[mirror_edk2.git] / ArmPkg / Library / ArmLib / AArch64 / AArch64Support.S

#------------------------------------------------------------------------------\r
#\r
# Copyright (c) 2008 - 2010, Apple Inc. All rights reserved.<BR>\r
# Copyright (c) 2011 - 2013, ARM Limited. All rights reserved.\r
#\r
# This program and the accompanying materials\r
# are licensed and made available under the terms and conditions of the BSD License\r
# which accompanies this distribution.  The full text of the license may be found at\r
# http://opensource.org/licenses/bsd-license.php\r
#\r
# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
#\r
#------------------------------------------------------------------------------\r
\r
#include <Chipset/AArch64.h>\r
#include <AsmMacroIoLibV8.h>\r
\r
.text\r
.align 3\r
\r
GCC_ASM_EXPORT (ArmInvalidateInstructionCache)\r
GCC_ASM_EXPORT (ArmInvalidateDataCacheEntryByMVA)\r
GCC_ASM_EXPORT (ArmCleanDataCacheEntryByMVA)\r
GCC_ASM_EXPORT (ArmCleanInvalidateDataCacheEntryByMVA)\r
GCC_ASM_EXPORT (ArmInvalidateDataCacheEntryBySetWay)\r
GCC_ASM_EXPORT (ArmCleanDataCacheEntryBySetWay)\r
GCC_ASM_EXPORT (ArmCleanInvalidateDataCacheEntryBySetWay)\r
GCC_ASM_EXPORT (ArmDrainWriteBuffer)\r
GCC_ASM_EXPORT (ArmEnableMmu)\r
GCC_ASM_EXPORT (ArmDisableMmu)\r
GCC_ASM_EXPORT (ArmDisableCachesAndMmu)\r
GCC_ASM_EXPORT (ArmMmuEnabled)\r
GCC_ASM_EXPORT (ArmEnableDataCache)\r
GCC_ASM_EXPORT (ArmDisableDataCache)\r
GCC_ASM_EXPORT (ArmEnableInstructionCache)\r
GCC_ASM_EXPORT (ArmDisableInstructionCache)\r
GCC_ASM_EXPORT (ArmDisableAlignmentCheck)\r
GCC_ASM_EXPORT (ArmEnableAlignmentCheck)\r
GCC_ASM_EXPORT (ArmEnableBranchPrediction)\r
GCC_ASM_EXPORT (ArmDisableBranchPrediction)\r
GCC_ASM_EXPORT (AArch64AllDataCachesOperation)\r
GCC_ASM_EXPORT (AArch64PerformPoUDataCacheOperation)\r
GCC_ASM_EXPORT (ArmDataMemoryBarrier)\r
GCC_ASM_EXPORT (ArmDataSyncronizationBarrier)\r
GCC_ASM_EXPORT (ArmInstructionSynchronizationBarrier)\r
GCC_ASM_EXPORT (ArmWriteVBar)\r
GCC_ASM_EXPORT (ArmVFPImplemented)\r
GCC_ASM_EXPORT (ArmEnableVFP)\r
GCC_ASM_EXPORT (ArmCallWFI)\r
GCC_ASM_EXPORT (ArmInvalidateInstructionAndDataTlb)\r
GCC_ASM_EXPORT (ArmReadMpidr)\r
GCC_ASM_EXPORT (ArmReadTpidrurw)\r
GCC_ASM_EXPORT (ArmWriteTpidrurw)\r
GCC_ASM_EXPORT (ArmIsArchTimerImplemented)\r
GCC_ASM_EXPORT (ArmReadIdPfr0)\r
GCC_ASM_EXPORT (ArmReadIdPfr1)\r
GCC_ASM_EXPORT (ArmWriteHcr)\r
GCC_ASM_EXPORT (ArmReadCurrentEL)\r
\r
.set CTRL_M_BIT,      (1 << 0)\r
.set CTRL_A_BIT,      (1 << 1)\r
.set CTRL_C_BIT,      (1 << 2)\r
.set CTRL_I_BIT,      (1 << 12)\r
.set CTRL_V_BIT,      (1 << 12)\r
.set CPACR_VFP_BITS,  (3 << 20)\r
\r
ASM_PFX(ArmInvalidateDataCacheEntryByMVA):\r
  dc      ivac, x0    // Invalidate single data cache line\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmCleanDataCacheEntryByMVA):\r
  dc      cvac, x0    // Clean single data cache line\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmCleanInvalidateDataCacheEntryByMVA):\r
  dc      civac, x0   // Clean and invalidate single data cache line\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmInvalidateDataCacheEntryBySetWay):\r
  dc      isw, x0     // Invalidate this line\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmCleanInvalidateDataCacheEntryBySetWay):\r
  dc      cisw, x0    // Clean and Invalidate this line\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmCleanDataCacheEntryBySetWay):\r
  dc      csw, x0     // Clean this line\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmInvalidateInstructionCache):\r
  ic      iallu       // Invalidate entire instruction cache\r
  dsb     sy\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmEnableMmu):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1       // Read System control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2       // Read System control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3       // Read System control register EL3\r
