1*7f5df8d4SBin Meng /* 2*7f5df8d4SBin Meng * Copyright (C) 2015, Bin Meng <bmeng.cn@gmail.com> 3*7f5df8d4SBin Meng * 4*7f5df8d4SBin Meng * Adapted from coreboot src/arch/x86/include/arch/smp/mpspec.h 5*7f5df8d4SBin Meng * 6*7f5df8d4SBin Meng * SPDX-License-Identifier: GPL-2.0+ 7*7f5df8d4SBin Meng */ 8*7f5df8d4SBin Meng 9*7f5df8d4SBin Meng #ifndef __ASM_MPSPEC_H 10*7f5df8d4SBin Meng #define __ASM_MPSPEC_H 11*7f5df8d4SBin Meng 12*7f5df8d4SBin Meng /* 13*7f5df8d4SBin Meng * Structure definitions for SMP machines following the 14*7f5df8d4SBin Meng * Intel MultiProcessor Specification 1.4 15*7f5df8d4SBin Meng */ 16*7f5df8d4SBin Meng 17*7f5df8d4SBin Meng #define MPSPEC_V14 4 18*7f5df8d4SBin Meng 19*7f5df8d4SBin Meng #define MPF_SIGNATURE "_MP_" 20*7f5df8d4SBin Meng 21*7f5df8d4SBin Meng struct mp_floating_table { 22*7f5df8d4SBin Meng char mpf_signature[4]; /* "_MP_" */ 23*7f5df8d4SBin Meng u32 mpf_physptr; /* Configuration table address */ 24*7f5df8d4SBin Meng u8 mpf_length; /* Our length (paragraphs) */ 25*7f5df8d4SBin Meng u8 mpf_spec; /* Specification version */ 26*7f5df8d4SBin Meng u8 mpf_checksum; /* Checksum (makes sum 0) */ 27*7f5df8d4SBin Meng u8 mpf_feature1; /* Predefined or Unique configuration? */ 28*7f5df8d4SBin Meng u8 mpf_feature2; /* Bit7 set for IMCR/PIC */ 29*7f5df8d4SBin Meng u8 mpf_feature3; /* Unused (0) */ 30*7f5df8d4SBin Meng u8 mpf_feature4; /* Unused (0) */ 31*7f5df8d4SBin Meng u8 mpf_feature5; /* Unused (0) */ 32*7f5df8d4SBin Meng }; 33*7f5df8d4SBin Meng 34*7f5df8d4SBin Meng #define MPC_SIGNATURE "PCMP" 35*7f5df8d4SBin Meng 36*7f5df8d4SBin Meng struct mp_config_table { 37*7f5df8d4SBin Meng char mpc_signature[4]; /* "PCMP" */ 38*7f5df8d4SBin Meng u16 mpc_length; /* Size of table */ 39*7f5df8d4SBin Meng u8 mpc_spec; /* Specification version */ 40*7f5df8d4SBin Meng u8 mpc_checksum; /* Checksum (makes sum 0) */ 41*7f5df8d4SBin Meng char mpc_oem[8]; /* OEM ID */ 42*7f5df8d4SBin Meng char mpc_product[12]; /* Product ID */ 43*7f5df8d4SBin Meng u32 mpc_oemptr; /* OEM table address */ 44*7f5df8d4SBin Meng u16 mpc_oemsize; /* OEM table size */ 45*7f5df8d4SBin Meng u16 mpc_entry_count; /* Number of entries in the table */ 46*7f5df8d4SBin Meng u32 mpc_lapic; /* Local APIC address */ 47*7f5df8d4SBin Meng u16 mpe_length; /* Extended table size */ 48*7f5df8d4SBin Meng u8 mpe_checksum; /* Extended table checksum */ 49*7f5df8d4SBin Meng u8 reserved; 50*7f5df8d4SBin Meng }; 51*7f5df8d4SBin Meng 52*7f5df8d4SBin Meng /* Base MP configuration table entry types */ 53*7f5df8d4SBin Meng 54*7f5df8d4SBin Meng enum mp_base_config_entry_type { 55*7f5df8d4SBin Meng MP_PROCESSOR, 56*7f5df8d4SBin Meng MP_BUS, 57*7f5df8d4SBin Meng MP_IOAPIC, 58*7f5df8d4SBin Meng MP_INTSRC, 59*7f5df8d4SBin Meng MP_LINTSRC 60*7f5df8d4SBin Meng }; 61*7f5df8d4SBin Meng 62*7f5df8d4SBin Meng #define MPC_CPU_EN (1 << 0) 63*7f5df8d4SBin Meng #define MPC_CPU_BP (1 << 1) 64*7f5df8d4SBin Meng 65*7f5df8d4SBin