/* SPDX-License-Identifier: GPL-2.0-only */ #ifndef __SOC_SIFIVE_HIFIVE_U_SPI_INTERNAL_H__ #define __SOC_SIFIVE_HIFIVE_U_SPI_INTERNAL_H__ #include #define _ASSERT_SIZEOF(type, size) _Static_assert( \ sizeof(type) == (size), \ #type " must be " #size " bytes wide") #define FU540_SPI_CSMODE_AUTO 0 #define FU540_SPI_CSMODE_HOLD 2 #define FU540_SPI_CSMODE_OFF 3 typedef union { struct { uint32_t pha : 1; uint32_t pol : 1; uint32_t reserved : 30; }; uint32_t raw_bits; } spi_reg_sckmode; _ASSERT_SIZEOF(spi_reg_sckmode, 4); typedef union { struct { uint32_t mode : 2; uint32_t reserved : 30; }; uint32_t raw_bits; } spi_reg_csmode; _ASSERT_SIZEOF(spi_reg_csmode, 4); typedef union { struct { uint32_t cssck : 8; uint32_t reserved0 : 8; uint32_t sckcs : 8; uint32_t reserved1 : 8; }; uint32_t raw_bits; } spi_reg_delay0; _ASSERT_SIZEOF(spi_reg_delay0, 4); typedef union { struct { uint32_t intercs : 8; uint32_t reserved0 : 8; uint32_t interxfr : 8; uint32_t reserved1 : 8; }; uint32_t raw_bits; } spi_reg_delay1; _ASSERT_SIZEOF(spi_reg_delay1, 4); typedef union { struct { uint32_t proto : 2; uint32_t endian : 1; uint32_t dir : 1; uint32_t reserved0 : 12; uint32_t len : 4; uint32_t reserved1 : 12; }; uint32_t raw_bits; } spi_reg_fmt; _ASSERT_SIZEOF(spi_reg_fmt, 4); typedef union { struct { uint32_t data : 8; uint32_t reserved : 23; uint32_t full : 1; }; uint32_t raw_bits; } spi_reg_txdata; _ASSERT_SIZEOF(spi_reg_txdata, 4); typedef union { struct { uint32_t data : 8; uint32_t reserved : 23; uint32_t empty : 1; }; uint32_t raw_bits; } spi_reg_rxdata; _ASSERT_SIZEOF(spi_reg_rxdata, 4); typedef union { struct { uint32_t txmark : 3; uint32_t reserved : 29; }; uint32_t raw_bits; } spi_reg_txmark; _ASSERT_SIZEOF(spi_reg_txmark, 4); typedef union { struct { uint32_t rxmark : 3; uint32_t reserved : 29; }; uint32_t raw_bits; } spi_reg_rxmark; _ASSERT_SIZEOF(spi_reg_rxmark, 4); typedef union { struct { uint32_t en : 1; uint32_t reserved : 31; }; uint32_t raw_bits; } spi_reg_fctrl; _ASSERT_SIZEOF(spi_reg_fctrl, 4); typedef union { struct { uint32_t cmd_en : 1; uint32_t addr_len : 3; uint32_t pad_cnt : 4; uint32_t command_proto : 2; uint32_t addr_proto : 2; uint32_t data_proto : 2; uint32_t reserved : 2; uint32_t command_code : 8; uint32_t pad_code : 8; }; uint32_t raw_bits; } spi_reg_ffmt; _ASSERT_SIZEOF(spi_reg_ffmt, 4); typedef union { struct { uint32_t txwm : 1; uint32_t rxwm : 1; uint32_t reserved : 30; }; uint32_t raw_bits; } spi_reg_ie; typedef spi_reg_ie spi_reg_ip; _ASSERT_SIZEOF(spi_reg_ie, 4); _ASSERT_SIZEOF(spi_reg_ip, 4); #undef _ASSERT_SIZEOF /** * SPI control register memory map. * * All functions take a pointer to a SPI device's control registers. */ struct spi_ctrl { uint32_t sckdiv; spi_reg_sckmode sckmode; uint32_t reserved08; uint32_t reserved0c; uint32_t csid; uint32_t csdef; spi_reg_csmode csmode; uint32_t reserved1c; uint32_t reserved20; uint32_t reserved24; spi_reg_delay0 delay0; spi_reg_delay1 delay1; uint32_t reserved30; uint32_t reserved34; uint32_t reserved38; uint32_t reserved3c; spi_reg_fmt fmt; uint32_t reserved44; spi_reg_txdata txdata; spi_reg_rxdata rxdata; spi_reg_txmark txmark; spi_reg_rxmark rxmark; uint32_t reserved58; uint32_t reserved5c; spi_reg_fctrl fctrl; spi_reg_ffmt ffmt; uint32_t reserved68; uint32_t reserved6c; spi_reg_ie ie; spi_reg_ip ip; }; /** * Get smallest clock divisor that divides input_khz to a quotient less than or * equal to max_target_khz; */ static inline unsigned int spi_min_clk_divisor(unsigned int input_khz, unsigned int max_target_khz) { // f_sck = f_in / (2 * (div + 1)) => div = (f_in / (2*f_sck)) - 1 // // The nearest integer solution for div requires rounding up as to not // exceed max_target_khz. // // div = ceil(f_in / (2*f_sck)) - 1 // = floor((f_in - 1 + 2*f_sck) / (2*f_sck)) - 1 // // This should not overflow as long as (f_in - 1 + 2*f_sck) does not // exceed 2^32 - 1, which is unlikely since we represent frequencies // in kHz. unsigned int quotient = (input_khz + 2 * max_target_khz - 1) / (2 * max_target_khz); // Avoid underflow if (quotient == 0) return 0; return quotient - 1; } #endif /* __SOC_SIFIVE_HIFIVE_U_SPI_INTERNAL_H__ */