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pc: acpi: consolidate legacy CPU hotplug in one file
[qemu.git] / pc-bios / s390-ccw / scsi.h
blobfc830f7e52abbbc3c993764c1863c03c5e454dc6
1 /*
2 * SCSI definitions for s390 machine loader for qemu
3 *
4 * Copyright 2015 IBM Corp.
5 * Author: Eugene "jno" Dvurechenski <jno@linux.vnet.ibm.com>
6 *
7 * This work is licensed under the terms of the GNU GPL, version 2 or (at
8 * your option) any later version. See the COPYING file in the top-level
9 * directory.
10 */
11
12 #ifndef SCSI_H
13 #define SCSI_H
14
15 #include "s390-ccw.h"
16
17 #define SCSI_DEFAULT_CDB_SIZE 32
18 #define SCSI_DEFAULT_SENSE_SIZE 96
19
20 #define CDB_STATUS_GOOD 0
21 #define CDB_STATUS_CHECK_CONDITION 0x02U
22 #define CDB_STATUS_VALID(status) (((status) & ~0x3eU) == 0)
23
24 #define SCSI_SENSE_CODE_MASK 0x7fU
25 #define SCSI_SENSE_KEY_MASK 0x0fU
26 #define SCSI_SENSE_KEY_NO_SENSE 0
27 #define SCSI_SENSE_KEY_UNIT_ATTENTION 6
28
29 union ScsiLun {
30 uint64_t v64; /* numeric shortcut */
31 uint8_t v8[8]; /* generic 8 bytes representation */
32 uint16_t v16[4]; /* 4-level big-endian LUN as specified by SAM-2 */
33 };
34 typedef union ScsiLun ScsiLun;
35
36 struct ScsiSense70 {
37 uint8_t b0; /* b0 & 7f = resp code (0x70 or 0x71) */
38 uint8_t b1, b2; /* b2 & 0f = sense key */
39 uint8_t u1[1 * 4 + 1 + 1 * 4]; /* b7 = N - 7 */
40 uint8_t additional_sense_code; /* b12 */
41 uint8_t additional_sense_code_qualifier; /* b13 */
42 uint8_t u2[1 + 3 + 0]; /* up to N (<=252) bytes */
43 } __attribute__((packed));
44 typedef struct ScsiSense70 ScsiSense70;
45
46 /* don't confuse with virtio-scsi response/status fields! */
47
48 static inline uint8_t scsi_sense_response(const void *p)
49 {
50 return ((const ScsiSense70 *)p)->b0 & SCSI_SENSE_CODE_MASK;
51 }
52
53 static inline uint8_t scsi_sense_key(const void *p)
54 {
55 return ((const ScsiSense70 *)p)->b2 & SCSI_SENSE_KEY_MASK;
56 }
57
58 #define SCSI_INQ_RDT_CDROM 0x05
59
60 struct ScsiInquiryStd {
61 uint8_t peripheral_qdt; /* b0, use (b0 & 0x1f) to get SCSI_INQ_RDT */
62 uint8_t b1; /* Removable Media Bit = b1 & 0x80 */
63 uint8_t spc_version; /* b2 */
64 uint8_t b3; /* b3 & 0x0f == resp_data_fmt == 2, must! */
65 uint8_t u1[1 + 1 + 1 + 1 + 8]; /* b4..b15 unused, b4 = (N - 1) */
66 char prod_id[16]; /* "QEMU CD-ROM" is here */
67 uint8_t u2[4 /* b32..b35 unused, mandatory */
68 + 8 + 12 + 1 + 1 + 8 * 2 + 22 /* b36..95 unused, optional*/
69 + 0]; /* b96..bN unused, vendor specific */
70 /* byte N */
71 } __attribute__((packed));
72 typedef struct ScsiInquiryStd ScsiInquiryStd;
73
74 struct ScsiCdbInquiry {
75 uint8_t command; /* b0, == 0x12 */
76 uint8_t b1; /* b1, |= 0x01 (evpd) */
77 uint8_t b2; /* b2; if evpd==1 */
78 uint16_t alloc_len; /* b3, b4 */
79 uint8_t control; /* b5 */
80 } __attribute__((packed));
81 typedef struct ScsiCdbInquiry ScsiCdbInquiry;
82
83 struct ScsiCdbRead10 {
84 uint8_t command; /* =0x28 */
