/* * Copyright 2015 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 */ #ifndef DRIVERS_GPU_DRM_AMD_DC_DEV_DC_INC_RESOURCE_H_ #define DRIVERS_GPU_DRM_AMD_DC_DEV_DC_INC_RESOURCE_H_ #include "core_types.h" #include "core_status.h" #include "dal_asic_id.h" #include "dm_pp_smu.h" #include "spl/dc_spl.h" #define MEMORY_TYPE_MULTIPLIER_CZ 4 #define MEMORY_TYPE_HBM 2 #define IS_PIPE_SYNCD_VALID(pipe) ((((pipe)->pipe_idx_syncd) & 0x80)?1:0) #define GET_PIPE_SYNCD_FROM_PIPE(pipe) ((pipe)->pipe_idx_syncd & 0x7F) #define SET_PIPE_SYNCD_TO_PIPE(pipe, pipe_syncd) ((pipe)->pipe_idx_syncd = (0x80 | pipe_syncd)) enum dce_version resource_parse_asic_id( struct hw_asic_id asic_id); struct resource_caps { int num_timing_generator; int num_opp; int num_video_plane; int num_audio; int num_stream_encoder; int num_pll; int num_dwb; int num_ddc; int num_vmid; int num_dsc; unsigned int num_dig_link_enc; // Total number of DIGs (digital encoders) in DIO (Display Input/Output). unsigned int num_usb4_dpia; // Total number of USB4 DPIA (DisplayPort Input Adapters). int num_hpo_dp_stream_encoder; int num_hpo_dp_link_encoder; int num_mpc_3dlut; }; struct resource_straps { uint32_t hdmi_disable; uint32_t dc_pinstraps_audio; uint32_t audio_stream_number; }; struct resource_create_funcs { void (*read_dce_straps)( struct dc_context *ctx, struct resource_straps *straps); struct audio *(*create_audio)( struct dc_context *ctx, unsigned int inst); struct stream_encoder *(*create_stream_encoder)( enum engine_id eng_id, struct dc_context *ctx); struct hpo_dp_stream_encoder *(*create_hpo_dp_stream_encoder)( enum engine_id eng_id, struct dc_context *ctx); struct hpo_dp_link_encoder *(*create_hpo_dp_link_encoder)( uint8_t inst, struct dc_context *ctx); struct dce_hwseq *(*create_hwseq)( struct dc_context *ctx); }; bool resource_construct( unsigned int num_virtual_links, struct dc *dc, struct resource_pool *pool, const struct resource_create_funcs *create_funcs); struct resource_pool *dc_create_resource_pool(struct dc *dc, const struct dc_init_data *init_data, enum dce_version dc_version); void dc_destroy_resource_pool(struct dc *dc); enum dc_status resource_map_pool_resources( const struct dc *dc, struct dc_state *context, struct dc_stream_state *stream); void resource_build_test_pattern_params( struct resource_context *res_ctx, struct pipe_ctx *pipe_ctx); bool resource_build_scaling_params(struct pipe_ctx *pipe_ctx); enum dc_status resource_build_scaling_params_for_context( const struct dc *dc, struct dc_state *context); void resource_build_info_frame(struct pipe_ctx *pipe_ctx); void resource_unreference_clock_source( struct resource_context *res_ctx, const struct resource_pool *pool, struct clock_source *clock_source); void resource_reference_clock_source( struct resource_context *res_ctx, const struct resource_pool *pool, struct clock_source *clock_source); int resource_get_clock_source_reference( struct resource_context *res_ctx, const struct resource_pool *pool, struct clock_source *clock_source); bool resource_are_streams_timing_synchronizable( struct dc_stream_state *stream1, struct dc_stream_state *stream2); bool resource_are_vblanks_synchronizable( struct dc_stream_state *stream1, struct dc_stream_state *stream2); struct clock_source *resource_find_used_clk_src_for_sharing( struct resource_context *res_ctx, struct pipe_ctx *pipe_ctx); struct clock_source *dc_resource_find_first_free_pll( struct resource_context *res_ctx, const struct resource_pool *pool); bool resource_attach_surfaces_to_context( struct dc_plane_state *const *plane_state, int surface_count, struct dc_stream_state *dc_stream, struct dc_state *context, const struct resource_pool *pool); #define FREE_PIPE_INDEX_NOT_FOUND -1 /* * pipe types are identified based on MUXes in DCN front end that are capable * of taking input from one DCN pipeline to another DCN pipeline. The name is * in a form of XXXX_YYYY, where XXXX is the DCN front end hardware block the * pipeline ends with and YYYY is the rendering role that the pipe is in. * * For instance OTG_MASTER is a pipe