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6e5ea8d802
spice-protocol/spice.proto
Marc-André Lureau 6e5ea8d802 spice.proto: add webdav channel 
This channel provides a webdav server (rfc4918). This allows various
guest or remote system that support webdav to access a folder shared by
the client (some agent can be used to proxy the requests on a local port
for example). The webdav server may also be accessed by an hypervisor as
a remote filesystem interface, which can then be accessed by the guest
via other means (fs/fat emulation, mtp device, etc)

Due to the usage of a single channel stream and the need for concurrent
requests, webdav clients streams are multiplexed. Each client stream is
framed within 64k max messages (in little-endian)

 int64    client_id
 uint16   size
 char     data[size]

A new client_id indicates a new connection. A new communication stream
with the webdav server should be started. A client stream message of
size 0 indicates a disconnection of client_id. This multiplexed
communication happens over the channel "data" message.

Only when the port is opened may the communication be started.
A closed port event should close all currently known multiplexed
connections.

Why WebDAV?

webdav is supported natively by various OS for a long time (circa
Windows XP). It has several open-source implementations and a variety of
tools exist. A webdav implementation can be tested and used without a
Spice server or any virtualization (this also permit sharing the
implementation with other projects in the future, such as GNOME). It is
an IETF open standard and thus thoroughly specified.

The basic requirements for an efficient remote filesystem are provided
by the standard (pipelining, concurrency, caching, copy/move, partial
io, compression, locking ...) While other features are easily possible
via extensions to the protocol (common ones are executable attributes,
or searching for example).

Given the requirements, and the popularity of http/webdav, I believe it
is the best candidate for Spice remote filesystem support.

Other alternatives (adhoc, p9, smb2, sftp) have been studied and
discarded so far since they do not match in term of features or
requirements.
2014-03-19 14:47:04 +01:00

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/* built in types:
int8, uint8, 16, 32, 64
*/
typedef fixed28_4 int32 @ctype(SPICE_FIXED28_4);
struct Point {
int32 x;
int32 y;
};
struct Point16 {
int16 x;
int16 y;
};
struct PointFix {
fixed28_4 x;
fixed28_4 y;
};
struct Rect {
int32 top;
int32 left;
int32 bottom;
int32 right;
};
struct Transform {
uint32 t00;
uint32 t01;
uint32 t02;
uint32 t10;
uint32 t11;
uint32 t12;
};
enum32 link_err {
OK,
ERROR,
INVALID_MAGIC,
INVALID_DATA,
VERSION_MISMATCH,
NEED_SECURED,
NEED_UNSECURED,
PERMISSION_DENIED,
BAD_CONNECTION_ID,
CHANNEL_NOT_AVAILABLE
};
enum32 warn_code {
WARN_GENERAL
} @prefix(SPICE_);
enum32 info_code {
INFO_GENERAL
} @prefix(SPICE_);
flags32 migrate_flags {
NEED_FLUSH,
NEED_DATA_TRANSFER
} @prefix(SPICE_MIGRATE_);
flags32 composite_flags {
OP0, OP1, OP2, OP3, OP4, OP5, OP6, OP7,
SRC_FILTER0, SRC_FILTER1, SRC_FILTER2,
MASK_FILTER0, MASK_FITLER1, MASK_FILTER2,
SRC_REPEAT0, SRC_REPEAT1,
MASK_REPEAT0, MASK_REPEAT1,
COMPONENT_ALPHA,
HAS_MASK,
HAS_SRC_TRANSFORM,
HAS_MASK_TRANSFORM,