Meng struct mpc_config_processor { 66*7f5df8d4SBin Meng u8 mpc_type; 67*7f5df8d4SBin Meng u8 mpc_apicid; 68*7f5df8d4SBin Meng u8 mpc_apicver; 69*7f5df8d4SBin Meng u8 mpc_cpuflag; 70*7f5df8d4SBin Meng u32 mpc_cpusignature; 71*7f5df8d4SBin Meng u32 mpc_cpufeature; 72*7f5df8d4SBin Meng u32 mpc_reserved[2]; 73*7f5df8d4SBin Meng }; 74*7f5df8d4SBin Meng 75*7f5df8d4SBin Meng #define BUSTYPE_CBUS "CBUS " 76*7f5df8d4SBin Meng #define BUSTYPE_CBUSII "CBUSII" 77*7f5df8d4SBin Meng #define BUSTYPE_EISA "EISA " 78*7f5df8d4SBin Meng #define BUSTYPE_FUTURE "FUTURE" 79*7f5df8d4SBin Meng #define BUSTYPE_INTERN "INTERN" 80*7f5df8d4SBin Meng #define BUSTYPE_ISA "ISA " 81*7f5df8d4SBin Meng #define BUSTYPE_MBI "MBI " 82*7f5df8d4SBin Meng #define BUSTYPE_MBII "MBII " 83*7f5df8d4SBin Meng #define BUSTYPE_MCA "MCA " 84*7f5df8d4SBin Meng #define BUSTYPE_MPI "MPI " 85*7f5df8d4SBin Meng #define BUSTYPE_MPSA "MPSA " 86*7f5df8d4SBin Meng #define BUSTYPE_NUBUS "NUBUS " 87*7f5df8d4SBin Meng #define BUSTYPE_PCI "PCI " 88*7f5df8d4SBin Meng #define BUSTYPE_PCMCIA "PCMCIA" 89*7f5df8d4SBin Meng #define BUSTYPE_TC "TC " 90*7f5df8d4SBin Meng #define BUSTYPE_VL "VL " 91*7f5df8d4SBin Meng #define BUSTYPE_VME "VME " 92*7f5df8d4SBin Meng #define BUSTYPE_XPRESS "XPRESS" 93*7f5df8d4SBin Meng 94*7f5df8d4SBin Meng struct mpc_config_bus { 95*7f5df8d4SBin Meng u8 mpc_type; 96*7f5df8d4SBin Meng u8 mpc_busid; 97*7f5df8d4SBin Meng u8 mpc_bustype[6]; 98*7f5df8d4SBin Meng }; 99*7f5df8d4SBin Meng 100*7f5df8d4SBin Meng #define MPC_APIC_USABLE (1 << 0) 101*7f5df8d4SBin Meng 102*7f5df8d4SBin Meng struct mpc_config_ioapic { 103*7f5df8d4SBin Meng u8 mpc_type; 104*7f5df8d4SBin Meng u8 mpc_apicid; 105*7f5df8d4SBin Meng u8 mpc_apicver; 106*7f5df8d4SBin Meng u8 mpc_flags; 107*7f5df8d4SBin Meng u32 mpc_apicaddr; 108*7f5df8d4SBin Meng }; 109*7f5df8d4SBin Meng 110*7f5df8d4SBin Meng enum mp_irq_source_types { 111*7f5df8d4SBin Meng MP_INT, 112*7f5df8d4SBin Meng MP_NMI, 113*7f5df8d4SBin Meng MP_SMI, 114*7f5df8d4SBin Meng MP_EXTINT 115*7f5df8d4SBin Meng }; 116*7f5df8d4SBin Meng 117*7f5df8d4SBin Meng #define MP_IRQ_POLARITY_DEFAULT 0x0 118*7f5df8d4SBin Meng #define MP_IRQ_POLARITY_HIGH 0x1 119*7f5df8d4SBin Meng #define MP_IRQ_POLARITY_LOW 0x3 120*7f5df8d4SBin Meng #define MP_IRQ_POLARITY_MASK 0x3 121*7f5df8d4SBin Meng #define MP_IRQ_TRIGGER_DEFAULT 0x0 122*7f5df8d4SBin Meng #define MP_IRQ_TRIGGER_EDGE 0x4 123*7f5df8d4SBin Meng #define MP_IRQ_TRIGGER_LEVEL 0xc 124*7f5df8d4SBin Meng #define MP_IRQ_TRIGGER_MASK 0xc 125*7f5df8d4SBin Meng 126*7f5df8d4SBin Meng #define MP_APIC_ALL 0xff 127*7f5df8d4SBin Meng 128*7f5df8d4SBin Meng struct mpc_config_intsrc { 129*7f5df8d4SBin Meng u8 mpc_type; 130*7f5df8d4SBin Meng u8 mpc_irqtype; 131*7f5df8d4SBin Meng u16 mpc_irqflag; 132*7f5df8d4SBin Meng u8 mpc_srcbus; 133*7f5df8d4SBin Meng u8 mpc_srcbusirq; 134*7f5df8d4SBin Meng u8 mpc_dstapic; 135*7f5df8d4SBin Meng u8 mpc_dstirq; 136*7f5df8d4SBin Meng }; 137*7f5df8d4SBin