4: orr     x0, x0, #CTRL_M_BIT // Set MMU enable bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: tlbi    alle1\r
   isb\r
   msr     sctlr_el1, x0       // Write back\r
   b       4f\r
2: tlbi    alle2\r
   isb\r
   msr     sctlr_el2, x0       // Write back\r
   b       4f\r
3: tlbi    alle3\r
   isb\r
   msr     sctlr_el3, x0       // Write back\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmDisableMmu):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Read System Control Register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Read System Control Register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Read System Control Register EL3\r
4: bic     x0, x0, #CTRL_M_BIT  // Clear MMU enable bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back\r
   tlbi    alle1\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back\r
   tlbi    alle2\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back\r
   tlbi    alle3\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmDisableCachesAndMmu):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: bic     x0, x0, #CTRL_M_BIT  // Disable MMU\r
   bic     x0, x0, #CTRL_C_BIT  // Disable D Cache\r
   bic     x0, x0, #CTRL_I_BIT  // Disable I Cache\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back control register\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back control register\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmMmuEnabled):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: and     x0, x0, #CTRL_M_BIT\r
   ret\r
\r
\r
ASM_PFX(ArmEnableDataCache):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: orr     x0, x0, #CTRL_C_BIT  // Set C bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back control register\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back control register\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmDisableDataCache):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: bic     x0, x0, #CTRL_C_BIT  // Clear C bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back control register\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back control register\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmEnableInstructionCache):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: orr     x0, x0, #CTRL_I_BIT  // Set I bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back control register\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back control register\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmDisableInstructionCache):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: bic     x0, x0, #CTRL_I_BIT  // Clear I bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back control register\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back control register\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmEnableAlignmentCheck):\r
   EL1_OR_EL2(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       3f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
3: orr     x0, x0, #CTRL_A_BIT  // Set A (alignment check) bit\r
   EL1_OR_EL2(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       3f\r
2: msr     sctlr_el2, x0        // Write back control register\r
3: dsb     sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmDisableAlignmentCheck):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: mrs     x0, sctlr_el1        // Get control register EL1\r
   b       4f\r
2: mrs     x0, sctlr_el2        // Get control register EL2\r
   b       4f\r
3: mrs     x0, sctlr_el3        // Get control register EL3\r
4: bic     x0, x0, #CTRL_A_BIT  // Clear A (alignment check) bit\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr     sctlr_el1, x0        // Write back control register\r
   b       4f\r
