soc/intel/common/block/itss: Route PCI INT pin to PIRQ using PIR
[coreboot2.git] / util / inteltool / ahci.c
blob054c74fdb5fff280d80a1e4f9f7a1d7013b6f995
1 /* ahci.c: dump AHCI registers */
2 /* SPDX-License-Identifier: GPL-2.0-only */
4 #include <stdio.h>
5 #include <stdlib.h>
6 #include <inttypes.h>
7 #include "inteltool.h"
9 static const char *ghc_regs[] = {
10 "CAP", "GHC", "IS", "PI",
11 "VS", "CCC_CTL", "CCC_PORTS", "EM_LOC",
12 "EM_CTL", "CAP2", "BOHC"
15 static const char *port_ctl_regs[] = {
16 "PxCLB", "PxCLBU", "PxFB", "PxFBU",
17 "PxIS", "PxIE", "PxCMD", "Reserved",
18 "PxTFD", "PxSIG", "PxSSTS", "PxSCTL",
19 "PxSERR", "PxSACT", "PxCI", "PxSNTF",
20 "PxFBS", "PxDEVSLP", "Reserved"
23 static const io_register_t sunrise_ahci_cfg_registers[] = {
24 {0x0, 4, "ID"},
25 {0x4, 2, "CMD"},
26 {0x6, 2, "STS"},
27 {0x8, 1, "RID"},
28 {0x9, 1, "PI"},
29 {0xa, 2, "CC"},
30 {0xc, 1, "CLS"},
31 {0xd, 1, "MLT"},
32 {0xe, 1, "HTYPE"},
33 {0x10, 4, "MXTBA"},
34 {0x14, 4, "MXPBA"},
35 {0x20, 4, "AIDPBA"},
36 {0x24, 4, "ABAR"},
37 {0x2c, 4, "SS"},
38 {0x34, 1, "CAP"},
39 {0x3c, 2, "INTR"},
40 {0x70, 2, "PID"},
41 {0x72, 2, "PC"},
42 {0x74, 2, "PMCS"},
43 {0x80, 2, "MID"},
44 {0x82, 2, "MC"},
45 {0x84, 4, "MA"},
46 {0x88, 2, "MD"},
47 {0x90, 4, "MAP"},
48 {0x94, 4, "PCS"},
49 {0x9c, 4, "SATAGC"},
50 {0xa0, 1, "SIRI"},
51 {0xa4, 4, "SIRD"},
52 {0xa8, 4, "SATACR0"},
53 {0xac, 4, "SATACR1"},
54 {0xc0, 4, "SP"},
55 {0xd0, 2, "MXID"},
56 {0xd2, 2, "MXC"},
57 {0xd4, 4, "MXT"},
58 {0xd8, 4, "MXP"},
59 {0xe0, 4, "BFCS"},
60 {0xe4, 4, "BFTD1"},
61 {0xe8, 4, "BFTD2"},
64 static const io_register_t sunrise_ahci_sir_registers[] = {
65 {0x80, 4, "SQUELCH"},
66 {0x90, 4, "SATA_MPHY_PG"},
67 {0xa4, 4, "OOBRETR"},
70 #define NUM_GHC (sizeof(ghc_regs)/sizeof(ghc_regs[0]))
71 #define NUM_PORTCTL (sizeof(port_ctl_regs)/sizeof(port_ctl_regs[0]))
73 static void print_port(const uint8_t *const mmio, size_t port)
75 size_t i;
76 printf("\nPort %zu Control Registers:\n", port);
77 const uint8_t *const mmio_port = mmio + 0x100 + port * 0x80;
78 for (i = 0; i < 0x80; i += 4) {
79 if (i / 4 < NUM_PORTCTL) {
80 printf("0x%03zx: 0x%08x (%s)\n",
81 (size_t)(mmio_port - mmio) + i,
82 read32(mmio_port + i), port_ctl_regs[i / 4]);
83 } else if (read32(mmio_port + i)) {
84 printf("0x%03zx: 0x%08x (Reserved)\n",
85 (size_t)(mmio_port - mmio) + i,
86 read32(mmio_port + i));
91 int print_ahci(struct pci_dev *ahci)
93 size_t ahci_registers_size = 0, i;
94 size_t ahci_cfg_registers_size = 0;
95 const io_register_t *ahci_cfg_registers;
96 size_t ahci_sir_index_offset = 0, ahci_sir_data_offset;
97 size_t ahci_sir_registers_size = 0;
98 const io_register_t *ahci_sir_registers;
100 if (!ahci) {
101 puts("No SATA device found");
102 return 0;
104 printf("\n============= AHCI Registers ==============\n\n");
106 switch (ahci->device_id) {
107 case PCI_DEVICE_ID_INTEL_SUNRISEPOINT_SATA:
108 case PCI_DEVICE_ID_INTEL_SUNRISEPOINT_LP_SATA:
