/* * Copyright (c) 2015-2019, Renesas Electronics Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include "qos_init.h" #include "qos_common.h" #include "qos_reg.h" #include "rcar_def.h" #if RCAR_LSI == RCAR_AUTO #include "H3/qos_init_h3_v10.h" #include "H3/qos_init_h3_v11.h" #include "H3/qos_init_h3_v20.h" #include "H3/qos_init_h3_v30.h" #include "M3/qos_init_m3_v10.h" #include "M3/qos_init_m3_v11.h" #include "M3/qos_init_m3_v30.h" #include "M3N/qos_init_m3n_v10.h" #include "V3M/qos_init_v3m.h" #endif #if RCAR_LSI == RCAR_H3 /* H3 */ #include "H3/qos_init_h3_v10.h" #include "H3/qos_init_h3_v11.h" #include "H3/qos_init_h3_v20.h" #include "H3/qos_init_h3_v30.h" #endif #if RCAR_LSI == RCAR_H3N /* H3 */ #include "H3/qos_init_h3n_v30.h" #endif #if RCAR_LSI == RCAR_M3 /* M3 */ #include "M3/qos_init_m3_v10.h" #include "M3/qos_init_m3_v11.h" #include "M3/qos_init_m3_v30.h" #endif #if RCAR_LSI == RCAR_M3N /* M3N */ #include "M3N/qos_init_m3n_v10.h" #endif #if RCAR_LSI == RCAR_V3M /* V3M */ #include "V3M/qos_init_v3m.h" #endif #if RCAR_LSI == RCAR_E3 /* E3 */ #include "E3/qos_init_e3_v10.h" #endif #if RCAR_LSI == RCAR_D3 /* D3 */ #include "D3/qos_init_d3.h" #endif #if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3) && (RCAR_LSI != RCAR_V3M) #define DRAM_CH_CNT 0x04 uint32_t qos_init_ddr_ch; uint8_t qos_init_ddr_phyvalid; #endif #define PRR_PRODUCT_ERR(reg) \ do { \ ERROR("LSI Product ID(PRR=0x%x) QoS " \ "initialize not supported.\n", reg); \ panic(); \ } while (0) #define PRR_CUT_ERR(reg) \ do { \ ERROR("LSI Cut ID(PRR=0x%x) QoS " \ "initialize not supported.\n", reg); \ panic(); \ } while (0) void rcar_qos_init(void) { uint32_t reg; #if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3) && (RCAR_LSI != RCAR_V3M) uint32_t i; qos_init_ddr_ch = 0; qos_init_ddr_phyvalid = get_boardcnf_phyvalid(); for (i = 0; i < DRAM_CH_CNT; i++) { if ((qos_init_ddr_phyvalid & (1 << i))) { qos_init_ddr_ch++; } } #endif reg = mmio_read_32(PRR); #if (RCAR_LSI == RCAR_AUTO) || RCAR_LSI_CUT_COMPAT switch (reg & PRR_PRODUCT_MASK) { case PRR_PRODUCT_H3: #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_H3) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: qos_init_h3_v10(); break; case PRR_PRODUCT_11: qos_init_h3_v11(); break; case PRR_PRODUCT_20: qos_init_h3_v20(); break; case PRR_PRODUCT_30: default: qos_init_h3_v30(); break; } #elif (RCAR_LSI == RCAR_H3N) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_30: default: qos_init_h3n_v30(); break; } #else PRR_PRODUCT_ERR(reg); #endif break; case PRR_PRODUCT_M3: #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: qos_init_m3_v10(); break; case PRR_PRODUCT_21: /* M3 Cut 13 */ qos_init_m3_v11(); break; case PRR_PRODUCT_30: /* M3 Cut 30 */ default: qos_init_m3_v30(); break; } #else PRR_PRODUCT_ERR(reg); #endif break; case PRR_PRODUCT_M3N: #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3N) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: default: qos_init_m3n_v10(); break; } #else PRR_PRODUCT_ERR(reg); #endif break; case PRR_PRODUCT_V3M: #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_V3M) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: case PRR_PRODUCT_20: default: qos_init_v3m(); break; } #else PRR_PRODUCT_ERR(reg); #endif break; case PRR_PRODUCT_E3: #if (RCAR_LSI == RCAR_E3) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: default: qos_init_e3_v10(); break; } #else PRR_PRODUCT_ERR(reg); #endif break; case PRR_PRODUCT_D3: #if (RCAR_LSI == RCAR_D3) switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: default: qos_init_d3(); break; } #else PRR_PRODUCT_ERR(reg); #endif break; default: PRR_PRODUCT_ERR(reg); break; } #else #if RCAR_LSI == RCAR_H3 /* H3 */ #if RCAR_LSI_CUT == RCAR_CUT_10 /* H3 Cut 10 */ if ((PRR_PRODUCT_H3 | PRR_PRODUCT_10) != (reg & (PRR_PRODUCT_MASK | PRR_CUT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_h3_v10(); #elif RCAR_LSI_CUT == RCAR_CUT_11 /* H3 Cut 11 */ if ((PRR_PRODUCT_H3 | PRR_PRODUCT_11) != (reg & (PRR_PRODUCT_MASK | PRR_CUT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_h3_v11(); #elif RCAR_LSI_CUT == RCAR_CUT_20 /* H3 Cut 20 */ if ((PRR_PRODUCT_H3 | PRR_PRODUCT_20) != (reg & (PRR_PRODUCT_MASK | PRR_CUT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_h3_v20(); #else /* H3 Cut 30 or later */ if ((PRR_PRODUCT_H3) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_h3_v30(); #endif #elif RCAR_LSI == RCAR_H3N /* H3 */ /* H3N Cut 30 or later */ if ((PRR_PRODUCT_H3) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_h3n_v30(); #elif RCAR_LSI == RCAR_M3 /* M3 */ #if RCAR_LSI_CUT == RCAR_CUT_10 /* M3 Cut 10 */ if ((PRR_PRODUCT_M3 | PRR_PRODUCT_10) != (reg & (PRR_PRODUCT_MASK | PRR_CUT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_m3_v10(); #elif RCAR_LSI_CUT == RCAR_CUT_11 /* M3 Cut 11 */ if ((PRR_PRODUCT_M3 | PRR_PRODUCT_20) != (reg & (PRR_PRODUCT_MASK | PRR_CUT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_m3_v11(); #elif RCAR_LSI_CUT == RCAR_CUT_13 /* M3 Cut 13 */ if ((PRR_PRODUCT_M3 | PRR_PRODUCT_21) != (reg & (PRR_PRODUCT_MASK | PRR_CUT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_m3_v11(); #else /* M3 Cut 30 or later */ if ((PRR_PRODUCT_M3) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_m3_v30(); #endif #elif RCAR_LSI == RCAR_M3N /* M3N */ /* M3N Cut 10 or later */ if ((PRR_PRODUCT_M3N) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_m3n_v10(); #elif RCAR_LSI == RCAR_V3M /* V3M */ /* V3M Cut 10 or later */ if ((PRR_PRODUCT_V3M) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_v3m(); #elif RCAR_LSI == RCAR_D3 /* D3 */ /* D3 Cut 10 or later */ if ((PRR_PRODUCT_D3) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_d3(); #elif RCAR_LSI == RCAR_E3 /* E3 */ /* E3 Cut 10 or later */ if ((PRR_PRODUCT_E3) != (reg & (PRR_PRODUCT_MASK))) { PRR_PRODUCT_ERR(reg); } qos_init_e3_v10(); #else #error "Don't have QoS initialize routine(Unknown chip)." #endif #endif } #if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3) && (RCAR_LSI != RCAR_V3M) uint32_t get_refperiod(void) { uint32_t refperiod = QOSWT_WTSET0_CYCLE; #if (RCAR_LSI == RCAR_AUTO) || RCAR_LSI_CUT_COMPAT uint32_t reg; reg = mmio_read_32(PRR); switch (reg & PRR_PRODUCT_MASK) { #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_H3) case PRR_PRODUCT_H3: switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: case PRR_PRODUCT_11: break; case PRR_PRODUCT_20: case PRR_PRODUCT_30: default: refperiod = REFPERIOD_CYCLE; break; } break; #elif (RCAR_LSI == RCAR_H3N) case PRR_PRODUCT_H3: switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_30: default: refperiod = REFPERIOD_CYCLE; break; } break; #endif #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3) case PRR_PRODUCT_M3: switch (reg & PRR_CUT_MASK) { case PRR_PRODUCT_10: break; case PRR_PRODUCT_20: /* M3 Cut 11 */ case PRR_PRODUCT_21: /* M3 Cut 13 */ case PRR_PRODUCT_30: /* M3 Cut 30 */ default: refperiod = REFPERIOD_CYCLE; break; } break; #endif #if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3N) case PRR_PRODUCT_M3N: refperiod = REFPERIOD_CYCLE; break; #endif default: break; } #elif RCAR_LSI == RCAR_H3 #if RCAR_LSI_CUT == RCAR_CUT_10 /* H3 Cut 10 */ #elif RCAR_LSI_CUT == RCAR_CUT_11 /* H3 Cut 11 */ #else /* H3 Cut 20 */ /* H3 Cut 30 or later */ refperiod = REFPERIOD_CYCLE; #endif #elif RCAR_LSI == RCAR_H3N /* H3N Cut 30 or later */ refperiod = REFPERIOD_CYCLE; #elif RCAR_LSI == RCAR_M3 #if RCAR_LSI_CUT == RCAR_CUT_10 /* M3 Cut 10 */ #else /* M3 Cut 11 */ /* M3 Cut 13 */ /* M3 Cut 30 or later */ refperiod = REFPERIOD_CYCLE; #endif #elif RCAR_LSI == RCAR_M3N /* for M3N */ refperiod = REFPERIOD_CYCLE; #endif return refperiod; } #endif void rcar_qos_dbsc_setting(struct rcar_gen3_dbsc_qos_settings *qos, unsigned int qos_size, bool dbsc_wren) { int i; /* Register write enable */ if (dbsc_wren) io_write_32(DBSC_DBSYSCNT0, 0x00001234U); for (i = 0; i < qos_size; i++) io_write_32(qos[i].reg, qos[i].val); /* Register write protect */ if (dbsc_wren) io_write_32(DBSC_DBSYSCNT0, 0x00000000U); }