2: msr     sctlr_el2, x0        // Write back control register\r
   b       4f\r
3: msr     sctlr_el3, x0        // Write back control register\r
4: dsb     sy\r
   isb\r
   ret\r
\r
\r
// Always turned on in AArch64. Else implementation specific. Leave in for C compatibility for now\r
ASM_PFX(ArmEnableBranchPrediction):\r
  ret\r
\r
\r
// Always turned on in AArch64. Else implementation specific. Leave in for C compatibility for now.\r
ASM_PFX(ArmDisableBranchPrediction):\r
  ret\r
\r
\r
ASM_PFX(AArch64AllDataCachesOperation):\r
// We can use regs 0-7 and 9-15 without having to save/restore.\r
// Save our link register on the stack.\r
  str   x30, [sp, #-0x10]!\r
  mov   x1, x0                  // Save Function call in x1\r
  mrs   x6, clidr_el1           // Read EL1 CLIDR\r
  and   x3, x6, #0x7000000      // Mask out all but Level of Coherency (LoC)\r
  lsr   x3, x3, #23             // Left align cache level value\r
  cbz   x3, L_Finished          // No need to clean if LoC is 0\r
  mov   x10, #0                 // Start clean at cache level 0\r
  b     Loop1\r
\r
ASM_PFX(AArch64PerformPoUDataCacheOperation):\r
// We can use regs 0-7 and 9-15 without having to save/restore.\r
// Save our link register on the stack.\r
  str   x30, [sp, #-0x10]!\r
  mov   x1, x0                  // Save Function call in x1\r
  mrs   x6, clidr_el1           // Read EL1 CLIDR\r
  and   x3, x6, #0x38000000     // Mask out all but Point of Unification (PoU)\r
  lsr   x3, x3, #26             // Left align cache level value\r
  cbz   x3, L_Finished          // No need to clean if LoC is 0\r
  mov   x10, #0                 // Start clean at cache level 0\r
\r
Loop1:\r
  add   x2, x10, x10, lsr #1    // Work out 3x cachelevel for cache info\r
  lsr   x12, x6, x2             // bottom 3 bits are the Cache type for this level\r
  and   x12, x12, #7            // get those 3 bits alone\r
  cmp   x12, #2                 // what cache at this level?\r
  b.lt  L_Skip                  // no cache or only instruction cache at this level\r
  msr   csselr_el1, x10         // write the Cache Size selection register with current level (CSSELR)\r
  isb                           // isb to sync the change to the CacheSizeID reg\r
  mrs   x12, ccsidr_el1         // reads current Cache Size ID register (CCSIDR)\r
  and   x2, x12, #0x7           // extract the line length field\r
  add   x2, x2, #4              // add 4 for the line length offset (log2 16 bytes)\r
  mov   x4, #0x400\r
  sub   x4, x4, #1\r
  and   x4, x4, x12, lsr #3     // x4 is the max number on the way size (right aligned)\r
  clz   w5, w4                  // w5 is the bit position of the way size increment\r
  mov   x7, #0x00008000\r
  sub   x7, x7, #1\r
  and   x7, x7, x12, lsr #13    // x7 is the max number of the index size (right aligned)\r
\r
Loop2:\r
  mov   x9, x4                  // x9 working copy of the max way size (right aligned)\r
\r
Loop3:\r
  lsl   x11, x9, x5\r
  orr   x0, x10, x11            // factor in the way number and cache number\r
  lsl   x11, x7, x2\r
  orr   x0, x0, x11             // factor in the index number\r
\r
  blr   x1                      // Goto requested cache operation\r
\r
  subs  x9, x9, #1              // decrement the way number\r
  b.ge  Loop3\r
  subs  x7, x7, #1              // decrement the index\r
  b.ge  Loop2\r
L_Skip:\r
  add   x10, x10, #2            // increment the cache number\r
  cmp   x3, x10\r
  b.gt  Loop1\r
\r
L_Finished:\r
  dsb   sy\r
  isb\r
  ldr   x30, [sp], #0x10\r
  ret\r
\r
\r
ASM_PFX(ArmDataMemoryBarrier):\r
  dmb   sy\r
  ret\r
\r
\r
ASM_PFX(ArmDataSyncronizationBarrier):\r
ASM_PFX(ArmDrainWriteBuffer):\r
  dsb   sy\r
  ret\r
\r
\r
ASM_PFX(ArmInstructionSynchronizationBarrier):\r
  isb\r
  ret\r
\r
\r
ASM_PFX(ArmWriteVBar):\r
   EL1_OR_EL2_OR_EL3(x1)\r
