include/renesas/ddr_ctrl.h - u-boot - Git at Google

 /* SPDX-License-Identifier: BSD-2-Clause */
 /*
  * Cadence DDR Controller
  *
  * Copyright (C) 2015 Renesas Electronics Europe Ltd
  */

 #ifndef CADENCE_DDR_CTRL_H
 #define CADENCE_DDR_CTRL_H

 enum cdns_ddr_range_prot {
 	CDNS_DDR_RANGE_PROT_BITS_PRIV_SECURE = 0,
 	CDNS_DDR_RANGE_PROT_BITS_SECURE = 1,
 	CDNS_DDR_RANGE_PROT_BITS_PRIV = 2,
 	CDNS_DDR_RANGE_PROT_BITS_FULL = 3,
 };

 /**
  * Initialise the Cadence DDR Controller, but doesn't start it.
  *
  * It sets up the controller so that all 4 AXI slave ports allow access to all
  * of the DDR with the same settings. This means that:
  *  - Full access permisions.
  *  - All read/write priorities are set to 2.
  *  - Bandwidth is set to 50%, overflow is allowed, i.e. it's a soft limit.
  * If you want different properties for different ports and/or addr ranges, call
  * the other functions before calling cdns_ddr_ctrl_start().
  *
  * @ddr_ctrl_base  Physical address of the DDR Controller.
  * @async          0 if DDR clock is synchronous with the controller clock
  *                 otherwise 1.
  * @reg0           Pointer to array of 32-bit values to be written to registers
  *                 0 to 87. The values are generated by Cadence TCL scripts.
  * @reg350         Pointer to array of 32-bit values to be written to registers
  *                 350 to 374. The values are generated by Cadence TCL scripts.
  * @ddr_start_addr Physical address of the start of DDR.
  * @ddr_size       Size of the DDR in bytes. The controller will set the port
  *                 protection range to match this size.
  * @enable_ecc     0 to disable ECC, 1 to enable it.
  * @enable_8bit    0 to use 16-bit bus width, 1 to use 8-bit bus width.
  */
 void cdns_ddr_ctrl_init(void *ddr_ctrl_base, int async,
 			const u32 *reg0, const u32 *reg350,
 			u32 ddr_start_addr, u32 ddr_size,
 			int enable_ecc, int enable_8bit);

 /**
  * Start the Cadence DDR Controller.
  *
  * @ddr_ctrl_base  Physical address of the DDR Controller.
  */
 void cdns_ddr_ctrl_start(void *ddr_ctrl_base);

 /**
  * Set the priority for read and write operations for a specific AXI slave port.
  *
  * @base      Physical address of the DDR Controller.
  * @port      Port number. Range is 0 to 3.
  * @read_pri  Priority for reads.  Range is 0 to 3, where 0 is highest priority.
  * @write_pri Priority for writes. Range is 0 to 3, where 0 is highest priority.
  */
 void cdns_ddr_set_port_rw_priority(void *base, int port,
 				   u8 read_pri, u8 write_pri);

 /**
  * Specify address range for a protection entry, for a specific AXI slave port.
  *
  * @base       Physical address of the DDR Controller.
  * @port       Port number. Range is 0 to 3.
  * @entry      The protection entry. Range is 0 to 15.
  * @start_addr Physical of the address range, must be aligned to 16KB.
  * @size       Size of the address range, must be multiple of 16KB.
  */
 void cdns_ddr_enable_port_addr_range(void *base, int port, int entry,
 				     u32 addr_start, u32 size);

 /**
  * Specify address range for a protection entry, for all AXI slave ports.
  *
  * @base       Physical address of the DDR Controller.
  * @entry      The protection entry. Range is 0 to 15.
  * @start_addr Physical of the address range, must be aligned to 16KB.
  * @size       Size of the address range, must be multiple of 16KB.
  */
 void cdns_ddr_enable_addr_range(void *base, int entry,
 				u32 addr_start, u32 size);

