Linux Audio

Check our new training course

Loading...
   1
   2
   3
   4
   5
   6
   7
   8
   9
  10
  11
  12
  13
  14
  15
  16
  17
  18
  19
  20
  21
  22
  23
  24
  25
  26
  27
  28
  29
  30
  31
  32
  33
  34
  35
  36
  37
  38
  39
  40
  41
  42
  43
  44
  45
  46
  47
  48
  49
  50
  51
  52
  53
  54
  55
  56
  57
  58
  59
  60
  61
  62
  63
  64
  65
  66
  67
  68
  69
  70
  71
  72
  73
  74
  75
  76
  77
  78
  79
  80
  81
  82
  83
  84
  85
  86
  87
  88
  89
  90
  91
  92
  93
  94
  95
  96
  97
  98
  99
 100
 101
 102
 103
 104
 105
 106
 107
 108
 109
 110
 111
 112
 113
 114
 115
 116
 117
 118
 119
 120
 121
 122
 123
 124
 125
 126
 127
 128
 129
 130
 131
 132
 133
 134
 135
 136
 137
 138
 139
 140
 141
 142
 143
 144
 145
 146
 147
 148
 149
 150
 151
 152
 153
 154
 155
 156
 157
 158
 159
 160
 161
 162
 163
 164
 165
 166
 167
 168
 169
 170
 171
 172
 173
 174
 175
 176
 177
 178
 179
 180
 181
 182
 183
 184
 185
 186
 187
 188
 189
 190
 191
 192
 193
 194
 195
 196
 197
 198
 199
 200
 201
 202
 203
 204
 205
 206
 207
 208
 209
 210
 211
 212
 213
 214
 215
 216
 217
 218
 219
 220
 221
 222
 223
 224
 225
 226
 227
 228
 229
 230
 231
 232
 233
 234
 235
 236
 237
 238
 239
 240
 241
 242
 243
 244
 245
 246
 247
 248
 249
 250
 251
 252
 253
 254
 255
 256
 257
 258
 259
 260
 261
 262
 263
 264
 265
 266
 267
 268
 269
 270
 271
 272
 273
 274
 275
 276
 277
 278
 279
 280
 281
 282
 283
 284
 285
 286
 287
 288
 289
 290
 291
 292
 293
 294
 295
 296
 297
 298
 299
 300
 301
 302
 303
 304
 305
 306
 307
 308
 309
 310
 311
 312
 313
 314
 315
 316
 317
 318
 319
 320
 321
 322
 323
 324
 325
 326
 327
 328
 329
 330
 331
 332
 333
 334
 335
 336
 337
 338
 339
 340
 341
 342
 343
 344
 345
 346
 347
 348
 349
 350
 351
 352
 353
 354
 355
 356
 357
 358
 359
 360
 361
 362
 363
 364
 365
 366
 367
 368
 369
 370
 371
 372
 373
 374
 375
 376
 377
 378
 379
 380
 381
 382
 383
 384
 385
 386
 387
 388
 389
 390
 391
 392
 393
 394
 395
 396
 397
 398
 399
 400
 401
 402
 403
 404
 405
 406
 407
 408
 409
 410
 411
 412
 413
 414
 415
 416
 417
 418
 419
 420
 421
 422
 423
 424
 425
 426
 427
 428
 429
 430
 431
 432
 433
 434
 435
 436
 437
 438
 439
 440
 441
 442
 443
 444
 445
 446
 447
 448
 449
 450
 451
 452
 453
 454
 455
 456
 457
 458
 459
 460
 461
 462
 463
 464
 465
 466
 467
 468
 469
 470
 471
 472
 473
 474
 475
 476
 477
 478
 479
 480
 481
 482
 483
 484
 485
 486
 487
 488
 489
 490
 491
 492
 493
 494
 495
 496
 497
 498
 499
 500
 501
 502
 503
 504
 505
 506
 507
 508
 509
 510
 511
 512
 513
 514
 515
 516
 517
 518
 519
 520
 521
 522
 523
 524
 525
 526
 527
 528
 529
 530
 531
 532
 533
 534
 535
 536
 537
 538
 539
 540
 541
 542
 543
 544
 545
 546
 547
 548
 549
 550
 551
 552
 553
 554
 555
 556
 557
 558
 559
 560
 561
 562
 563
 564
 565
 566
 567
 568
 569
 570
 571
 572
 573
 574
 575
 576
 577
 578
 579
 580
 581
 582
 583
 584
 585
 586
 587
 588
 589
 590
 591
 592
 593
 594
 595
 596
 597
 598
 599
 600
 601
 602
 603
 604
 605
 606
 607
 608
 609
 610
 611
 612
 613
 614
 615
 616
 617
 618
 619
 620
 621
 622
 623
 624
 625
 626
 627
 628
 629
 630
 631
 632
 633
 634
 635
 636
 637
 638
 639
 640
 641
 642
 643
 644
 645
 646
 647
 648
 649
 650
 651
 652
 653
 654
 655
 656
 657
 658
 659
 660
 661
 662
 663
 664
 665
 666
 667
 668
 669
 670
 671
 672
 673
 674
 675
 676
 677
 678
 679
 680
 681
 682
 683
 684
 685
 686
 687
 688
 689
 690
 691
 692
 693
 694
 695
 696
 697
 698
 699
 700
 701
 702
 703
 704
 705
 706
 707
 708
 709
 710
 711
 712
 713
 714
 715
 716
 717
 718
 719
 720
 721
 722
 723
 724
 725
 726
 727
 728
 729
 730
 731
 732
 733
 734
 735
 736
 737
 738
 739
 740
 741
 742
 743
 744
 745
 746
 747
 748
 749
 750
 751
 752
 753
 754
 755
 756
 757
 758
 759
 760
 761
 762
 763
 764
 765
 766
 767
 768
 769
 770
 771
 772
 773
 774
 775
 776
 777
 778
 779
 780
 781
 782
 783
 784
 785
 786
 787
 788
 789
 790
 791
 792
 793
 794
 795
 796
 797
 798
 799
 800
 801
 802
 803
 804
 805
 806
 807
 808
 809
 810
 811
 812
 813
 814
 815
 816
 817
 818
 819
 820
 821
 822
 823
 824
 825
 826
 827
 828
 829
 830
 831
 832
 833
 834
 835
 836
 837
 838
 839
 840
 841
 842
 843
 844
 845
 846
 847
 848
 849
 850
 851
 852
 853
 854
 855
 856
 857
 858
 859
 860
 861
 862
 863
 864
 865
 866
 867
 868
 869
 870
 871
 872
 873
 874
 875
 876
 877
 878
 879
 880
 881
 882
 883
 884
 885
 886
 887
 888
 889
 890
 891
 892
 893
 894
 895
 896
 897
 898
 899
 900
 901
 902
 903
 904
 905
 906
 907
 908
 909
 910
 911
 912
 913
 914
 915
 916
 917
 918
 919
 920
 921
 922
 923
 924
 925
 926
 927
 928
 929
 930
 931
 932
 933
 934
 935
 936
 937
 938
 939
 940
 941
 942
 943
 944
 945
 946
 947
 948
 949
 950
 951
 952
 953
 954
 955
 956
 957
 958
 959
 960
 961
 962
 963
 964
 965
 966
 967
 968
 969
 970
 971
 972
 973
 974
 975
 976
 977
 978
 979
 980
 981
 982
 983
 984
 985
 986
 987
 988
 989
 990
 991
 992
 993
 994
 995
 996
 997
 998
 999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
/*
 * Copyright (c) 2016 Jean-Paul Etienne <fractalclone@gmail.com>
 * Copyright (c) 2018 Foundries.io Ltd
 * Copyright (c) 2020 BayLibre, SAS
 *
 * SPDX-License-Identifier: Apache-2.0
 */

