tjh.dev / kernel
Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
1
fork

Configure Feed

Select the types of activity you want to include in your feed.

kernel / arch / powerpc / include / asm / guest-state-buffer.h
at v6.15 996 lines 28 kB view raw
1/* SPDX-License-Identifier: GPL-2.0 */ 2/* 3 * Interface based on include/net/netlink.h 4 */ 5#ifndef _ASM_POWERPC_GUEST_STATE_BUFFER_H 6#define _ASM_POWERPC_GUEST_STATE_BUFFER_H 7 8#include "asm/hvcall.h" 9#include <linux/gfp.h> 10#include <linux/bitmap.h> 11#include <asm/plpar_wrappers.h> 12 13/************************************************************************** 14 * Guest State Buffer Constants 15 **************************************************************************/ 16/* Element without a value and any length */ 17#define KVMPPC_GSID_BLANK 0x0000 18/* Size required for the L0's internal VCPU representation */ 19#define KVMPPC_GSID_HOST_STATE_SIZE 0x0001 20 /* Minimum size for the H_GUEST_RUN_VCPU output buffer */ 21#define KVMPPC_GSID_RUN_OUTPUT_MIN_SIZE 0x0002 22 /* "Logical" PVR value as defined in the PAPR */ 23#define KVMPPC_GSID_LOGICAL_PVR 0x0003 24 /* L0 relative timebase offset */ 25#define KVMPPC_GSID_TB_OFFSET 0x0004 26 /* Partition Scoped Page Table Info */ 27#define KVMPPC_GSID_PARTITION_TABLE 0x0005 28 /* Process Table Info */ 29#define KVMPPC_GSID_PROCESS_TABLE 0x0006 30 31/* H_GUEST_RUN_VCPU input buffer Info */ 32#define KVMPPC_GSID_RUN_INPUT 0x0C00 33/* H_GUEST_RUN_VCPU output buffer Info */ 34#define KVMPPC_GSID_RUN_OUTPUT 0x0C01 35#define KVMPPC_GSID_VPA 0x0C02 36 37#define KVMPPC_GSID_GPR(x) (0x1000 + (x)) 38#define KVMPPC_GSID_HDEC_EXPIRY_TB 0x1020 39#define KVMPPC_GSID_NIA 0x1021 40#define KVMPPC_GSID_MSR 0x1022 41#define KVMPPC_GSID_LR 0x1023 42#define KVMPPC_GSID_XER 0x1024 43#define KVMPPC_GSID_CTR 0x1025 44#define KVMPPC_GSID_CFAR 0x1026 45#define KVMPPC_GSID_SRR0 0x1027 46#define KVMPPC_GSID_SRR1 0x1028 47#define KVMPPC_GSID_DAR 0x1029 48#define KVMPPC_GSID_DEC_EXPIRY_TB 0x102A 49#define KVMPPC_GSID_VTB 0x102B 50#define KVMPPC_GSID_LPCR 0x102C 51#define KVMPPC_GSID_HFSCR 0x102D 52#define KVMPPC_GSID_FSCR 0x102E 53#define KVMPPC_GSID_FPSCR 0x102F 54#define KVMPPC_GSID_DAWR0 0x1030 55#define KVMPPC_GSID_DAWR1 0x1031 56#define KVMPPC_GSID_CIABR 0x1032 57#define KVMPPC_GSID_PURR 0x1033 58#define KVMPPC_GSID_SPURR 0x1034 59#define KVMPPC_GSID_IC 0x1035 60#define KVMPPC_GSID_SPRG0 0x1036 61#define KVMPPC_GSID_SPRG1 0x1037 62#define KVMPPC_GSID_SPRG2 0x1038 63#define KVMPPC_GSID_SPRG3 0x1039 64#define KVMPPC_GSID_PPR 0x103A 65#define KVMPPC_GSID_MMCR(x) (0x103B + (x)) 66#define KVMPPC_GSID_MMCRA 0x103F 67#define KVMPPC_GSID_SIER(x) (0x1040 + (x)) 68#define KVMPPC_GSID_BESCR 0x1043 69#define KVMPPC_GSID_EBBHR 0x1044 70#define KVMPPC_GSID_EBBRR 0x1045 71#define KVMPPC_GSID_AMR 0x1046 72#define KVMPPC_GSID_IAMR 0x1047 73#define KVMPPC_GSID_AMOR 0x1048 74#define KVMPPC_GSID_UAMOR 0x1049 75#define KVMPPC_GSID_SDAR 0x104A 76#define KVMPPC_GSID_SIAR 0x104B 77#define KVMPPC_GSID_DSCR 0x104C 78#define KVMPPC_GSID_TAR 0x104D 79#define KVMPPC_GSID_DEXCR 0x104E 80#define KVMPPC_GSID_HDEXCR 0x104F 81#define KVMPPC_GSID_HASHKEYR 0x1050 82#define KVMPPC_GSID_HASHPKEYR 0x1051 83#define KVMPPC_GSID_CTRL 0x1052 84#define KVMPPC_GSID_DPDES 0x1053 85 86#define KVMPPC_GSID_CR 0x2000 87#define KVMPPC_GSID_PIDR 0x2001 88#define KVMPPC_GSID_DSISR 0x2002 89#define KVMPPC_GSID_VSCR 0x2003 90#define KVMPPC_GSID_VRSAVE 0x2004 91#define KVMPPC_GSID_DAWRX0 0x2005 92#define KVMPPC_GSID_DAWRX1 0x2006 93#define KVMPPC_GSID_PMC(x) (0x2007 + (x)) 94#define KVMPPC_GSID_WORT 0x200D 95#define KVMPPC_GSID_PSPB 0x200E 96 97#define KVMPPC_GSID_VSRS(x) (0x3000 + (x)) 98 99#define KVMPPC_GSID_HDAR 0xF000 100#define KVMPPC_GSID_HDSISR 0xF001 101#define KVMPPC_GSID_HEIR 0xF002 102#define KVMPPC_GSID_ASDR 0xF003 