1: msr   vbar_el1, x0            // Set the Address of the EL1 Vector Table in the VBAR register\r
   b     4f\r
2: msr   vbar_el2, x0            // Set the Address of the EL2 Vector Table in the VBAR register\r
   b     4f\r
3: msr   vbar_el3, x0            // Set the Address of the EL3 Vector Table in the VBAR register\r
4: isb\r
   ret\r
\r
ASM_PFX(ArmEnableVFP):\r
  // Check whether floating-point is implemented in the processor.\r
  mov   x1, x30                 // Save LR\r
  bl    ArmReadIdPfr0           // Read EL1 Processor Feature Register (PFR0)\r
  mov   x30, x1                 // Restore LR\r
  ands  x0, x0, #AARCH64_PFR0_FP// Extract bits indicating VFP implementation\r
  cmp   x0, #0                  // VFP is implemented if '0'.\r
  b.ne  4f                      // Exit if VFP not implemented.\r
  // FVP is implemented.\r
  // Make sure VFP exceptions are not trapped (to any exception level).\r
  mrs   x0, cpacr_el1           // Read EL1 Coprocessor Access Control Register (CPACR)\r
  orr   x0, x0, #CPACR_VFP_BITS // Disable FVP traps to EL1\r
  msr   cpacr_el1, x0           // Write back EL1 Coprocessor Access Control Register (CPACR)\r
  mov   x1, #AARCH64_CPTR_TFP   // TFP Bit for trapping VFP Exceptions\r
  EL1_OR_EL2_OR_EL3(x2)\r
1:ret                           // Not configurable in EL1\r
2:mrs   x0, cptr_el2            // Disable VFP traps to EL2\r
  bic   x0, x0, x1\r
  msr   cptr_el2, x0\r
  ret\r
3:mrs   x0, cptr_el3            // Disable VFP traps to EL3\r
  bic   x0, x0, x1\r
  msr   cptr_el3, x0\r
4:ret\r
\r
\r
ASM_PFX(ArmCallWFI):\r
  wfi\r
  ret\r
\r
\r
ASM_PFX(ArmInvalidateInstructionAndDataTlb):\r
   EL1_OR_EL2_OR_EL3(x0)\r
1: tlbi  alle1\r
   b     4f\r
2: tlbi  alle2\r
   b     4f\r
3: tlbi  alle3\r
4: dsb   sy\r
   isb\r
   ret\r
\r
\r
ASM_PFX(ArmReadMpidr):\r
  mrs   x0, mpidr_el1           // read EL1 MPIDR\r
  ret\r
\r
\r
// Keep old function names for C compatibilty for now. Change later?\r
ASM_PFX(ArmReadTpidrurw):\r
  mrs   x0, tpidr_el0           // read tpidr_el0 (v7 TPIDRURW) -> (v8 TPIDR_EL0)\r
  ret\r
\r
\r
// Keep old function names for C compatibilty for now. Change later?\r
ASM_PFX(ArmWriteTpidrurw):\r
  msr   tpidr_el0, x0           // write tpidr_el0 (v7 TPIDRURW) -> (v8 TPIDR_EL0)\r
  ret\r
\r
\r
// Arch timers are mandatory on AArch64\r
ASM_PFX(ArmIsArchTimerImplemented):\r
  mov   x0, #1\r
  ret\r
\r
\r
ASM_PFX(ArmReadIdPfr0):\r
  mrs   x0, id_aa64pfr0_el1   // Read ID_AA64PFR0 Register\r
  ret\r
\r
\r
// Q: id_aa64pfr1_el1 not defined yet. What does this funtion want to access?\r
// A: used to setup arch timer. Check if we have security extensions, permissions to set stuff.\r
//    See: ArmPkg/Library/ArmArchTimerLib/AArch64/ArmArchTimerLib.c\r
//    Not defined yet, but stick in here for now, should read all zeros.\r
ASM_PFX(ArmReadIdPfr1):\r
  mrs   x0, id_aa64pfr1_el1   // Read ID_PFR1 Register\r
  ret\r
\r
// VOID ArmWriteHcr(UINTN Hcr)\r
ASM_PFX(ArmWriteHcr):\r
  msr   hcr_el2, x0        // Write the passed HCR value\r
  ret\r
\r
// UINTN ArmReadCurrentEL(VOID)\r
ASM_PFX(ArmReadCurrentEL):\r
  mrs   x0, CurrentEL\r
  ret\r
\r
dead:\r
  b     dead\r
\r
ASM_FUNCTION_REMOVE_IF_UNREFERENCED\r
Commit	Line	Data
25402f5d HL	1	#------------------------------------------------------------------------------\r
	2	#\r
	3	# Copyright (c) 2008 - 2010, Apple Inc. All rights reserved.<BR>\r
	4	# Copyright (c) 2011 - 2013, ARM Limited. All rights reserved.\r
	5	#\r
	6	# This program and the accompanying materials\r
	7	# are licensed and made available under the terms and conditions of the BSD License\r
	8	# which accompanies this distribution. The full text of the license may be found at\r
	9	# http://opensource.org/licenses/bsd-license.php\r
	10	#\r
	11	# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
	12	# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
