| #include <linux/linkage.h> |
| #include <asm-generic/export.h> |
| #include <asm/asm.h> |
| #include <asm/asm-extable.h> |
| #include <asm/csr.h> |
| |
| .macro fixup op reg addr lbl |
| 100: |
| \op \reg, \addr |
| _asm_extable 100b, \lbl |
| .endm |
| |
| ENTRY(__asm_copy_to_user) |
| ENTRY(__asm_copy_from_user) |
| |
| /* Enable access to user memory */ |
| li t6, SR_SUM |
| csrs CSR_STATUS, t6 |
| |
| /* |
| * Save the terminal address which will be used to compute the number |
| * of bytes copied in case of a fixup exception. |
| */ |
| add t5, a0, a2 |
| |
| /* |
| * Register allocation for code below: |
| * a0 - start of uncopied dst |
| * a1 - start of uncopied src |
| * a2 - size |
| * t0 - end of uncopied dst |
| */ |
| add t0, a0, a2 |
| |
| /* |
| * Use byte copy only if too small. |
| * SZREG holds 4 for RV32 and 8 for RV64 |
| */ |
| li a3, 9*SZREG /* size must be larger than size in word_copy */ |
| bltu a2, a3, .Lbyte_copy_tail |
| |
| /* |
| * Copy first bytes until dst is aligned to word boundary. |
| * a0 - start of dst |
| * t1 - start of aligned dst |
| */ |
| addi t1, a0, SZREG-1 |
| andi t1, t1, ~(SZREG-1) |
| /* dst is already aligned, skip */ |
| beq a0, t1, .Lskip_align_dst |
| 1: |
| /* a5 - one byte for copying data */ |
| fixup lb a5, 0(a1), 10f |
| addi a1, a1, 1 /* src */ |
| fixup sb a5, 0(a0), 10f |
| addi a0, a0, 1 /* dst */ |
| bltu a0, t1, 1b /* t1 - start of aligned dst */ |
| |
| .Lskip_align_dst: |
| /* |
| * Now dst is aligned. |
| * Use shift-copy if src is misaligned. |
| * Use word-copy if both src and dst are aligned because |
| * can not use shift-copy which do not require shifting |
| */ |
| /* a1 - start of src */ |
| andi a3, a1, SZREG-1 |
| bnez a3, .Lshift_copy |
| |
| .Lword_copy: |
| /* |
| * Both src and dst are aligned, unrolled word copy |
| * |
| * a0 - start of aligned dst |
| * a1 - start of aligned src |
| * t0 - end of aligned dst |
| */ |
| addi t0, t0, -(8*SZREG) /* not to over run */ |
| 2: |
| fixup REG_L a4, 0(a1), 10f |
| fixup REG_L a5, SZREG(a1), 10f |
| fixup REG_L a6, 2*SZREG(a1), 10f |
| fixup REG_L a7, 3*SZREG(a1), 10f |
| fixup REG_L t1, 4*SZREG(a1), 10f |
| fixup REG_L t2, 5*SZREG(a1), 10f |
| fixup REG_L t3, 6*SZREG(a1), 10f |
| fixup REG_L t4, 7*SZREG(a1), 10f |
| fixup REG_S a4, 0(a0), 10f |
| fixup REG_S a5, SZREG(a0), 10f |
| fixup REG_S a6, 2*SZREG(a0), 10f |
| fixup REG_S a7, 3*SZREG(a0), 10f |
| fixup REG_S t1, 4*SZREG(a0), 10f |
| fixup REG_S t2, 5*SZREG(a0), 10f |
| fixup REG_S t3, 6*SZREG(a0), 10f |
| fixup REG_S t4, 7*SZREG(a0), 10f |
| addi a0, a0, 8*SZREG |
| addi a1, a1, 8*SZREG |
| bltu a0, t0, 2b |
| |
| addi t0, t0, 8*SZREG /* revert to original value */ |
| j .Lbyte_copy_tail |
| |
| .Lshift_copy: |
| |
| /* |
| * Word copy with shifting. |
| * For misaligned copy we still perform aligned word copy, but |
| * we need to use the value fetched from the previous iteration and |
| * do some shifts. |