/* These are used to override the formats given in the images. For
* example, if the mask image has format a8r8g8b8, but MASK_OPAQUE
* is set, the image should be treated as if it were x8r8g8b8
*/
SOURCE_OPAQUE,
MASK_OPAQUE,
DEST_OPAQUE,
} @prefix(SPICE_COMPOSITE_);
enum32 notify_severity {
INFO,
WARN,
ERROR,
};
enum32 notify_visibility {
LOW,
MEDIUM,
HIGH,
};
flags16 mouse_mode {
SERVER,
CLIENT,
};
enum16 pubkey_type {
INVALID,
RSA,
RSA2,
DSA,
DSA1,
DSA2,
DSA3,
DSA4,
DH,
EC,
};
message Empty {
};
message Data {
uint8 data[] @end @ctype(uint8_t);
} @nocopy;
struct ChannelWait {
uint8 channel_type;
uint8 channel_id;
uint64 message_serial;
} @ctype(SpiceWaitForChannel);
channel BaseChannel {
server:
message {
migrate_flags flags;
} migrate;
Data migrate_data;
message {
uint32 generation;
uint32 window;
} set_ack;
message {
uint32 id;
uint64 timestamp;
uint8 data[] @ctype(uint8_t) @as_ptr(data_len);
} ping;
message {
uint8 wait_count;
ChannelWait wait_list[wait_count] @end;
} wait_for_channels;
message {
uint64 time_stamp;
link_err reason;
} @ctype(SpiceMsgDisconnect) disconnecting;
message {
uint64 time_stamp;
notify_severity severity;
notify_visibility visibilty;
uint32 what; /* error_code/warn_code/info_code */
uint32 message_len;
uint8 message[message_len] @end @nomarshal;
} notify;
Data list; /* the msg body is SpiceSubMessageList */
Empty base_last = 100;
client:
message {
uint32 generation;
} ack_sync;
Empty ack;
message {
uint32 id;
uint64 timestamp;
} @ctype(SpiceMsgPing) pong;
Empty migrate_flush_mark;
Data migrate_data;
message {
uint64 time_stamp;
link_err reason;
} @ctype(SpiceMsgDisconnect) disconnecting;
};
struct ChannelId {
uint8 type;
uint8 id;
};
struct DstInfo {
uint16 port;
uint16 sport;
uint32 host_size;
uint8 *host_data[host_size] @zero_terminated @marshall @nonnull;
uint32 cert_subject_size;
uint8 *cert_subject_data[cert_subject_size] @zero_terminated @marshall;
} @ctype(SpiceMigrationDstInfo);
channel MainChannel : BaseChannel {
server:
message {
DstInfo dst_info;
} @ctype(SpiceMsgMainMigrationBegin) migrate_begin = 101;
Empty migrate_cancel;
message {
uint32 session_id;
uint32 display_channels_hint;
uint32 supported_mouse_modes;
uint32 current_mouse_mode;
uint32 agent_connected;
uint32 agent_tokens;
uint32 multi_media_time;
uint32 ram_hint;
} init;
message {
uint32 num_of_channels;
ChannelId channels[num_of_channels] @end;
} @ctype(SpiceMsgChannels) channels_list;
message {
mouse_mode supported_modes;
mouse_mode current_mode @unique_flag;
} mouse_mode;
message {
uint32 time;
} @ctype(SpiceMsgMainMultiMediaTime) multi_media_time;
Empty agent_connected;
message {
link_err error_code;
} @ctype(SpiceMsgMainAgentDisconnect) agent_disconnected;
Data agent_data;
message {
uint32 num_tokens;
} @ctype(SpiceMsgMainAgentTokens) agent_token;
message {
uint16 port;
uint16 sport;
uint32 host_size;
uint8 *host_data[host_size] @zero_terminated @marshall;
uint32 cert_subject_size;
uint8 *cert_subject_data[cert_subject_size] @zero_terminated @marshall;
} @ctype(SpiceMsgMainMigrationSwitchHost) migrate_switch_host;
Empty migrate_end;
message {
uint32 name_len;
uint8 name[name_len] @end;
} name;
message {
uint8 uuid[16];
} uuid;
message {
uint32 num_tokens;
} agent_connected_tokens;
message {
DstInfo dst_info;
uint32 src_mig_version;
} migrate_begin_seamless;
