src/arch/power/isa/formats/branch.isa - public/gem5 - Git at Google

 // -*- mode:c++ -*-

 // Copyright (c) 2009 The University of Edinburgh
 // Copyright (c) 2021 IBM Corporation
 // 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.

 ////////////////////////////////////////////////////////////////////
 //
 // Control transfer instructions
 //
 // From the Power ISA Book I v3.0B, page 35, the following rules should
 // be obeyed by programmers:
 //
 // - Use branch instructions where LK == 1 only as subroutine calls.
 // - Pair each subroutine call with a bclr instruction with BH == 00
 //   and LK == 0 that returns from the subroutine.
 // - Do not use bclr with LK == 1 as a subroutine call.
 //
 // Therefore, all versions that update the link register (LR) are flagged
 // as calls, except bclr with LK == 1 (i.e. bclrl). The latter should not
 // be tagged as a return either.

 let {{

 # Simple code to update link register (LR).
 updateLrCode = 'LR = CIA + 4;'

 }};


 // Instructions that unconditionally branch either to an address relative
 // to the current PC or an absolute address.
 def format BranchOp(code, code_aa1, inst_flags = []) {{
     inst_flags += ('IsUncondControl', 'IsDirectControl')

     # Setup the 4 code versions and add code to update LR if necessary
     code_lk1 = code + updateLrCode
     code_aa1_lk1 = code_aa1 + updateLrCode

     # Generate the classes
     (header_output, decoder_output, decode_block, exec_output) = \
         GenAluOp(name, Name, 'BranchOp', code, inst_flags,
                  CheckAaLkDecode, BasicConstructor)
     (header_output_aa1, decoder_output_aa1, _, exec_output_aa1) = \
         GenAluOp(name, Name + 'AaSet', 'BranchOp', code_aa1, inst_flags,
                  CheckAaLkDecode, BasicConstructor)
     (header_output_lk1, decoder_output_lk1, _, exec_output_lk1) = \
         GenAluOp(name, Name + 'LkSet', 'BranchOp', code_lk1, inst_flags,
                  CheckAaLkDecode, BasicConstructor)
     (header_output_aa1_lk1, decoder_output_aa1_lk1, _, exec_output_aa1_lk1) = \
         GenAluOp(name, Name + 'AaSetLkSet', 'BranchOp', code_aa1_lk1,
                  inst_flags, CheckAaLkDecode, BasicConstructor)

     # Finally, add to the other outputs
     header_output += \
         header_output_aa1 + header_output_lk1 + header_output_aa1_lk1
     decoder_output += \
         decoder_output_aa1 + decoder_output_lk1 + decoder_output_aa1_lk1
     exec_output += \
         exec_output_aa1 + exec_output_lk1 + exec_output_aa1_lk1
 }};


 let {{

 # Check the condition register (CR) allows the branch to be taken.
 def GetCondCode(br_code):
     cond_code =  'Msr msr = MSR;\n'
     cond_code += 'if (condOk(CR)) {\n'
     cond_code += '    ' + br_code + '\n'
     cond_code += '}\n'
     cond_code += 'NIA = msr.sf ? NIA : NIA & UINT32_MAX;\n'
     return cond_code

 # Check the condition register (CR) and count register (CTR) allow the
 # branch to be taken. Also, in certain situations, decrement the count
 # register too. This takes place in ctrOk within BranchCondOp classes.
 def GetCtrCondCode(br_code):
     cond_code =  'uint64_t ctr = CTR;\n'
     cond_code += 'Msr msr = MSR;\n'
     cond_code += 'if (ctrOk(ctr) && condOk(CR)) {\n'
     cond_code += '    ' + br_code + '\n'
     cond_code += '}\n'
     cond_code += 'NIA = msr.sf ? NIA : NIA & UINT32_MAX;\n'
     cond_code += 'CTR = ctr;\n'
     return cond_code

 }};


 // Instructions that conditionally branch either to an address relative
 // to the current PC or an absolute address depending on the value of the
 // condition register (CR) and count register (CTR).
 def format BranchDispCondOp(code, code_aa1, inst_flags = []) {{
     inst_flags += ('IsCondControl', 'IsDirectControl')

     # Setup the 4 code versions and add code to update LR if necessary
     code = GetCtrCondCode(code)
     code_aa1 = GetCtrCondCode(code_aa1)
     code_lk1 = code + updateLrCode
     code_aa1_lk1 = code_aa1 + updateLrCode
     inst_flags_lk1 = inst_flags + [ 'IsCall' ]