 /**
  * Specify protection entry details, for a specific AXI slave port.
  *
  * See the hardware manual for details of the range check bits.
  *
  * @base       Physical address of the DDR Controller.
  * @port       Port number. Range is 0 to 3.
  * @entry      The protection entry. Range is 0 to 15.
  */
 void cdns_ddr_enable_port_prot(void *base, int port, int entry,
 			       enum cdns_ddr_range_prot range_protection_bits,
 			       u16 range_RID_check_bits,
 			       u16 range_WID_check_bits,
 			       u8 range_RID_check_bits_ID_lookup,
 			       u8 range_WID_check_bits_ID_lookup);

 /**
  * Specify protection entry details, for all AXI slave ports.
  *
  * See the hardware manual for details of the range check bits.
  *
  * @base       Physical address of the DDR Controller.
  * @entry      The protection entry. Range is 0 to 15.
  */
 void cdns_ddr_enable_prot(void *base, int entry,
 			  enum cdns_ddr_range_prot range_protection_bits,
 			  u16 range_RID_check_bits,
 			  u16 range_WID_check_bits,
 			  u8 range_RID_check_bits_ID_lookup,
 			  u8 range_WID_check_bits_ID_lookup);

 /**
  * Specify bandwidth for each AXI port.
  *
  * See the hardware manual for details of the range check bits.
  *
  * @base       Physical address of the DDR Controller.
  * @port       Port number. Range is 0 to 3.
  * @max_percent     0 to 100.
  */
 void cdns_ddr_set_port_bandwidth(void *base, int port,
 				 u8 max_percent, u8 overflow_ok);

 /* Standard JEDEC registers */
 #define MODE_REGISTER_MASK		(3 << 14)
 #define MODE_REGISTER_MR0		(0 << 14)
 #define MODE_REGISTER_MR1		(1 << 14)
 #define MODE_REGISTER_MR2		(2 << 14)
 #define MODE_REGISTER_MR3		(3 << 14)
 #define MR1_DRIVE_STRENGTH_MASK		((1 << 5) | (1 << 1))
 #define MR1_DRIVE_STRENGTH_34_OHMS	((0 << 5) | (1 << 1))
 #define MR1_DRIVE_STRENGTH_40_OHMS	((0 << 5) | (0 << 1))
 #define MR1_ODT_IMPEDANCE_MASK		((1 << 9) | (1 << 6) | (1 << 2))
 #define MR1_ODT_IMPEDANCE_60_OHMS	((0 << 9) | (0 << 6) | (1 << 2))
 #define MR1_ODT_IMPEDANCE_120_OHMS	((0 << 9) | (1 << 6) | (0 << 2))
 #define MR1_ODT_IMPEDANCE_40_OHMS	((0 << 9) | (1 << 6) | (1 << 2))
 #define MR1_ODT_IMPEDANCE_20_OHMS	((1 << 9) | (0 << 6) | (0 << 2))
 #define MR1_ODT_IMPEDANCE_30_OHMS	((1 << 9) | (0 << 6) | (1 << 2))
 #define MR2_DYNAMIC_ODT_MASK		(3 << 9)
 #define MR2_DYNAMIC_ODT_OFF		(0 << 9)
 #define MR2_SELF_REFRESH_TEMP_MASK	(1 << 7)
 #define MR2_SELF_REFRESH_TEMP_EXT	(1 << 7)

 /**
  * Set certain fields of the JEDEC MR1 register.
  */
 void cdns_ddr_set_mr1(void *base, int cs, u16 odt_impedance, u16 drive_strength);

 /**
  * Set certain fields of the JEDEC MR2 register.
  */
 void cdns_ddr_set_mr2(void *base, int cs, u16 dynamic_odt, u16 self_refresh_temp);

 /**
  * Set ODT map of the DDR Controller.
  */
 void cdns_ddr_set_odt_map(void *base, int cs, u16 odt_map);

 /**
  * Set ODT settings in the DDR Controller.
  */
 void cdns_ddr_set_odt_times(void *base, u8 TODTL_2CMD, u8 TODTH_WR, u8 TODTH_RD,
 			    u8 WR_TO_ODTH, u8 RD_TO_ODTH);

 void cdns_ddr_set_same_cs_delays(void *base, u8 r2r, u8 r2w, u8 w2r, u8 w2w);
 void cdns_ddr_set_diff_cs_delays(void *base, u8 r2r, u8 r2w, u8 w2r, u8 w2w);

