Merge tag 'block-5.11-2021-01-10' of git://git.kernel.dk/linux-block
[linux/fpc-iii.git] / drivers / gpu / drm / vboxvideo / vboxvideo.h
bloba5de40fe1a76a30978208c5dde2b2ed6172bf5ed
1 /* SPDX-License-Identifier: MIT */
2 /* Copyright (C) 2006-2016 Oracle Corporation */
4 #ifndef __VBOXVIDEO_H__
5 #define __VBOXVIDEO_H__
7 #define VBOX_VIDEO_MAX_SCREENS 64
9 /*
10 * The last 4096 bytes of the guest VRAM contains the generic info for all
11 * DualView chunks: sizes and offsets of chunks. This is filled by miniport.
13 * Last 4096 bytes of each chunk contain chunk specific data: framebuffer info,
14 * etc. This is used exclusively by the corresponding instance of a display
15 * driver.
17 * The VRAM layout:
18 * Last 4096 bytes - Adapter information area.
19 * 4096 bytes aligned miniport heap (value specified in the config rouded up).
20 * Slack - what left after dividing the VRAM.
21 * 4096 bytes aligned framebuffers:
22 * last 4096 bytes of each framebuffer is the display information area.
24 * The Virtual Graphics Adapter information in the guest VRAM is stored by the
25 * guest video driver using structures prepended by VBOXVIDEOINFOHDR.
27 * When the guest driver writes dword 0 to the VBE_DISPI_INDEX_VBOX_VIDEO
28 * the host starts to process the info. The first element at the start of
29 * the 4096 bytes region should be normally be a LINK that points to
30 * actual information chain. That way the guest driver can have some
31 * fixed layout of the information memory block and just rewrite
32 * the link to point to relevant memory chain.
34 * The processing stops at the END element.
36 * The host can access the memory only when the port IO is processed.
37 * All data that will be needed later must be copied from these 4096 bytes.
38 * But other VRAM can be used by host until the mode is disabled.
40 * The guest driver writes dword 0xffffffff to the VBE_DISPI_INDEX_VBOX_VIDEO
41 * to disable the mode.
43 * VBE_DISPI_INDEX_VBOX_VIDEO is used to read the configuration information
44 * from the host and issue commands to the host.
46 * The guest writes the VBE_DISPI_INDEX_VBOX_VIDEO index register, the the
47 * following operations with the VBE data register can be performed:
49 * Operation Result
50 * write 16 bit value NOP
51 * read 16 bit value count of monitors
52 * write 32 bit value set the vbox cmd value and the cmd processed by the host
53 * read 32 bit value result of the last vbox command is returned
56 struct vbva_cmd_hdr {
57 s16 x;
58 s16 y;
59 u16 w;
60 u16 h;
61 } __packed;
64 * The VBVA ring buffer is suitable for transferring large (< 2GB) amount of
65 * data. For example big bitmaps which do not fit to the buffer.
67 * Guest starts writing to the buffer by initializing a record entry in the
68 * records queue. VBVA_F_RECORD_PARTIAL indicates that the record is being
69 * written. As data is written to the ring buffer, the guest increases
70 * free_offset.
72 * The host reads the records on flushes and processes all completed records.
73 * When host encounters situation when only a partial record presents and
74 * len_and_flags & ~VBVA_F_RECORD_PARTIAL >= VBVA_RING_BUFFER_SIZE -
75 * VBVA_RING_BUFFER_THRESHOLD, the host fetched all record data and updates
76 * data_offset. After that on each flush the host continues fetching the data
77 * until the record is completed.
80 #define VBVA_RING_BUFFER_SIZE (4194304 - 1024)
81 #define VBVA_RING_BUFFER_THRESHOLD (4096)
83 #define VBVA_MAX_RECORDS (64)
85 #define VBVA_F_MODE_ENABLED 0x00000001u
86 #define VBVA_F_MODE_VRDP 0x00000002u
87 #define VBVA_F_MODE_VRDP_RESET 0x00000004u
88 #define VBVA_F_MODE_VRDP_ORDER_MASK 0x00000008u
90 #define VBVA_F_STATE_PROCESSING 0x00010000u
92 #define VBVA_F_RECORD_PARTIAL 0x80000000u
94 struct vbva_record {
95 u32 len_and_flags;
96 } __packed;
99 * The minimum HGSMI heap size is PAGE_SIZE (4096 bytes) and is a restriction of
100 * the runtime heapsimple API. Use minimum 2 pages here, because the info area
101 * also may contain other data (for example hgsmi_host_flags structure).