     # Generate the classes
     (header_output, decoder_output, decode_block, exec_output) = \
         GenAluOp(name, Name, 'BranchDispCondOp', code, inst_flags,
                  CheckAaLkDecode, BasicConstructor)
     (header_output_aa1, decoder_output_aa1, _, exec_output_aa1) = \
         GenAluOp(name, Name + 'AaSet', 'BranchDispCondOp', code_aa1,
                  inst_flags, CheckAaLkDecode, BasicConstructor)
     (header_output_lk1, decoder_output_lk1, _, exec_output_lk1) = \
         GenAluOp(name, Name + 'LkSet', 'BranchDispCondOp', code_lk1,
                  inst_flags_lk1, CheckAaLkDecode, BasicConstructor)
     (header_output_aa1_lk1, decoder_output_aa1_lk1, _, exec_output_aa1_lk1) = \
         GenAluOp(name, Name + 'AaSetLkSet', 'BranchDispCondOp', code_aa1_lk1,
                  inst_flags_lk1, CheckAaLkDecode, BasicConstructor)

     # Finally, add to the other outputs
     header_output += \
         header_output_aa1 + header_output_lk1 + header_output_aa1_lk1
     decoder_output += \
         decoder_output_aa1 + decoder_output_lk1 + decoder_output_aa1_lk1
     exec_output += \
         exec_output_aa1 + exec_output_lk1 + exec_output_aa1_lk1
 }};


 // Instructions that conditionally branch to an address in a register
 // depending on the value of the condition register (CR) and count
 // register (CTR).
 def format BranchRegCondOp(code, checkCTR = 0, inst_flags = []) {{
     inst_flags += ('IsCondControl', 'IsIndirectControl')

     # Setup the 2 code versions and add code to update LR if necessary
     if checkCTR:
         code = GetCtrCondCode(code)
         decode_template = CheckLkDecode
     else:
         code = GetCondCode(code)
         decode_template = CheckBoLkDecode
     code_lk1 = code + updateLrCode
     inst_flags_lk1 = inst_flags + [ 'IsCall' ]

     # When LK is set, this cannot be used to return to the callee
     if 'IsReturn' in inst_flags:
         inst_flags_lk1.remove('IsReturn')

     # Generate the classes
     (header_output, decoder_output, decode_block, exec_output) = \
         GenAluOp(name, Name, 'BranchRegCondOp', code, inst_flags,
                  decode_template, BasicConstructor)
     (header_output_lk1, decoder_output_lk1, _, exec_output_lk1) = \
         GenAluOp(name, Name + 'LkSet', 'BranchRegCondOp', code_lk1,
                  inst_flags_lk1, decode_template, BasicConstructor)

     # Finally, add to the other outputs
     header_output += header_output_lk1
     decoder_output += decoder_output_lk1
     exec_output += exec_output_lk1
 }};
	// -- mode:c++ --

	// Copyright (c) 2009 The University of Edinburgh
	// Copyright (c) 2021 IBM Corporation
	// 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.

	////////////////////////////////////////////////////////////////////
	//
	// Control transfer instructions
	//
	// From the Power ISA Book I v3.0B, page 35, the following rules should
	// be obeyed by programmers:
	//
	// - Use branch instructions where LK == 1 only as subroutine calls.
	// - Pair each subroutine call with a bclr instruction with BH == 00
	// and LK == 0 that returns from the subroutine.
	// - Do not use bclr with LK == 1 as a subroutine call.
	//
	// Therefore, all versions that update the link register (LR) are flagged
	// as calls, except bclr with LK == 1 (i.e. bclrl). The latter should not
	// be tagged as a return either.

	let {{

	# Simple code to update link register (LR).
	updateLrCode = 'LR = CIA + 4;'

	}};


	// Instructions that unconditionally branch either to an address relative
	// to the current PC or an absolute address.
	def format BranchOp(code, code_aa1, inst_flags = []) {{
	inst_flags += ('IsUncondControl', 'IsDirectControl')

	# Setup the 4 code versions and add code to update LR if necessary
	code_lk1 = code + updateLrCode
	code_aa1_lk1 = code_aa1 + updateLrCode

	# Generate the classes
	(header_output, decoder_output, decode_block, exec_output) = \
	GenAluOp(name, Name, 'BranchOp', code, inst_flags,
	CheckAaLkDecode, BasicConstructor)
	(header_output_aa1, decoder_output_aa1, _, exec_output_aa1) = \
	GenAluOp(name, Name + 'AaSet', 'BranchOp', code_aa1, inst_flags,
	CheckAaLkDecode, BasicConstructor)
	(header_output_lk1, decoder_output_lk1, _, exec_output_lk1) = \
	GenAluOp(name, Name + 'LkSet', 'BranchOp', code_lk1, inst_flags,
	CheckAaLkDecode, BasicConstructor)
	(header_output_aa1_lk1, decoder_output_aa1_lk1, _, exec_output_aa1_lk1) = \
	GenAluOp(name, Name + 'AaSetLkSet', 'BranchOp', code_aa1_lk1,
	inst_flags, CheckAaLkDecode, BasicConstructor)