#include <toolchain.h>
#include <linker/sections.h>
#include <offsets_short.h>
#include <arch/cpu.h>
#include <sys/util.h>
#include <kernel.h>
#include <syscall.h>
#include <arch/riscv/csr.h>

/* Convenience macros for loading/storing register states. */

#define DO_FP_CALLER_SAVED(op, reg) \
	op ft0, __z_arch_esf_t_ft0_OFFSET(reg)	 ;\
	op ft1, __z_arch_esf_t_ft1_OFFSET(reg)	 ;\
	op ft2, __z_arch_esf_t_ft2_OFFSET(reg)	 ;\
	op ft3, __z_arch_esf_t_ft3_OFFSET(reg)	 ;\
	op ft4, __z_arch_esf_t_ft4_OFFSET(reg)	 ;\
	op ft5, __z_arch_esf_t_ft5_OFFSET(reg)	 ;\
	op ft6, __z_arch_esf_t_ft6_OFFSET(reg)	 ;\
	op ft7, __z_arch_esf_t_ft7_OFFSET(reg)	 ;\
	op ft8, __z_arch_esf_t_ft8_OFFSET(reg)	 ;\
	op ft9, __z_arch_esf_t_ft9_OFFSET(reg)	 ;\
	op ft10, __z_arch_esf_t_ft10_OFFSET(reg) ;\
	op ft11, __z_arch_esf_t_ft11_OFFSET(reg) ;\
	op fa0, __z_arch_esf_t_fa0_OFFSET(reg)	 ;\
	op fa1, __z_arch_esf_t_fa1_OFFSET(reg)	 ;\
	op fa2, __z_arch_esf_t_fa2_OFFSET(reg)	 ;\
	op fa3, __z_arch_esf_t_fa3_OFFSET(reg)	 ;\
	op fa4, __z_arch_esf_t_fa4_OFFSET(reg)	 ;\
	op fa5, __z_arch_esf_t_fa5_OFFSET(reg)	 ;\
	op fa6, __z_arch_esf_t_fa6_OFFSET(reg)	 ;\
	op fa7, __z_arch_esf_t_fa7_OFFSET(reg)	 ;

#define STORE_FP_CALLER_SAVED(reg) \
	DO_FP_CALLER_SAVED(RV_OP_STOREFPREG, reg)

#define LOAD_FP_CALLER_SAVED(reg) \
	DO_FP_CALLER_SAVED(RV_OP_LOADFPREG, reg)

#define DO_FP_CALLEE_SAVED(op, reg) \
	op fs0, _thread_offset_to_fs0(reg)   ;\
	op fs1, _thread_offset_to_fs1(reg)   ;\
	op fs2, _thread_offset_to_fs2(reg)   ;\
	op fs3, _thread_offset_to_fs3(reg)   ;\
	op fs4, _thread_offset_to_fs4(reg)   ;\
	op fs5, _thread_offset_to_fs5(reg)   ;\
	op fs6, _thread_offset_to_fs6(reg)   ;\
	op fs7, _thread_offset_to_fs7(reg)   ;\
	op fs8, _thread_offset_to_fs8(reg)   ;\
	op fs9, _thread_offset_to_fs9(reg)   ;\
	op fs10, _thread_offset_to_fs10(reg) ;\
	op fs11, _thread_offset_to_fs11(reg) ;

#define STORE_FP_CALLEE_SAVED(reg) \
	frcsr t2				       ;\
	RV_OP_STOREREG t2, _thread_offset_to_fcsr(reg) ;\
	DO_FP_CALLEE_SAVED(RV_OP_STOREFPREG, reg)

#define LOAD_FP_CALLEE_SAVED(reg) \
	RV_OP_LOADREG t2, _thread_offset_to_fcsr(reg) ;\
	fscsr x0, t2				      ;\
	DO_FP_CALLEE_SAVED(RV_OP_LOADFPREG, reg)