103 #define VBVA_ADAPTER_INFORMATION_SIZE 65536
104 #define VBVA_MIN_BUFFER_SIZE 65536
106 /* The value for port IO to let the adapter to interpret the adapter memory. */
107 #define VBOX_VIDEO_DISABLE_ADAPTER_MEMORY 0xFFFFFFFF
109 /* The value for port IO to let the adapter to interpret the adapter memory. */
110 #define VBOX_VIDEO_INTERPRET_ADAPTER_MEMORY 0x00000000
113 * The value for port IO to let the adapter to interpret the display memory.
114 * The display number is encoded in low 16 bits.
116 #define VBOX_VIDEO_INTERPRET_DISPLAY_MEMORY_BASE 0x00010000
118 struct vbva_host_flags {
119 u32 host_events;
120 u32 supported_orders;
121 } __packed;
123 struct vbva_buffer {
124 struct vbva_host_flags host_flags;
126 /* The offset where the data start in the buffer. */
127 u32 data_offset;
128 /* The offset where next data must be placed in the buffer. */
129 u32 free_offset;
131 /* The queue of record descriptions. */
132 struct vbva_record records[VBVA_MAX_RECORDS];
133 u32 record_first_index;
134 u32 record_free_index;
136 /* Space to leave free when large partial records are transferred. */
137 u32 partial_write_tresh;
139 u32 data_len;
140 /* variable size for the rest of the vbva_buffer area in VRAM. */
141 u8 data[];
142 } __packed;
144 #define VBVA_MAX_RECORD_SIZE (128 * 1024 * 1024)
146 /* guest->host commands */
147 #define VBVA_QUERY_CONF32 1
148 #define VBVA_SET_CONF32 2
149 #define VBVA_INFO_VIEW 3
150 #define VBVA_INFO_HEAP 4
151 #define VBVA_FLUSH 5
152 #define VBVA_INFO_SCREEN 6
153 #define VBVA_ENABLE 7
154 #define VBVA_MOUSE_POINTER_SHAPE 8
155 /* informs host about HGSMI caps. see vbva_caps below */
156 #define VBVA_INFO_CAPS 12
157 /* configures scanline, see VBVASCANLINECFG below */
158 #define VBVA_SCANLINE_CFG 13
159 /* requests scanline info, see VBVASCANLINEINFO below */
160 #define VBVA_SCANLINE_INFO 14
161 /* inform host about VBVA Command submission */
162 #define VBVA_CMDVBVA_SUBMIT 16
163 /* inform host about VBVA Command submission */
164 #define VBVA_CMDVBVA_FLUSH 17
165 /* G->H DMA command */
166 #define VBVA_CMDVBVA_CTL 18
167 /* Query most recent mode hints sent */
168 #define VBVA_QUERY_MODE_HINTS 19
170 * Report the guest virtual desktop position and size for mapping host and
171 * guest pointer positions.
173 #define VBVA_REPORT_INPUT_MAPPING 20
174 /* Report the guest cursor position and query the host position. */
175 #define VBVA_CURSOR_POSITION 21
177 /* host->guest commands */
178 #define VBVAHG_EVENT 1
179 #define VBVAHG_DISPLAY_CUSTOM 2
181 /* vbva_conf32::index */
182 #define VBOX_VBVA_CONF32_MONITOR_COUNT 0
183 #define VBOX_VBVA_CONF32_HOST_HEAP_SIZE 1
185 * Returns VINF_SUCCESS if the host can report mode hints via VBVA.
186 * Set value to VERR_NOT_SUPPORTED before calling.
188 #define VBOX_VBVA_CONF32_MODE_HINT_REPORTING 2
190 * Returns VINF_SUCCESS if the host can report guest cursor enabled status via
191 * VBVA. Set value to VERR_NOT_SUPPORTED before calling.
193 #define VBOX_VBVA_CONF32_GUEST_CURSOR_REPORTING 3
195 * Returns the currently available host cursor capabilities. Available if
196 * VBOX_VBVA_CONF32_GUEST_CURSOR_REPORTING returns success.
