xnu-6153.41.3.tar.gz

[apple/xnu.git] / bsd / dev / arm / disassembler.c

diff --git a/bsd/dev/arm/disassembler.c b/bsd/dev/arm/disassembler.c
index a5db2033e2cda56afedab16897342ee467553e14..cc7c2e95d6d2b2fedbfdab8b84a91fcd7d90c93c 100644 (file)
--- a/bsd/dev/arm/disassembler.c
+++ b/bsd/dev/arm/disassembler.c
@@ -12,9 +12,10 @@
 
 #include  <sys/fasttrap_isa.h>
 
-#define BITS(x,n,mask) (((x) >> (n)) & (mask))
+#define BITS(x, n, mask) (((x) >> (n)) & (mask))
 
-static uint32_t thumb32_instword_to_arm(uint16_t hw1, uint16_t hw2)
+static uint32_t
+thumb32_instword_to_arm(uint16_t hw1, uint16_t hw2)
 {
        return (hw1 << 16) | hw2;
 }
@@ -27,46 +28,55 @@ int dtrace_decode_thumb(uint32_t instr);
  */
 
 static
-int vfp_struct_loadstore(uint32_t instr)
+int
+vfp_struct_loadstore(uint32_t instr)
 {
-       if (ARM_RM(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+       if (ARM_RM(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int vfp_64transfer(uint32_t instr)
+int
+vfp_64transfer(uint32_t instr)
 {
        /* These instructions all use RD and RN */
-       if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+       if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int vfp_transfer(uint32_t instr)
+int
+vfp_transfer(uint32_t instr)
 {
        /* These instructions all use RD only */
-       if (ARM_RD(instr) != REG_PC)
+       if (ARM_RD(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int vfp_loadstore(uint32_t instr)
+int
+vfp_loadstore(uint32_t instr)
 {
-       int opcode = BITS(instr,20,0x1F);
+       int opcode = BITS(instr, 20, 0x1F);
 
        /* Instrument VLDR */
-       if ((opcode & 0x13) == 0x11 && ARM_RN(instr) == REG_PC)
+       if ((opcode & 0x13) == 0x11 && ARM_RN(instr) == REG_PC) {
                return FASTTRAP_T_VLDR_PC_IMMED;
-       
+       }
+
        /* These instructions all use RN only */
-       if (ARM_RN(instr) != REG_PC)
+       if (ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
@@ -76,9 +86,10 @@ int vfp_loadstore(uint32_t instr)
  */
 
 static
-int arm_unconditional_misc(uint32_t instr)
+int
+arm_unconditional_misc(uint32_t instr)
 {
-       int op = BITS(instr,20,0x7F);
+       int op = BITS(instr, 20, 0x7F);
 
        if ((op & 0x60) == 0x20) {
                /* VFP data processing uses its own registers */
@@ -93,10 +104,12 @@ int arm_unconditional_misc(uint32_t instr)
 }
 
 static
-int arm_unconditional(uint32_t instr)
+int
+arm_unconditional(uint32_t instr)
 {
-       if (BITS(instr,27,0x1) == 0)
+       if (BITS(instr, 27, 0x1) == 0) {
                return arm_unconditional_misc(instr);
+       }
 
        /* The rest are privileged or BL/BLX, do not instrument */
 
@@ -106,11 +119,12 @@ int arm_unconditional(uint32_t instr)
 }
 
 static
-int arm_syscall_coproc(uint32_t instr)
+int
+arm_syscall_coproc(uint32_t instr)
 {
        /* Instrument any VFP data processing instructions, ignore the rest */
 
-       int op1 = BITS(instr,20,0x3F), coproc = BITS(instr,8,0xF), op = BITS(instr,4,0x1);
+       int op1 = BITS(instr, 20, 0x3F), coproc = BITS(instr, 8, 0xF), op = BITS(instr, 4, 0x1);
 
        if ((op1 & 0x3E) == 0 || (op1 & 0x30) == 0x30) {
                /* Undefined or swi */
@@ -120,11 +134,13 @@ int arm_syscall_coproc(uint32_t instr)
        if ((coproc & 0xE) == 0xA) {
                /* VFP instruction */
 
-               if ((op1 & 0x20) == 0 && (op1 & 0x3A) != 0)
+               if ((op1 & 0x20) == 0 && (op1 & 0x3A) != 0) {
                        return vfp_loadstore(instr);
+               }
 
