Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Archit Taneja | 2096 | 95.62% | 3 | 37.50% |
Benoit Parrot | 80 | 3.65% | 4 | 50.00% |
Nikhil Devshatwar | 16 | 0.73% | 1 | 12.50% |
Total | 2192 | 8 |
/* * Copyright (c) 2013 Texas Instruments Inc. * * David Griego, <dagriego@biglakesoftware.com> * Dale Farnsworth, <dale@farnsworth.org> * Archit Taneja, <archit@ti.com> * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 as published by * the Free Software Foundation. */ #ifndef _TI_VPDMA_PRIV_H_ #define _TI_VPDMA_PRIV_H_ /* * VPDMA Register offsets */ /* Top level */ #define VPDMA_PID 0x00 #define VPDMA_LIST_ADDR 0x04 #define VPDMA_LIST_ATTR 0x08 #define VPDMA_LIST_STAT_SYNC 0x0c #define VPDMA_BG_RGB 0x18 #define VPDMA_BG_YUV 0x1c #define VPDMA_SETUP 0x30 #define VPDMA_MAX_SIZE1 0x34 #define VPDMA_MAX_SIZE2 0x38 #define VPDMA_MAX_SIZE3 0x3c #define VPDMA_MAX_SIZE_WIDTH_MASK 0xffff #define VPDMA_MAX_SIZE_WIDTH_SHFT 16 #define VPDMA_MAX_SIZE_HEIGHT_MASK 0xffff #define VPDMA_MAX_SIZE_HEIGHT_SHFT 0 /* Interrupts */ #define VPDMA_INT_CHAN_STAT(grp) (0x40 + grp * 8) #define VPDMA_INT_CHAN_MASK(grp) (VPDMA_INT_CHAN_STAT(grp) + 4) #define VPDMA_INT_CLIENT0_STAT 0x78 #define VPDMA_INT_CLIENT0_MASK 0x7c #define VPDMA_INT_CLIENT1_STAT 0x80 #define VPDMA_INT_CLIENT1_MASK 0x84 #define VPDMA_INT_LIST0_STAT 0x88 #define VPDMA_INT_LIST0_MASK 0x8c #define VPDMA_INTX_OFFSET 0x50 #define VPDMA_PERFMON(i) (0x200 + i * 4) /* VIP/VPE client registers */ #define VPDMA_DEI_CHROMA1_CSTAT 0x0300 #define VPDMA_DEI_LUMA1_CSTAT 0x0304 #define VPDMA_DEI_LUMA2_CSTAT 0x0308 #define VPDMA_DEI_CHROMA2_CSTAT 0x030c #define VPDMA_DEI_LUMA3_CSTAT 0x0310 #define VPDMA_DEI_CHROMA3_CSTAT 0x0314 #define VPDMA_DEI_MV_IN_CSTAT 0x0330 #define VPDMA_DEI_MV_OUT_CSTAT 0x033c #define VPDMA_VIP_LO_Y_CSTAT 0x0388 #define VPDMA_VIP_LO_UV_CSTAT 0x038c #define VPDMA_VIP_UP_Y_CSTAT 0x0390 #define VPDMA_VIP_UP_UV_CSTAT 0x0394 #define VPDMA_VPI_CTL_CSTAT 0x03d0 /* Reg field info for VPDMA_CLIENT_CSTAT registers */ #define VPDMA_CSTAT_LINE_MODE_MASK 0x03 #define VPDMA_CSTAT_LINE_MODE_SHIFT 8 #define VPDMA_CSTAT_FRAME_START_MASK 0xf #define VPDMA_CSTAT_FRAME_START_SHIFT 10 #define VPDMA_LIST_NUM_MASK 0x07 #define VPDMA_LIST_NUM_SHFT 24 #define VPDMA_LIST_STOP_SHFT 20 #define VPDMA_LIST_RDY_MASK 0x01 #define VPDMA_LIST_RDY_SHFT 19 #define VPDMA_LIST_TYPE_MASK 0x03 #define VPDMA_LIST_TYPE_SHFT 16 #define VPDMA_LIST_SIZE_MASK 0xffff /* * The YUV data type definition below are taken from * both the TRM and i839 Errata information. * Use the correct data type considering byte * reordering of components. * * Also since the single use of "C" in the 422 case * to mean "Cr" (i.e. V component). It was