1 /*        $NetBSD: spr.h,v 1.7 2020/07/06 10:31:23 rin Exp $          */
2 
3 #ifndef _POWERPC_OEA_SPR_H_
4 #define   _POWERPC_OEA_SPR_H_
5 
6 #if !defined(_LOCORE) && defined(_KERNEL)
7 
8 #ifdef _KERNEL_OPT
9 #include "opt_ppcarch.h"
10 #endif
11 
12 #if defined(PPC_OEA64_BRIDGE) || defined (_ARCH_PPC64)
13 #include <powerpc/psl.h>
14 #include <powerpc/spr.h>
15 #endif
16 
17 #endif /* !_LOCORE && _KERNEL */
18 
19 /*
20  * Special Purpose Register declarations.
21  *
22  * The first column in the comments indicates which PowerPC architectures the
23  * SPR is valid on - E for BookE series, 4 for 4xx series,
24  * 6 for 6xx/7xx series and 8 for 8xx (but not most 8xxx) series.
25  */
26 
27 #define   SPR_MQ                        0x000     /* ..6. 601 MQ register */
28 #define   SPR_RTCU_R                    0x004     /* ..6. 601 RTC Upper - Read */
29 #define   SPR_RTCL_R                    0x005     /* ..6. 601 RTC Lower - Read */
30 #define   SPR_DSISR           0x012     /* ..68 DSI exception source */
31 #define     DSISR_DIRECT                  0x80000000 /* Direct-store error exception */
32 #define     DSISR_NOTFOUND      0x40000000 /* Translation not found */
33 #define     DSISR_PROTECT                 0x08000000 /* Memory access not permitted */
34 #define     DSISR_INVRX                   0x04000000 /* Reserve-indexed insn direct-store access */
35 #define     DSISR_STORE                   0x02000000 /* Store operation */
36 #define     DSISR_DABR                    0x00400000 /* DABR match */
37 #define     DSISR_SEGMENT                 0x00200000 /* XXX; not in 6xx PEM */
38 #define     DSISR_EAR                     0x00100000 /* eciwx/ecowx && EAR[E] == 0 */
39 #define   SPR_DAR                       0x013     /* ..68 Data Address Register */
40 #define   SPR_RTCU_W                    0x014     /* ..6. 601 RTC Upper - Write */
41 #define   SPR_RTCL_W                    0x015     /* ..6. 601 RTC Lower - Write */
42 #define   SPR_SDR1            0x019     /* ..68 Page table base address register */
43 #define   SPR_VRSAVE                    0x100     /* ..6. AltiVec VRSAVE */
44 #define SPR_SCOMC             0x114     /* .... SCOM Control Register (970) */
45 #define SPR_SCOMD             0x115     /* .... SCOM Data Register (970) */
46 #define  SCOM_PCR               0x0aa00100        /* Power Control Register */
47 #define  SCOM_PCR_BIT                     0x80000000        /* Data bit */
48 #define  SCOM_PSR               0x40800100        /* Power Status Register */
49 #define  PSR_RECEIVED                     (1ULL << 61)
50 #define  PSR_COMPLETED                    (1ULL << 60)
51 #define  SCOMC_READ             0x00008000
52 #define  SCOMC_WRITE                      0x00000000
53 #define   SPR_ASR                       0x118     /* ..6. Address Space Register (PPC64) */
54 #define   SPR_EAR                       0x11a     /* ..68 External Access Register */
55 #define     MPC601              0x0001
56 #define     MPC603              0x0003
57 #define     MPC604              0x0004
58 #define     MPC602              0x0005
59 #define     MPC603e             0x0006
60 #define     MPC603ev                      0x0007
61 #define     MPC750              0x0008
62 #define     MPC604e             0x0009
63 #define     MPC604ev                      0x000a
64 #define     MPC7400             0x000c
65 #define     MPC620              0x0014
66 #define   IBMRS64II             0x0033
67 #define   IBMRS64IIIp                     0x0034
68 #define   IBMPOWER4             0x0035
69 #define   IBMRS64IIIi                     0x0036
70 #define   IBMRS64IV             0x0037
71 #define   IBMPOWER4II                     0x0038
72 #define   IBM970                0x0039
73 #define   IBMPOWER5GR                     0x003a
74 #define   IBMPOWER5GS                     0x003b
75 #define   IBM970FX              0x003c