-               if ((op1 & 0x3E) == 0x04)
+               if ((op1 & 0x3E) == 0x04) {
                        return vfp_64transfer(instr);
+               }
 
                if ((op1 & 0x30) == 0x20) {
                        /* VFP data processing or 8, 16, or 32 bit move between ARM reg and VFP reg */
@@ -141,98 +157,118 @@ int arm_syscall_coproc(uint32_t instr)
 }
 
 static
-int arm_branch_link_blockdata(uint32_t instr)
+int
+arm_branch_link_blockdata(uint32_t instr)
 {
-       int branch = BITS(instr,25,0x1), link = BITS(instr,24,0x1), op = BITS(instr,20,0x1F), uses_pc = BITS(instr,15,0x1), uses_lr = BITS(instr,14,0x1);
+       int branch = BITS(instr, 25, 0x1), link = BITS(instr, 24, 0x1), op = BITS(instr, 20, 0x1F), uses_pc = BITS(instr, 15, 0x1), uses_lr = BITS(instr, 14, 0x1);
 
        if (branch == 1) {
-               if (link == 0)
+               if (link == 0) {
                        return FASTTRAP_T_B_COND;
+               }
                return FASTTRAP_T_INV;
        } else {
                /* Only emulate a use of the pc if it's a return from function: ldmia sp!, { ... pc } */
-               if (op == 0x0B && ARM_RN(instr) == REG_SP && uses_pc == 1)
+               if (op == 0x0B && ARM_RN(instr) == REG_SP && uses_pc == 1) {
                        return FASTTRAP_T_LDM_PC;
+               }
 
                /* stmia sp!, { ... lr } doesn't touch the pc, but it is very common, so special case it */
-               if (op == 0x12 && ARM_RN(instr) == REG_SP && uses_lr == 1)
+               if (op == 0x12 && ARM_RN(instr) == REG_SP && uses_lr == 1) {
                        return FASTTRAP_T_STM_LR;
+               }
 
-               if (ARM_RN(instr) != REG_PC && uses_pc == 0)
+               if (ARM_RN(instr) != REG_PC && uses_pc == 0) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_signed_multiplies(uint32_t instr)
+int
+arm_signed_multiplies(uint32_t instr)
 {
-       int op1 = BITS(instr,20,0x7), op2 = BITS(instr,5,0x7);
+       int op1 = BITS(instr, 20, 0x7), op2 = BITS(instr, 5, 0x7);
 
        /* smlald, smlsld, smmls use RD in addition to RM, RS, and RN */
        if ((op1 == 0x4 && (op2 & 0x4) == 0) || (op1 == 0x5 && (op2 & 0x6) == 0x6)) {
-               if (ARM_RD(instr) == REG_PC)
+               if (ARM_RD(instr) == REG_PC) {
                        return FASTTRAP_T_INV;
+               }
        }
 
-       if (ARM_RM(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+       if (ARM_RM(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_pack_unpack_sat_reversal(uint32_t instr)
+int
+arm_pack_unpack_sat_reversal(uint32_t instr)
 {
-       int op1 = BITS(instr,20,0x7), op2 = BITS(instr,5,0x7);
+       int op1 = BITS(instr, 20, 0x7), op2 = BITS(instr, 5, 0x7);
 
        /* pkh, sel use RN in addition to RD and RM */
        if ((op1 == 0 && (op2 & 0x1) == 0) || (op1 == 0 && op2 == 0x5)) {
-               if (ARM_RN(instr) == REG_PC)
+               if (ARM_RN(instr) == REG_PC) {
                        return FASTTRAP_T_INV;
+               }
        }
 
-       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC)
+       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_parallel_addsub_unsigned(uint32_t instr)
+int
+arm_parallel_addsub_unsigned(uint32_t instr)
 {
-       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_parallel_addsub_signed(uint32_t instr)
+int
+arm_parallel_addsub_signed(uint32_t instr)
 {
-       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_media(uint32_t instr)
+int
+arm_media(uint32_t instr)
 {
-       int op1 = BITS(instr,20,0x1F), op2 = BITS(instr,5,0x7);
+       int op1 = BITS(instr, 20, 0x1F), op2 = BITS(instr, 5, 0x7);
 
-       if ((op1 & 0x1C) == 0)
+       if ((op1 & 0x1C) == 0) {
                return arm_parallel_addsub_signed(instr);
+       }
 