Meng 138*7f5df8d4SBin Meng struct mpc_config_lintsrc { 139*7f5df8d4SBin Meng u8 mpc_type; 140*7f5df8d4SBin Meng u8 mpc_irqtype; 141*7f5df8d4SBin Meng u16 mpc_irqflag; 142*7f5df8d4SBin Meng u8 mpc_srcbusid; 143*7f5df8d4SBin Meng u8 mpc_srcbusirq; 144*7f5df8d4SBin Meng u8 mpc_destapic; 145*7f5df8d4SBin Meng u8 mpc_destlint; 146*7f5df8d4SBin Meng }; 147*7f5df8d4SBin Meng 148*7f5df8d4SBin Meng /* Extended MP configuration table entry types */ 149*7f5df8d4SBin Meng 150*7f5df8d4SBin Meng enum mp_ext_config_entry_type { 151*7f5df8d4SBin Meng MPE_SYSTEM_ADDRESS_SPACE = 128, 152*7f5df8d4SBin Meng MPE_BUS_HIERARCHY, 153*7f5df8d4SBin Meng MPE_COMPAT_ADDRESS_SPACE 154*7f5df8d4SBin Meng }; 155*7f5df8d4SBin Meng 156*7f5df8d4SBin Meng struct mp_ext_config { 157*7f5df8d4SBin Meng u8 mpe_type; 158*7f5df8d4SBin Meng u8 mpe_length; 159*7f5df8d4SBin Meng }; 160*7f5df8d4SBin Meng 161*7f5df8d4SBin Meng #define ADDRESS_TYPE_IO 0 162*7f5df8d4SBin Meng #define ADDRESS_TYPE_MEM 1 163*7f5df8d4SBin Meng #define ADDRESS_TYPE_PREFETCH 2 164*7f5df8d4SBin Meng 165*7f5df8d4SBin Meng struct mp_ext_system_address_space { 166*7f5df8d4SBin Meng u8 mpe_type; 167*7f5df8d4SBin Meng u8 mpe_length; 168*7f5df8d4SBin Meng u8 mpe_busid; 169*7f5df8d4SBin Meng u8 mpe_addr_type; 170*7f5df8d4SBin Meng u32 mpe_addr_base_low; 171*7f5df8d4SBin Meng u32 mpe_addr_base_high; 172*7f5df8d4SBin Meng u32 mpe_addr_length_low; 173*7f5df8d4SBin Meng u32 mpe_addr_length_high; 174*7f5df8d4SBin Meng }; 175*7f5df8d4SBin Meng 176*7f5df8d4SBin Meng #define BUS_SUBTRACTIVE_DECODE (1 << 0) 177*7f5df8d4SBin Meng 178*7f5df8d4SBin Meng struct mp_ext_bus_hierarchy { 179*7f5df8d4SBin Meng u8 mpe_type; 180*7f5df8d4SBin Meng u8 mpe_length; 181*7f5df8d4SBin Meng u8 mpe_busid; 182*7f5df8d4SBin Meng u8 mpe_bus_info; 183*7f5df8d4SBin Meng u8 mpe_parent_busid; 184*7f5df8d4SBin Meng u8 reserved[3]; 185*7f5df8d4SBin Meng }; 186*7f5df8d4SBin Meng 187*7f5df8d4SBin Meng #define ADDRESS_RANGE_ADD 0 188*7f5df8d4SBin Meng #define ADDRESS_RANGE_SUBTRACT 1 189*7f5df8d4SBin Meng 190*7f5df8d4SBin Meng /* 191*7f5df8d4SBin Meng * X100 - X3FF 192*7f5df8d4SBin Meng * X500 - X7FF 193*7f5df8d4SBin Meng * X900 - XBFF 194*7f5df8d4SBin Meng * XD00 - XFFF 195*7f5df8d4SBin Meng */ 196*7f5df8d4SBin Meng #define RANGE_LIST_IO_ISA 0 197*7f5df8d4SBin Meng /* 198*7f5df8d4SBin Meng * X3B0 - X3BB 199*7f5df8d4SBin Meng * X3C0 - X3DF 200*7f5df8d4SBin Meng * X7B0 - X7BB 201*7f5df8d4SBin Meng * X7C0 - X7DF 202*7f5df8d4SBin Meng * XBB0 - XBBB 203*7f5df8d4SBin Meng * XBC0 - XBDF 204*7f5df8d4SBin Meng * XFB0 - XFBB 205*7f5df8d4SBin Meng * XFC0 - XCDF 206*7f5df8d4SBin Meng */ 207*7f5df8d4SBin Meng #define RANGE_LIST_IO_VGA 1 208*7f5df8d4SBin Meng 209*7f5df8d4SBin Meng struct mp_ext_compat_address_space { 210*7f5df8d4SBin Meng u8 mpe_type; 211*7f5df8d4SBin Meng u8 mpe_length; 212*7f5df8d4SBin Meng u8 mpe_busid; 213*7f5df8d4SBin Meng u8 mpe_addr_modifier; 214*7f5df8d4SBin Meng u32 mpe_range_list; 215*7f5df8d4SBin Meng }; 216*7f5df8d4SBin Meng 217*7f5df8d4SBin Meng /** 218*7f5df8d4SBin Meng * mp_next_mpc_entry() - Compute MP configuration table end to be used as 219*7f5df8d4SBin Meng * next base table entry start address 220*7f5df8d4SBin Meng * 221*7f5df8d4SBin Meng * This computes the end address of current MP configuration table, without 222*7f5df8d4SBin Meng * counting any extended configuration table entry. 