#define COPY_ESF_FP_STATE(to_reg, from_reg, temp)			\
	RV_OP_LOADREG temp, __z_arch_esf_t_fp_state_OFFSET(from_reg)	;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fp_state_OFFSET(to_reg)	;

#define COPY_ESF_FP(to_reg, from_reg, temp)				\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft0_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft0_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft1_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft1_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft2_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft2_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft3_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft3_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft4_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft4_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft5_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft5_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft6_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft6_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft7_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft7_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft8_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft8_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft9_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft9_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft10_OFFSET(from_reg)	;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft10_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ft11_OFFSET(from_reg)	;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ft11_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa0_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa0_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa1_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa1_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa2_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa2_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa3_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa3_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa4_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa4_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa5_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa5_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa6_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa6_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_fa7_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_fa7_OFFSET(to_reg)		;

#define COPY_ESF(to_reg, from_reg, temp)				\
	RV_OP_LOADREG temp, __z_arch_esf_t_mepc_OFFSET(from_reg)	;\
	RV_OP_STOREREG temp, __z_arch_esf_t_mepc_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_mstatus_OFFSET(from_reg)	;\
	RV_OP_STOREREG temp, __z_arch_esf_t_mstatus_OFFSET(to_reg)	;\
	RV_OP_LOADREG temp, __z_arch_esf_t_ra_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_ra_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_gp_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_gp_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_tp_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_tp_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t0_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t0_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t1_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t1_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t2_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t2_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t3_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t3_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t4_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t4_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t5_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t5_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_t6_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_t6_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a0_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a0_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a1_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a1_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a2_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a2_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a3_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a3_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a4_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a4_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a5_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a5_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a6_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a6_OFFSET(to_reg)		;\
	RV_OP_LOADREG temp, __z_arch_esf_t_a7_OFFSET(from_reg)		;\
	RV_OP_STOREREG temp, __z_arch_esf_t_a7_OFFSET(to_reg)		;

#define DO_CALLEE_SAVED(op, reg) \
	op s0, _thread_offset_to_s0(reg)		;\
	op s1, _thread_offset_to_s1(reg)		;\
	op s2, _thread_offset_to_s2(reg)		;\
	op s3, _thread_offset_to_s3(reg)		;\
	op s4, _thread_offset_to_s4(reg)		;\
	op s5, _thread_offset_to_s5(reg)		;\
	op s6, _thread_offset_to_s6(reg)		;\
	op s7, _thread_offset_to_s7(reg)		;\
	op s8, _thread_offset_to_s8(reg)		;\
	op s9, _thread_offset_to_s9(reg)		;\
	op s10, _thread_offset_to_s10(reg)		;\
	op s11, _thread_offset_to_s11(reg)		;

#define STORE_CALLEE_SAVED(reg) \
	DO_CALLEE_SAVED(RV_OP_STOREREG, reg)

#define LOAD_CALLER_SAVED(reg) \
	DO_CALLEE_SAVED(RV_OP_LOADREG, reg)

#define DO_CALLER_SAVED(op) \
	op ra, __z_arch_esf_t_ra_OFFSET(sp)		;\
	op gp, __z_arch_esf_t_gp_OFFSET(sp)		;\
	op tp, __z_arch_esf_t_tp_OFFSET(sp)		;\
	op t0, __z_arch_esf_t_t0_OFFSET(sp)		;\
	op t1, __z_arch_esf_t_t1_OFFSET(sp)		;\
	op t2, __z_arch_esf_t_t2_OFFSET(sp)		;\
	op t3, __z_arch_esf_t_t3_OFFSET(sp)		;\
	op t4, __z_arch_esf_t_t4_OFFSET(sp)		;\
	op t5, __z_arch_esf_t_t5_OFFSET(sp)		;\
	op t6, __z_arch_esf_t_t6_OFFSET(sp)		;\
	op a0, __z_arch_esf_t_a0_OFFSET(sp)		;\
	op a1, __z_arch_esf_t_a1_OFFSET(sp)		;\
	op a2, __z_arch_esf_t_a2_OFFSET(sp)		;\
	op a3, __z_arch_esf_t_a3_OFFSET(sp)		;\
	op a4, __z_arch_esf_t_a4_OFFSET(sp)		;\
	op a5, __z_arch_esf_t_a5_OFFSET(sp)		;\
	op a6, __z_arch_esf_t_a6_OFFSET(sp)		;\
	op a7, __z_arch_esf_t_a7_OFFSET(sp)		;

#define STORE_CALLER_SAVED() \
	addi sp, sp, -__z_arch_esf_t_SIZEOF	;\
	DO_CALLER_SAVED(RV_OP_STOREREG)		;

#define LOAD_CALLEE_SAVED() \
	DO_CALLER_SAVED(RV_OP_LOADREG)		;\
	addi sp, sp, __z_arch_esf_t_SIZEOF	;

/*
 * @brief Check previous mode.
 *
 * @param ret Register to return value.
 * @param temp Register used foor temporary value.
 *
 * @return 0 if previous mode is user.
 */
#define WAS_NOT_USER(ret, temp) \
	RV_OP_LOADREG ret, __z_arch_esf_t_mstatus_OFFSET(sp)	;\
	li temp, MSTATUS_MPP					;\
	and ret, ret, temp					;


/* imports */
GDATA(_sw_isr_table)
GTEXT(__soc_is_irq)
GTEXT(__soc_handle_irq)
GTEXT(_Fault)
#ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE
GTEXT(__soc_save_context)
GTEXT(__soc_restore_context)
#endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */

GTEXT(_k_neg_eagain)
GTEXT(_is_next_thread_current)
GTEXT(z_get_next_ready_thread)

#ifdef CONFIG_INSTRUMENT_THREAD_SWITCHING
GTEXT(z_thread_mark_switched_in)
GTEXT(z_thread_mark_switched_out)
#ifdef CONFIG_TRACING
GTEXT(sys_trace_isr_enter)
#endif
#endif

