Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
james qian wang (Arm Technology China) | 1611 | 92.59% | 13 | 68.42% |
Carsten Haitzler | 73 | 4.20% | 2 | 10.53% |
Lowry Li | 47 | 2.70% | 1 | 5.26% |
Dave Airlie | 3 | 0.17% | 1 | 5.26% |
Sam Ravnborg | 3 | 0.17% | 1 | 5.26% |
Ville Syrjälä | 3 | 0.17% | 1 | 5.26% |
Total | 1740 | 19 |
// SPDX-License-Identifier: GPL-2.0 /* * (C) COPYRIGHT 2018 ARM Limited. All rights reserved. * Author: James.Qian.Wang <james.qian.wang@arm.com> * */ #include <linux/of.h> #include <linux/seq_file.h> #include <drm/drm_print.h> #include "komeda_dev.h" #include "komeda_kms.h" #include "komeda_pipeline.h" /** komeda_pipeline_add - Add a pipeline to &komeda_dev */ struct komeda_pipeline * komeda_pipeline_add(struct komeda_dev *mdev, size_t size, const struct komeda_pipeline_funcs *funcs) { struct komeda_pipeline *pipe; if (mdev->n_pipelines + 1 > KOMEDA_MAX_PIPELINES) { DRM_ERROR("Exceed max support %d pipelines.\n", KOMEDA_MAX_PIPELINES); return ERR_PTR(-ENOSPC); } if (size < sizeof(*pipe)) { DRM_ERROR("Request pipeline size too small.\n"); return ERR_PTR(-EINVAL); } pipe = devm_kzalloc(mdev->dev, size, GFP_KERNEL); if (!pipe) return ERR_PTR(-ENOMEM); pipe->mdev = mdev; pipe->id = mdev->n_pipelines; pipe->funcs = funcs; mdev->pipelines[mdev->n_pipelines] = pipe; mdev->n_pipelines++; return pipe; } void komeda_pipeline_destroy(struct komeda_dev *mdev, struct komeda_pipeline *pipe) { struct komeda_component *c; int i; unsigned long avail_comps = pipe->avail_comps; for_each_set_bit(i, &avail_comps, 32) { c = komeda_pipeline_get_component(pipe, i); komeda_component_destroy(mdev, c); } clk_put(pipe->pxlclk); of_node_put(pipe->of_output_links[0]); of_node_put(pipe->of_output_links[1]); of_node_put(pipe->of_output_port); of_node_put(pipe->of_node); devm_kfree(mdev->dev, pipe); } static struct komeda_component ** komeda_pipeline_get_component_pos(struct komeda_pipeline *pipe, int id) { struct komeda_dev *mdev = pipe->mdev; struct komeda_pipeline *temp = NULL; struct komeda_component **pos = NULL; switch (id) { case KOMEDA_COMPONENT_LAYER0: case KOMEDA_COMPONENT_LAYER1: case KOMEDA_COMPONENT_LAYER2: case KOMEDA_COMPONENT_LAYER3: pos = to_cpos(pipe->layers[id - KOMEDA_COMPONENT_LAYER0]); break; case KOMEDA_COMPONENT_WB_LAYER: pos = to_cpos(pipe->wb_layer); break; case KOMEDA_COMPONENT_COMPIZ0: case KOMEDA_COMPONENT_COMPIZ1: temp = mdev->pipelines[id - KOMEDA_COMPONENT_COMPIZ0]; if (!temp) { DRM_ERROR("compiz-%d doesn't exist.\n", id); return NULL; } pos = to_cpos(temp->compiz); break; case KOMEDA_COMPONENT_SCALER0: case KOMEDA_COMPONENT_SCALER1: pos = to_cpos(pipe->scalers[id - KOMEDA_COMPONENT_SCALER0]); break; case KOMEDA_COMPONENT_SPLITTER: pos = to_cpos(pipe->splitter); break; case KOMEDA_COMPONENT_MERGER: pos = to_cpos(pipe->merger); break; case KOMEDA_COMPONENT_IPS0: case KOMEDA_COMPONENT_IPS1: temp = mdev->pipelines[id - KOMEDA_COMPONENT_IPS0]; if (!temp) { DRM_ERROR("ips-%d doesn't exist.\n", id); return NULL; } pos = to_cpos(temp->improc); break; case KOMEDA_COMPONENT_TIMING_CTRLR: pos = to_cpos(pipe->ctrlr); break; default: pos = NULL; DRM_ERROR("Unknown pipeline resource ID: %d.