103 104#define KVMPPC_GSE_GUESTWIDE_START KVMPPC_GSID_BLANK 105#define KVMPPC_GSE_GUESTWIDE_END KVMPPC_GSID_PROCESS_TABLE 106#define KVMPPC_GSE_GUESTWIDE_COUNT \ 107 (KVMPPC_GSE_GUESTWIDE_END - KVMPPC_GSE_GUESTWIDE_START + 1) 108 109#define KVMPPC_GSE_META_START KVMPPC_GSID_RUN_INPUT 110#define KVMPPC_GSE_META_END KVMPPC_GSID_VPA 111#define KVMPPC_GSE_META_COUNT (KVMPPC_GSE_META_END - KVMPPC_GSE_META_START + 1) 112 113#define KVMPPC_GSE_DW_REGS_START KVMPPC_GSID_GPR(0) 114#define KVMPPC_GSE_DW_REGS_END KVMPPC_GSID_DPDES 115#define KVMPPC_GSE_DW_REGS_COUNT \ 116 (KVMPPC_GSE_DW_REGS_END - KVMPPC_GSE_DW_REGS_START + 1) 117 118#define KVMPPC_GSE_W_REGS_START KVMPPC_GSID_CR 119#define KVMPPC_GSE_W_REGS_END KVMPPC_GSID_PSPB 120#define KVMPPC_GSE_W_REGS_COUNT \ 121 (KVMPPC_GSE_W_REGS_END - KVMPPC_GSE_W_REGS_START + 1) 122 123#define KVMPPC_GSE_VSRS_START KVMPPC_GSID_VSRS(0) 124#define KVMPPC_GSE_VSRS_END KVMPPC_GSID_VSRS(63) 125#define KVMPPC_GSE_VSRS_COUNT (KVMPPC_GSE_VSRS_END - KVMPPC_GSE_VSRS_START + 1) 126 127#define KVMPPC_GSE_INTR_REGS_START KVMPPC_GSID_HDAR 128#define KVMPPC_GSE_INTR_REGS_END KVMPPC_GSID_ASDR 129#define KVMPPC_GSE_INTR_REGS_COUNT \ 130 (KVMPPC_GSE_INTR_REGS_END - KVMPPC_GSE_INTR_REGS_START + 1) 131 132#define KVMPPC_GSE_IDEN_COUNT \ 133 (KVMPPC_GSE_GUESTWIDE_COUNT + KVMPPC_GSE_META_COUNT + \ 134 KVMPPC_GSE_DW_REGS_COUNT + KVMPPC_GSE_W_REGS_COUNT + \ 135 KVMPPC_GSE_VSRS_COUNT + KVMPPC_GSE_INTR_REGS_COUNT) 136 137/** 138 * Ranges of guest state buffer elements 139 */ 140enum { 141 KVMPPC_GS_CLASS_GUESTWIDE = 0x01, 142 KVMPPC_GS_CLASS_META = 0x02, 143 KVMPPC_GS_CLASS_DWORD_REG = 0x04, 144 KVMPPC_GS_CLASS_WORD_REG = 0x08, 145 KVMPPC_GS_CLASS_VECTOR = 0x10, 146 KVMPPC_GS_CLASS_INTR = 0x20, 147}; 148 149/** 150 * Types of guest state buffer elements 151 */ 152enum { 153 KVMPPC_GSE_BE32, 154 KVMPPC_GSE_BE64, 155 KVMPPC_GSE_VEC128, 156 KVMPPC_GSE_PARTITION_TABLE, 157 KVMPPC_GSE_PROCESS_TABLE, 158 KVMPPC_GSE_BUFFER, 159 __KVMPPC_GSE_TYPE_MAX, 160}; 161 162/** 163 * Flags for guest state elements 164 */ 165enum { 166 KVMPPC_GS_FLAGS_WIDE = 0x01, 167}; 168 169/** 170 * struct kvmppc_gs_part_table - deserialized partition table information 171 * element 172 * @address: start of the partition table 173 * @ea_bits: number of bits in the effective address 174 * @gpd_size: root page directory size 175 */ 176struct kvmppc_gs_part_table { 177 u64 address; 178 u64 ea_bits; 179 u64 gpd_size; 180}; 181 182/** 183 * struct kvmppc_gs_proc_table - deserialized process table information element 184 * @address: start of the process table 185 * @gpd_size: process table size 186 */ 187struct kvmppc_gs_proc_table { 188 u64 address; 189 u64 gpd_size; 190}; 191 192/** 193 * struct kvmppc_gs_buff_info - deserialized meta guest state buffer information 194 * @address: start of the guest state buffer 195 * @size: size of the guest state buffer 196 */ 197struct kvmppc_gs_buff_info { 198 u64 address; 199 u64 size; 200}; 201 202/** 203 * struct kvmppc_gs_header - serialized guest state buffer header 204 * @nelem: count of guest state elements in the buffer 205 * @data: start of the stream of elements in the buffer 206 */ 207struct kvmppc_gs_header { 208 __be32 nelems; 209 char data[]; 210} __packed; 211 212/** 213 * struct kvmppc_gs_elem - serialized guest state buffer element 214 * @iden: Guest State ID 215 * @len: length of data 216 * @data: the guest state buffer element's value 217 */ 218struct kvmppc_gs_elem { 219 __be16 iden; 220 __be16 len; 221 char data[]; 222} __packed; 223 224/** 225 * struct kvmppc_gs_buff - a guest state buffer with metadata. 