#ifdef CONFIG_IRQ_OFFLOAD
GTEXT(_offload_routine)
#endif

#ifdef CONFIG_USERSPACE
GTEXT(z_riscv_do_syscall)
GTEXT(z_riscv_configure_user_allowed_stack)
GTEXT(z_interrupt_stacks)
GTEXT(z_riscv_do_syscall_start)
GTEXT(z_riscv_do_syscall_end)
#endif

#ifdef CONFIG_PMP_STACK_GUARD
GTEXT(z_riscv_configure_stack_guard)
#endif

/* exports */
GTEXT(__irq_wrapper)

/* use ABI name of registers for the sake of simplicity */

/*
 * Generic architecture-level IRQ handling, along with callouts to
 * SoC-specific routines.
 *
 * Architecture level IRQ handling includes basic context save/restore
 * of standard registers and calling ISRs registered at Zephyr's driver
 * level.
 *
 * Since RISC-V does not completely prescribe IRQ handling behavior,
 * implementations vary (some implementations also deviate from
 * what standard behavior is defined). Hence, the arch level code expects
 * the following functions to be provided at the SOC level:
 *
 *     - __soc_is_irq: decide if we're handling an interrupt or an exception
 *     - __soc_handle_irq: handle SoC-specific details for a pending IRQ
 *       (e.g. clear a pending bit in a SoC-specific register)
 *
 * If CONFIG_RISCV_SOC_CONTEXT_SAVE=y, calls to SoC-level context save/restore
 * routines are also made here. For details, see the Kconfig help text.
 */

/*
 * Handler called upon each exception/interrupt/fault
 * In this architecture, system call (ECALL) is used to perform context
 * switching or IRQ offloading (when enabled).
 */
SECTION_FUNC(exception.entry, __irq_wrapper)

#ifdef CONFIG_PMP_STACK_GUARD
	/* Jump at the beginning of IRQ stack to avoid stack overflow */
	csrrw sp, mscratch, sp
#endif /* CONFIG_PMP_STACK_GUARD */

	/*
	 * Save caller-saved registers on current thread stack.
	 * NOTE: need to be updated to account for floating-point registers
	 * floating-point registers should be accounted for when corresponding
	 * config variable is set
	 */
	STORE_CALLER_SAVED()

#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	/* Assess whether floating-point registers need to be saved. */
	la t0, _kernel
	RV_OP_LOADREG t0, _kernel_offset_to_current(t0)
	RV_OP_LOADREG t0, _thread_offset_to_user_options(t0)
	andi t0, t0, K_FP_REGS
	RV_OP_STOREREG t0, __z_arch_esf_t_fp_state_OFFSET(sp)
	beqz t0, skip_store_fp_caller_saved
	STORE_FP_CALLER_SAVED(sp)

skip_store_fp_caller_saved:
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

	/* Save MEPC register */
	csrr t0, mepc
	RV_OP_STOREREG t0, __z_arch_esf_t_mepc_OFFSET(sp)

	/* Save SOC-specific MSTATUS register */
	csrr t0, mstatus
	RV_OP_STOREREG t0, __z_arch_esf_t_mstatus_OFFSET(sp)

#ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE
	/* Handle context saving at SOC level. */
	addi a0, sp, __z_arch_esf_t_soc_context_OFFSET
	jal ra, __soc_save_context
#endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */

#ifdef CONFIG_USERSPACE
	/* Check if we are in user stack by checking previous privilege mode */
	WAS_NOT_USER(t0, t1)
	bnez t0, is_priv_sp

	la t0, _kernel
	RV_OP_LOADREG t1, _kernel_offset_to_current(t0)

	/* Save user stack pointer */
#ifdef CONFIG_PMP_STACK_GUARD
	csrr t2, mscratch
#else
	mv t2, sp
#endif /* CONFIG_PMP_STACK_GUARD */
	RV_OP_STOREREG t2, _thread_offset_to_user_sp(t1)
	/*
	 * Save callee-saved registers of user thread here
	 * because rescheduling will occur in nested ecall,
	 * that mean these registers will be out of context
	 * at reschedule time.
	 */
	STORE_CALLEE_SAVED(t1)

#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	/* Assess whether floating-point registers need to be saved. */
	RV_OP_LOADREG t2, _thread_offset_to_user_options(t1)
	andi t2, t2, K_FP_REGS
	beqz t2, skip_store_fp_callee_saved_user
	STORE_FP_CALLEE_SAVED(t1)
skip_store_fp_callee_saved_user:
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

is_priv_sp:
	/* Clear user mode variable */
	la t0, is_user_mode
	sb zero, 0x00(t0)
#endif /* CONFIG_USERSPACE */

	/*
	 * Check if exception is the result of an interrupt or not.
	 * (SOC dependent). Following the RISC-V architecture spec, the MSB
	 * of the mcause register is used to indicate whether an exception
	 * is the result of an interrupt or an exception/fault. But for some
	 * SOCs (like pulpino or riscv-qemu), the MSB is never set to indicate
	 * interrupt. Hence, check for interrupt/exception via the __soc_is_irq
	 * function (that needs to be implemented by each SOC). The result is
	 * returned via register a0 (1: interrupt, 0 exception)
	 */
	jal ra, __soc_is_irq

	/* If a0 != 0, jump to is_interrupt */
	addi t1, x0, 0
	bnez a0, is_interrupt

#ifdef CONFIG_USERSPACE
	/* Reset IRQ flag */
	la t1, irq_flag
	sb zero, 0x00(t1)
#endif /* CONFIG_USERSPACE */

	/*
	 * If the exception is the result of an ECALL, check whether to
	 * perform a context-switch or an IRQ offload. Otherwise call _Fault
	 * to report the exception.
	 */
	csrr t0, mcause
	li t2, SOC_MCAUSE_EXP_MASK
	and t0, t0, t2
	li t1, SOC_MCAUSE_ECALL_EXP

