@@ -929,6 +929,235 @@ int thc_interrupt_handler(struct thc_device *dev)
}
EXPORT_SYMBOL_NS_GPL(thc_interrupt_handler, INTEL_THC);
+/**
+ * thc_port_select - Set THC port type
+ *
+ * @dev: The pointer of THC private device context
+ * @port_type: THC port type to use for current device
+ *
+ * Return: 0 on success, other error codes on failed.
+ */
+int thc_port_select(struct thc_device *dev, enum thc_port_type port_type)
+{
+ u32 ctrl, mask;
+
+ if (port_type == THC_PORT_TYPE_SPI) {
+ dev_dbg(dev->dev, "Set THC port type to SPI\n");
+ dev->port_type = THC_PORT_TYPE_SPI;
+
+ /* Enable delay of CS assertion and set to default value */
+ ctrl = THC_M_PRT_SPI_DUTYC_CFG_SPI_CSA_CK_DELAY_EN |
+ FIELD_PREP(THC_M_PRT_SPI_DUTYC_CFG_SPI_CSA_CK_DELAY_VAL,
+ THC_CSA_CK_DELAY_VAL_DEFAULT);
+ mask = THC_M_PRT_SPI_DUTYC_CFG_SPI_CSA_CK_DELAY_EN |
+ THC_M_PRT_SPI_DUTYC_CFG_SPI_CSA_CK_DELAY_VAL;
+ regmap_write_bits(dev->thc_regmap, THC_M_PRT_SPI_DUTYC_CFG_OFFSET,
+ mask, ctrl);
+ } else if (port_type == THC_PORT_TYPE_I2C) {
+ dev_dbg(dev->dev, "Set THC port type to I2C\n");
+ dev->port_type = THC_PORT_TYPE_I2C;
+
+ /* Set THC transition arbitration policy to frame boundary for I2C */
+ ctrl = FIELD_PREP(THC_M_PRT_CONTROL_THC_ARB_POLICY,
+ THC_ARB_POLICY_FRAME_BOUNDARY);
+ mask = THC_M_PRT_CONTROL_THC_ARB_POLICY;
+
+ regmap_write_bits(dev->thc_regmap, THC_M_PRT_CONTROL_OFFSET, mask, ctrl);
+ } else {
+ dev_err(dev->dev, "unsupported THC port type: %d\n", port_type);
+ return -EINVAL;
+ }
+
+ ctrl = FIELD_PREP(THC_M_PRT_CONTROL_PORT_TYPE, port_type);
+ mask = THC_M_PRT_CONTROL_PORT_TYPE;
+
+ regmap_write_bits(dev->thc_regmap, THC_M_PRT_CONTROL_OFFSET, mask, ctrl);
+
+ return 0;
+}
+EXPORT_SYMBOL_NS_GPL(thc_port_select, INTEL_THC);
+
+#define THC_SPI_FREQUENCY_7M 7812500
+#define THC_SPI_FREQUENCY_15M 15625000
+#define THC_SPI_FREQUENCY_17M 17857100
+#define THC_SPI_FREQUENCY_20M 20833000
+#define THC_SPI_FREQUENCY_25M 25000000
+#define THC_SPI_FREQUENCY_31M 31250000
+#define THC_SPI_FREQUENCY_41M 41666700
+
+#define THC_SPI_LOW_FREQUENCY THC_SPI_FREQUENCY_17M
+
+static u8 thc_get_spi_freq_div_val(struct thc_device *dev, u32 spi_freq_val)
+{
+ int frequency[] = {
+ THC_SPI_FREQUENCY_7M,
+ THC_SPI_FREQUENCY_15M,
+ THC_SPI_FREQUENCY_17M,
+ THC_SPI_FREQUENCY_20M,
+ THC_SPI_FREQUENCY_25M,
+ THC_SPI_FREQUENCY_31M,
+ THC_SPI_FREQUENCY_41M,
+ };
+ u8 frequency_div[] = {
+ THC_SPI_FRQ_DIV_2,
+ THC_SPI_FRQ_DIV_1,
+ THC_SPI_FRQ_DIV_7,
+ THC_SPI_FRQ_DIV_6,
+ THC_SPI_FRQ_DIV_5,
+ THC_SPI_FRQ_DIV_4,
+ THC_SPI_FRQ_DIV_3,
+ };
