From fcd81d6f93c3f187ed29afae9c55a120d6225d94 Mon Sep 17 00:00:00 2001 From: Marek Vasut Date: Wed, 7 Aug 2019 19:17:42 +0200 Subject: [PATCH] rcar_gen3: drivers: ddr_b: Clean up camel case Signed-off-by: Marek Vasut Change-Id: Ifda28578f326b1d4518560384d50ae98806db26e --- .../renesas/rcar/ddr/ddr_b/boot_init_dram.c | 1194 ++++++++--------- .../rcar/ddr/ddr_b/boot_init_dram_config.c | 38 +- 2 files changed, 616 insertions(+), 616 deletions(-) diff --git a/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram.c b/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram.c index c8e9ae80..244caf6e 100644 --- a/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram.c +++ b/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram.c @@ -31,10 +31,10 @@ #ifdef RCAR_DDR_FIXED_LSI_TYPE #ifndef RCAR_AUTO #define RCAR_AUTO 99 -#define RCAR_H3 0 -#define RCAR_M3 1 +#define RCAR_H3 0 +#define RCAR_M3 1 #define RCAR_M3N 2 -#define RCAR_E3 3 /* NON */ +#define RCAR_E3 3 /* NON */ #define RCAR_H3N 4 #define RCAR_CUT_10 0 @@ -45,42 +45,41 @@ #ifndef RCAR_LSI #define RCAR_LSI RCAR_AUTO #endif + #if (RCAR_LSI == RCAR_AUTO) -static uint32_t Prr_Product; -static uint32_t Prr_Cut; +static uint32_t prr_product; +static uint32_t prr_cut; #else #if (RCAR_LSI == RCAR_H3) -static const uint32_t Prr_Product = PRR_PRODUCT_H3; +static const uint32_t prr_product = PRR_PRODUCT_H3; #elif(RCAR_LSI == RCAR_M3) -static const uint32_t Prr_Product = PRR_PRODUCT_M3; +static const uint32_t prr_product = PRR_PRODUCT_M3; #elif(RCAR_LSI == RCAR_M3N) -static const uint32_t Prr_Product = PRR_PRODUCT_M3N; +static const uint32_t prr_product = PRR_PRODUCT_M3N; #elif(RCAR_LSI == RCAR_H3N) -static const uint32_t Prr_Product = PRR_PRODUCT_H3; +static const uint32_t prr_product = PRR_PRODUCT_H3; #endif /* RCAR_LSI */ #ifndef RCAR_LSI_CUT -static uint32_t Prr_Cut; +static uint32_t prr_cut; #else /* RCAR_LSI_CUT */ #if (RCAR_LSI_CUT == RCAR_CUT_10) -static const uint32_t Prr_Cut = PRR_PRODUCT_10; +static const uint32_t prr_cut = PRR_PRODUCT_10; #elif(RCAR_LSI_CUT == RCAR_CUT_11) -static const uint32_t Prr_Cut = PRR_PRODUCT_11; +static const uint32_t prr_cut = PRR_PRODUCT_11; #elif(RCAR_LSI_CUT == RCAR_CUT_20) -static const uint32_t Prr_Cut = PRR_PRODUCT_20; +static const uint32_t prr_cut = PRR_PRODUCT_20; #elif(RCAR_LSI_CUT == RCAR_CUT_30) -static const uint32_t Prr_Cut = PRR_PRODUCT_30; +static const uint32_t prr_cut = PRR_PRODUCT_30; #endif /* RCAR_LSI_CUT */ #endif /* RCAR_LSI_CUT */ #endif /* RCAR_AUTO_NON */ #else /* RCAR_DDR_FIXED_LSI_TYPE */ -static uint32_t Prr_Product; -static uint32_t Prr_Cut; +static uint32_t prr_product; +static uint32_t prr_cut; #endif /* RCAR_DDR_FIXED_LSI_TYPE */ -char *pRCAR_DDR_VERSION; -uint32_t _cnf_BOARDTYPE; -static const uint32_t *pDDR_REGDEF_TBL; +static const uint32_t *p_ddr_regdef_tbl; static uint32_t brd_clk; static uint32_t brd_clkdiv; static uint32_t brd_clkdiva; @@ -88,7 +87,7 @@ static uint32_t ddr_mbps; static uint32_t ddr_mbpsdiv; static uint32_t ddr_tccd; static uint32_t ddr_phycaslice; -static const struct _boardcnf *Boardcnf; +static const struct _boardcnf *board_cnf; static uint32_t ddr_phyvalid; static uint32_t ddr_density[DRAM_CH_CNT][CS_CNT]; static uint32_t ch_have_this_cs[CS_CNT] __attribute__ ((aligned(64))); @@ -119,10 +118,10 @@ static uint32_t _cnf_DDR_PHY_ADR_V_REGSET[DDR_PHY_REGSET_MAX]; static uint32_t _cnf_DDR_PHY_ADR_I_REGSET[DDR_PHY_REGSET_MAX]; static uint32_t _cnf_DDR_PHY_ADR_G_REGSET[DDR_PHY_REGSET_MAX]; static uint32_t _cnf_DDR_PI_REGSET[DDR_PI_REGSET_MAX]; -static uint32_t Pll3Mode; +static uint32_t pll3_mode; static uint32_t loop_max; #ifdef DDR_BACKUPMODE -uint32_t ddrBackup; +uint32_t ddr_backup; /* #define DDR_BACKUPMODE_HALF //for Half channel(ch0,1 only) */ #endif @@ -292,13 +291,13 @@ static uint32_t rx_offset_cal_hw(void); static void adjust_rddqs_latency(void); static void adjust_wpath_latency(void); -struct DdrtData { +struct ddrt_data { int32_t init_temp; /* Initial Temperature (do) */ uint32_t init_cal[4]; /* Initial io-code (4 is for H3) */ uint32_t tcomp_cal[4]; /* Temperature compensated io-code (4 is for H3) */ }; -struct DdrtData tcal; +static struct ddrt_data tcal; static void pvtcode_update(void); static void pvtcode_update2(void); @@ -363,129 +362,129 @@ static void cpg_write_32(uint32_t a, uint32_t v) static void pll3_control(uint32_t high) { - uint32_t dataL, dataDIV, dataMUL, tmpDIV; + uint32_t data_l, data_div, data_mul, tmp_div; if (high) { - tmpDIV = 3999 * brd_clkdiv * (brd_clkdiva + 1) / + tmp_div = 3999 * brd_clkdiv * (brd_clkdiva + 1) / (brd_clk * ddr_mul) / 2; - dataMUL = (((ddr_mul * tmpDIV) - 1) << 24) | + data_mul = (((ddr_mul * tmp_div) - 1) << 24) | (brd_clkdiva << 7); - Pll3Mode = 1; + pll3_mode = 1; loop_max = 2; } else { - tmpDIV = 3999 * brd_clkdiv * (brd_clkdiva + 1) / + tmp_div = 3999 * brd_clkdiv * (brd_clkdiva + 1) / (brd_clk * ddr0800_mul) / 2; - dataMUL = (((ddr0800_mul * tmpDIV) - 1) << 24) | + data_mul = (((ddr0800_mul * tmp_div) - 1) << 24) | (brd_clkdiva << 7); - Pll3Mode = 0; + pll3_mode = 0; loop_max = 8; } - switch (tmpDIV) { + switch (tmp_div) { case 1: - dataDIV = 0; + data_div = 0; break; case 2: case 3: case 4: - dataDIV = tmpDIV; + data_div = tmp_div; break; default: - dataDIV = 6; - dataMUL = (dataMUL * tmpDIV) / 3; + data_div = 6; + data_mul = (data_mul * tmp_div) / 3; break; } - dataMUL = dataMUL | (brd_clkdiva << 7); + data_mul = data_mul | (brd_clkdiva << 7); /* PLL3 disable */ - dataL = mmio_read_32(CPG_PLLECR) & ~CPG_PLLECR_PLL3E_BIT; - cpg_write_32(CPG_PLLECR, dataL); + data_l = mmio_read_32(CPG_PLLECR) & ~CPG_PLLECR_PLL3E_BIT; + cpg_write_32(CPG_PLLECR, data_l); dsb_sev(); - if ((Prr_Product == PRR_PRODUCT_M3) || - ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_20))) { + if ((prr_product == PRR_PRODUCT_M3) || + ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_20))) { /* PLL3 DIV resetting(Lowest value:3) */ - dataL = 0x00030003 | (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); - cpg_write_32(CPG_FRQCRD, dataL); + data_l = 0x00030003 | (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); + cpg_write_32(CPG_FRQCRD, data_l); dsb_sev(); /* zb3 clk stop */ - dataL = CPG_ZB3CKCR_ZB3ST_BIT | mmio_read_32(CPG_ZB3CKCR); - cpg_write_32(CPG_ZB3CKCR, dataL); + data_l = CPG_ZB3CKCR_ZB3ST_BIT | mmio_read_32(CPG_ZB3CKCR); + cpg_write_32(CPG_ZB3CKCR, data_l); dsb_sev(); /* PLL3 enable */ - dataL = CPG_PLLECR_PLL3E_BIT | mmio_read_32(CPG_PLLECR); - cpg_write_32(CPG_PLLECR, dataL); + data_l = CPG_PLLECR_PLL3E_BIT | mmio_read_32(CPG_PLLECR); + cpg_write_32(CPG_PLLECR, data_l); dsb_sev(); do { - dataL = mmio_read_32(CPG_PLLECR); - } while ((dataL & CPG_PLLECR_PLL3ST_BIT) == 0); + data_l = mmio_read_32(CPG_PLLECR); + } while ((data_l & CPG_PLLECR_PLL3ST_BIT) == 0); dsb_sev(); /* PLL3 DIV resetting (Highest value:0) */ - dataL = (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); - cpg_write_32(CPG_FRQCRD, dataL); + data_l = (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); + cpg_write_32(CPG_FRQCRD, data_l); dsb_sev(); /* DIV SET KICK */ - dataL = CPG_FRQCRB_KICK_BIT | mmio_read_32(CPG_FRQCRB); - cpg_write_32(CPG_FRQCRB, dataL); + data_l = CPG_FRQCRB_KICK_BIT | mmio_read_32(CPG_FRQCRB); + cpg_write_32(CPG_FRQCRB, data_l); dsb_sev(); /* PLL3 multiplie set */ - cpg_write_32(CPG_PLL3CR, dataMUL); + cpg_write_32(CPG_PLL3CR, data_mul); dsb_sev(); do { - dataL = mmio_read_32(CPG_PLLECR); - } while ((dataL & CPG_PLLECR_PLL3ST_BIT) == 0); + data_l = mmio_read_32(CPG_PLLECR); + } while ((data_l & CPG_PLLECR_PLL3ST_BIT) == 0); dsb_sev(); /* PLL3 DIV resetting(Target value) */ - dataL = (dataDIV << 16) | dataDIV | (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); - cpg_write_32(CPG_FRQCRD, dataL); + data_l = (data_div << 16) | data_div | (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); + cpg_write_32(CPG_FRQCRD, data_l); dsb_sev(); /* DIV SET KICK */ - dataL = CPG_FRQCRB_KICK_BIT | mmio_read_32(CPG_FRQCRB); - cpg_write_32(CPG_FRQCRB, dataL); + data_l = CPG_FRQCRB_KICK_BIT | mmio_read_32(CPG_FRQCRB); + cpg_write_32(CPG_FRQCRB, data_l); dsb_sev(); do { - dataL = mmio_read_32(CPG_PLLECR); - } while ((dataL & CPG_PLLECR_PLL3ST_BIT) == 0); + data_l = mmio_read_32(CPG_PLLECR); + } while ((data_l & CPG_PLLECR_PLL3ST_BIT) == 0); dsb_sev(); /* zb3 clk start */ - dataL = (~CPG_ZB3CKCR_ZB3ST_BIT) & mmio_read_32(CPG_ZB3CKCR); - cpg_write_32(CPG_ZB3CKCR, dataL); + data_l = (~CPG_ZB3CKCR_ZB3ST_BIT) & mmio_read_32(CPG_ZB3CKCR); + cpg_write_32(CPG_ZB3CKCR, data_l); dsb_sev(); } else { /* H3Ver.3.0/M3N/V3H */ /* PLL3 multiplie set */ - cpg_write_32(CPG_PLL3CR, dataMUL); + cpg_write_32(CPG_PLL3CR, data_mul); dsb_sev(); /* PLL3 DIV set(Target value) */ - dataL = (dataDIV << 16) | dataDIV | (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); - cpg_write_32(CPG_FRQCRD, dataL); + data_l = (data_div << 16) | data_div | (0xFF80FF80 & mmio_read_32(CPG_FRQCRD)); + cpg_write_32(CPG_FRQCRD, data_l); /* DIV SET KICK */ - dataL = CPG_FRQCRB_KICK_BIT | mmio_read_32(CPG_FRQCRB); - cpg_write_32(CPG_FRQCRB, dataL); + data_l = CPG_FRQCRB_KICK_BIT | mmio_read_32(CPG_FRQCRB); + cpg_write_32(CPG_FRQCRB, data_l); dsb_sev(); /* PLL3 enable */ - dataL = CPG_PLLECR_PLL3E_BIT | mmio_read_32(CPG_PLLECR); - cpg_write_32(CPG_PLLECR, dataL); + data_l = CPG_PLLECR_PLL3E_BIT | mmio_read_32(CPG_PLLECR); + cpg_write_32(CPG_PLLECR, data_l); dsb_sev(); do { - dataL = mmio_read_32(CPG_PLLECR); - } while ((dataL & CPG_PLLECR_PLL3ST_BIT) == 0); + data_l = mmio_read_32(CPG_PLLECR); + } while ((data_l & CPG_PLLECR_PLL3ST_BIT) == 0); dsb_sev(); } } @@ -503,15 +502,15 @@ static inline void dsb_sev(void) ******************************************************************************/ static void wait_dbcmd(void) { - uint32_t dataL; + uint32_t data_l; /* dummy read */ - dataL = mmio_read_32(DBSC_DBCMD); + data_l = mmio_read_32(DBSC_DBCMD); dsb_sev(); while (1) { /* wait DBCMD 1=busy, 0=ready */ - dataL = mmio_read_32(DBSC_DBWAIT); + data_l = mmio_read_32(DBSC_DBWAIT); dsb_sev(); - if ((dataL & 0x00000001) == 0x00) + if ((data_l & 0x00000001) == 0x00) break; } } @@ -533,8 +532,8 @@ static uint32_t reg_ddrphy_read(uint32_t phyno, uint32_t regadd) uint32_t loop; val = 0; - if ((Prr_Product != PRR_PRODUCT_M3N) - && (Prr_Product != PRR_PRODUCT_V3H)) { + if ((prr_product != PRR_PRODUCT_M3N) + && (prr_product != PRR_PRODUCT_V3H)) { mmio_write_32(DBSC_DBPDRGA(phyno), regadd); dsb_sev(); @@ -580,8 +579,8 @@ static void reg_ddrphy_write(uint32_t phyno, uint32_t regadd, uint32_t regdata) uint32_t val; uint32_t loop; - if ((Prr_Product != PRR_PRODUCT_M3N) - && (Prr_Product != PRR_PRODUCT_V3H)) { + if ((prr_product != PRR_PRODUCT_M3N) + && (prr_product != PRR_PRODUCT_V3H)) { mmio_write_32(DBSC_DBPDRGA(phyno), regadd); dsb_sev(); for (loop = 0; loop < loop_max; loop++) { @@ -629,8 +628,8 @@ static void reg_ddrphy_write_a(uint32_t regadd, uint32_t regdata) uint32_t val; uint32_t loop; - if ((Prr_Product != PRR_PRODUCT_M3N) - && (Prr_Product != PRR_PRODUCT_V3H)) { + if ((prr_product != PRR_PRODUCT_M3N) + && (prr_product != PRR_PRODUCT_V3H)) { foreach_vch(ch) { mmio_write_32(DBSC_DBPDRGA(ch), regadd); dsb_sev(); @@ -668,17 +667,17 @@ static inline void