	/*
	 * If mcause == SOC_MCAUSE_ECALL_EXP, handle system call from
	 * kernel thread.
	 */
	beq t0, t1, is_kernel_syscall

#ifdef CONFIG_USERSPACE
	li t1, SOC_MCAUSE_USER_ECALL_EXP

	/*
	 * If mcause == SOC_MCAUSE_USER_ECALL_EXP, handle system call from
	 * user thread, otherwise handle fault.
	 */
	beq t0, t1, is_user_syscall
#endif /* CONFIG_USERSPACE */

	/*
	 * Call _Fault to handle exception.
	 * Stack pointer is pointing to a z_arch_esf_t structure, pass it
	 * to _Fault (via register a0).
	 * If _Fault shall return, set return address to
	 * no_reschedule to restore stack.
	 */
	addi a0, sp, 0

#ifdef CONFIG_USERSPACE
	la ra, no_reschedule_from_fault
	/* Switch to privilege stack */
	la t0, _kernel
	RV_OP_LOADREG t1, _kernel_offset_to_current(t0)
	RV_OP_LOADREG t0, _thread_offset_to_priv_stack_start(t1)
	RV_OP_STOREREG sp, _thread_offset_to_user_sp(t1) /* Update user SP */
	addi sp, t0, CONFIG_PRIVILEGED_STACK_SIZE
#else
	la ra, no_reschedule
#endif /* CONFIG_USERSPACE */

	tail _Fault

is_kernel_syscall:
#ifdef CONFIG_USERSPACE
	/* Check if it is a return from user syscall */
	csrr t0, mepc
	la t1, z_riscv_do_syscall_start
	bltu t0, t1, not_user_syscall
	la t1, z_riscv_do_syscall_end
	bleu t0, t1, return_from_syscall
not_user_syscall:
#endif /* CONFIG_USERSPACE */
	/*
	 * A syscall is the result of an ecall instruction, in which case the
	 * MEPC will contain the address of the ecall instruction.
	 * Increment saved MEPC by 4 to prevent triggering the same ecall
	 * again upon exiting the ISR.
	 *
	 * It's safe to always increment by 4, even with compressed
	 * instructions, because the ecall instruction is always 4 bytes.
	 */
	RV_OP_LOADREG t0, __z_arch_esf_t_mepc_OFFSET(sp)
	addi t0, t0, 4
	RV_OP_STOREREG t0, __z_arch_esf_t_mepc_OFFSET(sp)

#ifdef CONFIG_IRQ_OFFLOAD
	/*
	 * Determine if the system call is the result of an IRQ offloading.
	 * Done by checking if _offload_routine is not pointing to NULL.
	 * If NULL, jump to reschedule to perform a context-switch, otherwise,
	 * jump to is_interrupt to handle the IRQ offload.
	 */
	la t0, _offload_routine
	RV_OP_LOADREG t1, 0x00(t0)
	bnez t1, is_interrupt
#endif /* CONFIG_IRQ_OFFLOAD */

#ifdef CONFIG_PMP_STACK_GUARD
	li t0, MSTATUS_MPRV
	csrs mstatus, t0

	/* Move to current thread SP and move ESF */
	csrrw sp, mscratch, sp
	csrr t0, mscratch
	addi sp, sp, -__z_arch_esf_t_SIZEOF
#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0)
	beqz t1, skip_fp_move_kernel_syscall
	COPY_ESF_FP(sp, t0, t1)
skip_fp_move_kernel_syscall:
	COPY_ESF_FP_STATE(sp, t0, t1)
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

	COPY_ESF(sp, t0, t1)
	addi t0, t0, __z_arch_esf_t_SIZEOF
	csrw mscratch, t0
#endif /* CONFIG_PMP_STACK_GUARD */

#ifdef CONFIG_USERSPACE
	/*
	 * Check for forced syscall,
	 * otherwise go to reschedule to handle context-switch
	 */
	li t0, FORCE_SYSCALL_ID
	bne a7, t0, reschedule

	RV_OP_LOADREG a0, __z_arch_esf_t_a0_OFFSET(sp)

	/* Check for user_mode_enter function */
	la t0, arch_user_mode_enter
	bne t0, a0, reschedule

	RV_OP_LOADREG a0, __z_arch_esf_t_a1_OFFSET(sp)
	RV_OP_LOADREG a1, __z_arch_esf_t_a2_OFFSET(sp)
	RV_OP_LOADREG a2, __z_arch_esf_t_a3_OFFSET(sp)
	RV_OP_LOADREG a3, __z_arch_esf_t_a4_OFFSET(sp)

	/*
	 * MRET will be done in the following function because
	 * restore caller-saved registers is not need anymore
	 * due to user mode jump (new stack/context).
	 */
	j z_riscv_user_mode_enter_syscall
#endif /* CONFIG_USERSPACE */
	/*
	 * Go to reschedule to handle context-switch
	 */
	j reschedule

#ifdef CONFIG_USERSPACE
is_user_syscall:

#ifdef CONFIG_PMP_STACK_GUARD
	la t0, _kernel
	RV_OP_LOADREG a0, _kernel_offset_to_current(t0)
	jal ra, z_riscv_configure_stack_guard
#endif /* CONFIG_PMP_STACK_GUARD */