Empty migrate_dst_seamless_ack;
Empty migrate_dst_seamless_nack;
client:
message {
uint64 cache_size;
} @ctype(SpiceMsgcClientInfo) client_info = 101;
Empty migrate_connected;
Empty migrate_connect_error;
Empty attach_channels;
message {
mouse_mode mode;
} mouse_mode_request;
message {
uint32 num_tokens;
} agent_start;
Data agent_data;
message {
uint32 num_tokens;
} @ctype(SpiceMsgcMainAgentTokens) agent_token;
Empty migrate_end;
message {
uint32 src_version;
} migrate_dst_do_seamless;
Empty migrate_connected_seamless;
};
enum8 clip_type {
NONE,
RECTS
};
flags8 path_flags { /* TODO: C enum names changes */
BEGIN = 0,
END = 1,
CLOSE = 3,
BEZIER = 4,
} @prefix(SPICE_PATH_);
enum8 video_codec_type {
MJPEG = 1,
};
flags8 stream_flags {
TOP_DOWN = 0,
};
enum8 brush_type {
NONE,
SOLID,
PATTERN,
};
flags8 mask_flags {
INVERS,
};
enum8 image_type {
BITMAP,
QUIC,
RESERVED,
LZ_PLT = 100,
LZ_RGB,
GLZ_RGB,
FROM_CACHE,
SURFACE,
JPEG,
FROM_CACHE_LOSSLESS,
ZLIB_GLZ_RGB,
JPEG_ALPHA,
};
flags8 image_flags {
CACHE_ME,
HIGH_BITS_SET,
CACHE_REPLACE_ME,
};
enum8 bitmap_fmt {
INVALID,
1BIT_LE,
1BIT_BE,
4BIT_LE,
4BIT_BE,
8BIT /* 8bit indexed mode */,
16BIT, /* 0555 mode */
24BIT /* 3 byte, brg */,
32BIT /* 4 byte, xrgb in little endian format */,
RGBA /* 4 byte, argb in little endian format */,
8BIT_A /* 1 byte, alpha */
};
flags8 bitmap_flags {
PAL_CACHE_ME,
PAL_FROM_CACHE,
TOP_DOWN,
};
flags8 jpeg_alpha_flags {
TOP_DOWN,
};
enum8 image_scale_mode {
INTERPOLATE,
NEAREST,
};
flags16 ropd {
INVERS_SRC,
INVERS_BRUSH,
INVERS_DEST,
OP_PUT,
OP_OR,
OP_AND,
OP_XOR,
OP_BLACKNESS,
OP_WHITENESS,
OP_INVERS,
INVERS_RES,
};
/* This *must* remain with values identical to api/winddi.h
LA_STYLED == 0x8 (log_2)=> 3
LA_STARTGAP == 0x4 (log_2)=> 2
This is used by the windows driver.
*/
flags8 line_flags {
STYLED = 3,
START_WITH_GAP = 2,
};
flags8 string_flags {
RASTER_A1,
RASTER_A4,
RASTER_A8,
RASTER_TOP_DOWN,
};
flags32 surface_flags {
/* Adding flags requires some caps check, since old clients only
treat the value as an enum and not as a flag (flag == PRIMARY) */
PRIMARY
};
enum32 surface_fmt {
INVALID,
1_A = 1,
8_A = 8,
16_555 = 16 ,
16_565 = 80,
32_xRGB = 32,
32_ARGB = 96
};
flags8 alpha_flags {
DEST_HAS_ALPHA,
SRC_SURFACE_HAS_ALPHA
};
enum8 resource_type {
INVALID,
PIXMAP
} @prefix(SPICE_RES_TYPE_);
struct ClipRects {
uint32 num_rects;
Rect rects[num_rects] @end;
};
struct PathSegment {
path_flags flags;
uint32 count;
PointFix points[count] @end;
} @ctype(SpicePathSeg);
struct Path {
uint32 num_segments;
PathSegment segments[num_segments] @ptr_array;
};
struct Clip {
clip_type type;
switch (type) {
case RECTS:
ClipRects rects @outvar(cliprects) @to_ptr;
} u @anon;
};
struct DisplayBase {
uint32 surface_id;
Rect box;
Clip clip;
} @ctype(SpiceMsgDisplayBase);
struct ResourceID {
uint8 type;
uint64 id;
};
struct WaitForChannel {
uint8 channel_type;
uint8 channel_id;
uint64 message_serial;
};
struct Palette {
uint64 unique;
uint16 num_ents;
uint32 ents[num_ents] @end;
};
struct BitmapData {
bitmap_fmt format;
bitmap_flags flags;
uint32 x;
uint32 y;
uint32 stride;
switch (flags) {
case PAL_FROM_CACHE:
uint64 palette_id;
default:
Palette *palette @outvar(bitmap);
} pal @anon;
uint8 data[image_size(8, stride, y)] @chunk @nomarshal;
} @ctype(SpiceBitmap);
struct BinaryData {
uint32 data_size;
