f39db26c54
Loongson display controller IP has been integrated in both Loongson north bridge chipset (ls7a1000/ls7a2000) and Loongson SoCs (ls2k1000/ls2k2000). It has even been included in Loongson's BMC products. It has two display pipes, and each display pipe supports a primary plane and a cursor plane. For the DC in the LS7a1000, each display pipe has a DVO output interface, which is able to support 1920x1080@60Hz. For the DC in the LS7A2000, each display pipe is equipped with a built-in HDMI encoder, which is compliant with the HDMI 1.4 specification. The first display pipe is also equipped with a transparent VGA encoder, which is parallel with the HDMI encoder. To get a decent performance for writing framebuffer data to the VRAM, the write combine support should be enabled. v1 -> v2: 1) Use hpd status reg when polling for ls7a2000. 2) Fix all warnings that emerged when compiling with W=1. v2 -> v3: 1) Add COMPILE_TEST to Kconfig and make the driver off by default 2) Alphabetical sorting headers (Thomas) 3) Untangle register access functions as much as possible (Thomas) 4) Switch to TTM-based memory manager (Thomas) 5) Add the chip ID detection function which can be used to distinguish chip models 6) Revise the built-in HDMI phy driver, nearly all main stream mode below 4K@30Hz is tested, and this driver supports clone(mirror) display mode and extend(joint) display mode. v3 -> v4: 1) Quickly fix a small mistake. v4 -> v5: 1) Add per display pipe debugfs support to the builtin HDMI encoder. v5 -> v6: 1) Remove stray code which didn't get used, say lsdc_of_get_reserved_ram 2) Fix all typos I could found, make sentences and code more readable 3) Untangle lsdc_hdmi*_connector_detect() function according to the pipe 4) Rename this driver as loongson. v6 -> v7: 1) Add prime support for buffer self-sharing, sharing buffer with drm/etnaviv is also tested and it works with limitations. 2) Implement buffer object tracking with list_head. 3) Add S3(sleep to RAM) support 4) Rewrite lsdc_bo_move since TTM core stop allocating resources during BO creation. Patch V1 ~ V6 of this series no longer work. Thus, we send V7. v7 -> v8: 1) Zero a compile warning on a 32-bit platform, compile with W=1 2) Revise lsdc_bo_gpu_offset() and make minor cleanups. 3) Pageflip tested on the virtual terminal with the following commands: modetest -M loongson -s 32:1920x1080 -v modetest -M loongson -s 34:1920x1080 -v -F tiles It works like a charm, when running the pageflip test with dual screens configuration, another two additional BOs were created by the modetest, VRAM usage up to 40+ MB, well we have at least 64MB, still enough. # cat bos bo[0000]: size: 8112kB VRAM bo[0001]: size: 16kB VRAM bo[0002]: size: 16kB VRAM bo[0003]: size: 16208kB VRAM bo[0004]: size: 8112kB VRAM bo[0005]: size: 8112kB VRAM v8 -> v9: 1) Select I2C and I2C_ALGOBIT in Kconfig, should depend on MMU. 2) Using pci_get_domain_bus_and_slot to get the GPU device. v9 -> v10: 1) Revise lsdc_drm_freeze() to implement S3 correctly. We realized that the pinned BO could not be moved, the VRAM lost power when sleeping to RAM. Thus, the data in the buffer who is pinned in VRAM will get lost when resumed. Yet it's not a big problem because this driver relies on the CPU to update the front framebuffer. We can see the garbage data when resume from S3, but the screen will show the right image as I move the cursor. This is due to the CPU repaint. v10 of this patch makes S3 perfect by unpin all of the BOs in VRAM, evict them all to system RAM in lsdc_drm_freeze(). v10 -> v11: 1) On a double-screen case, The buffer object backing the single giant framebuffer is referenced by two GEM objects; hence, it will be pinned at least twice by prepare_fb() function. This causes its pin count > 1. V10 of this patch only unpins VRAM BOs once when suspend, which is not correct on double-screen case. V11 of this patch unpin the BOs until its pin count reaches zero when suspend. Then, we make the S3 support complete finally. With v11, I can't see any garbage data when resume. 2) Fix vblank wait timeout when disable CRTC. 3) Test against IGT, at least fbdev test and kms_flip test passed. 