/* SPDX-License-Identifier: GPL-2.0-only */ #ifndef AMD_BLOCK_ESPI_H #define AMD_BLOCK_ESPI_H #include #include /* eSPI MMIO base lives at an offset of 0x10000 from the address in SPI BAR. */ #define ESPI_OFFSET_FROM_BAR 0x10000 #define ESPI_DECODE 0x40 #define ESPI_DECODE_MMIO_RANGE_EN(range) (1 << (((range) & 3) + 12)) #define ESPI_DECODE_IO_RANGE_EN(range) (1 << (((range) & 3) + 8)) #define ESPI_DECODE_IO_0x80_EN (1 << 2) #define ESPI_DECODE_IO_0X60_0X64_EN (1 << 1) #define ESPI_DECODE_IO_0X2E_0X2F_EN (1 << 0) #define ESPI_IO_RANGE_BASE(range) (0x44 + ((range) & 3) * 2) #define ESPI_IO_RANGE_SIZE(range) (0x4c + ((range) & 3)) #define ESPI_MMIO_RANGE_BASE(range) (0x50 + ((range) & 3) * 4) #define ESPI_MMIO_RANGE_SIZE(range) (0x60 + ((range) & 3) * 2) #define ESPI_GENERIC_IO_WIN_COUNT 4 #define ESPI_GENERIC_IO_MAX_WIN_SIZE 0x100 #define ESPI_GENERIC_MMIO_WIN_COUNT 4 #define ESPI_GENERIC_MMIO_MAX_WIN_SIZE 0x10000 #define ESPI_SLAVE0_CONFIG 0x68 #define ESPI_CRC_CHECKING_EN (1 << 31) #define ESPI_ALERT_MODE (1 << 30) #define ESPI_IO_MODE_SHIFT 28 #define ESPI_IO_MODE_MASK (0x3 << ESPI_IO_MODE_SHIFT) #define ESPI_IO_MODE_VALUE(x) ((x) << ESPI_IO_MODE_SHIFT) #define ESPI_OP_FREQ_SHIFT 25 #define ESPI_OP_FREQ_MASK (0x7 << ESPI_OP_FREQ_SHIFT) #define ESPI_OP_FREQ_VALUE(x) ((x) << ESPI_OP_FREQ_SHIFT) #define ESPI_PERIPH_CH_EN (1 << 3) #define ESPI_VW_CH_EN (1 << 2) #define ESPI_OOB_CH_EN (1 << 1) #define ESPI_FLASH_CH_EN (1 << 0) /* Virtual wire interrupt polarity. eSPI interrupts are active level high signals. The polarity register inverts the incoming signal if the associated bit with the irq is 0. */ #define ESPI_VW_IRQ_LEVEL_HIGH(x) (1 << (x)) #define ESPI_VW_IRQ_LEVEL_LOW(x) (0 << (x)) #define ESPI_VW_IRQ_EDGE_HIGH(x) (1 << (x)) #define ESPI_VW_IRQ_EDGE_LOW(x) (0 << (x)) enum espi_io_mode { ESPI_IO_MODE_SINGLE = ESPI_IO_MODE_VALUE(0), ESPI_IO_MODE_DUAL = ESPI_IO_MODE_VALUE(1), ESPI_IO_MODE_QUAD = ESPI_IO_MODE_VALUE(2), }; enum espi_op_freq { ESPI_OP_FREQ_16_MHZ = ESPI_OP_FREQ_VALUE(0), ESPI_OP_FREQ_33_MHZ = ESPI_OP_FREQ_VALUE(1), ESPI_OP_FREQ_66_MHZ = ESPI_OP_FREQ_VALUE(2), }; struct espi_config { /* Bitmap for standard IO decodes. Use ESPI_DECODE_IO_* above. */ uint32_t std_io_decode_bitmap; struct { uint16_t base; size_t size; } generic_io_range[ESPI_GENERIC_IO_WIN_COUNT]; /* Slave configuration parameters */ enum espi_io_mode io_mode; enum espi_op_freq op_freq_mhz; uint32_t crc_check_enable:1; uint32_t dedicated_alert_pin:1; uint32_t periph_ch_en:1; uint32_t vw_ch_en:1; uint32_t oob_ch_en:1; uint32_t flash_ch_en:1; uint32_t subtractive_decode:1; /* Use ESPI_VW_IRQ_* above */ uint32_t vw_irq_polarity; }; /* * Open I/O window using the provided base and size. * Return value: 0 = success, -1 = error. */ int espi_open_io_window(uint16_t base, size_t size); /* * Open MMIO window using the provided base and size. * Return value: 0 = success, -1 = error. */ int espi_open_mmio_window(uint32_t base, size_t size); /* * Configure generic and standard I/O decode windows using the espi_config structure settings * provided by mainboard in device tree. */ void espi_configure_decodes(void); /* * In cases where eSPI BAR is statically provided by SoC, use that BAR instead of reading * SPIBASE. This is required for cases where verstage runs on PSP. */ void espi_update_static_bar(uintptr_t bar); /* * Perform eSPI connection setup to the slave. Currently, this supports slave0 only. * Returns 0 on success and -1 on error. */ int espi_setup(void); #endif /* AMD_BLOCK_ESPI_H */