Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Eric Bernstein | 1343 | 52.05% | 6 | 16.22% |
Dmytro Laktyushkin | 637 | 24.69% | 8 | 21.62% |
Harry Wentland | 246 | 9.53% | 3 | 8.11% |
Aric Cyr | 92 | 3.57% | 2 | 5.41% |
Tony Cheng | 69 | 2.67% | 2 | 5.41% |
Hugo Hu | 46 | 1.78% | 1 | 2.70% |
Josip Pavic | 43 | 1.67% | 2 | 5.41% |
Yongqiang Sun | 38 | 1.47% | 3 | 8.11% |
Martin Leung | 25 | 0.97% | 1 | 2.70% |
Eric Yang | 15 | 0.58% | 2 | 5.41% |
Wyatt Wood | 14 | 0.54% | 1 | 2.70% |
Arun Pandey | 7 | 0.27% | 1 | 2.70% |
Wesley Chalmers | 1 | 0.04% | 1 | 2.70% |
Anthony Koo | 1 | 0.04% | 1 | 2.70% |
Linus Torvalds | 1 | 0.04% | 1 | 2.70% |
Ilya Bakoulin | 1 | 0.04% | 1 | 2.70% |
Bhawanpreet Lakha | 1 | 0.04% | 1 | 2.70% |
Total | 2580 | 37 |
/* * Copyright 2012-15 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: AMD * */ #include "reg_helper.h" #include "dcn10_mpc.h" #define REG(reg)\ mpc10->mpc_regs->reg #define CTX \ mpc10->base.ctx #undef FN #define FN(reg_name, field_name) \ mpc10->mpc_shift->field_name, mpc10->mpc_mask->field_name void mpc1_set_bg_color(struct mpc *mpc, struct tg_color *bg_color, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); struct mpcc *bottommost_mpcc = mpc1_get_mpcc(mpc, mpcc_id); uint32_t bg_r_cr, bg_g_y, bg_b_cb; bottommost_mpcc->blnd_cfg.black_color = *bg_color; /* find bottommost mpcc. */ while (bottommost_mpcc->mpcc_bot) { /* avoid circular linked link */ ASSERT(bottommost_mpcc != bottommost_mpcc->mpcc_bot); if (bottommost_mpcc == bottommost_mpcc->mpcc_bot) break; bottommost_mpcc = bottommost_mpcc->mpcc_bot; } /* mpc color is 12 bit. tg_color is 10 bit */ /* todo: might want to use 16 bit to represent color and have each * hw block translate to correct color depth. */ bg_r_cr = bg_color->color_r_cr << 2; bg_g_y = bg_color->color_g_y << 2; bg_b_cb = bg_color->color_b_cb << 2; REG_SET(MPCC_BG_R_CR[bottommost_mpcc->mpcc_id], 0, MPCC_BG_R_CR, bg_r_cr); REG_SET(MPCC_BG_G_Y[bottommost_mpcc->mpcc_id], 0, MPCC_BG_G_Y, bg_g_y); REG_SET(MPCC_BG_B_CB[bottommost_mpcc->mpcc_id], 0, MPCC_BG_B_CB, bg_b_cb); } static void mpc1_update_blending( struct mpc *mpc, struct mpcc_blnd_cfg *blnd_cfg, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); struct mpcc *mpcc = mpc1_get_mpcc(mpc, mpcc_id); REG_UPDATE_5(MPCC_CONTROL[mpcc_id], MPCC_ALPHA_BLND_MODE, blnd_cfg->alpha_mode, MPCC_ALPHA_MULTIPLIED_MODE, blnd_cfg->pre_multiplied_alpha, MPCC_BLND_ACTIVE_OVERLAP_ONLY, blnd_cfg->overlap_only, MPCC_GLOBAL_ALPHA, blnd_cfg->global_alpha, MPCC_GLOBAL_GAIN, blnd_cfg->global_gain); mpcc->blnd_cfg = *blnd_cfg; } void mpc1_update_stereo_mix( struct mpc *mpc, struct mpcc_sm_cfg *sm_cfg, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); REG_UPDATE_6(MPCC_SM_CONTROL[mpcc_id], MPCC_SM_EN, sm_cfg->enable, MPCC_SM_MODE, sm_cfg->sm_mode, MPCC_SM_FRAME_ALT, sm_cfg->frame_alt, MPCC_SM_FIELD_ALT, sm_cfg->field_alt, MPCC_SM_FORCE_NEXT_FRAME_POL, sm_cfg->force_next_frame_porlarity, MPCC_SM_FORCE_NEXT_TOP_POL, sm_cfg->force_next_field_polarity); } void mpc1_assert_idle_mpcc(struct mpc *mpc, int id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); ASSERT(!