-       if ((op1 & 0x1C) == 0x04)
+       if ((op1 & 0x1C) == 0x04) {
                return arm_parallel_addsub_unsigned(instr);
+       }
 
-       if ((op1 & 0x18) == 0x08)
+       if ((op1 & 0x18) == 0x08) {
                return arm_pack_unpack_sat_reversal(instr);
+       }
 
-       if ((op1 & 0x18) == 0x10)
+       if ((op1 & 0x18) == 0x10) {
                return arm_signed_multiplies(instr);
+       }
 
        if (op1 == 0x1F && op2 == 0x7) {
                /* Undefined instruction */
@@ -244,24 +280,27 @@ int arm_media(uint32_t instr)
                /* The registers are named differently in the reference manual for this instruction
                 * but the following positions are correct */
 
-               if (ARM_RM(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RM(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
 
                return FASTTRAP_T_INV;
        }
 
        if ((op1 & 0x1E) == 0x1C && (op2 & 0x3) == 0) {
                /* bfc bfi */
-               if (ARM_RD(instr) != REG_PC)
+               if (ARM_RD(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
 
                return FASTTRAP_T_INV;
        }
 
        if (((op1 & 0x1E) == 0x1A || (op1 & 0x1E) == 0x1E) && ((op2 & 0x3) == 0x2)) {
                /* sbfx ubfx */
-               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC)
+               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
 
                return FASTTRAP_T_INV;
        }
@@ -270,57 +309,67 @@ int arm_media(uint32_t instr)
 }
 
 static
-int arm_loadstore_wordbyte(uint32_t instr)
+int
+arm_loadstore_wordbyte(uint32_t instr)
 {
        /* Instrument PC relative load with immediate, ignore any other uses of the PC */
-       int R = BITS(instr,25,0x1), L = BITS(instr,20,0x1);
+       int R = BITS(instr, 25, 0x1), L = BITS(instr, 20, 0x1);
 
        if (R == 1) {
                /* Three register load/store */
-               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        } else {
                /* Immediate load/store, but still do not support ldr pc, [pc...] */
-               if (L == 1 && ARM_RN(instr) == REG_PC && ARM_RD(instr) != REG_PC)
+               if (L == 1 && ARM_RN(instr) == REG_PC && ARM_RD(instr) != REG_PC) {
                        return FASTTRAP_T_LDR_PC_IMMED;
+               }
 
-               if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_saturating(uint32_t instr)
+int
+arm_saturating(uint32_t instr)
 {
-       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+       if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_misc(uint32_t instr)
+int
+arm_misc(uint32_t instr)
 {
-       int op = BITS(instr,21,0x3), __unused op1 = BITS(instr,16,0xF), op2 = BITS(instr,4,0x7);
+       int op = BITS(instr, 21, 0x3), __unused op1 = BITS(instr, 16, 0xF), op2 = BITS(instr, 4, 0x7);
 
-       if (op2 == 1 && op == 1)
+       if (op2 == 1 && op == 1) {
                return FASTTRAP_T_BX_REG;
+       }
 
        /* We do not need to emulate BLX for entry/return probes; if we eventually support full offset
         * tracing, then we will. This is because BLX overwrites the link register, so a function that
         * can execute this as its first instruction is a special function indeed.
         */
 
-       if (op2 == 0x5)
+       if (op2 == 0x5) {
                return arm_saturating(instr);
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_msr_hints(__unused uint32_t instr)
+int
+arm_msr_hints(__unused uint32_t instr)
 {
        /* These deal with the psr, not instrumented */
 
@@ -328,7 +377,8 @@ int arm_msr_hints(__unused uint32_t instr)
 }
 
 static
-int arm_sync_primitive(__unused uint32_t instr)
+int
+arm_sync_primitive(__unused uint32_t instr)
 {
        /* TODO will instrumenting these interfere with any kernel usage of these instructions? */
        /* Don't instrument for now */
@@ -337,9 +387,10 @@ int arm_sync_primitive(__unused uint32_t instr)
 }
 
 static
-int arm_extra_loadstore_unpriv(uint32_t instr)
+int
+arm_extra_loadstore_unpriv(uint32_t instr)
 {
-       int op = BITS(instr,20,0x1), __unused op2 = BITS(instr,5,0x3), immed = BITS(instr,22,0x1);
+       int op = BITS(instr, 20, 0x1), __unused op2 = BITS(instr, 5, 0x3), immed = BITS(instr, 22, 0x1);
 