	/*
	 * A syscall is the result of an ecall instruction, in which case the
	 * MEPC will contain the address of the ecall instruction.
	 * Increment saved MEPC by 4 to prevent triggering the same ecall
	 * again upon exiting the ISR.
	 *
	 * It is safe to always increment by 4, even with compressed
	 * instructions, because the ecall instruction is always 4 bytes.
	 */
	RV_OP_LOADREG t1, __z_arch_esf_t_mepc_OFFSET(sp)
	addi t1, t1, 4
	RV_OP_STOREREG t1, __z_arch_esf_t_mepc_OFFSET(sp)
#ifdef CONFIG_PMP_STACK_GUARD
	/*
	 * Copy ESF to user stack in case of rescheduling
	 * directly from kernel ECALL (nested ECALL)
	 */
	csrrw sp, mscratch, sp
	csrr t0, mscratch
	addi sp, sp, -__z_arch_esf_t_SIZEOF
#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0)
	beqz t1, skip_fp_copy_user_syscall
	COPY_ESF_FP(sp, t0, t1)
skip_fp_copy_user_syscall:
	COPY_ESF_FP_STATE(sp, t0, t1)
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */
	COPY_ESF(sp, t0, t1)
#endif /* CONFIG_PMP_STACK_GUARD */
	/* Restore argument registers from user stack */
	RV_OP_LOADREG a0, __z_arch_esf_t_a0_OFFSET(sp)
	RV_OP_LOADREG a1, __z_arch_esf_t_a1_OFFSET(sp)
	RV_OP_LOADREG a2, __z_arch_esf_t_a2_OFFSET(sp)
	RV_OP_LOADREG a3, __z_arch_esf_t_a3_OFFSET(sp)
	RV_OP_LOADREG a4, __z_arch_esf_t_a4_OFFSET(sp)
	RV_OP_LOADREG a5, __z_arch_esf_t_a5_OFFSET(sp)
	mv a6, sp
	RV_OP_LOADREG a7, __z_arch_esf_t_a7_OFFSET(sp)

	/* Switch to privilege stack */
	la t0, _kernel
	RV_OP_LOADREG t1, _kernel_offset_to_current(t0)
	RV_OP_LOADREG t0, _thread_offset_to_priv_stack_start(t1)
	RV_OP_STOREREG sp, _thread_offset_to_user_sp(t1) /* Update user SP */
	addi sp, t0, CONFIG_PRIVILEGED_STACK_SIZE

	/* validate syscall limit */
	li t0, K_SYSCALL_LIMIT
	bltu a7, t0, valid_syscall_id

	/* bad syscall id.  Set arg1 to bad id and set call_id to SYSCALL_BAD */
	mv a0, a7
	li a7, K_SYSCALL_BAD

valid_syscall_id:

	/* Prepare to jump into do_syscall function */
	la t0, z_riscv_do_syscall
	csrw mepc, t0

	/* Force kernel mode for syscall execution */
	li t0, MSTATUS_MPP
	csrs mstatus, t0
	SOC_ERET

return_from_syscall:
	/*
	 * Retrieve a0 (returned value) from privilege stack
	 * (or IRQ stack if stack guard is enabled).
	 */
	RV_OP_LOADREG a0, __z_arch_esf_t_a0_OFFSET(sp)

no_reschedule_from_fault:
	/* Restore User SP */
	la t0, _kernel
	RV_OP_LOADREG t1, _kernel_offset_to_current(t0)
	RV_OP_LOADREG sp, _thread_offset_to_user_sp(t1)

	/* Update a0 (return value) */
	RV_OP_STOREREG a0, __z_arch_esf_t_a0_OFFSET(sp)

#ifdef CONFIG_PMP_STACK_GUARD
	/* Move to IRQ stack start */
	csrw mscratch, sp /* Save user sp */
	la t2, z_interrupt_stacks
	li t3, CONFIG_ISR_STACK_SIZE
	add sp, t2, t3

	/*
	 * Copy ESF to IRQ stack from user stack
	 * to execute "no_reschedule" properly.
	 */
	csrr t0, mscratch
	addi sp, sp, -__z_arch_esf_t_SIZEOF
#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0)
	beqz t1, skip_fp_copy_return_user_syscall
	COPY_ESF_FP(sp, t0, t1)
skip_fp_copy_return_user_syscall:
	COPY_ESF_FP_STATE(sp, t0, t1)
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */
	COPY_ESF(sp, t0, t1)

#endif /* CONFIG_PMP_STACK_GUARD */

	j no_reschedule

#endif /* CONFIG_USERSPACE */

is_interrupt:
#ifdef CONFIG_USERSPACE
	la t0, irq_flag
	li t2, 0x1
	sb t2, 0x00(t0)
#endif /* CONFIG_USERSPACE */

#if (CONFIG_USERSPACE == 0) && (CONFIG_PMP_STACK_GUARD == 0)
	/*
	 * Save current thread stack pointer and switch
	 * stack pointer to interrupt stack.
	 */

	/* Save thread stack pointer to temp register t0 */
	addi t0, sp, 0

	/* Switch to interrupt stack */
	la t2, _kernel
	RV_OP_LOADREG sp, _kernel_offset_to_irq_stack(t2)

	/*
	 * Save thread stack pointer on interrupt stack
	 * In RISC-V, stack pointer needs to be 16-byte aligned
	 */
	addi sp, sp, -16
	RV_OP_STOREREG t0, 0x00(sp)
#else
	la t2, _kernel
#endif /* !CONFIG_USERSPACE && !CONFIG_PMP_STACK_GUARD */

on_irq_stack:
	/* Increment _kernel.cpus[0].nested variable */
	lw t3, _kernel_offset_to_nested(t2)
	addi t3, t3, 1
	sw t3, _kernel_offset_to_nested(t2)

#ifdef CONFIG_IRQ_OFFLOAD
	/*
	 * If we are here due to a system call, t1 register should != 0.
	 * In this case, perform IRQ offloading, otherwise jump to call_irq
	 */
	beqz t1, call_irq

	/*
	 * Call z_irq_do_offload to handle IRQ offloading.
	 * Set return address to on_thread_stack in order to jump there
	 * upon returning from z_irq_do_offload
	 */
	la ra, on_thread_stack
	tail z_irq_do_offload

call_irq:
#endif /* CONFIG_IRQ_OFFLOAD */
#ifdef CONFIG_TRACING_ISR
	call sys_trace_isr_enter
#endif