(mpc10->mpcc_in_use_mask & 1 << id)); REG_WAIT(MPCC_STATUS[id], MPCC_IDLE, 1, 1, 100000); } struct mpcc *mpc1_get_mpcc(struct mpc *mpc, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); ASSERT(mpcc_id < mpc10->num_mpcc); return &(mpc->mpcc_array[mpcc_id]); } struct mpcc *mpc1_get_mpcc_for_dpp(struct mpc_tree *tree, int dpp_id) { struct mpcc *tmp_mpcc = tree->opp_list; while (tmp_mpcc != NULL) { if (tmp_mpcc->dpp_id == dpp_id) return tmp_mpcc; /* avoid circular linked list */ ASSERT(tmp_mpcc != tmp_mpcc->mpcc_bot); if (tmp_mpcc == tmp_mpcc->mpcc_bot) break; tmp_mpcc = tmp_mpcc->mpcc_bot; } return NULL; } bool mpc1_is_mpcc_idle(struct mpc *mpc, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); unsigned int top_sel; unsigned int opp_id; unsigned int idle; REG_GET(MPCC_TOP_SEL[mpcc_id], MPCC_TOP_SEL, &top_sel); REG_GET(MPCC_OPP_ID[mpcc_id], MPCC_OPP_ID, &opp_id); REG_GET(MPCC_STATUS[mpcc_id], MPCC_IDLE, &idle); if (top_sel == 0xf && opp_id == 0xf && idle) return true; else return false; } void mpc1_assert_mpcc_idle_before_connect(struct mpc *mpc, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); unsigned int top_sel, mpc_busy, mpc_idle; REG_GET(MPCC_TOP_SEL[mpcc_id], MPCC_TOP_SEL, &top_sel); if (top_sel == 0xf) { REG_GET_2(MPCC_STATUS[mpcc_id], MPCC_BUSY, &mpc_busy, MPCC_IDLE, &mpc_idle); ASSERT(mpc_busy == 0); ASSERT(mpc_idle == 1); } } /* * Insert DPP into MPC tree based on specified blending position. * Only used for planes that are part of blending chain for OPP output * * Parameters: * [in/out] mpc - MPC context. * [in/out] tree - MPC tree structure that plane will be added to. * [in] blnd_cfg - MPCC blending configuration for the new blending layer. * [in] sm_cfg - MPCC stereo mix configuration for the new blending layer. * stereo mix must disable for the very bottom layer of the tree config. * [in] insert_above_mpcc - Insert new plane above this MPCC. If NULL, insert as bottom plane. * [in] dpp_id - DPP instance for the plane to be added. * [in] mpcc_id - The MPCC physical instance to use for blending. * * Return: struct mpcc* - MPCC that was added. */ struct mpcc *mpc1_insert_plane( struct mpc *mpc, struct mpc_tree *tree, struct mpcc_blnd_cfg *blnd_cfg, struct mpcc_sm_cfg *sm_cfg, struct mpcc *insert_above_mpcc, int dpp_id, int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); struct mpcc *new_mpcc = NULL; /* sanity check parameters */ ASSERT(mpcc_id < mpc10->num_mpcc); ASSERT(!