/* * Copyright (c) 2019 - 2022 Andri Yngvason * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * 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. */ #include "rfb-proto.h" #include "vec.h" #include "type-macros.h" #include "fb.h" #include "display.h" #include "neatvnc.h" #include "common.h" #include "pixels.h" #include "stream.h" #include "config.h" #include "usdt.h" #include "encoder.h" #include "enc-util.h" #include "cursor.h" #include "logging.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef ENABLE_TLS #include #endif #ifndef DRM_FORMAT_INVALID #define DRM_FORMAT_INVALID 0 #endif #ifndef DRM_FORMAT_MOD_LINEAR #define DRM_FORMAT_MOD_LINEAR DRM_FORMAT_MOD_NONE #endif #define DEFAULT_NAME "Neat VNC" #define EXPORT __attribute__((visibility("default"))) enum addrtype { ADDRTYPE_TCP, ADDRTYPE_UNIX, }; static int send_desktop_resize(struct nvnc_client* client, struct nvnc_fb* fb); static int send_qemu_key_ext_frame(struct nvnc_client* client); static enum rfb_encodings choose_frame_encoding(struct nvnc_client* client, struct nvnc_fb*); static void on_encode_frame_done(struct encoder*, struct rcbuf*, uint64_t pts); static bool client_has_encoding(const struct nvnc_client* client, enum rfb_encodings encoding); static void process_fb_update_requests(struct nvnc_client* client); #if defined(GIT_VERSION) EXPORT const char nvnc_version[] = GIT_VERSION; #elif defined(PROJECT_VERSION) EXPORT const char nvnc_version[] = PROJECT_VERSION; #else EXPORT const char nvnc_version[] = "UNKNOWN"; #endif extern const unsigned short code_map_qnum_to_linux[]; static uint64_t nvnc__htonll(uint64_t x) { #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ return __builtin_bswap64(x); #else return x; #endif } static void client_close(struct nvnc_client* client) { nvnc_log(NVNC_LOG_INFO, "Closing client connection %p: ref %d", client, client->ref); nvnc_cleanup_fn cleanup = client->common.cleanup_fn; if (cleanup) cleanup(client->common.userdata); nvnc_client_fn fn = client->cleanup_fn; if (fn) fn(client); if (client->current_fb) { nvnc_fb_release(client->current_fb); nvnc_fb_unref(client->current_fb); } LIST_REMOVE(client, link); stream_destroy(client->net_stream); if (client->encoder) { client->server->n_damage_clients -= !(client->encoder->impl->flags & ENCODER_IMPL_FLAG_IGNORES_DAMAGE); client->encoder->on_done = NULL; } encoder_unref(client->encoder); pixman_region_fini(&client->damage); free(client->cut_text.buffer); free(client); } static inline void client_unref(struct nvnc_client* client) { assert(client->ref > 0); if (--client->ref == 0) client_close(client); } static inline void client_ref(struct nvnc_client* client) { ++client->ref; } static void close_after_write(void* userdata, enum stream_req_status status) { struct nvnc_client* client = userdata; nvnc_log(NVNC_LOG_DEBUG, "close_after_write(%p): ref %d", client, client->ref); nvnc_client_close(client); } static int handle_unsupported_version(struct nvnc_client* client) { char buffer[256]; client->state = VNC_CLIENT_STATE_ERROR; struct rfb_error_reason* reason = (struct rfb_error_reason*)(buffer + 1); static const char reason_string[] = "Unsupported version\n"; buffer[0] = 0; /* Number of security types is 0 on error */ reason->length = htonl(strlen(reason_string)); strcpy(reason->message, reason_string); size_t len = 1 + sizeof(*reason) + strlen(reason_string); stream_write(client->net_stream, buffer, len, close_after_write, client); return 0; } static int on_version_message(struct nvnc_client* client) { if (client->buffer_len - client->buffer_index < 12) return 0; char version_string[13]; memcpy(version_string, client->msg_buffer + client->buffer_index, 12); version_string[12] = '\0'; if (strcmp(RFB_VERSION_MESSAGE, version_string) != 0) return handle_unsupported_version(client); struct rfb_security_types_msg security = { 0 }; security.n = 1; security.types[0] = RFB_SECURITY_TYPE_NONE; #ifdef ENABLE_TLS if (client->server->auth_fn) security.types[0] = RFB_SECURITY_TYPE_VENCRYPT; #endif stream_write(client->net_stream, &security, sizeof(security), NULL, NULL); client->state = VNC_CLIENT_STATE_WAITING_FOR_SECURITY; return 12; } static int security_handshake_failed(struct nvnc_client* client, const char* reason_string) { char buffer[256]; client->state = VNC_CLIENT_STATE_ERROR; uint8_t* result = (uint8_t*)buffer; struct rfb_error_reason* reason = (struct rfb_error_reason*)(buffer + sizeof(*result)); *result = htonl(RFB_SECURITY_HANDSHAKE_FAILED); reason->length = htonl(strlen(reason_string)); (void)strcmp(reason->message, reason_string); size_t len = sizeof(*result) + sizeof(*reason) + strlen(reason_string); stream_write(client->net_stream, buffer, len, close_after_write, client); return 0; } static int security_handshake_ok(struct nvnc_client* client) { uint32_t result = htonl(RFB_SECURITY_HANDSHAKE_OK); return stream_write(client->net_stream, &result, sizeof(result), NULL, NULL); } #ifdef ENABLE_TLS