drivers/arm/ccn/ccn_private.h - filogic/atf - Gitiles

 /*
  * Copyright (c) 2015-2016, ARM Limited and Contributors. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #ifndef CCN_PRIVATE_H
 #define CCN_PRIVATE_H

 /*
  * A CCN implementation can have a maximum of 64 Request nodes with node IDs
  * from 0-63. These IDs are split across the three types of Request nodes
  * i.e. RN-F, RN-D and RN-I.
  */
 #define MAX_RN_NODES		64

 /* Enum used to loop through the 3 types of Request nodes */
 typedef enum rn_types {
 	RN_TYPE_RNF = 0,
 	RN_TYPE_RNI,
 	RN_TYPE_RND,
 	NUM_RN_TYPES
 } rn_types_t;

 /* Macro to convert a region id to its base address */
 #define region_id_to_base(id)	((id) << 16)

 /*
  * Macro to calculate the number of master interfaces resident on a RN-I/RN-D.
  * Value of first two bits of the RN-I/D node type + 1 == Maximum number of
  * ACE-Lite or ACE-Lite+DVM interfaces supported on this node. E.g.
  *
  * 0x14 : RN-I with 1 ACE-Lite interface
  * 0x15 : RN-I with 2 ACE-Lite interfaces
  * 0x16 : RN-I with 3 ACE-Lite interfaces
  */
 #define rn_type_id_to_master_cnt(id)	(((id) & 0x3) + 1)

 /*
  * Constants used to identify a region in the programmer's view. These are
  * common for all regions.
  */
 #define REGION_ID_LIMIT		256
 #define REGION_ID_OFFSET	0xFF00

 #define REGION_NODE_ID_SHIFT	8
 #define REGION_NODE_ID_MASK	0x7f
 #define get_node_id(id_reg)	(((id_reg) >> REGION_NODE_ID_SHIFT) \
 				 & REGION_NODE_ID_MASK)

 #define REGION_NODE_TYPE_SHIFT	0
 #define REGION_NODE_TYPE_MASK	0x1f
 #define get_node_type(id_reg)	(((id_reg) >> REGION_NODE_TYPE_SHIFT) \
 				 & REGION_NODE_TYPE_MASK)

 /* Common offsets of registers to enter or exit a snoop/dvm domain */
 #define DOMAIN_CTRL_STAT_OFFSET	0x0200
 #define DOMAIN_CTRL_SET_OFFSET	0x0210
 #define DOMAIN_CTRL_CLR_OFFSET	0x0220

 /*
  * Thess macros are used to determine if an operation to add or remove a Request
  * node from the snoop/dvm domain has completed. 'rn_id_map' is a bit map of
  * nodes. It was used to program the SET or CLEAR control register. The type of
  * register is specified by 'op_reg_offset'. 'status_reg' is the bit map of
  * nodes currently present in the snoop/dvm domain. 'rn_id_map' and 'status_reg'
  * are logically ANDed and the result it stored back in the 'status_reg'. There
  * are two outcomes of this operation:
  *
  * 1. If the DOMAIN_CTRL_SET_OFFSET register was programmed, then the set bits in
  *    'rn_id_map' should appear in 'status_reg' when the operation completes. So
  *    after the AND operation, at some point of time 'status_reg' should equal
  *    'rn_id_map'.
  *
  * 2. If the DOMAIN_CTRL_CLR_OFFSET register was programmed, then the set bits in
  *    'rn_id_map' should disappear in 'status_reg' when the operation
  *    completes. So after the AND operation, at some point of time 'status_reg'
  *    should equal 0.
  */
 #define WAIT_FOR_DOMAIN_CTRL_OP_COMPLETION(region_id, stat_reg_offset,		\
 					   op_reg_offset, rn_id_map)		\
 	{									\
 		unsigned long long status_reg;						\
 		do {								\
 			status_reg = ccn_reg_read((ccn_plat_desc->periphbase),	\
 						  (region_id),			\
 						  (stat_reg_offset));		\
 			status_reg &= (rn_id_map);				\
 		} while ((op_reg_offset) == DOMAIN_CTRL_SET_OFFSET ?		\
 			 (rn_id_map) != status_reg : status_reg);		\
 	}

 /*
  * Region ID of the Miscellaneous Node is always 0 as its located at the base of
  * the programmer's view.
  */
 #define MN_REGION_ID		0

 #define MN_REGION_ID_START	0
 #define DEBUG_REGION_ID_START	1
 #define HNI_REGION_ID_START	8
 #define SBSX_REGION_ID_START	16
 #define HNF_REGION_ID_START	32
 #define XP_REGION_ID_START	64
 #define RNI_REGION_ID_START	128