	13	#\r
	14	#------------------------------------------------------------------------------\r
	15	\r
	16	#include <Chipset/AArch64.h>\r
	17	#include <AsmMacroIoLibV8.h>\r
	18	\r
	19	.text\r
	20	.align 3\r
	21	\r
	22	GCC_ASM_EXPORT (ArmInvalidateInstructionCache)\r
	23	GCC_ASM_EXPORT (ArmInvalidateDataCacheEntryByMVA)\r
	24	GCC_ASM_EXPORT (ArmCleanDataCacheEntryByMVA)\r
	25	GCC_ASM_EXPORT (ArmCleanInvalidateDataCacheEntryByMVA)\r
	26	GCC_ASM_EXPORT (ArmInvalidateDataCacheEntryBySetWay)\r
	27	GCC_ASM_EXPORT (ArmCleanDataCacheEntryBySetWay)\r
	28	GCC_ASM_EXPORT (ArmCleanInvalidateDataCacheEntryBySetWay)\r
	29	GCC_ASM_EXPORT (ArmDrainWriteBuffer)\r
	30	GCC_ASM_EXPORT (ArmEnableMmu)\r
	31	GCC_ASM_EXPORT (ArmDisableMmu)\r
	32	GCC_ASM_EXPORT (ArmDisableCachesAndMmu)\r
	33	GCC_ASM_EXPORT (ArmMmuEnabled)\r
	34	GCC_ASM_EXPORT (ArmEnableDataCache)\r
	35	GCC_ASM_EXPORT (ArmDisableDataCache)\r
	36	GCC_ASM_EXPORT (ArmEnableInstructionCache)\r
	37	GCC_ASM_EXPORT (ArmDisableInstructionCache)\r
	38	GCC_ASM_EXPORT (ArmDisableAlignmentCheck)\r
	39	GCC_ASM_EXPORT (ArmEnableAlignmentCheck)\r
	40	GCC_ASM_EXPORT (ArmEnableBranchPrediction)\r
	41	GCC_ASM_EXPORT (ArmDisableBranchPrediction)\r
	42	GCC_ASM_EXPORT (AArch64AllDataCachesOperation)\r
	43	GCC_ASM_EXPORT (AArch64PerformPoUDataCacheOperation)\r
	44	GCC_ASM_EXPORT (ArmDataMemoryBarrier)\r
	45	GCC_ASM_EXPORT (ArmDataSyncronizationBarrier)\r
	46	GCC_ASM_EXPORT (ArmInstructionSynchronizationBarrier)\r
	47	GCC_ASM_EXPORT (ArmWriteVBar)\r
	48	GCC_ASM_EXPORT (ArmVFPImplemented)\r
	49	GCC_ASM_EXPORT (ArmEnableVFP)\r
	50	GCC_ASM_EXPORT (ArmCallWFI)\r
	51	GCC_ASM_EXPORT (ArmInvalidateInstructionAndDataTlb)\r
	52	GCC_ASM_EXPORT (ArmReadMpidr)\r
	53	GCC_ASM_EXPORT (ArmReadTpidrurw)\r
	54	GCC_ASM_EXPORT (ArmWriteTpidrurw)\r
	55	GCC_ASM_EXPORT (ArmIsArchTimerImplemented)\r
	56	GCC_ASM_EXPORT (ArmReadIdPfr0)\r
	57	GCC_ASM_EXPORT (ArmReadIdPfr1)\r
	58	GCC_ASM_EXPORT (ArmWriteHcr)\r
	59	GCC_ASM_EXPORT (ArmReadCurrentEL)\r
	60	\r
	61	.set CTRL_M_BIT, (1 << 0)\r
	62	.set CTRL_A_BIT, (1 << 1)\r
	63	.set CTRL_C_BIT, (1 << 2)\r
	64	.set CTRL_I_BIT, (1 << 12)\r
65	.set CTRL_V_BIT, (1 << 12)\r
66	.set CPACR_VFP_BITS, (3 << 20)\r
67	\r
68	ASM_PFX(ArmInvalidateDataCacheEntryByMVA):\r
69	dc ivac, x0 // Invalidate single data cache line\r
70	dsb sy\r
71	isb\r
72	ret\r
73	\r
74	\r
75	ASM_PFX(ArmCleanDataCacheEntryByMVA):\r
76	dc cvac, x0 // Clean single data cache line\r
77	dsb sy\r
78	isb\r
79	ret\r
80	\r
81	\r
82	ASM_PFX(ArmCleanInvalidateDataCacheEntryByMVA):\r
83	dc civac, x0 // Clean and invalidate single data cache line\r
84	dsb sy\r
85	isb\r
86	ret\r
87	\r
88	\r
89	ASM_PFX(ArmInvalidateDataCacheEntryBySetWay):\r
90	dc isw, x0 // Invalidate this line\r
91	dsb sy\r
92	isb\r
93	ret\r
94	\r
95	\r
96	ASM_PFX(ArmCleanInvalidateDataCacheEntryBySetWay):\r
97	dc cisw, x0 // Clean and Invalidate this line\r
98	dsb sy\r
99	isb\r
100	ret\r
101	\r
102	\r
103	ASM_PFX(ArmCleanDataCacheEntryBySetWay):\r
104	dc csw, x0 // Clean this line\r
105	dsb sy\r
106	isb\r
107	ret\r
108	\r
109	\r
110	ASM_PFX(ArmInvalidateInstructionCache):\r
111	ic iallu // Invalidate entire instruction cache\r
112	dsb sy\r
113	isb\r
114	ret\r
115	\r
116	\r
117	ASM_PFX(ArmEnableMmu):\r
118	EL1_OR_EL2_OR_EL3(x1)\r
119	1: mrs x0, sctlr_el1 // Read System control register EL1\r
120	b 4f\r
121	2: mrs x0, sctlr_el2 // Read System control register EL2\r
122	b 4f\r
123	3: mrs x0, sctlr_el3 // Read System control register EL3\r
124	4: orr x0, x0, #CTRL_M_BIT // Set MMU enable bit\r
125	EL1_OR_EL2_OR_EL3(x1)\r
126	1: tlbi alle1\r
127	isb\r
128	msr sctlr_el1, x0 // Write back\r
129	b 4f\r
130	2: tlbi alle2\r
131	isb\r
132	msr sctlr_el2, x0 // Write back\r
133	b 4f\r
134	3: tlbi alle3\r
135	isb\r
136	msr sctlr_el3, x0 // Write back\r
137	4: dsb sy\r
138	isb\r
139	ret\r
140	\r
141	\r
142	ASM_PFX(ArmDisableMmu):\r
