/* SPDX-License-Identifier: MIT */ #include "mcc.h" #include "adt.h" #include "hv.h" #include "memory.h" #include "utils.h" static bool mcc_initialized = false; #define MAX_MCC_INSTANCES 16 #define T8103_PLANES 4 #define T8103_PLANE_STRIDE 0x40000 #define T8103_DCS_STRIDE 0x40000 #define T6000_PLANES 4 #define T6000_PLANE_OFFSET 0 #define T6000_PLANE_STRIDE 0x40000 #define T6000_GLOBAL_OFFSET 0x100000 #define T6000_DCS_OFFSET 0x200000 #define T6000_DCS_STRIDE 0x100000 #define T6000_DCS_COUNT 4 #define PLANE_TZ_START(i) (0x6a0 + i * 0x10) #define PLANE_TZ_END(i) (0x6a4 + i * 0x10) #define PLANE_TZ_REGS 4 #define PLANE_CACHE_ENABLE 0x1c00 #define PLANE_CACHE_STATUS 0x1c04 #define T8103_CACHE_STATUS_DATA_COUNT GENMASK(14, 10) #define T8103_CACHE_STATUS_TAG_COUNT GENMASK(9, 5) #define T6000_CACHE_STATUS_DATA_COUNT GENMASK(13, 9) #define T6000_CACHE_STATUS_TAG_COUNT GENMASK(8, 4) #define T6000_CACHE_WAYS 12 #define T6000_CACHE_STATUS_MASK (T6000_CACHE_STATUS_DATA_COUNT | T6000_CACHE_STATUS_TAG_COUNT) #define T6000_CACHE_STATUS_VAL \ (FIELD_PREP(T6000_CACHE_STATUS_DATA_COUNT, T6000_CACHE_WAYS) | \ FIELD_PREP(T6000_CACHE_STATUS_TAG_COUNT, T6000_CACHE_WAYS)) #define T8103_CACHE_WAYS 16 #define T8103_CACHE_STATUS_MASK (T8103_CACHE_STATUS_DATA_COUNT | T8103_CACHE_STATUS_TAG_COUNT) #define T8103_CACHE_STATUS_VAL \ (FIELD_PREP(T8103_CACHE_STATUS_DATA_COUNT, T8103_CACHE_WAYS) | \ FIELD_PREP(T8103_CACHE_STATUS_TAG_COUNT, T8103_CACHE_WAYS)) #define CACHE_ENABLE_TIMEOUT 10000 #define T8103_DCC_DRAMCFG0 0xdc4 #define T8103_DCC_DRAMCFG1 0xdbc #define T8103_DCC_DRAMCFG0_DEFAULT 0x813057f #define T8103_DCC_DRAMCFG1_DEFAULT 0x1800180 #define T8103_DCC_DRAMCFG0_FAST 0x133 #define T8103_DCC_DRAMCFG1_FAST 0x55555340 #define T6000_DCC_DRAMCFG 0x13cc #define T6000_DCC_DRAMCFG_DEFAULT 0x55551555 #define T6000_DCC_DRAMCFG_FAST 0xffff0000 struct mcc_regs { u64 plane_base; u64 plane_stride; int plane_count; u64 global_base; u64 dcs_base; u64 dcs_stride; int dcs_count; int cache_ways; u32 cache_status_mask; u32 cache_status_val; }; static int mcc_count; static struct mcc_regs mcc_regs[MAX_MCC_INSTANCES]; static u32 plane_read32(int mcc, int plane, u64 offset) { return read32(mcc_regs[mcc].plane_base + plane * mcc_regs[mcc].plane_stride + offset); } static void plane_write32(int mcc, int plane, u64 offset, u32 value) { write32(mcc_regs[mcc].plane_base + plane * mcc_regs[mcc].plane_stride + offset, value); } static int plane_poll32(int mcc, int plane, u64 offset, u32 mask, u32 target, u32 timeout) { return poll32(mcc_regs[mcc].plane_base + plane * mcc_regs[mcc].plane_stride + offset, mask, target, timeout); } static void mcc_enable_cache(void) { for (int mcc = 0; mcc < mcc_count; mcc++) { for (int plane = 0; plane < mcc_regs[mcc].plane_count; plane++) { plane_write32(mcc, plane, PLANE_CACHE_ENABLE, mcc_regs[mcc].cache_ways); if (plane_poll32(mcc, plane, PLANE_CACHE_STATUS, mcc_regs[mcc].cache_status_mask, mcc_regs[mcc].cache_status_val, CACHE_ENABLE_TIMEOUT)) printf("MCC: timeout while enabling cache for MCC %d plane %d: 0x%x\n", mcc, plane, plane_read32(mcc, plane, PLANE_CACHE_STATUS)); } } } int mcc_unmap_carveouts(void) { // All MCCs and planes should have identical configs for (int i = 0; i < PLANE_TZ_REGS; i++) { uint64_t start = ((uint64_t)plane_read32(0, 0, PLANE_TZ_START(i))) << 12; uint64_t end = ((uint64_t)(1 + plane_read32(0, 