decided * to explicitly label them CR to remove any confusion. * Bear in mind that the type label refer to the memory * packed order (LSB - MSB). */ #define DATA_TYPE_Y444 0x0 #define DATA_TYPE_Y422 0x1 #define DATA_TYPE_Y420 0x2 #define DATA_TYPE_C444 0x4 #define DATA_TYPE_C422 0x5 #define DATA_TYPE_C420 0x6 #define DATA_TYPE_YC444 0x8 #define DATA_TYPE_YCB422 0x7 #define DATA_TYPE_YCR422 0x17 #define DATA_TYPE_CBY422 0x27 #define DATA_TYPE_CRY422 0x37 /* * The RGB data type definition below are defined * to follow Errata i819. * The initial values were taken from: * VPDMA_data_type_mapping_v0.2vayu_c.pdf * But some of the ARGB definition appeared to be wrong * in the document also. As they would yield RGBA instead. * They have been corrected based on experimentation. */ #define DATA_TYPE_RGB16_565 0x10 #define DATA_TYPE_ARGB_1555 0x13 #define DATA_TYPE_ARGB_4444 0x14 #define DATA_TYPE_RGBA_5551 0x11 #define DATA_TYPE_RGBA_4444 0x12 #define DATA_TYPE_ARGB24_6666 0x18 #define DATA_TYPE_RGB24_888 0x16 #define DATA_TYPE_ARGB32_8888 0x17 #define DATA_TYPE_RGBA24_6666 0x15 #define DATA_TYPE_RGBA32_8888 0x19 #define DATA_TYPE_BGR16_565 0x0 #define DATA_TYPE_ABGR_1555 0x3 #define DATA_TYPE_ABGR_4444 0x4 #define DATA_TYPE_BGRA_5551 0x1 #define DATA_TYPE_BGRA_4444 0x2 #define DATA_TYPE_ABGR24_6666 0x8 #define DATA_TYPE_BGR24_888 0x6 #define DATA_TYPE_ABGR32_8888 0x7 #define DATA_TYPE_BGRA24_6666 0x5 #define DATA_TYPE_BGRA32_8888 0x9 #define DATA_TYPE_MV 0x3 /* VPDMA channel numbers, some are common between VIP/VPE and appear twice */ #define VPE_CHAN_NUM_LUMA1_IN 0 #define VPE_CHAN_NUM_CHROMA1_IN 1 #define VPE_CHAN_NUM_LUMA2_IN 2 #define VPE_CHAN_NUM_CHROMA2_IN 3 #define VPE_CHAN_NUM_LUMA3_IN 4 #define VPE_CHAN_NUM_CHROMA3_IN 5 #define VPE_CHAN_NUM_MV_IN 12 #define VPE_CHAN_NUM_MV_OUT 15 #define VIP1_CHAN_NUM_MULT_PORT_A_SRC0 38 #define VIP1_CHAN_NUM_MULT_ANC_A_SRC0 70 #define VPE_CHAN_NUM_LUMA_OUT 102 #define VPE_CHAN_NUM_CHROMA_OUT 103 #define VIP1_CHAN_NUM_PORT_A_LUMA 102 #define VIP1_CHAN_NUM_PORT_A_CHROMA 103 #define VPE_CHAN_NUM_RGB_OUT 106 #define VIP1_CHAN_NUM_PORT_A_RGB 106 #define VIP1_CHAN_NUM_PORT_B_RGB 107 /* * a VPDMA address data block payload for a configuration descriptor needs to * have each sub block length as a multiple of 16 bytes. Therefore, the overall * size of the payload also needs to be a multiple of 16 bytes. The sub block * lengths should be ensured to be aligned by the VPDMA user. */ #define VPDMA_ADB_SIZE_ALIGN 0x0f /* * data transfer descriptor */ struct vpdma_dtd { u32 type_ctl_stride; union { u32 xfer_length_height; u32 w1; }; dma_addr_t start_addr; u32 pkt_ctl; union { u32 frame_width_height; /* inbound */ dma_addr_t