4) Rewrite pixel PLL update function, magic numbers eliminated (Emil) 5) Drop a few common hardware features description in lsdc_desc (Emil) 6) Drop lsdc_mode_config_mode_valid(), instead add restrictions in dumb create function. (Emil) 7) Untangle the ls7a1000 case and ls7a2000 case completely (Thomas) v11 -> v12: none v12 -> v13: 1) Add benchmarks to figure out the bandwidth of the hardware platform. Usage: # cd /sys/kernel/debug/dri/0/ # cat benchmark 2) VRAM is filled with garbage data if uninitialized, add a buffer clearing procedure (lsdc_bo_clear), clear the BO on creation time. 3) Update copyrights and adjust coding style (Huacai) v13 -> v14: 1) Trying to add async update support for cursor plane. v14 -> v15: 1) Add lsdc_vga_set_decode() funciton, which allow us remove multi-video cards workaround, now it allow drm/loongson, drm/amdgpu, drm/etnaviv co-exist in the system, more is also possible (Emil and Xuerui) 2) Fix typos and grammar mistakes as much as possible (Xuerui) 3) Unify copyrights as GPL-2.0+ (Xuerui) 4) Fix a bug introduce since V13, TTM may import BO from other drivers, we shouldn't clear it on such a case. Cc: Maarten Lankhorst <maarten.lankhorst@linux.intel.com> Cc: Maxime Ripard <mripard@kernel.org> Cc: Thomas Zimmermann <tzimmermann@suse.de> Cc: David Airlie <airlied@gmail.com> Cc: Daniel Vetter <daniel@ffwll.ch> Cc: Sumit Semwal <sumit.semwal@linaro.org> Cc: "Christian König" <christian.koenig@amd.com> Cc: Nathan Chancellor <nathan@kernel.org> Cc: Emil Velikov <emil.l.velikov@gmail.com> Cc: Geert Uytterhoeven <geert+renesas@glider.be> Cc: loongson-kernel@lists.loongnix.cn Tested-by: Liu Peibao <liupeibao@loongson.cn> Tested-by: Li Yi <liyi@loongson.cn> Acked-by: Thomas Zimmermann <tzimmermann@suse.de> Signed-off-by: Sui Jingfeng <suijingfeng@loongson.cn> Link: https://patchwork.freedesktop.org/patch/msgid/20230615143613.1236245-2-15330273260@189.cn
407 lines
15 KiB
C
407 lines
15 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Copyright (C) 2023 Loongson Technology Corporation Limited
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*/
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#ifndef __LSDC_REGS_H__
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#define __LSDC_REGS_H__
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#include <linux/bitops.h>
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#include <linux/types.h>
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/*
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* PIXEL PLL Reference clock
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*/
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#define LSDC_PLL_REF_CLK_KHZ 100000
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/*
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* Those PLL registers are relative to LSxxxxx_CFG_REG_BASE. xxxxx = 7A1000,
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* 7A2000, 2K2000, 2K1000 etc.
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*/
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/* LS7A1000 */
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#define LS7A1000_PIXPLL0_REG 0x04B0
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#define LS7A1000_PIXPLL1_REG 0x04C0
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/* The DC, GPU, Graphic Memory Controller share the single gfxpll */
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#define LS7A1000_PLL_GFX_REG 0x0490
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#define LS7A1000_CONF_REG_BASE 0x10010000
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/* LS7A2000 */
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#define LS7A2000_PIXPLL0_REG 0x04B0
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#define LS7A2000_PIXPLL1_REG 0x04C0
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/* The DC, GPU, Graphic Memory Controller share the single gfxpll */
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#define LS7A2000_PLL_GFX_REG 0x0490
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#define LS7A2000_CONF_REG_BASE 0x10010000
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/* For LSDC_CRTCx_CFG_REG */
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#define CFG_PIX_FMT_MASK GENMASK(2, 0)
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enum lsdc_pixel_format {
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LSDC_PF_NONE = 0,
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LSDC_PF_XRGB444 = 1, /* [12 bits] */
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LSDC_PF_XRGB555 = 2, /* [15 bits] */
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LSDC_PF_XRGB565 = 3, /* RGB [16 bits] */
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LSDC_PF_XRGB8888 = 4, /* XRGB [32 bits] */
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};
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/*
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* Each crtc has two set fb address registers usable, FB_REG_IN_USING bit of
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* LSDC_CRTCx_CFG_REG indicate which fb address register is in using by the
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* CRTC currently. CFG_PAGE_FLIP is used to trigger the switch, the switching
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* will be finished at the very next vblank. Trigger it again if you want to
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* switch back.