        if (op == 0 && (op2 & 0x2) == 0x2) {
                /* Unpredictable or undefined */
@@ -347,91 +398,106 @@ int arm_extra_loadstore_unpriv(uint32_t instr)
        }
 
        if (immed == 1) {
-               if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        } else {
-               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
-       
+
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_extra_loadstore(uint32_t instr)
+int
+arm_extra_loadstore(uint32_t instr)
 {
-       int op1 = BITS(instr,20,0x1F);
+       int op1 = BITS(instr, 20, 0x1F);
 
        /* There are two variants, and we do not instrument either of them that use the PC */
 
        if ((op1 & 0x4) == 0) {
                /* Variant 1, register */
-               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RM(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        } else {
                /* Variant 2, immediate */
-               if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC)
+               if (ARM_RD(instr) != REG_PC && ARM_RN(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_halfword_multiply(uint32_t instr)
+int
+arm_halfword_multiply(uint32_t instr)
 {
        /* Not all multiply instructions use all four registers. The ones that don't should have those
         * register locations set to 0, so we can test them anyway.
         */
 
-       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RM(instr) != REG_PC)
+       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RM(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_multiply(uint32_t instr)
+int
+arm_multiply(uint32_t instr)
 {
        /* Not all multiply instructions use all four registers. The ones that don't should have those
         * register locations set to 0, so we can test them anyway.
         */
 
-       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RM(instr) != REG_PC)
+       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RM(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_dataproc_immed(uint32_t instr)
+int
+arm_dataproc_immed(uint32_t instr)
 {
        /* All these instructions are either two registers, or one register and have 0 where the other reg would be used */
-       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC)
+       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_dataproc_regshift(uint32_t instr)
+int
+arm_dataproc_regshift(uint32_t instr)
 {
        /* All these instructions are either four registers, or three registers and have 0 where there last reg would be used */
-       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RM(instr) != REG_PC)
+       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RS(instr) != REG_PC && ARM_RM(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_dataproc_reg(uint32_t instr)
+int
+arm_dataproc_reg(uint32_t instr)
 {
-       int op1 = BITS(instr,20,0x1F), op2 = BITS(instr,7,0x1F), op3 = BITS(instr,5,0x3);
+       int op1 = BITS(instr, 20, 0x1F), op2 = BITS(instr, 7, 0x1F), op3 = BITS(instr, 5, 0x3);
 
        if (op1 == 0x11 || op1 == 0x13 || op1 == 0x15 || op1 == 0x17) {
                /* These are comparison flag setting instructions and do not have RD */
-               if (ARM_RN(instr) != REG_PC && ARM_RM(instr) != REG_PC)
+               if (ARM_RN(instr) != REG_PC && ARM_RM(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
 
                return FASTTRAP_T_INV;
        }
@@ -440,96 +506,119 @@ int arm_dataproc_reg(uint32_t instr)
         * movs pc, reg is a privileged instruction so we don't instrument that variant. The s bit
         * is bit 0 of op1 and should be zero.
         */
-       if (op1 == 0x1A && op2 == 0 && op3 == 0 && ARM_RD(instr) == REG_PC)
+       if (op1 == 0x1A && op2 == 0 && op3 == 0 && ARM_RD(instr) == REG_PC) {
                return FASTTRAP_T_MOV_PC_REG;
+       }
 
        /* Any instruction at this point is a three register instruction or two register instruction with RN = 0 */
-       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RM(instr) != REG_PC)
+       if (ARM_RN(instr) != REG_PC && ARM_RD(instr) != REG_PC && ARM_RM(instr) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int arm_dataproc_misc(uint32_t instr)
+int
+arm_dataproc_misc(uint32_t instr)
 {
-       int op = BITS(instr,25,0x1), op1 = BITS(instr,20,0x1F), op2 = BITS(instr,4,0xF);
+       int op = BITS(instr, 25, 0x1), op1 = BITS(instr, 20, 0x1F), op2 = BITS(instr, 4, 0xF);
 
        if (op == 0) {
-               if ((op1 & 0x19) != 0x10 && (op2 & 0x1) == 0)
+               if ((op1 & 0x19) != 0x10 && (op2 & 0x1) == 0) {
                        return arm_dataproc_reg(instr);
+               }
 