+ int size = ARRAY_SIZE(frequency);
+ u32 closest_freq;
+ u8 freq_div;
+ int i;
+
+ for (i = size - 1; i >= 0; i--)
+ if ((int)spi_freq_val - frequency[i] >= 0)
+ break;
+
+ if (i < 0) {
+ dev_err_once(dev->dev, "Not supported SPI frequency %d\n", spi_freq_val);
+ return THC_SPI_FRQ_RESERVED;
+ }
+
+ closest_freq = frequency[i];
+ freq_div = frequency_div[i];
+
+ dev_dbg(dev->dev,
+ "Setting SPI frequency: spi_freq_val = %u, Closest freq = %u\n",
+ spi_freq_val, closest_freq);
+
+ return freq_div;
+}
+
+/**
+ * thc_spi_read_config - Configure SPI bus read attributes
+ *
+ * @dev: The pointer of THC private device context
+ * @spi_freq_val: SPI read frequecy value
+ * @io_mode: SPI read IO mode
+ * @opcode: Read opcode
+ * @spi_rd_mps: SPI read max packet size
+ *
+ * Return: 0 on success, other error codes on failed.
+ */
+int thc_spi_read_config(struct thc_device *dev, u32 spi_freq_val,
+ u32 io_mode, u32 opcode, u32 spi_rd_mps)
+{
+ bool is_low_freq = false;
+ u32 cfg, mask;
+ u8 freq_div;
+
+ freq_div = thc_get_spi_freq_div_val(dev, spi_freq_val);
+ if (freq_div == THC_SPI_FRQ_RESERVED)
+ return -EINVAL;
+
+ if (spi_freq_val < THC_SPI_LOW_FREQUENCY)
+ is_low_freq = true;
+
+ cfg = FIELD_PREP(THC_M_PRT_SPI_CFG_SPI_TCRF, freq_div) |
+ FIELD_PREP(THC_M_PRT_SPI_CFG_SPI_TRMODE, io_mode) |
+ (is_low_freq ? THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN : 0) |
+ FIELD_PREP(THC_M_PRT_SPI_CFG_SPI_RD_MPS, spi_rd_mps);
+ mask = THC_M_PRT_SPI_CFG_SPI_TCRF |
+ THC_M_PRT_SPI_CFG_SPI_TRMODE |
+ THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN |
+ THC_M_PRT_SPI_CFG_SPI_RD_MPS;
+
+ regmap_write_bits(dev->thc_regmap,
+ THC_M_PRT_SPI_CFG_OFFSET, mask, cfg);
+
+ if (io_mode == THC_QUAD_IO)
+ opcode = FIELD_PREP(THC_M_PRT_SPI_ICRRD_OPCODE_SPI_QIO, opcode);
+ else if (io_mode == THC_DUAL_IO)
+ opcode = FIELD_PREP(THC_M_PRT_SPI_ICRRD_OPCODE_SPI_DIO, opcode);
+ else
+ opcode = FIELD_PREP(THC_M_PRT_SPI_ICRRD_OPCODE_SPI_SIO, opcode);
+
+ regmap_write(dev->thc_regmap, THC_M_PRT_SPI_ICRRD_OPCODE_OFFSET, opcode);
+ regmap_write(dev->thc_regmap, THC_M_PRT_SPI_DMARD_OPCODE_OFFSET, opcode);
+
+ return 0;
+}
+EXPORT_SYMBOL_NS_GPL(thc_spi_read_config, INTEL_THC);
+
+/**
+ * thc_spi_write_config - Configure SPI bus write attributes
+ *
+ * @dev: The pointer of THC private device context
+ * @spi_freq_val: SPI write frequecy value
+ * @io_mode: SPI write IO mode
+ * @opcode: Write opcode
+ * @spi_wr_mps: SPI write max packet size
+ * @perf_limit: Performance limitation in unit of 10us
+ *
+ * Return: 0 on success, other error codes on failed.