static int send_byte(struct nvnc_client* client, uint8_t value) { return stream_write(client->net_stream, &value, 1, NULL, NULL); } static int send_byte_and_close(struct nvnc_client* client, uint8_t value) { return stream_write(client->net_stream, &value, 1, close_after_write, client); } static int vencrypt_send_version(struct nvnc_client* client) { struct rfb_vencrypt_version_msg msg = { .major = 0, .minor = 2, }; return stream_write(client->net_stream, &msg, sizeof(msg), NULL, NULL); } static int on_vencrypt_version_message(struct nvnc_client* client) { struct rfb_vencrypt_version_msg* msg = (struct rfb_vencrypt_version_msg*)&client->msg_buffer[client->buffer_index]; if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; if (msg->major != 0 || msg->minor != 2) { security_handshake_failed(client, "Unsupported VeNCrypt version"); return sizeof(*msg); } send_byte(client, 0); struct rfb_vencrypt_subtypes_msg result = { .n = 1, }; result.types[0] = htonl(RFB_VENCRYPT_X509_PLAIN); stream_write(client->net_stream, &result, sizeof(result), NULL, NULL); client->state = VNC_CLIENT_STATE_WAITING_FOR_VENCRYPT_SUBTYPE; return sizeof(*msg); } static int on_vencrypt_subtype_message(struct nvnc_client* client) { uint32_t* msg = (uint32_t*)&client->msg_buffer[client->buffer_index]; if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; enum rfb_vencrypt_subtype subtype = ntohl(*msg); if (subtype != RFB_VENCRYPT_X509_PLAIN) { client->state = VNC_CLIENT_STATE_ERROR; send_byte_and_close(client, 0); return sizeof(*msg); } send_byte(client, 1); if (stream_upgrade_to_tls(client->net_stream, client->server->tls_creds) < 0) { client->state = VNC_CLIENT_STATE_ERROR; nvnc_client_close(client); return sizeof(*msg); } client->state = VNC_CLIENT_STATE_WAITING_FOR_VENCRYPT_PLAIN_AUTH; return sizeof(*msg); } static int on_vencrypt_plain_auth_message(struct nvnc_client* client) { struct nvnc* server = client->server; struct rfb_vencrypt_plain_auth_msg* msg = (void*)(client->msg_buffer + client->buffer_index); if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; uint32_t ulen = ntohl(msg->username_len); uint32_t plen = ntohl(msg->password_len); if (client->buffer_len - client->buffer_index < sizeof(*msg) + ulen + plen) return 0; char username[256]; char password[256]; memcpy(username, msg->text, MIN(ulen, sizeof(username) - 1)); memcpy(password, msg->text + ulen, MIN(plen, sizeof(password) - 1)); username[MIN(ulen, sizeof(username) - 1)] = '\0'; password[MIN(plen, sizeof(password) - 1)] = '\0'; strncpy(client->username, username, sizeof(client->username)); client->username[sizeof(client->username) - 1] = '\0'; if (server->auth_fn(username, password, server->auth_ud)) { nvnc_log(NVNC_LOG_INFO, "User \"%s\" authenticated", username); security_handshake_ok(client); client->state = VNC_CLIENT_STATE_WAITING_FOR_INIT; } else { nvnc_log(NVNC_LOG_INFO, "User \"%s\" rejected", username); security_handshake_failed(client, "Invalid username or password"); } return sizeof(*msg) + ulen + plen; } #endif static int on_security_message(struct nvnc_client* client) { if (client->buffer_len - client->buffer_index < 1) return 0; uint8_t type = client->msg_buffer[client->buffer_index]; switch (type) { case RFB_SECURITY_TYPE_NONE: security_handshake_ok(client); client->state = VNC_CLIENT_STATE_WAITING_FOR_INIT; break; #ifdef ENABLE_TLS case RFB_SECURITY_TYPE_VENCRYPT: vencrypt_send_version(client); client->state = VNC_CLIENT_STATE_WAITING_FOR_VENCRYPT_VERSION; break; #endif default: security_handshake_failed(client, "Unsupported security type"); break; } return sizeof(type); } static void disconnect_all_other_clients(struct nvnc_client* client) { struct nvnc_client* node; struct nvnc_client* tmp; LIST_FOREACH_SAFE (node, &client->server->clients, link, tmp) if (node != client) { nvnc_log(NVNC_LOG_DEBUG, "disconnect other client %p (ref %d)", node, node->ref); nvnc_client_close(node); } } static void send_server_init_message(struct nvnc_client* client) { struct nvnc* server = client->server; struct nvnc_display* display = server->display; size_t name_len = strlen(server->name); size_t size = sizeof(struct rfb_server_init_msg) + name_len; if (!display) { nvnc_log(NVNC_LOG_WARNING, "Tried to send init message, but no display has been added"); goto close; } if (!display->buffer) { nvnc_log(NVNC_LOG_WARNING, "Tried to send init message, but no framebuffers have been set"); goto close; } uint16_t width = nvnc_fb_get_width(display->buffer); uint16_t height = nvnc_fb_get_height(display->buffer); uint32_t fourcc = nvnc_fb_get_fourcc_format(display->buffer); struct rfb_server_init_msg* msg = calloc(1, size); if (!msg) goto close; msg->width = htons(width); msg->height = htons(height); msg->name_length = htonl(name_len); memcpy(msg->name_string, server->name, name_len); int rc = rfb_pixfmt_from_fourcc(&msg->pixel_format, fourcc); if (rc < 0) goto pixfmt_failure; msg->pixel_format.red_max = htons(msg->pixel_format.red_max); msg->pixel_format.green_max = htons(msg->pixel_format.green_max); msg->pixel_format.blue_max = htons(msg->pixel_format.blue_max); struct rcbuf* payload = rcbuf_new(msg, size); stream_send(client->net_stream, payload, NULL, NULL); client->known_width = width; client->known_height = height; return; pixfmt_failure: free(msg); close: nvnc_client_close(client); } static int on_init_message(struct nvnc_client* client) { if (client->buffer_len - client->buffer_index < 1) return 0; uint8_t shared_flag = client->msg_buffer[client->buffer_index]; if (!shared_flag) disconnect_all_other_clients(client); send_server_init_message(client); nvnc_client_fn fn = client->server->new_client_fn; if (fn) fn(client); client->state = VNC_CLIENT_STATE_READY; return sizeof(shared_flag); } static int on_client_set_pixel_format(struct nvnc_client* client) { if (client->buffer_len - client->buffer_index < 4 + sizeof(struct rfb_pixel_format)) return 0; struct rfb_pixel_format* fmt = (struct rfb_pixel_format*)(client->msg_buffer + client->buffer_index + 4); if (!fmt->true_colour_flag) { /* We don't really know what to do with color maps right now */ nvnc_client_close(client); return 0; } fmt->red_max = ntohs(fmt->red_max); fmt->green_max = ntohs(fmt->green_max); fmt->blue_max = ntohs(fmt->blue_max); memcpy(&client->pixfmt, fmt, sizeof(client->pixfmt)); client->has_pixfmt = true; return 4 + sizeof(struct rfb_pixel_format); } static int on_client_set_encodings(struct nvnc_client* client) { struct rfb_client_set_encodings_msg* msg = (struct rfb_client_set_encodings_msg*)(client->msg_buffer + client->buffer_index); size_t n_encodings = MIN(MAX_ENCODINGS, ntohs(msg->n_encodings)); size_t n = 0; if (client->buffer_len - client->buffer_index < sizeof(*msg) + n_encodings * 4) return 0; client->quality = 10; for (size_t i = 0; i < n_encodings; ++i) { enum rfb_encodings encoding = htonl(msg->encodings[i]); switch (encoding) { case RFB_ENCODING_RAW: case RFB_ENCODING_COPYRECT: case RFB_ENCODING_RRE: case RFB_ENCODING_HEXTILE: case RFB_ENCODING_TIGHT: case RFB_ENCODING_TRLE: case RFB_ENCODING_ZRLE: case RFB_ENCODING_OPEN_H264: case RFB_ENCODING_CURSOR: case RFB_ENCODING_DESKTOPSIZE: case RFB_ENCODING_QEMU_EXT_KEY_EVENT: case RFB_ENCODING_PTS: client->encodings[n++] = encoding; } if (RFB_ENCODING_JPEG_LOWQ <= encoding && encoding <= RFB_ENCODING_JPEG_HIGHQ) client->quality = encoding - RFB_ENCODING_JPEG_LOWQ; } client->n_encodings = n; return sizeof(*msg) + 4 * n_encodings; } static void send_cursor_update(struct nvnc_client* client) { struct nvnc* server = client->server; struct vec payload; vec_init(&payload, 4096); struct rfb_server_fb_update_msg head = { .type = RFB_SERVER_TO_CLIENT_FRAMEBUFFER_UPDATE, .n_rects = htons(1), }; vec_append(&payload, &head, sizeof(head)); int rc = cursor_encode(&payload, &client->pixfmt, server->cursor.buffer, server->cursor.width, server->cursor.height, server->cursor.hotspot_x, server->cursor.hotspot_y); if (rc < 0) { nvnc_log(NVNC_LOG_ERROR, "Failed to send cursor to client"); vec_destroy(&payload); return; } client->cursor_seq = server->cursor_seq; stream_send(client->net_stream, rcbuf_new(payload.data, payload.len), NULL, NULL); } static bool will_send_pts(const struct nvnc_client* client, uint64_t pts) { return pts != NVNC_NO_PTS && client_has_encoding(client, RFB_ENCODING_PTS); } static int send_pts_rect(struct nvnc_client* client, uint64_t pts) { if (!will_send_pts(client, pts)) return 0; uint8_t buf[sizeof(struct rfb_server_fb_rect) + 8] = { 0 }; struct rfb_server_fb_rect* head = (struct rfb_server_fb_rect*)buf; head->encoding = htonl(RFB_ENCODING_PTS); uint64_t* msg_pts = (uint64_t*)&buf[sizeof(struct rfb_server_fb_rect)]; *msg_pts = nvnc__htonll(pts); return stream_write(client->net_stream, buf, sizeof(buf), NULL, NULL); } static const char* encoding_to_string(enum rfb_encodings encoding) { switch (encoding) { case RFB_ENCODING_RAW: return "raw"; case RFB_ENCODING_TIGHT: return "tight"; case RFB_ENCODING_ZRLE: return "zrle"; case RFB_ENCODING_OPEN_H264: return "open-h264"; default: break; } return "UNKNOWN"; } static void process_fb_update_requests(struct nvnc_client* client) { struct nvnc* server = client->server; if (!server->display || !server->display->buffer) return; if (client->net_stream->state == STREAM_STATE_CLOSED) return; if (client->is_updating || client->n_pending_requests == 0) return; struct nvnc_fb* fb = client->server->display->buffer; assert(fb); if (!client->has_pixfmt) { rfb_pixfmt_from_fourcc(&client->pixfmt, fb->fourcc_format); client->has_pixfmt = true; } if (fb->width != client->known_width || fb->height != client->known_height) { send_desktop_resize(client, fb); if (--client->n_pending_requests <= 0) return; } if (server->key_code_fn && !client->is_qemu_key_ext_notified && client_has_encoding(client, RFB_ENCODING_QEMU_EXT_KEY_EVENT)) { send_qemu_key_ext_frame(client); client->is_qemu_key_ext_notified = true; if (--client->n_pending_requests <= 0) return; } if (server->cursor_seq != client->cursor_seq && client_has_encoding(client, RFB_ENCODING_CURSOR)) { send_cursor_update(client); if (--client->n_pending_requests <= 0) return; } if (!pixman_region_not_empty(&client->damage)) return; DTRACE_PROBE1(neatvnc, update_fb_start, client); enum rfb_encodings encoding = choose_frame_encoding(client, fb); if (!client->encoder || encoding != encoder_get_type(client->encoder)) { int width = server->display->buffer->width; int height = server->display->buffer->height; if (client->encoder) { server->n_damage_clients -= !