-               if ((op1 & 0x19) != 0x10 && (op2 & 0x9) == 0x1)
+               if ((op1 & 0x19) != 0x10 && (op2 & 0x9) == 0x1) {
                        return arm_dataproc_regshift(instr);
+               }
 
-               if ((op1 & 0x19) == 0x10 && (op2 & 0x8) == 0)
+               if ((op1 & 0x19) == 0x10 && (op2 & 0x8) == 0) {
                        return arm_misc(instr);
+               }
 
-               if ((op1 & 0x19) == 0x19 && (op2 & 0x9) == 0x8)
+               if ((op1 & 0x19) == 0x19 && (op2 & 0x9) == 0x8) {
                        return arm_halfword_multiply(instr);
+               }
 
-               if ((op1 & 0x10) == 0 && op2 == 0x9)
+               if ((op1 & 0x10) == 0 && op2 == 0x9) {
                        return arm_multiply(instr);
+               }
 
-               if ((op1 & 0x10) == 0x10 && op2 == 0x9)
+               if ((op1 & 0x10) == 0x10 && op2 == 0x9) {
                        return arm_sync_primitive(instr);
+               }
 
-               if ((op1 & 0x12) != 0x02 && (op2 == 0xB || (op2 & 0xD) == 0xD))
+               if ((op1 & 0x12) != 0x02 && (op2 == 0xB || (op2 & 0xD) == 0xD)) {
                        return arm_extra_loadstore(instr);
+               }
 
-               if ((op1 & 0x12) == 0x02 && (op2 == 0xB || (op2 & 0xD) == 0xD))
+               if ((op1 & 0x12) == 0x02 && (op2 == 0xB || (op2 & 0xD) == 0xD)) {
                        return arm_extra_loadstore_unpriv(instr);
+               }
        } else {
-               if ((op1 & 0x19) != 0x10)
+               if ((op1 & 0x19) != 0x10) {
                        return arm_dataproc_immed(instr);
+               }
 
                if (op1 == 0x10) {
                        /* 16 bit immediate load (mov (immed)) [encoding A2] */
-                       if (ARM_RD(instr) != REG_PC)
+                       if (ARM_RD(instr) != REG_PC) {
                                return FASTTRAP_T_COMMON;
+                       }
 
                        return FASTTRAP_T_INV;
                }
 
                if (op1 == 0x14) {
                        /* high halfword 16 bit immediate load (movt) [encoding A1] */
-                       if (ARM_RD(instr) != REG_PC)
+                       if (ARM_RD(instr) != REG_PC) {
                                return FASTTRAP_T_COMMON;
+                       }
 
                        return FASTTRAP_T_INV;
                }
 
-               if ((op1 & 0x1B) == 0x12)
+               if ((op1 & 0x1B) == 0x12) {
                        return arm_msr_hints(instr);
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
-int dtrace_decode_arm(uint32_t instr)
+int
+dtrace_decode_arm(uint32_t instr)
 {
-       int cond = BITS(instr,28,0xF), op1 = BITS(instr,25,0x7), op = BITS(instr,4,0x1);
+       int cond = BITS(instr, 28, 0xF), op1 = BITS(instr, 25, 0x7), op = BITS(instr, 4, 0x1);
 
-       if (cond == 0xF)
+       if (cond == 0xF) {
                return arm_unconditional(instr);
+       }
 
-       if ((op1 & 0x6) == 0)
+       if ((op1 & 0x6) == 0) {
                return arm_dataproc_misc(instr);
+       }
 
-       if (op1 == 0x2)
+       if (op1 == 0x2) {
                return arm_loadstore_wordbyte(instr);
+       }
 
-       if (op1 == 0x3 && op == 0)
+       if (op1 == 0x3 && op == 0) {
                return arm_loadstore_wordbyte(instr);
+       }
 
-       if (op1 == 0x3 && op == 1)
+       if (op1 == 0x3 && op == 1) {
                return arm_media(instr);
+       }
 
-       if ((op1 & 0x6) == 0x4)
+       if ((op1 & 0x6) == 0x4) {
                return arm_branch_link_blockdata(instr);
+       }
 