uint8 data[data_size] @nomarshal @chunk;
} @ctype(SpiceQUICData);
struct LZPLTData {
bitmap_flags flags;
uint32 data_size;
switch (flags) {
case PAL_FROM_CACHE:
uint64 palette_id;
default:
Palette *palette @nonnull @outvar(lzplt);
} pal @anon;
uint8 data[data_size] @nomarshal @chunk;
};
struct ZlibGlzRGBData {
uint32 glz_data_size;
uint32 data_size;
uint8 data[data_size] @nomarshal @chunk;
} @ctype(SpiceZlibGlzRGBData);
struct JPEGAlphaData {
jpeg_alpha_flags flags;
uint32 jpeg_size;
uint32 data_size;
uint8 data[data_size] @nomarshal @chunk;
} @ctype(SpiceJPEGAlphaData);
struct Surface {
uint32 surface_id;
};
struct Image {
struct ImageDescriptor {
uint64 id;
image_type type;
image_flags flags;
uint32 width;
uint32 height;
} descriptor;
switch (descriptor.type) {
case BITMAP:
BitmapData bitmap;
case QUIC:
BinaryData quic;
case LZ_RGB:
case GLZ_RGB:
BinaryData lz_rgb;
case JPEG:
BinaryData jpeg;
case LZ_PLT:
LZPLTData lz_plt;
case ZLIB_GLZ_RGB:
ZlibGlzRGBData zlib_glz;
case JPEG_ALPHA:
JPEGAlphaData jpeg_alpha;
case SURFACE:
Surface surface;
} u;
};
struct Pattern {
Image *pat @nonnull;
Point pos;
};
struct Brush {
brush_type type;
switch (type) {
case SOLID:
uint32 color;
case PATTERN:
Pattern pattern;
} u;
};
struct QMask {
mask_flags flags;
Point pos;
Image *bitmap;
};
struct LineAttr {
line_flags flags;
switch (flags) {
case STYLED:
uint8 style_nseg;
} u1 @anon;
switch (flags) {
case STYLED:
fixed28_4 *style[style_nseg];
} u2 @anon;
};
struct RasterGlyphA1 {
Point render_pos;
Point glyph_origin;
uint16 width;
uint16 height;
uint8 data[image_size(1, width, height)] @end;
} @ctype(SpiceRasterGlyph);
struct RasterGlyphA4 {
Point render_pos;
Point glyph_origin;
uint16 width;
uint16 height;
uint8 data[image_size(4, width, height)] @end;
} @ctype(SpiceRasterGlyph);
struct RasterGlyphA8 {
Point render_pos;
Point glyph_origin;
uint16 width;
uint16 height;
uint8 data[image_size(8, width, height)] @end;
} @ctype(SpiceRasterGlyph);
struct String {
uint16 length;
string_flags flags; /* Special: Only one of a1/a4/a8 set */
switch (flags) {
case RASTER_A1:
RasterGlyphA1 glyphs[length] @ctype(SpiceRasterGlyph) @ptr_array;
case RASTER_A4:
RasterGlyphA4 glyphs[length] @ctype(SpiceRasterGlyph) @ptr_array;
case RASTER_A8:
RasterGlyphA8 glyphs[length] @ctype(SpiceRasterGlyph) @ptr_array;
} u @anon;
};
struct StreamDataHeader {
uint32 id;
uint32 multi_media_time;
};
struct Head {
uint32 id;
uint32 surface_id;
uint32 width;
uint32 height;
uint32 x;
uint32 y;
uint32 flags;
};
channel DisplayChannel : BaseChannel {
server:
message {
uint32 x_res;
uint32 y_res;
uint32 bits;
} mode = 101;
Empty mark;
Empty reset;
message {
DisplayBase base;
Point src_pos;
} copy_bits;
message {
uint16 count;
ResourceID resources[count] @end;
} @ctype(SpiceResourceList) inval_list;
message {
uint8 wait_count;
WaitForChannel wait_list[wait_count] @end;
} @ctype(SpiceMsgWaitForChannels) inval_all_pixmaps;
message {
uint64 id;
} @ctype(SpiceMsgDisplayInvalOne) inval_palette;
Empty inval_all_palettes;
message {
uint32 surface_id;
uint32 id;
stream_flags flags;
video_codec_type codec_type;
uint64 stamp;
uint32 stream_width;
uint32 stream_height;
uint32 src_width;
uint32 src_height;
Rect dest;
Clip clip;
} stream_create = 122;
message {
StreamDataHeader base;
uint32 data_size;
uint8 data[data_size] @end @nomarshal;