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*
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* If FB0_ADDR_REG is in using, we write the address to FB0_ADDR_REG,
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* if FB1_ADDR_REG is in using, we write the address to FB1_ADDR_REG.
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*/
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#define CFG_PAGE_FLIP BIT(7)
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#define CFG_OUTPUT_ENABLE BIT(8)
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#define CFG_HW_CLONE BIT(9)
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/* Indicate witch fb addr reg is in using, currently. read only */
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#define FB_REG_IN_USING BIT(11)
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#define CFG_GAMMA_EN BIT(12)
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/* The DC get soft reset if this bit changed from "1" to "0", active low */
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#define CFG_RESET_N BIT(20)
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/* If this bit is set, it say that the CRTC stop working anymore, anchored. */
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#define CRTC_ANCHORED BIT(24)
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/*
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* The DMA step of the DC in LS7A2000/LS2K2000 is configurable,
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* setting those bits on ls7a1000 platform make no effect.
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*/
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#define CFG_DMA_STEP_MASK GENMASK(17, 16)
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#define CFG_DMA_STEP_SHIFT 16
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enum lsdc_dma_steps {
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LSDC_DMA_STEP_256_BYTES = 0,
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LSDC_DMA_STEP_128_BYTES = 1,
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LSDC_DMA_STEP_64_BYTES = 2,
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LSDC_DMA_STEP_32_BYTES = 3,
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};
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#define CFG_VALID_BITS_MASK GENMASK(20, 0)
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/* For LSDC_CRTCx_HSYNC_REG */
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#define HSYNC_INV BIT(31)
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#define HSYNC_EN BIT(30)
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#define HSYNC_END_MASK GENMASK(28, 16)
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#define HSYNC_END_SHIFT 16
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#define HSYNC_START_MASK GENMASK(12, 0)
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#define HSYNC_START_SHIFT 0
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/* For LSDC_CRTCx_VSYNC_REG */
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#define VSYNC_INV BIT(31)
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#define VSYNC_EN BIT(30)
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#define VSYNC_END_MASK GENMASK(27, 16)
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#define VSYNC_END_SHIFT 16
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#define VSYNC_START_MASK GENMASK(11, 0)
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#define VSYNC_START_SHIFT 0
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/*********** CRTC0 ***********/
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#define LSDC_CRTC0_CFG_REG 0x1240
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#define LSDC_CRTC0_FB0_ADDR_LO_REG 0x1260
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#define LSDC_CRTC0_FB0_ADDR_HI_REG 0x15A0
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#define LSDC_CRTC0_STRIDE_REG 0x1280
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#define LSDC_CRTC0_FB_ORIGIN_REG 0x1300
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#define LSDC_CRTC0_HDISPLAY_REG 0x1400
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#define LSDC_CRTC0_HSYNC_REG 0x1420
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#define LSDC_CRTC0_VDISPLAY_REG 0x1480
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#define LSDC_CRTC0_VSYNC_REG 0x14A0
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#define LSDC_CRTC0_GAMMA_INDEX_REG 0x14E0
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#define LSDC_CRTC0_GAMMA_DATA_REG 0x1500
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#define LSDC_CRTC0_FB1_ADDR_LO_REG 0x1580
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#define LSDC_CRTC0_FB1_ADDR_HI_REG 0x15C0
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/*********** CRTC1 ***********/
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#define LSDC_CRTC1_CFG_REG 0x1250
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#define LSDC_CRTC1_FB0_ADDR_LO_REG 0x1270
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#define LSDC_CRTC1_FB0_ADDR_HI_REG 0x15B0
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#define LSDC_CRTC1_STRIDE_REG 0x1290
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#define LSDC_CRTC1_FB_ORIGIN_REG 0x1310
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#define LSDC_CRTC1_HDISPLAY_REG 0x1410
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#define LSDC_CRTC1_HSYNC_REG 0x1430
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#define LSDC_CRTC1_VDISPLAY_REG 0x1490
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#define LSDC_CRTC1_VSYNC_REG 0x14B0
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#define LSDC_CRTC1_GAMMA_INDEX_REG 0x14F0
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#define LSDC_CRTC1_GAMMA_DATA_REG 0x1510
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#define LSDC_CRTC1_FB1_ADDR_LO_REG 0x1590
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#define LSDC_CRTC1_FB1_ADDR_HI_REG 0x15D0
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/* For LSDC_CRTCx_DVO_CONF_REG */
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#define PHY_CLOCK_POL BIT(9)
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#define PHY_CLOCK_EN BIT(8)
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#define PHY_DE_POL BIT(1)
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#define PHY_DATA_EN BIT(0)
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/*********** DVO0 ***********/
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#define LSDC_CRTC0_DVO_CONF_REG 0x13C0
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/*********** DVO1 ***********/
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#define LSDC_CRTC1_DVO_CONF_REG 0x13D0
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/*
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* All of the DC variants has the hardware which record the scan position
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* of the CRTC, [31:16] : current X position, [15:0] : current Y position
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*/
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#define LSDC_CRTC0_SCAN_POS_REG 0x14C0
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#define LSDC_CRTC1_SCAN_POS_REG 0x14D0
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/*
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* LS7A2000 has Sync Deviation register.