desc_write_addr; /* outbound */ }; union { u32 start_h_v; /* inbound */ u32 max_width_height; /* outbound */ }; u32 client_attr0; u32 client_attr1; }; /* Data Transfer Descriptor specifics */ #define DTD_NO_NOTIFY 0 #define DTD_NOTIFY 1 #define DTD_PKT_TYPE 0xa #define DTD_DIR_IN 0 #define DTD_DIR_OUT 1 /* type_ctl_stride */ #define DTD_DATA_TYPE_MASK 0x3f #define DTD_DATA_TYPE_SHFT 26 #define DTD_NOTIFY_MASK 0x01 #define DTD_NOTIFY_SHFT 25 #define DTD_FIELD_MASK 0x01 #define DTD_FIELD_SHFT 24 #define DTD_1D_MASK 0x01 #define DTD_1D_SHFT 23 #define DTD_EVEN_LINE_SKIP_MASK 0x01 #define DTD_EVEN_LINE_SKIP_SHFT 20 #define DTD_ODD_LINE_SKIP_MASK 0x01 #define DTD_ODD_LINE_SKIP_SHFT 16 #define DTD_LINE_STRIDE_MASK 0xffff #define DTD_LINE_STRIDE_SHFT 0 /* xfer_length_height */ #define DTD_LINE_LENGTH_MASK 0xffff #define DTD_LINE_LENGTH_SHFT 16 #define DTD_XFER_HEIGHT_MASK 0xffff #define DTD_XFER_HEIGHT_SHFT 0 /* pkt_ctl */ #define DTD_PKT_TYPE_MASK 0x1f #define DTD_PKT_TYPE_SHFT 27 #define DTD_MODE_MASK 0x01 #define DTD_MODE_SHFT 26 #define DTD_DIR_MASK 0x01 #define DTD_DIR_SHFT 25 #define DTD_CHAN_MASK 0x01ff #define DTD_CHAN_SHFT 16 #define DTD_PRI_MASK 0x0f #define DTD_PRI_SHFT 9 #define DTD_NEXT_CHAN_MASK 0x01ff #define DTD_NEXT_CHAN_SHFT 0 /* frame_width_height */ #define DTD_FRAME_WIDTH_MASK 0xffff #define DTD_FRAME_WIDTH_SHFT 16 #define DTD_FRAME_HEIGHT_MASK 0xffff #define DTD_FRAME_HEIGHT_SHFT 0 /* start_h_v */ #define DTD_H_START_MASK 0xffff #define DTD_H_START_SHFT 16 #define DTD_V_START_MASK 0xffff #define DTD_V_START_SHFT 0 #define DTD_DESC_START_MASK 0xffffffe0 #define DTD_DESC_START_SHIFT 5 #define DTD_WRITE_DESC_MASK 0x01 #define DTD_WRITE_DESC_SHIFT 2 #define DTD_DROP_DATA_MASK 0x01 #define DTD_DROP_DATA_SHIFT 1 #define DTD_USE_DESC_MASK 0x01 #define DTD_USE_DESC_SHIFT 0 /* max_width_height */ #define DTD_MAX_WIDTH_MASK 0x07 #define DTD_MAX_WIDTH_SHFT 4 #define DTD_MAX_HEIGHT_MASK 0x07 #define DTD_MAX_HEIGHT_SHFT 0 static inline u32 dtd_type_ctl_stride(int type, bool notify, int field, bool one_d, bool even_line_skip, bool odd_line_skip, int line_stride) { return (type << DTD_DATA_TYPE_SHFT) | (notify << DTD_NOTIFY_SHFT) | (field << DTD_FIELD_SHFT) | (one_d << DTD_1D_SHFT) | (even_line_skip << DTD_EVEN_LINE_SKIP_SHFT) | (odd_line_skip << DTD_ODD_LINE_SKIP_SHFT) | line_stride; } static inline u32 dtd_xfer_length_height(int line_length, int xfer_height) { return (line_length << DTD_LINE_LENGTH_SHFT) | xfer_height; } static inline u32 dtd_pkt_ctl(bool mode, bool dir, int chan, int pri, int next_chan) { return (DTD_PKT_TYPE << DTD_PKT_TYPE_SHFT) | (mode << DTD_MODE_SHFT) | (dir << DTD_DIR_SHFT) | (chan << DTD_CHAN_SHFT) | (pri << DTD_PRI_SHFT) | next_chan; } static inline u32 dtd_frame_width_height(int width, int height) { return (width << DTD_FRAME_WIDTH_SHFT) | height; } static inline u32 dtd_desc_write_addr(unsigned int addr, bool write_desc, bool drop_data, bool use_desc) { return (addr & DTD_DESC_START_MASK) | (write_desc << DTD_WRITE_DESC_SHIFT) | (drop_data << DTD_DROP_DATA_SHIFT) | use_desc; } static inline u32 dtd_start_h_v(int h_start, int v_start) { return (h_start << DTD_H_START_SHFT) | v_start; } static inline u32 dtd_max_width_height(int max_width, int max_height) { return (max_width << DTD_MAX_WIDTH_SHFT) | max_height; } static inline int dtd_get_data_type(struct vpdma_dtd *dtd) { return dtd->type_ctl_stride >> DTD_DATA_TYPE_SHFT; } static inline bool dtd_get_notify(struct vpdma_dtd *dtd) { return (dtd->type_ctl_stride >> DTD_NOTIFY_SHFT) & DTD_NOTIFY_MASK; } static inline int dtd_get_field(struct vpdma_dtd *dtd) { return (dtd->type_ctl_stride >> DTD_FIELD_SHFT) & DTD_FIELD_MASK; } static inline bool dtd_get_1d(struct vpdma_dtd *dtd) { return (dtd->type_ctl_stride >> DTD_1D_SHFT) & DTD_1D_MASK; } static inline bool dtd_get_even_line_skip(struct vpdma_dtd *dtd) { return (dtd->type_ctl_stride >> DTD_EVEN_LINE_SKIP_SHFT) & DTD_EVEN_LINE_SKIP_MASK; } static inline bool dtd_get_odd_line_skip(struct vpdma_dtd *dtd) { return (dtd->type_ctl_stride >> DTD_ODD_LINE_SKIP_SHFT) & DTD_ODD_LINE_SKIP_MASK; } static inline int dtd_get_line_stride(struct vpdma_dtd *dtd) { return dtd->type_ctl_stride & DTD_LINE_STRIDE_MASK; } static inline int dtd_get_line_length(struct vpdma_dtd *dtd) { return dtd->xfer_length_height >> DTD_LINE_LENGTH_SHFT; } static inline int dtd_get_xfer_height(struct vpdma_dtd *dtd) { return dtd->xfer_length_height & DTD_XFER_HEIGHT_MASK; } static inline int dtd_get_pkt_type(struct vpdma_dtd *dtd) { return dtd->pkt_ctl >> DTD_PKT_TYPE_SHFT; } static inline bool dtd_get_mode(struct vpdma_dtd *dtd) { return (dtd->pkt_ctl >> DTD_MODE_SHFT) & DTD_MODE_MASK; } static inline bool dtd_get_dir(struct vpdma_dtd *dtd) { return (dtd->pkt_ctl >> DTD_DIR_SHFT) & DTD_DIR_MASK; } static inline int dtd_get_chan(struct vpdma_dtd *dtd) { return (dtd->pkt_ctl >> DTD_CHAN_SHFT) & DTD_CHAN_MASK; } static inline int dtd_get_priority(struct vpdma_dtd *dtd) { return (dtd->pkt_ctl >> DTD_PRI_SHFT) & DTD_PRI_MASK; } static inline int dtd_get_next_chan(struct vpdma_dtd *dtd) { return (dtd->pkt_ctl >> DTD_NEXT_CHAN_SHFT) & DTD_NEXT_CHAN_MASK; } static inline int dtd_get_frame_width(struct vpdma_dtd *dtd) { return dtd->frame_width_height >> DTD_FRAME_WIDTH_SHFT; } static inline int dtd_get_frame_height(struct vpdma_dtd *dtd) { return dtd->frame_width_height & DTD_FRAME_HEIGHT_MASK; } static