	# Finally, add to the other outputs
	header_output += \
	header_output_aa1 + header_output_lk1 + header_output_aa1_lk1
	decoder_output += \
	decoder_output_aa1 + decoder_output_lk1 + decoder_output_aa1_lk1
	exec_output += \
	exec_output_aa1 + exec_output_lk1 + exec_output_aa1_lk1
	}};


	let {{

	# Check the condition register (CR) allows the branch to be taken.
	def GetCondCode(br_code):
	cond_code = 'Msr msr = MSR;\n'
	cond_code += 'if (condOk(CR)) {\n'
	cond_code += ' ' + br_code + '\n'
	cond_code += '}\n'
	cond_code += 'NIA = msr.sf ? NIA : NIA & UINT32_MAX;\n'
	return cond_code

	# Check the condition register (CR) and count register (CTR) allow the
	# branch to be taken. Also, in certain situations, decrement the count
	# register too. This takes place in ctrOk within BranchCondOp classes.
	def GetCtrCondCode(br_code):
	cond_code = 'uint64_t ctr = CTR;\n'
	cond_code += 'Msr msr = MSR;\n'
	cond_code += 'if (ctrOk(ctr) && condOk(CR)) {\n'
	cond_code += ' ' + br_code + '\n'
	cond_code += '}\n'
	cond_code += 'NIA = msr.sf ? NIA : NIA & UINT32_MAX;\n'
	cond_code += 'CTR = ctr;\n'
	return cond_code

	}};


	// Instructions that conditionally branch either to an address relative
	// to the current PC or an absolute address depending on the value of the
	// condition register (CR) and count register (CTR).
	def format BranchDispCondOp(code, code_aa1, inst_flags = []) {{
	inst_flags += ('IsCondControl', 'IsDirectControl')

	# Setup the 4 code versions and add code to update LR if necessary
	code = GetCtrCondCode(code)
	code_aa1 = GetCtrCondCode(code_aa1)
	code_lk1 = code + updateLrCode
	code_aa1_lk1 = code_aa1 + updateLrCode
	inst_flags_lk1 = inst_flags + [ 'IsCall' ]

	# Generate the classes
	(header_output, decoder_output, decode_block, exec_output) = \
	GenAluOp(name, Name, 'BranchDispCondOp', code, inst_flags,
	CheckAaLkDecode, BasicConstructor)
	(header_output_aa1, decoder_output_aa1, _, exec_output_aa1) = \
	GenAluOp(name, Name + 'AaSet', 'BranchDispCondOp', code_aa1,
	inst_flags, CheckAaLkDecode, BasicConstructor)
	(header_output_lk1, decoder_output_lk1, _, exec_output_lk1) = \
	GenAluOp(name, Name + 'LkSet', 'BranchDispCondOp', code_lk1,
	inst_flags_lk1, CheckAaLkDecode, BasicConstructor)
	(header_output_aa1_lk1, decoder_output_aa1_lk1, _, exec_output_aa1_lk1) = \
	GenAluOp(name, Name + 'AaSetLkSet', 'BranchDispCondOp', code_aa1_lk1,
	inst_flags_lk1, CheckAaLkDecode, BasicConstructor)

	# Finally, add to the other outputs
	header_output += \
	header_output_aa1 + header_output_lk1 + header_output_aa1_lk1
	decoder_output += \
	decoder_output_aa1 + decoder_output_lk1 + decoder_output_aa1_lk1
	exec_output += \
	exec_output_aa1 + exec_output_lk1 + exec_output_aa1_lk1
	}};


	// Instructions that conditionally branch to an address in a register
	// depending on the value of the condition register (CR) and count
	// register (CTR).
	def format BranchRegCondOp(code, checkCTR = 0, inst_flags = []) {{
	inst_flags += ('IsCondControl', 'IsIndirectControl')

	# Setup the 2 code versions and add code to update LR if necessary
	if checkCTR:
	code = GetCtrCondCode(code)
	decode_template = CheckLkDecode
	else:
	code = GetCondCode(code)
	decode_template = CheckBoLkDecode
	code_lk1 = code + updateLrCode
	inst_flags_lk1 = inst_flags + [ 'IsCall' ]

	# When LK is set, this cannot be used to return to the callee
	if 'IsReturn' in inst_flags:
	inst_flags_lk1.remove('IsReturn')

	# Generate the classes
	(header_output, decoder_output, decode_block, exec_output) = \
	GenAluOp(name, Name, 'BranchRegCondOp', code, inst_flags,
	decode_template, BasicConstructor)
	(header_output_lk1, decoder_output_lk1, _, exec_output_lk1) = \
	GenAluOp(name, Name + 'LkSet', 'BranchRegCondOp', code_lk1,
	inst_flags_lk1, decode_template, BasicConstructor)

	# Finally, add to the other outputs
	header_output += header_output_lk1
	decoder_output += decoder_output_lk1
	exec_output += exec_output_lk1
	}};