0, PLANE_TZ_END(i)))) << 12; if (start && start != end) { start |= ram_base; end |= ram_base; printf("MMU: Unmapping TZ%d region at 0x%lx..0x%lx\n", i, start, end); mmu_rm_mapping(start, end - start); } } return 0; } int mcc_hv_unmap_carveouts(void) { // All MCCs and planes should have identical configs for (int i = 0; i < PLANE_TZ_REGS; i++) { uint64_t start = ((uint64_t)plane_read32(0, 0, PLANE_TZ_START(i))) << 12; uint64_t end = ((uint64_t)(1 + plane_read32(0, 0, PLANE_TZ_END(i)))) << 12; if (start && start != end) { start |= ram_base; end |= ram_base; printf("HV: MMU: Unmapping TZ%d region at 0x%lx..0x%lx\n", i, start, end); hv_unmap(start, end - start); } } return 0; } int mcc_init_t8103(int node, int *path) { printf("MCC: Initializing T8103 MCC...\n"); mcc_count = 1; mcc_regs[0].plane_stride = T8103_PLANE_STRIDE; mcc_regs[0].plane_count = T8103_PLANES; mcc_regs[0].dcs_stride = T8103_DCS_STRIDE; if (adt_get_reg(adt, path, "reg", 0, &mcc_regs[0].global_base, NULL)) { printf("MCC: Failed to get reg property 0!\n"); return -1; } if (adt_get_reg(adt, path, "reg", 1, &mcc_regs[0].plane_base, NULL)) { printf("MCC: Failed to get reg property 1!\n"); return -1; } if (adt_get_reg(adt, path, "reg", 2, &mcc_regs[0].dcs_base, NULL)) { printf("MCC: Failed to get reg property 2!\n"); return -1; } u32 val; if (ADT_GETPROP(adt, node, "dcs_num_channels", &val) < 0) { printf("MCC: Failed to get dcs_num_channels property!\n"); return -1; } mcc_regs[0].dcs_count = val; mcc_regs[0].cache_ways = T8103_CACHE_WAYS; mcc_regs[0].cache_status_mask = T8103_CACHE_STATUS_MASK; mcc_regs[0].cache_status_val = T8103_CACHE_STATUS_VAL; mcc_enable_cache(); printf("MCC: Initialized T8103 MCC (%d channels)\n", val); mcc_initialized = true; return 0; } int mcc_init_t6000(int node, int *path) { u32 reg_len; if (!adt_getprop(adt, node, "reg", ®_len)) { printf("MCC: Failed to get reg property!\n"); return -1; } mcc_count = reg_len / 16; printf("MCC: Initializing T6000 MCCs (%d instances)...\n", mcc_count); if (mcc_count > MAX_MCC_INSTANCES) { printf("MCC: Too many instances, increase MAX_MCC_INSTANCES!\n"); mcc_count = MAX_MCC_INSTANCES; } for (int i = 0; i < mcc_count; i++) { u64 base; if (adt_get_reg(adt, path, "reg", 0, &base, NULL)) { printf("MCC: Failed to get reg index %d!\n", i); return -1; } mcc_regs[i].plane_base = base + T6000_PLANE_OFFSET; mcc_regs[i].plane_stride = T6000_PLANE_STRIDE; mcc_regs[i].plane_count = T6000_PLANES; mcc_regs[i].global_base = base + T6000_GLOBAL_OFFSET; mcc_regs[i].dcs_base = base + T6000_DCS_OFFSET; mcc_regs[i].dcs_stride = T6000_DCS_STRIDE; mcc_regs[i].dcs_count = T6000_DCS_COUNT; mcc_regs[i].cache_ways = T6000_CACHE_WAYS; mcc_regs[i].cache_status_mask = T6000_CACHE_STATUS_MASK; mcc_regs[i].cache_status_val = T6000_CACHE_STATUS_VAL; } mcc_enable_cache(); printf("MCC: Initialized T6000 MCCs (%d instances, %d planes, %d channels)\n", mcc_count, mcc_regs[0].plane_count, mcc_regs[0].dcs_count); mcc_initialized = true; return 0; } int mcc_init(void) { int path[8]; int node = adt_path_offset_trace(adt, "/arm-io/mcc", path); if (node < 0) { printf("MCC: MCC node not found!\n"); return -1; } if (adt_is_compatible(adt, node, "mcc,t8103")) { return mcc_init_t8103(node, path); } else if (adt_is_compatible(adt, node, "mcc,t6000")) { return mcc_init_t6000(node, path); } else { printf("MCC: Unsupported version\n"); return -1; } }