76 #define   IBMPOWER6             0x003e
77 #define   IBMPOWER3             0x0040
78 #define     IBMPOWER3II                   0x0041
79 #define   IBM970MP              0x0044
80 #define   IBM970GX              0x0045
81 #define   IBMCELL               0x0070
82 #define     MPC8240             0x0081
83 #define   PA6T                            0x0090
84 #define   IBMPOWER6P5                     0x0f00
85 #define   IBMSTB25              0x5151
86 #define     IBM750FX                      0x7000
87 #define   IBM750GX              0x7002
88 #define     MPC7450             0x8000
89 #define     MPC7455             0x8001
90 #define   MPC7457               0x8002
91 #define   MPC7447A              0x8003
92 #define   MPC7448               0x8004
93 #define MPC745X_P(v)                      ((v & 0xFFF8) == 0x8000)
94 #define     MPC7410             0x800c
95 #define     MPC5200             0x8011
96 #define   MPC8245               0x8081
97 #define   MPCG2                           0x8082
98 #define   MPCe300c1             0x8083
99 #define   MPCe300c2             0x8084
100 #define   MPCe300c3             0x8085
101 #define SPR_HIOR              0x137     /* .... HW Interrupt Offset (970) */
102 
103 #define   SPR_IBAT0U                    0x210     /* ..68 Instruction BAT Reg 0 Upper */
104 #define   SPR_IBAT0L                    0x211     /* ..6. Instruction BAT Reg 0 Lower */
105 #define   SPR_IBAT1U                    0x212     /* ..6. Instruction BAT Reg 1 Upper */
106 #define   SPR_IBAT1L                    0x213     /* ..6. Instruction BAT Reg 1 Lower */
107 #define   SPR_IBAT2U                    0x214     /* ..6. Instruction BAT Reg 2 Upper */
108 #define   SPR_IBAT2L                    0x215     /* ..6. Instruction BAT Reg 2 Lower */
109 #define   SPR_IBAT3U                    0x216     /* ..6. Instruction BAT Reg 3 Upper */
110 #define   SPR_IBAT3L                    0x217     /* ..6. Instruction BAT Reg 3 Lower */
111 #define   SPR_DBAT0U                    0x218     /* ..6. Data BAT Reg 0 Upper */
112 #define   SPR_DBAT0L                    0x219     /* ..6. Data BAT Reg 0 Lower */
113 #define   SPR_DBAT1U                    0x21a     /* ..6. Data BAT Reg 1 Upper */
114 #define   SPR_DBAT1L                    0x21b     /* ..6. Data BAT Reg 1 Lower */
115 #define   SPR_DBAT2U                    0x21c     /* ..6. Data BAT Reg 2 Upper */
116 #define   SPR_DBAT2L                    0x21d     /* ..6. Data BAT Reg 2 Lower */
117 #define   SPR_DBAT3U                    0x21e     /* ..6. Data BAT Reg 3 Upper */
118 #define   SPR_DBAT3L                    0x21f     /* ..6. Data BAT Reg 3 Lower */
119 #define   SPR_IBAT4U                    0x230     /* ..6. Instruction BAT Reg 4 Upper */
120 #define   SPR_IBAT4L                    0x231     /* ..6. Instruction BAT Reg 4 Lower */
121 #define   SPR_IBAT5U                    0x232     /* ..6. Instruction BAT Reg 5 Upper */
122 #define   SPR_IBAT5L                    0x233     /* ..6. Instruction BAT Reg 5 Lower */
123 #define   SPR_IBAT6U                    0x234     /* ..6. Instruction BAT Reg 6 Upper */
124 #define   SPR_IBAT6L                    0x235     /* ..6. Instruction BAT Reg 6 Lower */
125 #define   SPR_IBAT7U                    0x236     /* ..6. Instruction BAT Reg 7 Upper */
126 #define   SPR_IBAT7L                    0x237     /* ..6. Instruction BAT Reg 7 Lower */
127 #define   SPR_DBAT4U                    0x238     /* ..6. Data BAT Reg 4 Upper */
128 #define   SPR_DBAT4L                    0x239     /* ..6. Data BAT Reg 4 Lower */
129 #define   SPR_DBAT5U                    0x23a     /* ..6. Data BAT Reg 5 Upper */
130 #define   SPR_DBAT5L                    0x23b     /* ..6. Data BAT Reg 5 Lower */
131 #define   SPR_DBAT6U                    0x23c     /* ..6. Data BAT Reg 6 Upper */
132 #define   SPR_DBAT6L                    0x23d     /* ..6. Data BAT Reg 6 Lower */