143	EL1_OR_EL2_OR_EL3(x1)\r
144	1: mrs x0, sctlr_el1 // Read System Control Register EL1\r
145	b 4f\r
146	2: mrs x0, sctlr_el2 // Read System Control Register EL2\r
147	b 4f\r
148	3: mrs x0, sctlr_el3 // Read System Control Register EL3\r
149	4: bic x0, x0, #CTRL_M_BIT // Clear MMU enable bit\r
150	EL1_OR_EL2_OR_EL3(x1)\r
151	1: msr sctlr_el1, x0 // Write back\r
152	tlbi alle1\r
153	b 4f\r
154	2: msr sctlr_el2, x0 // Write back\r
155	tlbi alle2\r
156	b 4f\r
157	3: msr sctlr_el3, x0 // Write back\r
158	tlbi alle3\r
159	4: dsb sy\r
160	isb\r
161	ret\r
162	\r
163	\r
164	ASM_PFX(ArmDisableCachesAndMmu):\r
165	EL1_OR_EL2_OR_EL3(x1)\r
166	1: mrs x0, sctlr_el1 // Get control register EL1\r
167	b 4f\r
168	2: mrs x0, sctlr_el2 // Get control register EL2\r
169	b 4f\r
170	3: mrs x0, sctlr_el3 // Get control register EL3\r
171	4: bic x0, x0, #CTRL_M_BIT // Disable MMU\r
172	bic x0, x0, #CTRL_C_BIT // Disable D Cache\r
173	bic x0, x0, #CTRL_I_BIT // Disable I Cache\r
174	EL1_OR_EL2_OR_EL3(x1)\r
175	1: msr sctlr_el1, x0 // Write back control register\r
176	b 4f\r
177	2: msr sctlr_el2, x0 // Write back control register\r
178	b 4f\r
179	3: msr sctlr_el3, x0 // Write back control register\r
180	4: dsb sy\r
181	isb\r
182	ret\r
183	\r
184	\r
185	ASM_PFX(ArmMmuEnabled):\r
186	EL1_OR_EL2_OR_EL3(x1)\r
187	1: mrs x0, sctlr_el1 // Get control register EL1\r
188	b 4f\r
189	2: mrs x0, sctlr_el2 // Get control register EL2\r
190	b 4f\r
191	3: mrs x0, sctlr_el3 // Get control register EL3\r
192	4: and x0, x0, #CTRL_M_BIT\r
193	ret\r
194	\r
195	\r
196	ASM_PFX(ArmEnableDataCache):\r
197	EL1_OR_EL2_OR_EL3(x1)\r
198	1: mrs x0, sctlr_el1 // Get control register EL1\r
199	b 4f\r
200	2: mrs x0, sctlr_el2 // Get control register EL2\r
201	b 4f\r
202	3: mrs x0, sctlr_el3 // Get control register EL3\r
203	4: orr x0, x0, #CTRL_C_BIT // Set C bit\r
204	EL1_OR_EL2_OR_EL3(x1)\r
205	1: msr sctlr_el1, x0 // Write back control register\r
206	b 4f\r
207	2: msr sctlr_el2, x0 // Write back control register\r
208	b 4f\r
209	3: msr sctlr_el3, x0 // Write back control register\r
210	4: dsb sy\r
211	isb\r
212	ret\r
213	\r
214	\r
215	ASM_PFX(ArmDisableDataCache):\r
216	EL1_OR_EL2_OR_EL3(x1)\r
217	1: mrs x0, sctlr_el1 // Get control register EL1\r
218	b 4f\r
219	2: mrs x0, sctlr_el2 // Get control register EL2\r
220	b 4f\r
221	3: mrs x0, sctlr_el3 // Get control register EL3\r
222	4: bic x0, x0, #CTRL_C_BIT // Clear C bit\r
223	EL1_OR_EL2_OR_EL3(x1)\r
224	1: msr sctlr_el1, x0 // Write back control register\r
225	b 4f\r
226	2: msr sctlr_el2, x0 // Write back control register\r
227	b 4f\r
228	3: msr sctlr_el3, x0 // Write back control register\r
229	4: dsb sy\r
230	isb\r
231	ret\r
232	\r
233	\r
234	ASM_PFX(ArmEnableInstructionCache):\r
235	EL1_OR_EL2_OR_EL3(x1)\r
236	1: mrs x0, sctlr_el1 // Get control register EL1\r
237	b 4f\r
238	2: mrs x0, sctlr_el2 // Get control register EL2\r
239	b 4f\r
240	3: mrs x0, sctlr_el3 // Get control register EL3\r
241	4: orr x0, x0, #CTRL_I_BIT // Set I bit\r
242	EL1_OR_EL2_OR_EL3(x1)\r
243	1: msr sctlr_el1, x0 // Write back control register\r
244	b 4f\r
245	2: msr sctlr_el2, x0 // Write back control register\r
246	b 4f\r
247	3: msr sctlr_el3, x0 // Write back control register\r
248	4: dsb sy\r
249	isb\r
250	ret\r
251	\r
252	\r
253	ASM_PFX(ArmDisableInstructionCache):\r
254	EL1_OR_EL2_OR_EL3(x1)\r
255	1: mrs x0, sctlr_el1 // Get control register EL1\r
256	b 4f\r
257	2: mrs x0, sctlr_el2 // Get control register EL2\r
258	b 4f\r
259	3: mrs x0, sctlr_el3 // Get control register EL3\r
260	4: bic x0, x0, #CTRL_I_BIT // Clear I bit\r
261	EL1_OR_EL2_OR_EL3(x1)\r
262	1: msr sctlr_el1, x0 // Write back control register\r
263	b 4f\r
264	2: msr sctlr_el2, x0 // Write back control register\r
265	b 4f\r
266	3: msr sctlr_el3, x0 // Write back control register\r
267	4: dsb sy\r
268	isb\r
269	ret\r