226 * @capacity: total length of the buffer 227 * @len: current length of the elements and header 228 * @guest_id: guest id associated with the buffer 229 * @vcpu_id: vcpu_id associated with the buffer 230 * @hdr: the serialised guest state buffer 231 */ 232struct kvmppc_gs_buff { 233 size_t capacity; 234 size_t len; 235 unsigned long guest_id; 236 unsigned long vcpu_id; 237 struct kvmppc_gs_header *hdr; 238}; 239 240/** 241 * struct kvmppc_gs_bitmap - a bitmap for element ids 242 * @bitmap: a bitmap large enough for all Guest State IDs 243 */ 244struct kvmppc_gs_bitmap { 245 /* private: */ 246 DECLARE_BITMAP(bitmap, KVMPPC_GSE_IDEN_COUNT); 247}; 248 249/** 250 * struct kvmppc_gs_parser - a map of element ids to locations in a buffer 251 * @iterator: bitmap used for iterating 252 * @gses: contains the pointers to elements 253 * 254 * A guest state parser is used for deserialising a guest state buffer. 255 * Given a buffer, it then allows looking up guest state elements using 256 * a guest state id. 257 */ 258struct kvmppc_gs_parser { 259 /* private: */ 260 struct kvmppc_gs_bitmap iterator; 261 struct kvmppc_gs_elem *gses[KVMPPC_GSE_IDEN_COUNT]; 262}; 263 264enum { 265 GSM_GUEST_WIDE = 0x1, 266 GSM_SEND = 0x2, 267 GSM_RECEIVE = 0x4, 268 GSM_GSB_OWNER = 0x8, 269}; 270 271struct kvmppc_gs_msg; 272 273/** 274 * struct kvmppc_gs_msg_ops - guest state message behavior 275 * @get_size: maximum size required for the message data 276 * @fill_info: serializes to the guest state buffer format 277 * @refresh_info: dserializes from the guest state buffer format 278 */ 279struct kvmppc_gs_msg_ops { 280 size_t (*get_size)(struct kvmppc_gs_msg *gsm); 281 int (*fill_info)(struct kvmppc_gs_buff *gsb, struct kvmppc_gs_msg *gsm); 282 int (*refresh_info)(struct kvmppc_gs_msg *gsm, 283 struct kvmppc_gs_buff *gsb); 284}; 285 286/** 287 * struct kvmppc_gs_msg - a guest state message 288 * @bitmap: the guest state ids that should be included 289 * @ops: modify message behavior for reading and writing to buffers 290 * @flags: guest wide or thread wide 291 * @data: location where buffer data will be written to or from. 292 * 293 * A guest state message is allows flexibility in sending in receiving data 294 * in a guest state buffer format. 295 */ 296struct kvmppc_gs_msg { 297 struct kvmppc_gs_bitmap bitmap; 298 struct kvmppc_gs_msg_ops *ops; 299 unsigned long flags; 300 void *data; 301}; 302 303/************************************************************************** 304 * Guest State IDs 305 **************************************************************************/ 306 307u16 kvmppc_gsid_size(u16 iden); 308unsigned long kvmppc_gsid_flags(u16 iden); 309u64 kvmppc_gsid_mask(u16 iden); 310 311/************************************************************************** 312 * Guest State Buffers 313 **************************************************************************/ 314struct kvmppc_gs_buff *kvmppc_gsb_new(size_t size, unsigned long guest_id, 315 unsigned long vcpu_id, gfp_t flags); 316void kvmppc_gsb_free(struct kvmppc_gs_buff *gsb); 317void *kvmppc_gsb_put(struct kvmppc_gs_buff *gsb, size_t size); 318int kvmppc_gsb_send(struct kvmppc_gs_buff *gsb, unsigned long flags); 319int kvmppc_gsb_recv(struct kvmppc_gs_buff *gsb, unsigned long flags); 320 321/** 322 * kvmppc_gsb_header() - the header of a guest state buffer 323 * @gsb: guest state buffer 324 * 325 * Returns a pointer to the buffer header. 326 */ 327static inline struct kvmppc_gs_header * 328kvmppc_gsb_header(struct kvmppc_gs_buff *gsb) 329{ 330 return gsb->hdr; 331} 332 333/** 334 * kvmppc_gsb_data() - the elements of a guest state buffer 335 * @gsb: guest state buffer 336 * 337 * Returns a pointer to the first element of the buffer data. 338 */ 339static inline struct kvmppc_gs_elem *kvmppc_gsb_data(struct kvmppc_gs_buff *gsb) 340{ 341 return (struct kvmppc_gs_elem *)kvmppc_gsb_header(gsb)->data; 342} 343 344/** 345 * kvmppc_gsb_len() - the current length of a guest state buffer 346 * @gsb: guest state buffer 347 * 348 * Returns the length including the header of a buffer. 