} stream_data;
message {
uint32 id;
Clip clip;
} stream_clip;
message {
uint32 id;
} stream_destroy;
Empty stream_destroy_all;
message {
DisplayBase base;
struct Fill {
Brush brush @outvar(brush);
ropd rop_descriptor;
QMask mask @outvar(mask);
} data;
} draw_fill = 302;
message {
DisplayBase base;
struct Opaque {
Image *src_bitmap;
Rect src_area;
Brush brush;
ropd rop_descriptor;
image_scale_mode scale_mode;
QMask mask @outvar(mask);
} data;
} draw_opaque;
message {
DisplayBase base;
struct Copy {
Image *src_bitmap;
Rect src_area;
ropd rop_descriptor;
image_scale_mode scale_mode;
QMask mask @outvar(mask);
} data;
} draw_copy;
message {
DisplayBase base;
struct Blend {
Image *src_bitmap;
Rect src_area;
ropd rop_descriptor;
image_scale_mode scale_mode;
QMask mask @outvar(mask);
} @ctype(SpiceCopy) data;
} draw_blend;
message {
DisplayBase base;
struct Blackness {
QMask mask @outvar(mask);
} data;
} draw_blackness;
message {
DisplayBase base;
struct Whiteness {
QMask mask @outvar(mask);
} data;
} draw_whiteness;
message {
DisplayBase base;
struct Invers {
QMask mask @outvar(mask);
} data;
} draw_invers;
message {
DisplayBase base;
struct Rop3 {
Image *src_bitmap;
Rect src_area;
Brush brush;
uint8 rop3;
image_scale_mode scale_mode;
QMask mask @outvar(mask);
} data;
} draw_rop3;
message {
DisplayBase base;
struct Stroke {
Path *path @marshall @nonnull;
LineAttr attr;
Brush brush;
uint16 fore_mode;
uint16 back_mode;
} data;
} draw_stroke;
message {
DisplayBase base;
struct Text {
String *str @marshall @nonnull;
Rect back_area;
Brush fore_brush @outvar(fore_brush);
Brush back_brush @outvar(back_brush);
uint16 fore_mode;
uint16 back_mode;
} data;
} draw_text;
message {
DisplayBase base;
struct Transparent {
Image *src_bitmap;
Rect src_area;
uint32 src_color;
uint32 true_color;
} data;
} draw_transparent;
message {
DisplayBase base;
struct AlphaBlend {
alpha_flags alpha_flags;
uint8 alpha;
Image *src_bitmap;
Rect src_area;
} data;
} draw_alpha_blend;
message {
uint32 surface_id;
uint32 width;
uint32 height;
surface_fmt format;
surface_flags flags;
} @ctype(SpiceMsgSurfaceCreate) surface_create;
message {
uint32 surface_id;
} @ctype(SpiceMsgSurfaceDestroy) surface_destroy;
message {
StreamDataHeader base;
uint32 width;
uint32 height;
Rect dest;
uint32 data_size;
uint8 data[data_size] @end @nomarshal;
} stream_data_sized;
message {
uint16 count;
uint16 max_allowed;
Head heads[count] @end;
} monitors_config;
message {
DisplayBase base;
struct Composite {
composite_flags flags;
Image *src_bitmap;
switch (flags) {
case HAS_MASK:
Image *mask_bitmap;
} a @anon;
switch (flags) {
case HAS_SRC_TRANSFORM:
Transform src_transform;
} b @anon;
switch (flags) {
case HAS_MASK_TRANSFORM:
Transform mask_transform;
} c @anon;
Point16 src_origin;
Point16 mask_origin;
} data;
} draw_composite;
message {
uint32 stream_id;
uint32 unique_id;
uint32 max_window_size;
uint32 timeout_ms;
} stream_activate_report;
client:
message {
uint8 pixmap_cache_id;
int64 pixmap_cache_size; //in pixels
uint8 glz_dictionary_id;
int32 glz_dictionary_window_size; // in pixels
} init = 101;
message {
uint32 stream_id;
uint32 unique_id;
uint32 start_frame_mm_time;
uint32 end_frame_mm_time;
uint32 num_frames;
uint32 num_drops;
int32 last_frame_delay;
uint32 audio_delay;
} stream_report;