-       if ((op1 & 0x6) == 0x6)
+       if ((op1 & 0x6) == 0x6) {
                return arm_syscall_coproc(instr);
+       }
 
        return FASTTRAP_T_INV;
 }
@@ -540,20 +629,23 @@ int dtrace_decode_arm(uint32_t instr)
  */
 
 static
-int thumb16_cond_supervisor(uint16_t instr)
+int
+thumb16_cond_supervisor(uint16_t instr)
 {
-       int opcode = BITS(instr,8,0xF);
+       int opcode = BITS(instr, 8, 0xF);
 
-       if ((opcode & 0xE) != 0xE)
+       if ((opcode & 0xE) != 0xE) {
                return FASTTRAP_T_B_COND;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb16_misc(uint16_t instr)
+int
+thumb16_misc(uint16_t instr)
 {
-       int opcode = BITS(instr,5,0x7F);
+       int opcode = BITS(instr, 5, 0x7F);
 
        if ((opcode & 0x70) == 0x30 || (opcode & 0x70) == 0x70) {
                /* setend, cps, breakpoint, or if-then, not instrumentable */
@@ -572,16 +664,18 @@ int thumb16_misc(uint16_t instr)
 }
 
 static
-int thumb16_loadstore_single(__unused uint16_t instr)
+int
+thumb16_loadstore_single(__unused uint16_t instr)
 {
        /* These all access the low registers or SP only */
        return FASTTRAP_T_COMMON;
 }
 
 static
-int thumb16_data_special_and_branch(uint16_t instr)
+int
+thumb16_data_special_and_branch(uint16_t instr)
 {
-       int opcode = BITS(instr,6,0xF);
+       int opcode = BITS(instr, 6, 0xF);
 
        if (opcode == 0x4) {
                /* Unpredictable */
@@ -589,56 +683,66 @@ int thumb16_data_special_and_branch(uint16_t instr)
        } else if ((opcode & 0xC) == 0xC) {
                /* bx or blx */
                /* Only instrument the bx */
-               if ((opcode & 0x2) == 0)
+               if ((opcode & 0x2) == 0) {
                        return FASTTRAP_T_BX_REG;
+               }
                return FASTTRAP_T_INV;
        } else {
                /* Data processing on high registers, only instrument mov pc, reg */
-               if ((opcode & 0xC) == 0x8 && THUMB16_HRD(instr) == REG_PC)
+               if ((opcode & 0xC) == 0x8 && THUMB16_HRD(instr) == REG_PC) {
                        return FASTTRAP_T_CPY_PC;
+               }
 
-               if (THUMB16_HRM(instr) != REG_PC && THUMB16_HRD(instr) != REG_PC)
+               if (THUMB16_HRM(instr) != REG_PC && THUMB16_HRD(instr) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb16_data_proc(__unused uint16_t instr)
+int
+thumb16_data_proc(__unused uint16_t instr)
 {
        /* These all access the low registers only */
        return FASTTRAP_T_COMMON;
 }
 
 static
-int thumb16_shift_addsub_move_compare(__unused uint16_t instr)
+int
+thumb16_shift_addsub_move_compare(__unused uint16_t instr)
 {
        /* These all access the low registers only */
        return FASTTRAP_T_COMMON;
 }
 
 static
-int dtrace_decode_thumb16(uint16_t instr)
+int
+dtrace_decode_thumb16(uint16_t instr)
 {
-       int opcode = BITS(instr,10,0x3F);
+       int opcode = BITS(instr, 10, 0x3F);
 
-       if ((opcode & 0x30) == 0)
+       if ((opcode & 0x30) == 0) {
                return thumb16_shift_addsub_move_compare(instr);
+       }
 
-       if (opcode == 0x10)
+       if (opcode == 0x10) {
                return thumb16_data_proc(instr);
+       }
 
-       if (opcode == 0x11)
+       if (opcode == 0x11) {
                return thumb16_data_special_and_branch(instr);
+       }
 
        if ((opcode & 0x3E) == 0x12) {
                /* ldr (literal) */
                return FASTTRAP_T_LDR_PC_IMMED;
        }
 
-       if ((opcode & 0x3C) == 0x14 || (opcode & 0x38) == 0x18 || (opcode & 0x38) == 0x20)
+       if ((opcode & 0x3C) == 0x14 || (opcode & 0x38) == 0x18 || (opcode & 0x38) == 0x20) {
                return thumb16_loadstore_single(instr);
+       }
 
        if ((opcode & 0x3E) == 0x28) {
                /* adr, uses the pc */
@@ -650,8 +754,9 @@ int dtrace_decode_thumb16(uint16_t instr)
                return FASTTRAP_T_COMMON;
        }
 
