/* SPDX-License-Identifier: BSD-2-Clause */ /* * Copyright (c) 2015, Linaro Limited */ .altmacro /* * This helper macro concatenates instr_prefix, instr_suffix, to * create a ldp/stp instruction. It also selects register name x/w * based on reg_bytes. */ .macro __do_dregs instr_prefix, instr_suffix, reg_bytes, base_reg, \ base_offs, reg0, reg1 .if \reg_bytes == 8 \instr_prefix\instr_suffix \ x\reg0, x\reg1, [\base_reg, #\base_offs] .else \instr_prefix\instr_suffix \ w\reg0, w\reg1, [\base_reg, #\base_offs] .endif .endm /* * This helper macro concatenates instr_prefix, instr_suffix, to * create a ldr/str instruction. It also selects register name x/w * based on reg_bytes. */ .macro __do_reg instr_prefix, instr_suffix, reg_bytes, base_reg, \ base_offs, reg .if \reg_bytes == 8 \instr_prefix\instr_suffix \ x\reg, [\base_reg, #\base_offs] .else \instr_prefix\instr_suffix \ w\reg, [\base_reg, #\base_offs] .endif .endm /* * This helper macro uses recursion to create a loop which will * start with generating instructions for register pairs and if * it's an odd number of registers end with a single load/store. */ .macro _do_regs instr_prefix, reg_bytes, base_reg, base_offs, \ from_regnum, to_regnum .if (\to_regnum - \from_regnum + 1) >= 2 __do_dregs \instr_prefix, p, \reg_bytes, \base_reg, \ \base_offs, \from_regnum, %(\from_regnum + 1) .else __do_reg \instr_prefix, r, \reg_bytes, \base_reg, \ \base_offs, \from_regnum .endif .if (\to_regnum - \from_regnum + 1) > 2 _do_regs \instr_prefix, \reg_bytes, \base_reg, \ %(\base_offs + 2 * \reg_bytes), \ %(\from_regnum + 2), \to_regnum .endif .endm /* * Stores registers x[from_regnum]..x[to_regnum] at * [base_reg, #base_offs] */ .macro store_xregs base_reg, base_offs, from_regnum, to_regnum _do_regs st 8 \base_reg, \base_offs, \from_regnum, \to_regnum .endm /* * Stores registers w[from_regnum]..w[to_regnum] at * [base_reg, #base_offs] */ .macro store_wregs base_reg, base_offs, from_regnum, to_regnum _do_regs st 4 \base_reg, \base_offs, \from_regnum, \to_regnum .endm /* * Loads registers x[from_regnum]..x[to_regnum] at * [base_reg, #base_offs] */ .macro load_xregs base_reg, base_offs, from_regnum, to_regnum _do_regs ld 8 \base_reg, \base_offs, \from_regnum, \to_regnum .endm /* * Loads registers w[from_regnum]..w[to_regnum] at * [base_reg, #base_offs] */ .macro load_wregs base_reg, base_offs, from_regnum, to_regnum _do_regs ld 4 \base_reg, \base_offs, \from_regnum, \to_regnum .endm /* Push register pair on stack */ .macro push, r1, r2 stp \r1, \r2, [sp, #-16]! .endm /* Pop register pair from stack */ .macro pop, r1, r2 ldp \r1, \r2, [sp], #16 .endm .macro mov_imm _reg, _val .if (((\_val) >> 31) == 0 || ((\_val) >> 31) == 0x1ffffffff) movz \_reg, :abs_g1_s:\_val .else .if (((\_val) >> 47) == 0 || ((\_val) >> 47) == 0x1ffff) movz \_reg, :abs_g2_s:\_val .else movz \_reg, :abs_g3:\_val movk \_reg, :abs_g2_nc:\_val .endif movk \_reg, :abs_g1_nc:\_val .endif movk \_reg, :abs_g0_nc:\_val .endm .macro add_imm _reg, _val .if ((\_val) > 0xfff) add \_reg, \_reg, ((\_val) >> 12), LSL #12 .endif .if (((\_val) & 0xfff) > 0) add \_reg, \_reg, ((\_val) & 0xfff) .endif .endm .macro sub_imm _reg, _val .if ((\_val) > 0xfff) sub \_reg, \_reg, ((\_val) >> 12), LSL #12 .endif .if (((\_val) & 0xfff) > 0) sub \_reg, \_reg, ((\_val) & 0xfff) .endif .endm /* * Load address of into , being in the range * +/- 4GB of the PC (note that 'adr reg, sym' is limited to +/- 1MB). */ .macro adr_l reg, sym adrp \reg, \sym add \reg, \reg, :lo12:\sym .endm .macro panic_at_smc_return #if defined(CFG_TEE_CORE_DEBUG) bl __panic_at_smc_return #else b . #endif .endm .macro read_apiakeylo reg mrs \reg, S3_0_c2_c1_0 .endm .macro read_apiakeyhi reg mrs \reg, S3_0_c2_c1_1 .endm .macro write_apiakeylo reg msr S3_0_c2_c1_0, \reg .endm .macro write_apiakeyhi reg msr S3_0_c2_c1_1, \reg .endm .macro write_pan reg /* msr pan, \reg */ msr S3_0_c4_c2_3, \reg .endm .macro write_pan_enable /* msr pan, #1 */ msr S0_0_c4_c1_4, xzr .endm .macro write_pan_disable /* msr pan, #0 */ msr S0_0_c4_c0_4, xzr .endm