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*/
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#define SYNC_DEVIATION_EN BIT(31)
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#define SYNC_DEVIATION_NUM GENMASK(12, 0)
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#define LSDC_CRTC0_SYNC_DEVIATION_REG 0x1B80
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#define LSDC_CRTC1_SYNC_DEVIATION_REG 0x1B90
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/*
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* In gross, LSDC_CRTC1_XXX_REG - LSDC_CRTC0_XXX_REG = 0x10, but not all of
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* the registers obey this rule, LSDC_CURSORx_XXX_REG just don't honor this.
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* This is the root cause we can't untangle the code by manpulating offset
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* of the register access simply. Our hardware engineers are lack experiance
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* when they design this...
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*/
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#define CRTC_PIPE_OFFSET 0x10
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/*
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* There is only one hardware cursor unit in LS7A1000 and LS2K1000, let
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* CFG_HW_CLONE_EN bit be "1" could eliminate this embarrassment, we made
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* it on custom clone mode application. While LS7A2000 has two hardware
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* cursor unit which is good enough.
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*/
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#define CURSOR_FORMAT_MASK GENMASK(1, 0)
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#define CURSOR_FORMAT_SHIFT 0
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enum lsdc_cursor_format {
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CURSOR_FORMAT_DISABLE = 0,
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CURSOR_FORMAT_MONOCHROME = 1, /* masked */
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CURSOR_FORMAT_ARGB8888 = 2, /* A8R8G8B8 */
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};
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/*
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* LS7A1000 and LS2K1000 only support 32x32, LS2K2000 and LS7A2000 support
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* 64x64, but it seems that setting this bit make no harms on LS7A1000, it
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* just don't take effects.
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*/
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#define CURSOR_SIZE_SHIFT 2
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enum lsdc_cursor_size {
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CURSOR_SIZE_32X32 = 0,
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CURSOR_SIZE_64X64 = 1,
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};
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#define CURSOR_LOCATION_SHIFT 4
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enum lsdc_cursor_location {
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CURSOR_ON_CRTC0 = 0,
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CURSOR_ON_CRTC1 = 1,
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};
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#define LSDC_CURSOR0_CFG_REG 0x1520
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#define LSDC_CURSOR0_ADDR_LO_REG 0x1530
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#define LSDC_CURSOR0_ADDR_HI_REG 0x15e0
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#define LSDC_CURSOR0_POSITION_REG 0x1540 /* [31:16] Y, [15:0] X */
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#define LSDC_CURSOR0_BG_COLOR_REG 0x1550 /* background color */
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#define LSDC_CURSOR0_FG_COLOR_REG 0x1560 /* foreground color */
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#define LSDC_CURSOR1_CFG_REG 0x1670
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#define LSDC_CURSOR1_ADDR_LO_REG 0x1680
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#define LSDC_CURSOR1_ADDR_HI_REG 0x16e0
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#define LSDC_CURSOR1_POSITION_REG 0x1690 /* [31:16] Y, [15:0] X */
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#define LSDC_CURSOR1_BG_COLOR_REG 0x16A0 /* background color */
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#define LSDC_CURSOR1_FG_COLOR_REG 0x16B0 /* foreground color */
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/*
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* DC Interrupt Control Register, 32bit, Address Offset: 1570
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*
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* Bits 15:0 inidicate the interrupt status
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* Bits 31:16 control enable interrupts corresponding to bit 15:0 or not
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* Write 1 to enable, write 0 to disable
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*
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* RF: Read Finished
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* IDBU: Internal Data Buffer Underflow
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* IDBFU: Internal Data Buffer Fatal Underflow
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* CBRF: Cursor Buffer Read Finished Flag, no use.