ddrphy_regif_idle(void) ******************************************************************************/ static inline uint32_t ddr_regdef(uint32_t _regdef) { - return pDDR_REGDEF_TBL[_regdef]; + return p_ddr_regdef_tbl[_regdef]; } static inline uint32_t ddr_regdef_adr(uint32_t _regdef) { - return DDR_REGDEF_ADR(pDDR_REGDEF_TBL[_regdef]); + return DDR_REGDEF_ADR(p_ddr_regdef_tbl[_regdef]); } static inline uint32_t ddr_regdef_lsb(uint32_t _regdef) { - return DDR_REGDEF_LSB(pDDR_REGDEF_TBL[_regdef]); + return DDR_REGDEF_LSB(p_ddr_regdef_tbl[_regdef]); } static void ddr_setval_s(uint32_t ch, uint32_t slice, uint32_t _regdef, @@ -864,8 +863,8 @@ static uint32_t ddrphy_regif_chk(void) uint32_t err; uint32_t PI_VERSION_CODE; - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3)) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3)) { PI_VERSION_CODE = 0x2041; /* H3 Ver.1.x/M3-W */ } else { PI_VERSION_CODE = 0x2040; /* H3 Ver.2.0 or later/M3-N/V3H */ @@ -885,11 +884,11 @@ static uint32_t ddrphy_regif_chk(void) ******************************************************************************/ struct _jedec_spec1 { uint16_t fx3; - uint8_t RLwoDBI; - uint8_t RLwDBI; + uint8_t rlwodbi; + uint8_t rlwdbi; uint8_t WL; - uint8_t nWR; - uint8_t nRTP; + uint8_t nwr; + uint8_t nrtp; uint8_t MR1; uint8_t MR2; }; @@ -915,33 +914,33 @@ struct _jedec_spec2 { uint16_t cyc; }; -#define JS2_tSR 0 -#define JS2_tXP 1 -#define JS2_tRTP 2 -#define JS2_tRCD 3 -#define JS2_tRPpb 4 -#define JS2_tRPab 5 -#define JS2_tRAS 6 -#define JS2_tWR 7 -#define JS2_tWTR 8 -#define JS2_tRRD 9 -#define JS2_tPPD 10 -#define JS2_tFAW 11 -#define JS2_tDQSCK 12 -#define JS2_tCKEHCMD 13 -#define JS2_tCKELCMD 14 -#define JS2_tCKELPD 15 -#define JS2_tMRR 16 -#define JS2_tMRW 17 -#define JS2_tMRD 18 -#define JS2_tZQCALns 19 -#define JS2_tZQLAT 20 -#define JS2_tIEdly 21 +#define js2_tsr 0 +#define js2_txp 1 +#define js2_trtp 2 +#define js2_trcd 3 +#define js2_trppb 4 +#define js2_trpab 5 +#define js2_tras 6 +#define js2_twr 7 +#define js2_twtr 8 +#define js2_trrd 9 +#define js2_tppd 10 +#define js2_tfaw 11 +#define js2_tdqsck 12 +#define js2_tckehcmd 13 +#define js2_tckelcmd 14 +#define js2_tckelpd 15 +#define js2_tmrr 16 +#define js2_tmrw 17 +#define js2_tmrd 18 +#define js2_tzqcalns 19 +#define js2_tzqlat 20 +#define js2_tiedly 21 #define JS2_TBLCNT 22 -#define JS2_tRCpb (JS2_TBLCNT) -#define JS2_tRCab (JS2_TBLCNT + 1) -#define JS2_tRFCab (JS2_TBLCNT + 2) +#define js2_trcpb (JS2_TBLCNT) +#define js2_trcab (JS2_TBLCNT + 1) +#define js2_trfcab (JS2_TBLCNT + 2) #define JS2_CNT (JS2_TBLCNT + 3) #ifndef JS2_DERATE @@ -997,7 +996,7 @@ const struct _jedec_spec2 jedec_spec2[2][JS2_TBLCNT] = { } }; -const uint16_t jedec_spec2_tRFC_ab[7] = { +const uint16_t jedec_spec2_trfc_ab[7] = { /* 4Gb, 6Gb, 8Gb,12Gb, 16Gb, 24Gb(non), 32Gb(non) */ 130, 180, 180, 280, 280, 560, 560 }; @@ -1034,8 +1033,8 @@ static void _f_scale_js2(uint32_t ddr_mbps, uint32_t ddr_mbpsdiv, jedec_spec2[JS2_DERATE][i].cyc); } - js2[JS2_tRCpb] = js2[JS2_tRAS] + js2[JS2_tRPpb]; - js2[JS2_tRCab] = js2[JS2_tRAS] + js2[JS2_tRPab]; + js2[js2_trcpb] = js2[js2_tras] + js2[js2_trppb]; + js2[js2_trcab] = js2[js2_tras] + js2[js2_trpab]; } /* scaler for DELAY value */ @@ -1055,7 +1054,7 @@ static int16_t _f_scale_adj(int16_t ps) return (int16_t)tmp; } -const uint32_t _reg_PI_MR1_DATA_Fx_CSx[2][CSAB_CNT] = { +static const uint32_t reg_pi_mr1_data_fx_csx[2][CSAB_CNT] = { { _reg_PI_MR1_DATA_F0_0, _reg_PI_MR1_DATA_F0_1, @@ -1068,7 +1067,7 @@ const uint32_t _reg_PI_MR1_DATA_Fx_CSx[2][CSAB_CNT] = { _reg_PI_MR1_DATA_F1_3} }; -const uint32_t _reg_PI_MR2_DATA_Fx_CSx[2][CSAB_CNT] = { +static const uint32_t reg_pi_mr2_data_fx_csx[2][CSAB_CNT] = { { _reg_PI_MR2_DATA_F0_0, _reg_PI_MR2_DATA_F0_1, @@ -1081,7 +1080,7 @@ const uint32_t _reg_PI_MR2_DATA_Fx_CSx[2][CSAB_CNT] = { _reg_PI_MR2_DATA_F1_3} }; -const uint32_t _reg_PI_MR3_DATA_Fx_CSx[2][CSAB_CNT] = { +static const uint32_t reg_pi_mr3_data_fx_csx[2][CSAB_CNT] = { { _reg_PI_MR3_DATA_F0_0, _reg_PI_MR3_DATA_F0_1, @@ -1094,7 +1093,7 @@ const uint32_t _reg_PI_MR3_DATA_Fx_CSx[2][CSAB_CNT] = { _reg_PI_MR3_DATA_F1_3} }; -const uint32_t _reg_PI_MR11_DATA_Fx_CSx[2][CSAB_CNT] = { +const uint32_t reg_pi_mr11_data_fx_csx[2][CSAB_CNT] = { { _reg_PI_MR11_DATA_F0_0, _reg_PI_MR11_DATA_F0_1, @@ -1107,7 +1106,7 @@ const uint32_t _reg_PI_MR11_DATA_Fx_CSx[2][CSAB_CNT] = { _reg_PI_MR11_DATA_F1_3} }; -const uint32_t _reg_PI_MR12_DATA_Fx_CSx[2][CSAB_CNT] = { +const uint32_t reg_pi_mr12_data_fx_csx[2][CSAB_CNT] = { { _reg_PI_MR12_DATA_F0_0, _reg_PI_MR12_DATA_F0_1, @@ -1120,7 +1119,7 @@ const uint32_t _reg_PI_MR12_DATA_Fx_CSx[2][CSAB_CNT] = { _reg_PI_MR12_DATA_F1_3} }; -const uint32_t _reg_PI_MR14_DATA_Fx_CSx[2][CSAB_CNT] = { +const uint32_t reg_pi_mr14_data_fx_csx[2][CSAB_CNT] = { { _reg_PI_MR14_DATA_F0_0, _reg_PI_MR14_DATA_F0_1, @@ -1140,7 +1139,7 @@ static void regif_pll_wa(void) { uint32_t ch; - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { // PLL setting for PHY : H3 Ver.1.x reg_ddrphy_write_a(ddr_regdef_adr(_reg_PHY_PLL_WAIT), (0x0064U << @@ -1188,7 +1187,7 @@ static void regif_pll_wa(void) ddrphy_regif_idle(); pll3_control(0); - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { /* non */ } else { reg_ddrphy_write_a(ddr_regdef_adr(_reg_PHY_DLL_RST_EN), @@ -1221,7 +1220,7 @@ static void regif_pll_wa(void) dsb_sev(); foreach_ech(ch) - if (((Boardcnf->phyvalid) & (1U << ch))) + if (((board_cnf->phyvalid) & (1U << ch))) while ((mmio_read_32(DBSC_PLL_LOCK(ch)) & 0x1f) != 0x1f); dsb_sev(); } @@ -1235,7 +1234,7 @@ static void ddrtbl_load(void) uint32_t slice; uint32_t csab; uint32_t adr; - uint32_t dataL; + uint32_t data_l; uint32_t tmp[3]; uint16_t dataS; @@ -1252,10 +1251,10 @@ static void ddrtbl_load(void) else js1_ind = i; - if (Boardcnf->dbi_en) - RL = js1[js1_ind].RLwDBI; + if (board_cnf->dbi_en) + RL = js1[js1_ind].rlwdbi; else - RL = js1[js1_ind].RLwoDBI; + RL = js1[js1_ind].rlwodbi; WL = js1[js1_ind].WL; @@ -1265,8 +1264,8 @@ static void ddrtbl_load(void) /*********************************************************************** PREPARE TBL ***********************************************************************/ - if (Prr_Product == PRR_PRODUCT_H3) { - if (Prr_Cut <= PRR_PRODUCT_11) { + if (prr_product == PRR_PRODUCT_H3) { + if (prr_cut <= PRR_PRODUCT_11) { /* H3 Ver.1.x */ _tblcopy(_cnf_DDR_PHY_SLICE_REGSET, DDR_PHY_SLICE_REGSET_H3, @@ -1342,7 +1341,7 @@ static void ddrtbl_load(void) DDR_PHY_ADR_I_NUM = 0; } - } else if (Prr_Product == PRR_PRODUCT_M3) { + } else if (prr_product == PRR_PRODUCT_M3) { /* M3-W */ _tblcopy(_cnf_DDR_PHY_SLICE_REGSET, DDR_PHY_SLICE_REGSET_M3, DDR_PHY_SLICE_REGSET_NUM_M3); @@ -1408,7 +1407,7 @@ static void ddrtbl_load(void) /*********************************************************************** PLL CODE CHANGE ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut == PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut == PRR_PRODUCT_11)) { ddrtbl_setval(_cnf_DDR_PHY_ADR_G_REGSET, _reg_PHY_PLL_CTRL, 0x1142); ddrtbl_setval(_cnf_DDR_PHY_ADR_G_REGSET, @@ -1418,7 +1417,7 @@ static void ddrtbl_load(void) /*********************************************************************** on fly gate adjust ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut == PRR_PRODUCT_10)) { + if ((prr_product == PRR_PRODUCT_M3) && (prr_cut == PRR_PRODUCT_10)) { ddrtbl_setval(_cnf_DDR_PHY_SLICE_REGSET, _reg_ON_FLY_GATE_ADJUST_EN, 0x00); } @@ -1430,7 +1429,7 @@ static void ddrtbl_load(void) for (i = 0; i < 2; i++) { for (csab = 0; csab < CSAB_CNT; csab++) { ddrtbl_setval(_cnf_DDR_PI_REGSET, - _reg_PI_MR11_DATA_Fx_CSx[i][csab], + reg_pi_mr11_data_fx_csx[i][csab], _def_LPDDR4_ODT); } } @@ -1440,43 +1439,43 @@ static void ddrtbl_load(void) for (i = 0; i < 2; i++) { for (csab = 0; csab < CSAB_CNT; csab++) { ddrtbl_setval(_cnf_DDR_PI_REGSET, - _reg_PI_MR12_DATA_Fx_CSx[i][csab], + reg_pi_mr12_data_fx_csx[i][csab], _def_LPDDR4_VREFCA); } } #endif /* _def_LPDDR4_VREFCA */ - if ((Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { - js2[JS2_tIEdly] = _f_scale(ddr_mbps, ddr_mbpsdiv, 7000, 0) + 7U; - if (js2[JS2_tIEdly] > (RL)) - js2[JS2_tIEdly] = RL; - } else if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut > PRR_PRODUCT_11)) { - js2[JS2_tIEdly] = _f_scale(ddr_mbps, ddr_mbpsdiv, 9000, 0) + 4U; - } else if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { - js2[JS2_tIEdly] = _f_scale(ddr_mbps, ddr_mbpsdiv, 10000, 0); - } - - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { - if ((js2[JS2_tIEdly]) >= 0x1e) + if ((prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { + js2[js2_tiedly] = _f_scale(ddr_mbps, ddr_mbpsdiv, 7000, 0) + 7U; + if (js2[js2_tiedly] > (RL)) + js2[js2_tiedly] = RL; + } else if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut > PRR_PRODUCT_11)) { + js2[js2_tiedly] = _f_scale(ddr_mbps, ddr_mbpsdiv, 9000, 0) + 4U; + } else if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { + js2[js2_tiedly] = _f_scale(ddr_mbps, ddr_mbpsdiv, 10000, 0); + } + + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { + if ((js2[js2_tiedly]) >= 0x1e) dataS = 0x1e; else - dataS = js2[JS2_tIEdly]; + dataS = js2[js2_tiedly]; } else { - if ((js2[JS2_tIEdly]) >= 0x0e) + if ((js2[js2_tiedly]) >= 0x0e) dataS = 0x0e; else - dataS = js2[JS2_tIEdly]; + dataS = js2[js2_tiedly]; } ddrtbl_setval(_cnf_DDR_PHY_SLICE_REGSET, _reg_PHY_RDDATA_EN_DLY, dataS); ddrtbl_setval(_cnf_DDR_PHY_SLICE_REGSET, _reg_PHY_RDDATA_EN_TSEL_DLY, (dataS - 2)); - if ((Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if ((prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddrtbl_setval(_cnf_DDR_PHY_SLICE_REGSET, _reg_PHY_RDDATA_EN_OE_DLY, dataS); } @@ -1484,14 +1483,14 @@ static void ddrtbl_load(void) if (ddrtbl_getval (_cnf_DDR_PHY_SLICE_REGSET, _reg_PHY_WRITE_PATH_LAT_ADD)) { - dataL = WL - 1; + data_l = WL - 1; } else { - dataL = WL; + data_l = WL; } - ddrtbl_setval(_cnf_DDR_PI_REGSET, _reg_PI_WRLAT_ADJ_F1, dataL - 2); - ddrtbl_setval(_cnf_DDR_PI_REGSET, _reg_PI_WRLAT_F1, dataL); + ddrtbl_setval(_cnf_DDR_PI_REGSET, _reg_PI_WRLAT_ADJ_F1, data_l - 2); + ddrtbl_setval(_cnf_DDR_PI_REGSET, _reg_PI_WRLAT_F1, data_l); - if (Boardcnf->dbi_en) { + if (board_cnf->dbi_en) { ddrtbl_setval(_cnf_DDR_PHY_SLICE_REGSET, _reg_PHY_DBI_MODE, 0x01); ddrtbl_setval(_cnf_DDR_PHY_SLICE_REGSET, @@ -1505,27 +1504,27 @@ static void ddrtbl_load(void) tmp[0] = js1[js1_ind].MR1; tmp[1] = js1[js1_ind].MR2; - dataL = ddrtbl_getval(_cnf_DDR_PI_REGSET, _reg_PI_MR3_DATA_F1_0); - if (Boardcnf->dbi_en) - tmp[2] = dataL | 0xc0; + data_l = ddrtbl_getval(_cnf_DDR_PI_REGSET, _reg_PI_MR3_DATA_F1_0); + if (board_cnf->dbi_en) + tmp[2] = data_l | 0xc0; else - tmp[2] = dataL & (~0xc0); + tmp[2] = data_l & (~0xc0); for (i = 0; i < 2; i++) { for (csab = 0; csab < CSAB_CNT; csab++) { ddrtbl_setval(_cnf_DDR_PI_REGSET, - _reg_PI_MR1_DATA_Fx_CSx[i][csab], tmp[0]); + reg_pi_mr1_data_fx_csx[i][csab], tmp[0]); ddrtbl_setval(_cnf_DDR_PI_REGSET, - _reg_PI_MR2_DATA_Fx_CSx[i][csab], tmp[1]); + reg_pi_mr2_data_fx_csx[i][csab], tmp[1]); ddrtbl_setval(_cnf_DDR_PI_REGSET, - _reg_PI_MR3_DATA_Fx_CSx[i][csab], tmp[2]); + reg_pi_mr3_data_fx_csx[i][csab], tmp[2]); } } /*********************************************************************** DDRPHY INT START ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { /* non */ } else { regif_pll_wa(); @@ -1559,9 +1558,9 @@ static void ddrtbl_load(void) reg_ddrphy_write_a(adr + i, _cnf_DDR_PHY_ADR_V_REGSET[i]); } - if (((Prr_Product == PRR_PRODUCT_M3) - || (Prr_Product == PRR_PRODUCT_M3N)) && - ((0x00ffffff & (uint32_t)((Boardcnf->ch[0].ca_swap) >> 40)) + if (((prr_product == PRR_PRODUCT_M3) + || (prr_product == PRR_PRODUCT_M3N)) && + ((0x00ffffff & (uint32_t)((board_cnf->ch[0].ca_swap) >> 40)) != 0x00)) { adr = DDR_PHY_ADR_I_REGSET_OFS + DDR_PHY_ADR_I_REGSET_SIZE; for (i = 0; i < DDR_PHY_ADR_V_REGSET_NUM; i++) { @@ -1576,7 +1575,7 @@ static void ddrtbl_load(void) for (i = 0; i < 2; i++) { for (csab = 0; csab < CSAB_CNT; csab++) { ddrtbl_setval(_cnf_DDR_PI_REGSET, - _reg_PI_MR11_DATA_Fx_CSx[i][csab], + reg_pi_mr11_data_fx_csx[i][csab], 0x66); } } @@ -1622,7 +1621,7 @@ static void ddr_config_sub(void) { uint32_t i; uint32_t ch, slice; - uint32_t dataL; + uint32_t data_l; uint32_t tmp; uint8_t high_byte[SLICE_CNT]; const uint32_t _par_CALVL_DEVICE_MAP = 1; @@ -1633,11 +1632,11 @@ static void ddr_config_sub(void) ***********************************************************************/ for (slice = 0; slice < SLICE_CNT; slice++) { high_byte[slice] = - (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) % 2; + (board_cnf->ch[ch].dqs_swap >> (4 * slice)) % 2; ddr_setval_s(ch, slice, _reg_PHY_DQ_DM_SWIZZLE0, - Boardcnf->ch[ch].dq_swap[slice]); + board_cnf->ch[ch].dq_swap[slice]); ddr_setval_s(ch, slice, _reg_PHY_DQ_DM_SWIZZLE1, - Boardcnf->ch[ch].dm_swap[slice]); + board_cnf->ch[ch].dm_swap[slice]); if (high_byte[slice]) { /* HIGHER 16 BYTE */ ddr_setval_s(ch, slice, @@ -1654,56 +1653,56 @@ static void ddr_config_sub(void) /*********************************************************************** BOARD SETTINGS (CA,ADDR_SEL) ***********************************************************************/ - dataL = (0x00ffffff & (uint32_t)(Boardcnf->ch[ch].ca_swap)) | + data_l = (0x00ffffff & (uint32_t)(board_cnf->ch[ch].ca_swap)) | 0x00888888; /* --- ADR_CALVL_SWIZZLE --- */ - if (Prr_Product == PRR_PRODUCT_M3) { - ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE0_0, dataL); + if (prr_product == PRR_PRODUCT_M3) { + ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE0_0, data_l); ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE1_0, 0x00000000); - ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE0_1, dataL); + ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE0_1, data_l); ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE1_1, 0x00000000); ddr_setval(ch, _reg_PHY_ADR_CALVL_DEVICE_MAP, _par_CALVL_DEVICE_MAP); } else { - ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE0, dataL); + ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE0, data_l); ddr_setval(ch, _reg_PHY_ADR_CALVL_SWIZZLE1, 0x00000000); ddr_setval(ch, _reg_PHY_CALVL_DEVICE_MAP, _par_CALVL_DEVICE_MAP); } /* --- ADR_ADDR_SEL --- */ - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut > PRR_PRODUCT_11)) { - dataL = 0x00FFFFFF & Boardcnf->ch[ch].ca_swap; + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut > PRR_PRODUCT_11)) { + data_l = 0x00FFFFFF & board_cnf->ch[ch].ca_swap; } else { - dataL = 0; - tmp = Boardcnf->ch[ch].ca_swap; + data_l = 0; + tmp = board_cnf->ch[ch].ca_swap; for (i = 0; i < 6; i++) { - dataL |= ((tmp & 0x0f) << (i * 5)); + data_l |= ((tmp & 0x0f) << (i * 5)); tmp = tmp >> 4; } } - ddr_setval(ch, _reg_PHY_ADR_ADDR_SEL, dataL); + ddr_setval(ch, _reg_PHY_ADR_ADDR_SEL, data_l); if (ddr_phycaslice == 1) { /* ----------- adr slice2 swap ----------- */ - tmp = (uint32_t)((Boardcnf->ch[ch].ca_swap) >> 40); - dataL = (tmp & 0x00ffffff) | 0x00888888; + tmp = (uint32_t)((board_cnf->ch[ch].ca_swap) >> 40); + data_l = (tmp & 0x00ffffff) | 0x00888888; /* --- ADR_CALVL_SWIZZLE --- */ - if (Prr_Product == PRR_PRODUCT_M3) { - ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE0_0, dataL); + if (prr_product == PRR_PRODUCT_M3) { + ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE0_0, data_l); ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE1_0, 0x00000000); - ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE0_1, dataL); + ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE0_1, data_l); ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE1_1, 0x00000000); ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_DEVICE_MAP, _par_CALVL_DEVICE_MAP); } else { - ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE0, dataL); + ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE0, data_l); ddr_setval_s(ch, 2, _reg_PHY_ADR_CALVL_SWIZZLE1, 0x00000000); ddr_setval_s(ch, 2, _reg_PHY_CALVL_DEVICE_MAP, @@ -1711,42 +1710,42 @@ static void ddr_config_sub(void) } /* --- ADR_ADDR_SEL --- */ - dataL = 0; + data_l = 0; for (i = 0; i < 6; i++) { - dataL |= ((tmp & 0x0f) << (i * 5)); + data_l |= ((tmp & 0x0f) << (i * 5)); tmp = tmp >> 4; } - ddr_setval_s(ch, 2, _reg_PHY_ADR_ADDR_SEL, dataL); + ddr_setval_s(ch, 2, _reg_PHY_ADR_ADDR_SEL, data_l); } /*********************************************************************** BOARD SETTINGS (BYTE_ORDER_SEL) ***********************************************************************/ - if (Prr_Product == PRR_PRODUCT_M3) { + if (prr_product == PRR_PRODUCT_M3) { /* --- DATA_BYTE_SWAP --- */ - dataL = 0; - tmp = Boardcnf->ch[ch].dqs_swap; + data_l = 0; + tmp = board_cnf->ch[ch].dqs_swap; for (i = 0; i < 4; i++) { - dataL |= ((tmp & 0x03) << (i * 2)); + data_l |= ((tmp & 0x03) << (i * 2)); tmp = tmp >> 4; } } else { /* --- DATA_BYTE_SWAP --- */ - dataL = Boardcnf->ch[ch].dqs_swap; + data_l = board_cnf->ch[ch].dqs_swap; ddr_setval(ch, _reg_PI_DATA_BYTE_SWAP_EN, 0x01); ddr_setval(ch, _reg_PI_DATA_BYTE_SWAP_SLICE0, - (dataL) & 0x0f); + (data_l) & 0x0f); ddr_setval(ch, _reg_PI_DATA_BYTE_SWAP_SLICE1, - (dataL >> 4 * 1) & 0x0f); + (data_l >> 4 * 1) & 0x0f); ddr_setval(ch, _reg_PI_DATA_BYTE_SWAP_SLICE2, - (dataL >> 4 * 2) & 0x0f); + (data_l >> 4 * 2) & 0x0f); ddr_setval(ch, _reg_PI_DATA_BYTE_SWAP_SLICE3, - (dataL >> 4 * 3) & 0x0f); + (data_l >> 4 * 3) & 0x0f); ddr_setval(ch, _reg_PHY_DATA_BYTE_ORDER_SEL_HIGH, 0x00); } - ddr_setval(ch, _reg_PHY_DATA_BYTE_ORDER_SEL, dataL); + ddr_setval(ch, _reg_PHY_DATA_BYTE_ORDER_SEL, data_l); } } @@ -1763,11 +1762,11 @@ static void get_ca_swizzle(uint32_t ch, uint32_t ddr_csn, uint32_t *p_swz) } for (slice = 0; slice < SLICE_CNT; slice++) { - tmp = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + tmp = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; if (tgt == tmp) break; } - tmp = 0x00FFFFFF & Boardcnf->ch[ch].ca_swap; + tmp = 0x00FFFFFF & board_cnf->ch[ch].ca_swap; if (slice % 2) tmp |= 0x00888888; *p_swz = tmp; @@ -1776,7 +1775,7 @@ static void get_ca_swizzle(uint32_t ch, uint32_t ddr_csn, uint32_t *p_swz) static void ddr_config_sub_h3v1x(void) { uint32_t ch, slice; - uint32_t dataL; + uint32_t data_l; uint32_t tmp; uint8_t high_byte[SLICE_CNT]; uint32_t ca_swizzle; @@ -1798,14 +1797,14 @@ static void ddr_config_sub_h3v1x(void) ***********************************************************************/ csmap = 0; for (slice = 0; slice < SLICE_CNT; slice++) { - tmp = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + tmp = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; high_byte[slice] = tmp % 2; if (tmp == 1 && (slice >= 2)) csmap |= 0x05; if (tmp == 3 && (slice >= 2)) csmap |= 0x50; ddr_setval_s(ch, slice, _reg_PHY_DQ_SWIZZLING, - Boardcnf->ch[ch].dq_swap[slice]); + board_cnf->ch[ch].dq_swap[slice]); if (high_byte[slice]) { /* HIGHER 16 BYTE */ ddr_setval_s(ch, slice, @@ -1821,7 +1820,7 @@ static void ddr_config_sub_h3v1x(void) /*********************************************************************** BOARD SETTINGS (CA,ADDR_SEL) ***********************************************************************/ - ca = 0x00FFFFFF & Boardcnf->ch[ch].ca_swap; + ca = 0x00FFFFFF & board_cnf->ch[ch].ca_swap; ddr_setval(ch, _reg_PHY_ADR_ADDR_SEL, ca); ddr_setval(ch, _reg_PHY_CALVL_CS_MAP, csmap); @@ -1844,7 +1843,7 @@ static void ddr_config_sub_h3v1x(void) else o_inv = o_mr15; - tmp = Boardcnf->ch[ch].dq_swap[slice]; + tmp = board_cnf->ch[ch].dq_swap[slice]; inv = 0; j = 0; for (bit_soc = 0; bit_soc < 8; bit_soc++) { @@ -1853,13 +1852,13 @@ static void ddr_config_sub_h3v1x(void) if (o_inv & (1U << bit_mem)) inv |= (1U << bit_soc); } - dataL = o_mr32_mr40; + data_l = o_mr32_mr40; if (!high_byte[slice]) - dataL |= (inv << 24); + data_l |= (inv << 24); if (high_byte[slice]) - dataL |= (inv << 16); + data_l |= (inv << 16); ddr_setval_s(ch, slice, _reg_PHY_LP4_RDLVL_PATT8, - dataL); + data_l); } } } @@ -1868,7 +1867,7 @@ static void ddr_config(void) { int32_t i; uint32_t ch, slice; - uint32_t dataL; + uint32_t data_l; uint32_t tmp; int8_t _adj; int16_t adj; @@ -1882,7 +1881,7 @@ static void ddr_config(void) /*********************************************************************** configure ddrphy registers ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { ddr_config_sub_h3v1x(); } else { ddr_config_sub(); /* H3 Ver.2.0 or later/M3-N/V3H is same as M3-W */ @@ -1895,7 +1894,7 @@ static void ddr_config(void) for (slice = 0; slice < SLICE_CNT; slice++) { patm = 0; for (i = 0; i < 16; i++) { - tmp = Boardcnf->ch[ch].wdqlvl_patt[i]; + tmp = board_cnf->ch[ch].wdqlvl_patt[i]; patt.ui8[i] = tmp & 0xff; if (tmp & 0x100) patm |= (1U << i); @@ -1915,14 +1914,14 @@ static void ddr_config(void) /*********************************************************************** CACS DLY ***********************************************************************/ - dataL = Boardcnf->cacs_dly + _f_scale_adj(Boardcnf->cacs_dly_adj); + data_l = board_cnf->cacs_dly + _f_scale_adj(board_cnf->cacs_dly_adj); reg_ddrphy_write_a(ddr_regdef_adr(_reg_PHY_FREQ_SEL_MULTICAST_EN), 0x00U); foreach_vch(ch) { for (i = 0; i < (_reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM - 4); i++) { - adj = _f_scale_adj(Boardcnf->ch[ch].cacs_adj[i]); + adj = _f_scale_adj(board_cnf->ch[ch].cacs_adj[i]); ddrtbl_setval(_cnf_DDR_PHY_ADR_V_REGSET, _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i], - dataL + adj); + data_l + adj); reg_ddrphy_write(ch, ddr_regdef_adr( _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i]), @@ -1934,10 +1933,10 @@ static void ddr_config(void) for (i = (_reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM - 4); i < _reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM; i++) { - adj = _f_scale_adj(Boardcnf->ch[ch].cacs_adj[i]); + adj = _f_scale_adj(board_cnf->ch[ch].cacs_adj[i]); ddrtbl_setval(_cnf_DDR_PHY_ADR_G_REGSET, _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i], - dataL + adj); + data_l + adj); reg_ddrphy_write(ch, ddr_regdef_adr( _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i]), @@ -1950,11 +1949,11 @@ static void ddr_config(void) if (ddr_phycaslice == 1) { for (i = 0; i < 6; i++) { adj = _f_scale_adj( - Boardcnf->ch[ch].cacs_adj[ + board_cnf->ch[ch].cacs_adj[ i + _reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM]); ddrtbl_setval(_cnf_DDR_PHY_ADR_V_REGSET, _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i], - dataL + adj); + data_l + adj); reg_ddrphy_write(ch, ddr_regdef_adr( _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i]) + @@ -1973,19 +1972,19 @@ static void