223*7f5df8d4SBin Meng * 224*7f5df8d4SBin Meng * @mc: configuration table header address 225*7f5df8d4SBin Meng * @return: configuration table end address 226*7f5df8d4SBin Meng */ 227*7f5df8d4SBin Meng static inline u32 mp_next_mpc_entry(struct mp_config_table *mc) 228*7f5df8d4SBin Meng { 229*7f5df8d4SBin Meng return (u32)mc + mc->mpc_length; 230*7f5df8d4SBin Meng } 231*7f5df8d4SBin Meng 232*7f5df8d4SBin Meng /** 233*7f5df8d4SBin Meng * mp_add_mpc_entry() - Add a base MP configuration table entry 234*7f5df8d4SBin Meng * 235*7f5df8d4SBin Meng * This adds the base MP configuration table entry size with 236*7f5df8d4SBin Meng * added base table entry length and increases entry count by 1. 237*7f5df8d4SBin Meng * 238*7f5df8d4SBin Meng * @mc: configuration table header address 239*7f5df8d4SBin Meng * @length: length of the added table entry 240*7f5df8d4SBin Meng */ 241*7f5df8d4SBin Meng static inline void mp_add_mpc_entry(struct mp_config_table *mc, uint length) 242*7f5df8d4SBin Meng { 243*7f5df8d4SBin Meng mc->mpc_length += length; 244*7f5df8d4SBin Meng mc->mpc_entry_count++; 245*7f5df8d4SBin Meng } 246*7f5df8d4SBin Meng 247*7f5df8d4SBin Meng /** 248*7f5df8d4SBin Meng * mp_next_mpe_entry() - Compute MP configuration table end to be used as 249*7f5df8d4SBin Meng * next extended table entry start address 250*7f5df8d4SBin Meng * 251*7f5df8d4SBin Meng * This computes the end address of current MP configuration table, 252*7f5df8d4SBin Meng * including any extended configuration table entry. 253*7f5df8d4SBin Meng * 254*7f5df8d4SBin Meng * @mc: configuration table header address 255*7f5df8d4SBin Meng * @return: configuration table end address 256*7f5df8d4SBin Meng */ 257*7f5df8d4SBin Meng static inline u32 mp_next_mpe_entry(struct mp_config_table *mc) 258*7f5df8d4SBin Meng { 259*7f5df8d4SBin Meng return (u32)mc + mc->mpc_length + mc->mpe_length; 260*7f5df8d4SBin Meng } 261*7f5df8d4SBin Meng 262*7f5df8d4SBin Meng /** 263*7f5df8d4SBin Meng * mp_add_mpe_entry() - Add an extended MP configuration table entry 264*7f5df8d4SBin Meng * 265*7f5df8d4SBin Meng * This adds the extended MP configuration table entry size with 266*7f5df8d4SBin Meng * added extended table entry length. 