109 ahci_registers_size = 0x800;
110 ahci_sir_index_offset = 0xa0;
111 ahci_cfg_registers = sunrise_ahci_cfg_registers;
112 ahci_cfg_registers_size = ARRAY_SIZE(sunrise_ahci_cfg_registers);
113 ahci_sir_registers = sunrise_ahci_sir_registers;
114 ahci_sir_registers_size = ARRAY_SIZE(sunrise_ahci_sir_registers);
115 break;
116 default:
117 ahci_registers_size = 0x400;
120 ahci_sir_data_offset = ahci_sir_index_offset + 4;
122 printf("\n============= AHCI Configuration Registers ==============\n\n");
123 for (i = 0; i < ahci_cfg_registers_size; i++) {
124 switch (ahci_cfg_registers[i].size) {
125 case 4:
126 printf("0x%04x: 0x%08x (%s)\n",
127 ahci_cfg_registers[i].addr,
128 pci_read_long(ahci, ahci_cfg_registers[i].addr),
129 ahci_cfg_registers[i].name);
130 break;
131 case 2:
132 printf("0x%04x: 0x%04x (%s)\n",
133 ahci_cfg_registers[i].addr,
134 pci_read_word(ahci, ahci_cfg_registers[i].addr),
135 ahci_cfg_registers[i].name);
136 break;
137 case 1:
138 printf("0x%04x: 0x%02x (%s)\n",
139 ahci_cfg_registers[i].addr,
140 pci_read_byte(ahci, ahci_cfg_registers[i].addr),
141 ahci_cfg_registers[i].name);
142 break;
146 printf("\n============= SATA Initialization Registers ==============\n\n");
147 for (i = 0; i < ahci_sir_registers_size; i++) {
148 pci_write_byte(ahci, ahci_sir_index_offset, ahci_sir_registers[i].addr);
149 switch (ahci_sir_registers[i].size) {
150 case 4:
151 printf("0x%02x: 0x%08x (%s)\n",
152 ahci_sir_registers[i].addr,
153 pci_read_long(ahci, ahci_sir_data_offset),
154 ahci_sir_registers[i].name);
155 break;
156 case 2:
157 printf("0x%02x: 0x%04x (%s)\n",
158 ahci_sir_registers[i].addr,
159 pci_read_word(ahci, ahci_sir_data_offset),
160 ahci_sir_registers[i].name);
161 break;
162 case 1:
163 printf("0x%02x: 0x%02x (%s)\n",
164 ahci_sir_registers[i].addr,
165 pci_read_byte(ahci, ahci_sir_data_offset),
166 ahci_sir_registers[i].name);
167 break;
171 const pciaddr_t ahci_phys = ahci->base_addr[5] & ~0x7ULL;
172 printf("\n============= ABAR ==============\n\n");
173 printf("ABAR = 0x%08llx (MEM)\n\n", (unsigned long long)ahci_phys);
174 const uint8_t *const mmio = map_physical(ahci_phys, ahci_registers_size);
175 if (mmio == NULL) {
176 perror("Error mapping MMIO");
177 exit(1);
180 puts("Generic Host Control Registers:");
181 for (i = 0; i < 0x100; i += 4) {
182 if (i / 4 < NUM_GHC) {
183 printf("0x%03zx: 0x%08x (%s)\n",
184 i, read32(mmio + i), ghc_regs[i / 4]);
185 } else if (read32(mmio + i)) {
186 printf("0x%03zx: 0x%08x (Reserved)\n", i,
187 read32(mmio + i));
191 const size_t max_ports = (ahci_registers_size - 0x100) / 0x80;
192 for (i = 0; i < max_ports; i++) {
193 if (read32(mmio + 0x0c) & 1 << i)
194 print_port(mmio, i);
197 puts("\nOther registers:");
198 for (i = 0x500; i < ahci_registers_size; i += 4) {
199 if (read32(mmio + i))
200 printf("0x%03zx: 0x%08x\n", i, read32(mmio + i));
203 unmap_physical((void *)mmio, ahci_registers_size);
204 return 0;