Google Git
Sign in
coral / uboot-imx / cd03c4eed999955581e4a3d9e232df0aa01f1428 / . / include / imxdpuv1.h
blob: cb12bb8c0f172f6cee948fdbab84aa2d374434cc [file] [log] [blame]
/*
* Copyright (c) 2015-2016 Freescale Semiconductor, Inc.
* Copyright 2017 NXP
*
* SPDX-License-Identifier: GPL-2.0+
*/
#ifndef IMXDPUV1_H
#define IMXDPUV1_H
#include <linux/types.h>
#include <errno.h>
/* these will be removed */
#undef IMXDPUV1_VERSION_0
#define IMXDPUV1_VERSION_1
/* #define DEBUG */
/* #define ENABLE_IMXDPUV1_TRACE */
/* #define ENABLE_IMXDPUV1_TRACE_REG */
/* #define ENABLE_IMXDPUV1_TRACE_IRQ */
/* #define ENABLE_IMXDPUV1_TRACE_IRQ_READ */
/* #define ENABLE_IMXDPUV1_TRACE_IRQ_WRITE */
#ifdef ENABLE_IMXDPUV1_TRACE
#define IMXDPUV1_TRACE(fmt, ...) \
printf((fmt), ##__VA_ARGS__)
#else
#define IMXDPUV1_TRACE(fmt, ...) do {} while (0)
#endif
#ifdef ENABLE_IMXDPUV1_TRACE_IRQ
#define IMXDPUV1_TRACE_IRQ(fmt, ...) \
printf((fmt), ##__VA_ARGS__)
#else
#define IMXDPUV1_TRACE_IRQ(fmt, ...) do {} while (0)
#endif
#ifdef ENABLE_IMXDPUV1_TRACE_REG
#define IMXDPUV1_TRACE_REG(fmt, ...) \
printf((fmt), ##__VA_ARGS__)
#else
#define IMXDPUV1_TRACE_REG(fmt, ...) do {} while (0)
#endif
#define IMXDPUV1_PRINT(fmt, ...) \
printf((fmt), ##__VA_ARGS__)
/* #define IMXDPUV1_TCON0_MAP_24BIT_0_23 */
/* #define IMXDPUV1_TCON1_MAP_24BIT_0_23 */
/* todo: this need to come from device tree */
#define IMXDPUV1_NUM_DI_MAX 2
#define IMXDPUV1_MAX_NUM 2
#define IMXDPUV1_NUM_DI 2
#define IMXDPUV1_NUM_CI 2
#define IMXDPUV1_REGS_BASE_PHY0 0x56180000
#define IMXDPUV1_REGS_BASE_PHY1 0x57180000
#define IMXDPUV1_REGS_BASE_SIZE 0x14000
#ifdef IMXDPUV1_VERSION_0
#define IMXDPUV1_ENABLE_INTSTAT2
#endif
#define IMXDPUV1_SET_FIELD(field, value) (((value) << (field ## _SHIFT)) & (field ## _MASK))
#define IMXDPUV1_GET_FIELD(field, reg) (((reg)&(field ## _MASK)) >> (field ## _SHIFT))
/*
IMXDPU windows, planes, layers, streams
IMXDPU hardware documentation confuses the meaning of layers and
planes. These are software usages of these terms.
window - a logical buffer of pixels in a rectangular arrangment.
Image, Integral and video planes suport one window.
Fractional and warp plane support 8 windows. Blending is not
supported between the sub-windows of a fractional or warp plane.
sub-window - one of the eight logical windows of a fractional or warp
plane.
channel - the logical DMA configuration for etiher a fetch or store unit
plane - a plane is a hardware supported feature. There are four types
of display planes:
video x2
fractional x2
intergral x2
warp
layer - each of the 7 planes is fed to a layer blender. Full Alpha
blending is supported for all of the planes fed to the layer
blender.
streams - the layer bleder produces four streams: two normal streams
(0 and 1) and two panic streams (4 and 5).
In normal mode, streams 0 and 1 are fed to the displays.
In panic mode, streams 4 and 5 are fed to the displays.
*/
/*!
* Enumeration of IMXDPU blend mode flags
*/
typedef enum {
IMXDPUV1_PLANE_CLUT = 1 << 0, /* Color lookup */
IMXDPUV1_PLANE_DECODE = 1 << 1, /* Decode compressed bufers */
IMXDPUV1_PLANE_ETERNAL_ALPHA = 1 << 2, /* supports external alpha buffer */
IMXDPUV1_PLANE_VIDEO_PROC = 1 << 2, /* Gamma, Matrix, Scaler, histogram */
IMXDPUV1_PLANE_PLANAR = 1 << 3, /* Support Planar pixel buffers*/
IMXDPUV1_PLANE_WARP = 1 << 4, /* Warping */
IMXDPUV1_PLANE_MULTIWINDOW = 1 << 5, /* Support multiple buffers per plane */
IMXDPUV1_PLANE_CAPTURE = 1 << 6, /* Video capture */
} imxdpuv1_plane_features_t;
/*!
* Enumeration of IMXDPU layer blend mode flags
*/
typedef enum {
IMXDPUV1_LAYER_NONE = 1 << 0, /* Disable blending */
IMXDPUV1_LAYER_TRANSPARENCY = 1 << 1, /* Transparency */
IMXDPUV1_LAYER_GLOBAL_ALPHA = 1 << 2, /* Global alpha mode */
IMXDPUV1_LAYER_LOCAL_ALPHA = 1 << 3, /* Alpha contained in source buffer */
IMXDPUV1_LAYER_EXTERN_ALPHA = 1 << 4, /* Alpha is contained in a separate plane */
IMXDPUV1_LAYER_PRE_MULITPLY = 1 << 5, /* Pre-multiply alpha mode */
} imxdpuv1_layer_blend_modes_t;
/*!
* Enumeration of IMXDPU layers
*/
typedef enum {
IMXDPUV1_LAYER_0 = 0,
IMXDPUV1_LAYER_1,
IMXDPUV1_LAYER_2,
IMXDPUV1_LAYER_3,
IMXDPUV1_LAYER_4,
#ifdef IMXDPUV1_VERSION_0
IMXDPUV1_LAYER_5,
IMXDPUV1_LAYER_6,
#endif
IMXDPUV1_LAYER_MAX,
} imxdpuv1_layer_idx_t;
/*!