267*7f5df8d4SBin Meng * 268*7f5df8d4SBin Meng * @mc: configuration table header address 269*7f5df8d4SBin Meng * @mpe: extended table entry base address 270*7f5df8d4SBin Meng */ 271*7f5df8d4SBin Meng static inline void mp_add_mpe_entry(struct mp_config_table *mc, 272*7f5df8d4SBin Meng struct mp_ext_config *mpe) 273*7f5df8d4SBin Meng { 274*7f5df8d4SBin Meng mc->mpe_length += mpe->mpe_length; 275*7f5df8d4SBin Meng } 276*7f5df8d4SBin Meng 277*7f5df8d4SBin Meng /** 278*7f5df8d4SBin Meng * mp_write_floating_table() - Write the MP floating table 279*7f5df8d4SBin Meng * 280*7f5df8d4SBin Meng * This writes the MP floating table, and points MP configuration table 281*7f5df8d4SBin Meng * to its end address so that MP configuration table follows immediately 282*7f5df8d4SBin Meng * after the floating table. 283*7f5df8d4SBin Meng * 284*7f5df8d4SBin Meng * @mf: MP floating table base address 285*7f5df8d4SBin Meng * @return: MP configuration table header address 286*7f5df8d4SBin Meng */ 287*7f5df8d4SBin Meng struct mp_config_table *mp_write_floating_table(struct mp_floating_table *mf); 288*7f5df8d4SBin Meng 289*7f5df8d4SBin Meng /** 290*7f5df8d4SBin Meng * mp_config_table_init() - Initialize the MP configuration table header 291*7f5df8d4SBin Meng * 292*7f5df8d4SBin Meng * This populates the MP configuration table header with valid bits. 293*7f5df8d4SBin Meng * 294*7f5df8d4SBin Meng * @mc: MP configuration table header address 295*7f5df8d4SBin Meng */ 296*7f5df8d4SBin Meng void mp_config_table_init(struct mp_config_table *mc); 297*7f5df8d4SBin Meng 298*7f5df8d4SBin Meng /** 299*7f5df8d4SBin Meng * mp_write_processor() - Write a processor entry 300*7f5df8d4SBin Meng * 301*7f5df8d4SBin Meng * This writes a processor entry to the configuration table. 302*7f5df8d4SBin Meng * 303*7f5df8d4SBin Meng * @mc: MP configuration table header address 304*7f5df8d4SBin Meng */ 305*7f5df8d4SBin Meng void mp_write_processor(struct mp_config_table *mc); 306*7f5df8d4SBin Meng 307*7f5df8d4SBin Meng /** 308*7f5df8d4SBin Meng * mp_write_bus() - Write a bus entry 309*7f5df8d4SBin Meng * 310*7f5df8d4SBin Meng * This writes a bus entry to the configuration table. 311*7f5df8d4SBin Meng * 312*7f5df8d4SBin Meng * @mc: MP configuration table header address 313*7f5df8d4SBin Meng * @id: bus id 314*7f5df8d4SBin Meng * @bustype: bus type name 315*7f5df8d4SBin Meng */ 316*7f5df8d4SBin Meng void mp_write_bus(struct mp_config_table *mc, int id, const char *bustype); 317*7f5df8d4SBin Meng 318*7f5df8d4SBin Meng /** 319*7f5df8d4SBin Meng * mp_write_ioapic() - Write an I/O APIC entry 320*7f5df8d4SBin Meng * 321*7f5df8d4SBin Meng * This writes an I/O APIC entry to the configuration table. 322*7f5df8d4SBin Meng * 323*7f5df8d4SBin Meng * @mc: MP configuration table header address 324*7f5df8d4SBin Meng * @id: I/O APIC id 325*7f5df8d4SBin Meng * @ver: I/O APIC version 326*7f5df8d4SBin Meng * @apicaddr: I/O APIC address 327*7f5df8d4SBin Meng */ 328*7f5df8d4SBin Meng void mp_write_ioapic(struct mp_config_table *mc, int id, int ver, u32 apicaddr); 329*7f5df8d4SBin Meng 330*7f5df8d4SBin Meng /** 331*7f5df8d4SBin Meng * mp_write_intsrc() - Write an I/O interrupt assignment entry 332*7f5df8d4SBin Meng * 333*7f5df8d4SBin Meng * This writes an I/O interrupt assignment entry to the configuration table. 