| # Copyright (c) 2007-2008 The Hewlett-Packard Development Company |
| # All rights reserved. |
| # |
| # The license below extends only to copyright in the software and shall |
| # not be construed as granting a license to any other intellectual |
| # property including but not limited to intellectual property relating |
| # to a hardware implementation of the functionality of the software |
| # licensed hereunder. You may use the software subject to the license |
| # terms below provided that you ensure that this notice is replicated |
| # unmodified and in its entirety in all distributions of the software, |
| # modified or unmodified, in source code or in binary form. |
| # |
| # Copyright (c) 2008 The Regents of The University of Michigan |
| # All rights reserved. |
| # |
| # Redistribution and use in source and binary forms, with or without |
| # modification, are permitted provided that the following conditions are |
| # met: redistributions of source code must retain the above copyright |
| # notice, this list of conditions and the following disclaimer; |
| # redistributions in binary form must reproduce the above copyright |
| # notice, this list of conditions and the following disclaimer in the |
| # documentation and/or other materials provided with the distribution; |
| # neither the name of the copyright holders nor the names of its |
| # contributors may be used to endorse or promote products derived from |
| # this software without specific prior written permission. |
| # |
| # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
| # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
| # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
| # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
| # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
| # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
| # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| microcode = ''' |
| def macroop BT_R_I { |
| sexti t0, reg, imm, flags=(CF,) |
| }; |
| |
| def macroop BT_M_I { |
| limm t1, imm, dataSize=asz |
| # This fudges just a tiny bit, but it's reasonable to expect the |
| # microcode generation logic to have the log of the various sizes |
| # floating around as well. |
| ld t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| }; |
| |
| def macroop BT_P_I { |
| rdip t7 |
| limm t1, imm, dataSize=asz |
| ld t1, seg, riprel, disp, dataSize=asz |
| sexti t0, t1, imm, flags=(CF,) |
| }; |
| |
| def macroop BT_R_R { |
| sext t0, reg, regm, flags=(CF,) |
| }; |
| |
| def macroop BT_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| ld t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| }; |
| |
| def macroop BT_P_R { |
| rdip t7 |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| ld t1, seg, [dsz, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| }; |
| |
| def macroop BTC_R_I { |
| sexti t0, reg, imm, flags=(CF,) |
| limm t1, 1 |
| roli t1, t1, imm |
| xor reg, reg, t1 |
| }; |
| |
| def macroop BTC_M_I { |
| limm t1, imm, dataSize=asz |
| # This fudges just a tiny bit, but it's reasonable to expect the |
| # microcode generation logic to have the log of the various sizes |
| # floating around as well. |
| limm t4, 1 |
| roli t4, t4, imm |
| ldst t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| xor t1, t1, t4 |
| st t1, seg, sib, disp |
| }; |
| |
| def macroop BTC_P_I { |
| rdip t7, dataSize=asz |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| ldst t1, seg, riprel, disp |
| sexti t0, t1, imm, flags=(CF,) |
| xor t1, t1, t4 |
| st t1, seg, riprel, disp |
| }; |
| |
| def macroop BTC_LOCKED_M_I { |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| mfence |
| ldstl t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| xor t1, t1, t4 |
| stul t1, seg, sib, disp |
| mfence |
| }; |
| |
| def macroop BTC_LOCKED_P_I { |
| rdip t7, dataSize=asz |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| mfence |
| ldstl t1, seg, riprel, disp |
| sexti t0, t1, imm, flags=(CF,) |
| xor t1, t1, t4 |
| stul t1, seg, riprel, disp |
| mfence |
| }; |
| |
| def macroop BTC_R_R { |
| sext t0, reg, regm, flags=(CF,) |
| limm t1, 1 |
| rol t1, t1, regm |
| xor reg, reg, t1 |
| }; |
| |
| def macroop BTC_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| ldst t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| xor t1, t1, t4 |
| st t1, seg, [scale, index, t3], disp |
| }; |
| |
| def macroop BTC_P_R { |
| rdip t7, dataSize=asz |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| ldst t1, seg, [dsz, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| xor t1, t1, t4 |
| st t1, seg, [dsz, t3, t7], disp |
| }; |
| |
| def macroop BTC_LOCKED_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| mfence |
| ldstl t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| xor t1, t1, t4 |
| stul t1, seg, [scale, index, t3], disp |
| mfence |
| }; |
| |
| def macroop BTC_LOCKED_P_R { |