 /* Selected register offsets from the base of a HNF region */
 #define HNF_CFG_CTRL_OFFSET	0x0000
 #define HNF_SAM_CTRL_OFFSET	0x0008
 #define HNF_PSTATE_REQ_OFFSET	0x0010
 #define HNF_PSTATE_STAT_OFFSET	0x0018
 #define HNF_SDC_STAT_OFFSET	DOMAIN_CTRL_STAT_OFFSET
 #define HNF_SDC_SET_OFFSET	DOMAIN_CTRL_SET_OFFSET
 #define HNF_SDC_CLR_OFFSET	DOMAIN_CTRL_CLR_OFFSET
 #define HNF_AUX_CTRL_OFFSET	0x0500

 /* Selected register offsets from the base of a MN region */
 #define MN_SAR_OFFSET		0x0000
 #define MN_RNF_NODEID_OFFSET	0x0180
 #define MN_RNI_NODEID_OFFSET	0x0190
 #define MN_RND_NODEID_OFFSET	0x01A0
 #define MN_HNF_NODEID_OFFSET	0x01B0
 #define MN_HNI_NODEID_OFFSET	0x01C0
 #define MN_SN_NODEID_OFFSET	0x01D0
 #define MN_DDC_STAT_OFFSET	DOMAIN_CTRL_STAT_OFFSET
 #define MN_DDC_SET_OFFSET	DOMAIN_CTRL_SET_OFFSET
 #define MN_DDC_CLR_OFFSET	DOMAIN_CTRL_CLR_OFFSET
 #define MN_PERIPH_ID_0_1_OFFSET	0xFE0
 #define MN_ID_OFFSET		REGION_ID_OFFSET

 /* HNF System Address Map register bit masks and shifts */
 #define HNF_SAM_CTRL_SN_ID_MASK		0x7f
 #define HNF_SAM_CTRL_SN0_ID_SHIFT	0
 #define HNF_SAM_CTRL_SN1_ID_SHIFT	8
 #define HNF_SAM_CTRL_SN2_ID_SHIFT	16

 #define HNF_SAM_CTRL_TAB0_MASK		ULL(0x3f)
 #define HNF_SAM_CTRL_TAB0_SHIFT		48
 #define HNF_SAM_CTRL_TAB1_MASK		ULL(0x3f)
 #define HNF_SAM_CTRL_TAB1_SHIFT		56

 #define HNF_SAM_CTRL_3SN_ENB_SHIFT	32
 #define HNF_SAM_CTRL_3SN_ENB_MASK	ULL(0x01)

 /*
  * Macro to create a value suitable for programming into a HNF SAM Control
  * register for enabling 3SN striping.
  */
 #define MAKE_HNF_SAM_CTRL_VALUE(sn0, sn1, sn2, tab0, tab1, three_sn_en)     \
 	((((sn0) & HNF_SAM_CTRL_SN_ID_MASK) << HNF_SAM_CTRL_SN0_ID_SHIFT) | \
 	 (((sn1) & HNF_SAM_CTRL_SN_ID_MASK) << HNF_SAM_CTRL_SN1_ID_SHIFT) | \
 	 (((sn2) & HNF_SAM_CTRL_SN_ID_MASK) << HNF_SAM_CTRL_SN2_ID_SHIFT) | \
 	 (((tab0) & HNF_SAM_CTRL_TAB0_MASK) << HNF_SAM_CTRL_TAB0_SHIFT)   | \
 	 (((tab1) & HNF_SAM_CTRL_TAB1_MASK) << HNF_SAM_CTRL_TAB1_SHIFT)   | \
 	 (((three_sn_en) & HNF_SAM_CTRL_3SN_ENB_MASK) << HNF_SAM_CTRL_3SN_ENB_SHIFT))

 /* Mask to read the power state value from an HN-F P-state register */
 #define HNF_PSTATE_MASK		0xf

 /* Macro to extract the run mode from a p-state value */
 #define PSTATE_TO_RUN_MODE(pstate)	(((pstate) & HNF_PSTATE_MASK) >> 2)

 /*
  * Helper macro that iterates through a given bit map. In each iteration,
  * it returns the position of the set bit.
  * It can be used by other utility macros to iterates through all nodes
  * or masters given a bit map of them.
  */
 #define FOR_EACH_BIT(bit_pos, bit_map)			\
 	for (bit_pos = __builtin_ctzll(bit_map);	\
 	     bit_map;					\
 	     bit_map &= ~(1ULL << (bit_pos)),		\
 	     bit_pos = __builtin_ctzll(bit_map))