};
flags16 keyboard_modifier_flags {
SCROLL_LOCK,
NUM_LOCK,
CAPS_LOCK
};
enum8 mouse_button {
INVALID,
LEFT,
MIDDLE,
RIGHT,
UP,
DOWN,
};
flags16 mouse_button_mask {
LEFT,
MIDDLE,
RIGHT
};
channel InputsChannel : BaseChannel {
client:
message {
uint32 code;
} @ctype(SpiceMsgcKeyDown) key_down = 101;
message {
uint32 code;
} @ctype(SpiceMsgcKeyUp) key_up;
message {
keyboard_modifier_flags modifiers;
} @ctype(SpiceMsgcKeyModifiers) key_modifiers;
Data key_scancode;
message {
int32 dx;
int32 dy;
mouse_button_mask buttons_state;
} @ctype(SpiceMsgcMouseMotion) mouse_motion = 111;
message {
uint32 x;
uint32 y;
mouse_button_mask buttons_state;
uint8 display_id;
} @ctype(SpiceMsgcMousePosition) mouse_position;
message {
mouse_button button;
mouse_button_mask buttons_state;
} @ctype(SpiceMsgcMousePress) mouse_press;
message {
mouse_button button;
mouse_button_mask buttons_state;
} @ctype(SpiceMsgcMouseRelease) mouse_release;
server:
message {
keyboard_modifier_flags keyboard_modifiers;
} init = 101;
message {
keyboard_modifier_flags modifiers;
} key_modifiers;
Empty mouse_motion_ack = 111;
};
enum8 cursor_type {
ALPHA,
MONO,
COLOR4,
COLOR8,
COLOR16,
COLOR24,
COLOR32,
};
flags16 cursor_flags {
NONE, /* Means no cursor */
CACHE_ME,
FROM_CACHE,
};
struct CursorHeader {
uint64 unique;
cursor_type type;
uint16 width;
uint16 height;
uint16 hot_spot_x;
uint16 hot_spot_y;
};
struct Cursor {
cursor_flags flags;
switch (flags) {
case !NONE:
CursorHeader header;
} u @anon;
uint8 data[] @as_ptr(data_size);
};
channel CursorChannel : BaseChannel {
server:
message {
Point16 position;
uint16 trail_length;
uint16 trail_frequency;
uint8 visible;
Cursor cursor;
} init = 101;
Empty reset;
message {
Point16 position;
uint8 visible;
Cursor cursor;
} set;
message {
Point16 position;
} move;
Empty hide;
message {
uint16 length;
uint16 frequency;
} trail;
message {
uint64 id;
} @ctype(SpiceMsgDisplayInvalOne) inval_one;
Empty inval_all;
};
enum16 audio_data_mode {
INVALID,
RAW,
CELT_0_5_1,
OPUS,
};
enum16 audio_fmt {
INVALID,
S16,
};
message AudioVolume {
uint8 nchannels;
uint16 volume[nchannels] @end;
};
message AudioMute {
uint8 mute;
};
channel PlaybackChannel : BaseChannel {
server:
message {
uint32 time;
uint8 data[] @as_ptr(data_size);
} @ctype(SpiceMsgPlaybackPacket) data = 101;
message {
uint32 time;
audio_data_mode mode;
uint8 data[] @as_ptr(data_size);
} mode;
message {
uint32 channels;
audio_fmt format;
uint32 frequency;
uint32 time;
} start;
Empty stop;
AudioVolume volume;
AudioMute mute;
message {
uint32 latency_ms;
} latency;
};
channel RecordChannel : BaseChannel {
server:
message {
uint32 channels;
audio_fmt format;
uint32 frequency;
} start = 101;
Empty stop;
AudioVolume volume;
AudioMute mute;
client:
message {
uint32 time;
uint8 data[] @nomarshal @as_ptr(data_size);
} @ctype(SpiceMsgcRecordPacket) data = 101;
message {
uint32 time;
audio_data_mode mode;
uint8 data[] @as_ptr(data_size);
} mode;
message {
uint32 time;
} start_mark;
};
enum16 tunnel_service_type {
INVALID,
GENERIC,
IPP,
};
enum16 tunnel_ip_type {
INVALID,
IPv4,
};
struct TunnelIpInfo {
tunnel_ip_type type;
switch (type) {
case IPv4:
uint8 ipv4[4];
} u;
} @ctype(SpiceMsgTunnelIpInfo);
channel TunnelChannel : BaseChannel {
server:
message {
uint16 max_num_of_sockets;
uint32 max_socket_data_size;
