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TOMOYO Linux Cross Reference
Linux/arch/powerpc/include/asm/xive-regs.h

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Diff markup

Differences between /arch/powerpc/include/asm/xive-regs.h (Version linux-6.12-rc7) and /arch/i386/include/asm-i386/xive-regs.h (Version linux-5.17.15)


  1 /* SPDX-License-Identifier: GPL-2.0-or-later *      1 
  2 /*                                                
  3  * Copyright 2016,2017 IBM Corporation.           
  4  */                                               
  5 #ifndef _ASM_POWERPC_XIVE_REGS_H                  
  6 #define _ASM_POWERPC_XIVE_REGS_H                  
  7                                                   
  8 /*                                                
  9  * "magic" Event State Buffer (ESB) MMIO offse    
 10  *                                                
 11  * Each interrupt source has a 2-bit state mac    
 12  * which can be controlled by MMIO. It's made     
 13  * Q. P indicates that an interrupt is pending    
 14  * to a queue and is waiting for an EOI). Q in    
 15  * interrupt has been triggered while pending.    
 16  *                                                
 17  * This acts as a coalescing mechanism in orde    
 18  * that a given interrupt only occurs at most     
 19  *                                                
 20  * When doing an EOI, the Q bit will indicate     
 21  * needs to be re-triggered.                      
 22  *                                                
 23  * The following offsets into the ESB MMIO all    
 24  * manipulate the PQ bits. They must be used w    
 25  * load instruction. They all return the previ    
 26  * interrupt (atomically).                        
 27  *                                                
 28  * Additionally, some ESB pages support doing     
 29  * store at 0 and some ESBs support doing a tr    
 30  * separate trigger page.                         
 31  */                                               
 32 #define XIVE_ESB_STORE_EOI      0x400 /* Store    
 33 #define XIVE_ESB_LOAD_EOI       0x000 /* Load     
 34 #define XIVE_ESB_GET            0x800 /* Load     
 35 #define XIVE_ESB_SET_PQ_00      0xc00 /* Load     
 36 #define XIVE_ESB_SET_PQ_01      0xd00 /* Load     
 37 #define XIVE_ESB_SET_PQ_10      0xe00 /* Load     
 38 #define XIVE_ESB_SET_PQ_11      0xf00 /* Load     
 39                                                   
 40 /*                                                
 41  * Load-after-store ordering                      
 42  *                                                
 43  * Adding this offset to the load address will    
 44  * load-after-store ordering. This is required    
 45  */                                               
 46 #define XIVE_ESB_LD_ST_MO       0x40 /* Load-a    
 47                                                   
 48 #define XIVE_ESB_VAL_P          0x2               
 49 #define XIVE_ESB_VAL_Q          0x1               
 50 #define XIVE_ESB_INVALID        0xFF              
 51                                                   
 52 /*                                                
 53  * Thread Management (aka "TM") registers         
 54  */                                               
 55                                                   
 56 /* TM register offsets */                         
 57 #define TM_QW0_USER             0x000 /* All r    
 58 #define TM_QW1_OS               0x010 /* Ring     
 59 #define TM_QW2_HV_POOL          0x020 /* Ring     
 60 #define TM_QW3_HV_PHYS          0x030 /* Ring     
 61                                                   
 62 /* Byte offsets inside a QW             QW0 QW    
 63 #define TM_NSR                  0x0  /*  +   +    
 64 #define TM_CPPR                 0x1  /*  -   +    
 65 #define TM_IPB                  0x2  /*  -   +    