* Enumeration of IMXDPU sub-windows
*/
typedef enum {
IMXDPUV1_SUBWINDOW_NONE = 0,
IMXDPUV1_SUBWINDOW_1,
IMXDPUV1_SUBWINDOW_2,
IMXDPUV1_SUBWINDOW_3,
IMXDPUV1_SUBWINDOW_4,
IMXDPUV1_SUBWINDOW_5,
IMXDPUV1_SUBWINDOW_6,
IMXDPUV1_SUBWINDOW_7,
IMXDPUV1_SUBWINDOW_8,
} imxdpuv1_subwindow_id_t;
/*!
* Enumeration of IMXDPU display streams
*/
typedef enum {
IMXDPUV1_DISPLAY_STREAM_NONE = (0),
IMXDPUV1_DISPLAY_STREAM_0 = (1U<<0),
IMXDPUV1_DISPLAY_STREAM_1 = (1U<<1),
IMXDPUV1_DISPLAY_STREAM_4 = (1U<<4),
IMXDPUV1_DISPLAY_STREAM_5 = (1U<<5),
} imxdpuv1_display_stream_t;
/*!
* Enumeration of IMXDPU rotation modes
*/
typedef enum {
/* todo: these need to aligh to imxdpu scan direction */
IMXDPUV1_ROTATE_NONE = 0,
IMXDPUV1_ROTATE_VERT_FLIP = 1,
IMXDPUV1_ROTATE_HORIZ_FLIP = 2,
IMXDPUV1_ROTATE_180 = 3,
IMXDPUV1_ROTATE_90_RIGHT = 4,
IMXDPUV1_ROTATE_90_RIGHT_VFLIP = 5,
IMXDPUV1_ROTATE_90_RIGHT_HFLIP = 6,
IMXDPUV1_ROTATE_90_LEFT = 7,
} imxdpuv1_rotate_mode_t;
/*!
* Enumeration of types of buffers for a logical channel.
*/
typedef enum {
IMXDPUV1_OUTPUT_BUFFER = 0, /*!< Buffer for output from IMXDPU BLIT or capture */
IMXDPUV1_ALPHA_IN_BUFFER = 1, /*!< Buffer for alpha input to IMXDPU */
IMXDPUV1_GRAPH_IN_BUFFER = 2, /*!< Buffer for graphics input to IMXDPU */
IMXDPUV1_VIDEO_IN_BUFFER = 3, /*!< Buffer for video input to IMXDPU */
} imxdpuv1_buffer_t;
#ifdef IMXDPUV1_VERSION_0
/*!
* Enumeration of IMXDPU logical block ids
* NOTE: these match the hardware layout and are not arbitrary
*/
typedef enum {
IMXDPUV1_ID_NONE = 0,
IMXDPUV1_ID_FETCHDECODE9,
IMXDPUV1_ID_FETCHPERSP9,
IMXDPUV1_ID_FETCHECO9,
IMXDPUV1_ID_ROP9,
IMXDPUV1_ID_CLUT9,
IMXDPUV1_ID_MATRIX9,
IMXDPUV1_ID_HSCALER9,
IMXDPUV1_ID_VSCALER9,
IMXDPUV1_ID_FILTER9,
IMXDPUV1_ID_BLITBLEND9,
IMXDPUV1_ID_STORE9,
IMXDPUV1_ID_CONSTFRAME0,
IMXDPUV1_ID_EXTDST0,
IMXDPUV1_ID_CONSTFRAME4,
IMXDPUV1_ID_EXTDST4,
IMXDPUV1_ID_CONSTFRAME1,
IMXDPUV1_ID_EXTDST1,
IMXDPUV1_ID_CONSTFRAME5,
IMXDPUV1_ID_EXTDST5,
IMXDPUV1_ID_EXTSRC4,
IMXDPUV1_ID_STORE4,
IMXDPUV1_ID_EXTSRC5,
IMXDPUV1_ID_STORE5,
IMXDPUV1_ID_FETCHDECODE2,
IMXDPUV1_ID_FETCHDECODE3,
IMXDPUV1_ID_FETCHWARP2,
IMXDPUV1_ID_FETCHECO2,
IMXDPUV1_ID_FETCHDECODE0,
IMXDPUV1_ID_FETCHECO0,
IMXDPUV1_ID_FETCHDECODE1,
IMXDPUV1_ID_FETCHECO1,
IMXDPUV1_ID_FETCHLAYER0,
IMXDPUV1_ID_FETCHLAYER1,
IMXDPUV1_ID_GAMMACOR4,
IMXDPUV1_ID_MATRIX4,
IMXDPUV1_ID_HSCALER4,
IMXDPUV1_ID_VSCALER4,
IMXDPUV1_ID_HISTOGRAM4,
IMXDPUV1_ID_GAMMACOR5,
IMXDPUV1_ID_MATRIX5,
IMXDPUV1_ID_HSCALER5,
IMXDPUV1_ID_VSCALER5,
IMXDPUV1_ID_HISTOGRAM5,
IMXDPUV1_ID_LAYERBLEND0,
IMXDPUV1_ID_LAYERBLEND1,
IMXDPUV1_ID_LAYERBLEND2,
IMXDPUV1_ID_LAYERBLEND3,
IMXDPUV1_ID_LAYERBLEND4,
IMXDPUV1_ID_LAYERBLEND5,
IMXDPUV1_ID_LAYERBLEND6,
IMXDPUV1_ID_EXTSRC0,
IMXDPUV1_ID_EXTSRC1,
IMXDPUV1_ID_DISENGCFG,
IMXDPUV1_ID_FRAMEDUMP0,
IMXDPUV1_ID_FRAMEDUMP1,
IMXDPUV1_ID_FRAMEGEN0,
IMXDPUV1_ID_MATRIX0,
IMXDPUV1_ID_GAMMACOR0,
IMXDPUV1_ID_DITHER0,
IMXDPUV1_ID_TCON0,
IMXDPUV1_ID_SIG0,
IMXDPUV1_ID_FRAMEGEN1,
IMXDPUV1_ID_MATRIX1,
IMXDPUV1_ID_GAMMACOR1,
IMXDPUV1_ID_DITHER1,
IMXDPUV1_ID_TCON1,
IMXDPUV1_ID_SIG1,
IMXDPUV1_ID_CAPENGCFG,
IMXDPUV1_ID_FRAMECAP4,
IMXDPUV1_ID_FRAMECAP5,
IMXDPUV1_ID_ANALYSER4,
IMXDPUV1_ID_ANALYSER5,
/* the following are added arbitrarily */
IMXDPUV1_ID_DPUXPC,
} imxdpuv1_id_t;
#else
/*!