133 #define   SPR_DBAT7U                    0x23e     /* ..6. Data BAT Reg 7 Upper */
134 #define   SPR_DBAT7L                    0x23f     /* ..6. Data BAT Reg 7 Upper */
135 #define   SPR_UMMCR2                    0x3a0     /* ..6. User Monitor Mode Control Register 2 */
136 #define   SPR_UMMCR0                    0x3a8     /* ..6. User Monitor Mode Control Register 0 */
137 #define   SPR_USIA            0x3ab     /* ..6. User Sampled Instruction Address */
138 #define   SPR_UMMCR1                    0x3ac     /* ..6. User Monitor Mode Control Register 1 */
139 #define   SPR_MMCR2           0x3b0     /* ..6. Monitor Mode Control Register 2 */
140 #define    SPR_MMCR2_THRESHMULT_32  0x80000000 /* Multiply MMCR0 threshold by 32 */
141 #define    SPR_MMCR2_THRESHMULT_2         0x00000000 /* Multiply MMCR0 threshold by 2 */
142 #define   SPR_PMC5            0x3b1     /* ..6. Performance Counter Register 5 */
143 #define   SPR_PMC6            0x3b2     /* ..6. Performance Counter Register 6 */
144 
145 #define   SPR_MMCR0           0x3b8     /* ..6. Monitor Mode Control Register 0 */
146 #define     MMCR0_FC                      0x80000000 /* Freeze counters */
147 #define     MMCR0_FCS                     0x40000000 /* Freeze counters in supervisor mode */
148 #define     MMCR0_FCP                     0x20000000 /* Freeze counters in user mode */
149 #define     MMCR0_FCM1                    0x10000000 /* Freeze counters when mark=1 */
150 #define     MMCR0_FCM0                    0x08000000 /* Freeze counters when mark=0 */
151 #define     MMCR0_PMXE                    0x04000000 /* Enable PM interrupt */
152 #define     MMCR0_FCECE                   0x02000000 /* Freeze counters after event */
153 #define     MMCR0_TBSEL_15      0x01800000 /* Count bit 15 of TBL */
154 #define     MMCR0_TBSEL_19      0x01000000 /* Count bit 19 of TBL */
155 #define     MMCR0_TBSEL_23      0x00800000 /* Count bit 23 of TBL */
156 #define     MMCR0_TBSEL_31      0x00000000 /* Count bit 31 of TBL */
157 #define     MMCR0_TBEE                    0x00400000 /* Time-base event enable */
158 #define     MMCRO_THRESHOLD(x)            ((x) << 16) /* Threshold value */
159 #define     MMCR0_PMC1CE                  0x00008000 /* PMC1 condition enable */
160 #define     MMCR0_PMCNCE                  0x00004000 /* PMCn condition enable */
161 #define     MMCR0_TRIGGER                 0x00002000 /* Trigger */
162 #define     MMCR0_PMC1SEL(x)    ((x) << 6) /* PMC1 selector */
163 #define     MMCR0_PMC2SEL(x)    ((x) << 0) /* PMC2 selector */
164 #define   SPR_PMC1            0x3b9     /* ..6. Performance Counter Register 1 */
165 #define   SPR_PMC2            0x3ba     /* ..6. Performance Counter Register 2 */
166 #define   SPR_SIA                       0x3bb     /* ..6. Sampled Instruction Address */
167 #define   SPR_MMCR1           0x3bc     /* ..6. Monitor Mode Control Register 2 */
168 #define     MMCR1_PMC3SEL(x)    ((x) << 27) /* PMC 3 selector */
169 #define     MMCR1_PMC4SEL(x)    ((x) << 22) /* PMC 4 selector */
170 #define     MMCR1_PMC5SEL(x)    ((x) << 17) /* PMC 5 selector */
171 #define     MMCR1_PMC6SEL(x)    ((x) << 11) /* PMC 6 selector */
172 
173 #define   SPR_PMC3            0x3bd     /* ..6. Performance Counter Register 3 */
174 #define   SPR_PMC4            0x3be     /* ..6. Performance Counter Register 4 */
175 #define   SPR_DMISS           0x3d0     /* ..68 Data TLB Miss Address Register */
176 #define   SPR_DCMP            0x3d1     /* ..68 Data TLB Compare Register */
177 #define   SPR_HASH1           0x3d2     /* ..68 Primary Hash Address Register */
178 #define   SPR_HASH2           0x3d3     /* ..68 Secondary Hash Address Register */
179 #define   SPR_IMISS           0x3d4     /* ..68 Instruction TLB Miss Address Register */
180 #define   SPR_TLBMISS                   0x3d4     /* ..6. TLB Miss Address Register */