+ */
+int thc_spi_write_config(struct thc_device *dev, u32 spi_freq_val,
+ u32 io_mode, u32 opcode, u32 spi_wr_mps,
+ u32 perf_limit)
+{
+ bool is_low_freq = false;
+ u32 cfg, mask;
+ u8 freq_div;
+
+ freq_div = thc_get_spi_freq_div_val(dev, spi_freq_val);
+ if (freq_div == THC_SPI_FRQ_RESERVED)
+ return -EINVAL;
+
+ if (spi_freq_val < THC_SPI_LOW_FREQUENCY)
+ is_low_freq = true;
+
+ cfg = FIELD_PREP(THC_M_PRT_SPI_CFG_SPI_TCWF, freq_div) |
+ FIELD_PREP(THC_M_PRT_SPI_CFG_SPI_TWMODE, io_mode) |
+ (is_low_freq ? THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN : 0) |
+ FIELD_PREP(THC_M_PRT_SPI_CFG_SPI_WR_MPS, spi_wr_mps);
+ mask = THC_M_PRT_SPI_CFG_SPI_TCWF |
+ THC_M_PRT_SPI_CFG_SPI_TWMODE |
+ THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN |
+ THC_M_PRT_SPI_CFG_SPI_WR_MPS;
+
+ regmap_write_bits(dev->thc_regmap,
+ THC_M_PRT_SPI_CFG_OFFSET, mask, cfg);
+
+ if (io_mode == THC_QUAD_IO)
+ opcode = FIELD_PREP(THC_M_PRT_SPI_ICRRD_OPCODE_SPI_QIO, opcode);
+ else if (io_mode == THC_DUAL_IO)
+ opcode = FIELD_PREP(THC_M_PRT_SPI_ICRRD_OPCODE_SPI_DIO, opcode);
+ else
+ opcode = FIELD_PREP(THC_M_PRT_SPI_ICRRD_OPCODE_SPI_SIO, opcode);
+
+ regmap_write(dev->thc_regmap, THC_M_PRT_SPI_WR_OPCODE_OFFSET, opcode);
+
+ dev->perf_limit = perf_limit;
+
+ return 0;
+}
+EXPORT_SYMBOL_NS_GPL(thc_spi_write_config, INTEL_THC);
+
+/**
+ * thc_spi_input_output_address_config - Configure SPI input and output addresses
+ *
+ * @dev: the pointer of THC private device context
+ * @input_hdr_addr: input report header address
+ * @input_bdy_addr: input report body address
+ * @output_addr: output report address
+ */
+void thc_spi_input_output_address_config(struct thc_device *dev, u32 input_hdr_addr,
+ u32 input_bdy_addr, u32 output_addr)
+{
+ regmap_write(dev->thc_regmap,
+ THC_M_PRT_DEV_INT_CAUSE_ADDR_OFFSET, input_hdr_addr);
+ regmap_write(dev->thc_regmap,
+ THC_M_PRT_RD_BULK_ADDR_1_OFFSET, input_bdy_addr);
+ regmap_write(dev->thc_regmap,
+ THC_M_PRT_RD_BULK_ADDR_2_OFFSET, input_bdy_addr);
+ regmap_write(dev->thc_regmap,
+ THC_M_PRT_WR_BULK_ADDR_OFFSET, output_addr);
+}
+EXPORT_SYMBOL_NS_GPL(thc_spi_input_output_address_config, INTEL_THC);
+
MODULE_AUTHOR("Xinpeng Sun <xinpeng.sun@intel.com>");
MODULE_AUTHOR("Even Xu <even.xu@intel.com>");
@@ -98,5 +98,12 @@ void thc_change_ltr_mode(struct thc_device *dev, u32 ltr_mode);
void thc_ltr_unconfig(struct thc_device *dev);
u32 thc_int_cause_read(struct thc_device *dev);
int thc_interrupt_handler(struct thc_device *dev);
+int thc_port_select(struct thc_device *dev, enum thc_port_type port_type);
