// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (C) 2025, NVIDIA CORPORATION. All rights reserved. */ #include #include #include #include #include #include #include "mc.h" #include "tegra264-bwmgr.h" /* * MC Client entries are sorted in the increasing order of the * override and security register offsets. */ static const struct tegra_mc_client tegra264_mc_clients[] = { { .id = TEGRA264_MEMORY_CLIENT_HDAR, .name = "hdar", .bpmp_id = TEGRA264_BWMGR_HDA, .type = TEGRA_ICC_ISO_AUDIO, }, { .id = TEGRA264_MEMORY_CLIENT_HDAW, .name = "hdaw", .bpmp_id = TEGRA264_BWMGR_HDA, .type = TEGRA_ICC_ISO_AUDIO, }, { .id = TEGRA264_MEMORY_CLIENT_MGBE0R, .name = "mgbe0r", .bpmp_id = TEGRA264_BWMGR_EQOS, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_MGBE0W, .name = "mgbe0w", .bpmp_id = TEGRA264_BWMGR_EQOS, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_MGBE1R, .name = "mgbe1r", .bpmp_id = TEGRA264_BWMGR_EQOS, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_MGBE1W, .name = "mgbe1w", .bpmp_id = TEGRA264_BWMGR_EQOS, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_SDMMC0R, .name = "sdmmc0r", .bpmp_id = TEGRA264_BWMGR_SDMMC_1, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_SDMMC0W, .name = "sdmmc0w", .bpmp_id = TEGRA264_BWMGR_SDMMC_1, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_VICR, .name = "vicr", .bpmp_id = TEGRA264_BWMGR_VIC, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_VICW, .name = "vicw", .bpmp_id = TEGRA264_BWMGR_VIC, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_APER, .name = "aper", .bpmp_id = TEGRA264_BWMGR_APE, .type = TEGRA_ICC_ISO_AUDIO, }, { .id = TEGRA264_MEMORY_CLIENT_APEW, .name = "apew", .bpmp_id = TEGRA264_BWMGR_APE, .type = TEGRA_ICC_ISO_AUDIO, }, { .id = TEGRA264_MEMORY_CLIENT_APEDMAR, .name = "apedmar", .bpmp_id = TEGRA264_BWMGR_APEDMA, .type = TEGRA_ICC_ISO_AUDIO, }, { .id = TEGRA264_MEMORY_CLIENT_APEDMAW, .name = "apedmaw", .bpmp_id = TEGRA264_BWMGR_APEDMA, .type = TEGRA_ICC_ISO_AUDIO, }, { .id = TEGRA264_MEMORY_CLIENT_VIFALCONR, .name = "vifalconr", .bpmp_id = TEGRA264_BWMGR_VIFAL, .type = TEGRA_ICC_ISO_VIFAL, }, { .id = TEGRA264_MEMORY_CLIENT_VIFALCONW, .name = "vifalconw", .bpmp_id = TEGRA264_BWMGR_VIFAL, .type = TEGRA_ICC_ISO_VIFAL, }, { .id = TEGRA264_MEMORY_CLIENT_RCER, .name = "rcer", .bpmp_id = TEGRA264_BWMGR_RCE, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_RCEW, .name = "rcew", .bpmp_id = TEGRA264_BWMGR_RCE, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE0W, .name = "pcie0w", .bpmp_id = TEGRA264_BWMGR_PCIE_0, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE1R, .name = "pcie1r", .bpmp_id = TEGRA264_BWMGR_PCIE_1, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE1W, .name = "pcie1w", .bpmp_id = TEGRA264_BWMGR_PCIE_1, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE2AR, .name = "pcie2ar", .bpmp_id = TEGRA264_BWMGR_PCIE_2, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE2AW, .name = "pcie2aw", .bpmp_id = TEGRA264_BWMGR_PCIE_2, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE3R, .name = "pcie3r", .bpmp_id = TEGRA264_BWMGR_PCIE_3, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE3W, .name = "pcie3w", .bpmp_id = TEGRA264_BWMGR_PCIE_3, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE4R, .name = "pcie4r", .bpmp_id = TEGRA264_BWMGR_PCIE_4, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE4W, .name = "pcie4w", .bpmp_id = TEGRA264_BWMGR_PCIE_4, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE5R, .name = "pcie5r", .bpmp_id = TEGRA264_BWMGR_PCIE_5, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_PCIE5W, .name = "pcie5w", .bpmp_id = TEGRA264_BWMGR_PCIE_5, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_GPUR02MC, .name = "gpur02mc", .bpmp_id = TEGRA264_BWMGR_GPU, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_GPUW02MC, .name = "gpuw02mc", .bpmp_id = TEGRA264_BWMGR_GPU, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_NVDECSRD2MC, .name = "nvdecsrd2mc", .bpmp_id = TEGRA264_BWMGR_NVDEC, .type = TEGRA_ICC_NISO, }, { .id = TEGRA264_MEMORY_CLIENT_NVDECSWR2MC, .name = "nvdecswr2mc", .bpmp_id = TEGRA264_BWMGR_NVDEC, .type = TEGRA_ICC_NISO, }, }; /* * tegra264_mc_icc_set() - Pass MC client info to the BPMP-FW * @src: ICC node for Memory Controller's (MC) Client * @dst: ICC node for Memory Controller (MC) * * Passing the current request info from the MC to the BPMP-FW where * LA and PTSA registers are accessed and the final EMC freq is set * based on client_id, type, latency and bandwidth. * icc_set_bw() makes set_bw calls for both MC and EMC providers in * sequence. Both the calls are protected by 'mutex_lock(&icc_lock)'. * So, the data passed won't be updated by concurrent set calls from * other clients. */ static int tegra264_mc_icc_set(struct icc_node *src, struct icc_node *dst) { struct tegra_mc *mc = icc_provider_to_tegra_mc(dst->provider); struct mrq_bwmgr_int_request bwmgr_req = { 0 }; struct mrq_bwmgr_int_response bwmgr_resp = { 0 }; const struct tegra_mc_client *pclient = src->data; struct tegra_bpmp_message msg; int ret; /* * Same Src and Dst node will happen during boot from icc_node_add(). * This can be used to pre-initialize and set bandwidth for all clients * before their drivers are loaded. We are skipping this case as for us, * the pre-initialization already happened in Bootloader(MB2) and BPMP-FW. */ if (src->id == dst->id) return 0; if (!mc->bwmgr_mrq_supported) return 0; if (!mc->bpmp) { dev_err(mc->dev, "BPMP reference NULL\n"); return -ENOENT; } if (pclient->type == TEGRA_ICC_NISO) bwmgr_req.bwmgr_calc_set_req.niso_bw = src->avg_bw; else bwmgr_req.bwmgr_calc_set_req.iso_bw = src->avg_bw; bwmgr_req.bwmgr_calc_set_req.client_id = pclient->bpmp_id; bwmgr_req.cmd = CMD_BWMGR_INT_CALC_AND_SET; bwmgr_req.bwmgr_calc_set_req.mc_floor = src->peak_bw; bwmgr_req.bwmgr_calc_set_req.floor_unit = BWMGR_INT_UNIT_KBPS; memset(&msg, 0, sizeof(msg)); msg.mrq = MRQ_BWMGR_INT; msg.tx.data = &bwmgr_req; msg.tx.size = sizeof(bwmgr_req); msg.rx.data = &bwmgr_resp; msg.rx.size = sizeof(bwmgr_resp); ret = tegra_bpmp_transfer(mc->bpmp, &msg); if (ret < 0) { dev_err(mc->dev, "BPMP transfer failed: %d\n", ret); goto error; } if (msg.rx.ret < 0) { pr_err("failed to set bandwidth for %u: %d\n", bwmgr_req.bwmgr_calc_set_req.client_id, msg.rx.ret); ret = -EINVAL; } error: return ret; } static int tegra264_mc_icc_aggregate(struct icc_node *node, u32 tag, u32 avg_bw, u32 peak_bw, u32 *agg_avg, u32 *agg_peak) { struct icc_provider *p = node->provider; struct tegra_mc *mc = icc_provider_to_tegra_mc(p); if (!mc->bwmgr_mrq_supported) return 0; *agg_avg += avg_bw; *agg_peak = max(*agg_peak, peak_bw); return 0; } static int tegra264_mc_icc_get_init_bw(struct icc_node *node, u32 *avg, u32 *peak) { *avg = 0; *peak = 0; return 0; } static const struct tegra_mc_icc_ops tegra264_mc_icc_ops = { .xlate = tegra_mc_icc_xlate, .aggregate = tegra264_mc_icc_aggregate, .get_bw = tegra264_mc_icc_get_init_bw, .set = tegra264_mc_icc_set, }; const struct tegra_mc_soc tegra264_mc_soc = { .num_clients = ARRAY_SIZE(tegra264_mc_clients), .clients = tegra264_mc_clients, .num_address_bits = 40, .num_channels = 16, .client_id_mask = 0x1ff, .intmask = MC_INT_DECERR_ROUTE_SANITY | MC_INT_DECERR_GENERALIZED_CARVEOUT | MC_INT_DECERR_MTS | MC_INT_SECERR_SEC | MC_INT_DECERR_VPR | MC_INT_SECURITY_VIOLATION | MC_INT_DECERR_EMEM, .has_addr_hi_reg = true, .ops = &tegra186_mc_ops, .icc_ops = &tegra264_mc_icc_ops, .ch_intmask = 0x0000ff00, .global_intstatus_channel_shift = 8, /* * Additionally, there are lite carveouts but those are not currently * supported. */ .num_carveouts = 32, };