(mpc10->mpcc_in_use_mask & 1 << mpcc_id)); if (insert_above_mpcc) { /* check insert_above_mpcc exist in tree->opp_list */ struct mpcc *temp_mpcc = tree->opp_list; while (temp_mpcc && temp_mpcc->mpcc_bot != insert_above_mpcc) temp_mpcc = temp_mpcc->mpcc_bot; if (temp_mpcc == NULL) return NULL; } /* Get and update MPCC struct parameters */ new_mpcc = mpc1_get_mpcc(mpc, mpcc_id); new_mpcc->dpp_id = dpp_id; /* program mux and MPCC_MODE */ if (insert_above_mpcc) { new_mpcc->mpcc_bot = insert_above_mpcc; REG_SET(MPCC_BOT_SEL[mpcc_id], 0, MPCC_BOT_SEL, insert_above_mpcc->mpcc_id); REG_UPDATE(MPCC_CONTROL[mpcc_id], MPCC_MODE, MPCC_BLEND_MODE_TOP_BOT_BLENDING); } else { new_mpcc->mpcc_bot = NULL; REG_SET(MPCC_BOT_SEL[mpcc_id], 0, MPCC_BOT_SEL, 0xf); REG_UPDATE(MPCC_CONTROL[mpcc_id], MPCC_MODE, MPCC_BLEND_MODE_TOP_LAYER_ONLY); } REG_SET(MPCC_TOP_SEL[mpcc_id], 0, MPCC_TOP_SEL, dpp_id); REG_SET(MPCC_OPP_ID[mpcc_id], 0, MPCC_OPP_ID, tree->opp_id); /* Configure VUPDATE lock set for this MPCC to map to the OPP */ REG_SET(MPCC_UPDATE_LOCK_SEL[mpcc_id], 0, MPCC_UPDATE_LOCK_SEL, tree->opp_id); /* update mpc tree mux setting */ if (tree->opp_list == insert_above_mpcc) { /* insert the toppest mpcc */ tree->opp_list = new_mpcc; REG_UPDATE(MUX[tree->opp_id], MPC_OUT_MUX, mpcc_id); } else { /* find insert position */ struct mpcc *temp_mpcc = tree->opp_list; while (temp_mpcc && temp_mpcc->mpcc_bot != insert_above_mpcc) temp_mpcc = temp_mpcc->mpcc_bot; if (temp_mpcc && temp_mpcc->mpcc_bot == insert_above_mpcc) { REG_SET(MPCC_BOT_SEL[temp_mpcc->mpcc_id], 0, MPCC_BOT_SEL, mpcc_id); temp_mpcc->mpcc_bot = new_mpcc; if (!insert_above_mpcc) REG_UPDATE(MPCC_CONTROL[temp_mpcc->mpcc_id], MPCC_MODE, MPCC_BLEND_MODE_TOP_BOT_BLENDING); } } /* update the blending configuration */ mpc->funcs->update_blending(mpc, blnd_cfg, mpcc_id); /* update the stereo mix settings, if provided */ if (sm_cfg != NULL) { new_mpcc->sm_cfg = *sm_cfg; mpc1_update_stereo_mix(mpc, sm_cfg, mpcc_id); } /* mark this mpcc as in use */ mpc10->mpcc_in_use_mask |= 1 << mpcc_id; return new_mpcc; } /* * Remove a specified MPCC from the MPC tree. * * Parameters: * [in/out] mpc - MPC context. * [in/out] tree - MPC tree structure that plane will be removed from. * [in/out] mpcc - MPCC to be removed from tree. * * Return: void */ void mpc1_remove_mpcc( struct mpc *mpc, struct mpc_tree *tree, struct mpcc *mpcc_to_remove) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); bool found = false; int mpcc_id = mpcc_to_remove->mpcc_id; if (tree->opp_list == mpcc_to_remove) { found = true; /* remove MPCC from top of tree */ if (mpcc_to_remove->mpcc_bot) { /* set the next MPCC in list to be the top MPCC */ tree->opp_list = mpcc_to_remove->mpcc_bot; REG_UPDATE(MUX[tree->opp_id], MPC_OUT_MUX, tree->opp_list->mpcc_id); } else { /* there are no other MPCC is list */ tree->opp_list = NULL; REG_UPDATE(MUX[tree->opp_id], MPC_OUT_MUX, 0xf); } } else { /* find mpcc to remove MPCC list */ struct mpcc *temp_mpcc = tree->opp_list; while (temp_mpcc && temp_mpcc->mpcc_bot != mpcc_to_remove) temp_mpcc = temp_mpcc->mpcc_bot; if (temp_mpcc && temp_mpcc->mpcc_bot == mpcc_to_remove) { found = true; temp_mpcc->mpcc_bot = mpcc_to_remove->mpcc_bot; if (mpcc_to_remove->mpcc_bot) { /* remove MPCC in middle of list */ REG_SET(MPCC_BOT_SEL[temp_mpcc->mpcc_id], 