inline int dtd_get_desc_write_addr(struct vpdma_dtd *dtd) { return dtd->desc_write_addr & DTD_DESC_START_MASK; } static inline bool dtd_get_write_desc(struct vpdma_dtd *dtd) { return (dtd->desc_write_addr >> DTD_WRITE_DESC_SHIFT) & DTD_WRITE_DESC_MASK; } static inline bool dtd_get_drop_data(struct vpdma_dtd *dtd) { return (dtd->desc_write_addr >> DTD_DROP_DATA_SHIFT) & DTD_DROP_DATA_MASK; } static inline bool dtd_get_use_desc(struct vpdma_dtd *dtd) { return dtd->desc_write_addr & DTD_USE_DESC_MASK; } static inline int dtd_get_h_start(struct vpdma_dtd *dtd) { return dtd->start_h_v >> DTD_H_START_SHFT; } static inline int dtd_get_v_start(struct vpdma_dtd *dtd) { return dtd->start_h_v & DTD_V_START_MASK; } static inline int dtd_get_max_width(struct vpdma_dtd *dtd) { return (dtd->max_width_height >> DTD_MAX_WIDTH_SHFT) & DTD_MAX_WIDTH_MASK; } static inline int dtd_get_max_height(struct vpdma_dtd *dtd) { return (dtd->max_width_height >> DTD_MAX_HEIGHT_SHFT) & DTD_MAX_HEIGHT_MASK; } /* * configuration descriptor */ struct vpdma_cfd { union { u32 dest_addr_offset; u32 w0; }; union { u32 block_len; /* in words */ u32 w1; }; u32 payload_addr; u32 ctl_payload_len; /* in words */ }; /* Configuration descriptor specifics */ #define CFD_PKT_TYPE 0xb #define CFD_DIRECT 1 #define CFD_INDIRECT 0 #define CFD_CLS_ADB 0 #define CFD_CLS_BLOCK 1 /* block_len */ #define CFD__BLOCK_LEN_MASK 0xffff #define CFD__BLOCK_LEN_SHFT 0 /* ctl_payload_len */ #define CFD_PKT_TYPE_MASK 0x1f #define CFD_PKT_TYPE_SHFT 27 #define CFD_DIRECT_MASK 0x01 #define CFD_DIRECT_SHFT 26 #define CFD_CLASS_MASK 0x03 #define CFD_CLASS_SHFT 24 #define CFD_DEST_MASK 0xff #define CFD_DEST_SHFT 16 #define CFD_PAYLOAD_LEN_MASK 0xffff #define CFD_PAYLOAD_LEN_SHFT 0 static inline u32 cfd_pkt_payload_len(bool direct, int cls, int dest, int payload_len) { return (CFD_PKT_TYPE << CFD_PKT_TYPE_SHFT) | (direct << CFD_DIRECT_SHFT) | (cls << CFD_CLASS_SHFT) | (dest << CFD_DEST_SHFT) | payload_len; } static inline int cfd_get_pkt_type(struct vpdma_cfd *cfd) { return cfd->ctl_payload_len >> CFD_PKT_TYPE_SHFT; } static inline bool cfd_get_direct(struct vpdma_cfd *cfd) { return (cfd->ctl_payload_len >> CFD_DIRECT_SHFT) & CFD_DIRECT_MASK; } static inline bool cfd_get_class(struct vpdma_cfd *cfd) { return (cfd->ctl_payload_len >> CFD_CLASS_SHFT) & CFD_CLASS_MASK; } static inline int cfd_get_dest(struct vpdma_cfd *cfd) { return (cfd->ctl_payload_len >> CFD_DEST_SHFT) & CFD_DEST_MASK; } static inline int cfd_get_payload_len(struct vpdma_cfd *cfd) { return cfd->ctl_payload_len & CFD_PAYLOAD_LEN_MASK; } /* * control descriptor */ struct vpdma_ctd { union { u32 timer_value; u32 list_addr; u32 w0; }; union { u32 