181 #define   SPR_ICMP            0x3d5     /* ..68 Instruction TLB Compare Register */
182 #define   SPR_PTEHI           0x3d5     /* ..6. Instruction TLB Compare Register */
183 #define   SPR_RPA                       0x3d6     /* ..68 Required Physical Address Register */
184 #define   SPR_PTELO           0x3d6     /* ..6. Required Physical Address Register */
185 #define SPR_HID0              0x3f0     /* E.68 Hardware Implementation Register
186  0 */
187 #define SPR_HID1              0x3f1     /* E.68 Hardware Implementation Register
188  1 */
189 #define SPR_HID4              0x3f4   /* ..6. 970 HID4 */
190 #define SPR_HID5              0x3f6   /* ..6. 970 HID5 */
191 #define   SPR_DABR            0x3f5     /* ..6. Data Address Breakpoint Register */
192 #define   SPR_MSSCR0                    0x3f6     /* ..6. Memory SubSystem Control Register */
193 #define     MSSCR0_SHDEN                  0x80000000 /* 0: Shared-state enable */
194 #define     MSSCR0_SHDPEN3      0x40000000 /* 1: ~SHD[01] signal enable in MEI mode */
195 #define     MSSCR0_L1INTVEN     0x38000000 /* 2-4: L1 data cache ~HIT intervention enable */
196 #define     MSSCR0_L2INTVEN     0x07000000 /* 5-7: L2 data cache ~HIT intervention enable */
197 #define     MSSCR0_DL1HWF                 0x00800000 /* 8: L1 data cache hardware flush */
198 #define     MSSCR0_MBO                    0x00400000 /* 9: must be one */
199 #define     MSSCR0_EMODE                  0x00200000 /* 10: MPX bus mode (read-only) */
200 #define     MSSCR0_ABD                    0x00100000 /* 11: address bus driven (read-only) */
201 #define     MSSCR0_BMODE                  0x0000c000 /* 16-17: Bus Mode (read-only) (7450) */
202 #define     MSSCR0_ID                     0x00000040 /* 26: Processor ID */
203 #define     MSSCR0_L2PFE                  0x00000003 /* 30-31: L2 prefetching enabled (7450) */
204 #define   SPR_L2PM            0x3f8     /* ..6. L2 Private Memory Control Register */
205 #define   SPR_L2CR            0x3f9     /* ..6. L2 Control Register */
206 #define     L2CR_L2E                      0x80000000 /* 0: L2 enable */
207 #define     L2CR_L2PE                     0x40000000 /* 1: L2 data parity enable */
208 #define     L2CR_L2SIZ                    0x30000000 /* 2-3: L2 size */
209 #define      L2SIZ_2M                     0x00000000
210 #define      L2SIZ_256K                   0x10000000
211 #define      L2SIZ_512K                   0x20000000
212 #define      L2SIZ_1M                     0x30000000
213 #define     L2CR_L2CLK                    0x0e000000 /* 4-6: L2 clock ratio */
214 #define      L2CLK_DIS                    0x00000000 /* disable L2 clock */
215 #define      L2CLK_10                     0x02000000 /* core clock / 1   */
216 #define      L2CLK_15                     0x04000000 /*            / 1.5 */
217 #define      L2CLK_35                     0x06000000 /*            / 3.5 */
218 #define      L2CLK_20                     0x08000000 /*            / 2   */
219 #define      L2CLK_25                     0x0a000000 /*            / 2.5 */
220 #define      L2CLK_30                     0x0c000000 /*            / 3   */
221 #define      L2CLK_40                     0x0e000000 /*            / 4   */
222 #define     L2CR_L2RAM                    0x01800000 /* 7-8: L2 RAM type */
223 #define      L2RAM_FLOWTHRU_BURST         0x00000000
224 #define      L2RAM_PIPELINE_BURST         0x01000000
225 #define      L2RAM_PIPELINE_LATE          0x01800000
226 #define     L2CR_L2DO                     0x00400000 /* 9: L2 data-only.
227                                               Setting this bit disables instruction
228                                               caching. */
229 #define     L2CR_L2I                      0x00200000 /* 10: L2 global invalidate. */
230 #define     L2CR_L2CTL                    0x00100000 /* 11: L2 RAM control (ZZ enable).
