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Tom Rini83d290c2018-05-06 17:58:06 -04001// SPDX-License-Identifier: GPL-2.0+
Yoshihiro Shimoda320cf352013-12-18 16:03:44 +09002/*
3 * Copyright (C) 2013 Renesas Solutions Corp.
Yoshihiro Shimoda320cf352013-12-18 16:03:44 +09004 */
5
6#include <common.h>
7
8#define CONFIG_SPI_ADDR 0x00000000
9#define PHYADDR(_addr) ((_addr & 0x1fffffff) | 0x40000000)
10#define CONFIG_RAM_BOOT_PHYS PHYADDR(CONFIG_SYS_TEXT_BASE)
11
12#define SPIWDMADR 0xFE001018
13#define SPIWDMCNTR 0xFE001020
14#define SPIDMCOR 0xFE001028
15#define SPIDMINTSR 0xFE001188
16#define SPIDMINTMR 0xFE001190
17
18#define SPIDMINTSR_DMEND 0x00000004
19
20#define TBR 0xFE002000
21#define RBR 0xFE002000
22
23#define CR1 0xFE002008
24#define CR2 0xFE002010
25#define CR3 0xFE002018
26#define CR4 0xFE002020
27#define CR7 0xFE002038
28#define CR8 0xFE002040
29
30/* CR1 */
31#define SPI_TBE 0x80
32#define SPI_TBF 0x40
33#define SPI_RBE 0x20
34#define SPI_RBF 0x10
35#define SPI_PFONRD 0x08
36#define SPI_SSDB 0x04
37#define SPI_SSD 0x02
38#define SPI_SSA 0x01
39
40/* CR2 */
41#define SPI_RSTF 0x80
42#define SPI_LOOPBK 0x40
43#define SPI_CPOL 0x20
44#define SPI_CPHA 0x10
45#define SPI_L1M0 0x08
46
47/* CR4 */
48#define SPI_TBEI 0x80
49#define SPI_TBFI 0x40
50#define SPI_RBEI 0x20
51#define SPI_RBFI 0x10
52#define SPI_SpiS0 0x02
53#define SPI_SSS 0x01
54
55/* CR7 */
56#define CR7_IDX_OR12 0x12
57#define OR12_ADDR32 0x00000001
58
59#define spi_write(val, addr) (*(volatile unsigned long *)(addr)) = val
60#define spi_read(addr) (*(volatile unsigned long *)(addr))
61
62/* M25P80 */
63#define M25_READ 0x03
64#define M25_READ_4BYTE 0x13
65
66extern void bss_start(void);
67
68#define __uses_spiboot2 __attribute__((section(".spiboot2.text")))
69static void __uses_spiboot2 spi_reset(void)
70{
71 int timeout = 0x00100000;
72
73 /* Make sure the last transaction is finalized */
74 spi_write(0x00, CR3);
75 spi_write(0x02, CR1);
76 while (!(spi_read(CR4) & SPI_SpiS0)) {
77 if (timeout-- < 0)
78 break;
79 }
80 spi_write(0x00, CR1);
81
82 spi_write(spi_read(CR2) | SPI_RSTF, CR2); /* fifo reset */
83 spi_write(spi_read(CR2) & ~SPI_RSTF, CR2);
84
85 spi_write(0, SPIDMCOR);
86}
87
88static void __uses_spiboot2 spi_read_flash(void *buf, unsigned long addr,
89 unsigned long len)
90{
91 spi_write(CR7_IDX_OR12, CR7);
92 if (spi_read(CR8) & OR12_ADDR32) {
93 /* 4-bytes address mode */
94 spi_write(M25_READ_4BYTE, TBR);
95 spi_write((addr >> 24) & 0xFF, TBR); /* ADDR31-24 */
96 } else {
97 /* 3-bytes address mode */
98 spi_write(M25_READ, TBR);
99 }
100 spi_write((addr >> 16) & 0xFF, TBR); /* ADDR23-16 */
101 spi_write((addr >> 8) & 0xFF, TBR); /* ADDR15-8 */
102 spi_write(addr & 0xFF, TBR); /* ADDR7-0 */
103
104 spi_write(SPIDMINTSR_DMEND, SPIDMINTSR);
105 spi_write((unsigned long)buf, SPIWDMADR);
106 spi_write(len & 0xFFFFFFE0, SPIWDMCNTR);
107 spi_write(1, SPIDMCOR);
108
109 spi_write(0xff, CR3);
110 spi_write(spi_read(CR1) | SPI_SSDB, CR1);
111 spi_write(spi_read(CR1) | SPI_SSA, CR1);
112
113 while (!(spi_read(SPIDMINTSR) & SPIDMINTSR_DMEND))
114 ;
115
116 /* Nagate SP0-SS0 */
117 spi_write(0, CR1);
118}
119
120void __uses_spiboot2 spiboot_main(void)
121{
122 /*
123 * This code rounds len up for SPIWDMCNTR. We should set it to 0 in
124 * lower 5-bits.
125 */
126 void (*_start)(void) = (void *)CONFIG_SYS_TEXT_BASE;
127 volatile unsigned long len = (bss_start - _start + 31) & 0xffffffe0;
128
129 spi_reset();
130 spi_read_flash((void *)CONFIG_RAM_BOOT_PHYS, CONFIG_SPI_ADDR, len);
131
132 _start();
133}