ending with OTG hardware block in its * pipeline and it is in a role of a master pipe for timing generation. * * For quick reference a diagram of each pipe type's areas of responsibility * for outputting timings on the screen is shown below: * * Timing Active for Stream 0 * __________________________________________________ * |OTG master 0 (OPP head 0)|OPP head 2 (DPP pipe 2) | * | (DPP pipe 0)| | * | Top Plane 0 | | * | ______________|____ | * | |DPP pipe 1 |DPP | | * | | |pipe| | * | | Bottom |3 | | * | | Plane 1 | | | * | | | | | * | |______________|____| | * | | | * | | | * | ODM slice 0 | ODM slice 1 | * |_________________________|________________________| * * Timing Active for Stream 1 * __________________________________________________ * |OTG master 4 (OPP head 4) | * | | * | | * | | * | | * | | * | Blank Pixel Data | * | (generated by DPG4) | * | | * | | * | | * | | * | | * |__________________________________________________| * * Inter-pipe Relation * __________________________________________________ * |PIPE IDX| DPP PIPES | OPP HEADS | OTG MASTER | * | | plane 0 | slice 0 | | * | 0 | -------------MPC---------ODM----------- | * | | plane 1 | | | | | * | 1 | ------------- | | | | * | | plane 0 | slice 1 | | | * | 2 | -------------MPC--------- | | * | | plane 1 | | | | * | 3 | ------------- | | | * | | | blank | | * | 4 | | ----------------------- | * | | | | | * | 5 | (FREE) | | | * |________|_______________|___________|_____________| * * The following is a quick reference of the class relation: * * DC state ---1--------0..N--- streams * * stream ---1-----------1--- OTG Master pipe * * OTG Master pipe ---1--------1..N--- OPP Head pipes * * OPP Head pipe ---1--------0..N--- DPP pipes * * stream ---1--------0..N--- Planes * * Plane ---1--------1..N--- DPP pipes * */ enum pipe_type { /* free pipe - free pipe is an uninitialized pipe without a stream * associated with it. It is a free DCN pipe resource. It can be * acquired as any type of pipe. */ FREE_PIPE, /* OTG master pipe - the master pipe of its OPP head pipes with a * functional OTG. It merges all its OPP head pipes pixel data in ODM * block and output to back end DIG. OTG master pipe is responsible for * generating entire CRTC timing to back end DIG. An OTG master pipe may * or may not have a plane. If it has a plane it blends it as the left * most MPC slice of the top most layer. If it doesn't have a plane it * can output pixel data from its OPP head pipes' test pattern * generators (DPG) such as solid black pixel data to blank the screen. */ OTG_MASTER, /* OPP head pipe - the head pipe of an MPC blending tree with a * functional OPP outputting to an OTG. OPP head pipe is responsible for * processing output pixels in its own ODM slice. It may or may not have * a plane. If it has a plane it blends it as the top most layer within * its own ODM slice. If it doesn't have a plane it can output pixel * data from its DPG such as solid black pixel data to blank the pixel * data in its own ODM slice. OTG master pipe is also an OPP head pipe * but with more responsibility. */ OPP_HEAD, /* DPP pipe - the pipe with a functional DPP outputting to an OPP head * pipe's MPC. DPP pipe is responsible for processing pixel data from * its own MPC slice of a plane. It must be connected to an OPP head * pipe and it must have a plane associated with it. */ DPP_PIPE, }; /* * Determine if the input pipe_ctx is of a pipe type. * return - true if pipe_ctx is of the input type. */ bool resource_is_pipe_type(const struct pipe_ctx *pipe_ctx, enum pipe_type type); /* * Acquire a pipe as OTG master pipe and allocate pipe resources required to * enable stream output. */ enum dc_status resource_add_otg_master_for_stream_output(struct dc_state *new_ctx, const struct resource_pool *pool, struct dc_stream_state *stream); /* * Release pipe resources and the OTG master pipe associated with the stream * The stream must have all planes removed and ODM/MPC slice counts are reset * to 1 before invoking this interface. */ void resource_remove_otg_master_for_stream_output(struct