(client->encoder->impl->flags & ENCODER_IMPL_FLAG_IGNORES_DAMAGE); client->encoder->on_done = NULL; } encoder_unref(client->encoder); client->encoder = encoder_new(encoding, width, height); if (!client->encoder) { nvnc_log(NVNC_LOG_ERROR, "Failed to allocate new encoder"); return; } server->n_damage_clients += !(client->encoder->impl->flags & ENCODER_IMPL_FLAG_IGNORES_DAMAGE); nvnc_log(NVNC_LOG_INFO, "Choosing %s encoding for client %p", encoding_to_string(encoding), client); } /* The client's damage is exchanged for an empty one */ struct pixman_region16 damage = client->damage; pixman_region_init(&client->damage); client->is_updating = true; client->current_fb = fb; nvnc_fb_hold(fb); nvnc_fb_ref(fb); client_ref(client); encoder_set_quality(client->encoder, client->quality); encoder_set_output_format(client->encoder, &client->pixfmt); client->encoder->on_done = on_encode_frame_done; client->encoder->userdata = client; DTRACE_PROBE2(neatvnc, process_fb_update_requests__encode, client, fb->pts); if (encoder_encode(client->encoder, fb, &damage) >= 0) { --client->n_pending_requests; } else { nvnc_log(NVNC_LOG_ERROR, "Failed to encode current frame"); client_unref(client); client->is_updating = false; assert(client->current_fb); nvnc_fb_release(client->current_fb); nvnc_fb_unref(client->current_fb); client->current_fb = NULL; } pixman_region_fini(&damage); } static int on_client_fb_update_request(struct nvnc_client* client) { struct nvnc* server = client->server; struct rfb_client_fb_update_req_msg* msg = (struct rfb_client_fb_update_req_msg*)(client->msg_buffer + client->buffer_index); if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; int incremental = msg->incremental; int x = ntohs(msg->x); int y = ntohs(msg->y); int width = ntohs(msg->width); int height = ntohs(msg->height); client->n_pending_requests++; /* Note: The region sent from the client is ignored for incremental * updates. This avoids superfluous complexity. */ if (!incremental) { pixman_region_union_rect(&client->damage, &client->damage, x, y, width, height); if (client->encoder) encoder_request_key_frame(client->encoder); } DTRACE_PROBE1(neatvnc, update_fb_request, client); nvnc_fb_req_fn fn = server->fb_req_fn; if (fn) fn(client, incremental, x, y, width, height); process_fb_update_requests(client); return sizeof(*msg); } static int on_client_key_event(struct nvnc_client* client) { struct nvnc* server = client->server; struct rfb_client_key_event_msg* msg = (struct rfb_client_key_event_msg*)(client->msg_buffer + client->buffer_index); if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; int down_flag = msg->down_flag; uint32_t keysym = ntohl(msg->key); nvnc_key_fn fn = server->key_fn; if (fn) fn(client, keysym, !!down_flag); return sizeof(*msg); } static int on_client_qemu_key_event(struct nvnc_client* client) { struct nvnc* server = client->server; struct rfb_client_qemu_key_event_msg* msg = (struct rfb_client_qemu_key_event_msg*)(client->msg_buffer + client->buffer_index); if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; int down_flag = msg->down_flag; uint32_t xt_keycode = ntohl(msg->keycode); uint32_t evdev_keycode = code_map_qnum_to_linux[xt_keycode]; if (!evdev_keycode) evdev_keycode = xt_keycode; nvnc_key_fn fn = server->key_code_fn; if (fn) fn(client, evdev_keycode, !!down_flag); return sizeof(*msg); } static int on_client_qemu_event(struct nvnc_client* client) { if (client->buffer_len - client->buffer_index < 2) return 0; enum rfb_client_to_server_qemu_msg_type subtype = client->msg_buffer[client->buffer_index + 1]; switch (subtype) { case RFB_CLIENT_TO_SERVER_QEMU_KEY_EVENT: return on_client_qemu_key_event(client); } nvnc_log(NVNC_LOG_WARNING, "Got uninterpretable qemu message from client: %p (ref %d)", client, client->ref); nvnc_client_close(client); return 0; } static int on_client_pointer_event(struct nvnc_client* client) { struct nvnc* server = client->server; struct rfb_client_pointer_event_msg* msg = (struct rfb_client_pointer_event_msg*)(client->msg_buffer + client->buffer_index); if (client->buffer_len - client->buffer_index < sizeof(*msg)) return 0; int button_mask = msg->button_mask; uint16_t x = ntohs(msg->x); uint16_t y = ntohs(msg->y); nvnc_pointer_fn fn = server->pointer_fn; if (fn) fn(client, x, y, button_mask); return sizeof(*msg); } EXPORT void