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ARMv1 - ARM
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Revision as of 19:04, 27 June 2017 by At32Hz (talk | contribs) (Instruction Listing)

ARMv1 is the first ARM instruction set version. Introduced with the ARM1 on April 26 1985, the ARMv1 defines a 32-bit ISA along with 26-bit addressing space. The ARMv1 was only implemented by the ARM1 and was replaced soon after by the ARM2. Only a few hundred of those chips were ever fabricated.

Overview

The ARMv1 is a simple architecture. Each instruction is 32-bit in size and operates on two 32-bit operands. There is a program counter which is 26 bits in size allowing for an address space of up to 64 MiB of data.

Registers

There are 16 general purpose 32-bit registers. With the exception of register 15, all registers are orthogonal with no specific designated purpose.

Instruction Listing

The ARMv1 is broken down into 8 classes of instruction:

ARMv1 ISA
Mnemonic Syntax Description Action
Movement Instructions
MOVMOV<cond>{S} Rd, #immMove value immedRd = immed
MOVMOV<cond>{S} Rd, Rm, {, <shift>}Move valueRd = {shifted Rm}
MVNMVN<cond>{S} Rd, #immMove NOT value immedRd = ¬immed
MVNMVN<cond>{S} Rd, Rm, {, <shift>}Move NOT valueRd = ¬{shifted Rm}
Load Instructions
LDMLDM<cond><type> Rn{!}, <reglist>{^}Load multipleaddr = Rn
for each Rd in {reglist}:
     Rd = [addr]
     update address based on {type}
LDRLDR<cond>{B} Rd, [Rn {, #imm}]{!}Load register immedRd = [Rn + imm]
If !: Rn = Rn + imm
LDRLDR<cond>{B} Rd, [Rn, Rm {, <shift>}]{!}Load registerRd = [Rn + {shifted Rm}
If !: Rn = Rn + {shifted Rm}]
LDRLDR<cond>{B}{T} Rd, [Rn], #immLoad register, post indexRd = [Rn]
Rn = Rn + imm
LDRLDR<cond>{B}{T} Rd, [Rn], Rm {, <shift>}Load register, post indexRd = [Rn]
Rn = Rn + {shifted Rm}
Store Instructions
STRSTR{cond} Rd, addressStore Word[address] = Rd
STRTSTRT{cond} Rd, addressStore Word, User Mode Privilege[address] = Rd
STRBSTRB{cond} Rd, addressStore Byte[address][7:0] = Rd[7:0]
STRBTSTRBT{cond} Rd, addressStore Byte, User Mode Privilege[address][7:0] = Rd[7:0]
STMSTM{cond}{type} Rn[!], {reglist}Store Multipleaddr = Rn
for each Rd in {reglist}:
     [addr] = Rd
     addr += {type}
STMSTM{cond}{type} Rn[!], {reglist}^Store Multiple, User Mode Privilegeaddr = Rn
for each Rd in {reglist}:
     [addr] = Rd
     Rn += {type}
Arithmetic Instructions
ADCADC<cond>{S} Rd, Rn, #immAdd and carry immedRd = Rn + imm + C
ADCADC<cond>{S} Rd, Rn, Rm{, <shift>}Add and carryRd = Rn + {shifted Rm} + C
ADDADD<cond>S Rd, Rn, #immAdd immedRd = Rn + imm
ADDADD<cond>S Rd, Rn, Rm{, <shift>}AddRd = Rn + {shifted Rm}
Logical Instructions
ANDAND<cond>{S} Rd, Rn, #immAND immedRd = Rn & imm
ANDAND<cond>{S} Rd, Rn, Rm{, <shift>}ANDRd = Rn & {shifted Rm}
BICBIC<cond>{S} Rd, Rn, #immBit clear immedRd = Rn & ¬imm
BICBIC<cond>{S} Rd, Rn, Rm{, <shift>}Bit clearRd = Rn & ¬Rm
EOREOR<cond>{S} Rd, Rn, #immExclusive OR immedRd = Rn ⊕ imm
EOREOR<cond>{S} Rd, Rn, Rm{, <shift>}Exclusive ORRd = Rn ⊕ {shifted Rm}
ORRORR<cond>{S} Rd, Rn, #immLogical OR immedRd = Rn ∥ imm
ORRORR<cond>{S} Rd, Rn, Rm{, <shift>}Logical ORRd = Rn ∥ {shifted Rm}
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Comparison Instructions
CMNCMN<cond> Rn, #immCompare negative immedCPSR flags set on (Rn + imm)
CMNCMN<cond> Rn, Rm{, <shift>}Compare negativeCPSR flags set on (Rn + {shifted Rm})
CMPCMP<cond> Rn, #immCompare immedCPSR flags set on (Rn - imm)
CMPCMP<cond> Rn, Rm{, <shift>}CompareCPSR flags set on (Rn - {shifted Rm})
Branch Instructions
BB<cond> #immBranch relativePC = PC + address
BLBL<cond> #immBranch and link relativeLR = RET
PC = PC + address
Miscellaneous Instructions