; } } return -EINVAL; } static int client_seat_unbind(struct eis_client *client, uint32_t seatid) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { if (seat->id == seatid) { eis_seat_unbind(seat); return 0; } } return -EINVAL; } static int client_pointer_rel(struct eis_client *client, uint32_t deviceid, double x, double y) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_pointer_rel(device, x, y); } } } return -EINVAL; } static int client_pointer_abs(struct eis_client *client, uint32_t deviceid, double x, double y) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_pointer_abs(device, x, y); } } } return -EINVAL; } static int client_pointer_button(struct eis_client *client, uint32_t deviceid, uint32_t button, bool state) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_pointer_button(device, button, state); } } } return -EINVAL; } static int client_pointer_scroll(struct eis_client *client, uint32_t deviceid, double x, double y) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_pointer_scroll(device, x, y); } } } return -EINVAL; } static int client_pointer_scroll_discrete(struct eis_client *client, uint32_t deviceid, int32_t x, int32_t y) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_pointer_scroll_discrete(device, x, y); } } } return -EINVAL; } static int client_keyboard_key(struct eis_client *client, uint32_t deviceid, uint32_t key, bool state) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_keyboard_key(device, key, state); } } } return -EINVAL; } static int client_touch(struct eis_client *client, uint32_t deviceid, uint32_t touchid, bool is_down, bool is_up, double x, double y) { struct eis_seat *seat; list_for_each(seat, &client->seats, link) { struct eis_device *device; list_for_each(device, &seat->devices, link) { if (device->id == deviceid) { return eis_device_touch(device, touchid, is_down, is_up, x, y); } } } return -EINVAL; } static int client_configure_name(struct eis_client *client, const char *name) { /* We silently ignore wrong configure messages */ if (client->state != EIS_CLIENT_STATE_NEW || client->name) return 0; client->name = xstrdup(name); return 0; } static int client_configure_caps(struct eis_client *client, bool policy_is_allow, uint32_t allowed_caps, uint32_t denied_caps) { if (policy_is_allow) { /* We can only manage allow masks while we're in * default-allow policy. * first call to set allow masks is taken as-is, from then onwards * we can only restrict */ if (client->restrictions.cap_allow_mask == ~0U) client->restrictions.cap_allow_mask = allowed_caps; else client->restrictions.cap_allow_mask &= allowed_caps; } else { client->restrictions.cap_policy = CLIENT_CAP_POLICY_DENY; } client->restrictions.cap_deny_mask |= denied_caps; /* FIXME: if something is disallowed now, we should disconnect * accordingly. */ return 0; } static int client_new_handle_msg(struct eis_client *client, struct message *msg) { int rc = 0; switch (msg->type) { case MESSAGE_CONNECT: eis_queue_connect_event(client); if (client->name == NULL) client->name = steal(&msg->connect.name); client->state = EIS_CLIENT_STATE_CONNECTING; break; case MESSAGE_DISCONNECT: rc = -ECANCELED; break; case MESSAGE_BIND_SEAT: case MESSAGE_UNBIND_SEAT: case MESSAGE_CLOSE_DEVICE: case MESSAGE_POINTER_REL: case MESSAGE_POINTER_ABS: case MESSAGE_POINTER_BUTTON: case MESSAGE_POINTER_SCROLL: case MESSAGE_POINTER_SCROLL_DISCRETE: case MESSAGE_KEYBOARD_KEY: case MESSAGE_TOUCH: rc = -EPROTO; break; case MESSAGE_CONFIGURE_NAME: rc = client_configure_name(client, msg->configure_name.name); break; case MESSAGE_CONFIGURE_CAPABILITIES: rc = client_configure_caps(client, msg->configure_caps.policy_is_allow, msg->configure_caps.caps_allow, msg->configure_caps.caps_deny); break; } return rc; } static int client_connecting_handle_msg(struct eis_client *client, const struct message *msg) { int rc = 0; switch (msg->type) { case MESSAGE_CONNECT: rc = -EPROTO; break; case MESSAGE_DISCONNECT: rc = -ECANCELED; break; case MESSAGE_BIND_SEAT: case MESSAGE_UNBIND_SEAT: case MESSAGE_CLOSE_DEVICE: case MESSAGE_POINTER_REL: case MESSAGE_POINTER_ABS: case MESSAGE_POINTER_BUTTON: case MESSAGE_POINTER_SCROLL: case MESSAGE_POINTER_SCROLL_DISCRETE: case MESSAGE_KEYBOARD_KEY: case MESSAGE_TOUCH: rc = -EPROTO; break; case MESSAGE_CONFIGURE_NAME: rc = client_configure_name(client, msg->configure_name.name); break; case MESSAGE_CONFIGURE_CAPABILITIES: rc = client_configure_caps(client, msg->configure_caps.policy_is_allow, msg->configure_caps.caps_allow, msg->configure_caps.caps_deny); break; } return rc; } static int client_connected_handle_msg(struct eis_client *client, const struct message *msg) { int rc = 0; switch (msg->type) { case MESSAGE_CONNECT: rc = -EPROTO; break; case MESSAGE_DISCONNECT: rc = -ECANCELED; break; case