349 */ 350static inline size_t kvmppc_gsb_len(struct kvmppc_gs_buff *gsb) 351{ 352 return gsb->len; 353} 354 355/** 356 * kvmppc_gsb_capacity() - the capacity of a guest state buffer 357 * @gsb: guest state buffer 358 * 359 * Returns the capacity of a buffer. 360 */ 361static inline size_t kvmppc_gsb_capacity(struct kvmppc_gs_buff *gsb) 362{ 363 return gsb->capacity; 364} 365 366/** 367 * kvmppc_gsb_paddress() - the physical address of buffer 368 * @gsb: guest state buffer 369 * 370 * Returns the physical address of the buffer. 371 */ 372static inline u64 kvmppc_gsb_paddress(struct kvmppc_gs_buff *gsb) 373{ 374 return __pa(kvmppc_gsb_header(gsb)); 375} 376 377/** 378 * kvmppc_gsb_nelems() - the number of elements in a buffer 379 * @gsb: guest state buffer 380 * 381 * Returns the number of elements in a buffer 382 */ 383static inline u32 kvmppc_gsb_nelems(struct kvmppc_gs_buff *gsb) 384{ 385 return be32_to_cpu(kvmppc_gsb_header(gsb)->nelems); 386} 387 388/** 389 * kvmppc_gsb_reset() - empty a guest state buffer 390 * @gsb: guest state buffer 391 * 392 * Reset the number of elements and length of buffer to empty. 393 */ 394static inline void kvmppc_gsb_reset(struct kvmppc_gs_buff *gsb) 395{ 396 kvmppc_gsb_header(gsb)->nelems = cpu_to_be32(0); 397 gsb->len = sizeof(struct kvmppc_gs_header); 398} 399 400/** 401 * kvmppc_gsb_data_len() - the length of a buffer excluding the header 402 * @gsb: guest state buffer 403 * 404 * Returns the length of a buffer excluding the header 405 */ 406static inline size_t kvmppc_gsb_data_len(struct kvmppc_gs_buff *gsb) 407{ 408 return gsb->len - sizeof(struct kvmppc_gs_header); 409} 410 411/** 412 * kvmppc_gsb_data_cap() - the capacity of a buffer excluding the header 413 * @gsb: guest state buffer 414 * 415 * Returns the capacity of a buffer excluding the header 416 */ 417static inline size_t kvmppc_gsb_data_cap(struct kvmppc_gs_buff *gsb) 418{ 419 return gsb->capacity - sizeof(struct kvmppc_gs_header); 420} 421 422/** 423 * kvmppc_gsb_for_each_elem - iterate over the elements in a buffer 424 * @i: loop counter 425 * @pos: set to current element 426 * @gsb: guest state buffer 427 * @rem: initialized to buffer capacity, holds bytes currently remaining in 428 * stream 429 */ 430#define kvmppc_gsb_for_each_elem(i, pos, gsb, rem) \ 431 kvmppc_gse_for_each_elem(i, kvmppc_gsb_nelems(gsb), pos, \ 432 kvmppc_gsb_data(gsb), \ 433 kvmppc_gsb_data_cap(gsb), rem) 434 435/************************************************************************** 436 * Guest State Elements 437 **************************************************************************/ 438 439/** 440 * kvmppc_gse_iden() - guest state ID of element 441 * @gse: guest state element 442 * 443 * Return the guest state ID in host endianness. 444 */ 445static inline u16 kvmppc_gse_iden(const struct kvmppc_gs_elem *gse) 446{ 447 return be16_to_cpu(gse->iden); 448} 449 450/** 451 * kvmppc_gse_len() - length of guest state element data 452 * @gse: guest state element 453 * 454 * Returns the length of guest state element data 455 */ 456static inline u16 kvmppc_gse_len(const struct kvmppc_gs_elem *gse) 457{ 458 return be16_to_cpu(gse->len); 459} 460 461/** 462 * kvmppc_gse_total_len() - total length of guest state element 463 * @gse: guest state element 464 * 465 * Returns the length of the data plus the ID and size header. 466 */ 467static inline u16 kvmppc_gse_total_len(const struct kvmppc_gs_elem *gse) 468{ 469 return be16_to_cpu(gse->len) + sizeof(*gse); 470} 471 472/** 473 * kvmppc_gse_total_size() - space needed for a given data length 474 * @size: data length 475 * 476 * Returns size plus the space needed for the ID and size header. 