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wdenk9c53f402003-10-15 23:53:47 +00001/*
2 * Copyright 2003 Motorola,Inc.
3 * Xianghua Xiao(x.xiao@motorola.com)
4 */
5
6#ifndef __E500_H__
7#define __E500_H__
8
9#ifndef __ASSEMBLY__
10
11typedef struct
12{
13 unsigned long freqProcessor;
14 unsigned long freqSystemBus;
15} MPC85xx_SYS_INFO;
16
17#endif /* _ASMLANGUAGE */
18
19/* Motorola E500 core provides 16 TLB1 entries; they can be used for
20 * initial memory mapping like legacy BAT registers do. Usually we
21 * use four MAS registers(MAS0-3) to operate on TLB1 entries.
22 *
wdenk492b9e72004-08-01 23:02:45 +000023 * While there are 16 Entries with variable Page Sizes in TLB1,
24 * there are also 256 Entries with fixed 4K pages in TLB0.
25 *
wdenk9c53f402003-10-15 23:53:47 +000026 * We also need LAWs(Local Access Window) to associate a range of
27 * the local 32-bit address space with a particular target interface
28 * such as PCI/PCI-X, RapidIO, Local Bus and DDR SDRAM.
29 *
30 * We put TLB1/LAW code here because memory mapping is board-specific
31 * instead of cpu-specific.
wdenk492b9e72004-08-01 23:02:45 +000032 *
33 * While these macros are all nominally for TLB1 by name, they can
34 * also be used for TLB0 as well.
35 */
36
37
38/*
39 * Convert addresses to Effective and Real Page Numbers.
40 * Grab the high 20-bits and shift 'em down, dropping the "byte offset".
wdenk9c53f402003-10-15 23:53:47 +000041 */
wdenk492b9e72004-08-01 23:02:45 +000042#define E500_TLB_EPN(addr) (((addr) >> 12) & 0xfffff)
43#define E500_TLB_RPN(addr) (((addr) >> 12) & 0xfffff)
44
wdenk9c53f402003-10-15 23:53:47 +000045
46/* MAS0
47 * tlbsel(TLB Select):0,1
48 * esel(Entry Select): 0,1,2,...,15 for TLB1
49 * nv(Next victim):0,1
50 */
51#define TLB1_MAS0(tlbsel,esel,nv) \
52 ((((tlbsel) << 28) & MAS0_TLBSEL) |\
53 (((esel) << 16) & MAS0_ESEL ) |\
54 (nv) )
55
56
57/* MAS1
58 * v(TLB valid bit):0,1
59 * iprot(invalidate protect):0,1
60 * tid(translation identity):8bit to match process IDs
61 * ts(translation space,comparing with MSR[IS,DS]): 0,1
62 * tsize(translation size):1,2,...,9(4K,16K,64K,256K,1M,4M,16M,64M,256M)
63 */
64#define TLB1_MAS1(v,iprot,tid,ts,tsize) \
65 ((((v) << 31) & MAS1_VALID) |\
66 (((iprot) << 30) & MAS1_IPROT) |\
67 (((tid) << 16) & MAS1_TID) |\
68 (((ts) << 12) & MAS1_TS) |\
69 (((tsize) << 8) & MAS1_TSIZE) )
70
71
72/* MAS2
73 * epn(effective page number):20bits
74 * sharen(Shared cache state):0,1
75 * x0,x1(implementation specific page attribute):0,1
76 * w,i,m,g,e(write-through,cache-inhibited,memory coherency,guarded,
77 * endianness):0,1
78 */
79#define TLB1_MAS2(epn,sharen,x0,x1,w,i,m,g,e) \
80 ((((epn) << 12) & MAS2_EPN) |\
81 (((sharen) << 9) & MAS2_SHAREN) |\
82 (((x0) << 6) & MAS2_X0) |\
83 (((x1) << 5) & MAS2_X1) |\
84 (((w) << 4) & MAS2_W) |\
85 (((i) << 3) & MAS2_I) |\
86 (((m) << 2) & MAS2_M) |\
87 (((g) << 1) & MAS2_G) |\
88 (e) )
89
90
91/* MAS3
92 * rpn(real page number):20bits
93 * u0-u3(user bits, useful for page table management in OS):0,1
94 * ux,sx,uw,sw,ur,sr(permission bits, user and supervisor read,
95 * write,execute permission).
96 */
97#define TLB1_MAS3(rpn,u0,u1,u2,u3,ux,sx,uw,sw,ur,sr) \
98 ((((rpn) << 12) & MAS3_RPN) |\
99 (((u0) << 9) & MAS3_U0) |\
100 (((u1) << 8) & MAS3_U1) |\
101 (((u2) << 7) & MAS3_U2) |\
102 (((u3) << 6) & MAS3_U3) |\
103 (((ux) << 5) & MAS3_UX) |\
104 (((sx) << 4) & MAS3_SX) |\
105 (((uw) << 3) & MAS3_UW) |\
106 (((sw) << 2) & MAS3_SW) |\
107 (((ur) << 1) & MAS3_UR) |\
108 (sr) )
109
110
111#define RESET_VECTOR 0xfffffffc
112#define CACHELINE_MASK (CFG_CACHELINE_SIZE - 1) /* Address mask for cache
113 line aligned data. */
114
115#endif /* __E500_H__ */