* Enumeration of IMXDPU logical block ids
* NOTE: these match the hardware layout and are not arbitrary
*/
typedef enum {
IMXDPUV1_ID_NONE = 0,
IMXDPUV1_ID_FETCHDECODE9,
IMXDPUV1_ID_FETCHWARP9,
IMXDPUV1_ID_FETCHECO9,
IMXDPUV1_ID_ROP9,
IMXDPUV1_ID_CLUT9,
IMXDPUV1_ID_MATRIX9,
IMXDPUV1_ID_HSCALER9,
IMXDPUV1_ID_VSCALER9,
IMXDPUV1_ID_FILTER9,
IMXDPUV1_ID_BLITBLEND9,
IMXDPUV1_ID_STORE9,
IMXDPUV1_ID_CONSTFRAME0,
IMXDPUV1_ID_EXTDST0,
IMXDPUV1_ID_CONSTFRAME4,
IMXDPUV1_ID_EXTDST4,
IMXDPUV1_ID_CONSTFRAME1,
IMXDPUV1_ID_EXTDST1,
IMXDPUV1_ID_CONSTFRAME5,
IMXDPUV1_ID_EXTDST5,
IMXDPUV1_ID_FETCHWARP2,
IMXDPUV1_ID_FETCHECO2,
IMXDPUV1_ID_FETCHDECODE0,
IMXDPUV1_ID_FETCHECO0,
IMXDPUV1_ID_FETCHDECODE1,
IMXDPUV1_ID_FETCHECO1,
IMXDPUV1_ID_FETCHLAYER0,
IMXDPUV1_ID_MATRIX4,
IMXDPUV1_ID_HSCALER4,
IMXDPUV1_ID_VSCALER4,
IMXDPUV1_ID_MATRIX5,
IMXDPUV1_ID_HSCALER5,
IMXDPUV1_ID_VSCALER5,
IMXDPUV1_ID_LAYERBLEND0,
IMXDPUV1_ID_LAYERBLEND1,
IMXDPUV1_ID_LAYERBLEND2,
IMXDPUV1_ID_LAYERBLEND3,
IMXDPUV1_ID_DISENGCFG,
IMXDPUV1_ID_FRAMEGEN0,
IMXDPUV1_ID_MATRIX0,
IMXDPUV1_ID_GAMMACOR0,
IMXDPUV1_ID_DITHER0,
IMXDPUV1_ID_TCON0,
IMXDPUV1_ID_SIG0,
IMXDPUV1_ID_FRAMEGEN1,
IMXDPUV1_ID_MATRIX1,
IMXDPUV1_ID_GAMMACOR1,
IMXDPUV1_ID_DITHER1,
IMXDPUV1_ID_TCON1,
IMXDPUV1_ID_SIG1,
IMXDPUV1_ID_DPUXPC,
} imxdpuv1_id_t;
#endif
#ifdef IMXDPUV1_VERSION_0
typedef enum {
IMXDPUV1_SHDLD_CONSTFRAME0 = 1U << 4,
IMXDPUV1_SHDLD_CONSTFRAME4 = 1U << 5,
IMXDPUV1_SHDLD_CONSTFRAME1 = 1U << 6,
IMXDPUV1_SHDLD_CONSTFRAME5 = 1U << 7,
IMXDPUV1_SHDLD_EXTSRC4 = 1U << 8,
IMXDPUV1_SHDLD_EXTSRC5 = 1U << 9,
IMXDPUV1_SHDLD_FETCHDECODE2 = 1U << 10,
IMXDPUV1_SHDLD_FETCHDECODE3 = 1U << 11,
IMXDPUV1_SHDLD_FETCHWARP2 = 1U << 12,
IMXDPUV1_SHDLD_FETCHECO2 = 1U << 13,
IMXDPUV1_SHDLD_FETCHDECODE0 = 1U << 14,
IMXDPUV1_SHDLD_FETCHECO0 = 1U << 15,
IMXDPUV1_SHDLD_FETCHDECODE1 = 1U << 16,
IMXDPUV1_SHDLD_FETCHECO1 = 1U << 17,
IMXDPUV1_SHDLD_FETCHLAYER0 = 1U << 18,
IMXDPUV1_SHDLD_FETCHLAYER1 = 1U << 19,
IMXDPUV1_SHDLD_EXTSRC0 = 1U << 20,
IMXDPUV1_SHDLD_EXTSRC1 = 1U << 21,
} imxdpuv1_shadow_load_req_id_t;
#else
typedef enum {
IMXDPUV1_SHDLD_CONSTFRAME0 = 1U << 4,
IMXDPUV1_SHDLD_CONSTFRAME4 = 1U << 5,
IMXDPUV1_SHDLD_CONSTFRAME1 = 1U << 6,
IMXDPUV1_SHDLD_CONSTFRAME5 = 1U << 7,
IMXDPUV1_SHDLD_FETCHWARP2 = 1U << 8,
IMXDPUV1_SHDLD_FETCHECO2 = 1U << 9,
IMXDPUV1_SHDLD_FETCHDECODE0 = 1U << 10,
IMXDPUV1_SHDLD_FETCHECO0 = 1U << 11,
IMXDPUV1_SHDLD_FETCHDECODE1 = 1U << 12,
IMXDPUV1_SHDLD_FETCHECO1 = 1U << 13,
IMXDPUV1_SHDLD_FETCHLAYER0 = 1U << 14,
IMXDPUV1_SHDLD_EXTSRC4 = 0,
IMXDPUV1_SHDLD_EXTSRC5 = 0,
IMXDPUV1_SHDLD_FETCHDECODE2 = 0,
IMXDPUV1_SHDLD_FETCHDECODE3 = 0,
IMXDPUV1_SHDLD_FETCHLAYER1 = 0,
IMXDPUV1_SHDLD_EXTSRC0 = 0,
IMXDPUV1_SHDLD_EXTSRC1 = 0,
} imxdpuv1_shadow_load_req_id_t;
#endif
typedef struct {
imxdpuv1_id_t primary;
imxdpuv1_id_t secondary;
imxdpuv1_display_stream_t stream;
bool enable;
} imxdpuv1_layer_t;
typedef enum {
/* Fetch Channels */
IMXDPUV1_CHAN_IDX_IN_FIRST = 0,
IMXDPUV1_CHAN_IDX_00 = 0, /* IMXDPUV1_ID_SRC_FETCHDECODE2 */
IMXDPUV1_CHAN_IDX_01, /* IMXDPUV1_ID_SRC_FETCHDECODE0 */
IMXDPUV1_CHAN_IDX_02, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_03, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_04, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_05, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_06, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_07, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_08, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_09, /* IMXDPUV1_ID_SRC_FETCHLAYER0 */
IMXDPUV1_CHAN_IDX_10, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_11, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_12, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_13, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_14, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_15, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_16, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_17, /* IMXDPUV1_ID_SRC_FETCHWARP2 */
IMXDPUV1_CHAN_IDX_18, /* IMXDPUV1_ID_SRC_FETCHDECODE3 */
IMXDPUV1_CHAN_IDX_19, /* IMXDPUV1_ID_SRC_FETCHDECODE1 */
IMXDPUV1_CHAN_IDX_20, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_21, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_22, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_23, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_24, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_25, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_26, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_27, /* IMXDPUV1_ID_SRC_FETCHLAYER1 */