ddr_config(void) /*********************************************************************** WDQDM DLY ***********************************************************************/ - dataL = Boardcnf->dqdm_dly_w; + data_l = board_cnf->dqdm_dly_w; foreach_vch(ch) { for (slice = 0; slice < SLICE_CNT; slice++) { for (i = 0; i <= 8; i++) { dq = slice * 8 + i; if (i == 8) - _adj = Boardcnf->ch[ch].dm_adj_w[slice]; + _adj = board_cnf->ch[ch].dm_adj_w[slice]; else - _adj = Boardcnf->ch[ch].dq_adj_w[dq]; + _adj = board_cnf->ch[ch].dq_adj_w[dq]; adj = _f_scale_adj(_adj); ddr_setval_s(ch, slice, _reg_PHY_CLK_WRX_SLAVE_DELAY[i], - dataL + adj); + data_l + adj); } } } @@ -1993,22 +1992,22 @@ static void ddr_config(void) /*********************************************************************** RDQDM DLY ***********************************************************************/ - dataL = Boardcnf->dqdm_dly_r; + data_l = board_cnf->dqdm_dly_r; foreach_vch(ch) { for (slice = 0; slice < SLICE_CNT; slice++) { for (i = 0; i <= 8; i++) { dq = slice * 8 + i; if (i == 8) - _adj = Boardcnf->ch[ch].dm_adj_r[slice]; + _adj = board_cnf->ch[ch].dm_adj_r[slice]; else - _adj = Boardcnf->ch[ch].dq_adj_r[dq]; + _adj = board_cnf->ch[ch].dq_adj_r[dq]; adj = _f_scale_adj(_adj); ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY - [i], dataL + adj); + [i], data_l + adj); ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY - [i], dataL + adj); + [i], data_l + adj); } } } @@ -2020,7 +2019,7 @@ static void ddr_config(void) static void dbsc_regset_pre(void) { uint32_t ch, csab; - uint32_t dataL; + uint32_t data_l; /*********************************************************************** PRIMARY SETTINGS @@ -2034,7 +2033,7 @@ static void dbsc_regset_pre(void) mmio_write_32(DBSC_DBSYSCONF1, 0x00000002); /* Chanel map (H3 Ver.1.x) */ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) mmio_write_32(DBSC_DBSCHCNT1, 0x00001010); /* DRAM SIZE REGISTER: @@ -2044,20 +2043,20 @@ static void dbsc_regset_pre(void) for (csab = 0; csab < 4; csab++) mmio_write_32(DBSC_DBMEMCONF(ch, csab), DBMEMCONF_REGD(0)); - if (Prr_Product == PRR_PRODUCT_M3) { - dataL = 0xe4e4e4e4; + if (prr_product == PRR_PRODUCT_M3) { + data_l = 0xe4e4e4e4; foreach_ech(ch) { if ((ddr_phyvalid & (1U << ch))) - dataL = (dataL & (~(0x000000FF << (ch * 8)))) - | (((Boardcnf->ch[ch].dqs_swap & 0x0003) - | ((Boardcnf->ch[ch].dqs_swap & 0x0030) + data_l = (data_l & (~(0x000000FF << (ch * 8)))) + | (((board_cnf->ch[ch].dqs_swap & 0x0003) + | ((board_cnf->ch[ch].dqs_swap & 0x0030) >> 2) - | ((Boardcnf->ch[ch].dqs_swap & 0x0300) + | ((board_cnf->ch[ch].dqs_swap & 0x0300) >> 4) - | ((Boardcnf->ch[ch].dqs_swap & 0x3000) + | ((board_cnf->ch[ch].dqs_swap & 0x3000) >> 6)) << (ch * 8)); } - mmio_write_32(DBSC_DBBSWAP, dataL); + mmio_write_32(DBSC_DBBSWAP, data_l); } } @@ -2065,20 +2064,20 @@ static void dbsc_regset(void) { int32_t i; uint32_t ch; - uint32_t dataL; - uint32_t dataL2; + uint32_t data_l; + uint32_t data_l2; uint32_t tmp[4]; /* RFC */ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut == PRR_PRODUCT_20) + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut == PRR_PRODUCT_20) && (max_density == 0)) { - js2[JS2_tRFCab] = + js2[js2_trfcab] = _f_scale(ddr_mbps, ddr_mbpsdiv, - 1UL * jedec_spec2_tRFC_ab[1] * 1000, 0); + 1UL * jedec_spec2_trfc_ab[1] * 1000, 0); } else { - js2[JS2_tRFCab] = + js2[js2_trfcab] = _f_scale(ddr_mbps, ddr_mbpsdiv, - 1UL * jedec_spec2_tRFC_ab[max_density] * + 1UL * jedec_spec2_trfc_ab[max_density] * 1000, 0); } @@ -2092,46 +2091,46 @@ static void dbsc_regset(void) mmio_write_32(DBSC_DBTR(2), 0); /* DBTR3.TRCD: tRCD */ - mmio_write_32(DBSC_DBTR(3), js2[JS2_tRCD]); + mmio_write_32(DBSC_DBTR(3), js2[js2_trcd]); /* DBTR4.TRPA,TRP: tRPab,tRPpb */ - mmio_write_32(DBSC_DBTR(4), (js2[JS2_tRPab] << 16) | js2[JS2_tRPpb]); + mmio_write_32(DBSC_DBTR(4), (js2[js2_trpab] << 16) | js2[js2_trppb]); /* DBTR5.TRC : use tRCpb */ - mmio_write_32(DBSC_DBTR(5), js2[JS2_tRCpb]); + mmio_write_32(DBSC_DBTR(5), js2[js2_trcpb]); /* DBTR6.TRAS : tRAS */ - mmio_write_32(DBSC_DBTR(6), js2[JS2_tRAS]); + mmio_write_32(DBSC_DBTR(6), js2[js2_tras]); /* DBTR7.TRRD : tRRD */ - mmio_write_32(DBSC_DBTR(7), (js2[JS2_tRRD] << 16) | js2[JS2_tRRD]); + mmio_write_32(DBSC_DBTR(7), (js2[js2_trrd] << 16) | js2[js2_trrd]); /* DBTR8.TFAW : tFAW */ - mmio_write_32(DBSC_DBTR(8), js2[JS2_tFAW]); + mmio_write_32(DBSC_DBTR(8), js2[js2_tfaw]); /* DBTR9.TRDPR : tRTP */ - mmio_write_32(DBSC_DBTR(9), js2[JS2_tRTP]); + mmio_write_32(DBSC_DBTR(9), js2[js2_trtp]); - /* DBTR10.TWR : nWR */ - mmio_write_32(DBSC_DBTR(10), js1[js1_ind].nWR); + /* DBTR10.TWR : nwr */ + mmio_write_32(DBSC_DBTR(10), js1[js1_ind].nwr); /* DBTR11.TRDWR : RL + tDQSCK + BL/2 + Rounddown(tRPST) - WL + tWPRE */ mmio_write_32(DBSC_DBTR(11), - RL + js2[JS2_tDQSCK] + (16 / 2) + 1 - WL + 2 + 2); + RL + js2[js2_tdqsck] + (16 / 2) + 1 - WL + 2 + 2); /* DBTR12.TWRRD : WL + 1 + BL/2 + tWTR */ - dataL = WL + 1 + (16 / 2) + js2[JS2_tWTR]; - mmio_write_32(DBSC_DBTR(12), (dataL << 16) | dataL); + data_l = WL + 1 + (16 / 2) + js2[js2_twtr]; + mmio_write_32(DBSC_DBTR(12), (data_l << 16) | data_l); /* DBTR13.TRFCAB : tRFCab */ - mmio_write_32(DBSC_DBTR(13), (js2[JS2_tRFCab])); + mmio_write_32(DBSC_DBTR(13), (js2[js2_trfcab])); /* DBTR14.TCKEHDLL,tCKEH : tCKEHCMD,tCKEHCMD */ mmio_write_32(DBSC_DBTR(14), - (js2[JS2_tCKEHCMD] << 16) | (js2[JS2_tCKEHCMD])); + (js2[js2_tckehcmd] << 16) | (js2[js2_tckehcmd])); /* DBTR15.TCKESR,TCKEL : tSR,tCKELPD */ - mmio_write_32(DBSC_DBTR(15), (js2[JS2_tSR] << 16) | (js2[JS2_tCKELPD])); + mmio_write_32(DBSC_DBTR(15), (js2[js2_tsr] << 16) | (js2[js2_tckelpd])); /* DBTR16 */ /* WDQL : tphy_wrlat + tphy_wrdata */ @@ -2154,13 +2153,13 @@ static void dbsc_regset(void) /* WRCSGAP = 5 */ tmp[1] = 5; /* RDCSLAT = RDLAT_ADJ +2 */ - if (Prr_Product == PRR_PRODUCT_M3) { + if (prr_product == PRR_PRODUCT_M3) { tmp[2] = tmp[3]; } else { tmp[2] = tmp[3] + 2; } /* RDCSGAP = 6 */ - if (Prr_Product == PRR_PRODUCT_M3) { + if (prr_product == PRR_PRODUCT_M3) { tmp[3] = 4; } else { tmp[3] = 6; @@ -2170,7 +2169,7 @@ static void dbsc_regset(void) /* DBTR17.TMODRD,TMOD,TRDMR: tMRR,tMRD,(0) */ mmio_write_32(DBSC_DBTR(17), - (js2[JS2_tMRR] << 24) | (js2[JS2_tMRD] << 16)); + (js2[js2_tmrr] << 24) | (js2[js2_tmrd] << 16)); /* DBTR18.RODTL, RODTA, WODTL, WODTA : do not use in LPDDR4 */ mmio_write_32(DBSC_DBTR(18), 0); @@ -2179,32 +2178,32 @@ static void dbsc_regset(void) mmio_write_32(DBSC_DBTR(19), 0); /* DBTR20.TXSDLL, TXS : tRFCab+tCKEHCMD */ - dataL = js2[JS2_tRFCab] + js2[JS2_tCKEHCMD]; - mmio_write_32(DBSC_DBTR(20), (dataL << 16) | dataL); + data_l = js2[js2_trfcab] + js2[js2_tckehcmd]; + mmio_write_32(DBSC_DBTR(20), (data_l << 16) | data_l); /* DBTR21.TCCD */ /* DBTR23.TCCD */ /* H3 Ver.1.0 cannot use TBTR23 feature */ if (ddr_tccd == 8 && - !((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_10)) + !((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_10)) ) { - dataL = 8; - mmio_write_32(DBSC_DBTR(21), (dataL << 16) | dataL); + data_l = 8; + mmio_write_32(DBSC_DBTR(21), (data_l << 16) | data_l); mmio_write_32(DBSC_DBTR(23), 0x00000002); } else if (ddr_tccd <= 11) { - dataL = 11; - mmio_write_32(DBSC_DBTR(21), (dataL << 16) | dataL); + data_l = 11; + mmio_write_32(DBSC_DBTR(21), (data_l << 16) | data_l); mmio_write_32(DBSC_DBTR(23), 0x00000000); } else { - dataL = ddr_tccd; - mmio_write_32(DBSC_DBTR(21), (dataL << 16) | dataL); + data_l = ddr_tccd; + mmio_write_32(DBSC_DBTR(21), (data_l << 16) | data_l); mmio_write_32(DBSC_DBTR(23), 0x00000000); } /* DBTR22.ZQLAT : */ - dataL = js2[JS2_tZQCALns] * 100; /* 1000 * 1000 ps */ - dataL = (dataL << 16) | (js2[JS2_tZQLAT] + 24 + 20); - mmio_write_32(DBSC_DBTR(22), dataL); + data_l = js2[js2_tzqcalns] * 100; /* 1000 * 1000 ps */ + data_l = (data_l << 16) | (js2[js2_tzqlat] + 24 + 20); + mmio_write_32(DBSC_DBTR(22), data_l); /* DBTR25 : do not use in LPDDR4 */ mmio_write_32(DBSC_DBTR(25), 0); @@ -2219,16 +2218,16 @@ static void dbsc_regset(void) #define _par_DBRNK_VAL (0x7007) for (i = 0; i < 4; i++) { - dataL = (_par_DBRNK_VAL >> (i * 4)) & 0x0f; - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut > PRR_PRODUCT_11) && (i == 0)) { - dataL += 1; + data_l = (_par_DBRNK_VAL >> (i * 4)) & 0x0f; + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut > PRR_PRODUCT_11) && (i == 0)) { + data_l += 1; } - dataL2 = 0; + data_l2 = 0; foreach_vch(ch) { - dataL2 = dataL2 | (dataL << (4 * ch)); + data_l2 = data_l2 | (data_l << (4 * ch)); } - mmio_write_32(DBSC_DBRNK(2 + i), dataL2); + mmio_write_32(DBSC_DBRNK(2 + i), data_l2); } mmio_write_32(DBSC_DBADJ0, 0x00000000); @@ -2237,17 +2236,17 @@ static void dbsc_regset(void) ***********************************************************************/ /* SCFCTST0 */ /* SCFCTST0 ACT-ACT */ - tmp[3] = 1UL * js2[JS2_tRCpb] * 800 * ddr_mbpsdiv / ddr_mbps; + tmp[3] = 1UL * js2[js2_trcpb] * 800 * ddr_mbpsdiv / ddr_mbps; /* SCFCTST0 RDA-ACT */ tmp[2] = - 1UL * ((16 / 2) + js2[JS2_tRTP] - 8 + - js2[JS2_tRPpb]) * 800 * ddr_mbpsdiv / ddr_mbps; + 1UL * ((16 / 2) + js2[js2_trtp] - 8 + + js2[js2_trppb]) * 800 * ddr_mbpsdiv / ddr_mbps; /* SCFCTST0 WRA-ACT */ tmp[1] = 1UL * (WL + 1 + (16 / 2) + - js1[js1_ind].nWR) * 800 * ddr_mbpsdiv / ddr_mbps; + js1[js1_ind].nwr) * 800 * ddr_mbpsdiv / ddr_mbps; /* SCFCTST0 PRE-ACT */ - tmp[0] = 1UL * js2[JS2_tRPpb]; + tmp[0] = 1UL * js2[js2_trppb]; mmio_write_32(DBSC_SCFCTST0, (tmp[3] << 24) | (tmp[2] << 16) | (tmp[1] << 8) | tmp[0]); @@ -2261,7 +2260,7 @@ static void dbsc_regset(void) 1UL * (mmio_read_32(DBSC_DBTR(12)) & 0xff) * 800 * ddr_mbpsdiv / ddr_mbps; /* SCFCTST1 ACT-RD/WR */ - tmp[1] = 1UL * js2[JS2_tRCD] * 800 * ddr_mbpsdiv / ddr_mbps; + tmp[1] = 1UL * js2[js2_trcd] * 800 * ddr_mbpsdiv / ddr_mbps; /* SCFCTST1 ASYNCOFS */ tmp[0] = 12; mmio_write_32(DBSC_SCFCTST1, @@ -2269,14 +2268,14 @@ static void dbsc_regset(void) /* DBSCHRW1 */ /* DBSCHRW1 SCTRFCAB */ - tmp[0] = 1UL * js2[JS2_tRFCab] * 800 * ddr_mbpsdiv / ddr_mbps; - dataL = (((mmio_read_32(DBSC_DBTR(16)) & 0x00FF0000) >> 16) + tmp[0] = 1UL * js2[js2_trfcab] * 800 * ddr_mbpsdiv / ddr_mbps; + data_l = (((mmio_read_32(DBSC_DBTR(16)) & 0x00FF0000) >> 16) + (mmio_read_32(DBSC_DBTR(22)) & 0x0000FFFF) + (0x28 * 2)) * 400 * 2 * ddr_mbpsdiv / ddr_mbps + 7; - if (tmp[0] < dataL) - tmp[0] = dataL; + if (tmp[0] < data_l) + tmp[0] = data_l; - if ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut < PRR_PRODUCT_30)) { + if ((prr_product == PRR_PRODUCT_M3) && (prr_cut < PRR_PRODUCT_30)) { mmio_write_32(DBSC_DBSCHRW1, tmp[0] + ((mmio_read_32(DBSC_DBTR(22)) & 0x0000FFFF) * 400 * 2 * ddr_mbpsdiv + (ddr_mbps - 1)) / ddr_mbps - 3); @@ -2334,18 +2333,18 @@ static void dbsc_regset(void) mmio_write_32(QOSCTRL_RAEN, 0x00000001U); #endif /* ddr_qos_init_setting */ /* H3 Ver.1.1 need to set monitor function */ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut == PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut == PRR_PRODUCT_11)) { mmio_write_32(DBSC_DBMONCONF4, 0x00700000); } - if (Prr_Product == PRR_PRODUCT_H3) { - if (Prr_Cut == PRR_PRODUCT_10) { + if (prr_product == PRR_PRODUCT_H3) { + if (prr_cut == PRR_PRODUCT_10) { /* resrdis, simple mode, sc off */ mmio_write_32(DBSC_DBBCAMDIS, 0x00000007); - } else if (Prr_Cut == PRR_PRODUCT_11) { + } else if (prr_cut == PRR_PRODUCT_11) { /* resrdis, simple mode */ mmio_write_32(DBSC_DBBCAMDIS, 0x00000005); - } else if (Prr_Cut < PRR_PRODUCT_30) { + } else if (prr_cut < PRR_PRODUCT_30) { /* H3 Ver.2.0 */ /* resrdis */ mmio_write_32(DBSC_DBBCAMDIS, 0x00000001); @@ -2362,7 +2361,7 @@ static void dbsc_regset(void) static void dbsc_regset_post(void) { uint32_t ch, cs; - uint32_t dataL; + uint32_t data_l; uint32_t slice, rdlat_max, rdlat_min; rdlat_max = 0; @@ -2374,18 +2373,18 @@ static void dbsc_regset_post(void) ddr_setval_s(ch, slice, _reg_PHY_PER_CS_TRAINING_INDEX, cs); - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_LATENCY_ADJUST); - if (dataL > rdlat_max) - rdlat_max = dataL; - if (dataL < rdlat_min) - rdlat_min = dataL; + if (data_l > rdlat_max) + rdlat_max = data_l; + if (data_l < rdlat_min) + rdlat_min = data_l; } } } } - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut > PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut > PRR_PRODUCT_11)) { mmio_write_32(DBSC_DBTR(24), ((rdlat_max * 2 - rdlat_min + 4) << 24) + ((rdlat_min + 2) << 16) + @@ -2415,24 +2414,24 @@ static void dbsc_regset_post(void) mmio_write_32(DBSC_DBBUS0CNF1, 0x00000010); /*set DBI */ - if (Boardcnf->dbi_en) + if (board_cnf->dbi_en) mmio_write_32(DBSC_DBDBICNT, 0x00000003); /* H3 Ver.2.0 or later/M3-N/V3H DBI wa */ - if ((((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) && (Boardcnf->dbi_en)) + if ((((prr_product == PRR_PRODUCT_H3) && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) && (board_cnf->dbi_en)) reg_ddrphy_write_a(0x00001010, 0x01000000); /*set REFCYCLE */ - dataL = (get_refperiod()) * ddr_mbps / 2000 / ddr_mbpsdiv; - mmio_write_32(DBSC_DBRFCNF1, 0x00080000 | (dataL & 0x0000ffff)); + data_l = (get_refperiod()) * ddr_mbps / 2000 / ddr_mbpsdiv; + mmio_write_32(DBSC_DBRFCNF1, 0x00080000 | (data_l & 0x0000ffff)); mmio_write_32(DBSC_DBRFCNF2, 0x00010000 | DBSC_REFINTS); #ifdef DDR_BACKUPMODE - if (ddrBackup == DRAM_BOOT_STATUS_WARM) { + if (ddr_backup == DRAM_BOOT_STATUS_WARM) { #ifdef DDR_BACKUPMODE_HALF /* for Half channel(ch0,1 only) */ - PutStr(" DEBUG_MESS : DDR_BACKUPMODE_HALF ", 1); + DEBUG(" DEBUG_MESS : DDR_BACKUPMODE_HALF ", 1); send_dbcmd(0x08040001); wait_dbcmd(); send_dbcmd(0x0A040001); @@ -2440,7 +2439,7 @@ static void dbsc_regset_post(void) send_dbcmd(0x04040010); wait_dbcmd(); - if (Prr_Product == PRR_PRODUCT_H3) { + if (prr_product == PRR_PRODUCT_H3) { send_dbcmd(0x08140001); wait_dbcmd(); send_dbcmd(0x0A140001); @@ -2462,8 +2461,8 @@ static void dbsc_regset_post(void) #if RCAR_REWT_TRAINING != 0 /* Periodic-WriteDQ Training seeting */ - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut == PRR_PRODUCT_10))) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) && (prr_cut == PRR_PRODUCT_10))) { /* non : H3 Ver.1.x/M3-W Ver.1.0 not support */ } else { /* H3 Ver.2.0 or later/M3-W Ver.1.1 or later/M3-N/V3H -> Periodic-WriteDQ Training seeting */ @@ -2487,7 +2486,7 @@ static void dbsc_regset_post(void) ddr_setval_ach(_reg_PI_TREF_F1, 0x0000); ddr_setval_ach(_reg_PI_TREF_F2, 0x0000); - if (Prr_Product == PRR_PRODUCT_M3) { + if (prr_product == PRR_PRODUCT_M3) { ddr_setval_ach(_reg_PI_WDQLVL_EN, 0x02); } else { ddr_setval_ach(_reg_PI_WDQLVL_EN_F1, 0x02); @@ -2500,13 +2499,13 @@ static void dbsc_regset_post(void) #endif /* RCAR_REWT_TRAINING */ /* periodic dram zqcal and phy ctrl update enable */ mmio_write_32(DBSC_DBCALCNF, 0x01000010); - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut < PRR_PRODUCT_30))) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) && (prr_cut < PRR_PRODUCT_30))) { /* non : H3 Ver.1.x/M3-W Ver.1.x not support */ } else { #if RCAR_DRAM_SPLIT == 2 - if ((Prr_Product == PRR_PRODUCT_H3) - && (Boardcnf->phyvalid == 0x05)) + if ((prr_product == PRR_PRODUCT_H3) + && (board_cnf->phyvalid == 0x05)) mmio_write_32(DBSC_DBDFICUPDCNF, 0x2a240001); else mmio_write_32(DBSC_DBDFICUPDCNF, 0x28240001); @@ -2531,10 +2530,10 @@ static uint32_t dfi_init_start(void) uint32_t ch; uint32_t phytrainingok; uint32_t retry; - uint32_t dataL; + uint32_t data_l; const uint32_t RETRY_MAX = 0x10000; - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { /*********************************************************************** PLL3 Disable ***********************************************************************/ @@ -2584,8 +2583,8 @@ static uint32_t dfi_init_start(void) retry = 0; while (retry++ < RETRY_MAX) { foreach_vch(ch) { - dataL = mmio_read_32(DBSC_DBDFISTAT(ch)); - if (dataL & 0x00000001) + data_l = mmio_read_32(DBSC_DBDFISTAT(ch)); + if (data_l & 0x00000001) phytrainingok |= (1U << ch); } dsb_sev(); @@ -2621,7 +2620,7 @@ static void change_lpddr4_en(uint32_t mode) { uint32_t ch; uint32_t i; - uint32_t dataL; + uint32_t data_l; const uint32_t _reg_PHY_PAD_DRIVE_X[3] = { _reg_PHY_PAD_ADDR_DRIVE, _reg_PHY_PAD_CLK_DRIVE, @@ -2630,13 +2629,13 @@ static void change_lpddr4_en(uint32_t mode) foreach_vch(ch) { for (i = 0; i < 3; i++) { - dataL = ddr_getval(ch, _reg_PHY_PAD_DRIVE_X[i]); + data_l = ddr_getval(ch, _reg_PHY_PAD_DRIVE_X[i]); if (mode) { - dataL |= (1U << 14); + data_l |= (1U << 14); } else { - dataL &= ~(1U << 14); + data_l &= ~(1U << 14); } - ddr_setval(ch, _reg_PHY_PAD_DRIVE_X[i], dataL); + ddr_setval(ch, _reg_PHY_PAD_DRIVE_X[i], data_l); } } } @@ -2648,7 +2647,7 @@ static uint32_t set_term_code(void) { int32_t i; uint32_t ch, index; - uint32_t dataL; + uint32_t data_l; uint32_t chip_id[2]; uint32_t term_code; uint32_t override; @@ -2664,12 +2663,12 @@ static uint32_t set_term_code(void) index = 0; while (1) { - if (TermcodeBySample[index][0] == 0xffffffff) { + if (termcode_by_sample[index][0] == 0xffffffff) { break; } - if ((TermcodeBySample[index][0] == chip_id[0]) - && (TermcodeBySample[index][1] == chip_id[1])) { - term_code = TermcodeBySample[index][2]; + if ((termcode_by_sample[index][0] == chip_id[0]) + && (termcode_by_sample[index][1] == chip_id[1])) { + term_code = termcode_by_sample[index][2]; override = 1; break; } @@ -2678,14 +2677,14 @@ static uint32_t set_term_code(void) if (override) { for (index = 0; index < _reg_PHY_PAD_TERM_X_NUM; index++) { - dataL = + data_l = ddrtbl_getval(_cnf_DDR_PHY_ADR_G_REGSET, _reg_PHY_PAD_TERM_X[index]); - dataL = (dataL & 0xfffe0000) | term_code; - ddr_setval_ach(_reg_PHY_PAD_TERM_X[index], dataL); + data_l = (data_l & 0xfffe0000) | term_code; + ddr_setval_ach(_reg_PHY_PAD_TERM_X[index], data_l); } - } else if ((Prr_Product == PRR_PRODUCT_M3) - && (Prr_Cut == PRR_PRODUCT_10)) { + } else if ((prr_product == PRR_PRODUCT_M3) + && (prr_cut == PRR_PRODUCT_10)) { /* non */ } else { ddr_setval_ach(_reg_PHY_PAD_TERM_X[0], @@ -2696,55 +2695,55 @@ static uint32_t set_term_code(void) ddr_setval_ach(_reg_PHY_CAL_START_0, 0x01); foreach_vch(ch) { do { - dataL = + data_l = ddr_getval(ch, _reg_PHY_CAL_RESULT2_OBS_0); - } while (!(dataL & 0x00800000)); + } while (!(data_l & 0x00800000)); } - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { foreach_vch(ch) { - dataL = ddr_getval(ch, _reg_PHY_PAD_TERM_X[0]); - pvtr = (dataL >> 12) & 0x1f; + data_l = ddr_getval(ch, _reg_PHY_PAD_TERM_X[0]); + pvtr = (data_l >> 12) & 0x1f; pvtr += 8; if (pvtr > 0x1f) pvtr = 0x1f; - dataL = + data_l = ddr_getval(ch, _reg_PHY_CAL_RESULT2_OBS_0); - pvtn = (dataL >> 6) & 0x03f; - pvtp = (dataL >> 0) & 0x03f; + pvtn = (data_l >> 6) & 0x03f; + pvtp = (data_l >> 0) & 0x03f; for (index = 0; index < _reg_PHY_PAD_TERM_X_NUM; index++) { - dataL = + data_l = ddrtbl_getval (_cnf_DDR_PHY_ADR_G_REGSET, _reg_PHY_PAD_TERM_X[index]); - dataL = (dataL & 0xfffe0000) + data_l = (data_l & 0xfffe0000) | (pvtr << 12) | (pvtn << 6) | (pvtp); ddr_setval(ch, _reg_PHY_PAD_TERM_X[index], - dataL); + data_l); } } } else { /* M3-W Ver.1.1 or later/H3 Ver.2.0 or later/M3-N/V3H */ foreach_vch(ch) { for (index = 0; index < _reg_PHY_PAD_TERM_X_NUM; index++) { - dataL = + data_l = ddr_getval(ch, _reg_PHY_PAD_TERM_X [index]); ddr_setval(ch, _reg_PHY_PAD_TERM_X[index], - (dataL & 0xFFFE0FFF) | + (data_l & 0xFFFE0FFF) | 0x00015000); } } } } - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { /* non */ } else { ddr_padcal_tcompensate_getinit(override); @@ -2766,32 +2765,32 @@ static void ddr_register_set(void) tmp = ddrtbl_getval(_cnf_DDR_PI_REGSET, - _reg_PI_MR1_DATA_Fx_CSx[fspwp][0]); + reg_pi_mr1_data_fx_csx[fspwp][0]); send_dbcmd(0x0e840100 | tmp); tmp = ddrtbl_getval(_cnf_DDR_PI_REGSET, - _reg_PI_MR2_DATA_Fx_CSx[fspwp][0]); + reg_pi_mr2_data_fx_csx[fspwp][0]); send_dbcmd(0x0e840200 | tmp); tmp = ddrtbl_getval(_cnf_DDR_PI_REGSET, - _reg_PI_MR3_DATA_Fx_CSx[fspwp][0]); + reg_pi_mr3_data_fx_csx[fspwp][0]); send_dbcmd(0x0e840300 | tmp); tmp = ddrtbl_getval(_cnf_DDR_PI_REGSET, - _reg_PI_MR11_DATA_Fx_CSx[fspwp][0]); + reg_pi_mr11_data_fx_csx[fspwp][0]); send_dbcmd(0x0e840b00 | tmp); tmp = ddrtbl_getval(_cnf_DDR_PI_REGSET, - _reg_PI_MR12_DATA_Fx_CSx[fspwp][0]); + reg_pi_mr12_data_fx_csx[fspwp][0]); send_dbcmd(0x0e840c00 | tmp); tmp = ddrtbl_getval(_cnf_DDR_PI_REGSET, - _reg_PI_MR14_DATA_Fx_CSx[fspwp][0]); + reg_pi_mr14_data_fx_csx[fspwp][0]); send_dbcmd(0x0e840e00 | tmp); /* MR22 */ send_dbcmd(0x0e841616); @@ -2803,33 +2802,33 @@ static void ddr_register_set(void) ******************************************************************************/ static inline uint32_t wait_freqchgreq(uint32_t assert) { - uint32_t dataL; + uint32_t data_l; uint32_t count; uint32_t ch; count = 100000; /* H3 Ver.1.x cannot see frqchg_req */ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { return 0; } if (assert) { do { - dataL = 1; + data_l = 1; foreach_vch(ch) { - dataL &= mmio_read_32(DBSC_DBPDSTAT(ch)); + data_l &= mmio_read_32(DBSC_DBPDSTAT(ch)); } count = count - 1; - } while (((dataL & 0x01) != 0x01) & (count != 0)); + } while (((data_l & 0x01) != 0x01) & (count != 0)); } else { do { - dataL = 0; + data_l = 0; foreach_vch(ch) { - dataL |= mmio_read_32(DBSC_DBPDSTAT(ch)); + data_l |= mmio_read_32(DBSC_DBPDSTAT(ch)); } count = count - 1; - } while (((dataL & 0x01) != 0x00) & (count != 0)); + } while (((data_l & 0x01) != 0x00) & (count != 0)); } return (count == 0); @@ -2838,22 +2837,22 @@ static inline uint32_t wait_freqchgreq(uint32_t assert) static inline void set_freqchgack(uint32_t assert) { uint32_t ch; - uint32_t dataL; + uint32_t data_l; if (assert) - dataL = 0x0CF20000; + data_l = 0x0CF20000; else - dataL = 0x00000000; + data_l = 0x00000000; foreach_vch(ch) - mmio_write_32(DBSC_DBPDCNT2(ch), dataL); + mmio_write_32(DBSC_DBPDCNT2(ch), data_l); } static inline void set_dfifrequency(uint32_t freq) { uint32_t ch; - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { foreach_vch(ch) mmio_clrsetbits_32(DBSC_DBPDCNT1(ch), 0x1fU, freq); } else { @@ -2904,7 +2903,7 @@ static void update_dly(void) static uint32_t pi_training_go(void) { uint32_t flag; - uint32_t dataL; + uint32_t data_l; uint32_t retry; const uint32_t RETRY_MAX = 4096 * 16; uint32_t ch; @@ -2939,8 +2938,8 @@ static uint32_t pi_training_go(void) frqchg_req = mmio_read_32(DBSC_DBPDSTAT(mst_ch)) & 0x01; /* H3 Ver.1.x cannot see frqchg_req */ - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { if ((retry % 4096) == 1) { frqchg_req = 1; } else { @@ -2965,9 +2964,9 @@ static uint32_t pi_training_go(void) foreach_vch(ch) { if (complete & (1U << ch)) continue; - dataL = + data_l = ddr_getval(ch, _reg_PI_INT_STATUS); - if (dataL & 0x01) { + if (data_l & 0x01) { complete |= (1U << ch); } } @@ -2978,9 +2977,9 @@ static uint32_t pi_training_go(void) } while (--retry); foreach_vch(ch) { /* dummy read */ - dataL = ddr_getval_s(ch, 0, _reg_PHY_CAL_RESULT2_OBS_0); - dataL = ddr_getval(ch, _reg_PI_INT_STATUS); - ddr_setval(ch, _reg_PI_INT_ACK, dataL); + data_l = ddr_getval_s(ch, 0, _reg_PHY_CAL_RESULT2_OBS_0); + data_l = ddr_getval(ch, _reg_PI_INT_STATUS); + ddr_setval(ch, _reg_PI_INT_ACK, data_l); } if (ddrphy_regif_chk()) { return (0xfd); @@ -2994,7 +2993,7 @@ static uint32_t pi_training_go(void) static uint32_t init_ddr(void) { int32_t i; - uint32_t dataL; + uint32_t data_l; uint32_t phytrainingok; uint32_t ch, slice; uint32_t err; @@ -3003,7 +3002,7 @@ static uint32_t init_ddr(void) MSG_LF("init_ddr:0\n"); #ifdef DDR_BACKUPMODE - rcar_dram_get_boot_status(&ddrBackup); + rcar_dram_get_boot_status(&ddr_backup); #endif /*********************************************************************** @@ -3014,9 +3013,9 @@ static uint32_t init_ddr(void) mmio_write_32(DBSC_DBPDLK(ch), 0x0000A55A); dsb_sev(); - if ((((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) && (Boardcnf->dbi_en)) + if ((((prr_product == PRR_PRODUCT_H3) && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) && (board_cnf->dbi_en)) reg_ddrphy_write_a(0x00001010, 0x01000001); else reg_ddrphy_write_a(0x00001010, 0x00000001); @@ -3069,12 +3068,12 @@ static uint32_t init_ddr(void) ddr backupmode end ***********************************************************************/ #ifdef DDR_BACKUPMODE - if (ddrBackup) { + if (ddr_backup) { NOTICE("BL2: [WARM_BOOT]\n"); } else { NOTICE("BL2: [COLD_BOOT]\n"); } - err = rcar_dram_update_boot_status(ddrBackup); + err = rcar_dram_update_boot_status(ddr_backup); if (err) { NOTICE("BL2: [BOOT_STATUS_UPDATE_ERROR]\n"); return INITDRAM_ERR_I; @@ -3094,8 +3093,8 @@ static uint32_t init_ddr(void) /*********************************************************************** rx offset calibration ***********************************************************************/ - if ((Prr_Cut > PRR_PRODUCT_11) || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if ((prr_cut > PRR_PRODUCT_11) || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { err = rx_offset_cal_hw(); } else { err = rx_offset_cal(); @@ -3139,8 +3138,8 @@ static uint32_t init_ddr(void) Thermal sensor setting ***********************************************************************/ /* THCTR Bit6: PONM=0 , Bit0: THSST=1 */ - dataL = (mmio_read_32(THS1_THCTR) & 0xFFFFFFBF) | 0x00000001; - mmio_write_32(THS1_THCTR, dataL); + data_l = (mmio_read_32(THS1_THCTR) & 0xFFFFFFBF) | 0x00000001; + mmio_write_32(THS1_THCTR, data_l); /* LPDDR4 MODE */ change_lpddr4_en(1); @@ -3151,10 +3150,10 @@ static uint32_t init_ddr(void) mask CS_MAP if RANKx is not found ***********************************************************************/ foreach_vch(ch) { - dataL = ddr_getval(ch, _reg_PI_CS_MAP); + data_l = ddr_getval(ch, _reg_PI_CS_MAP); if (!(ch_have_this_cs[1] & (1U << ch))) - dataL = dataL & 0x05; - ddr_setval(ch, _reg_PI_CS_MAP, dataL); + data_l = data_l & 0x05; + ddr_setval(ch, _reg_PI_CS_MAP, data_l); } /*********************************************************************** @@ -3164,7 +3163,7 @@ static uint32_t init_ddr(void) BIT(ddr_regdef_lsb(_reg_PHY_FREQ_SEL_MULTICAST_EN))); ddr_setval_ach_as(_reg_PHY_PER_CS_TRAINING_MULTICAST_EN, 0x00); - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { ddr_setval_ach_as(_reg_PHY_PER_CS_TRAINING_EN, 0x01); } else { foreach_vch(ch) { @@ -3188,19 +3187,19 @@ static uint32_t init_ddr(void) /*********************************************************************** CACS DLY ADJUST ***********************************************************************/ - dataL = Boardcnf->cacs_dly + _f_scale_adj(Boardcnf->cacs_dly_adj); + data_l = board_cnf->cacs_dly + _f_scale_adj(board_cnf->cacs_dly_adj); foreach_vch(ch) { for (i = 0; i < _reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM; i++) { - adj = _f_scale_adj(Boardcnf->ch[ch].cacs_adj[i]); + adj = _f_scale_adj(board_cnf->ch[ch].cacs_adj[i]); ddr_setval(ch, _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i], - dataL + adj); + data_l + adj); } if (ddr_phycaslice == 1) { for (i = 0; i < 6; i++) { - adj = _f_scale_adj(Boardcnf->ch[ch].cacs_adj[i + _reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM]); + adj = _f_scale_adj(board_cnf->ch[ch].cacs_adj[i + _reg_PHY_CLK_CACS_SLAVE_DELAY_X_NUM]); ddr_setval_s(ch, 2, _reg_PHY_CLK_CACS_SLAVE_DELAY_X[i], - dataL + adj + data_l + adj ); } } @@ -3212,7 +3211,7 @@ static uint32_t init_ddr(void) /*********************************************************************** H3 fix rd latency to avoid bug in elasitic buffe ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { adjust_rddqs_latency(); } @@ -3255,9 +3254,9 @@ static uint32_t init_ddr(void) /*********************************************************************** training complete, setup dbsc ***********************************************************************/ - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddr_setval_ach_as(_reg_PHY_DFI40_POLARITY, 0x00); ddr_setval_ach(_reg_PI_DFI40_POLARITY, 0x00); } @@ -3274,7 +3273,7 @@ static uint32_t init_ddr(void) static uint32_t swlvl1(uint32_t ddr_csn, uint32_t reg_cs, uint32_t reg_kick) { uint32_t ch; - uint32_t dataL; + uint32_t data_l; uint32_t retry; uint32_t waiting; uint32_t err; @@ -3303,8 +3302,8 @@ static uint32_t swlvl1(uint32_t ddr_csn, uint32_t reg_cs, uint32_t reg_kick) foreach_vch(ch) { if (!(waiting & (1U << ch))) continue; - dataL = ddr_getval(ch, _reg_PI_SWLVL_OP_DONE); - if (dataL & 0x01) + data_l = ddr_getval(ch, _reg_PI_SWLVL_OP_DONE); + if (data_l & 0x01) waiting &= ~(1U << ch); } retry--; @@ -3329,15 +3328,15 @@ static void wdqdm_clr1(uint32_t ch, uint32_t ddr_csn) { int32_t i, k; uint32_t cs, slice; - uint32_t dataL; + uint32_t data_l; /*********************************************************************** clr of training results buffer ***********************************************************************/ cs = ddr_csn % 2; - dataL = Boardcnf->dqdm_dly_w; + data_l = board_cnf->dqdm_dly_w; for (slice = 0; slice < SLICE_CNT; slice++) { - k = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + k = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; if (((k >= 2) && (ddr_csn < 2)) || ((k < 2) && (ddr_csn >= 2))) continue; @@ -3346,7 +3345,7 @@ static void wdqdm_clr1(uint32_t ch, uint32_t ddr_csn) wdqdm_dly[ch][cs][slice][i] = wdqdm_dly[ch][CS_CNT - 1 - cs][slice][i]; else - wdqdm_dly[ch][cs][slice][i] = dataL; + wdqdm_dly[ch][cs][slice][i] = data_l; wdqdm_le[ch][cs][slice][i] = 0; wdqdm_te[ch][cs][slice][i] = 0; } @@ -3359,7 +3358,7 @@ static uint32_t wdqdm_ana1(uint32_t ch, uint32_t ddr_csn) { int32_t i, k; uint32_t cs, slice; - uint32_t dataL; + uint32_t data_l; uint32_t err; const uint32_t _par_WDQLVL_RETRY_THRES = 0x7c0; @@ -3374,7 +3373,7 @@ static uint32_t wdqdm_ana1(uint32_t ch, uint32_t ddr_csn) ***********************************************************************/ err = 0; for (slice = 0; slice < SLICE_CNT; slice += 1) { - k = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + k = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; if (((k >= 2) && (ddr_csn < 2)) || ((k < 2) && (ddr_csn >= 2))) continue; @@ -3383,44 +3382,44 @@ static uint32_t wdqdm_ana1(uint32_t ch, uint32_t ddr_csn) for (i = 0; i < 9; i++) { dq = slice * 8 + i; if (i == 8) - _adj = Boardcnf->ch[ch].dm_adj_w[slice]; + _adj = board_cnf->ch[ch].dm_adj_w[slice]; else - _adj = Boardcnf->ch[ch].dq_adj_w[dq]; + _adj = board_cnf->ch[ch].dq_adj_w[dq]; adj = _f_scale_adj(_adj); - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_CLK_WRX_SLAVE_DELAY[i]) + adj; ddr_setval_s(ch, slice, _reg_PHY_CLK_WRX_SLAVE_DELAY[i], - dataL); - wdqdm_dly[ch][cs][slice][i] = dataL; + data_l); + wdqdm_dly[ch][cs][slice][i] = data_l; } ddr_setval_s(ch, slice, _reg_PHY_PER_CS_TRAINING_EN, 0x00); - dataL = ddr_getval_s(ch, slice, _reg_PHY_WDQLVL_STATUS_OBS); - wdqdm_st[ch][cs][slice] = dataL; + data_l = ddr_getval_s(ch, slice, _reg_PHY_WDQLVL_STATUS_OBS); + wdqdm_st[ch][cs][slice] = data_l; min_win = INT_LEAST32_MAX; for (i = 0; i <= 8; i++) { ddr_setval_s(ch, slice, _reg_PHY_WDQLVL_DQDM_OBS_SELECT, i); - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_WDQLVL_DQDM_TE_DLY_OBS); - wdqdm_te[ch][cs][slice][i] = dataL; - dataL = + wdqdm_te[ch][cs][slice][i] = data_l; + data_l = ddr_getval_s(ch, slice, _reg_PHY_WDQLVL_DQDM_LE_DLY_OBS); - wdqdm_le[ch][cs][slice][i] = dataL; + wdqdm_le[ch][cs][slice][i] = data_l; win = (int32_t)wdqdm_te[ch][cs][slice][i] - wdqdm_le[ch][cs][slice][i]; if (min_win > win) min_win = win; - if (dataL >= _par_WDQLVL_RETRY_THRES) + if (data_l >= _par_WDQLVL_RETRY_THRES) err = 2; } wdqdm_win[ch][cs][slice] = min_win; - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { ddr_setval_s(ch, slice, _reg_PHY_PER_CS_TRAINING_EN, 0x01); } else { ddr_setval_s(ch, slice, _reg_PHY_PER_CS_TRAINING_EN, @@ -3474,7 +3473,7 @@ static uint32_t wdqdm_man1(void) int32_t k; uint32_t ch, cs, slice; uint32_t ddr_csn; - uint32_t dataL; + uint32_t data_l; uint32_t err; uint32_t high_dq[DRAM_CH_CNT]; uint32_t mr14_csab0_bak[DRAM_CH_CNT]; @@ -3485,11 +3484,11 @@ static uint32_t wdqdm_man1(void) /*********************************************************************** manual execution of training ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { foreach_vch(ch) { high_dq[ch] = 0; for (slice = 0; slice < SLICE_CNT; slice++) { - k = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + k = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; if (k >= 2) high_dq[ch] |= (1U << slice); } @@ -3500,10 +3499,10 @@ static uint32_t wdqdm_man1(void) /* CLEAR PREV RESULT */ for (cs = 0; cs < CS_CNT; cs++) { ddr_setval_ach_as(_reg_PHY_PER_CS_TRAINING_INDEX, cs); - if (((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if (((prr_product == PRR_PRODUCT_H3) + && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddr_setval_ach_as(_reg_SC_PHY_WDQLVL_CLR_PREV_RESULTS, 0x01); } else { @@ -3517,33 +3516,33 @@ static uint32_t wdqdm_man1(void) err_flg = 0; #endif/* DDR_FAST_INIT */ for (ddr_csn = 0; ddr_csn < CSAB_CNT; ddr_csn++) { - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { foreach_vch(ch) { - dataL = mmio_read_32(DBSC_DBDFICNT(ch)); - dataL &= ~(0x00ffU << 16); + data_l = mmio_read_32(DBSC_DBDFICNT(ch)); + data_l &= ~(0x00ffU << 16); if (ddr_csn >= 2) k = (high_dq[ch] ^ 0x0f); else k = high_dq[ch]; - dataL |= (k << 16); - mmio_write_32(DBSC_DBDFICNT(ch), dataL); + data_l |= (k << 16); + mmio_write_32(DBSC_DBDFICNT(ch), data_l); ddr_setval(ch, _reg_PI_WDQLVL_RESP_MASK, k); } } - if (((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) - && (Prr_Cut == PRR_PRODUCT_10))) { + if (((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) + && (prr_cut == PRR_PRODUCT_10))) { wdqdm_cp(ddr_csn, 0); } foreach_vch(ch) { - dataL = + data_l = ddr_getval(ch, - _reg_PI_MR14_DATA_Fx_CSx[1][ddr_csn]); - ddr_setval(ch, _reg_PI_MR14_DATA_Fx_CSx[1][0], dataL); + reg_pi_mr14_data_fx_csx[1][ddr_csn]); + ddr_setval(ch, reg_pi_mr14_data_fx_csx[1][0], data_l); } /* KICK