198 #define VBOX_VBVA_CONF32_CURSOR_CAPABILITIES 4
199 /* Returns the supported flags in vbva_infoscreen.flags. */
200 #define VBOX_VBVA_CONF32_SCREEN_FLAGS 5
201 /* Returns the max size of VBVA record. */
202 #define VBOX_VBVA_CONF32_MAX_RECORD_SIZE 6
204 struct vbva_conf32 {
205 u32 index;
206 u32 value;
207 } __packed;
209 /* Reserved for historical reasons. */
210 #define VBOX_VBVA_CURSOR_CAPABILITY_RESERVED0 BIT(0)
212 * Guest cursor capability: can the host show a hardware cursor at the host
213 * pointer location?
215 #define VBOX_VBVA_CURSOR_CAPABILITY_HARDWARE BIT(1)
216 /* Reserved for historical reasons. */
217 #define VBOX_VBVA_CURSOR_CAPABILITY_RESERVED2 BIT(2)
218 /* Reserved for historical reasons. Must always be unset. */
219 #define VBOX_VBVA_CURSOR_CAPABILITY_RESERVED3 BIT(3)
220 /* Reserved for historical reasons. */
221 #define VBOX_VBVA_CURSOR_CAPABILITY_RESERVED4 BIT(4)
222 /* Reserved for historical reasons. */
223 #define VBOX_VBVA_CURSOR_CAPABILITY_RESERVED5 BIT(5)
225 struct vbva_infoview {
226 /* Index of the screen, assigned by the guest. */
227 u32 view_index;
229 /* The screen offset in VRAM, the framebuffer starts here. */
230 u32 view_offset;
232 /* The size of the VRAM memory that can be used for the view. */
233 u32 view_size;
235 /* The recommended maximum size of the VRAM memory for the screen. */
236 u32 max_screen_size;
237 } __packed;
239 struct vbva_flush {
240 u32 reserved;
241 } __packed;
243 /* vbva_infoscreen.flags */
244 #define VBVA_SCREEN_F_NONE 0x0000
245 #define VBVA_SCREEN_F_ACTIVE 0x0001
247 * The virtual monitor has been disabled by the guest and should be removed
248 * by the host and ignored for purposes of pointer position calculation.
250 #define VBVA_SCREEN_F_DISABLED 0x0002
252 * The virtual monitor has been blanked by the guest and should be blacked
253 * out by the host using width, height, etc values from the vbva_infoscreen
254 * request.
256 #define VBVA_SCREEN_F_BLANK 0x0004
258 * The virtual monitor has been blanked by the guest and should be blacked
259 * out by the host using the previous mode values for width. height, etc.
261 #define VBVA_SCREEN_F_BLANK2 0x0008
263 struct vbva_infoscreen {
264 /* Which view contains the screen. */
265 u32 view_index;
267 /* Physical X origin relative to the primary screen. */
268 s32 origin_x;
270 /* Physical Y origin relative to the primary screen. */
271 s32 origin_y;
273 /* Offset of visible framebuffer relative to the framebuffer start. */
274 u32 start_offset;
276 /* The scan line size in bytes. */
277 u32 line_size;
279 /* Width of the screen. */
280 u32 width;
282 /* Height of the screen. */
283 u32 height;
285 /* Color depth. */
286 u16 bits_per_pixel;
288 /* VBVA_SCREEN_F_* */
289 u16 flags;
290 } __packed;
292 /* vbva_enable.flags */
293 #define VBVA_F_NONE 0x00000000
294 #define VBVA_F_ENABLE 0x00000001
295 #define VBVA_F_DISABLE 0x00000002
296 /* extended VBVA to be used with WDDM */
297 #define VBVA_F_EXTENDED 0x00000004
298 /* vbva offset is absolute VRAM offset */
299 #define VBVA_F_ABSOFFSET 0x00000008
301 struct vbva_enable {
302 u32 flags;
303 u32 offset;
304 s32 result;
305 } __packed;
307 struct vbva_enable_ex {
308 struct vbva_enable base;
309 u32 screen_id;
310 } __packed;
312 struct vbva_mouse_pointer_shape {
313 /* The host result. */
314 s32 result;
316 /* VBOX_MOUSE_POINTER_* bit flags. */
317 u32 flags;
319 /* X coordinate of the hot spot. */
320 u32 hot_X;
322 /* Y coordinate of the hot spot. */
323 u32 hot_y;
325 /* Width of the pointer in pixels. */
326 u32 width;
328 /* Height of the pointer in scanlines. */
329 u32 height;
331 /* Pointer data.
333 * The data consists of 1 bpp AND mask followed by 32 bpp XOR (color)
334 * mask.
336 * For pointers without alpha channel the XOR mask pixels are 32 bit
337 * values: (lsb)BGR0(msb). For pointers with alpha channel the XOR mask
338 * consists of (lsb)BGRA(msb) 32 bit values.