nvnc_send_cut_text(struct nvnc* server, const char* text, uint32_t len) { struct rfb_cut_text_msg msg; msg.type = RFB_SERVER_TO_CLIENT_SERVER_CUT_TEXT; msg.length = htonl(len); struct nvnc_client* client; LIST_FOREACH (client, &server->clients, link) { stream_write(client->net_stream, &msg, sizeof(msg), NULL, NULL); stream_write(client->net_stream, text, len, NULL, NULL); } } static int on_client_cut_text(struct nvnc_client* client) { struct rfb_cut_text_msg* msg = (struct rfb_cut_text_msg*)(client->msg_buffer + client->buffer_index); size_t left_to_process = client->buffer_len - client->buffer_index; if (left_to_process < sizeof(*msg)) return 0; uint32_t length = ntohl(msg->length); uint32_t max_length = MAX_CUT_TEXT_SIZE; /* Messages greater than this size are unsupported */ if (length > max_length) { nvnc_log(NVNC_LOG_ERROR, "Copied text length (%d) is greater than max supported length (%d)", length, max_length); nvnc_client_close(client); return 0; } size_t msg_size = sizeof(*msg) + length; if (msg_size <= left_to_process) { nvnc_cut_text_fn fn = client->server->cut_text_fn; if (fn) fn(client, msg->text, length); return msg_size; } assert(!client->cut_text.buffer); client->cut_text.buffer = malloc(length); if (!client->cut_text.buffer) { nvnc_log(NVNC_LOG_ERROR, "OOM: %m"); nvnc_client_close(client); return 0; } size_t partial_size = left_to_process - sizeof(*msg); memcpy(client->cut_text.buffer, msg->text, partial_size); client->cut_text.length = length; client->cut_text.index = partial_size; return left_to_process; } static void process_big_cut_text(struct nvnc_client* client) { assert(client->cut_text.length > client->cut_text.index); void* start = client->cut_text.buffer + client->cut_text.index; size_t space = client->cut_text.length - client->cut_text.index; space = MIN(space, MSG_BUFFER_SIZE); ssize_t n_read = stream_read(client->net_stream, start, space); if (n_read == 0) return; if (n_read < 0) { if (errno != EAGAIN) { nvnc_log(NVNC_LOG_INFO, "Client connection error: %p (ref %d)", client, client->ref); nvnc_client_close(client); } return; } client->cut_text.index += n_read; if (client->cut_text.index != client->cut_text.length) return; nvnc_cut_text_fn fn = client->server->cut_text_fn; if (fn) fn(client, client->cut_text.buffer, client->cut_text.length); free(client->cut_text.buffer); client->cut_text.buffer = NULL; } static int on_client_message(struct nvnc_client* client) { if (client->buffer_len - client->buffer_index < 1) return 0; enum rfb_client_to_server_msg_type type = client->msg_buffer[client->buffer_index]; switch (type) { case RFB_CLIENT_TO_SERVER_SET_PIXEL_FORMAT: return on_client_set_pixel_format(client); case RFB_CLIENT_TO_SERVER_SET_ENCODINGS: return on_client_set_encodings(client); case RFB_CLIENT_TO_SERVER_FRAMEBUFFER_UPDATE_REQUEST: return on_client_fb_update_request(client); case RFB_CLIENT_TO_SERVER_KEY_EVENT: return on_client_key_event(client); case RFB_CLIENT_TO_SERVER_POINTER_EVENT: return on_client_pointer_event(client); case RFB_CLIENT_TO_SERVER_CLIENT_CUT_TEXT: return on_client_cut_text(client); case RFB_CLIENT_TO_SERVER_QEMU: return on_client_qemu_event(client); } nvnc_log(NVNC_LOG_WARNING, "Got uninterpretable message from client: %p (ref %d)", client, client->ref); nvnc_client_close(client); return 0; } static int try_read_client_message(struct nvnc_client* client) { switch (client->state) { case VNC_CLIENT_STATE_ERROR: return client->buffer_len - client->buffer_index; case VNC_CLIENT_STATE_WAITING_FOR_VERSION: return on_version_message(client); case VNC_CLIENT_STATE_WAITING_FOR_SECURITY: return on_security_message(client); case VNC_CLIENT_STATE_WAITING_FOR_INIT: return on_init_message(client); #ifdef ENABLE_TLS case VNC_CLIENT_STATE_WAITING_FOR_VENCRYPT_VERSION: return on_vencrypt_version_message(client); case VNC_CLIENT_STATE_WAITING_FOR_VENCRYPT_SUBTYPE: return on_vencrypt_subtype_message(client); case VNC_CLIENT_STATE_WAITING_FOR_VENCRYPT_PLAIN_AUTH: return on_vencrypt_plain_auth_message(client); #endif case VNC_CLIENT_STATE_READY: return on_client_message(client); } nvnc_log(NVNC_LOG_PANIC, "Invalid client state"); return 0; } static void on_client_event(struct stream* stream, enum stream_event event) { struct nvnc_client* client = stream->userdata; assert(client->net_stream && client->net_stream == stream); if (event == STREAM_EVENT_REMOTE_CLOSED) { nvnc_log(NVNC_LOG_INFO, "Client %p (%d) hung up", client, client->ref); nvnc_client_close(client); return; } if (client->cut_text.buffer) { process_big_cut_text(client); return; } assert(client->buffer_index == 0); void* start = client->msg_buffer + client->buffer_len; size_t space = MSG_BUFFER_SIZE - client->buffer_len; ssize_t n_read = stream_read(stream, start, space); if (n_read == 0) return; if (n_read < 0) { if (errno != EAGAIN) { nvnc_log(NVNC_LOG_INFO, "Client connection error: %p (ref %d)", client, client->ref); nvnc_client_close(client); } return; } client->buffer_len += n_read; while (1) { int rc = try_read_client_message(client); if (rc == 0) break; client->buffer_index += rc; } assert(client->buffer_index <= client->buffer_len); client->buffer_len -= client->buffer_index; memmove(client->msg_buffer, client->msg_buffer + client->buffer_index, client->buffer_len); client->buffer_index = 0; } static void record_peer_hostname(int fd, struct nvnc_client* client) { struct sockaddr_storage storage; struct sockaddr* peer = (struct sockaddr*)&storage; socklen_t peerlen = sizeof(storage); if (getpeername(fd, peer, &peerlen) == 0) { if (peer->sa_family == AF_UNIX) { snprintf(client->hostname, sizeof(client->hostname), "unix domain socket"); } else { getnameinfo(peer, peerlen, client->hostname, sizeof(client->hostname), NULL, 0, // no need for port 0); } } } static void on_connection(void* obj) { struct nvnc* server = aml_get_userdata(obj); struct nvnc_client* client = calloc(1, sizeof(*client)); if (!client) return; client->ref = 1; client->server = server; client->quality = 10; /* default to lossless */ int fd = accept(server->fd, NULL, 0); if (fd < 0) { nvnc_log(NVNC_LOG_WARNING, "Failed to accept a connection"); goto accept_failure; } int one = 1; setsockopt(fd, IPPROTO_TCP, TCP_NODELAY, &one, sizeof(one)); record_peer_hostname(fd, client); client->net_stream = stream_new(fd, on_client_event, client); if (!client->net_stream) { nvnc_log(NVNC_LOG_WARNING, "OOM"); goto stream_failure; } if (!server->display->buffer) { nvnc_log(NVNC_LOG_WARNING, "No display buffer has been set"); goto buffer_failure; } pixman_region_init(&client->damage); struct rcbuf* payload = rcbuf_from_string(RFB_VERSION_MESSAGE); if (!payload) { nvnc_log(NVNC_LOG_WARNING, "OOM"); goto payload_failure; } stream_send(client->net_stream, payload, NULL, NULL); LIST_INSERT_HEAD(&server->clients, client, link); client->state = VNC_CLIENT_STATE_WAITING_FOR_VERSION; nvnc_log(NVNC_LOG_INFO, "New client connection from %s: %p (ref %d)", client->hostname, client, client->ref); return; payload_failure: pixman_region_fini(&client->damage); buffer_failure: stream_destroy(client->net_stream); stream_failure: close(fd); accept_failure: free(client); } static void sockaddr_to_string(char* dst, size_t sz, const struct sockaddr* addr) { struct sockaddr_in *sa_in = (struct sockaddr_in*)addr; struct sockaddr_in6 *sa_in6 = (struct sockaddr_in6*)addr; switch (addr->sa_family) { case AF_INET: inet_ntop(addr->sa_family, &sa_in->sin_addr, dst, sz); break; case AF_INET6: inet_ntop(addr->sa_family, &sa_in6->sin6_addr, dst, sz); break; } } static int bind_address_tcp(const char* name, int port) { struct addrinfo hints = { .ai_socktype = SOCK_STREAM, .ai_flags = AI_PASSIVE, }; struct addrinfo* result; char service[256]; snprintf(service, sizeof(service), "%d", port); int rc = getaddrinfo(name, service, &hints, &result); if (rc != 0) { nvnc_log(NVNC_LOG_ERROR, "Failed to get address info: %s", gai_strerror(rc)); return -1; } int fd = -1; for (struct addrinfo* p = result; p != NULL; p = p->ai_next) { char ai_str[256] = { 0 }; sockaddr_to_string(ai_str, sizeof(ai_str), p->ai_addr); nvnc_log(NVNC_LOG_DEBUG, "Trying address: %s", ai_str); fd = socket(p->ai_family, p->ai_socktype, p->ai_protocol); if (fd < 0) { nvnc_log(NVNC_LOG_DEBUG, "Failed to create socket: %m"); continue; } int one = 1; if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &one, sizeof(int)) < 0) { nvnc_log(NVNC_LOG_DEBUG, "Failed to set socket options: %m"); goto failure; } if (bind(fd, p->ai_addr, p->ai_addrlen) == 0) { nvnc_log(NVNC_LOG_DEBUG, "Successfully bound to address"); break; } nvnc_log(NVNC_LOG_DEBUG, "Failed to bind to address: %m"); failure: close(fd); fd = -1; } freeaddrinfo(result); return fd; } static int bind_address_unix(const char* name) { struct sockaddr_un addr = { .sun_family = AF_UNIX, }; if (strlen(name) >= sizeof(addr.sun_path)) { errno = ENAMETOOLONG; return -1; } strcpy(addr.sun_path, name); int fd = socket(AF_UNIX, SOCK_STREAM, 0); if (fd < 0) return -1; if (bind(fd, (struct sockaddr*)&addr, sizeof(addr)) != 0) { close(fd); return -1; } return fd; } static int bind_address(const char* name, uint16_t port, enum addrtype type) { switch (type) { case ADDRTYPE_TCP: return bind_address_tcp(name, port); case ADDRTYPE_UNIX: return bind_address_unix(name); } nvnc_log(NVNC_LOG_PANIC, "Unknown socket address type"); return -1; } static struct nvnc* open_common(const char* address, uint16_t port, enum addrtype type) { nvnc__log_init(); aml_require_workers(aml_get_default(), -1); struct nvnc* self = calloc(1, sizeof(*self)); if (!self) return NULL; strcpy(self->name, DEFAULT_NAME); LIST_INIT(&self->clients); self->fd = bind_address(address, port, type); if (self->fd < 0) goto bind_failure; if (listen(self->fd, 16) < 0) goto listen_failure; self->poll_handle = aml_handler_new(self->fd, on_connection, self, NULL); if (!self->poll_handle) goto handle_failure; if (aml_start(aml_get_default(), self->poll_handle) < 