 /*
  * Utility macro that iterates through a bit map of node IDs. In each
  * iteration, it returns the ID of the next present node in the bit map. Node
  * ID of a present node == Position of set bit == Number of zeroes trailing the
  * bit.
  */
 #define FOR_EACH_PRESENT_NODE_ID(node_id, bit_map)	\
 		FOR_EACH_BIT(node_id, bit_map)

 /*
  * Helper function to return number of set bits in bitmap
  */
 static inline unsigned int count_set_bits(unsigned long long bitmap)
 {
 	unsigned int count = 0;

 	for (; bitmap; bitmap &= bitmap - 1)
 		++count;

 	return count;
 }

 /*
  * Utility macro that iterates through a bit map of node IDs. In each iteration,
  * it returns the ID of the next present region corresponding to a node present
  * in the bit map. Region ID of a present node is in between passed region id
  * and region id + number of set bits in the bitmap i.e. the number of present
  * nodes.
  */
 #define FOR_EACH_PRESENT_REGION_ID(region_id, bit_map)				\
 	for (unsigned long long region_id_limit = count_set_bits(bit_map)	\
 							+ region_id;		\
 	    region_id < region_id_limit;					\
 	    region_id++)

 /*
  * Same macro as FOR_EACH_PRESENT_NODE, but renamed to indicate it traverses
  * through a bit map of master interfaces.
  */
 #define FOR_EACH_PRESENT_MASTER_INTERFACE(iface_id, bit_map)	\
 			FOR_EACH_BIT(iface_id, bit_map)

 /*
  * Macro that returns the node id bit map for the Miscellaneous Node
  */
 #define CCN_GET_MN_NODEID_MAP(periphbase)				\
 	(1 << get_node_id(ccn_reg_read(periphbase, MN_REGION_ID,	\
 						REGION_ID_OFFSET)))

 /*
  * This macro returns the bitmap of Home nodes on the basis of the
  * 'mn_hn_id_reg_offset' parameter from the Miscellaneous node's (MN)
  * programmer's view. The MN has a register which carries the bitmap of present
  * Home nodes of each type i.e. HN-Fs, HN-Is & HN-Ds.
  */
 #define CCN_GET_HN_NODEID_MAP(periphbase, mn_hn_id_reg_offset)		\
 	ccn_reg_read(periphbase, MN_REGION_ID, mn_hn_id_reg_offset)

 #endif /* CCN_PRIVATE_H */
	/*
	* Copyright (c) 2015-2016, ARM Limited and Contributors. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#ifndef CCN_PRIVATE_H
	#define CCN_PRIVATE_H

	/*
	* A CCN implementation can have a maximum of 64 Request nodes with node IDs
	* from 0-63. These IDs are split across the three types of Request nodes
	* i.e. RN-F, RN-D and RN-I.
	*/
	#define MAX_RN_NODES 64

	/* Enum used to loop through the 3 types of Request nodes */
	typedef enum rn_types {
	RN_TYPE_RNF = 0,
	RN_TYPE_RNI,
	RN_TYPE_RND,
	NUM_RN_TYPES
	} rn_types_t;

	/* Macro to convert a region id to its base address */
	#define region_id_to_base(id) ((id) << 16)

	/*
	* Macro to calculate the number of master interfaces resident on a RN-I/RN-D.
	* Value of first two bits of the RN-I/D node type + 1 == Maximum number of
	* ACE-Lite or ACE-Lite+DVM interfaces supported on this node. E.g.
	*
	* 0x14 : RN-I with 1 ACE-Lite interface
	* 0x15 : RN-I with 2 ACE-Lite interfaces
	* 0x16 : RN-I with 3 ACE-Lite interfaces
	*/
	#define rn_type_id_to_master_cnt(id) (((id) & 0x3) + 1)

	/*
	* Constants used to identify a region in the programmer's view. These are
	* common for all regions.
	*/
	#define REGION_ID_LIMIT 256
	#define REGION_ID_OFFSET 0xFF00

	#define REGION_NODE_ID_SHIFT 8
	#define REGION_NODE_ID_MASK 0x7f
	#define get_node_id(id_reg) (((id_reg) >> REGION_NODE_ID_SHIFT) \
	& REGION_NODE_ID_MASK)

	#define REGION_NODE_TYPE_SHIFT 0
	#define REGION_NODE_TYPE_MASK 0x1f
	#define get_node_type(id_reg) (((id_reg) >> REGION_NODE_TYPE_SHIFT) \
	& REGION_NODE_TYPE_MASK)