477 */ 478static inline u16 kvmppc_gse_total_size(u16 size) 479{ 480 return sizeof(struct kvmppc_gs_elem) + size; 481} 482 483/** 484 * kvmppc_gse_data() - pointer to data of a guest state element 485 * @gse: guest state element 486 * 487 * Returns a pointer to the beginning of guest state element data. 488 */ 489static inline void *kvmppc_gse_data(const struct kvmppc_gs_elem *gse) 490{ 491 return (void *)gse->data; 492} 493 494/** 495 * kvmppc_gse_ok() - checks space exists for guest state element 496 * @gse: guest state element 497 * @remaining: bytes of space remaining 498 * 499 * Returns true if the guest state element can fit in remaining space. 500 */ 501static inline bool kvmppc_gse_ok(const struct kvmppc_gs_elem *gse, 502 int remaining) 503{ 504 return remaining >= kvmppc_gse_total_len(gse); 505} 506 507/** 508 * kvmppc_gse_next() - iterate to the next guest state element in a stream 509 * @gse: stream of guest state elements 510 * @remaining: length of the guest element stream 511 * 512 * Returns the next guest state element in a stream of elements. The length of 513 * the stream is updated in remaining. 514 */ 515static inline struct kvmppc_gs_elem * 516kvmppc_gse_next(const struct kvmppc_gs_elem *gse, int *remaining) 517{ 518 int len = sizeof(*gse) + kvmppc_gse_len(gse); 519 520 *remaining -= len; 521 return (struct kvmppc_gs_elem *)(gse->data + kvmppc_gse_len(gse)); 522} 523 524/** 525 * kvmppc_gse_for_each_elem - iterate over a stream of guest state elements 526 * @i: loop counter 527 * @max: number of elements 528 * @pos: set to current element 529 * @head: head of elements 530 * @len: length of the stream 531 * @rem: initialized to len, holds bytes currently remaining elements 532 */ 533#define kvmppc_gse_for_each_elem(i, max, pos, head, len, rem) \ 534 for (i = 0, pos = head, rem = len; kvmppc_gse_ok(pos, rem) && i < max; \ 535 pos = kvmppc_gse_next(pos, &(rem)), i++) 536 537int __kvmppc_gse_put(struct kvmppc_gs_buff *gsb, u16 iden, u16 size, 538 const void *data); 539int kvmppc_gse_parse(struct kvmppc_gs_parser *gsp, struct kvmppc_gs_buff *gsb); 540 541/** 542 * kvmppc_gse_put_be32() - add a be32 guest state element to a buffer 543 * @gsb: guest state buffer to add element to 544 * @iden: guest state ID 545 * @val: big endian value 546 */ 547static inline int kvmppc_gse_put_be32(struct kvmppc_gs_buff *gsb, u16 iden, 548 __be32 val) 549{ 550 __be32 tmp; 551 552 tmp = val; 553 return __kvmppc_gse_put(gsb, iden, sizeof(__be32), &tmp); 554} 555 556/** 557 * kvmppc_gse_put_u32() - add a host endian 32bit int guest state element to a 558 * buffer 559 * @gsb: guest state buffer to add element to 560 * @iden: guest state ID 561 * @val: host endian value 562 */ 563static inline int kvmppc_gse_put_u32(struct kvmppc_gs_buff *gsb, u16 iden, 564 u32 val) 565{ 566 __be32 tmp; 567 568 val &= kvmppc_gsid_mask(iden); 569 tmp = cpu_to_be32(val); 570 return kvmppc_gse_put_be32(gsb, iden, tmp); 571} 572 573/** 574 * kvmppc_gse_put_be64() - add a be64 guest state element to a buffer 575 * @gsb: guest state buffer to add element to 576 * @iden: guest state ID 577 * @val: big endian value 578 */ 579static inline int kvmppc_gse_put_be64(struct kvmppc_gs_buff *gsb, u16 iden, 580 __be64 val) 581{ 582 __be64 tmp; 583 584 tmp = val; 585 return __kvmppc_gse_put(gsb, iden, sizeof(__be64), &tmp); 586} 587 588/** 589 * kvmppc_gse_put_u64() - add a host endian 64bit guest state element to a 590 * buffer 591 * @gsb: guest state buffer to add element to 592 * @iden: guest state ID 593 * @val: host endian value 594 */ 595static inline int kvmppc_gse_put_u64(struct kvmppc_gs_buff *gsb, u16 iden, 596 u64 val) 597{ 598 __be64 tmp; 599 600 val &= kvmppc_gsid_mask(iden); 601 tmp = cpu_to_be64(val); 602 return kvmppc_gse_put_be64(gsb, iden, tmp); 603} 604 605/** 606 * __kvmppc_gse_put_reg() - add a register type guest state element to a buffer 607 * @gsb: guest state buffer to add element to 608 * @iden: guest state ID 609 * @val: host endian value 610 * 611 * Adds a register type guest state element. Uses the guest state ID for 612 * determining the length of the guest element. If the guest state ID has 613 * bits that can not be set they will be cleared. 