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1 /* SPDX-License-Identifier: GPL-2.0-or-later */
2 /*
3  * utils.h: Utilities for SPU-side of the context switch operation.
4  *
5  * (C) Copyright IBM 2005
6  */
7 
8 #ifndef _SPU_CONTEXT_UTILS_H_
9 #define _SPU_CONTEXT_UTILS_H_
10 
11 /*
12  * 64-bit safe EA.
13  */
14 typedef union {
15 	unsigned long long ull;
16 	unsigned int ui[2];
17 } addr64;
18 
19 /*
20  * 128-bit register template.
21  */
22 typedef union {
23 	unsigned int slot[4];
24 	vector unsigned int v;
25 } spu_reg128v;
26 
27 /*
28  * DMA list structure.
29  */
30 struct dma_list_elem {
31 	unsigned int size;
32 	unsigned int ea_low;
33 };
34 
35 /*
36  * Declare storage for 8-byte aligned DMA list.
37  */
38 struct dma_list_elem dma_list[15] __attribute__ ((aligned(8)));
39 
40 /*
41  * External definition for storage
42  * declared in crt0.
43  */
44 extern spu_reg128v regs_spill[NR_SPU_SPILL_REGS];
45 
46 /*
47  * Compute LSCSA byte offset for a given field.
48  */
49 static struct spu_lscsa *dummy = (struct spu_lscsa *)0;
50 #define LSCSA_BYTE_OFFSET(_field)  \
51 	((char *)(&(dummy->_field)) - (char *)(&(dummy->gprs[0].slot[0])))
52 #define LSCSA_QW_OFFSET(_field)  (LSCSA_BYTE_OFFSET(_field) >> 4)
53 
set_event_mask(void)54 static inline void set_event_mask(void)
55 {
56 	unsigned int event_mask = 0;
57 
58 	/* Save, Step 4:
59 	 * Restore, Step 1:
60 	 *    Set the SPU_RdEventMsk channel to zero to mask
61 	 *    all events.
62 	 */
63 	spu_writech(SPU_WrEventMask, event_mask);
64 }
65 
set_tag_mask(void)66 static inline void set_tag_mask(void)
67 {
68 	unsigned int tag_mask = 1;
69 
70 	/* Save, Step 5:
71 	 * Restore, Step 2:
72 	 *    Set the SPU_WrTagMsk channel to '01' to unmask
73 	 *    only tag group 0.
74 	 */
75 	spu_writech(MFC_WrTagMask, tag_mask);
76 }
77 
build_dma_list(addr64 lscsa_ea)78 static inline void build_dma_list(addr64 lscsa_ea)
79 {
80 	unsigned int ea_low;
81 	int i;
82 
83 	/* Save, Step 6:
84 	 * Restore, Step 3:
85 	 *    Update the effective address for the CSA in the
86 	 *    pre-canned DMA-list in local storage.
87 	 */
88 	ea_low = lscsa_ea.ui[1];
89 	ea_low += LSCSA_BYTE_OFFSET(ls[16384]);
90 
91 	for (i = 0; i < 15; i++, ea_low += 16384) {
92 		dma_list[i].size = 16384;
93 		dma_list[i].ea_low = ea_low;
94 	}
95 }
96 
enqueue_putllc(addr64 lscsa_ea)97 static inline void enqueue_putllc(addr64 lscsa_ea)
98 {
99 	unsigned int ls = 0;
100 	unsigned int size = 128;
101 	unsigned int tag_id = 0;
102 	unsigned int cmd = 0xB4;	/* PUTLLC */
103 
104 	/* Save, Step 12:
105 	 * Restore, Step 7:
106 	 *    Send a PUTLLC (tag 0) command to the MFC using
107 	 *    an effective address in the CSA in order to
108 	 *    remove any possible lock-line reservation.
109 	 */
110 	spu_writech(MFC_LSA, ls);
111 	spu_writech(MFC_EAH, lscsa_ea.ui[0]);
112 	spu_writech(MFC_EAL, lscsa_ea.ui[1]);
113 	spu_writech(MFC_Size, size);
114 	spu_writech(MFC_TagID, tag_id);
115 	spu_writech(MFC_Cmd, cmd);
116 }
117 
set_tag_update(void)118 static inline void set_tag_update(void)
119 {
120 	unsigned int update_any = 1;
121 
122 	/* Save, Step 15:
123 	 * Restore, Step 8:
124 	 *    Write the MFC_TagUpdate channel with '01'.
125 	 */
126 	spu_writech(MFC_WrTagUpdate, update_any);
127 }
128 
read_tag_status(void)129 static inline void read_tag_status(void)
130 {
131 	/* Save, Step 16:
132 	 * Restore, Step 9:
133 	 *    Read the MFC_TagStat channel data.
134 	 */
135 	spu_readch(MFC_RdTagStat);
136 }
137 
read_llar_status(void)138 static inline void read_llar_status(void)
139 {
140 	/* Save, Step 17:
141 	 * Restore, Step 10:
142 	 *    Read the MFC_AtomicStat channel data.
143 	 */
144 	spu_readch(MFC_RdAtomicStat);
145 }
146 
147 #endif				/* _SPU_CONTEXT_UTILS_H_ */
148