	/* Common offsets of registers to enter or exit a snoop/dvm domain */
	#define DOMAIN_CTRL_STAT_OFFSET 0x0200
	#define DOMAIN_CTRL_SET_OFFSET 0x0210
	#define DOMAIN_CTRL_CLR_OFFSET 0x0220

	/*
	* Thess macros are used to determine if an operation to add or remove a Request
	* node from the snoop/dvm domain has completed. 'rn_id_map' is a bit map of
	* nodes. It was used to program the SET or CLEAR control register. The type of
	* register is specified by 'op_reg_offset'. 'status_reg' is the bit map of
	* nodes currently present in the snoop/dvm domain. 'rn_id_map' and 'status_reg'
	* are logically ANDed and the result it stored back in the 'status_reg'. There
	* are two outcomes of this operation:
	*
	* 1. If the DOMAIN_CTRL_SET_OFFSET register was programmed, then the set bits in
	* 'rn_id_map' should appear in 'status_reg' when the operation completes. So
	* after the AND operation, at some point of time 'status_reg' should equal
	* 'rn_id_map'.
	*
	* 2. If the DOMAIN_CTRL_CLR_OFFSET register was programmed, then the set bits in
	* 'rn_id_map' should disappear in 'status_reg' when the operation
	* completes. So after the AND operation, at some point of time 'status_reg'
	* should equal 0.
	*/
	#define WAIT_FOR_DOMAIN_CTRL_OP_COMPLETION(region_id, stat_reg_offset, \
	op_reg_offset, rn_id_map) \
	{ \
	unsigned long long status_reg; \
	do { \
	status_reg = ccn_reg_read((ccn_plat_desc->periphbase), \
	(region_id), \
	(stat_reg_offset)); \
	status_reg &= (rn_id_map); \
	} while ((op_reg_offset) == DOMAIN_CTRL_SET_OFFSET ? \
	(rn_id_map) != status_reg : status_reg); \
	}

	/*
	* Region ID of the Miscellaneous Node is always 0 as its located at the base of
	* the programmer's view.
	*/
	#define MN_REGION_ID 0

	#define MN_REGION_ID_START 0
	#define DEBUG_REGION_ID_START 1
	#define HNI_REGION_ID_START 8
	#define SBSX_REGION_ID_START 16
	#define HNF_REGION_ID_START 32
	#define XP_REGION_ID_START 64
	#define RNI_REGION_ID_START 128

	/* Selected register offsets from the base of a HNF region */
	#define HNF_CFG_CTRL_OFFSET 0x0000
	#define HNF_SAM_CTRL_OFFSET 0x0008
	#define HNF_PSTATE_REQ_OFFSET 0x0010
	#define HNF_PSTATE_STAT_OFFSET 0x0018
	#define HNF_SDC_STAT_OFFSET DOMAIN_CTRL_STAT_OFFSET
	#define HNF_SDC_SET_OFFSET DOMAIN_CTRL_SET_OFFSET
	#define HNF_SDC_CLR_OFFSET DOMAIN_CTRL_CLR_OFFSET
	#define HNF_AUX_CTRL_OFFSET 0x0500

	/* Selected register offsets from the base of a MN region */
	#define MN_SAR_OFFSET 0x0000
	#define MN_RNF_NODEID_OFFSET 0x0180
	#define MN_RNI_NODEID_OFFSET 0x0190
	#define MN_RND_NODEID_OFFSET 0x01A0
	#define MN_HNF_NODEID_OFFSET 0x01B0
	#define MN_HNI_NODEID_OFFSET 0x01C0
	#define MN_SN_NODEID_OFFSET 0x01D0
	#define MN_DDC_STAT_OFFSET DOMAIN_CTRL_STAT_OFFSET
	#define MN_DDC_SET_OFFSET DOMAIN_CTRL_SET_OFFSET
	#define MN_DDC_CLR_OFFSET DOMAIN_CTRL_CLR_OFFSET
	#define MN_PERIPH_ID_0_1_OFFSET 0xFE0
	#define MN_ID_OFFSET REGION_ID_OFFSET

	/* HNF System Address Map register bit masks and shifts */
	#define HNF_SAM_CTRL_SN_ID_MASK 0x7f
	#define HNF_SAM_CTRL_SN0_ID_SHIFT 0
	#define HNF_SAM_CTRL_SN1_ID_SHIFT 8
	#define HNF_SAM_CTRL_SN2_ID_SHIFT 16

	#define HNF_SAM_CTRL_TAB0_MASK ULL(0x3f)
	#define HNF_SAM_CTRL_TAB0_SHIFT 48
	#define HNF_SAM_CTRL_TAB1_MASK ULL(0x3f)
	#define HNF_SAM_CTRL_TAB1_SHIFT 56