| rdip t7, dataSize=asz |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| mfence |
| ldstl t1, seg, [dsz, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| xor t1, t1, t4 |
| stul t1, seg, [dsz, t3, t7], disp |
| mfence |
| }; |
| |
| def macroop BTR_R_I { |
| sexti t0, reg, imm, flags=(CF,) |
| limm t1, "(uint64_t(-(2ULL)))" |
| roli t1, t1, imm |
| and reg, reg, t1 |
| }; |
| |
| def macroop BTR_M_I { |
| limm t1, imm, dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| roli t4, t4, imm |
| ldst t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| and t1, t1, t4 |
| st t1, seg, sib, disp |
| }; |
| |
| def macroop BTR_P_I { |
| rdip t7, dataSize=asz |
| limm t1, imm, dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| roli t4, t4, imm |
| ldst t1, seg, riprel, disp |
| sexti t0, t1, imm, flags=(CF,) |
| and t1, t1, t4 |
| st t1, seg, riprel, disp |
| }; |
| |
| def macroop BTR_LOCKED_M_I { |
| limm t1, imm, dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| roli t4, t4, imm |
| mfence |
| ldstl t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| and t1, t1, t4 |
| stul t1, seg, sib, disp |
| mfence |
| }; |
| |
| def macroop BTR_LOCKED_P_I { |
| rdip t7, dataSize=asz |
| limm t1, imm, dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| roli t4, t4, imm |
| mfence |
| ldstl t1, seg, riprel, disp |
| sexti t0, t1, imm, flags=(CF,) |
| and t1, t1, t4 |
| stul t1, seg, riprel, disp |
| mfence |
| }; |
| |
| def macroop BTR_R_R { |
| sext t0, reg, regm, flags=(CF,) |
| limm t1, "(uint64_t(-(2ULL)))" |
| rol t1, t1, regm |
| and reg, reg, t1 |
| }; |
| |
| def macroop BTR_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| rol t4, t4, reg |
| ldst t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| and t1, t1, t4 |
| st t1, seg, [scale, index, t3], disp |
| }; |
| |
| def macroop BTR_P_R { |
| rdip t7, dataSize=asz |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| rol t4, t4, reg |
| ldst t1, seg, [dsz, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| and t1, t1, t4 |
| st t1, seg, [dsz, t3, t7], disp |
| }; |
| |
| def macroop BTR_LOCKED_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| rol t4, t4, reg |
| mfence |
| ldstl t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| and t1, t1, t4 |
| stul t1, seg, [scale, index, t3], disp |
| mfence |
| }; |
| |
| def macroop BTR_LOCKED_P_R { |
| rdip t7, dataSize=asz |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| limm t4, "(uint64_t(-(2ULL)))" |
| rol t4, t4, reg |
| mfence |
| ldstl t1, seg, [dsz, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| and t1, t1, t4 |
| stul t1, seg, [dsz, t3, t7], disp |
| mfence |
| }; |
| |
| def macroop BTS_R_I { |
| sexti t0, reg, imm, flags=(CF,) |
| limm t1, 1 |
| roli t1, t1, imm |
| or reg, reg, t1 |
| }; |
| |
| def macroop BTS_M_I { |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| ldst t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| or t1, t1, t4 |
| st t1, seg, sib, disp |
| }; |
| |
| def macroop BTS_P_I { |
| rdip t7, dataSize=asz |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| ldst t1, seg, riprel, disp |
| sexti t0, t1, imm, flags=(CF,) |
| or t1, t1, t4 |
| st t1, seg, riprel, disp |
| }; |
| |
| def macroop BTS_LOCKED_M_I { |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| mfence |
| ldstl t1, seg, sib, disp |
| sexti t0, t1, imm, flags=(CF,) |
| or t1, t1, t4 |
| stul t1, seg, sib, disp |
| mfence |
| }; |
| |
| def macroop BTS_LOCKED_P_I { |
| rdip t7, dataSize=asz |
| limm t1, imm, dataSize=asz |
| limm t4, 1 |
| roli t4, t4, imm |
| mfence |
| ldstl t1, seg, riprel, disp |
| sexti t0, t1, imm, flags=(CF,) |
| or t1, t1, t4 |
| stul t1, seg, riprel, disp |
| mfence |
| }; |
| |
| def macroop BTS_R_R { |
| sext t0, reg, regm, flags=(CF,) |
| limm t1, 1 |
| rol t1, t1, regm |
| or reg, reg, t1 |
| }; |
| |
| def macroop BTS_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| ldst t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| or t1, t1, t4 |
| st t1, seg, [scale, index, t3], disp |
| }; |
| |
| def macroop BTS_P_R { |
| rdip t7, dataSize=asz |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| ldst t1, seg, [1, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| or t1, t1, t4 |
| st t1, seg, [1, t3, t7], disp |
| }; |
| |
| def macroop BTS_LOCKED_M_R { |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| mfence |
| ldstl t1, seg, [scale, index, t3], disp |
| sext t0, t1, reg, flags=(CF,) |
| or t1, t1, t4 |
| stul t1, seg, [scale, index, t3], disp |
| mfence |
| }; |
| |
| def macroop BTS_LOCKED_P_R { |
| rdip t7, dataSize=asz |
| srai t2, reg, 3, dataSize=asz |
| srai t3, t2, ldsz, dataSize=asz |
| lea t3, flatseg, [dsz, t3, base], dataSize=asz |
| limm t4, 1 |
| rol t4, t4, reg |
| mfence |
| ldstl t1, seg, [1, t3, t7], disp |
| sext t0, t1, reg, flags=(CF,) |
| or t1, t1, t4 |
| stul t1, seg, [1, t3, t7], disp |
| mfence |
| }; |
| ''' |