dc_state *new_ctx, const struct resource_pool *pool, struct dc_stream_state *stream); /* * Add plane to the bottom most layer in plane composition and allocate DPP pipe * resources as needed. * return - true if plane is added in plane composition, false otherwise. */ bool resource_append_dpp_pipes_for_plane_composition( struct dc_state *new_ctx, struct dc_state *cur_ctx, struct resource_pool *pool, struct pipe_ctx *otg_master_pipe, struct dc_plane_state *plane_state); /* * Add plane to the bottom most layer in plane composition and allocate DPP pipe * resources as needed. * return - true if plane is added in plane composition, false otherwise. */ void resource_remove_dpp_pipes_for_plane_composition( struct dc_state *context, const struct resource_pool *pool, const struct dc_plane_state *plane_state); /* * Update ODM slice count by acquiring or releasing pipes. If new slices need * to be added, it is going to add them to the last ODM index. If existing * slices need to be removed, it is going to remove them from the last ODM * index. * * return - true if ODM slices are updated and required pipes are acquired. All * affected pipe parameters are updated. * * false if resource fails to complete this update. The function is not designed * to recover the creation of invalid topologies. Returning false is typically * an indication of insufficient validation in caller's stack. new_ctx will be * invalid. Caller may attempt to restore new_ctx by calling this function * again with original slice count. */ bool resource_update_pipes_for_stream_with_slice_count( struct dc_state *new_ctx, const struct dc_state *cur_ctx, const struct resource_pool *pool, const struct dc_stream_state *stream, int new_slice_count); /* * Update MPC slice count by acquiring or releasing DPP pipes. If new slices * need to be added it is going to add to the last MPC index. If existing * slices need to be removed, it is going to remove them from the last MPC * index. * * @dpp_pipe - top most dpp pipe for MPCC combine. * * return - true if MPC slices are updated and required pipes are acquired. All * affected pipe parameters are updated. * * false if resource fails to complete this update. The function is not designed * to recover the creation of invalid topologies. Returning false is typically * an indication of insufficient validation in caller's stack. new_ctx will be * invalid. Caller may attempt to restore new_ctx by calling this function * again with original slice count. */ bool resource_update_pipes_for_plane_with_slice_count( struct dc_state *new_ctx, const struct dc_state *cur_ctx, const struct resource_pool *pool, const struct dc_plane_state *plane, int slice_count); /* * Get the OTG master pipe in resource context associated with the stream. * return - NULL if not found. Otherwise the OTG master pipe associated with the * stream. */ struct pipe_ctx *resource_get_otg_master_for_stream( struct resource_context *res_ctx, const struct dc_stream_state *stream); /* * Get an array of OPP heads in opp_heads ordered with index low to high for OTG * master pipe in res_ctx. * return - number of OPP heads in the array. If otg_master passed in is not * an OTG master, the function returns 0. */ int resource_get_opp_heads_for_otg_master(const struct pipe_ctx *otg_master, struct resource_context *res_ctx, struct pipe_ctx *opp_heads[MAX_PIPES]); /* * Get an array of DPP pipes in dpp_pipes ordered with index low to high for OPP * head pipe in res_ctx. * return - number of DPP pipes in the array. If opp_head passed in is not * an OPP pipe, the function returns 0. */ int resource_get_dpp_pipes_for_opp_head(const struct pipe_ctx *opp_head, struct resource_context *res_ctx, struct pipe_ctx *dpp_pipes[MAX_PIPES]); /* * Get an array of DPP pipes in dpp_pipes ordered with index low to high for * plane in res_ctx. * return - number of DPP pipes in the array. */ int resource_get_dpp_pipes_for_plane(const struct dc_plane_state *plane, struct resource_context *res_ctx, struct pipe_ctx *dpp_pipes[MAX_PIPES]); /* * Get the OTG master pipe for the