614 */ 615static inline int __kvmppc_gse_put_reg(struct kvmppc_gs_buff *gsb, u16 iden, 616 u64 val) 617{ 618 val &= kvmppc_gsid_mask(iden); 619 if (kvmppc_gsid_size(iden) == sizeof(u64)) 620 return kvmppc_gse_put_u64(gsb, iden, val); 621 622 if (kvmppc_gsid_size(iden) == sizeof(u32)) { 623 u32 tmp; 624 625 tmp = (u32)val; 626 if (tmp != val) 627 return -EINVAL; 628 629 return kvmppc_gse_put_u32(gsb, iden, tmp); 630 } 631 return -EINVAL; 632} 633 634/** 635 * kvmppc_gse_put_vector128() - add a vector guest state element to a buffer 636 * @gsb: guest state buffer to add element to 637 * @iden: guest state ID 638 * @val: 16 byte vector value 639 */ 640static inline int kvmppc_gse_put_vector128(struct kvmppc_gs_buff *gsb, u16 iden, 641 vector128 *val) 642{ 643 __be64 tmp[2] = { 0 }; 644 union { 645 __vector128 v; 646 u64 dw[2]; 647 } u; 648 649 u.v = *val; 650 tmp[0] = cpu_to_be64(u.dw[TS_FPROFFSET]); 651#ifdef CONFIG_VSX 652 tmp[1] = cpu_to_be64(u.dw[TS_VSRLOWOFFSET]); 653#endif 654 return __kvmppc_gse_put(gsb, iden, sizeof(tmp), &tmp); 655} 656 657/** 658 * kvmppc_gse_put_part_table() - add a partition table guest state element to a 659 * buffer 660 * @gsb: guest state buffer to add element to 661 * @iden: guest state ID 662 * @val: partition table value 663 */ 664static inline int kvmppc_gse_put_part_table(struct kvmppc_gs_buff *gsb, 665 u16 iden, 666 struct kvmppc_gs_part_table val) 667{ 668 __be64 tmp[3]; 669 670 tmp[0] = cpu_to_be64(val.address); 671 tmp[1] = cpu_to_be64(val.ea_bits); 672 tmp[2] = cpu_to_be64(val.gpd_size); 673 return __kvmppc_gse_put(gsb, KVMPPC_GSID_PARTITION_TABLE, sizeof(tmp), 674 &tmp); 675} 676 677/** 678 * kvmppc_gse_put_proc_table() - add a process table guest state element to a 679 * buffer 680 * @gsb: guest state buffer to add element to 681 * @iden: guest state ID 682 * @val: process table value 683 */ 684static inline int kvmppc_gse_put_proc_table(struct kvmppc_gs_buff *gsb, 685 u16 iden, 686 struct kvmppc_gs_proc_table val) 687{ 688 __be64 tmp[2]; 689 690 tmp[0] = cpu_to_be64(val.address); 691 tmp[1] = cpu_to_be64(val.gpd_size); 692 return __kvmppc_gse_put(gsb, KVMPPC_GSID_PROCESS_TABLE, sizeof(tmp), 693 &tmp); 694} 695 696/** 697 * kvmppc_gse_put_buff_info() - adds a GSB description guest state element to a 698 * buffer 699 * @gsb: guest state buffer to add element to 700 * @iden: guest state ID 701 * @val: guest state buffer description value 702 */ 703static inline int kvmppc_gse_put_buff_info(struct kvmppc_gs_buff *gsb, u16 iden, 704 struct kvmppc_gs_buff_info val) 705{ 706 __be64 tmp[2]; 707 708 tmp[0] = cpu_to_be64(val.address); 709 tmp[1] = cpu_to_be64(val.size); 710 return __kvmppc_gse_put(gsb, iden, sizeof(tmp), &tmp); 711} 712 713int __kvmppc_gse_put(struct kvmppc_gs_buff *gsb, u16 iden, u16 size, 714 const void *data); 715 716/** 717 * kvmppc_gse_get_be32() - return the data of a be32 element 718 * @gse: guest state element 719 */ 720static inline __be32 kvmppc_gse_get_be32(const struct kvmppc_gs_elem *gse) 721{ 722 if (WARN_ON(kvmppc_gse_len(gse) != sizeof(__be32))) 723 return 0; 724 return *(__be32 *)kvmppc_gse_data(gse); 725} 726 727/** 728 * kvmppc_gse_get_u32() - return the data of a be32 element in host endianness 729 * @gse: guest state element 730 */ 731static inline u32 kvmppc_gse_get_u32(const struct kvmppc_gs_elem *gse) 732{ 733 return be32_to_cpu(kvmppc_gse_get_be32(gse)); 734} 735 736/** 737 * kvmppc_gse_get_be64() - return the data of a be64 element 738 * @gse: guest state element 739 */ 740static inline __be64 