} init = 101;
message {
uint32 service_id;
TunnelIpInfo virtual_ip;
} service_ip_map;
message {
uint16 connection_id;
uint32 service_id;
uint32 tokens;
} socket_open;
message {
uint16 connection_id;
} socket_fin;
message {
uint16 connection_id;
} socket_close;
message {
uint16 connection_id;
uint8 data[] @end;
} socket_data;
message {
uint16 connection_id;
} socket_closed_ack;
message {
uint16 connection_id;
uint32 num_tokens;
} @ctype(SpiceMsgTunnelSocketTokens) socket_token;
client:
message {
tunnel_service_type type;
uint32 id;
uint32 group;
uint32 port;
uint8 *name[cstring()] @nocopy;
uint8 *description[cstring()] @nocopy;
switch (type) {
case IPP:
TunnelIpInfo ip @ctype(SpiceMsgTunnelIpInfo);
} u;
} @ctype(SpiceMsgcTunnelAddGenericService) service_add = 101;
message {
uint32 id;
} @ctype(SpiceMsgcTunnelRemoveService) service_remove;
message {
uint16 connection_id;
uint32 tokens;
} socket_open_ack;
message {
uint16 connection_id;
} socket_open_nack;
message {
uint16 connection_id;
} socket_fin;
message {
uint16 connection_id;
} socket_closed;
message {
uint16 connection_id;
} socket_closed_ack;
message {
uint16 connection_id;
uint8 data[] @end;
} socket_data;
message {
uint16 connection_id;
uint32 num_tokens;
} @ctype(SpiceMsgcTunnelSocketTokens) socket_token;
};
enum32 vsc_message_type {
Init = 1,
Error,
ReaderAdd,
ReaderRemove,
ATR,
CardRemove,
APDU,
Flush,
FlushComplete
};
struct VscMessageHeader {
vsc_message_type type;
uint32 reader_id;
uint32 length;
} @ctype(VSCMsgHeader);
struct VscMessageError {
uint32 code;
} @ctype(VSCMsgError);
struct VscMessageAPDU {
uint8 data[];
} @ctype(VSCMsgAPDU);
struct VscMessageATR {
uint8 data[];
} @ctype(VSCMsgATR);
struct VscMessageReaderAdd {
int8 *reader_name[] @zero_terminated @nonnull @end @nomarshal;
} @ctype(VSCMsgReaderAdd);
channel SmartcardChannel : BaseChannel {
server:
message {
vsc_message_type type;
uint32 reader_id;
uint32 length;
uint8 data[] @end;
} @ctype(SpiceMsgSmartcard) data = 101;
client:
message {
VscMessageHeader header;
switch (header.type) {
case ReaderAdd:
VscMessageReaderAdd add;
case ATR:
case APDU:
VscMessageATR atr_data;
case Error:
VscMessageError error;
} u @anon;
} @ctype(SpiceMsgcSmartcard) data = 101;
message {
vsc_message_type type;
uint32 reader_id;
uint32 length;
} @ctype(VSCMsgHeader) header = 101;
message {
uint32 code;
} @ctype(VSCMsgError) error = 101;
message {
uint8 data[];
} @ctype(VSCMsgATR) atr = 101;
message {
int8 reader_name[] @zero_terminated @nonnull;
} @ctype(VSCMsgReaderAdd) reader_add = 101;
} @ifdef(USE_SMARTCARD);
channel SpicevmcChannel : BaseChannel {
server:
Data data = 101;
client:
Data data = 101;
};
channel UsbredirChannel : SpicevmcChannel {
};
channel PortChannel : SpicevmcChannel {
client:
message {
uint8 event;
} event = 201;
server:
message {
uint32 name_size;
uint8 *name[name_size] @zero_terminated @marshall @nonnull;
uint8 opened;
} init = 201;
message {
uint8 event;
} event;
};
channel WebDAVChannel : PortChannel {
};
protocol Spice {
MainChannel main = 1;
DisplayChannel display;
InputsChannel inputs;
CursorChannel cursor;
PlaybackChannel playback;
RecordChannel record;
TunnelChannel tunnel;
SmartcardChannel smartcard;
UsbredirChannel usbredir;
PortChannel port;
WebDAVChannel webdav;
};
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