IMXDPUV1_CHAN_IDX_28, /* IMXDPUV1_ID_SRC_ECO0 */
IMXDPUV1_CHAN_IDX_29, /* IMXDPUV1_ID_SRC_ECO1 */
IMXDPUV1_CHAN_IDX_30, /* IMXDPUV1_ID_SRC_ECO2 */
IMXDPUV1_CHAN_IDX_IN_MAX, /* Last fetch channel + 1 */
/* Store Channels */
IMXDPUV1_CHAN_IDX_OUT_FIRST = 32,
IMXDPUV1_CHAN_IDX_32 = 32,/* IMXDPUV1_ID_DST_STORE4 */
IMXDPUV1_CHAN_IDX_33, /* IMXDPUV1_ID_DST_STORE5 */
IMXDPUV1_CHAN_IDX_OUT_MAX,/* Last fetch channel + 1 */
IMXDPUV1_CHAN_IDX_MAX = IMXDPUV1_CHAN_IDX_OUT_MAX,
} imxdpuv1_chan_idx_t;
typedef enum {
IMXDPUV1_SUB_NONE = 0,
IMXDPUV1_SUB_1 = 1U << 0, /* IMXDPUV1_ID_FETCHLAYER0, layer 1 */
IMXDPUV1_SUB_2 = 1U << 1, /* IMXDPUV1_ID_FETCHLAYER0, layer 2 */
IMXDPUV1_SUB_3 = 1U << 2, /* IMXDPUV1_ID_FETCHLAYER0, layer 3 */
IMXDPUV1_SUB_4 = 1U << 3, /* IMXDPUV1_ID_FETCHLAYER0, layer 4 */
IMXDPUV1_SUB_5 = 1U << 4, /* IMXDPUV1_ID_FETCHLAYER0, layer 5 */
IMXDPUV1_SUB_6 = 1U << 5, /* IMXDPUV1_ID_FETCHLAYER0, layer 6 */
IMXDPUV1_SUB_7 = 1U << 6, /* IMXDPUV1_ID_FETCHLAYER0, layer 7 */
IMXDPUV1_SUB_8 = 1U << 7, /* IMXDPUV1_ID_FETCHLAYER0, layer 8 */
} imxdpuv1_chan_sub_idx_t;
/* IMXDPU Channel
* Consistist of four fields
* src - block id of source or destination
* sec - block id of secondary source for fetcheco
* sub - sub index of block for fetchlayer or fetchwarp
* idx - logical channel index
*
*/
#define make_channel(__blk_id, __eco_id, __sub, __idx) \
(((__u32)(__idx)<<0)|((__u32)(__eco_id)<<8)|((__u32)(__sub)<<16)|((__u32)(__blk_id)<<24))
#define get_channel_blk(chan) (((__u32)(chan) >> 24) & 0xff)
#define get_channel_sub(chan) (((__u32)(chan) >> 16) & 0xff)
#define get_eco_idx(chan) (((__u32)(chan) >> 8) & 0xff)
#define get_channel_idx(chan) (((__u32)(chan) >> 0) & 0xff)
#define IMXDPUV1_SUBCHAN_LAYER_OFFSET 0x28
typedef enum {
#ifdef IMXDPUV1_VERSION_0
/* Fetch Channels */
IMXDPUV1_CHAN_00 = make_channel(IMXDPUV1_ID_FETCHDECODE2, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 0),
IMXDPUV1_CHAN_01 = make_channel(IMXDPUV1_ID_FETCHDECODE0, 28, IMXDPUV1_SUB_NONE, 1),
IMXDPUV1_CHAN_02 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_1, 2),
IMXDPUV1_CHAN_03 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_2, 3),
IMXDPUV1_CHAN_04 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_3, 4),
IMXDPUV1_CHAN_05 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_4, 5),
IMXDPUV1_CHAN_06 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_5, 6),
IMXDPUV1_CHAN_07 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_6, 7),
IMXDPUV1_CHAN_08 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_7, 8),
IMXDPUV1_CHAN_09 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_8, 9),
IMXDPUV1_CHAN_10 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_1, 10),
IMXDPUV1_CHAN_11 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_2, 11),
IMXDPUV1_CHAN_12 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_3, 12),
IMXDPUV1_CHAN_13 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_4, 13),
IMXDPUV1_CHAN_14 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_5, 14),
IMXDPUV1_CHAN_15 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_6, 15),
IMXDPUV1_CHAN_16 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_7, 16),
IMXDPUV1_CHAN_17 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_8, 17),
IMXDPUV1_CHAN_18 = make_channel(IMXDPUV1_ID_FETCHDECODE3, 30, IMXDPUV1_SUB_NONE, 18),
IMXDPUV1_CHAN_19 = make_channel(IMXDPUV1_ID_FETCHDECODE1, 29, IMXDPUV1_SUB_NONE, 19),
IMXDPUV1_CHAN_20 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_1, 20),
IMXDPUV1_CHAN_21 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_2, 21),
IMXDPUV1_CHAN_22 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_3, 22),
IMXDPUV1_CHAN_23 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_4, 23),
IMXDPUV1_CHAN_24 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_5, 24),
IMXDPUV1_CHAN_25 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_6, 25),
IMXDPUV1_CHAN_26 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_7, 26),
IMXDPUV1_CHAN_27 = make_channel(IMXDPUV1_ID_FETCHLAYER1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_8, 27),
IMXDPUV1_CHAN_28 = make_channel(IMXDPUV1_ID_FETCHECO0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 28),
IMXDPUV1_CHAN_29 = make_channel(IMXDPUV1_ID_FETCHECO1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 29),
IMXDPUV1_CHAN_30 = make_channel(IMXDPUV1_ID_FETCHECO2, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 30),