	#define HNF_SAM_CTRL_3SN_ENB_SHIFT 32
	#define HNF_SAM_CTRL_3SN_ENB_MASK ULL(0x01)

	/*
	* Macro to create a value suitable for programming into a HNF SAM Control
	* register for enabling 3SN striping.
	*/
	#define MAKE_HNF_SAM_CTRL_VALUE(sn0, sn1, sn2, tab0, tab1, three_sn_en) \
	((((sn0) & HNF_SAM_CTRL_SN_ID_MASK) << HNF_SAM_CTRL_SN0_ID_SHIFT) \| \
	(((sn1) & HNF_SAM_CTRL_SN_ID_MASK) << HNF_SAM_CTRL_SN1_ID_SHIFT) \| \
	(((sn2) & HNF_SAM_CTRL_SN_ID_MASK) << HNF_SAM_CTRL_SN2_ID_SHIFT) \| \
	(((tab0) & HNF_SAM_CTRL_TAB0_MASK) << HNF_SAM_CTRL_TAB0_SHIFT) \| \
	(((tab1) & HNF_SAM_CTRL_TAB1_MASK) << HNF_SAM_CTRL_TAB1_SHIFT) \| \
	(((three_sn_en) & HNF_SAM_CTRL_3SN_ENB_MASK) << HNF_SAM_CTRL_3SN_ENB_SHIFT))

	/* Mask to read the power state value from an HN-F P-state register */
	#define HNF_PSTATE_MASK 0xf

	/* Macro to extract the run mode from a p-state value */
	#define PSTATE_TO_RUN_MODE(pstate) (((pstate) & HNF_PSTATE_MASK) >> 2)

	/*
	* Helper macro that iterates through a given bit map. In each iteration,
	* it returns the position of the set bit.
	* It can be used by other utility macros to iterates through all nodes
	* or masters given a bit map of them.
	*/
	#define FOR_EACH_BIT(bit_pos, bit_map) \
	for (bit_pos = __builtin_ctzll(bit_map); \
	bit_map; \
	bit_map &= ~(1ULL << (bit_pos)), \
	bit_pos = __builtin_ctzll(bit_map))

	/*
	* Utility macro that iterates through a bit map of node IDs. In each
	* iteration, it returns the ID of the next present node in the bit map. Node
	* ID of a present node == Position of set bit == Number of zeroes trailing the
	* bit.
	*/
	#define FOR_EACH_PRESENT_NODE_ID(node_id, bit_map) \
	FOR_EACH_BIT(node_id, bit_map)

	/*
	* Helper function to return number of set bits in bitmap
	*/
	static inline unsigned int count_set_bits(unsigned long long bitmap)
	{
	unsigned int count = 0;

	for (; bitmap; bitmap &= bitmap - 1)
	++count;

	return count;
	}

	/*
	* Utility macro that iterates through a bit map of node IDs. In each iteration,
	* it returns the ID of the next present region corresponding to a node present
	* in the bit map. Region ID of a present node is in between passed region id
	* and region id + number of set bits in the bitmap i.e. the number of present
	* nodes.
	*/
	#define FOR_EACH_PRESENT_REGION_ID(region_id, bit_map) \
	for (unsigned long long region_id_limit = count_set_bits(bit_map) \
	+ region_id; \
	region_id < region_id_limit; \
	region_id++)

	/*
	* Same macro as FOR_EACH_PRESENT_NODE, but renamed to indicate it traverses
	* through a bit map of master interfaces.
	*/
	#define FOR_EACH_PRESENT_MASTER_INTERFACE(iface_id, bit_map) \
	FOR_EACH_BIT(iface_id, bit_map)

	/*
	* Macro that returns the node id bit map for the Miscellaneous Node
	*/
	#define CCN_GET_MN_NODEID_MAP(periphbase) \
	(1 << get_node_id(ccn_reg_read(periphbase, MN_REGION_ID, \
	REGION_ID_OFFSET)))

	/*
	* This macro returns the bitmap of Home nodes on the basis of the
	* 'mn_hn_id_reg_offset' parameter from the Miscellaneous node's (MN)
	* programmer's view. The MN has a register which carries the bitmap of present
	* Home nodes of each type i.e. HN-Fs, HN-Is & HN-Ds.
	*/
	#define CCN_GET_HN_NODEID_MAP(periphbase, mn_hn_id_reg_offset) \
	ccn_reg_read(periphbase, MN_REGION_ID, mn_hn_id_reg_offset)

	#endif /* CCN_PRIVATE_H */