231                                               Enables automatic operation of the
232                                               L2ZZ (low-power mode) signal. */
233 #define     L2CR_L2WT                     0x00080000 /* 12: L2 write-through. */
234 #define     L2CR_L2TS                     0x00040000 /* 13: L2 test support. */
235 #define     L2CR_L2OH                     0x00030000 /* 14-15: L2 output hold. */
236 #define     L2CR_L2SL                     0x00008000 /* 16: L2 DLL slow. */
237 #define     L2CR_L2DF                     0x00004000 /* 17: L2 differential clock. */
238 #define     L2CR_L2BYP                    0x00002000 /* 18: L2 DLL bypass. */
239 #define     L2CR_L2FA                     0x00001000 /* 19: L2 flush assist (for software flush). */
240 #define     L2CR_L2HWF                    0x00000800 /* 20: L2 hardware flush. */
241 #define     L2CR_L2IO                     0x00000400 /* 21: L2 instruction-only. */
242 #define     L2CR_L2CLKSTP                 0x00000200 /* 22: L2 clock stop. */
243 #define     L2CR_L2DRO                    0x00000100 /* 23: L2DLL rollover checkstop enable. */
244 #define     L2CR_L2IP                     0x00000001 /* 31: L2 global invalidate in */
245                                                        /*     progress (read only). */
246 #define   SPR_L3CR            0x3fa     /* ..6. L3 Control Register */
247 #define     L3CR_RESERVED                 0x0438003a /* Reserved bits in L3CR */
248 #define     L3CR_L3E                      0x80000000 /* 0: L3 enable */
249 #define     L3CR_L3PE                     0x40000000 /* 1: L3 data parity checking enable */
250 #define     L3CR_L3APE                    0x20000000 /* 2: L3 address parity checking enable */
251 #define     L3CR_L3SIZ                    0x10000000 /* 3: L3 size (0=1MB, 1=2MB) */
252 #define      L3SIZ_1M                     0x00000000
253 #define      L3SIZ_2M                     0x10000000
254 #define     L3CR_L3CLKEN                  0x08000000 /* 4: Enables the L3_CLK[0:1] signals */
255 #define     L3CR_L3CLK                    0x03800000 /* 6-8: L3 clock ratio */
256 #define      L3CLK_60                     0x00000000 /* core clock / 6   */
257 #define      L3CLK_20                     0x01000000 /*            / 2   */
258 #define      L3CLK_25                     0x01800000 /*            / 2.5 */
259 #define      L3CLK_30                     0x02000000 /*            / 3   */
260 #define      L3CLK_35                     0x02800000 /*            / 3.5 */
261 #define      L3CLK_40                     0x03000000 /*            / 4   */
262 #define      L3CLK_50                     0x03800000 /*            / 5   */
263 #define     L3CR_L3IO                     0x00400000 /* 9: L3 instruction-only mode */
264 #define     L3CR_L3SPO                    0x00040000 /* 13: L3 sample point override */
265 #define     L3CR_L3CKSP                   0x00030000 /* 14-15: L3 clock sample point */
266 #define      L3CKSP_2                     0x00000000 /* 2 clocks */
267 #define      L3CKSP_3                     0x00010000 /* 3 clocks */
268 #define      L3CKSP_4                     0x00020000 /* 4 clocks */
269 #define      L3CKSP_5                     0x00030000 /* 5 clocks */
270 #define     L3CR_L3PSP                    0x0000e000 /* 16-18: L3 P-clock sample point */
271 #define      L3PSP_0                      0x00000000 /* 0 clocks */
272 #define      L3PSP_1                      0x00002000 /* 1 clocks */
273 #define      L3PSP_2                      0x00004000 /* 2 clocks */
274 #define      L3PSP_3                      0x00006000 /* 3 clocks */
275 #define      L3PSP_4                      0x00008000 /* 4 clocks */
276 #define      L3PSP_5                      0x0000a000 /* 5 clocks */
277 #define     L3CR_L3REP                    0x00001000 /* 19: L3 replacement algorithm (0=default, 1=alternate) */
278 #define     L3CR_L3HWF                    0x00000800 /* 20: L3 hardware flush */
279 #define     L3CR_L3I                      0x00000400 /* 21: L3 global invalidate */