/* Store Channels */
IMXDPUV1_CHAN_32 = make_channel(IMXDPUV1_ID_STORE4, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 32),
IMXDPUV1_CHAN_33 = make_channel(IMXDPUV1_ID_STORE5, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 33),
#else
/* Fetch Channels */
IMXDPUV1_CHAN_00 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_01 = make_channel(IMXDPUV1_ID_FETCHDECODE0, 28, IMXDPUV1_SUB_NONE, 1),
IMXDPUV1_CHAN_02 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_1, 2),
IMXDPUV1_CHAN_03 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_2, 3),
IMXDPUV1_CHAN_04 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_3, 4),
IMXDPUV1_CHAN_05 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_4, 5),
IMXDPUV1_CHAN_06 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_5, 6),
IMXDPUV1_CHAN_07 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_6, 7),
IMXDPUV1_CHAN_08 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_7, 8),
IMXDPUV1_CHAN_09 = make_channel(IMXDPUV1_ID_FETCHLAYER0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_8, 9),
IMXDPUV1_CHAN_10 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_1, 10),
IMXDPUV1_CHAN_11 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_2, 11),
IMXDPUV1_CHAN_12 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_3, 12),
IMXDPUV1_CHAN_13 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_4, 13),
IMXDPUV1_CHAN_14 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_5, 14),
IMXDPUV1_CHAN_15 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_6, 15),
IMXDPUV1_CHAN_16 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_7, 16),
IMXDPUV1_CHAN_17 = make_channel(IMXDPUV1_ID_FETCHWARP2, 30, IMXDPUV1_SUB_8, 17),
IMXDPUV1_CHAN_18 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_19 = make_channel(IMXDPUV1_ID_FETCHDECODE1, 29, IMXDPUV1_SUB_NONE, 19),
IMXDPUV1_CHAN_20 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_21 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_22 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_23 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_24 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_25 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_26 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_27 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_28 = make_channel(IMXDPUV1_ID_FETCHECO0, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 28),
IMXDPUV1_CHAN_29 = make_channel(IMXDPUV1_ID_FETCHECO1, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 29),
IMXDPUV1_CHAN_30 = make_channel(IMXDPUV1_ID_FETCHECO2, IMXDPUV1_ID_NONE, IMXDPUV1_SUB_NONE, 30),
/* Store Channels */
IMXDPUV1_CHAN_32 = make_channel(0, 0, 0, 0),
IMXDPUV1_CHAN_33 = make_channel(0, 0, 0, 0),
#endif
} imxdpuv1_chan_t;
/* Aliases for Channels */
#define IMXDPUV1_CHAN_VIDEO_0 IMXDPUV1_CHAN_01
#define IMXDPUV1_CHAN_VIDEO_1 IMXDPUV1_CHAN_19
#define IMXDPUV1_CHAN_INTEGRAL_0 IMXDPUV1_CHAN_00
#define IMXDPUV1_CHAN_INTEGRAL_1 IMXDPUV1_CHAN_18
#define IMXDPUV1_CHAN_FRACTIONAL_0_1 IMXDPUV1_CHAN_02
#define IMXDPUV1_CHAN_FRACTIONAL_0_2 IMXDPUV1_CHAN_03
#define IMXDPUV1_CHAN_FRACTIONAL_0_3 IMXDPUV1_CHAN_04
#define IMXDPUV1_CHAN_FRACTIONAL_0_4 IMXDPUV1_CHAN_05
#define IMXDPUV1_CHAN_FRACTIONAL_0_5 IMXDPUV1_CHAN_06
#define IMXDPUV1_CHAN_FRACTIONAL_0_6 IMXDPUV1_CHAN_07
#define IMXDPUV1_CHAN_FRACTIONAL_0_7 IMXDPUV1_CHAN_08
#define IMXDPUV1_CHAN_FRACTIONAL_0_8 IMXDPUV1_CHAN_09
#define IMXDPUV1_CHAN_FRACTIONAL_1_1 IMXDPUV1_CHAN_20
#define IMXDPUV1_CHAN_FRACTIONAL_1_2 IMXDPUV1_CHAN_21
#define IMXDPUV1_CHAN_FRACTIONAL_1_3 IMXDPUV1_CHAN_22
#define IMXDPUV1_CHAN_FRACTIONAL_1_4 IMXDPUV1_CHAN_23
#define IMXDPUV1_CHAN_FRACTIONAL_1_5 IMXDPUV1_CHAN_24
#define IMXDPUV1_CHAN_FRACTIONAL_1_6 IMXDPUV1_CHAN_25
#define IMXDPUV1_CHAN_FRACTIONAL_1_7 IMXDPUV1_CHAN_26
#define IMXDPUV1_CHAN_FRACTIONAL_1_8 IMXDPUV1_CHAN_27
#define IMXDPUV1_CHAN_WARP_2_1 IMXDPUV1_CHAN_10
#define IMXDPUV1_CHAN_WARP_2_2 IMXDPUV1_CHAN_11
#define IMXDPUV1_CHAN_WARP_2_3 IMXDPUV1_CHAN_12
#define IMXDPUV1_CHAN_WARP_2_4 IMXDPUV1_CHAN_13
#define IMXDPUV1_CHAN_WARP_2_5 IMXDPUV1_CHAN_14
#define IMXDPUV1_CHAN_WARP_2_6 IMXDPUV1_CHAN_15
#define IMXDPUV1_CHAN_WARP_2_7 IMXDPUV1_CHAN_16
#define IMXDPUV1_CHAN_WARP_2_8 IMXDPUV1_CHAN_17
#define IMXDPUV1_CHAN_CAPTURE_0 IMXDPUV1_CHAN_32
#define IMXDPUV1_CHAN_CAPTURE_1 IMXDPUV1_CHAN_33
/* IMXDPU Pixel format definitions */
/* Four-character-code (FOURCC) */
#ifdef fourcc
#warning "fourcc is already defined ... redeifining it here!"