	/* Get IRQ causing interrupt */
	csrr a0, mcause
	li t0, SOC_MCAUSE_EXP_MASK
	and a0, a0, t0

	/*
	 * Clear pending IRQ generating the interrupt at SOC level
	 * Pass IRQ number to __soc_handle_irq via register a0
	 */
	jal ra, __soc_handle_irq

	/*
	 * Call corresponding registered function in _sw_isr_table.
	 * (table is 2-word wide, we should shift index accordingly)
	 */
	la t0, _sw_isr_table
	slli a0, a0, (RV_REGSHIFT + 1)
	add t0, t0, a0

	/* Load argument in a0 register */
	RV_OP_LOADREG a0, 0x00(t0)

	/* Load ISR function address in register t1 */
	RV_OP_LOADREG t1, RV_REGSIZE(t0)

	/* Call ISR function */
	jalr ra, t1

on_thread_stack:
	/* Get reference to _kernel */
	la t1, _kernel

	/* Decrement _kernel.cpus[0].nested variable */
	lw t2, _kernel_offset_to_nested(t1)
	addi t2, t2, -1
	sw t2, _kernel_offset_to_nested(t1)

#if !defined(CONFIG_USERSPACE) && !defined(CONFIG_PMP_STACK_GUARD)
	/* Restore thread stack pointer */
	RV_OP_LOADREG t0, 0x00(sp)
	addi sp, t0, 0
#endif /* !CONFIG_USERSPACE && !CONFIG_PMP_STACK_GUARD */

#ifdef CONFIG_STACK_SENTINEL
	call z_check_stack_sentinel
	la t1, _kernel
#endif

#ifdef CONFIG_PREEMPT_ENABLED
	/*
	 * Check if we need to perform a reschedule
	 */

	/* Get pointer to _kernel.current */
	RV_OP_LOADREG t2, _kernel_offset_to_current(t1)

	/*
	 * Check if next thread to schedule is current thread.
	 * If yes do not perform a reschedule
	 */
	RV_OP_LOADREG t3, _kernel_offset_to_ready_q_cache(t1)
	beq t3, t2, no_reschedule
#else
	j no_reschedule
#endif /* CONFIG_PREEMPT_ENABLED */

#ifdef CONFIG_PMP_STACK_GUARD
	RV_OP_LOADREG a0, _kernel_offset_to_current(t1)
	jal ra, z_riscv_configure_stack_guard

	/*
	 * Move to saved SP and move ESF to retrieve it
	 * after reschedule.
	 */
	csrrw sp, mscratch, sp
	csrr t0, mscratch
	addi sp, sp, -__z_arch_esf_t_SIZEOF
#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	RV_OP_LOADREG t1, __z_arch_esf_t_fp_state_OFFSET(t0)
	beqz t1, skip_fp_move_irq
	COPY_ESF_FP(sp, t0, t1)
skip_fp_move_irq:
	COPY_ESF_FP_STATE(sp, t0, t1)
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */
	COPY_ESF(sp, t0, t1)
	addi t0, t0, __z_arch_esf_t_SIZEOF
	csrw mscratch, t0
#endif /* CONFIG_PMP_STACK_GUARD */

#ifdef CONFIG_USERSPACE
	/* Check if we are in user thread */
	WAS_NOT_USER(t3, t4)
	bnez t3, reschedule

	/*
	 * Switch to privilege stack because we want
	 * this starting point after reschedule.
	 */
	RV_OP_LOADREG t3, _thread_offset_to_priv_stack_start(t2)
	RV_OP_STOREREG sp, _thread_offset_to_user_sp(t2) /* Save user SP */
	mv t0, sp
	addi sp, t3, CONFIG_PRIVILEGED_STACK_SIZE

	/*
	 * Copy Saved ESF to priv stack, that will allow us to know during
	 * rescheduling if the thread was working on user mode.
	 */
	addi sp, sp, -__z_arch_esf_t_SIZEOF
	COPY_ESF(sp, t0, t1)

#endif /* CONFIG_USERSPACE */

reschedule:

#if CONFIG_INSTRUMENT_THREAD_SWITCHING
	call z_thread_mark_switched_out
#endif
	/* Get reference to _kernel */
	la t0, _kernel

	/* Get pointer to _kernel.current */
	RV_OP_LOADREG t1, _kernel_offset_to_current(t0)

#ifdef CONFIG_USERSPACE
	/*
	 * Check the thread mode and skip callee saved storing
	 * because it is already done for user
	 */
	WAS_NOT_USER(t6, t4)
	beqz t6, skip_callee_saved_reg
#endif /* CONFIG_USERSPACE */

	/*
	 * Save callee-saved registers of current kernel thread
	 * prior to handle context-switching
	 */
	STORE_CALLEE_SAVED(t1)

#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	/* Assess whether floating-point registers need to be saved. */
	RV_OP_LOADREG t2, _thread_offset_to_user_options(t1)
	andi t2, t2, K_FP_REGS
	beqz t2, skip_store_fp_callee_saved
	STORE_FP_CALLEE_SAVED(t1)

skip_store_fp_callee_saved:
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

skip_callee_saved_reg:
#ifdef CONFIG_PMP_STACK_GUARD
	/*
	 * Reset mscratch value because is simpler
	 * than remove user ESF, and prevent unknown corner cases
	 */
	la t2, z_interrupt_stacks
	li t3, CONFIG_ISR_STACK_SIZE
	add t2, t2, t3
	csrw mscratch, t2

#endif /* CONFIG_PMP_STACK_GUARD */

	/*
	 * Save stack pointer of current thread and set the default return value
	 * of z_swap to _k_neg_eagain for the thread.
	 */
	RV_OP_STOREREG sp, _thread_offset_to_sp(t1)
	la t2, _k_neg_eagain
	lw t3, 0x00(t2)
	sw t3, _thread_offset_to_swap_return_value(t1)