MESSAGE_BIND_SEAT: client_seat_bind(client, msg->bind_seat.seatid, msg->bind_seat.capabilities); break; case MESSAGE_UNBIND_SEAT: client_seat_unbind(client, msg->unbind_seat.seatid); break; case MESSAGE_CLOSE_DEVICE: rc = client_close_device(client, msg->close_device.deviceid); break; case MESSAGE_POINTER_REL: rc = client_pointer_rel(client, msg->pointer_rel.deviceid, msg->pointer_rel.x, msg->pointer_rel.y); break; case MESSAGE_POINTER_ABS: rc = client_pointer_abs(client, msg->pointer_abs.deviceid, msg->pointer_abs.x, msg->pointer_abs.y); break; case MESSAGE_POINTER_BUTTON: rc = client_pointer_button(client, msg->pointer_button.deviceid, msg->pointer_button.button, msg->pointer_button.state); break; case MESSAGE_POINTER_SCROLL: rc = client_pointer_scroll(client, msg->pointer_scroll.deviceid, msg->pointer_scroll.x, msg->pointer_scroll.y); break; case MESSAGE_POINTER_SCROLL_DISCRETE: rc = client_pointer_scroll_discrete(client, msg->pointer_scroll_discrete.deviceid, msg->pointer_scroll_discrete.x, msg->pointer_scroll_discrete.y); break; case MESSAGE_KEYBOARD_KEY: rc = client_keyboard_key(client, msg->keyboard_key.deviceid, msg->keyboard_key.key, msg->keyboard_key.state); break; case MESSAGE_TOUCH: rc = client_touch(client, msg->touch.deviceid, msg->touch.touchid, msg->touch.is_down, msg->touch.is_up, msg->touch.x, msg->touch.y); break; case MESSAGE_CONFIGURE_NAME: rc = client_configure_name(client, msg->configure_name.name); break; case MESSAGE_CONFIGURE_CAPABILITIES: rc = client_configure_caps(client, msg->configure_caps.policy_is_allow, msg->configure_caps.caps_allow, msg->configure_caps.caps_deny); break; } return rc; } static int client_message_callback(struct brei_message *bmsg, void *userdata) { struct eis_client *client = userdata; size_t consumed; _cleanup_message_ struct message *msg = eis_proto_parse_message(bmsg, &consumed); if (!msg) return -EBADMSG; log_debug(eis_client_parent(client), "handling message type %s\n", message_type_to_string(msg->type)); int rc = 0; switch (client->state) { case EIS_CLIENT_STATE_NEW: rc = client_new_handle_msg(client, msg); break; case EIS_CLIENT_STATE_CONNECTING: /* Client is waiting for us, shouldn't send anything * but disconnect */ rc = client_connecting_handle_msg(client, msg); break; case EIS_CLIENT_STATE_CONNECTED: rc = client_connected_handle_msg(client, msg); break; case EIS_CLIENT_STATE_DISCONNECTED: abort(); } if (rc < 0) return rc; else return consumed; } static void client_dispatch(struct source *source, void *userdata) { _unref_(eis_client) *client = eis_client_ref(userdata); enum eis_client_state old_state = client->state; int rc = brei_dispatch(source_get_fd(source), client_message_callback, client); if (rc < 0) eis_client_disconnect(client); static const char *client_states[] = { "NEW", "CONNECTING", "CONNECTED", "DISCONNECTED", }; if (rc == -ECANCELED) log_info(eis_client_parent(client), "Disconnected\n"); else if (rc) log_warn(eis_client_parent(client), "Client error: %s\n", strerror(-rc)); if (old_state != client->state) { log_debug(eis_client_parent(client), "Client dispatch: %s -> %s\n", client_states[old_state], client_states[client->state]); } } struct eis_client * eis_client_new(struct eis *eis, int fd) { static uint32_t client_id; struct eis_client *client = eis_client_create(&eis->object); client->id = ++client_id; list_init(&client->seats); list_init(&client->seats_pending); struct source *s = source_new(fd, client_dispatch, client); int rc = sink_add_source(eis->sink, s); if (rc != 0) { source_unref(s); return NULL; } client->source = source_ref(s); client->state = EIS_CLIENT_STATE_NEW; client->restrictions.cap_policy = CLIENT_CAP_POLICY_ALLOW; client->restrictions.cap_allow_mask = ~0U; client->restrictions.cap_deny_mask = 0; eis_add_client(eis, eis_client_ref(client)); source_unref(s); return client; } void eis_client_add_seat(struct eis_client *client, struct eis_seat *seat) { /* remove from the pending list first */ list_remove(&seat->link); /* We own this seat now */ eis_seat_ref(seat); list_append(&client->seats, &seat->link); client_send_seat_added(client, seat); } void eis_client_remove_seat(struct eis_client *client, struct eis_seat *seat) { client_send_seat_removed(client, seat); seat->state = EIS_SEAT_STATE_REMOVED; } void eis_client_add_device(struct eis_client *client, struct eis_device *device) { client_send_device_added(client, device); } void eis_client_remove_device(struct eis_client *client, struct eis_device *device) { client_send_device_removed(client, device); } void eis_client_suspend_device(struct eis_client *client, struct eis_device *device) { client_send_device_suspended(client, device); } void eis_client_resume_device(struct eis_client *client, struct eis_device *device) { client_send_device_resumed(client, device); }