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* FBRF0: CRTC-0 reading from its framebuffer finished.
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* FBRF1: CRTC-1 reading from its framebuffer finished.
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*
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* +-------+--------------------------+-------+--------+--------+-------+
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* | 31:27 | 26:16 | 15:11 | 10 | 9 | 8 |
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* +-------+--------------------------+-------+--------+--------+-------+
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* | N/A | Interrupt Enable Control | N/A | IDBFU0 | IDBFU1 | IDBU0 |
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* +-------+--------------------------+-------+--------+--------+-------+
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*
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* +-------+-------+-------+------+--------+--------+--------+--------+
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* | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
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* +-------+-------+-------+------+--------+--------+--------+--------+
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* | IDBU1 | FBRF0 | FBRF1 | CRRF | HSYNC0 | VSYNC0 | HSYNC1 | VSYNC1 |
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* +-------+-------+-------+------+--------+--------+--------+--------+
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*
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* unfortunately, CRTC0's interrupt is mess with CRTC1's interrupt in one
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* register again.
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*/
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#define LSDC_INT_REG 0x1570
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#define INT_CRTC0_VSYNC BIT(2)
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#define INT_CRTC0_HSYNC BIT(3)
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#define INT_CRTC0_RF BIT(6)
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#define INT_CRTC0_IDBU BIT(8)
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#define INT_CRTC0_IDBFU BIT(10)
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#define INT_CRTC1_VSYNC BIT(0)
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#define INT_CRTC1_HSYNC BIT(1)
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#define INT_CRTC1_RF BIT(5)
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#define INT_CRTC1_IDBU BIT(7)
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#define INT_CRTC1_IDBFU BIT(9)
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#define INT_CRTC0_VSYNC_EN BIT(18)
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#define INT_CRTC0_HSYNC_EN BIT(19)
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#define INT_CRTC0_RF_EN BIT(22)
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#define INT_CRTC0_IDBU_EN BIT(24)
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#define INT_CRTC0_IDBFU_EN BIT(26)
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#define INT_CRTC1_VSYNC_EN BIT(16)
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#define INT_CRTC1_HSYNC_EN BIT(17)
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#define INT_CRTC1_RF_EN BIT(21)
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#define INT_CRTC1_IDBU_EN BIT(23)
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#define INT_CRTC1_IDBFU_EN BIT(25)
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#define INT_STATUS_MASK GENMASK(15, 0)
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/*
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* LS7A1000/LS7A2000 have 4 gpios which are used to emulated I2C.
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* They are under control of the LS7A_DC_GPIO_DAT_REG and LS7A_DC_GPIO_DIR_REG
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* register, Those GPIOs has no relationship whth the GPIO hardware on the
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* bridge chip itself. Those offsets are relative to DC register base address
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*
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* LS2k1000 don't have those registers, they use hardware i2c or general GPIO
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* emulated i2c from linux i2c subsystem.
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*
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* GPIO data register, address offset: 0x1650
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* +---------------+-----------+-----------+
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* | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
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* +---------------+-----------+-----------+
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* | | DVO1 | DVO0 |
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* + N/A +-----------+-----------+
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* | | SCL | SDA | SCL | SDA |
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* +---------------+-----------+-----------+
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*/
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#define LS7A_DC_GPIO_DAT_REG 0x1650
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/*
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* GPIO Input/Output direction control register, address offset: 0x1660
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*/
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#define LS7A_DC_GPIO_DIR_REG 0x1660
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/*
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* LS7A2000 has two built-in HDMI Encoder and one VGA encoder
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*/
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/*
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* Number of continuous packets may be present
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* in HDMI hblank and vblank zone, should >= 48
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*/
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#define LSDC_HDMI0_ZONE_REG 0x1700
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#define LSDC_HDMI1_ZONE_REG 0x1710
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#define HDMI_H_ZONE_IDLE_SHIFT 0
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#define HDMI_V_ZONE_IDLE_SHIFT 16
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/* HDMI Iterface Control Reg */
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#define HDMI_INTERFACE_EN BIT(0)
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#define HDMI_PACKET_EN BIT(1)
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#define HDMI_AUDIO_EN BIT(2)
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/*
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* Preamble:
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* Immediately preceding each video data period or data island period is the
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* preamble. This is a sequence of eight identical control characters that
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* indicate whether the upcoming data period is a video data period or is a
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* data island. The values of CTL0, CTL1, CTL2, and CTL3 indicate the type of
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* data period that follows.