+int thc_spi_read_config(struct thc_device *dev, u32 spi_freq_val,
+ u32 io_mode, u32 opcode, u32 spi_rd_mps);
+int thc_spi_write_config(struct thc_device *dev, u32 spi_freq_val,
+ u32 io_mode, u32 opcode, u32 spi_wr_mps, u32 perf_limit);
+void thc_spi_input_output_address_config(struct thc_device *dev, u32 input_hdr_addr,
+ u32 input_bdy_addr, u32 output_addr);
#endif /* _INTEL_THC_DEV_H_ */
@@ -633,6 +633,20 @@
#define THC_M_PRT_SW_DMA_PRD_TABLE_LEN_THC_M_PRT_SW_DMA_PRD_TABLE_LEN GENMASK(23, 0)
+#define THC_M_PRT_SPI_DUTYC_CFG_SPI_CSA_CK_DELAY_VAL GENMASK(3, 0)
+#define THC_M_PRT_SPI_DUTYC_CFG_SPI_CSA_CK_DELAY_EN BIT(25)
+
+/* CS Assertion delay default value */
+#define THC_CSA_CK_DELAY_VAL_DEFAULT 4
+
+/* ARB policy definition */
+/* Arbiter switches on packet boundary */
+#define THC_ARB_POLICY_PACKET_BOUNDARY 0
+/* Arbiter switches on Micro Frame boundary */
+#define THC_ARB_POLICY_UFRAME_BOUNDARY 1
+/* Arbiter switches on Frame boundary */
+#define THC_ARB_POLICY_FRAME_BOUNDARY 2
+
#define THC_REGMAP_POLLING_INTERVAL_US 10 /* 10us */
#define THC_PIO_DONE_TIMEOUT_US USEC_PER_SEC /* 1s */
@@ -694,4 +708,42 @@ enum thc_pio_opcode {
THC_PIO_OP_I2C_TIC_WRITE_AND_READ = 0x1C,
};
+/**
+ * THC SPI IO mode
+ * @THC_SINGLE_IO: single IO mode, 1(opcode) - 1(address) - 1(data)
+ * @THC_DUAL_IO: dual IO mode, 1(opcode) - 2(address) - 2(data)
+ * @THC_QUAD_IO: quad IO mode, 1(opcode) - 4(address) - 4(data)
+ * @THC_QUAD_PARALLEL_IO: parallel quad IO mode, 4(opcode) - 4(address) - 4(data)
+ */
+enum thc_spi_iomode {
+ THC_SINGLE_IO = 0,
+ THC_DUAL_IO = 1,
+ THC_QUAD_IO = 2,
+ THC_QUAD_PARALLEL_IO = 3,
+};
+
+/**
+ * THC SPI frequency divider
+ *
+ * This DIV final value is determined by THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN bit.
+ * If THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN isn't be set, THC takes the DIV value directly;
+ * If THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN is set, THC takes the DIV value multiply by 8.
+ *
+ * For example, if THC input clock is 125MHz:
+ * When THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN isn't set, THC_SPI_FRQ_DIV_3 means DIV is 3,
+ * THC final clock is 125 / 3 = 41.667MHz;
+ * When THC_M_PRT_SPI_CFG_SPI_LOW_FREQ_EN is set, THC_SPI_FRQ_DIV_3 means DIV is 3 * 8,
+ * THC final clock is 125 / (3 * 8) = 5.208MHz;
+ */
+enum thc_spi_frq_div {
+ THC_SPI_FRQ_RESERVED = 0,
+ THC_SPI_FRQ_DIV_1 = 1,
+ THC_SPI_FRQ_DIV_2 = 2,
+ THC_SPI_FRQ_DIV_3 = 3,
+ THC_SPI_FRQ_DIV_4 = 4,
+ THC_SPI_FRQ_DIV_5 = 5,
+ THC_SPI_FRQ_DIV_6 = 6,
+ THC_SPI_FRQ_DIV_7 = 7,
+};
+
#endif /* _INTEL_THC_HW_H_ */