 #endif
	/* SPDX-License-Identifier: BSD-2-Clause */
	/*
	* Cadence DDR Controller
	*
	* Copyright (C) 2015 Renesas Electronics Europe Ltd
	*/

	#ifndef CADENCE_DDR_CTRL_H
	#define CADENCE_DDR_CTRL_H

	enum cdns_ddr_range_prot {
	CDNS_DDR_RANGE_PROT_BITS_PRIV_SECURE = 0,
	CDNS_DDR_RANGE_PROT_BITS_SECURE = 1,
	CDNS_DDR_RANGE_PROT_BITS_PRIV = 2,
	CDNS_DDR_RANGE_PROT_BITS_FULL = 3,
	};

	/**
	* Initialise the Cadence DDR Controller, but doesn't start it.
	*
	* It sets up the controller so that all 4 AXI slave ports allow access to all
	* of the DDR with the same settings. This means that:
	* - Full access permisions.
	* - All read/write priorities are set to 2.
	* - Bandwidth is set to 50%, overflow is allowed, i.e. it's a soft limit.
	* If you want different properties for different ports and/or addr ranges, call
	* the other functions before calling cdns_ddr_ctrl_start().
	*
	* @ddr_ctrl_base Physical address of the DDR Controller.
	* @async 0 if DDR clock is synchronous with the controller clock
	* otherwise 1.
	* @reg0 Pointer to array of 32-bit values to be written to registers
	* 0 to 87. The values are generated by Cadence TCL scripts.
	* @reg350 Pointer to array of 32-bit values to be written to registers
	* 350 to 374. The values are generated by Cadence TCL scripts.
	* @ddr_start_addr Physical address of the start of DDR.
	* @ddr_size Size of the DDR in bytes. The controller will set the port
	* protection range to match this size.
	* @enable_ecc 0 to disable ECC, 1 to enable it.
	* @enable_8bit 0 to use 16-bit bus width, 1 to use 8-bit bus width.
	*/
	void cdns_ddr_ctrl_init(void *ddr_ctrl_base, int async,
	const u32 reg0, const u32 reg350,
	u32 ddr_start_addr, u32 ddr_size,
	int enable_ecc, int enable_8bit);

	/**
	* Start the Cadence DDR Controller.
	*
	* @ddr_ctrl_base Physical address of the DDR Controller.
	*/
	void cdns_ddr_ctrl_start(void *ddr_ctrl_base);

	/**
	* Set the priority for read and write operations for a specific AXI slave port.
	*
	* @base Physical address of the DDR Controller.
	* @port Port number. Range is 0 to 3.
	* @read_pri Priority for reads. Range is 0 to 3, where 0 is highest priority.
	* @write_pri Priority for writes. Range is 0 to 3, where 0 is highest priority.
	*/
	void cdns_ddr_set_port_rw_priority(void *base, int port,
	u8 read_pri, u8 write_pri);

	/**
	* Specify address range for a protection entry, for a specific AXI slave port.
	*
	* @base Physical address of the DDR Controller.
	* @port Port number. Range is 0 to 3.
	* @entry The protection entry. Range is 0 to 15.
	* @start_addr Physical of the address range, must be aligned to 16KB.
	* @size Size of the address range, must be multiple of 16KB.
	*/
	void cdns_ddr_enable_port_addr_range(void *base, int port, int entry,
	u32 addr_start, u32 size);

	/**
	* Specify address range for a protection entry, for all AXI slave ports.
	*
	* @base Physical address of the DDR Controller.
	* @entry The protection entry. Range is 0 to 15.
	* @start_addr Physical of the address range, must be aligned to 16KB.
	* @size Size of the address range, must be multiple of 16KB.
	*/
	void cdns_ddr_enable_addr_range(void *base, int entry,
	u32 addr_start, u32 size);