#undef fourcc
#endif
#define fourcc(a, b, c, d)\
(((__u32)(a)<<0)|((__u32)(b)<<8)|((__u32)(c)<<16)|((__u32)(d)<<24))
/*! @} */
/*! @name Generic Formats */
/*! @{ */
#define IMXDPUV1_PIX_FMT_GENERIC fourcc('D', 'P', 'U', '0') /*!< IPU Generic Data */
#define IMXDPUV1_PIX_FMT_GENERIC_32 fourcc('D', 'P', 'U', '1') /*!< IPU Generic Data */
#define IMXDPUV1_PIX_FMT_GENERIC_16 fourcc('D', 'P', 'U', '2') /*!< IPU Generic Data */
/*! @} */
/*! @name RGB Formats */
/*! @{ */
#define IMXDPUV1_PIX_FMT_RGB332 fourcc('R', 'G', 'B', '1') /*!< 8 RGB-3-3-2 */
#define IMXDPUV1_PIX_FMT_RGB555 fourcc('R', 'G', 'B', 'O') /*!< 16 RGB-5-5-5 */
#define IMXDPUV1_PIX_FMT_RGB565 fourcc('R', 'G', 'B', 'P') /*!< 16 RGB-5-6-5 */
#define IMXDPUV1_PIX_FMT_BGRA4444 fourcc('4', '4', '4', '4') /*!< 16 RGBA-4-4-4-4 */
#define IMXDPUV1_PIX_FMT_BGRA5551 fourcc('5', '5', '5', '1') /*!< 16 RGBA-5-5-5-1 */
#define IMXDPUV1_PIX_FMT_RGB666 fourcc('R', 'G', 'B', '6') /*!< 18 RGB-6-6-6 */
#define IMXDPUV1_PIX_FMT_BGR666 fourcc('B', 'G', 'R', '6') /*!< 18 BGR-6-6-6 */
#define IMXDPUV1_PIX_FMT_BGR24 fourcc('B', 'G', 'R', '3') /*!< 24 BGR-8-8-8 */
#define IMXDPUV1_PIX_FMT_RGB24 fourcc('R', 'G', 'B', '3') /*!< 24 RGB-8-8-8 */
#define IMXDPUV1_PIX_FMT_GBR24 fourcc('G', 'B', 'R', '3') /*!< 24 GBR-8-8-8 */
#define IMXDPUV1_PIX_FMT_BGR32 fourcc('B', 'G', 'R', '4') /*!< 32 BGR-8-8-8-8 */
#define IMXDPUV1_PIX_FMT_BGRA32 fourcc('B', 'G', 'R', 'A') /*!< 32 BGR-8-8-8-8 */
#define IMXDPUV1_PIX_FMT_RGB32 fourcc('R', 'G', 'B', '4') /*!< 32 RGB-8-8-8-8 */
#define IMXDPUV1_PIX_FMT_RGBA32 fourcc('R', 'G', 'B', 'A') /*!< 32 RGB-8-8-8-8 */
#define IMXDPUV1_PIX_FMT_ABGR32 fourcc('A', 'B', 'G', 'R') /*!< 32 ABGR-8-8-8-8 */
#define IMXDPUV1_PIX_FMT_ARGB32 fourcc('A', 'R', 'G', 'B') /*!< 32 ARGB-8-8-8-8 */
/*! @} */
/*! @name YUV Interleaved Formats */
/*! @{ */
#define IMXDPUV1_PIX_FMT_YUYV fourcc('Y', 'U', 'Y', 'V') /*!< 16 YUV 4:2:2 */
#define IMXDPUV1_PIX_FMT_UYVY fourcc('U', 'Y', 'V', 'Y') /*!< 16 YUV 4:2:2 */
#define IMXDPUV1_PIX_FMT_YVYU fourcc('Y', 'V', 'Y', 'U') /*!< 16 YVYU 4:2:2 */
#define IMXDPUV1_PIX_FMT_VYUY fourcc('V', 'Y', 'U', 'Y') /*!< 16 VYYU 4:2:2 */
#define IMXDPUV1_PIX_FMT_Y41P fourcc('Y', '4', '1', 'P') /*!< 12 YUV 4:1:1 */
#define IMXDPUV1_PIX_FMT_YUV444 fourcc('Y', '4', '4', '4') /*!< 24 YUV 4:4:4 */
#define IMXDPUV1_PIX_FMT_VYU444 fourcc('V', '4', '4', '4') /*!< 24 VYU 4:4:4 */
#define IMXDPUV1_PIX_FMT_AYUV fourcc('A', 'Y', 'U', 'V') /*!< 32 AYUV 4:4:4:4 */
/* two planes -- one Y, one Cb + Cr interleaved */
#define IMXDPUV1_PIX_FMT_NV12 fourcc('N', 'V', '1', '2') /* 12 Y/CbCr 4:2:0 */
#define IMXDPUV1_PIX_FMT_NV16 fourcc('N', 'V', '1', '6') /* 16 Y/CbCr 4:2:2 */
#define IMXDPUV1_CAP_FMT_RGB24 fourcc('R', 'G', 'B', '3')
#define IMXDPUV1_CAP_FMT_BT656 fourcc('B', '6', '5', '6')
#define IMXDPUV1_CAP_FMT_YUYV fourcc('Y', 'U', 'Y', 'V')
struct imxdpuv1_soc;
/*!
* Definition of IMXDPU rectangle structure
*/
typedef struct {
int16_t top; /* y coordinate of top/left pixel */
int16_t left; /* x coordinate top/left pixel */
int16_t width;
int16_t height;
} imxdpuv1_rect_t;
/*!
* Union of initialization parameters for a logical channel.