0) goto poll_start_failure; return self; poll_start_failure: aml_unref(self->poll_handle); handle_failure: listen_failure: close(self->fd); if (type == ADDRTYPE_UNIX) { unlink(address); } bind_failure: free(self); return NULL; } EXPORT struct nvnc* nvnc_open(const char* address, uint16_t port) { return open_common(address, port, ADDRTYPE_TCP); } EXPORT struct nvnc* nvnc_open_unix(const char* address) { return open_common(address, 0, ADDRTYPE_UNIX); } static void unlink_fd_path(int fd) { struct sockaddr_un addr; socklen_t addr_len = sizeof(addr); if (getsockname(fd, (struct sockaddr*)&addr, &addr_len) == 0) { if (addr.sun_family == AF_UNIX) { unlink(addr.sun_path); } } } EXPORT void nvnc_close(struct nvnc* self) { struct nvnc_client* client; nvnc_cleanup_fn cleanup = self->common.cleanup_fn; if (cleanup) cleanup(self->common.userdata); if (self->display) nvnc_display_unref(self->display); if (self->cursor.buffer) nvnc_fb_unref(self->cursor.buffer); struct nvnc_client* tmp; LIST_FOREACH_SAFE (client, &self->clients, link, tmp) client_unref(client); aml_stop(aml_get_default(), self->poll_handle); unlink_fd_path(self->fd); close(self->fd); #ifdef ENABLE_TLS if (self->tls_creds) { gnutls_certificate_free_credentials(self->tls_creds); gnutls_global_deinit(); } #endif aml_unref(self->poll_handle); free(self); } static void complete_fb_update(struct nvnc_client* client) { client->is_updating = false; assert(client->current_fb); nvnc_fb_release(client->current_fb); nvnc_fb_unref(client->current_fb); client->current_fb = NULL; process_fb_update_requests(client); client_unref(client); DTRACE_PROBE2(neatvnc, update_fb_done, client, pts); } static void on_write_frame_done(void* userdata, enum stream_req_status status) { struct nvnc_client* client = userdata; complete_fb_update(client); } static enum rfb_encodings choose_frame_encoding(struct nvnc_client* client, struct nvnc_fb* fb) { for (size_t i = 0; i < client->n_encodings; ++i) switch (client->encodings[i]) { case RFB_ENCODING_RAW: case RFB_ENCODING_TIGHT: case RFB_ENCODING_ZRLE: return client->encodings[i]; #ifdef ENABLE_OPEN_H264 case RFB_ENCODING_OPEN_H264: // h264 is useless for sw frames if (fb->type != NVNC_FB_GBM_BO) break; return client->encodings[i]; #endif default: break; } return RFB_ENCODING_RAW; } static bool client_has_encoding(const struct nvnc_client* client, enum rfb_encodings encoding) { for (size_t i = 0; i < client->n_encodings; ++i) if (client->encodings[i] == encoding) return true; return false; } static void finish_fb_update(struct nvnc_client* client, struct rcbuf* payload, int n_rects, uint64_t pts) { client_ref(client); if (client->net_stream->state == STREAM_STATE_CLOSED) goto complete; DTRACE_PROBE2(neatvnc, send_fb_start, client, pts); n_rects += will_send_pts(client, pts) ? 1 : 0; struct rfb_server_fb_update_msg update_msg = { .type = RFB_SERVER_TO_CLIENT_FRAMEBUFFER_UPDATE, .n_rects = htons(n_rects), }; if (stream_write(client->net_stream, &update_msg, sizeof(update_msg), NULL, NULL) < 0) goto complete; if (send_pts_rect(client, pts) < 0) goto complete; rcbuf_ref(payload); if (stream_send(client->net_stream, payload, on_write_frame_done, client) < 0) goto complete; DTRACE_PROBE2(neatvnc, send_fb_done, client, pts); return; complete: complete_fb_update(client); } static void on_encode_frame_done(struct encoder* encoder, struct rcbuf* result, uint64_t pts) { struct nvnc_client* client = encoder->userdata; client->encoder->on_done = NULL; client->encoder->userdata = NULL; finish_fb_update(client, result, encoder->n_rects, pts); client_unref(client); } static int send_desktop_resize(struct nvnc_client* client, struct nvnc_fb* fb) { if (!client_has_encoding(client, RFB_ENCODING_DESKTOPSIZE)) { nvnc_log(NVNC_LOG_ERROR, "Client does not support desktop resizing. Closing connection..."); nvnc_client_close(client); return -1; } client->known_width = fb->width; client->known_height = fb->height; if (client->encoder) encoder_resize(client->encoder, fb->width, fb->height); pixman_region_union_rect(&client->damage, &client->damage, 0, 0, fb->width, fb->height); struct rfb_server_fb_update_msg head = { .type = RFB_SERVER_TO_CLIENT_FRAMEBUFFER_UPDATE, .n_rects = htons(1), }; struct rfb_server_fb_rect rect = { .encoding = htonl(RFB_ENCODING_DESKTOPSIZE), .width = htons(fb->width), .height = htons(fb->height), }; stream_write(client->net_stream, &head, sizeof(head), NULL, NULL); stream_write(client->net_stream, &rect, sizeof(rect), NULL, NULL); return 0; } static int send_qemu_key_ext_frame(struct nvnc_client* client) { struct rfb_server_fb_update_msg head = { .type = RFB_SERVER_TO_CLIENT_FRAMEBUFFER_UPDATE, .n_rects = htons(1), }; struct rfb_server_fb_rect rect = { .encoding = htonl(RFB_ENCODING_QEMU_EXT_KEY_EVENT), }; stream_write(client->net_stream, &head, sizeof(head), NULL, NULL); stream_write(client->net_stream, &rect, sizeof(rect), NULL, NULL); return 0; } void