pixel_line_count; u32 list_size; u32 w1; }; union { u32 event; u32 fid_ctl; u32 w2; }; u32 type_source_ctl; }; /* control descriptor types */ #define CTD_TYPE_SYNC_ON_CLIENT 0 #define CTD_TYPE_SYNC_ON_LIST 1 #define CTD_TYPE_SYNC_ON_EXT 2 #define CTD_TYPE_SYNC_ON_LM_TIMER 3 #define CTD_TYPE_SYNC_ON_CHANNEL 4 #define CTD_TYPE_CHNG_CLIENT_IRQ 5 #define CTD_TYPE_SEND_IRQ 6 #define CTD_TYPE_RELOAD_LIST 7 #define CTD_TYPE_ABORT_CHANNEL 8 #define CTD_PKT_TYPE 0xc /* timer_value */ #define CTD_TIMER_VALUE_MASK 0xffff #define CTD_TIMER_VALUE_SHFT 0 /* pixel_line_count */ #define CTD_PIXEL_COUNT_MASK 0xffff #define CTD_PIXEL_COUNT_SHFT 16 #define CTD_LINE_COUNT_MASK 0xffff #define CTD_LINE_COUNT_SHFT 0 /* list_size */ #define CTD_LIST_SIZE_MASK 0xffff #define CTD_LIST_SIZE_SHFT 0 /* event */ #define CTD_EVENT_MASK 0x0f #define CTD_EVENT_SHFT 0 /* fid_ctl */ #define CTD_FID2_MASK 0x03 #define CTD_FID2_SHFT 4 #define CTD_FID1_MASK 0x03 #define CTD_FID1_SHFT 2 #define CTD_FID0_MASK 0x03 #define CTD_FID0_SHFT 0 /* type_source_ctl */ #define CTD_PKT_TYPE_MASK 0x1f #define CTD_PKT_TYPE_SHFT 27 #define CTD_SOURCE_MASK 0xff #define CTD_SOURCE_SHFT 16 #define CTD_CONTROL_MASK 0x0f #define CTD_CONTROL_SHFT 0 static inline u32 ctd_pixel_line_count(int pixel_count, int line_count) { return (pixel_count << CTD_PIXEL_COUNT_SHFT) | line_count; } static inline u32 ctd_set_fid_ctl(int fid0, int fid1, int fid2) { return (fid2 << CTD_FID2_SHFT) | (fid1 << CTD_FID1_SHFT) | fid0; } static inline u32 ctd_type_source_ctl(int source, int control) { return (CTD_PKT_TYPE << CTD_PKT_TYPE_SHFT) | (source << CTD_SOURCE_SHFT) | control; } static inline u32 ctd_get_pixel_count(struct vpdma_ctd *ctd) { return ctd->pixel_line_count >> CTD_PIXEL_COUNT_SHFT; } static inline int ctd_get_line_count(struct vpdma_ctd *ctd) { return ctd->pixel_line_count & CTD_LINE_COUNT_MASK; } static inline int ctd_get_event(struct vpdma_ctd *ctd) { return ctd->event & CTD_EVENT_MASK; } static inline int ctd_get_fid2_ctl(struct vpdma_ctd *ctd) { return (ctd->fid_ctl >> CTD_FID2_SHFT) & CTD_FID2_MASK; } static inline int ctd_get_fid1_ctl(struct vpdma_ctd *ctd) { return (ctd->fid_ctl >> CTD_FID1_SHFT) & CTD_FID1_MASK; } static inline int ctd_get_fid0_ctl(struct vpdma_ctd *ctd) { return ctd->fid_ctl & CTD_FID2_MASK; } static inline int ctd_get_pkt_type(struct vpdma_ctd *ctd) { return ctd->type_source_ctl >> CTD_PKT_TYPE_SHFT; } static inline int ctd_get_source(struct vpdma_ctd *ctd) { return (ctd->type_source_ctl >> CTD_SOURCE_SHFT) & CTD_SOURCE_MASK; } static inline int ctd_get_ctl(struct vpdma_ctd *ctd) { return ctd->type_source_ctl & CTD_CONTROL_MASK; } #endif
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