/* * Copyright (c) 2020 Antmicro * * SPDX-License-Identifier: Apache-2.0 */ #ifndef LITEX_MMCM_H #define LITEX_MMCM_H #include #include /* Common values */ #define PICOS_IN_SEC 1000000000000 /* MMCM specific numbers */ #define CLKOUT_MAX 7 #define DELAY_TIME_MAX 63 #define PHASE_MUX_MAX 7 #define HIGH_LOW_TIME_REG_MAX 63 #define PHASE_MUX_RES_FACTOR 8 /* DRP registers index */ #define DRP_RESET 0 #define DRP_LOCKED 1 #define DRP_READ 2 #define DRP_WRITE 3 #define DRP_DRDY 4 #define DRP_ADR 5 #define DRP_DAT_W 6 #define DRP_DAT_R 7 /* Base address */ #define DRP_BASE DT_REG_ADDR_BY_IDX(MMCM, 0) /* Register address */ #define DRP_ADDR_RESET DT_REG_ADDR_BY_NAME(MMCM, drp_reset) #define DRP_ADDR_LOCKED DT_REG_ADDR_BY_NAME(MMCM, drp_locked) #define DRP_ADDR_READ DT_REG_ADDR_BY_NAME(MMCM, drp_read) #define DRP_ADDR_WRITE DT_REG_ADDR_BY_NAME(MMCM, drp_write) #define DRP_ADDR_DRDY DT_REG_ADDR_BY_NAME(MMCM, drp_drdy) #define DRP_ADDR_ADR DT_REG_ADDR_BY_NAME(MMCM, drp_adr) #define DRP_ADDR_DAT_W DT_REG_ADDR_BY_NAME(MMCM, drp_dat_w) #define DRP_ADDR_DAT_R DT_REG_ADDR_BY_NAME(MMCM, drp_dat_r) /* Devicetree global defines */ #define LOCK_TIMEOUT DT_PROP(MMCM, litex_lock_timeout) #define DRDY_TIMEOUT DT_PROP(MMCM, litex_drdy_timeout) #define DIVCLK_DIVIDE_MIN DT_PROP(MMCM, litex_divclk_divide_min) #define DIVCLK_DIVIDE_MAX DT_PROP(MMCM, litex_divclk_divide_max) #define CLKFBOUT_MULT_MIN DT_PROP(MMCM, litex_clkfbout_mult_min) #define CLKFBOUT_MULT_MAX DT_PROP(MMCM, litex_clkfbout_mult_max) #define VCO_FREQ_MIN DT_PROP(MMCM, litex_vco_freq_min) #define VCO_FREQ_MAX DT_PROP(MMCM, litex_vco_freq_max) #define CLKOUT_DIVIDE_MIN DT_PROP(MMCM, litex_clkout_divide_min) #define CLKOUT_DIVIDE_MAX DT_PROP(MMCM, litex_clkout_divide_max) #define VCO_MARGIN DT_PROP(MMCM, litex_vco_margin) #define CLKOUT_INIT(N) \ BUILD_ASSERT(CLKOUT_DUTY_DEN(N) > 0 && \ CLKOUT_DUTY_NUM(N) > 0 && \ CLKOUT_DUTY_NUM(N) <= CLKOUT_DUTY_DEN(N), \ "Invalid default duty"); \ BUILD_ASSERT(CLKOUT_ID(N) < NCLKOUT, "Invalid CLKOUT index"); \ lcko = &ldev->clkouts[N]; \ lcko->id = CLKOUT_ID(N); \ \ lcko->clkout_div = clkout_div; \ lcko->def.freq = CLKOUT_FREQ(N); \ lcko->def.phase = CLKOUT_PHASE(N); \ lcko->def.duty.num = CLKOUT_DUTY_NUM(N); \ lcko->def.duty.den = CLKOUT_DUTY_DEN(N); \ lcko->margin.m = CLKOUT_MARGIN(N); \ lcko->margin.exp = CLKOUT_MARGIN_EXP(N); /* Devicetree clkout defines */ #define CLKOUT_EXIST(N) DT_NODE_HAS_STATUS_OKAY(DT_NODELABEL(clk##N)) #define CLKOUT_ID(N) DT_REG_ADDR(DT_NODELABEL(clk##N)) #define CLKOUT_FREQ(N) DT_PROP(DT_NODELABEL(clk##N), \ litex_clock_frequency) #define CLKOUT_PHASE(N) DT_PROP(DT_NODELABEL(clk##N), \ litex_clock_phase) #define CLKOUT_DUTY_NUM(N) DT_PROP(DT_NODELABEL(clk##N), \ litex_clock_duty_num) #define CLKOUT_DUTY_DEN(N) DT_PROP(DT_NODELABEL(clk##N), \ litex_clock_duty_den) #define CLKOUT_MARGIN(N) DT_PROP(DT_NODELABEL(clk##N), \ litex_clock_margin) #define CLKOUT_MARGIN_EXP(N) DT_PROP(DT_NODELABEL(clk##N), \ litex_clock_margin_exp) /* Register values */ #define FULL_REG_16 0xFFFF #define ZERO_REG 0x0 #define KEEP_IN_MUL_REG1 0xF000 #define KEEP_IN_MUL_REG2 0xFF3F #define KEEP_IN_DIV 0xC000 #define REG1_FREQ_MASK 0xF000 #define REG2_FREQ_MASK 0x803F #define REG1_DUTY_MASK 0xF000 #define REG2_DUTY_MASK 0xFF7F #define REG1_PHASE_MASK 0x1FFF #define REG2_PHASE_MASK 0xFCC0 #define FILT1_MASK 0x66FF #define FILT2_MASK 0x666F #define LOCK1_MASK 0xFC00 #define LOCK23_MASK 0x8000 /* Control bits extraction masks */ #define