nvnc__damage_region(struct nvnc* self, const struct pixman_region16* damage) { struct nvnc_client* client; LIST_FOREACH(client, &self->clients, link) if (client->net_stream->state != STREAM_STATE_CLOSED) pixman_region_union(&client->damage, &client->damage, (struct pixman_region16*)damage); LIST_FOREACH(client, &self->clients, link) process_fb_update_requests(client); } EXPORT void nvnc_set_userdata(void* self, void* userdata, nvnc_cleanup_fn cleanup_fn) { struct nvnc_common* common = self; common->userdata = userdata; common->cleanup_fn = cleanup_fn; } EXPORT void* nvnc_get_userdata(const void* self) { const struct nvnc_common* common = self; return common->userdata; } EXPORT void nvnc_set_key_fn(struct nvnc* self, nvnc_key_fn fn) { self->key_fn = fn; } EXPORT void nvnc_set_key_code_fn(struct nvnc* self, nvnc_key_fn fn) { self->key_code_fn = fn; } EXPORT void nvnc_set_pointer_fn(struct nvnc* self, nvnc_pointer_fn fn) { self->pointer_fn = fn; } EXPORT void nvnc_set_fb_req_fn(struct nvnc* self, nvnc_fb_req_fn fn) { self->fb_req_fn = fn; } EXPORT void nvnc_set_new_client_fn(struct nvnc* self, nvnc_client_fn fn) { self->new_client_fn = fn; } EXPORT void nvnc_set_client_cleanup_fn(struct nvnc_client* self, nvnc_client_fn fn) { self->cleanup_fn = fn; } EXPORT void nvnc_set_cut_text_fn(struct nvnc* self, nvnc_cut_text_fn fn) { self->cut_text_fn = fn; } EXPORT void nvnc_add_display(struct nvnc* self, struct nvnc_display* display) { if (self->display) { nvnc_log(NVNC_LOG_PANIC, "Multiple displays are not implemented. Aborting!"); } display->server = self; self->display = display; nvnc_display_ref(display); } EXPORT void nvnc_remove_display(struct nvnc* self, struct nvnc_display* display) { if (self->display != display) return; nvnc_display_unref(display); self->display = NULL; } EXPORT struct nvnc* nvnc_client_get_server(const struct nvnc_client* client) { return client->server; } EXPORT const char* nvnc_client_get_hostname(const struct nvnc_client* client) { if (client->hostname[0] == '\0') return NULL; return client->hostname; } EXPORT const char* nvnc_client_get_auth_username(const struct nvnc_client* client) { if (client->username[0] == '\0') return NULL; return client->username; } EXPORT struct nvnc_client* nvnc_client_first(struct nvnc* self) { return LIST_FIRST(&self->clients); } EXPORT struct nvnc_client* nvnc_client_next(struct nvnc_client* client) { assert(client); return LIST_NEXT(client, link); } EXPORT void nvnc_client_close(struct nvnc_client* client) { stream_close(client->net_stream); client_unref(client); } EXPORT bool nvnc_client_supports_cursor(const struct nvnc_client* client) { for (size_t i = 0; i < client->n_encodings; ++i) { if (client->encodings[i] == RFB_ENCODING_CURSOR) return true; } return false; } EXPORT void nvnc_set_name(struct nvnc* self, const char* name) { strncpy(self->name, name, sizeof(self->name)); self->name[sizeof(self->name) - 1] = '\0'; } EXPORT bool nvnc_has_auth(void) { #ifdef ENABLE_TLS return true; #else return false; #endif } EXPORT int nvnc_enable_auth(struct nvnc* self, const char* privkey_path, const char* cert_path, nvnc_auth_fn auth_fn, void* userdata) { #ifdef ENABLE_TLS if (self->tls_creds) return -1; /* Note: This is globally reference counted, so we don't need to worry * about messing with other libraries. */ int rc = gnutls_global_init(); if (rc != GNUTLS_E_SUCCESS) { nvnc_log(NVNC_LOG_ERROR, "GnuTLS: Failed to initialise: %s", gnutls_strerror(rc)); return -1; } rc = gnutls_certificate_allocate_credentials(&self->tls_creds); if (rc != GNUTLS_E_SUCCESS) { nvnc_log(NVNC_LOG_ERROR, "GnuTLS: Failed to allocate credentials: %s", gnutls_strerror(rc)); goto cert_alloc_failure; } rc = gnutls_certificate_set_x509_key_file( self->tls_creds, cert_path, privkey_path, GNUTLS_X509_FMT_PEM); if (rc != GNUTLS_E_SUCCESS) { nvnc_log(NVNC_LOG_ERROR, "GnuTLS: Failed to load credentials: %s", gnutls_strerror(rc)); goto cert_set_failure; } self->auth_fn = auth_fn; self->auth_ud = userdata; return 0; cert_set_failure: gnutls_certificate_free_credentials(self->tls_creds); self->tls_creds = NULL; cert_alloc_failure: gnutls_global_deinit(); #endif return -1; } EXPORT void nvnc_set_cursor(struct nvnc* self, struct nvnc_fb* fb, uint16_t width, uint16_t height, uint16_t hotspot_x, uint16_t hotspot_y, bool is_damaged) { if (self->cursor.buffer) { nvnc_fb_release(self->cursor.buffer); nvnc_fb_unref(self->cursor.buffer); } self->cursor.buffer = fb; if (fb) { // TODO: Hash cursors to check if they actually changed? nvnc_fb_ref(fb); nvnc_fb_hold(fb); self->cursor.width = width; self->cursor.height = height; self->cursor.hotspot_x = hotspot_x; self->cursor.hotspot_y = hotspot_y; } else { self->cursor.width = width; self->cursor.height = height; self->cursor.hotspot_x = 0; self->cursor.hotspot_y = 0; } if (!is_damaged) return; self->cursor_seq++; struct nvnc_client* client; LIST_FOREACH(client, &self->clients, link) process_fb_update_requests(client); }