280 #define     L3CR_L3RT                     0x00000300 /* 22-23: L3 SRAM type */
281 #define      L3RT_MSUG2_DDR     0x00000000 /* MSUG2 DDR SRAM */
282 #define      L3RT_PIPELINE_LATE           0x00000100 /* Pipelined (register-register) synchronous late-write SRAM */
283 #define      L3RT_PB2_SRAM      0x00000300 /* PB2 SRAM */
284 #define     L3CR_L3NIRCA                  0x00000080 /* 24: L3 non-integer ratios clock adjustment for the SRAM */
285 #define     L3CR_L3DO                     0x00000040 /* 25: L3 data-only mode */
286 #define     L3CR_PMEN                     0x00000004 /* 29: Private memory enable */
287 #define     L3CR_PMSIZ                    0x00000004 /* 31: Private memory size (0=1MB, 1=2MB) */
288 #define SPR_ICTC              0x3fb     /* ..6. instruction cache throttling */
289 #define  ICTC_ENABLE                      0x00000001 /* enable throttling */
290 #define  ICTC_COUNT_M                     0x000001fe /* number of waits to insert */
291 #define   SPR_THRM1           0x3fc     /* ..6. Thermal Management Register */
292 #define   SPR_THRM2           0x3fd     /* ..6. Thermal Management Register */
293 #define    SPR_THRM_TIN                   0x80000000 /* Thermal interrupt bit (RO) */
294 #define    SPR_THRM_TIV                   0x40000000 /* Thermal interrupt valid (RO) */
295 #define    SPR_THRM_THRESHOLD(x)          ((x) << 23) /* Thermal sensor threshold */
296 #define    SPR_THRM_TID                   0x00000004 /* Thermal interrupt direction */
297 #define    SPR_THRM_TIE                   0x00000002 /* Thermal interrupt enable */
298 #define    SPR_THRM_VALID                 0x00000001 /* Valid bit */
299 #define   SPR_THRM3           0x3fe     /* ..6. Thermal Management Register */
300 #define    SPR_THRM_TIMER(x)    ((x) << 1) /* Sampling interval timer */
301 #define    SPR_THRM_ENABLE                0x00000001 /* TAU Enable */
302 #define   SPR_FPECR           0x3fe     /* ..6. Floating-Point Exception Cause Register */
303 #define   SPR_PIR                       0x3ff     /* ..6. Processor Identification Register */
304 
305 /* Performance counter declarations */
306 #define   PMC_OVERFLOW                  0x80000000 /* Counter has overflowed */
307 
308 /* The first five countable [non-]events are common to all the PMC's */
309 #define   PMCN_NONE            0 /* Count nothing */
310 #define   PMCN_CYCLES                    1 /* Processor cycles */
311 #define   PMCN_ICOMP                     2 /* Instructions completed */
312 #define   PMCN_TBLTRANS                  3 /* TBL bit transitions */
313 #define   PCMN_IDISPATCH                 4 /* Instructions dispatched */
314 
315 #if !defined(_LOCORE) && defined(_KERNEL)
316 
317 #if defined(PPC_OEA64_BRIDGE) || defined (_ARCH_PPC64)
318 
319 static inline uint64_t
scom_read(register_t address)320 scom_read(register_t address)
321 {
322           register_t msr;
323           uint64_t ret;
324 
325           msr = mfmsr();
326           mtmsr(msr & ~PSL_EE);
327           __asm volatile("isync;");
328 
329           mtspr(SPR_SCOMC, address | SCOMC_READ);
330           __asm volatile("isync;");
331 
332           ret = mfspr(SPR_SCOMD);
333           mtmsr(msr);
334           __asm volatile("isync;");
335 
336           return ret;
337 }
338 
339 static inline void
scom_write(register_t address,uint64_t data)340 scom_write(register_t address, uint64_t data)
341 {
342           register_t msr;
343 
344           msr = mfmsr();
345           mtmsr(msr & ~PSL_EE);
346           __asm volatile("isync;");
347 
348           mtspr(SPR_SCOMD, data);
349           __asm volatile("isync;");
350           mtspr(SPR_SCOMC, address | SCOMC_WRITE);
351           __asm volatile("isync;");
352 
353           mtmsr(msr);
354           __asm volatile("isync;");
355 }
356 
357 #endif /* defined(PPC_OEA64_BRIDGE) || defined (_ARCH_PPC64) */
358 
359 #endif /* !defined(_LOCORE) && defined(_KERNEL) */
360 
361 #endif /* !_POWERPC_SPR_H_ */
362