WDQLVL */ @@ -3554,10 +3553,10 @@ static uint32_t wdqdm_man1(void) if (ddr_csn == 0) foreach_vch(ch) { mr14_csab0_bak[ch] = - ddr_getval(ch, _reg_PI_MR14_DATA_Fx_CSx[1][0]); + ddr_getval(ch, reg_pi_mr14_data_fx_csx[1][0]); } else foreach_vch(ch) { - ddr_setval(ch, _reg_PI_MR14_DATA_Fx_CSx[1][0], + ddr_setval(ch, reg_pi_mr14_data_fx_csx[1][0], mr14_csab0_bak[ch]); } #ifndef DDR_FAST_INIT @@ -3577,12 +3576,12 @@ err_exit: #ifndef DDR_FAST_INIT err |= err_flg; #endif/* DDR_FAST_INIT */ - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { ddr_setval_ach(_reg_PI_16BIT_DRAM_CONNECT, 0x01); foreach_vch(ch) { - dataL = mmio_read_32(DBSC_DBDFICNT(ch)); - dataL &= ~(0x00ffU << 16); - mmio_write_32(DBSC_DBDFICNT(ch), dataL); + data_l = mmio_read_32(DBSC_DBDFICNT(ch)); + data_l &= ~(0x00ffU << 16); + mmio_write_32(DBSC_DBDFICNT(ch), data_l); ddr_setval(ch, _reg_PI_WDQLVL_RESP_MASK, 0x00); } } @@ -3596,9 +3595,9 @@ static uint32_t wdqdm_man(void) uint32_t ch, ddr_csn, mr14_bkup[4][4]; ddr_setval_ach(_reg_PI_TDFI_WDQLVL_RW, (DBSC_DBTR(11) & 0xFF) + 12); - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddr_setval_ach(_reg_PI_TDFI_WDQLVL_WR_F1, (DBSC_DBTR(12) & 0xFF) + 1); } else { @@ -3610,15 +3609,15 @@ static uint32_t wdqdm_man(void) retry_cnt = 0; err = 0; do { - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { err = wdqdm_man1(); } else { ddr_setval_ach(_reg_PI_WDQLVL_VREF_EN, 0x01); ddr_setval_ach(_reg_PI_WDQLVL_VREF_NORMAL_STEPSIZE, 0x01); - if ((Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if ((prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddr_setval_ach(_reg_PI_WDQLVL_VREF_DELTA_F1, 0x0C); } else { @@ -3630,14 +3629,14 @@ static uint32_t wdqdm_man(void) for (ddr_csn = 0; ddr_csn < CSAB_CNT; ddr_csn++) { mr14_bkup[ch][ddr_csn] = ddr_getval(ch, - _reg_PI_MR14_DATA_Fx_CSx + reg_pi_mr14_data_fx_csx [1][ddr_csn]); dsb_sev(); } } - if ((Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if ((prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddr_setval_ach(_reg_PI_WDQLVL_VREF_DELTA_F1, 0x04); } else { @@ -3650,10 +3649,10 @@ static uint32_t wdqdm_man(void) mr14_bkup[ch][ddr_csn] = (mr14_bkup[ch][ddr_csn] + ddr_getval(ch, - _reg_PI_MR14_DATA_Fx_CSx + reg_pi_mr14_data_fx_csx [1][ddr_csn])) / 2; ddr_setval(ch, - _reg_PI_MR14_DATA_Fx_CSx[1] + reg_pi_mr14_data_fx_csx[1] [ddr_csn], mr14_bkup[ch][ddr_csn]); } @@ -3661,8 +3660,8 @@ static uint32_t wdqdm_man(void) ddr_setval_ach(_reg_PI_WDQLVL_VREF_NORMAL_STEPSIZE, 0x00); - if ((Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if ((prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { ddr_setval_ach(_reg_PI_WDQLVL_VREF_DELTA_F1, 0x00); ddr_setval_ach @@ -3689,8 +3688,8 @@ static uint32_t wdqdm_man(void) } } while (err && (++retry_cnt < retry_max)); - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut <= PRR_PRODUCT_10))) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) && (prr_cut <= PRR_PRODUCT_10))) { wdqdm_cp(0, 1); } @@ -3705,15 +3704,15 @@ static void rdqdm_clr1(uint32_t ch, uint32_t ddr_csn) { int32_t i, k; uint32_t cs, slice; - uint32_t dataL; + uint32_t data_l; /*********************************************************************** clr of training results buffer ***********************************************************************/ cs = ddr_csn % 2; - dataL = Boardcnf->dqdm_dly_r; + data_l = board_cnf->dqdm_dly_r; for (slice = 0; slice < SLICE_CNT; slice++) { - k = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + k = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; if (((k >= 2) && (ddr_csn < 2)) || ((k < 2) && (ddr_csn >= 2))) continue; @@ -3726,8 +3725,8 @@ static void rdqdm_clr1(uint32_t ch, uint32_t ddr_csn) SLICE_CNT] [i]; } else { - rdqdm_dly[ch][cs][slice][i] = dataL; - rdqdm_dly[ch][cs][slice + SLICE_CNT][i] = dataL; + rdqdm_dly[ch][cs][slice][i] = data_l; + rdqdm_dly[ch][cs][slice + SLICE_CNT][i] = data_l; } rdqdm_le[ch][cs][slice][i] = 0; rdqdm_le[ch][cs][slice + SLICE_CNT][i] = 0; @@ -3745,7 +3744,7 @@ static uint32_t rdqdm_ana1(uint32_t ch, uint32_t ddr_csn) { int32_t i, k; uint32_t cs, slice; - uint32_t dataL; + uint32_t data_l; uint32_t err; int8_t _adj; int16_t adj; @@ -3759,7 +3758,7 @@ static uint32_t rdqdm_ana1(uint32_t ch, uint32_t ddr_csn) ***********************************************************************/ err = 0; for (slice = 0; slice < SLICE_CNT; slice++) { - k = (Boardcnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; + k = (board_cnf->ch[ch].dqs_swap >> (4 * slice)) & 0x0f; if (((k >= 2) && (ddr_csn < 2)) || ((k < 2) && (ddr_csn >= 2))) continue; @@ -3773,36 +3772,36 @@ static uint32_t rdqdm_ana1(uint32_t ch, uint32_t ddr_csn) for (i = 0; i <= 8; i++) { dq = slice * 8 + i; if (i == 8) - _adj = Boardcnf->ch[ch].dm_adj_r[slice]; + _adj = board_cnf->ch[ch].dm_adj_r[slice]; else - _adj = Boardcnf->ch[ch].dq_adj_r[dq]; + _adj = board_cnf->ch[ch].dq_adj_r[dq]; adj = _f_scale_adj(_adj); - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY[i]) + adj; ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY[i], - dataL); - rdqdm_dly[ch][cs][slice][i] = dataL; + data_l); + rdqdm_dly[ch][cs][slice][i] = data_l; - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY[i]) + adj; ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY[i], - dataL); - rdqdm_dly[ch][cs][slice + SLICE_CNT][i] = dataL; + data_l); + rdqdm_dly[ch][cs][slice + SLICE_CNT][i] = data_l; } min_win = INT_LEAST32_MAX; for (i = 0; i <= 8; i++) { - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDLVL_STATUS_OBS); - rdqdm_st[ch][cs][slice] = dataL; - rdqdm_st[ch][cs][slice + SLICE_CNT] = dataL; + rdqdm_st[ch][cs][slice] = data_l; + rdqdm_st[ch][cs][slice + SLICE_CNT] = data_l; /* k : rise/fall */ for (k = 0; k < 2; k++) { if (i == 8) { @@ -3814,23 +3813,23 @@ static uint32_t rdqdm_ana1(uint32_t ch, uint32_t ddr_csn) _reg_PHY_RDLVL_RDDQS_DQ_OBS_SELECT, rdq_status_obs_select); - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDLVL_RDDQS_DQ_LE_DLY_OBS); rdqdm_le[ch][cs][slice + SLICE_CNT * k][i] = - dataL; + data_l; - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDLVL_RDDQS_DQ_TE_DLY_OBS); rdqdm_te[ch][cs][slice + SLICE_CNT * k][i] = - dataL; + data_l; - dataL = + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDLVL_RDDQS_DQ_NUM_WINDOWS_OBS); rdqdm_nw[ch][cs][slice + SLICE_CNT * k][i] = - dataL; + data_l; win = (int32_t)rdqdm_te[ch][cs][slice + @@ -3858,7 +3857,7 @@ static uint32_t rdqdm_man1(void) uint32_t ddr_csn; #ifdef DDR_FAST_INIT uint32_t slice; - uint32_t i, adj, dataL; + uint32_t i, adj, data_l; #endif/* DDR_FAST_INIT */ uint32_t err; @@ -3897,26 +3896,26 @@ static uint32_t rdqdm_man1(void) } } } - if (((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) - && (Prr_Cut <= PRR_PRODUCT_10))) { + if (((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) + && (prr_cut <= PRR_PRODUCT_10))) { for (slice = 0; slice < SLICE_CNT; slice++) { for (i = 0; i <= 8; i++) { if (i == 8) - adj = _f_scale_adj(Boardcnf->ch[ch].dm_adj_r[slice]); + adj = _f_scale_adj(board_cnf->ch[ch].dm_adj_r[slice]); else - adj = _f_scale_adj(Boardcnf->ch[ch].dq_adj_r[slice * 8 + i]); + adj = _f_scale_adj(board_cnf->ch[ch].dq_adj_r[slice * 8 + i]); ddr_setval_s(ch, slice, _reg_PHY_PER_CS_TRAINING_INDEX, ddr_csn); - dataL = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY[i]) + adj; - ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY[i], dataL); - rdqdm_dly[ch][ddr_csn][slice][i] = dataL; - rdqdm_dly[ch][ddr_csn | 1][slice][i] = dataL; - - dataL = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY[i]) + adj; - ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY[i], dataL); - rdqdm_dly[ch][ddr_csn][slice + SLICE_CNT][i] = dataL; - rdqdm_dly[ch][ddr_csn | 1][slice + SLICE_CNT][i] = dataL; + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY[i]) + adj; + ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_RISE_SLAVE_DELAY[i], data_l); + rdqdm_dly[ch][ddr_csn][slice][i] = data_l; + rdqdm_dly[ch][ddr_csn | 1][slice][i] = data_l; + + data_l = ddr_getval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY[i]) + adj; + ddr_setval_s(ch, slice, _reg_PHY_RDDQS_X_FALL_SLAVE_DELAY[i], data_l); + rdqdm_dly[ch][ddr_csn][slice + SLICE_CNT][i] = data_l; + rdqdm_dly[ch][ddr_csn | 1][slice + SLICE_CNT][i] = data_l; } } } @@ -4003,7 +4002,7 @@ static uint32_t _rx_offset_cal_updn(uint32_t code) const uint32_t CODE_MAX = 0x40; uint32_t tmp; - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) { if (code == 0) tmp = (1U << 6) | (CODE_MAX - 1); else if (code <= 0x20) @@ -4117,10 +4116,10 @@ static uint32_t rx_offset_cal_hw(void) for (slice = 0; slice < SLICE_CNT; slice++) { tmp = tmp_ach_as[ch][slice]; tmp = (tmp & 0x3f) + ((tmp >> 6) & 0x3f); - if (((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut > PRR_PRODUCT_11)) - || (Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { + if (((prr_product == PRR_PRODUCT_H3) + && (prr_cut > PRR_PRODUCT_11)) + || (prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { if (tmp != 0x3E) complete = 0; } else { @@ -4222,60 +4221,61 @@ static void adjust_wpath_latency(void) int32_t rcar_dram_init(void) { uint32_t ch, cs; - uint32_t dataL; + uint32_t data_l; uint32_t bus_mbps, bus_mbpsdiv; uint32_t tmp_tccd; uint32_t failcount; + uint32_t cnf_boardtype; /*********************************************************************** Thermal sensor setting ***********************************************************************/ - dataL = mmio_read_32(CPG_MSTPSR5); - if (dataL & BIT(22)) { /* case THS/TSC Standby */ - dataL &= ~(BIT(22)); - cpg_write_32(CPG_SMSTPCR5, dataL); + data_l = mmio_read_32(CPG_MSTPSR5); + if (data_l & BIT(22)) { /* case THS/TSC Standby */ + data_l &= ~(BIT(22)); + cpg_write_32(CPG_SMSTPCR5, data_l); while ((BIT(22)) & mmio_read_32(CPG_MSTPSR5)); /* wait bit=0 */ } /* THCTR Bit6: PONM=0 , Bit0: THSST=0 */ - dataL = mmio_read_32(THS1_THCTR) & 0xFFFFFFBE; - mmio_write_32(THS1_THCTR, dataL); + data_l = mmio_read_32(THS1_THCTR) & 0xFFFFFFBE; + mmio_write_32(THS1_THCTR, data_l); /*********************************************************************** Judge product and cut ***********************************************************************/ #ifdef RCAR_DDR_FIXED_LSI_TYPE #if (RCAR_LSI == RCAR_AUTO) - Prr_Product = mmio_read_32(PRR) & PRR_PRODUCT_MASK; - Prr_Cut = mmio_read_32(PRR) & PRR_CUT_MASK; + prr_product = mmio_read_32(PRR) & PRR_PRODUCT_MASK; + prr_cut = mmio_read_32(PRR) & PRR_CUT_MASK; #else /* RCAR_LSI */ #ifndef RCAR_LSI_CUT - Prr_Cut = mmio_read_32(PRR) & PRR_CUT_MASK; + prr_cut = mmio_read_32(PRR) & PRR_CUT_MASK; #endif /* RCAR_LSI_CUT */ #endif /* RCAR_LSI */ #else /* RCAR_DDR_FIXED_LSI_TYPE */ - Prr_Product = mmio_read_32(PRR) & PRR_PRODUCT_MASK; - Prr_Cut = mmio_read_32(PRR) & PRR_CUT_MASK; + prr_product = mmio_read_32(PRR) & PRR_PRODUCT_MASK; + prr_cut = mmio_read_32(PRR) & PRR_CUT_MASK; #endif /* RCAR_DDR_FIXED_LSI_TYPE */ - if (Prr_Product == PRR_PRODUCT_H3) { - if (Prr_Cut <= PRR_PRODUCT_11) { - pDDR_REGDEF_TBL = (const uint32_t *)&DDR_REGDEF_TBL[0][0]; + if (prr_product == PRR_PRODUCT_H3) { + if (prr_cut <= PRR_PRODUCT_11) { + p_ddr_regdef_tbl = (const uint32_t *)&DDR_REGDEF_TBL[0][0]; } else { - pDDR_REGDEF_TBL = (const uint32_t *)&DDR_REGDEF_TBL[2][0]; + p_ddr_regdef_tbl = (const uint32_t *)&DDR_REGDEF_TBL[2][0]; } - } else if (Prr_Product == PRR_PRODUCT_M3) { - pDDR_REGDEF_TBL = (const uint32_t *)&DDR_REGDEF_TBL[1][0]; - } else if ((Prr_Product == PRR_PRODUCT_M3N) - || (Prr_Product == PRR_PRODUCT_V3H)) { - pDDR_REGDEF_TBL = (const uint32_t *)&DDR_REGDEF_TBL[3][0]; + } else if (prr_product == PRR_PRODUCT_M3) { + p_ddr_regdef_tbl = (const uint32_t *)&DDR_REGDEF_TBL[1][0]; + } else if ((prr_product == PRR_PRODUCT_M3N) + || (prr_product == PRR_PRODUCT_V3H)) { + p_ddr_regdef_tbl = (const uint32_t *)&DDR_REGDEF_TBL[3][0]; } else { FATAL_MSG("BL2: DDR:Unknown Product\n"); return 0xff; } - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut < PRR_PRODUCT_30))) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) && (prr_cut < PRR_PRODUCT_30))) { /* non : H3 Ver.1.x/M3-W Ver.1.x not support */ } else { mmio_write_32(DBSC_DBSYSCNT0, 0x00001234); @@ -4284,26 +4284,26 @@ int32_t rcar_dram_init(void) /*********************************************************************** Judge board type ***********************************************************************/ - _cnf_BOARDTYPE = boardcnf_get_brd_type(); - if (_cnf_BOARDTYPE >= BOARDNUM) { + cnf_boardtype = boardcnf_get_brd_type(); + if (cnf_boardtype >= BOARDNUM) { FATAL_MSG("BL2: DDR:Unknown Board\n"); return 0xff; } - Boardcnf = (const struct _boardcnf *)&boardcnfs[_cnf_BOARDTYPE]; + board_cnf = (const struct _boardcnf *)&boardcnfs[cnf_boardtype]; /* RCAR_DRAM_SPLIT_2CH (2U) */ #if RCAR_DRAM_SPLIT == 2 /*********************************************************************** H3(Test for future H3-N): Swap ch2 and ch1 for 2ch-split ***********************************************************************/ - if ((Prr_Product == PRR_PRODUCT_H3) && (Boardcnf->phyvalid == 0x05)) { + if ((prr_product == PRR_PRODUCT_H3) && (board_cnf->phyvalid == 0x05)) { mmio_write_32(DBSC_DBMEMSWAPCONF0, 0x00000006); ddr_phyvalid = 0x03; } else { - ddr_phyvalid = Boardcnf->phyvalid; + ddr_phyvalid = board_cnf->phyvalid; } #else /* RCAR_DRAM_SPLIT_2CH */ - ddr_phyvalid = Boardcnf->phyvalid; + ddr_phyvalid = board_cnf->phyvalid; #endif /* RCAR_DRAM_SPLIT_2CH */ max_density = 0; @@ -4318,15 +4318,15 @@ int32_t rcar_dram_init(void) foreach_vch(ch) { for (cs = 0; cs < CS_CNT; cs++) { - dataL = Boardcnf->ch[ch].ddr_density[cs]; - ddr_density[ch][cs] = dataL; + data_l = board_cnf->ch[ch].ddr_density[cs]; + ddr_density[ch][cs] = data_l; - if (dataL == 0xff) + if (data_l == 0xff) continue; - if (dataL > max_density) - max_density = dataL; - if ((cs == 1) && (Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) + if (data_l > max_density) + max_density = data_l; + if ((cs == 1) && (prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) continue; ch_have_this_cs[cs] |= (1U << ch); } @@ -4335,7 +4335,7 @@ int32_t rcar_dram_init(void) /*********************************************************************** Judge board clock frequency (in MHz) ***********************************************************************/ - boardcnf_get_brd_clk(_cnf_BOARDTYPE, &brd_clk, &brd_clkdiv); + boardcnf_get_brd_clk(cnf_boardtype, &brd_clk, &brd_clkdiv); if ((brd_clk / brd_clkdiv) > 25) { brd_clkdiva = 1; } else { @@ -4345,7 +4345,7 @@ int32_t rcar_dram_init(void) /*********************************************************************** Judge ddr operating frequency clock(in Mbps) ***********************************************************************/ - boardcnf_get_ddr_mbps(_cnf_BOARDTYPE, &ddr_mbps, &ddr_mbpsdiv); + boardcnf_get_ddr_mbps(cnf_boardtype, &ddr_mbps, &ddr_mbpsdiv); ddr0800_mul = CLK_DIV(800, 2, brd_clk, brd_clkdiv * (brd_clkdiva + 1)); @@ -4355,10 +4355,10 @@ int32_t rcar_dram_init(void) /*********************************************************************** Adjust tccd ***********************************************************************/ - dataL = (0x00006000 & mmio_read_32(RST_MODEMR)) >> 13; + data_l = (0x00006000 & mmio_read_32(RST_MODEMR)) >> 13; bus_mbps = 0; bus_mbpsdiv = 0; - switch (dataL) { + switch (data_l) { case 0: bus_mbps = brd_clk * 0x60 * 2; bus_mbpsdiv = brd_clkdiv * 1; @@ -4401,8 +4401,8 @@ int32_t rcar_dram_init(void) /*********************************************************************** initialize DDR ***********************************************************************/ - dataL = init_ddr(); - if (dataL == ddr_phyvalid) { + data_l = init_ddr(); + if (data_l == ddr_phyvalid) { failcount = 0; } else { failcount = 1; @@ -4410,8 +4410,8 @@ int32_t rcar_dram_init(void) foreach_vch(ch) mmio_write_32(DBSC_DBPDLK(ch), 0x00000000); - if (((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut <= PRR_PRODUCT_11)) - || ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut < PRR_PRODUCT_30))) { + if (((prr_product == PRR_PRODUCT_H3) && (prr_cut <= PRR_PRODUCT_11)) + || ((prr_product == PRR_PRODUCT_M3) && (prr_cut < PRR_PRODUCT_30))) { /* non : H3 Ver.1.x/M3-W Ver.1.x not support */ } else { mmio_write_32(DBSC_DBSYSCNT0, 0x00000000); @@ -4427,7 +4427,7 @@ int32_t rcar_dram_init(void) void pvtcode_update(void) { uint32_t ch; - uint32_t dataL; + uint32_t data_l; uint32_t pvtp[4], pvtn[4], pvtp_init, pvtn_init; int32_t pvtp_tmp, pvtn_tmp; @@ -4453,41 +4453,41 @@ void pvtcode_update(void) pvtn_init) / (pvtn_tmp) + 6 * pvtp_tmp + pvtp_init; } - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { - dataL = pvtp[ch] | (pvtn[ch] << 6) | (tcal.tcomp_cal[ch] & 0xfffff000); + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { + data_l = pvtp[ch] | (pvtn[ch] << 6) | (tcal.tcomp_cal[ch] & 0xfffff000); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_FDBK_TERM), - dataL | 0x00020000); + data_l | 0x00020000); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_DATA_TERM), - dataL); + data_l); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_DQS_TERM), - dataL); + data_l); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_ADDR_TERM), - dataL); + data_l); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_CS_TERM), - dataL); + data_l); } else { - dataL = pvtp[ch] | (pvtn[ch] << 6) | 0x00015000; + data_l = pvtp[ch] | (pvtn[ch] << 6) | 0x00015000; reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_FDBK_TERM), - dataL | 0x00020000); + data_l | 0x00020000); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_DATA_TERM), - dataL); + data_l); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_DQS_TERM), - dataL); + data_l); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_ADDR_TERM), - dataL); + data_l); reg_ddrphy_write(ch, ddr_regdef_adr(_reg_PHY_PAD_CS_TERM), - dataL); + data_l); } } } @@ -4513,7 +4513,7 @@ void pvtcode_update2(void) void ddr_padcal_tcompensate_getinit(uint32_t override) { uint32_t ch; - uint32_t dataL; + uint32_t data_l; uint32_t pvtp, pvtn; tcal.init_temp = 0; @@ -4528,13 +4528,13 @@ void ddr_padcal_tcompensate_getinit(uint32_t override) } if (!override) { - dataL = mmio_read_32(THS1_TEMP); - if (dataL < 2800) { + data_l = mmio_read_32(THS1_TEMP); + if (data_l < 2800) { tcal.init_temp = - (143 * (int32_t)dataL - 359000) / 1000; + (143 * (int32_t)data_l - 359000) / 1000; } else { tcal.init_temp = - (121 * (int32_t)dataL - 296300) / 1000; + (121 * (int32_t)data_l - 296300) / 1000; } foreach_vch(ch) { @@ -4556,8 +4556,8 @@ void ddr_padcal_tcompensate_getinit(uint32_t override) else pvtn = 0; - if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { + if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { tcal.init_cal[ch] = (tcal. init_cal[ch] & 0xfffff000) | (pvtn << 6) | diff --git a/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram_config.c b/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram_config.c index 58c9a7a4..cb3a482e 100644 --- a/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram_config.c +++ b/drivers/staging/renesas/rcar/ddr/ddr_b/boot_init_dram_config.c @@ -1533,7 +1533,7 @@ void boardcnf_get_brd_clk(uint32_t brd, uint32_t *clk, uint32_t *div) { uint32_t md; - if ((Prr_Product == PRR_PRODUCT_H3) && (Prr_Cut == PRR_PRODUCT_10)) { + if ((prr_product == PRR_PRODUCT_H3) && (prr_cut == PRR_PRODUCT_10)) { *clk = 50; *div = 3; } else { @@ -1599,7 +1599,7 @@ void boardcnf_get_ddr_mbps(uint32_t brd, uint32_t *mbps, uint32_t *div) #define M3_SAMPLE_SS_E28 0xB866CC10, 0x3C231421 #define M3_SAMPLE_SS_E32 0xB866CC10, 0x3C241421 -static const uint32_t TermcodeBySample[20][3] = { +static const uint32_t termcode_by_sample[20][3] = { {M3_SAMPLE_TT_A84, 0x000158D5}, {M3_SAMPLE_TT_A85, 0x00015955}, {M3_SAMPLE_TT_A86, 0x00015955}, @@ -1701,8 +1701,8 @@ static uint32_t _board_judge(void) uint32_t brd; #if (RCAR_GEN3_ULCB == 1) /* Starter Kit */ - if (Prr_Product == PRR_PRODUCT_H3) { - if (Prr_Cut <= PRR_PRODUCT_11) { + if (prr_product == PRR_PRODUCT_H3) { + if (prr_cut <= PRR_PRODUCT_11) { /* RENESAS Starter Kit(H3 Ver.1.x/SIP) board */ brd = 2; } else { @@ -1713,7 +1713,7 @@ static uint32_t _board_judge(void) brd = 8; #endif } - } else if (Prr_Product == PRR_PRODUCT_M3) { + } else if (prr_product == PRR_PRODUCT_M3) { /* RENESAS Starter Kit(M3-W/SIP 8Gbit 1rank) board */ brd = 3; } else { @@ -1727,31 +1727,31 @@ static uint32_t _board_judge(void) /* RENESAS Eva-board */ brd = 99; - if (Prr_Product == PRR_PRODUCT_V3H) { + if (prr_product == PRR_PRODUCT_V3H) { /* RENESAS Condor board */ brd = 12; } else if (usb2_ovc_open) { - if (Prr_Product == PRR_PRODUCT_M3N) { + if (prr_product == PRR_PRODUCT_M3N) { /* RENESAS Kriek board with M3-N */ brd = 10; - } else if (Prr_Product == PRR_PRODUCT_M3) { + } else if (prr_product == PRR_PRODUCT_M3) { /* RENESAS Kriek board with M3-W */ brd = 1; - } else if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut <= PRR_PRODUCT_11)) { + } else if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut <= PRR_PRODUCT_11)) { /* RENESAS Kriek board with PM3 */ brd = 13; - } else if ((Prr_Product == PRR_PRODUCT_H3) - && (Prr_Cut > PRR_PRODUCT_20)) { + } else if ((prr_product == PRR_PRODUCT_H3) + && (prr_cut > PRR_PRODUCT_20)) { /* RENESAS Kriek board with H3N */ brd = 15; } } else { - if (Prr_Product == PRR_PRODUCT_H3) { - if (Prr_Cut <= PRR_PRODUCT_11) { + if (prr_product == PRR_PRODUCT_H3) { + if (prr_cut <= PRR_PRODUCT_11) { /* RENESAS SALVATOR-X (H3 Ver.1.x/SIP) */ brd = 2; - } else if (Prr_Cut < PRR_PRODUCT_30) { + } else if (prr_cut < PRR_PRODUCT_30) { /* RENESAS SALVATOR-X (H3 Ver.2.0/SIP) */ brd = 7; // 8Gbit/1rank } else { @@ -1762,16 +1762,16 @@ static uint32_t _board_judge(void) brd = 8; #endif } - } else if (Prr_Product == PRR_PRODUCT_M3N) { + } else if (prr_product == PRR_PRODUCT_M3N) { /* RENESAS SALVATOR-X (M3-N/SIP) */ brd = 11; - } else if ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut <= PRR_PRODUCT_20)) { + } else if ((prr_product == PRR_PRODUCT_M3) && (prr_cut <= PRR_PRODUCT_20)) { /* RENESAS SALVATOR-X (M3-W/SIP) */ brd = 0; - } else if ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut < PRR_PRODUCT_30)) { + } else if ((prr_product == PRR_PRODUCT_M3) && (prr_cut < PRR_PRODUCT_30)) { /* RENESAS SALVATOR-X (M3-W Ver.1.x/SIP) */ brd = 19; - } else if ((Prr_Product == PRR_PRODUCT_M3) && (Prr_Cut >= PRR_PRODUCT_30)) { + } else if ((prr_product == PRR_PRODUCT_M3) && (prr_cut >= PRR_PRODUCT_30)) { /* RENESAS SALVATOR-X (M3-W ver.3.0/SIP) */ brd = 18; } -- 2.30.2