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*/
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#define HDMI_VIDEO_PREAMBLE_MASK GENMASK(7, 4)
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#define HDMI_VIDEO_PREAMBLE_SHIFT 4
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/* 1: hw i2c, 0: gpio emu i2c, shouldn't put in LSDC_HDMIx_INTF_CTRL_REG */
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#define HW_I2C_EN BIT(8)
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#define HDMI_CTL_PERIOD_MODE BIT(9)
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#define LSDC_HDMI0_INTF_CTRL_REG 0x1720
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#define LSDC_HDMI1_INTF_CTRL_REG 0x1730
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#define HDMI_PHY_EN BIT(0)
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#define HDMI_PHY_RESET_N BIT(1)
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#define HDMI_PHY_TERM_L_EN BIT(8)
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#define HDMI_PHY_TERM_H_EN BIT(9)
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#define HDMI_PHY_TERM_DET_EN BIT(10)
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#define HDMI_PHY_TERM_STATUS BIT(11)
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#define LSDC_HDMI0_PHY_CTRL_REG 0x1800
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#define LSDC_HDMI1_PHY_CTRL_REG 0x1810
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/* High level duration need > 1us */
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#define HDMI_PLL_ENABLE BIT(0)
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#define HDMI_PLL_LOCKED BIT(16)
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/* Bypass the software configured values, using default source from somewhere */
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#define HDMI_PLL_BYPASS BIT(17)
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#define HDMI_PLL_IDF_SHIFT 1
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#define HDMI_PLL_IDF_MASK GENMASK(5, 1)
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#define HDMI_PLL_LF_SHIFT 6
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#define HDMI_PLL_LF_MASK GENMASK(12, 6)
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#define HDMI_PLL_ODF_SHIFT 13
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#define HDMI_PLL_ODF_MASK GENMASK(15, 13)
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#define LSDC_HDMI0_PHY_PLL_REG 0x1820
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#define LSDC_HDMI1_PHY_PLL_REG 0x1830
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/* LS7A2000/LS2K2000 has hpd status reg, while the two hdmi's status
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* located at the one register again.
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*/
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#define LSDC_HDMI_HPD_STATUS_REG 0x1BA0
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#define HDMI0_HPD_FLAG BIT(0)
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#define HDMI1_HPD_FLAG BIT(1)
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#define LSDC_HDMI0_PHY_CAL_REG 0x18C0
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#define LSDC_HDMI1_PHY_CAL_REG 0x18D0
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/* AVI InfoFrame */
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#define LSDC_HDMI0_AVI_CONTENT0 0x18E0
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#define LSDC_HDMI1_AVI_CONTENT0 0x18D0
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#define LSDC_HDMI0_AVI_CONTENT1 0x1900
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#define LSDC_HDMI1_AVI_CONTENT1 0x1910
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#define LSDC_HDMI0_AVI_CONTENT2 0x1920
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#define LSDC_HDMI1_AVI_CONTENT2 0x1930
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#define LSDC_HDMI0_AVI_CONTENT3 0x1940
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#define LSDC_HDMI1_AVI_CONTENT3 0x1950
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/* 1: enable avi infoframe packet, 0: disable avi infoframe packet */
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#define AVI_PKT_ENABLE BIT(0)
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/* 1: send one every two frame, 0: send one each frame */
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#define AVI_PKT_SEND_FREQ BIT(1)
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/*
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* 1: write 1 to flush avi reg content0 ~ content3 to the packet to be send,
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* The hardware will clear this bit automatically.
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*/
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#define AVI_PKT_UPDATE BIT(2)
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#define LSDC_HDMI0_AVI_INFO_CRTL_REG 0x1960
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#define LSDC_HDMI1_AVI_INFO_CRTL_REG 0x1970
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/*
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* LS7A2000 has the hardware which count the number of vblank generated
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*/
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#define LSDC_CRTC0_VSYNC_COUNTER_REG 0x1A00
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#define LSDC_CRTC1_VSYNC_COUNTER_REG 0x1A10
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/*
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* LS7A2000 has the audio hardware associate with the HDMI encoder.
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*/
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#define LSDC_HDMI0_AUDIO_PLL_LO_REG 0x1A20
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#define LSDC_HDMI1_AUDIO_PLL_LO_REG 0x1A30
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#define LSDC_HDMI0_AUDIO_PLL_HI_REG 0x1A40
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#define LSDC_HDMI1_AUDIO_PLL_HI_REG 0x1A50
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#endif
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