HL_TIME_MASK 0x3F #define FRAC_MASK 0x7 #define EDGE_MASK 0x1 #define NO_CNT_MASK 0x1 #define FRAC_EN_MASK 0x1 #define PHASE_MUX_MASK 0x7 /* Bit groups start position in DRP registers */ #define HIGH_TIME_POS 6 #define LOW_TIME_POS 0 #define PHASE_MUX_POS 13 #define FRAC_POS 12 #define FRAC_EN_POS 11 #define FRAC_WF_R_POS 10 #define EDGE_POS 7 #define NO_CNT_POS 6 #define EDGE_DIVREG_POS 13 #define NO_CNT_DIVREG_POS 12 #define DELAY_TIME_POS 0 /* MMCM Register addresses */ #define POWER_REG 0x28 #define DIV_REG 0x16 #define LOCK_REG1 0x18 #define LOCK_REG2 0x19 #define LOCK_REG3 0x1A #define FILT_REG1 0x4E #define FILT_REG2 0x4F #define CLKOUT0_REG1 0x08 #define CLKOUT0_REG2 0x09 #define CLKOUT1_REG1 0x0A #define CLKOUT1_REG2 0x0B #define CLKOUT2_REG1 0x0C #define CLKOUT2_REG2 0x0D #define CLKOUT3_REG1 0x0E #define CLKOUT3_REG2 0x0F #define CLKOUT4_REG1 0x10 #define CLKOUT4_REG2 0x11 #define CLKOUT5_REG1 0x06 #define CLKOUT5_REG2 0x07 #define CLKOUT6_REG1 0x12 #define CLKOUT6_REG2 0x13 #define CLKFBOUT_REG1 0x14 #define CLKFBOUT_REG2 0x15 /* Basic structure for DRP registers */ struct litex_drp_reg { uint32_t addr; uint32_t size; }; struct litex_clk_range { uint32_t min; uint32_t max; }; struct clk_duty { uint32_t num; uint32_t den; }; struct litex_clk_default { struct clk_duty duty; int phase; uint32_t freq; }; struct litex_clk_glob_params { uint64_t freq; uint32_t div; uint32_t mul; }; /* Divider configuration bits group */ struct litex_clk_div_params { uint8_t high_time; uint8_t low_time; uint8_t no_cnt; uint8_t edge; }; /* Phase configuration bits group */ struct litex_clk_phase_params { uint8_t phase_mux; uint8_t delay_time; uint8_t mx; }; /* Fractional configuration bits group */ struct litex_clk_frac_params { uint8_t frac_en; uint8_t frac; uint8_t phase_mux_f; uint8_t frac_wf_r; uint8_t frac_wf_f; }; struct litex_clk_params { struct clk_duty duty; int phase; uint32_t freq; uint32_t period_off; uint8_t div; }; struct litex_clk_timeout { uint32_t lock; uint32_t drdy; }; /* Basic structure for MMCM reg addresses */ struct litex_clk_clkout_addr { uint8_t reg1; uint8_t reg2; }; /* Structure for all MMCM regs */ struct litex_clk_regs_addr { struct litex_clk_clkout_addr clkout[CLKOUT_MAX]; }; struct litex_clk_clkout_margin { uint32_t m; /* margin factor scaled to integer */ uint32_t exp; }; struct litex_clk_device { uint32_t *base; /*struct clk_hw clk_hw;*/ struct litex_clk_clkout *clkouts; /* array of clock outputs */ struct litex_clk_timeout timeout; /* timeouts for wait functions*/ struct litex_clk_glob_params g_config; /* general MMCM settings */ struct litex_clk_glob_params ts_g_config;/* settings to set*/ struct litex_clk_range divclk; /* divclk_divide_range */ struct litex_clk_range clkfbout; /* clkfbout_mult_frange */ struct litex_clk_range vco; /* vco_freq_range */ uint8_t *update_clkout; /* which clkout needs update */ uint32_t vco_margin; uint32_t nclkout; }; struct litex_clk_clkout { uint32_t *base; struct litex_clk_device *ldev; /* global data */ struct litex_clk_default def; /* DTS defaults */ struct litex_clk_params config; /* real CLKOUT settings */ struct litex_clk_params ts_config; /* CLKOUT settings to set */ struct litex_clk_div_params div; /* CLKOUT configuration groups*/ struct litex_clk_phase_params phase; struct litex_clk_frac_params frac; struct litex_clk_range clkout_div; /* clkout_divide_range */ struct litex_clk_clkout_margin margin; uint32_t id; }; #endif /* LITEX_MMCM_H */