kvmppc_gse_get_be64(const struct kvmppc_gs_elem *gse) 741{ 742 if (WARN_ON(kvmppc_gse_len(gse) != sizeof(__be64))) 743 return 0; 744 return *(__be64 *)kvmppc_gse_data(gse); 745} 746 747/** 748 * kvmppc_gse_get_u64() - return the data of a be64 element in host endianness 749 * @gse: guest state element 750 */ 751static inline u64 kvmppc_gse_get_u64(const struct kvmppc_gs_elem *gse) 752{ 753 return be64_to_cpu(kvmppc_gse_get_be64(gse)); 754} 755 756/** 757 * kvmppc_gse_get_vector128() - return the data of a vector element 758 * @gse: guest state element 759 */ 760static inline void kvmppc_gse_get_vector128(const struct kvmppc_gs_elem *gse, 761 vector128 *v) 762{ 763 union { 764 __vector128 v; 765 u64 dw[2]; 766 } u = { 0 }; 767 __be64 *src; 768 769 if (WARN_ON(kvmppc_gse_len(gse) != sizeof(__vector128))) 770 *v = u.v; 771 772 src = (__be64 *)kvmppc_gse_data(gse); 773 u.dw[TS_FPROFFSET] = be64_to_cpu(src[0]); 774#ifdef CONFIG_VSX 775 u.dw[TS_VSRLOWOFFSET] = be64_to_cpu(src[1]); 776#endif 777 *v = u.v; 778} 779 780/************************************************************************** 781 * Guest State Bitmap 782 **************************************************************************/ 783 784bool kvmppc_gsbm_test(struct kvmppc_gs_bitmap *gsbm, u16 iden); 785void kvmppc_gsbm_set(struct kvmppc_gs_bitmap *gsbm, u16 iden); 786void kvmppc_gsbm_clear(struct kvmppc_gs_bitmap *gsbm, u16 iden); 787u16 kvmppc_gsbm_next(struct kvmppc_gs_bitmap *gsbm, u16 prev); 788 789/** 790 * kvmppc_gsbm_zero - zero the entire bitmap 791 * @gsbm: guest state buffer bitmap 792 */ 793static inline void kvmppc_gsbm_zero(struct kvmppc_gs_bitmap *gsbm) 794{ 795 bitmap_zero(gsbm->bitmap, KVMPPC_GSE_IDEN_COUNT); 796} 797 798/** 799 * kvmppc_gsbm_fill - fill the entire bitmap 800 * @gsbm: guest state buffer bitmap 801 */ 802static inline void kvmppc_gsbm_fill(struct kvmppc_gs_bitmap *gsbm) 803{ 804 bitmap_fill(gsbm->bitmap, KVMPPC_GSE_IDEN_COUNT); 805 clear_bit(0, gsbm->bitmap); 806} 807 808/** 809 * kvmppc_gsbm_for_each - iterate the present guest state IDs 810 * @gsbm: guest state buffer bitmap 811 * @iden: current guest state ID 812 */ 813#define kvmppc_gsbm_for_each(gsbm, iden) \ 814 for (iden = kvmppc_gsbm_next(gsbm, 0); iden != 0; \ 815 iden = kvmppc_gsbm_next(gsbm, iden)) 816 817/************************************************************************** 818 * Guest State Parser 819 **************************************************************************/ 820 821void kvmppc_gsp_insert(struct kvmppc_gs_parser *gsp, u16 iden, 822 struct kvmppc_gs_elem *gse); 823struct kvmppc_gs_elem *kvmppc_gsp_lookup(struct kvmppc_gs_parser *gsp, 824 u16 iden); 825 826/** 827 * kvmppc_gsp_for_each - iterate the <guest state IDs, guest state element> 828 * pairs 829 * @gsp: guest state buffer bitmap 830 * @iden: current guest state ID 831 * @gse: guest state element 832 */ 833#define kvmppc_gsp_for_each(gsp, iden, gse) \ 834 for (iden = kvmppc_gsbm_next(&(gsp)->iterator, 0), \ 835 gse = kvmppc_gsp_lookup((gsp), iden); \ 836 iden != 0; iden = kvmppc_gsbm_next(&(gsp)->iterator, iden), \ 837 gse = kvmppc_gsp_lookup((gsp), iden)) 838 839/************************************************************************** 840 * Guest State Message 841 **************************************************************************/ 842 843/** 844 * kvmppc_gsm_for_each - iterate the guest state IDs included in a guest state 845 * message 846 * @gsp: guest state buffer bitmap 847 * @iden: current guest state ID 848 * @gse: guest state element 849 */ 850#define kvmppc_gsm_for_each(gsm, iden) \ 851 for (iden = kvmppc_gsbm_next(&gsm->bitmap, 0); iden != 0; \ 852 iden = kvmppc_gsbm_next(&gsm->bitmap, iden)) 853 854int kvmppc_gsm_init(struct kvmppc_gs_msg *mgs, struct kvmppc_gs_msg_ops *ops, 855 void *data, unsigned long