*/
typedef union {
struct {
imxdpuv1_chan_t chan;
uint32_t src_pixel_fmt;
uint16_t src_width;
uint16_t src_height;
int16_t clip_top;
int16_t clip_left;
uint16_t clip_width;
uint16_t clip_height;
uint16_t stride;
uint32_t dest_pixel_fmt;
uint8_t blend_mode;
uint8_t blend_layer;
uint8_t disp_id; /* capture id */
int16_t dest_top;
int16_t dest_left;
uint16_t dest_width;
uint16_t dest_height;
uint32_t const_color;
bool use_global_alpha;
bool use_local_alpha;
} common;
struct {
imxdpuv1_chan_t chan;
uint32_t src_pixel_fmt;
uint16_t src_width;
uint16_t src_height;
int16_t clip_top;
int16_t clip_left;
uint16_t clip_width;
uint16_t clip_height;
uint16_t stride;
uint32_t dest_pixel_fmt;
uint8_t blend_mode;
uint8_t blend_layer;
uint8_t capture_id; /* disp_id/capture id */
int16_t dest_top;
int16_t dest_left;
uint16_t dest_width;
uint16_t dest_height;
uint32_t const_color;
bool use_global_alpha;
bool use_local_alpha;
uint32_t h_scale_factor; /* downscaling out/in */
uint32_t h_phase;
uint32_t v_scale_factor; /* downscaling out/in */
uint32_t v_phase[2][2];
bool use_video_proc;
bool interlaced;
} store;
struct {
imxdpuv1_chan_t chan;
uint32_t src_pixel_fmt;
uint16_t src_width;
uint16_t src_height;
int16_t clip_top;
int16_t clip_left;
uint16_t clip_width;
uint16_t clip_height;
uint16_t stride;
uint32_t dest_pixel_fmt;
uint8_t blend_mode;
uint8_t blend_layer;
uint8_t disp_id;
int16_t dest_top;
int16_t dest_left;
uint16_t dest_width;
uint16_t dest_height;
uint32_t const_color;
bool use_global_alpha;
bool use_local_alpha;
uint32_t h_scale_factor; /* downscaling out/in */
uint32_t h_phase;
uint32_t v_scale_factor; /* downscaling out/in */
uint32_t v_phase[2][2];
bool use_video_proc;
bool interlaced;
} fetch_decode;
struct {
imxdpuv1_chan_t chan;
uint32_t src_pixel_fmt;
uint16_t src_width;
uint16_t src_height;
int16_t clip_top;
int16_t clip_left;
uint16_t clip_width;
uint16_t clip_height;
uint16_t stride;
uint32_t dest_pixel_fmt;
uint8_t blend_mode;
uint8_t blend_layer;
uint8_t disp_id; /* capture id */
int16_t dest_top;
int16_t dest_left;
uint16_t dest_width;
uint16_t dest_height;
uint32_t const_color;
bool use_global_alpha;
bool use_local_alpha;
} fetch_layer;
struct {
imxdpuv1_chan_t chan;
uint32_t src_pixel_fmt;
uint16_t src_width;
uint16_t src_height;
int16_t clip_top;
int16_t clip_left;
uint16_t clip_width;
uint16_t clip_height;
uint16_t stride;
uint32_t dest_pixel_fmt;
uint8_t blend_mode;
uint8_t blend_layer;
uint8_t disp_id; /* capture id */
int16_t dest_top;
int16_t dest_left;
uint16_t dest_width;
uint16_t dest_height;
uint32_t const_color;
bool use_global_alpha;
bool use_local_alpha;
} fetch_warp;
} imxdpuv1_channel_params_t;
/*!
* Enumeration of IMXDPU video mode flags
*/
enum imxdpuv1_mode_flags {
/* 1 is active high 0 is active low */
IMXDPUV1_MODE_FLAGS_HSYNC_POL = 1 << 0,
IMXDPUV1_MODE_FLAGS_VSYNC_POL = 1 << 1,
IMXDPUV1_MODE_FLAGS_DE_POL = 1 << 2,
/* drive data on positive .edge */
IMXDPUV1_MODE_FLAGS_CLK_POL = 1 << 3,
IMXDPUV1_MODE_FLAGS_INTERLACED = 1 << 4 ,
/* Left/Right Synchronous display mode, both display pipe are
combined to make one display. All mode timings are divided by
two for each half screen.
Note: This may not be needed we may force this for any width
over ~2048
*/
IMXDPUV1_MODE_FLAGS_LRSYNC = 1 << 8,
/* Split mode each pipe is split into two displays */
IMXDPUV1_MODE_FLAGS_SPLIT = 1 << 9,
IMXDPUV1_MODE_FLAGS_32BIT = 1 << 16,
IMXDPUV1_MODE_FLAGS_BT656_10BIT = 1 << 17,
IMXDPUV1_MODE_FLAGS_BT656_8BIT = 1 << 18,
};
struct imxdpuv1_videomode {
char name[64]; /* may not be needed */
uint32_t pixelclock; /* Hz */
/* htotal (pixels) = hlen + hfp + hsync + hbp */
uint32_t hlen;
uint32_t hfp;
uint32_t hbp;
uint32_t hsync;
/* field0 - vtotal (lines) = vlen + vfp + vsync + vbp */
uint32_t vlen;
uint32_t vfp;
uint32_t vbp;
uint32_t vsync;
/* field1 */
uint32_t vlen1;
uint32_t vfp1;
uint32_t vbp1;
uint32_t vsync1;
uint32_t flags;
uint32_t format;
uint32_t dest_format; /*buffer format for capture*/
int16_t clip_top;
int16_t clip_left;
uint16_t clip_width;
uint16_t clip_height;
};
#define IMXDPUV1_ENABLE 1
#define IMXDPUV1_DISABLE 0
#define IMXDPUV1_TRUE 1
#define IMXDPUV1_FALSE 0
#define IMXDPUV1_OFFSET_INVALID 0x10000000 /* this should force an access error */
#define IMXDPUV1_CHANNEL_INVALID 0x0 /* this should force an access error */
#define IMXDPUV1_MIN(_X, _Y) ((_X) < (_Y) ? (_X) : (_Y))
/* Native color type */
#define IMXDPUV1_COLOR_CONSTALPHA_MASK 0xFFU
#define IMXDPUV1_COLOR_CONSTALPHA_SHIFT 0U
#define IMXDPUV1_COLOR_CONSTBLUE_MASK 0xFF00U
#define IMXDPUV1_COLOR_CONSTBLUE_SHIFT 8U
#define IMXDPUV1_COLOR_CONSTGREEN_MASK 0xFF0000U