340 * Guest driver must create the AND mask for pointers with alpha chan.,
341 * so if host does not support alpha, the pointer could be displayed as
342 * a normal color pointer. The AND mask can be constructed from alpha
343 * values. For example alpha value >= 0xf0 means bit 0 in the AND mask.
345 * The AND mask is 1 bpp bitmap with byte aligned scanlines. Size of AND
346 * mask, therefore, is and_len = (width + 7) / 8 * height. The padding
347 * bits at the end of any scanline are undefined.
349 * The XOR mask follows the AND mask on the next 4 bytes aligned offset:
350 * u8 *xor = and + (and_len + 3) & ~3
351 * Bytes in the gap between the AND and the XOR mask are undefined.
352 * XOR mask scanlines have no gap between them and size of XOR mask is:
353 * xor_len = width * 4 * height.
355 * Preallocate 4 bytes for accessing actual data as p->data.
357 u8 data[4];
358 } __packed;
360 /* pointer is visible */
361 #define VBOX_MOUSE_POINTER_VISIBLE 0x0001
362 /* pointer has alpha channel */
363 #define VBOX_MOUSE_POINTER_ALPHA 0x0002
364 /* pointerData contains new pointer shape */
365 #define VBOX_MOUSE_POINTER_SHAPE 0x0004
368 * The guest driver can handle asynch guest cmd completion by reading the
369 * command offset from io port.
371 #define VBVACAPS_COMPLETEGCMD_BY_IOREAD 0x00000001
372 /* the guest driver can handle video adapter IRQs */
373 #define VBVACAPS_IRQ 0x00000002
374 /* The guest can read video mode hints sent via VBVA. */
375 #define VBVACAPS_VIDEO_MODE_HINTS 0x00000004
376 /* The guest can switch to a software cursor on demand. */
377 #define VBVACAPS_DISABLE_CURSOR_INTEGRATION 0x00000008
378 /* The guest does not depend on host handling the VBE registers. */
379 #define VBVACAPS_USE_VBVA_ONLY 0x00000010
381 struct vbva_caps {
382 s32 rc;
383 u32 caps;
384 } __packed;
386 /* Query the most recent mode hints received from the host. */
387 struct vbva_query_mode_hints {
388 /* The maximum number of screens to return hints for. */
389 u16 hints_queried_count;
390 /* The size of the mode hint structures directly following this one. */
391 u16 hint_structure_guest_size;
392 /* Return code for the operation. Initialise to VERR_NOT_SUPPORTED. */
393 s32 rc;
394 } __packed;
397 * Structure in which a mode hint is returned. The guest allocates an array
398 * of these immediately after the vbva_query_mode_hints structure.
399 * To accommodate future extensions, the vbva_query_mode_hints structure
400 * specifies the size of the vbva_modehint structures allocated by the guest,
401 * and the host only fills out structure elements which fit into that size. The
402 * host should fill any unused members (e.g. dx, dy) or structure space on the
403 * end with ~0. The whole structure can legally be set to ~0 to skip a screen.
405 struct vbva_modehint {
406 u32 magic;
407 u32 cx;
408 u32 cy;
409 u32 bpp; /* Which has never been used... */
410 u32 display;
411 u32 dx; /* X offset into the virtual frame-buffer. */
412 u32 dy; /* Y offset into the virtual frame-buffer. */
413 u32 enabled; /* Not flags. Add new members for new flags. */
414 } __packed;
416 #define VBVAMODEHINT_MAGIC 0x0801add9u
419 * Report the rectangle relative to which absolute pointer events should be
420 * expressed. This information remains valid until the next VBVA resize event
421 * for any screen, at which time it is reset to the bounding rectangle of all
422 * virtual screens and must be re-set.
424 struct vbva_report_input_mapping {
425 s32 x; /* Upper left X co-ordinate relative to the first screen. */
426 s32 y; /* Upper left Y co-ordinate relative to the first screen. */
427 u32 cx; /* Rectangle width. */
428 u32 cy; /* Rectangle height. */
429 } __packed;
432 * Report the guest cursor position and query the host one. The host may wish
433 * to use the guest information to re-position its own cursor (though this is
434 * currently unlikely).
436 struct vbva_cursor_position {
437 u32 report_position; /* Are we reporting a position? */
438 u32 x; /* Guest cursor X position */
439 u32 y; /* Guest cursor Y position */
440 } __packed;
442 #endif