flags); 856 857struct kvmppc_gs_msg *kvmppc_gsm_new(struct kvmppc_gs_msg_ops *ops, void *data, 858 unsigned long flags, gfp_t gfp_flags); 859void kvmppc_gsm_free(struct kvmppc_gs_msg *gsm); 860size_t kvmppc_gsm_size(struct kvmppc_gs_msg *gsm); 861int kvmppc_gsm_fill_info(struct kvmppc_gs_msg *gsm, struct kvmppc_gs_buff *gsb); 862int kvmppc_gsm_refresh_info(struct kvmppc_gs_msg *gsm, 863 struct kvmppc_gs_buff *gsb); 864 865/** 866 * kvmppc_gsm_include - indicate a guest state ID should be included when 867 * serializing 868 * @gsm: guest state message 869 * @iden: guest state ID 870 */ 871static inline void kvmppc_gsm_include(struct kvmppc_gs_msg *gsm, u16 iden) 872{ 873 kvmppc_gsbm_set(&gsm->bitmap, iden); 874} 875 876/** 877 * kvmppc_gsm_includes - check if a guest state ID will be included when 878 * serializing 879 * @gsm: guest state message 880 * @iden: guest state ID 881 */ 882static inline bool kvmppc_gsm_includes(struct kvmppc_gs_msg *gsm, u16 iden) 883{ 884 return kvmppc_gsbm_test(&gsm->bitmap, iden); 885} 886 887/** 888 * kvmppc_gsm_includes - indicate all guest state IDs should be included when 889 * serializing 890 * @gsm: guest state message 891 * @iden: guest state ID 892 */ 893static inline void kvmppc_gsm_include_all(struct kvmppc_gs_msg *gsm) 894{ 895 kvmppc_gsbm_fill(&gsm->bitmap); 896} 897 898/** 899 * kvmppc_gsm_include - clear the guest state IDs that should be included when 900 * serializing 901 * @gsm: guest state message 902 */ 903static inline void kvmppc_gsm_reset(struct kvmppc_gs_msg *gsm) 904{ 905 kvmppc_gsbm_zero(&gsm->bitmap); 906} 907 908/** 909 * kvmppc_gsb_receive_data - flexibly update values from a guest state buffer 910 * @gsb: guest state buffer 911 * @gsm: guest state message 912 * 913 * Requests updated values for the guest state values included in the guest 914 * state message. The guest state message will then deserialize the guest state 915 * buffer. 916 */ 917static inline int kvmppc_gsb_receive_data(struct kvmppc_gs_buff *gsb, 918 struct kvmppc_gs_msg *gsm) 919{ 920 int rc; 921 922 kvmppc_gsb_reset(gsb); 923 rc = kvmppc_gsm_fill_info(gsm, gsb); 924 if (rc < 0) 925 return rc; 926 927 rc = kvmppc_gsb_recv(gsb, gsm->flags); 928 if (rc < 0) 929 return rc; 930 931 rc = kvmppc_gsm_refresh_info(gsm, gsb); 932 if (rc < 0) 933 return rc; 934 return 0; 935} 936 937/** 938 * kvmppc_gsb_recv - receive a single guest state ID 939 * @gsb: guest state buffer 940 * @gsm: guest state message 941 * @iden: guest state identity 942 */ 943static inline int kvmppc_gsb_receive_datum(struct kvmppc_gs_buff *gsb, 944 struct kvmppc_gs_msg *gsm, u16 iden) 945{ 946 int rc; 947 948 kvmppc_gsm_include(gsm, iden); 949 rc = kvmppc_gsb_receive_data(gsb, gsm); 950 if (rc < 0) 951 return rc; 952 kvmppc_gsm_reset(gsm); 953 return 0; 954} 955 956/** 957 * kvmppc_gsb_send_data - flexibly send values from a guest state buffer 958 * @gsb: guest state buffer 959 * @gsm: guest state message 960 * 961 * Sends the guest state values included in the guest state message. 962 */ 963static inline int kvmppc_gsb_send_data(struct kvmppc_gs_buff *gsb, 964 struct kvmppc_gs_msg *gsm) 965{ 966 int rc; 967 968 kvmppc_gsb_reset(gsb); 969 rc = kvmppc_gsm_fill_info(gsm, gsb); 970 if (rc < 0) 971 return rc; 972 rc = kvmppc_gsb_send(gsb, gsm->flags); 973 974 return rc; 975} 976 977/** 978 * kvmppc_gsb_recv - send a single guest state ID 979 * @gsb: guest state buffer 980 * @gsm: guest state message 981 * @iden: guest state identity 982 */ 983static inline int kvmppc_gsb_send_datum(struct kvmppc_gs_buff *gsb, 984 struct kvmppc_gs_msg *gsm, u16 iden) 985{ 986 int rc; 987 988 kvmppc_gsm_include(gsm, iden); 989 rc = kvmppc_gsb_send_data(gsb, gsm); 990 if (rc < 0) 991 return rc; 992 kvmppc_gsm_reset(gsm); 993 return 0; 994} 995 996#endif /* _ASM_POWERPC_GUEST_STATE_BUFFER_H */