\n", id); break; } return pos; } struct komeda_component * komeda_pipeline_get_component(struct komeda_pipeline *pipe, int id) { struct komeda_component **pos = NULL; struct komeda_component *c = NULL; pos = komeda_pipeline_get_component_pos(pipe, id); if (pos) c = *pos; return c; } struct komeda_component * komeda_pipeline_get_first_component(struct komeda_pipeline *pipe, u32 comp_mask) { struct komeda_component *c = NULL; unsigned long comp_mask_local = (unsigned long)comp_mask; int id; id = find_first_bit(&comp_mask_local, 32); if (id < 32) c = komeda_pipeline_get_component(pipe, id); return c; } static struct komeda_component * komeda_component_pickup_input(struct komeda_component *c, u32 avail_comps) { u32 avail_inputs = c->supported_inputs & (avail_comps); return komeda_pipeline_get_first_component(c->pipeline, avail_inputs); } /** komeda_component_add - Add a component to &komeda_pipeline */ struct komeda_component * komeda_component_add(struct komeda_pipeline *pipe, size_t comp_sz, u32 id, u32 hw_id, const struct komeda_component_funcs *funcs, u8 max_active_inputs, u32 supported_inputs, u8 max_active_outputs, u32 __iomem *reg, const char *name_fmt, ...) { struct komeda_component **pos; struct komeda_component *c; int idx, *num = NULL; if (max_active_inputs > KOMEDA_COMPONENT_N_INPUTS) { WARN(1, "please large KOMEDA_COMPONENT_N_INPUTS to %d.\n", max_active_inputs); return ERR_PTR(-ENOSPC); } pos = komeda_pipeline_get_component_pos(pipe, id); if (!pos || (*pos)) return ERR_PTR(-EINVAL); if (has_bit(id, KOMEDA_PIPELINE_LAYERS)) { idx = id - KOMEDA_COMPONENT_LAYER0; num = &pipe->n_layers; if (idx != pipe->n_layers) { DRM_ERROR("please add Layer by id sequence.\n"); return ERR_PTR(-EINVAL); } } else if (has_bit(id, KOMEDA_PIPELINE_SCALERS)) { idx = id - KOMEDA_COMPONENT_SCALER0; num = &pipe->n_scalers; if (idx != pipe->n_scalers) { DRM_ERROR("please add Scaler by id sequence.\n"); return ERR_PTR(-EINVAL); } } c = devm_kzalloc(pipe->mdev->dev, comp_sz, GFP_KERNEL); if (!c) return ERR_PTR(-ENOMEM); c->id = id; c->hw_id = hw_id; c->reg = reg; c->pipeline = pipe; c->max_active_inputs = max_active_inputs; c->max_active_outputs = max_active_outputs; c->supported_inputs = supported_inputs; c->funcs = funcs; if (name_fmt) { va_list args; va_start(args, name_fmt); vsnprintf(c->name, sizeof(c->name), name_fmt, args); va_end(args); } if (num) *num = *num + 1; pipe->avail_comps |= BIT(c->id); *pos = c; return c; } void komeda_component_destroy(struct komeda_dev *mdev, struct komeda_component *c) { devm_kfree(mdev->dev, c); } static void komeda_component_dump(struct komeda_component *c) { if (!c) return; DRM_DEBUG(" %s: ID %d-0x%08lx.\n", c->name, c->id, BIT(c->id)); DRM_DEBUG(" max_active_inputs:%d, supported_inputs: 0x%08x.\n", c->max_active_inputs, c->supported_inputs); DRM_DEBUG(" max_active_outputs:%d, supported_outputs: 0x%08x.\n", c->max_active_outputs, c->supported_outputs); } void komeda_pipeline_dump(struct komeda_pipeline *pipe) { struct komeda_component *c; int id; unsigned long avail_comps = pipe->avail_comps; DRM_INFO("Pipeline-%d: n_layers: %d, n_scalers: %d, output: %s.