	/**
	* Specify protection entry details, for a specific AXI slave port.
	*
	* See the hardware manual for details of the range check bits.
	*
	* @base Physical address of the DDR Controller.
	* @port Port number. Range is 0 to 3.
	* @entry The protection entry. Range is 0 to 15.
	*/
	void cdns_ddr_enable_port_prot(void *base, int port, int entry,
	enum cdns_ddr_range_prot range_protection_bits,
	u16 range_RID_check_bits,
	u16 range_WID_check_bits,
	u8 range_RID_check_bits_ID_lookup,
	u8 range_WID_check_bits_ID_lookup);

	/**
	* Specify protection entry details, for all AXI slave ports.
	*
	* See the hardware manual for details of the range check bits.
	*
	* @base Physical address of the DDR Controller.
	* @entry The protection entry. Range is 0 to 15.
	*/
	void cdns_ddr_enable_prot(void *base, int entry,
	enum cdns_ddr_range_prot range_protection_bits,
	u16 range_RID_check_bits,
	u16 range_WID_check_bits,
	u8 range_RID_check_bits_ID_lookup,
	u8 range_WID_check_bits_ID_lookup);

	/**
	* Specify bandwidth for each AXI port.
	*
	* See the hardware manual for details of the range check bits.
	*
	* @base Physical address of the DDR Controller.
	* @port Port number. Range is 0 to 3.
	* @max_percent 0 to 100.
	*/
	void cdns_ddr_set_port_bandwidth(void *base, int port,
	u8 max_percent, u8 overflow_ok);

	/* Standard JEDEC registers */
	#define MODE_REGISTER_MASK (3 << 14)
	#define MODE_REGISTER_MR0 (0 << 14)
	#define MODE_REGISTER_MR1 (1 << 14)
	#define MODE_REGISTER_MR2 (2 << 14)
	#define MODE_REGISTER_MR3 (3 << 14)
	#define MR1_DRIVE_STRENGTH_MASK ((1 << 5) \| (1 << 1))
	#define MR1_DRIVE_STRENGTH_34_OHMS ((0 << 5) \| (1 << 1))
	#define MR1_DRIVE_STRENGTH_40_OHMS ((0 << 5) \| (0 << 1))
	#define MR1_ODT_IMPEDANCE_MASK ((1 << 9) \| (1 << 6) \| (1 << 2))
	#define MR1_ODT_IMPEDANCE_60_OHMS ((0 << 9) \| (0 << 6) \| (1 << 2))
	#define MR1_ODT_IMPEDANCE_120_OHMS ((0 << 9) \| (1 << 6) \| (0 << 2))
	#define MR1_ODT_IMPEDANCE_40_OHMS ((0 << 9) \| (1 << 6) \| (1 << 2))
	#define MR1_ODT_IMPEDANCE_20_OHMS ((1 << 9) \| (0 << 6) \| (0 << 2))
	#define MR1_ODT_IMPEDANCE_30_OHMS ((1 << 9) \| (0 << 6) \| (1 << 2))
	#define MR2_DYNAMIC_ODT_MASK (3 << 9)
	#define MR2_DYNAMIC_ODT_OFF (0 << 9)
	#define MR2_SELF_REFRESH_TEMP_MASK (1 << 7)
	#define MR2_SELF_REFRESH_TEMP_EXT (1 << 7)

	/**
	* Set certain fields of the JEDEC MR1 register.
	*/
	void cdns_ddr_set_mr1(void *base, int cs, u16 odt_impedance, u16 drive_strength);

	/**
	* Set certain fields of the JEDEC MR2 register.
	*/
	void cdns_ddr_set_mr2(void *base, int cs, u16 dynamic_odt, u16 self_refresh_temp);

	/**
	* Set ODT map of the DDR Controller.
	*/
	void cdns_ddr_set_odt_map(void *base, int cs, u16 odt_map);

	/**
	* Set ODT settings in the DDR Controller.
	*/
	void cdns_ddr_set_odt_times(void *base, u8 TODTL_2CMD, u8 TODTH_WR, u8 TODTH_RD,
	u8 WR_TO_ODTH, u8 RD_TO_ODTH);

	void cdns_ddr_set_same_cs_delays(void *base, u8 r2r, u8 r2w, u8 w2r, u8 w2w);
	void cdns_ddr_set_diff_cs_delays(void *base, u8 r2r, u8 r2w, u8 w2r, u8 w2w);

	#endif