270	\r
271	\r
272	ASM_PFX(ArmEnableAlignmentCheck):\r
273	EL1_OR_EL2(x1)\r
274	1: mrs x0, sctlr_el1 // Get control register EL1\r
275	b 3f\r
276	2: mrs x0, sctlr_el2 // Get control register EL2\r
277	3: orr x0, x0, #CTRL_A_BIT // Set A (alignment check) bit\r
278	EL1_OR_EL2(x1)\r
279	1: msr sctlr_el1, x0 // Write back control register\r
280	b 3f\r
281	2: msr sctlr_el2, x0 // Write back control register\r
282	3: dsb sy\r
283	isb\r
284	ret\r
285	\r
286	\r
287	ASM_PFX(ArmDisableAlignmentCheck):\r
288	EL1_OR_EL2_OR_EL3(x1)\r
289	1: mrs x0, sctlr_el1 // Get control register EL1\r
290	b 4f\r
291	2: mrs x0, sctlr_el2 // Get control register EL2\r
292	b 4f\r
293	3: mrs x0, sctlr_el3 // Get control register EL3\r
294	4: bic x0, x0, #CTRL_A_BIT // Clear A (alignment check) bit\r
295	EL1_OR_EL2_OR_EL3(x1)\r
296	1: msr sctlr_el1, x0 // Write back control register\r
297	b 4f\r
298	2: msr sctlr_el2, x0 // Write back control register\r
299	b 4f\r
300	3: msr sctlr_el3, x0 // Write back control register\r
301	4: dsb sy\r
302	isb\r
303	ret\r
304	\r
305	\r
306	// Always turned on in AArch64. Else implementation specific. Leave in for C compatibility for now\r
307	ASM_PFX(ArmEnableBranchPrediction):\r
308	ret\r
309	\r
310	\r
311	// Always turned on in AArch64. Else implementation specific. Leave in for C compatibility for now.\r
312	ASM_PFX(ArmDisableBranchPrediction):\r
313	ret\r
314	\r
315	\r
316	ASM_PFX(AArch64AllDataCachesOperation):\r
317	// We can use regs 0-7 and 9-15 without having to save/restore.\r
318	// Save our link register on the stack.\r
319	str x30, [sp, #-0x10]!\r
320	mov x1, x0 // Save Function call in x1\r
321	mrs x6, clidr_el1 // Read EL1 CLIDR\r
322	and x3, x6, #0x7000000 // Mask out all but Level of Coherency (LoC)\r
323	lsr x3, x3, #23 // Left align cache level value\r
324	cbz x3, L_Finished // No need to clean if LoC is 0\r
325	mov x10, #0 // Start clean at cache level 0\r
326	b Loop1\r
327	\r
328	ASM_PFX(AArch64PerformPoUDataCacheOperation):\r
329	// We can use regs 0-7 and 9-15 without having to save/restore.\r
330	// Save our link register on the stack.\r
331	str x30, [sp, #-0x10]!\r
332	mov x1, x0 // Save Function call in x1\r
333	mrs x6, clidr_el1 // Read EL1 CLIDR\r
334	and x3, x6, #0x38000000 // Mask out all but Point of Unification (PoU)\r
335	lsr x3, x3, #26 // Left align cache level value\r
336	cbz x3, L_Finished // No need to clean if LoC is 0\r
337	mov x10, #0 // Start clean at cache level 0\r
338	\r
339	Loop1:\r
340	add x2, x10, x10, lsr #1 // Work out 3x cachelevel for cache info\r
341	lsr x12, x6, x2 // bottom 3 bits are the Cache type for this level\r
342	and x12, x12, #7 // get those 3 bits alone\r
343	cmp x12, #2 // what cache at this level?\r
344	b.lt L_Skip // no cache or only instruction cache at this level\r
345	msr csselr_el1, x10 // write the Cache Size selection register with current level (CSSELR)\r
346	isb // isb to sync the change to the CacheSizeID reg\r
347	mrs x12, ccsidr_el1 // reads current Cache Size ID register (CCSIDR)\r
348	and x2, x12, #0x7 // extract the line length field\r
349	add x2, x2, #4 // add 4 for the line length offset (log2 16 bytes)\r
350	mov x4, #0x400\r
351	sub x4, x4, #1\r
352	and x4, x4, x12, lsr #3 // x4 is the max number on the way size (right aligned)\r
353	clz w5, w4 // w5 is the bit position of the way size increment\r
354	mov x7, #0x00008000\r
355	sub x7, x7, #1\r
356	and x7, x7, x12, lsr #13 // x7 is the max number of the index size (right aligned)\r
357	\r
358	Loop2:\r
359	mov x9, x4 // x9 working copy of the max way size (right aligned)\r
360	\r
361	Loop3:\r
362	lsl x11, x9, x5\r
363	orr x0, x10, x11 // factor in the way number and cache number\r
364	lsl x11, x7, x2\r
365	orr x0, x0, x11 // factor in the index number\r
366	\r
367	blr x1 // Goto requested cache operation\r
368	\r