\n", pipe->id, pipe->n_layers, pipe->n_scalers, pipe->dual_link ? "dual-link" : "single-link"); DRM_INFO(" output_link[0]: %s.\n", pipe->of_output_links[0] ? pipe->of_output_links[0]->full_name : "none"); DRM_INFO(" output_link[1]: %s.\n", pipe->of_output_links[1] ? pipe->of_output_links[1]->full_name : "none"); for_each_set_bit(id, &avail_comps, 32) { c = komeda_pipeline_get_component(pipe, id); komeda_component_dump(c); } } static void komeda_component_verify_inputs(struct komeda_component *c) { struct komeda_pipeline *pipe = c->pipeline; struct komeda_component *input; int id; unsigned long supported_inputs = c->supported_inputs; for_each_set_bit(id, &supported_inputs, 32) { input = komeda_pipeline_get_component(pipe, id); if (!input) { c->supported_inputs &= ~(BIT(id)); DRM_WARN("Can not find input(ID-%d) for component: %s.\n", id, c->name); continue; } input->supported_outputs |= BIT(c->id); } } static struct komeda_layer * komeda_get_layer_split_right_layer(struct komeda_pipeline *pipe, struct komeda_layer *left) { int index = left->base.id - KOMEDA_COMPONENT_LAYER0; int i; for (i = index + 1; i < pipe->n_layers; i++) if (left->layer_type == pipe->layers[i]->layer_type) return pipe->layers[i]; return NULL; } static void komeda_pipeline_assemble(struct komeda_pipeline *pipe) { struct komeda_component *c; struct komeda_layer *layer; int i, id; unsigned long avail_comps = pipe->avail_comps; for_each_set_bit(id, &avail_comps, 32) { c = komeda_pipeline_get_component(pipe, id); komeda_component_verify_inputs(c); } /* calculate right layer for the layer split */ for (i = 0; i < pipe->n_layers; i++) { layer = pipe->layers[i]; layer->right = komeda_get_layer_split_right_layer(pipe, layer); } if (pipe->dual_link && !pipe->ctrlr->supports_dual_link) { pipe->dual_link = false; DRM_WARN("PIPE-%d doesn't support dual-link, ignore DT dual-link configuration.\n", pipe->id); } } /* if pipeline_A accept another pipeline_B's component as input, treat * pipeline_B as slave of pipeline_A. */ struct komeda_pipeline * komeda_pipeline_get_slave(struct komeda_pipeline *master) { struct komeda_component *slave; slave = komeda_component_pickup_input(&master->compiz->base, KOMEDA_PIPELINE_COMPIZS); return slave ? slave->pipeline : NULL; } int komeda_assemble_pipelines(struct komeda_dev *mdev) { struct komeda_pipeline *pipe; int i; for (i = 0; i < mdev->n_pipelines; i++) { pipe = mdev->pipelines[i]; komeda_pipeline_assemble(pipe); } return 0; } void komeda_pipeline_dump_register(struct komeda_pipeline *pipe, struct seq_file *sf) { struct komeda_component *c; u32 id; unsigned long avail_comps; seq_printf(sf, "\n======== Pipeline-%d ==========\n", pipe->id); if (pipe->funcs && pipe->funcs->dump_register) pipe->funcs->dump_register(pipe, sf); avail_comps = pipe->avail_comps; for_each_set_bit(id, &avail_comps, 32) { c = komeda_pipeline_get_component(pipe, id); seq_printf(sf, "\n------%s------\n", c->name); if (c->funcs->dump_register) c->funcs->dump_register(c, sf); } }
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