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Vijayenthiran Subramaniamad3fc762019-09-16 17:05:08 +05301/*
2 * Copyright (c) 2019, ARM Limited. All rights reserved.
3 *
4 * SPDX-License-Identifier: BSD-3-Clause
5 */
6
7#ifndef GIC600_MULTICHIP_PRIVATE_H
8#define GIC600_MULTICHIP_PRIVATE_H
9
10#include <drivers/arm/gic600_multichip.h>
11
12#include "gicv3_private.h"
13
14/* GIC600 GICD multichip related offsets */
15#define GICD_CHIPSR U(0xC000)
16#define GICD_DCHIPR U(0xC004)
17#define GICD_CHIPR U(0xC008)
18
19/* GIC600 GICD multichip related masks */
20#define GICD_CHIPRx_PUP_BIT BIT_64(1)
21#define GICD_CHIPRx_SOCKET_STATE BIT_64(0)
22#define GICD_DCHIPR_PUP_BIT BIT_32(0)
23#define GICD_CHIPSR_RTS_MASK (BIT_32(4) | BIT_32(5))
24
25/* GIC600 GICD multichip related shifts */
26#define GICD_CHIPRx_ADDR_SHIFT 16
Vijayenthiran Subramaniamad3fc762019-09-16 17:05:08 +053027#define GICD_CHIPSR_RTS_SHIFT 4
28#define GICD_DCHIPR_RT_OWNER_SHIFT 4
29
Andre Przywara9e1dc682021-05-18 15:46:58 +010030/* Other shifts and masks remain the same between GIC-600 and GIC-700. */
31#define GIC_700_SPI_BLOCK_MIN_SHIFT 9
32#define GIC_700_SPI_BLOCKS_SHIFT 3
33#define GIC_600_SPI_BLOCK_MIN_SHIFT 10
34#define GIC_600_SPI_BLOCKS_SHIFT 5
Vijayenthiran Subramaniamd74d50a2020-04-06 13:54:50 +053035
Vijayenthiran Subramaniamad3fc762019-09-16 17:05:08 +053036#define GICD_CHIPSR_RTS_STATE_DISCONNECTED U(0)
37#define GICD_CHIPSR_RTS_STATE_UPDATING U(1)
38#define GICD_CHIPSR_RTS_STATE_CONSISTENT U(2)
39
40/* SPI interrupt id minimum and maximum range */
41#define GIC600_SPI_ID_MIN 32
42#define GIC600_SPI_ID_MAX 960
43
Varun Wadekar7ef3c7e2022-05-06 13:18:49 +010044#define GIC700_SPI_ID_MIN 32
45#define GIC700_SPI_ID_MAX 991
46#define GIC700_ESPI_ID_MIN 4096
47#define GIC700_ESPI_ID_MAX 5119
48
Vijayenthiran Subramaniamad3fc762019-09-16 17:05:08 +053049/* Number of retries for PUP update */
50#define GICD_PUP_UPDATE_RETRIES 10000
51
52#define SPI_MIN_INDEX 0
53#define SPI_MAX_INDEX 1
54
55#define SPI_BLOCK_MIN_VALUE(spi_id_min) \
56 (((spi_id_min) - GIC600_SPI_ID_MIN) / \
57 GIC600_SPI_ID_MIN)
58#define SPI_BLOCKS_VALUE(spi_id_min, spi_id_max) \
59 (((spi_id_max) - (spi_id_min) + 1) / \
60 GIC600_SPI_ID_MIN)
Varun Wadekar7ef3c7e2022-05-06 13:18:49 +010061#define ESPI_BLOCK_MIN_VALUE(spi_id_min) \
62 (((spi_id_min) - GIC700_ESPI_ID_MIN + 1) / \
63 GIC700_SPI_ID_MIN)
Andre Przywara9e1dc682021-05-18 15:46:58 +010064#define GICD_CHIPR_VALUE_GIC_700(chip_addr, spi_block_min, spi_blocks) \
65 (((chip_addr) << GICD_CHIPRx_ADDR_SHIFT) | \
66 ((spi_block_min) << GIC_700_SPI_BLOCK_MIN_SHIFT) | \
67 ((spi_blocks) << GIC_700_SPI_BLOCKS_SHIFT))
68#define GICD_CHIPR_VALUE_GIC_600(chip_addr, spi_block_min, spi_blocks) \
Vijayenthiran Subramaniamad3fc762019-09-16 17:05:08 +053069 (((chip_addr) << GICD_CHIPRx_ADDR_SHIFT) | \
Andre Przywara9e1dc682021-05-18 15:46:58 +010070 ((spi_block_min) << GIC_600_SPI_BLOCK_MIN_SHIFT) | \
71 ((spi_blocks) << GIC_600_SPI_BLOCKS_SHIFT))
Vijayenthiran Subramaniamad3fc762019-09-16 17:05:08 +053072
73/*
74 * Multichip data assertion macros
75 */
76/* Set bits from 0 to ((spi_id_max + 1) / 32) */
77#define SPI_BLOCKS_TILL_MAX(spi_id_max) ((1 << (((spi_id_max) + 1) >> 5)) - 1)
78/* Set bits from 0 to (spi_id_min / 32) */
79#define SPI_BLOCKS_TILL_MIN(spi_id_min) ((1 << ((spi_id_min) >> 5)) - 1)
80/* Set bits from (spi_id_min / 32) to ((spi_id_max + 1) / 32) */
81#define BLOCKS_OF_32(spi_id_min, spi_id_max) \
82 SPI_BLOCKS_TILL_MAX(spi_id_max) ^ \
83 SPI_BLOCKS_TILL_MIN(spi_id_min)
84
85/*******************************************************************************
86 * GIC-600 multichip operation related helper functions
87 ******************************************************************************/
88static inline uint32_t read_gicd_dchipr(uintptr_t base)
89{
90 return mmio_read_32(base + GICD_DCHIPR);
91}
92
93static inline uint64_t read_gicd_chipr_n(uintptr_t base, uint8_t n)
94{
95 return mmio_read_64(base + (GICD_CHIPR + (8U * n)));
96}
97
98static inline uint32_t read_gicd_chipsr(uintptr_t base)
99{
100 return mmio_read_32(base + GICD_CHIPSR);
101}
102
103static inline void write_gicd_dchipr(uintptr_t base, uint32_t val)
104{
105 mmio_write_32(base + GICD_DCHIPR, val);
106}
107
108static inline void write_gicd_chipr_n(uintptr_t base, uint8_t n, uint64_t val)
109{
110 mmio_write_64(base + (GICD_CHIPR + (8U * n)), val);
111}
112
113#endif /* GIC600_MULTICHIP_PRIVATE_H */