input pipe context. * return - the OTG master pipe for the input pipe * context. */ struct pipe_ctx *resource_get_otg_master(const struct pipe_ctx *pipe_ctx); /* * Get the OPP head pipe for the input pipe context. * return - the OPP head pipe for the input pipe * context. */ struct pipe_ctx *resource_get_opp_head(const struct pipe_ctx *pipe_ctx); /* * Get the DPP pipe allocated for MPC slice 0 and ODM slice 0 of the plane * associated with dpp_pipe. */ struct pipe_ctx *resource_get_primary_dpp_pipe(const struct pipe_ctx *dpp_pipe); /* * Get the MPC slice index counting from 0 from left most slice * For example, if a DPP pipe is used as a secondary pipe in MPCC combine, MPC * split index is greater than 0. */ int resource_get_mpc_slice_index(const struct pipe_ctx *dpp_pipe); /* * Get the number of MPC slices associated with the pipe. * The function returns 0 if the pipe is not associated with an MPC combine * pipe topology. */ int resource_get_mpc_slice_count(const struct pipe_ctx *pipe); /* * Get the number of ODM slices associated with the pipe. * The function returns 0 if the pipe is not associated with an ODM combine * pipe topology. */ int resource_get_odm_slice_count(const struct pipe_ctx *pipe); /* Get the ODM slice index counting from 0 from left most slice */ int resource_get_odm_slice_index(const struct pipe_ctx *opp_head); /* Get ODM slice source rect in timing active as input to OPP block */ struct rect resource_get_odm_slice_src_rect(struct pipe_ctx *pipe_ctx); /* Get ODM slice destination rect in timing active as output from OPP block */ struct rect resource_get_odm_slice_dst_rect(struct pipe_ctx *pipe_ctx); /* Get ODM slice destination width in timing active as output from OPP block */ int resource_get_odm_slice_dst_width(struct pipe_ctx *otg_master, bool is_last_segment); /* determine if pipe topology is changed between state a and state b */ bool resource_is_pipe_topology_changed(const struct dc_state *state_a, const struct dc_state *state_b); /* * determine if the two OTG master pipes have the same ODM topology * return * false - if pipes passed in are not OTG masters or ODM topology is * changed. * true - otherwise */ bool resource_is_odm_topology_changed(const struct pipe_ctx *otg_master_a, const struct pipe_ctx *otg_master_b); /* log the pipe topology update in state */ void resource_log_pipe_topology_update(struct dc *dc, struct dc_state *state); /* * Look for a free pipe in new resource context that is used as a secondary OPP * head by cur_otg_master. * * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int resource_find_free_pipe_used_as_sec_opp_head_by_cur_otg_master( const struct resource_context *cur_res_ctx, struct resource_context *new_res_ctx, const struct pipe_ctx *cur_otg_master); /* * Look for a free pipe in new resource context that is used as a secondary DPP * pipe in MPC blending tree associated with input OPP head pipe. * * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int resource_find_free_pipe_used_in_cur_mpc_blending_tree( const struct resource_context *cur_res_ctx, struct resource_context *new_res_ctx, const struct pipe_ctx *cur_opp_head); /* * Look for a free pipe in new resource context that is not used in current * resource context. * * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int recource_find_free_pipe_not_used_in_cur_res_ctx( const struct resource_context *cur_res_ctx, struct resource_context *new_res_ctx, const struct resource_pool *pool); /* * Look for a free pipe in new resource context that is used in current resource * context as an OTG master pipe. * * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int recource_find_free_pipe_used_as_otg_master_in_cur_res_ctx( const struct resource_context *cur_res_ctx, struct resource_context *new_res_ctx, const struct resource_pool *pool); /* * Look for a free pipe in new resource context that is used as a secondary DPP * pipe in current resource context. * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int resource_find_free_pipe_used_as_cur_sec_dpp( const struct resource_context *cur_res_ctx, struct resource_context *new_res_ctx, const struct resource_pool *pool); /* * Look for a free pipe in new resource context that is used as a secondary DPP * pipe in any MPCC combine in current resource context. * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int resource_find_free_pipe_used_as_cur_sec_dpp_in_mpcc_combine( const struct resource_context *cur_res_ctx, struct resource_context *new_res_ctx, const struct resource_pool *pool); /* * Look for any free pipe in new resource context. * return - FREE_PIPE_INDEX_NOT_FOUND if free pipe is not found, otherwise * pipe idx of the free pipe */ int resource_find_any_free_pipe(struct resource_context *new_res_ctx, const struct resource_pool *pool); /* * Legacy find free secondary pipe logic deprecated for newer DCNs as it doesn't * find the most optimal free pipe to prevent from time consuming hardware state * transitions. */ struct pipe_ctx *resource_find_free_secondary_pipe_legacy( struct resource_context *res_ctx, const struct resource_pool *pool, const struct pipe_ctx *primary_pipe); bool resource_validate_attach_surfaces( const struct dc_validation_set set[], int set_count, const struct dc_state *old_context, struct dc_state *context, const struct resource_pool *pool); enum dc_status resource_map_clock_resources( const struct dc *dc, struct dc_state *context, struct dc_stream_state *stream); enum dc_status resource_map_phy_clock_resources( const struct dc *dc, struct dc_state *context, struct dc_stream_state *stream); bool pipe_need_reprogram( struct pipe_ctx *pipe_ctx_old, struct pipe_ctx *pipe_ctx); void resource_build_bit_depth_reduction_params(struct dc_stream_state *stream, struct bit_depth_reduction_params *fmt_bit_depth); void update_audio_usage( struct resource_context *res_ctx, const struct resource_pool *pool, struct audio *audio, bool acquired); unsigned int resource_pixel_format_to_bpp(enum surface_pixel_format format); bool get_temp_dp_link_res(struct dc_link *link, struct link_resource *link_res, struct dc_link_settings *link_settings); void reset_syncd_pipes_from_disabled_pipes(struct dc *dc, struct dc_state *context); void check_syncd_pipes_for_disabled_master_pipe(struct dc *dc, struct dc_state *context, uint8_t disabled_master_pipe_idx); void reset_sync_context_for_pipe(const struct dc *dc, struct dc_state *context, uint8_t pipe_idx); uint8_t resource_transmitter_to_phy_idx(const struct dc *dc, enum transmitter transmitter); const struct link_hwss *get_link_hwss(const struct dc_link *link, const struct link_resource *link_res); bool is_h_timing_divisible_by_2(struct dc_stream_state *stream); bool dc_resource_acquire_secondary_pipe_for_mpc_odm_legacy( const struct dc *dc, struct dc_state *state, struct pipe_ctx *pri_pipe, struct pipe_ctx *sec_pipe, bool odm); /* A test harness interface that modifies dp encoder resources in the given dc * state and bypasses the need to revalidate. The interface assumes that the * test harness interface is called with pre-validated link config stored in the * pipe_ctx and updates dp encoder resources according to the link config. */ enum dc_status update_dp_encoder_resources_for_test_harness(const struct dc *dc, struct dc_state *context, struct pipe_ctx *pipe_ctx); bool check_subvp_sw_cursor_fallback_req(const struct dc *dc, struct dc_stream_state *stream); /* Get hw programming parameters container from pipe context * @pipe_ctx: pipe context * @dscl_prog_data: struct to hold programmable hw reg values */ struct dscl_prog_data *resource_get_dscl_prog_data(struct pipe_ctx *pipe_ctx); /* Setup dc callbacks for dml2 * @dc: the display core structure * @dml2_options: struct to hold callbacks */ void resource_init_common_dml2_callbacks(struct dc *dc, struct dml2_configuration_options *dml2_options); /* *Calculate total DET allocated for all pipes for a given OTG_MASTER pipe */ int resource_calculate_det_for_stream(struct dc_state *state, struct pipe_ctx *otg_master); bool resource_is_hpo_acquired(struct dc_state *context); #endif /* DRIVERS_GPU_DRM_AMD_DC_DEV_DC_INC_RESOURCE_H_ */