85 uint8_t b1;
86 uint32_t lba;
87 uint8_t b6;
88 uint16_t xfer_length;
89 uint8_t control;
90 } __attribute__((packed));
91 typedef struct ScsiCdbRead10 ScsiCdbRead10;
92
93 struct ScsiCdbTestUnitReady {
94 uint8_t command; /* =0x00 */
95 uint8_t b1_b4[4];
96 uint8_t control;
97 } __attribute__((packed));
98 typedef struct ScsiCdbTestUnitReady ScsiCdbTestUnitReady;
99
100 struct ScsiCdbReportLuns {
101 uint8_t command; /* =0xa0 */
102 uint8_t b1;
103 uint8_t select_report; /* =0x02, "all" */
104 uint8_t b3_b5[3];
105 uint32_t alloc_len;
106 uint8_t b10;
107 uint8_t control;
108 } __attribute__((packed));
109 typedef struct ScsiCdbReportLuns ScsiCdbReportLuns;
110
111 struct ScsiLunReport {
112 uint32_t lun_list_len;
113 uint32_t b4_b7;
114 ScsiLun lun[1]; /* space for at least 1 lun must be allocated */
115 } __attribute__((packed));
116 typedef struct ScsiLunReport ScsiLunReport;
117
118 struct ScsiCdbReadCapacity16 {
119 uint8_t command; /* =0x9e = "service action in 16" */
120 uint8_t service_action; /* 5 bits, =0x10 = "read capacity 16" */
121 uint64_t b2_b9;
122 uint32_t alloc_len;
123 uint8_t b14;
124 uint8_t control;
125 } __attribute__((packed));
126 typedef struct ScsiCdbReadCapacity16 ScsiCdbReadCapacity16;
127
128 struct ScsiReadCapacity16Data {
129 uint64_t ret_lba; /* get it, 0..7 */
130 uint32_t lb_len; /* bytes, 8..11 */
131 uint8_t u1[2 + 1 * 2 + 16]; /* b12..b31, unused */
132 } __attribute__((packed));
133 typedef struct ScsiReadCapacity16Data ScsiReadCapacity16Data;
134
135 static inline ScsiLun make_lun(uint16_t channel, uint16_t target, uint32_t lun)
136 {
137 ScsiLun r = { .v64 = 0 };
138
139 /* See QEMU code to choose the way to handle LUNs.
140 *
141 * So, a valid LUN must have (always channel #0):
142 * lun[0] == 1
143 * lun[1] - target, any value
144 * lun[2] == 0 or (LUN, MSB, 0x40 set, 0x80 clear)
145 * lun[3] - LUN, LSB, any value
146 */
147 r.v8[0] = 1;
148 r.v8[1] = target & 0xffU;
149 r.v8[2] = (lun >> 8) & 0x3fU;
150 if (r.v8[2]) {
151 r.v8[2] |= 0x40;
152 }
153 r.v8[3] = lun & 0xffU;
154
155 return r;
156 }
157
158 static inline const char *scsi_cdb_status_msg(uint8_t status)
159 {
160 static char err_msg[] = "STATUS=XX";
161 uint8_t v = status & 0x3eU;
162
163 fill_hex_val(err_msg + 7, &v, 1);
164 return err_msg;
165 }
166
167 static inline const char *scsi_cdb_asc_msg(const void *s)
168 {
169 static char err_msg[] = "RSPN=XX KEY=XX CODE=XX QLFR=XX";
170 const ScsiSense70 *p = s;
171 uint8_t sr = scsi_sense_response(s);
172 uint8_t sk = scsi_sense_key(s);
173 uint8_t ac = p->additional_sense_code;
174 uint8_t cq = p->additional_sense_code_qualifier;
175
176 fill_hex_val(err_msg + 5, &sr, 1);
177 fill_hex_val(err_msg + 12, &sk, 1);
178 fill_hex_val(err_msg + 20, &ac, 1);
179 fill_hex_val(err_msg + 28, &cq, 1);
180
181 return err_msg;
182 }
183
184 #endif /* SCSI_H */
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