0, MPCC_BOT_SEL, mpcc_to_remove->mpcc_bot->mpcc_id); } else { /* remove MPCC from bottom of list */ REG_SET(MPCC_BOT_SEL[temp_mpcc->mpcc_id], 0, MPCC_BOT_SEL, 0xf); REG_UPDATE(MPCC_CONTROL[temp_mpcc->mpcc_id], MPCC_MODE, MPCC_BLEND_MODE_TOP_LAYER_PASSTHROUGH); } } } if (found) { /* turn off MPCC mux registers */ REG_SET(MPCC_TOP_SEL[mpcc_id], 0, MPCC_TOP_SEL, 0xf); REG_SET(MPCC_BOT_SEL[mpcc_id], 0, MPCC_BOT_SEL, 0xf); REG_SET(MPCC_OPP_ID[mpcc_id], 0, MPCC_OPP_ID, 0xf); REG_SET(MPCC_UPDATE_LOCK_SEL[mpcc_id], 0, MPCC_UPDATE_LOCK_SEL, 0xf); /* mark this mpcc as not in use */ mpc10->mpcc_in_use_mask &= ~(1 << mpcc_id); mpcc_to_remove->dpp_id = 0xf; mpcc_to_remove->mpcc_bot = NULL; } else { /* In case of resume from S3/S4, remove mpcc from bios left over */ REG_SET(MPCC_TOP_SEL[mpcc_id], 0, MPCC_TOP_SEL, 0xf); REG_SET(MPCC_BOT_SEL[mpcc_id], 0, MPCC_BOT_SEL, 0xf); REG_SET(MPCC_OPP_ID[mpcc_id], 0, MPCC_OPP_ID, 0xf); REG_SET(MPCC_UPDATE_LOCK_SEL[mpcc_id], 0, MPCC_UPDATE_LOCK_SEL, 0xf); } } static void mpc1_init_mpcc(struct mpcc *mpcc, int mpcc_inst) { mpcc->mpcc_id = mpcc_inst; mpcc->dpp_id = 0xf; mpcc->mpcc_bot = NULL; mpcc->blnd_cfg.overlap_only = false; mpcc->blnd_cfg.global_alpha = 0xff; mpcc->blnd_cfg.global_gain = 0xff; mpcc->sm_cfg.enable = false; } /* * Reset the MPCC HW status by disconnecting all muxes. * * Parameters: * [in/out] mpc - MPC context. * * Return: void */ void mpc1_mpc_init(struct mpc *mpc) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); int mpcc_id; int opp_id; mpc10->mpcc_in_use_mask = 0; for (mpcc_id = 0; mpcc_id < mpc10->num_mpcc; mpcc_id++) { REG_SET(MPCC_TOP_SEL[mpcc_id], 0, MPCC_TOP_SEL, 0xf); REG_SET(MPCC_BOT_SEL[mpcc_id], 0, MPCC_BOT_SEL, 0xf); REG_SET(MPCC_OPP_ID[mpcc_id], 0, MPCC_OPP_ID, 0xf); REG_SET(MPCC_UPDATE_LOCK_SEL[mpcc_id], 0, MPCC_UPDATE_LOCK_SEL, 0xf); mpc1_init_mpcc(&(mpc->mpcc_array[mpcc_id]), mpcc_id); } for (opp_id = 0; opp_id < MAX_OPP; opp_id++) { if (REG(MUX[opp_id])) REG_UPDATE(MUX[opp_id], MPC_OUT_MUX, 0xf); } } void mpc1_mpc_init_single_inst(struct mpc *mpc, unsigned int mpcc_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); int opp_id; REG_GET(MPCC_OPP_ID[mpcc_id], MPCC_OPP_ID, &opp_id); REG_SET(MPCC_TOP_SEL[mpcc_id], 0, MPCC_TOP_SEL, 0xf); REG_SET(MPCC_BOT_SEL[mpcc_id], 0, MPCC_BOT_SEL, 0xf); REG_SET(MPCC_OPP_ID[mpcc_id], 0, MPCC_OPP_ID, 0xf); REG_SET(MPCC_UPDATE_LOCK_SEL[mpcc_id], 0, MPCC_UPDATE_LOCK_SEL, 0xf); mpc1_init_mpcc(&(mpc->mpcc_array[mpcc_id]), mpcc_id); if (opp_id < MAX_OPP && REG(MUX[opp_id])) REG_UPDATE(MUX[opp_id], MPC_OUT_MUX, 0xf); } void mpc1_init_mpcc_list_from_hw( struct mpc *mpc, struct mpc_tree *tree) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); unsigned int opp_id; unsigned int top_sel; unsigned int bot_sel; unsigned int out_mux; struct mpcc *mpcc; int mpcc_id; int bot_mpcc_id; REG_GET(MUX[tree->opp_id], MPC_OUT_MUX, &out_mux); if (out_mux != 0xf) { for (mpcc_id = 0; mpcc_id < mpc10->num_mpcc; mpcc_id++) { REG_GET(MPCC_OPP_ID[mpcc_id], MPCC_OPP_ID, &opp_id); REG_GET(MPCC_TOP_SEL[mpcc_id], MPCC_TOP_SEL, &top_sel); REG_GET(MPCC_BOT_SEL[mpcc_id], MPCC_BOT_SEL, &bot_sel); if (bot_sel == mpcc_id) bot_sel = 0xf; if ((opp_id == tree->opp_id) && (top_sel != 0xf)) { mpcc = mpc1_get_mpcc(mpc, mpcc_id); mpcc->dpp_id = top_sel; mpc10->mpcc_in_use_mask |= 1 << mpcc_id; if (out_mux == mpcc_id) tree->opp_list = mpcc; if (bot_sel != 0xf && bot_sel < mpc10->num_mpcc) { bot_mpcc_id = bot_sel; REG_GET(MPCC_OPP_ID[bot_mpcc_id], MPCC_OPP_ID, &opp_id); REG_GET(MPCC_TOP_SEL[bot_mpcc_id], MPCC_TOP_SEL, &top_sel); if ((opp_id == tree->opp_id) && (top_sel != 0xf)) { struct mpcc *mpcc_bottom = mpc1_get_mpcc(mpc, bot_mpcc_id); mpcc->mpcc_bot = mpcc_bottom; } } } } } } void mpc1_read_mpcc_state( struct mpc *mpc, int mpcc_inst, struct mpcc_state *s) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); REG_GET(MPCC_OPP_ID[mpcc_inst], MPCC_OPP_ID, &s->opp_id); REG_GET(MPCC_TOP_SEL[mpcc_inst], MPCC_TOP_SEL, &s->dpp_id); REG_GET(MPCC_BOT_SEL[mpcc_inst], MPCC_BOT_SEL, &s->bot_mpcc_id); REG_GET_4(MPCC_CONTROL[mpcc_inst], MPCC_MODE, &s->mode, MPCC_ALPHA_BLND_MODE, &s->alpha_mode, MPCC_ALPHA_MULTIPLIED_MODE, &s->pre_multiplied_alpha, MPCC_BLND_ACTIVE_OVERLAP_ONLY, &s->overlap_only); REG_GET_2(MPCC_STATUS[mpcc_inst], MPCC_IDLE, &s->idle, MPCC_BUSY, &s->busy); } void mpc1_cursor_lock(struct mpc *mpc, int opp_id, bool lock) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); REG_SET(CUR[opp_id], 0, CUR_VUPDATE_LOCK_SET, lock ? 1 : 0); } unsigned int mpc1_get_mpc_out_mux(struct mpc *mpc, int opp_id) { struct dcn10_mpc *mpc10 = TO_DCN10_MPC(mpc); uint32_t val = 0xf; if (opp_id < MAX_OPP && REG(MUX[opp_id])) REG_GET(MUX[opp_id], MPC_OUT_MUX, &val); return val; } static const struct mpc_funcs dcn10_mpc_funcs = { .read_mpcc_state = mpc1_read_mpcc_state, .insert_plane = mpc1_insert_plane, .remove_mpcc = mpc1_remove_mpcc, .mpc_init = mpc1_mpc_init, .mpc_init_single_inst = mpc1_mpc_init_single_inst, .get_mpcc_for_dpp = mpc1_get_mpcc_for_dpp, .wait_for_idle = mpc1_assert_idle_mpcc, .assert_mpcc_idle_before_connect = mpc1_assert_mpcc_idle_before_connect, .init_mpcc_list_from_hw = mpc1_init_mpcc_list_from_hw, .update_blending = mpc1_update_blending, .cursor_lock = mpc1_cursor_lock, .set_denorm = NULL, .set_denorm_clamp = NULL, .set_output_csc = NULL, .set_output_gamma = NULL, .get_mpc_out_mux = mpc1_get_mpc_out_mux, .set_bg_color = mpc1_set_bg_color, }; void dcn10_mpc_construct(struct dcn10_mpc *mpc10, struct dc_context *ctx, const struct dcn_mpc_registers *mpc_regs, const struct dcn_mpc_shift *mpc_shift, const struct dcn_mpc_mask *mpc_mask, int num_mpcc) { int i; mpc10->base.ctx = ctx; mpc10->base.funcs = &dcn10_mpc_funcs; mpc10->mpc_regs = mpc_regs; mpc10->mpc_shift = mpc_shift; mpc10->mpc_mask = mpc_mask; mpc10->mpcc_in_use_mask = 0; mpc10->num_mpcc = num_mpcc; for (i = 0; i < MAX_MPCC; i++) mpc1_init_mpcc(&mpc10->base.mpcc_array[i], i); }
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