334*7f5df8d4SBin Meng * 335*7f5df8d4SBin Meng * @mc: MP configuration table header address 336*7f5df8d4SBin Meng * @irqtype: IRQ type (INT/NMI/SMI/ExtINT) 337*7f5df8d4SBin Meng * @irqflag: IRQ flag (level/trigger) 338*7f5df8d4SBin Meng * @srcbus: source bus id where the interrupt comes from 339*7f5df8d4SBin Meng * @srcbusirq: IRQ number mapped on the source bus 340*7f5df8d4SBin Meng * @dstapic: destination I/O APIC id where the interrupt goes to 341*7f5df8d4SBin Meng * @dstirq: destination I/O APIC pin where the interrupt goes to 342*7f5df8d4SBin Meng */ 343*7f5df8d4SBin Meng void mp_write_intsrc(struct mp_config_table *mc, int irqtype, int irqflag, 344*7f5df8d4SBin Meng int srcbus, int srcbusirq, int dstapic, int dstirq); 345*7f5df8d4SBin Meng 346*7f5df8d4SBin Meng /** 347*7f5df8d4SBin Meng * mp_write_pci_intsrc() - Write a PCI interrupt assignment entry 348*7f5df8d4SBin Meng * 349*7f5df8d4SBin Meng * This writes a PCI interrupt assignment entry to the configuration table. 350*7f5df8d4SBin Meng * 351*7f5df8d4SBin Meng * @mc: MP configuration table header address 352*7f5df8d4SBin Meng * @irqtype: IRQ type (INT/NMI/SMI/ExtINT) 353*7f5df8d4SBin Meng * @srcbus: PCI bus number where the interrupt comes from 354*7f5df8d4SBin Meng * @dev: device number on the PCI bus 355*7f5df8d4SBin Meng * @pin: PCI interrupt pin (INT A/B/C/D) 356*7f5df8d4SBin Meng * @dstapic: destination I/O APIC id where the interrupt goes to 357*7f5df8d4SBin Meng * @dstirq: destination I/O APIC pin where the interrupt goes to 358*7f5df8d4SBin Meng */ 359*7f5df8d4SBin Meng void mp_write_pci_intsrc(struct mp_config_table *mc, int irqtype, 360*7f5df8d4SBin Meng int srcbus, int dev, int pin, int dstapic, int dstirq); 361*7f5df8d4SBin Meng 362*7f5df8d4SBin Meng /** 363*7f5df8d4SBin Meng * mp_write_lintsrc() - Write a local interrupt assignment entry 364*7f5df8d4SBin Meng * 365*7f5df8d4SBin Meng * This writes a local interrupt assignment entry to the configuration table. 366*7f5df8d4SBin Meng * 367*7f5df8d4SBin Meng * @mc: MP configuration table header address 368*7f5df8d4SBin Meng * @irqtype: IRQ type (INT/NMI/SMI/ExtINT) 369*7f5df8d4SBin Meng * @irqflag: IRQ flag (level/trigger) 370*7f5df8d4SBin Meng * @srcbus: PCI bus number where the interrupt comes from 371*7f5df8d4SBin Meng * @srcbusirq: IRQ number mapped on the source bus 372*7f5df8d4SBin Meng * @dstapic: destination local APIC id where the interrupt goes to 373*7f5df8d4SBin Meng * @destlint: destination local APIC pin where the interrupt goes to 374*7f5df8d4SBin Meng */ 375*7f5df8d4SBin Meng void mp_write_lintsrc(struct mp_config_table *mc, int irqtype, int irqflag, 376*7f5df8d4SBin Meng int srcbus, int srcbusirq, int destapic, int destlint); 377*7f5df8d4SBin Meng 378*7f5df8d4SBin Meng 379*7f5df8d4SBin Meng /** 380*7f5df8d4SBin Meng * mp_write_address_space() - Write a system address space entry 381*7f5df8d4SBin Meng * 382*7f5df8d4SBin Meng * This writes a system address space entry to the configuration table. 