	/* Get next thread to schedule. */
	RV_OP_LOADREG t1, _kernel_offset_to_ready_q_cache(t0)

	/*
	 * Set _kernel.current to new thread loaded in t1
	 */
	RV_OP_STOREREG t1, _kernel_offset_to_current(t0)

	/* Switch to new thread stack */
	RV_OP_LOADREG sp, _thread_offset_to_sp(t1)

	/* Restore callee-saved registers of new thread */
	LOAD_CALLER_SAVED(t1)

#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	/* Determine if we need to restore floating-point registers. */
	RV_OP_LOADREG t2, _thread_offset_to_user_options(t1)
	andi t2, t2, K_FP_REGS
	beqz t2, skip_load_fp_callee_saved

	/*
	 * If we are switching from a thread with floating-point disabled the
	 * mstatus FS bits will still be cleared, which can cause an illegal
	 * instruction fault. Set the FS state before restoring the registers.
	 * mstatus will be restored later on.
	 */
	li t2, MSTATUS_FS_INIT
	csrrs x0, mstatus, t2

	LOAD_FP_CALLEE_SAVED(t1)

skip_load_fp_callee_saved:
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

#ifdef CONFIG_PMP_STACK_GUARD
	mv a0, t1	/* kernel current */
	jal ra, z_riscv_configure_stack_guard
#endif // CONFIG_PMP_STACK_GUARD

#ifdef CONFIG_USERSPACE
	/* t0 still reference to _kernel */
	/* t1 still pointer to _kernel.current */

	/* Check the thread mode */
	WAS_NOT_USER(t2, t4)
	bnez t2, kernel_swap

	/* Switch to user stack */
	RV_OP_LOADREG sp, _thread_offset_to_user_sp(t1)

	/* Setup User allowed stack */
	li t0, MSTATUS_MPRV
	csrc mstatus, t0
	mv a0, t1
	jal ra, z_riscv_configure_user_allowed_stack

	/* Set user mode variable */
	li t2, 0x1
	la t3, is_user_mode
	sb t2, 0x00(t3)

kernel_swap:
#endif /* CONFIG_USERSPACE */

#if CONFIG_INSTRUMENT_THREAD_SWITCHING
	call z_thread_mark_switched_in
#endif

#ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE
	/* Restore context at SOC level */
	addi a0, sp, __z_arch_esf_t_soc_context_OFFSET
	jal ra, __soc_restore_context
#endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */

	/* Restore MEPC register */
	RV_OP_LOADREG t0, __z_arch_esf_t_mepc_OFFSET(sp)
	csrw mepc, t0

	/* Restore SOC-specific MSTATUS register */
	RV_OP_LOADREG t0, __z_arch_esf_t_mstatus_OFFSET(sp)
	csrw mstatus, t0

#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	/*
	 * Determine if we need to restore floating-point registers. This needs
	 * to happen before restoring integer registers to avoid stomping on
	 * t0.
	 */
	RV_OP_LOADREG t0, __z_arch_esf_t_fp_state_OFFSET(sp)
	beqz t0, skip_load_fp_caller_saved_resched
	LOAD_FP_CALLER_SAVED(sp)

skip_load_fp_caller_saved_resched:
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

	/* Restore caller-saved registers from thread stack */
	LOAD_CALLEE_SAVED()

	/* Call SOC_ERET to exit ISR */
	SOC_ERET

no_reschedule:

#ifdef CONFIG_USERSPACE

	/* Check if we are in user thread */
	WAS_NOT_USER(t2, t4)
	bnez t2, no_enter_user

	li t0, MSTATUS_MPRV
	csrc mstatus, t0

	la t0, _kernel
	RV_OP_LOADREG a0, _kernel_offset_to_current(t0)
	jal ra, z_riscv_configure_user_allowed_stack

	/* Set user mode variable */
	li t1, 0x1
	la t0, is_user_mode
	sb t1, 0x00(t0)

	la t0, irq_flag
	lb t0, 0x00(t0)
	bnez t0, no_enter_user

	/* Clear ESF saved in User Stack */
	csrr t0, mscratch
	addi t0, t0, __z_arch_esf_t_SIZEOF
	csrw mscratch, t0

no_enter_user:
#endif /* CONFIG_USERSPACE */

#ifdef CONFIG_RISCV_SOC_CONTEXT_SAVE
	/* Restore context at SOC level */
	addi a0, sp, __z_arch_esf_t_soc_context_OFFSET
	jal ra, __soc_restore_context
#endif /* CONFIG_RISCV_SOC_CONTEXT_SAVE */

	/* Restore MEPC register */
	RV_OP_LOADREG t0, __z_arch_esf_t_mepc_OFFSET(sp)
	csrw mepc, t0

	/* Restore SOC-specific MSTATUS register */
	RV_OP_LOADREG t0, __z_arch_esf_t_mstatus_OFFSET(sp)
	csrw mstatus, t0

#if defined(CONFIG_FPU) && defined(CONFIG_FPU_SHARING)
	/*
	 * Determine if we need to restore floating-point registers. This needs
	 * to happen before restoring integer registers to avoid stomping on
	 * t0.
	 */
	RV_OP_LOADREG t0, __z_arch_esf_t_fp_state_OFFSET(sp)
	beqz t0, skip_load_fp_caller_saved
	LOAD_FP_CALLER_SAVED(sp)

skip_load_fp_caller_saved:
#endif /* CONFIG_FPU && CONFIG_FPU_SHARING */

	/* Restore caller-saved registers from thread stack */
	LOAD_CALLEE_SAVED()

#ifdef CONFIG_PMP_STACK_GUARD
	csrrw sp, mscratch, sp
#endif /* CONFIG_PMP_STACK_GUARD */
	/* Call SOC_ERET to exit ISR */
	SOC_ERET