 66 #define TM_LSMFB                0x3  /*  -   +    
 67 #define TM_ACK_CNT              0x4  /*  -   +    
 68 #define TM_INC                  0x5  /*  -   +    
 69 #define TM_AGE                  0x6  /*  -   +    
 70 #define TM_PIPR                 0x7  /*  -   +    
 71                                                   
 72 #define TM_WORD0                0x0               
 73 #define TM_WORD1                0x4               
 74                                                   
 75 /*                                                
 76  * QW word 2 contains the valid bit at the top    
 77  * depending on the QW.                           
 78  */                                               
 79 #define TM_WORD2                0x8               
 80 #define   TM_QW0W2_VU           PPC_BIT32(0)      
 81 #define   TM_QW0W2_LOGIC_SERV   PPC_BITMASK32(    
 82 #define   TM_QW1W2_VO           PPC_BIT32(0)      
 83 #define   TM_QW1W2_HO           PPC_BIT32(1) /    
 84 #define   TM_QW1W2_OS_CAM       PPC_BITMASK32(    
 85 #define   TM_QW2W2_VP           PPC_BIT32(0)      
 86 #define   TM_QW2W2_HP           PPC_BIT32(1) /    
 87 #define   TM_QW2W2_POOL_CAM     PPC_BITMASK32(    
 88 #define   TM_QW3W2_VT           PPC_BIT32(0)      
 89 #define   TM_QW3W2_HT           PPC_BIT32(1) /    
 90 #define   TM_QW3W2_LP           PPC_BIT32(6)      
 91 #define   TM_QW3W2_LE           PPC_BIT32(7)      
 92 #define   TM_QW3W2_T            PPC_BIT32(31)     
 93                                                   
 94 /*                                                
 95  * In addition to normal loads to "peek" and w    
 96  * using 4 and 8 bytes accesses, the above reg    
 97  * "special" byte operations:                     
 98  *                                                
 99  *   - Byte load from QW0[NSR] - User level NS    
100  *   - Byte store to QW0[NSR] - User level NSR    
101  *   - Byte load/store to QW1[CPPR] and QW3[CP    
102  *   - Byte load from QW3[TM_WORD2] - Read VT|    
103  *                                    otherwis    
104  *   - Byte store to QW3[TM_WORD2] - Set VT bi    
105  *                                                
106  * Then we have all these "special" CI ops at     
107  * all sorts of side effects:                     
108  */                                               
109 #define TM_SPC_ACK_EBB          0x800   /* Loa    
110 #define TM_SPC_ACK_OS_REG       0x810   /* Loa    
111 #define TM_SPC_PUSH_USR_CTX     0x808   /* Sto    
112 #define TM_SPC_PULL_USR_CTX     0x808   /* Loa    
113 #define TM_SPC_SET_OS_PENDING   0x812   /* Sto    
114 #define TM_SPC_PULL_OS_CTX      0x818   /* Loa    
115 #define TM_SPC_PULL_POOL_CTX    0x828   /* Loa    
116 #define TM_SPC_ACK_HV_REG       0x830   /* Loa    
117 #define TM_SPC_PULL_USR_CTX_OL  0xc08   /* Sto    
118 #define TM_SPC_ACK_OS_EL        0xc10   /* Sto    
119 #define TM_SPC_ACK_HV_POOL_EL   0xc20   /* Sto    
120 #define TM_SPC_ACK_HV_EL        0xc30   /* Sto    
121 /* XXX more... */                                 
122                                                   
123 /* NSR fields for the various QW ack types */     
124 #define TM_QW0_NSR_EB           PPC_BIT8(0)       
125 #define TM_QW1_NSR_EO           PPC_BIT8(0)       
126 #define TM_QW3_NSR_HE           PPC_BITMASK8(0    
127 #define  TM_QW3_NSR_HE_NONE     0                 
128 #define  TM_QW3_NSR_HE_POOL     1                 
129 #define  TM_QW3_NSR_HE_PHYS     2                 
130 #define  TM_QW3_NSR_HE_LSI      3                 
131 #define TM_QW3_NSR_I            PPC_BIT8(2)       
132 #define TM_QW3_NSR_GRP_LVL      PPC_BIT8(3,7)     
133                                                   
134 #endif /* _ASM_POWERPC_XIVE_REGS_H */             
135                                                   

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