369	subs x9, x9, #1 // decrement the way number\r
370	b.ge Loop3\r
371	subs x7, x7, #1 // decrement the index\r
372	b.ge Loop2\r
373	L_Skip:\r
374	add x10, x10, #2 // increment the cache number\r
375	cmp x3, x10\r
376	b.gt Loop1\r
377	\r
378	L_Finished:\r
379	dsb sy\r
380	isb\r
381	ldr x30, [sp], #0x10\r
382	ret\r
383	\r
384	\r
385	ASM_PFX(ArmDataMemoryBarrier):\r
386	dmb sy\r
387	ret\r
388	\r
389	\r
390	ASM_PFX(ArmDataSyncronizationBarrier):\r
391	ASM_PFX(ArmDrainWriteBuffer):\r
392	dsb sy\r
393	ret\r
394	\r
395	\r
396	ASM_PFX(ArmInstructionSynchronizationBarrier):\r
397	isb\r
398	ret\r
399	\r
400	\r
401	ASM_PFX(ArmWriteVBar):\r
402	EL1_OR_EL2_OR_EL3(x1)\r
403	1: msr vbar_el1, x0 // Set the Address of the EL1 Vector Table in the VBAR register\r
404	b 4f\r
405	2: msr vbar_el2, x0 // Set the Address of the EL2 Vector Table in the VBAR register\r
406	b 4f\r
407	3: msr vbar_el3, x0 // Set the Address of the EL3 Vector Table in the VBAR register\r
408	4: isb\r
409	ret\r
410	\r
411	ASM_PFX(ArmEnableVFP):\r
412	// Check whether floating-point is implemented in the processor.\r
413	mov x1, x30 // Save LR\r
414	bl ArmReadIdPfr0 // Read EL1 Processor Feature Register (PFR0)\r
415	mov x30, x1 // Restore LR\r
416	ands x0, x0, #AARCH64_PFR0_FP// Extract bits indicating VFP implementation\r
417	cmp x0, #0 // VFP is implemented if '0'.\r
418	b.ne 4f // Exit if VFP not implemented.\r
419	// FVP is implemented.\r
420	// Make sure VFP exceptions are not trapped (to any exception level).\r
421	mrs x0, cpacr_el1 // Read EL1 Coprocessor Access Control Register (CPACR)\r
422	orr x0, x0, #CPACR_VFP_BITS // Disable FVP traps to EL1\r
423	msr cpacr_el1, x0 // Write back EL1 Coprocessor Access Control Register (CPACR)\r
424	mov x1, #AARCH64_CPTR_TFP // TFP Bit for trapping VFP Exceptions\r
425	EL1_OR_EL2_OR_EL3(x2)\r
426	1:ret // Not configurable in EL1\r
427	2:mrs x0, cptr_el2 // Disable VFP traps to EL2\r
428	bic x0, x0, x1\r
429	msr cptr_el2, x0\r
430	ret\r
431	3:mrs x0, cptr_el3 // Disable VFP traps to EL3\r
432	bic x0, x0, x1\r
433	msr cptr_el3, x0\r
434	4:ret\r
435	\r
436	\r
437	ASM_PFX(ArmCallWFI):\r
438	wfi\r
439	ret\r
440	\r
441	\r
442	ASM_PFX(ArmInvalidateInstructionAndDataTlb):\r
443	EL1_OR_EL2_OR_EL3(x0)\r
444	1: tlbi alle1\r
445	b 4f\r
446	2: tlbi alle2\r
447	b 4f\r
448	3: tlbi alle3\r
449	4: dsb sy\r
450	isb\r
451	ret\r
452	\r
453	\r
454	ASM_PFX(ArmReadMpidr):\r
455	mrs x0, mpidr_el1 // read EL1 MPIDR\r
456	ret\r
457	\r
458	\r
459	// Keep old function names for C compatibilty for now. Change later?\r
460	ASM_PFX(ArmReadTpidrurw):\r
461	mrs x0, tpidr_el0 // read tpidr_el0 (v7 TPIDRURW) -> (v8 TPIDR_EL0)\r
462	ret\r
463	\r
464	\r
465	// Keep old function names for C compatibilty for now. Change later?\r
466	ASM_PFX(ArmWriteTpidrurw):\r
467	msr tpidr_el0, x0 // write tpidr_el0 (v7 TPIDRURW) -> (v8 TPIDR_EL0)\r
468	ret\r
469	\r
470	\r
471	// Arch timers are mandatory on AArch64\r
472	ASM_PFX(ArmIsArchTimerImplemented):\r
473	mov x0, #1\r
474	ret\r
475	\r
476	\r
477	ASM_PFX(ArmReadIdPfr0):\r
478	mrs x0, id_aa64pfr0_el1 // Read ID_AA64PFR0 Register\r
479	ret\r
480	\r
481	\r
482	// Q: id_aa64pfr1_el1 not defined yet. What does this funtion want to access?\r
483	// A: used to setup arch timer. Check if we have security extensions, permissions to set stuff.\r
484	// See: ArmPkg/Library/ArmArchTimerLib/AArch64/ArmArchTimerLib.c\r
485	// Not defined yet, but stick in here for now, should read all zeros.\r
486	ASM_PFX(ArmReadIdPfr1):\r
487	mrs x0, id_aa64pfr1_el1 // Read ID_PFR1 Register\r
488	ret\r
489	\r
490	// VOID ArmWriteHcr(UINTN Hcr)\r
491	ASM_PFX(ArmWriteHcr):\r
492	msr hcr_el2, x0 // Write the passed HCR value\r
493	ret\r
494	\r
495	// UINTN ArmReadCurrentEL(VOID)\r
496	ASM_PFX(ArmReadCurrentEL):\r
497	mrs x0, CurrentEL\r
498	ret\r
499	\r
500	dead:\r
501	b dead\r
502	\r
503	ASM_FUNCTION_REMOVE_IF_UNREFERENCED\r