| * This is safe because reading is less than a word size. |
| * |
| * a0 - start of aligned dst |
| * a1 - start of src |
| * a3 - a1 & mask:(SZREG-1) |
| * t0 - end of uncopied dst |
| * t1 - end of aligned dst |
| */ |
| /* calculating aligned word boundary for dst */ |
| andi t1, t0, ~(SZREG-1) |
| /* Converting unaligned src to aligned src */ |
| andi a1, a1, ~(SZREG-1) |
| |
| /* |
| * Calculate shifts |
| * t3 - prev shift |
| * t4 - current shift |
| */ |
| slli t3, a3, 3 /* converting bytes in a3 to bits */ |
| li a5, SZREG*8 |
| sub t4, a5, t3 |
| |
| /* Load the first word to combine with second word */ |
| fixup REG_L a5, 0(a1), 10f |
| |
| 3: |
| /* Main shifting copy |
| * |
| * a0 - start of aligned dst |
| * a1 - start of aligned src |
| * t1 - end of aligned dst |
| */ |
| |
| /* At least one iteration will be executed */ |
| srl a4, a5, t3 |
| fixup REG_L a5, SZREG(a1), 10f |
| addi a1, a1, SZREG |
| sll a2, a5, t4 |
| or a2, a2, a4 |
| fixup REG_S a2, 0(a0), 10f |
| addi a0, a0, SZREG |
| bltu a0, t1, 3b |
| |
| /* Revert src to original unaligned value */ |
| add a1, a1, a3 |
| |
| .Lbyte_copy_tail: |
| /* |
| * Byte copy anything left. |
| * |
| * a0 - start of remaining dst |
| * a1 - start of remaining src |
| * t0 - end of remaining dst |
| */ |
| bgeu a0, t0, .Lout_copy_user /* check if end of copy */ |
| 4: |
| fixup lb a5, 0(a1), 10f |
| addi a1, a1, 1 /* src */ |
| fixup sb a5, 0(a0), 10f |
| addi a0, a0, 1 /* dst */ |
| bltu a0, t0, 4b /* t0 - end of dst */ |
| |
| .Lout_copy_user: |
| /* Disable access to user memory */ |
| csrc CSR_STATUS, t6 |
| li a0, 0 |
| ret |
| |
| /* Exception fixup code */ |
| 10: |
| /* Disable access to user memory */ |
| csrc CSR_STATUS, t6 |
| sub a0, t5, a0 |
| ret |
| ENDPROC(__asm_copy_to_user) |
| ENDPROC(__asm_copy_from_user) |
| EXPORT_SYMBOL(__asm_copy_to_user) |
| EXPORT_SYMBOL(__asm_copy_from_user) |
| |
| |
| ENTRY(__clear_user) |
| |
| /* Enable access to user memory */ |
| li t6, SR_SUM |
| csrs CSR_STATUS, t6 |
| |
| add a3, a0, a1 |
| addi t0, a0, SZREG-1 |
| andi t1, a3, ~(SZREG-1) |
| andi t0, t0, ~(SZREG-1) |
| /* |
| * a3: terminal address of target region |
| * t0: lowest doubleword-aligned address in target region |
| * t1: highest doubleword-aligned address in target region |
| */ |
| bgeu t0, t1, 2f |
| bltu a0, t0, 4f |
| 1: |
| fixup REG_S, zero, (a0), 11f |
| addi a0, a0, SZREG |
| bltu a0, t1, 1b |
| 2: |
| bltu a0, a3, 5f |
| |
| 3: |
| /* Disable access to user memory */ |
| csrc CSR_STATUS, t6 |
| li a0, 0 |
| ret |
| 4: /* Edge case: unalignment */ |
| fixup sb, zero, (a0), 11f |
| addi a0, a0, 1 |
| bltu a0, t0, 4b |
| j 1b |
| 5: /* Edge case: remainder */ |
| fixup sb, zero, (a0), 11f |
| addi a0, a0, 1 |
| bltu a0, a3, 5b |
| j 3b |
| |
| /* Exception fixup code */ |
| 11: |
| /* Disable access to user memory */ |
| csrc CSR_STATUS, t6 |
| sub a0, a3, a0 |
| ret |
| ENDPROC(__clear_user) |
| EXPORT_SYMBOL(__clear_user) |