383*7f5df8d4SBin Meng * 384*7f5df8d4SBin Meng * @mc: MP configuration table header address 385*7f5df8d4SBin Meng * @busid: bus id for the bus where system address space is mapped 386*7f5df8d4SBin Meng * @addr_type: system address type 387*7f5df8d4SBin Meng * @addr_base_low: starting address low 388*7f5df8d4SBin Meng * @addr_base_high: starting address high 389*7f5df8d4SBin Meng * @addr_length_low: address length low 390*7f5df8d4SBin Meng * @addr_length_high: address length high 391*7f5df8d4SBin Meng */ 392*7f5df8d4SBin Meng void mp_write_address_space(struct mp_config_table *mc, 393*7f5df8d4SBin Meng int busid, int addr_type, 394*7f5df8d4SBin Meng u32 addr_base_low, u32 addr_base_high, 395*7f5df8d4SBin Meng u32 addr_length_low, u32 addr_length_high); 396*7f5df8d4SBin Meng 397*7f5df8d4SBin Meng /** 398*7f5df8d4SBin Meng * mp_write_bus_hierarchy() - Write a bus hierarchy descriptor entry 399*7f5df8d4SBin Meng * 400*7f5df8d4SBin Meng * This writes a bus hierarchy descriptor entry to the configuration table. 401*7f5df8d4SBin Meng * 402*7f5df8d4SBin Meng * @mc: MP configuration table header address 403*7f5df8d4SBin Meng * @busid: bus id 404*7f5df8d4SBin Meng * @bus_info: bit0 indicates if the bus is a subtractive decode bus 405*7f5df8d4SBin Meng * @parent_busid: parent bus id 406*7f5df8d4SBin Meng */ 407*7f5df8d4SBin Meng void mp_write_bus_hierarchy(struct mp_config_table *mc, 408*7f5df8d4SBin Meng int busid, int bus_info, int parent_busid); 409*7f5df8d4SBin Meng 410*7f5df8d4SBin Meng /** 411*7f5df8d4SBin Meng * mp_write_compat_address_space() - Write a compat bus address space entry 412*7f5df8d4SBin Meng * 413*7f5df8d4SBin Meng * This writes a compatibility bus address space modifier entry to the 414*7f5df8d4SBin Meng * configuration table. 415*7f5df8d4SBin Meng * 416*7f5df8d4SBin Meng * @mc: MP configuration table header address 417*7f5df8d4SBin Meng * @busid: bus id 418*7f5df8d4SBin Meng * @addr_modifier: add or subtract to predefined address range list 419*7f5df8d4SBin Meng * @range_list: list of predefined address space ranges 420*7f5df8d4SBin Meng */ 421*7f5df8d4SBin Meng void mp_write_compat_address_space(struct mp_config_table *mc, int busid, 422*7f5df8d4SBin Meng int addr_modifier, u32 range_list); 423*7f5df8d4SBin Meng 424*7f5df8d4SBin Meng /** 425*7f5df8d4SBin Meng * mptable_finalize() - Finalize the MP table 426*7f5df8d4SBin Meng * 427*7f5df8d4SBin Meng * This finalizes the MP table by calculating required checksums. 428*7f5df8d4SBin Meng * 429*7f5df8d4SBin Meng * @mc: MP configuration table header address 430*7f5df8d4SBin Meng * @return: MP table end address 431*7f5df8d4SBin Meng */ 432*7f5df8d4SBin Meng u32 mptable_finalize(struct mp_config_table *mc); 433*7f5df8d4SBin Meng 434*7f5df8d4SBin Meng #endif /* __ASM_MPSPEC_H */ 435