#define IMXDPUV1_COLOR_CONSTGREEN_SHIFT 16U
#define IMXDPUV1_COLOR_CONSTRED_MASK 0xFF000000U
#define IMXDPUV1_COLOR_CONSTRED_SHIFT 24U
#define IMXDPUV1_IRQF_NONE 0x0
#define IMXDPUV1_IRQF_ONESHOT 0x1
#define IMXDPUV1_INTERRUPT_MAX (66 + 1) /* IMXDPUV1_FRAMECAP5_SYNC_OFF_IRQ
(66) is last interrupt */
int imxdpuv1_enable_irq(int8_t imxdpuv1_id, uint32_t irq);
int imxdpuv1_disable_irq(int8_t imxdpuv1_id, uint32_t irq);
int imxdpuv1_clear_all_irqs(int8_t imxdpuv1_id);
int imxdpuv1_clear_irq(int8_t imxdpuv1_id, uint32_t irq);
int imxdpuv1_init_irqs(int8_t imxdpuv1_id);
int imxdpuv1_request_irq(int8_t imxdpuv1_id,
uint32_t irq,
int(*handler) (int, void *),
uint32_t irq_flags,
const char *devname, void *data) ;
int imxdpuv1_free_irq(int8_t imxdpuv1_id, uint32_t irq, void *data);
int imxdpuv1_uninit_interrupts(int8_t imxdpuv1_id);
int imxdpuv1_handle_irq(int32_t imxdpuv1_id);
struct imxdpuv1_soc *imxdpuv1_get_soc(int8_t imxdpuv1_id);
int imxdpuv1_init(int8_t imxdpuv1_id);
int imxdpuv1_init_sync_panel(int8_t imxdpuv1_id, int8_t disp,
uint32_t pixel_fmt,
struct imxdpuv1_videomode mode);
int imxdpuv1_uninit_sync_panel(int8_t imxdpuv1_id, int8_t disp);
int imxdpuv1_reset_disp_panel(int8_t imxdpuv1_id, int8_t disp);
int imxdpuv1_disp_init(int8_t imxdpuv1_id, int8_t disp);
int imxdpuv1_disp_setup_frame_gen(
int8_t imxdpuv1_id,
int8_t disp,
const struct imxdpuv1_videomode *mode,
uint16_t cc_red, /* 10 bits */
uint16_t cc_green, /* 10 bits */
uint16_t cc_blue, /* 10 bits */
uint8_t cc_alpha,
bool test_mode_enable);
int imxdpuv1_disp_enable_frame_gen(int8_t imxdpuv1_id,
int8_t disp,
bool enable);
int imxdpuv1_disp_setup_constframe(int8_t imxdpuv1_id,
int8_t disp,
uint8_t bg_red,
uint8_t bg_green,
uint8_t bg_blue,
uint8_t bg_alpha);
int imxdpuv1_disp_setup_layer(int8_t imxdpuv1_id,
const imxdpuv1_layer_t *layer,
imxdpuv1_layer_idx_t layer_idx,
bool is_top_layer);
void imxdpuv1_disp_dump_mode(const struct imxdpuv1_videomode *mode);
int imxdpuv1_bytes_per_pixel(uint32_t fmt);
int imxdpuv1_init_channel_buffer(int8_t imxdpuv1_id,
imxdpuv1_chan_t chan,
uint32_t stride,
imxdpuv1_rotate_mode_t rot_mode,
dma_addr_t phyaddr_0,
uint32_t u_offset,
uint32_t v_offset);
int32_t imxdpuv1_update_channel_buffer(int8_t imxdpuv1_id,
imxdpuv1_chan_t chan,
dma_addr_t phyaddr_0);
int imxdpuv1_init_channel(int8_t imxdpuv1_id,
imxdpuv1_channel_params_t *params);
int imxdpuv1_disp_set_layer_global_alpha(int8_t imxdpuv1_id,
imxdpuv1_layer_idx_t layer_idx,
uint8_t alpha);
int imxdpuv1_disp_set_layer_position(int8_t imxdpuv1_id,
imxdpuv1_layer_idx_t layer_idx,
int16_t x, int16_t y);
int imxdpuv1_disp_set_chan_position(int8_t imxdpuv1_id,
imxdpuv1_chan_t chan,
int16_t x, int16_t y);
int imxdpuv1_disp_update_fgen_status(int8_t imxdpuv1_id, int8_t disp);
int imxdpuv1_disp_show_fgen_status(int8_t imxdpuv1_id);
void imxdpuv1_dump_int_stat(int8_t imxdpuv1_id);
void imxdpuv1_dump_layerblend(int8_t imxdpuv1_id);
int imxdpuv1_disp_force_shadow_load(int8_t imxdpuv1_id,
int8_t disp,
uint64_t mask);
int imxdpuv1_disp_set_chan_crop(int8_t imxdpuv1_id,
imxdpuv1_chan_t chan,
int16_t clip_top,
int16_t clip_left,
uint16_t clip_width,
uint16_t clip_height,
int16_t dest_top,
int16_t dest_left,
uint16_t dest_width,
uint16_t dest_height);
void imxdpuv1_dump_pixencfg_status(int8_t imxdpuv1_id);
int imxdpuv1_dump_channel(int8_t imxdpuv1_id, imxdpuv1_chan_t chan);
uint32_t imxdpuv1_get_planes(uint32_t fmt);
int imxdpuv1_disp_setup_channel(int8_t imxdpuv1_id,
imxdpuv1_chan_t chan,
uint32_t src_pixel_fmt,
uint16_t src_width,
uint16_t src_height,
int16_t clip_top,
int16_t clip_left,
uint16_t clip_width,
uint16_t clip_height,
uint16_t stride,
uint8_t disp_id,
int16_t dest_top,
int16_t dest_left,
uint16_t dest_width,
uint16_t dest_height,
uint32_t const_color,
bool use_global_alpha,
bool use_local_alpha,
unsigned int disp_addr);
int imxdpuv1_disp_check_shadow_loads(int8_t imxdpuv1_id, int8_t disp);
int imxdpuv1_cap_setup_frame(
int8_t imxdpuv1_id,
int8_t src_id,
int8_t dest_id,
int8_t sync_count,
const struct imxdpuv1_videomode *cap_mode);
int imxdpuv1_cap_setup_crop(
int8_t imxdpuv1_id,
int8_t src_id,
int16_t clip_top,
int16_t clip_left,
uint16_t clip_width,
uint16_t clip_height);
int imxdpuv1_cap_enable(int8_t imxdpuv1_id, int8_t cap, bool enable);
int imxdpuv1_cap_request_shadow_load(int8_t imxdpuv1_id, int8_t dest_id, uint32_t mask);
/* FIXME: add api if needed */
static inline int32_t imxdpuv1_csi_enable_mclk_if(int8_t imxdpuv1_id, int src, uint32_t cap,
bool flag, bool wait)
{
printf("%s(): %s:%d stubbed feature\n", __func__, __FILE__, __LINE__);
return 0;
}
#endif /* IMXDPUV1_H */