-       if ((opcode & 0x3C) == 0x2C)
+       if ((opcode & 0x3C) == 0x2C) {
                return thumb16_misc(instr);
+       }
 
        if ((opcode & 0x3E) == 0x30) {
                /* stm - can't access high registers */
@@ -680,11 +785,12 @@ int dtrace_decode_thumb16(uint16_t instr)
  */
 
 static
-int thumb32_coproc(uint16_t instr1, uint16_t instr2)
+int
+thumb32_coproc(uint16_t instr1, uint16_t instr2)
 {
        /* Instrument any VFP data processing instructions, ignore the rest */
 
-       int op1 = BITS(instr1,4,0x3F), coproc = BITS(instr2,8,0xF), op = BITS(instr2,4,0x1);
+       int op1 = BITS(instr1, 4, 0x3F), coproc = BITS(instr2, 8, 0xF), op = BITS(instr2, 4, 0x1);
 
        if ((op1 & 0x3E) == 0) {
                /* Undefined */
@@ -693,18 +799,20 @@ int thumb32_coproc(uint16_t instr1, uint16_t instr2)
 
        if ((coproc & 0xE) == 0xA || (op1 & 0x30) == 0x30) {
                /* VFP instruction */
-               uint32_t instr = thumb32_instword_to_arm(instr1,instr2);
+               uint32_t instr = thumb32_instword_to_arm(instr1, instr2);
 
                if ((op1 & 0x30) == 0x30) {
                        /* VFP data processing uses its own registers */
                        return FASTTRAP_T_COMMON;
                }
 
-               if ((op1 & 0x3A) == 0x02 || (op1 & 0x38) == 0x08 || (op1 & 0x30) == 0x10)
+               if ((op1 & 0x3A) == 0x02 || (op1 & 0x38) == 0x08 || (op1 & 0x30) == 0x10) {
                        return vfp_loadstore(instr);
+               }
 
-               if ((op1 & 0x3E) == 0x04)
+               if ((op1 & 0x3E) == 0x04) {
                        return vfp_64transfer(instr);
+               }
 
                if ((op1 & 0x30) == 0x20) {
                        /* VFP data processing or 8, 16, or 32 bit move between ARM reg and VFP reg */
@@ -721,192 +829,229 @@ int thumb32_coproc(uint16_t instr1, uint16_t instr2)
 }
 
 static
-int thumb32_longmultiply(uint16_t instr1, uint16_t instr2)
+int
+thumb32_longmultiply(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,4,0x7), op2 = BITS(instr2,4,0xF);
+       int op1 = BITS(instr1, 4, 0x7), op2 = BITS(instr2, 4, 0xF);
 
        if ((op1 == 1 && op2 == 0xF) || (op1 == 0x3 && op2 == 0xF)) {
                /* Three register instruction */
-               if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+               if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        } else {
                /* Four register instruction */
-               if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC &&
-                   THUMB32_RT(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+               if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC &&
+                   THUMB32_RT(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_multiply(uint16_t instr1, uint16_t instr2)
+int
+thumb32_multiply(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,4,0x7), op2 = BITS(instr2,4,0x3);
+       int op1 = BITS(instr1, 4, 0x7), op2 = BITS(instr2, 4, 0x3);
 
        if ((op1 == 0 && op2 == 1) || (op1 == 0x6 && (op2 & 0x2) == 0)) {
-               if (THUMB32_RT(instr1,instr2) == REG_PC)
+               if (THUMB32_RT(instr1, instr2) == REG_PC) {
                        return FASTTRAP_T_INV;
+               }
        }
 
-       if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_misc(uint16_t instr1, uint16_t instr2)
+int
+thumb32_misc(uint16_t instr1, uint16_t instr2)
 {
-       if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_parallel_addsub_unsigned(uint16_t instr1, uint16_t instr2)
+int
+thumb32_parallel_addsub_unsigned(uint16_t instr1, uint16_t instr2)
 {
-       if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_parallel_addsub_signed(uint16_t instr1, uint16_t instr2)
+int
+thumb32_parallel_addsub_signed(uint16_t instr1, uint16_t instr2)
 {
-       if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_dataproc_reg(uint16_t instr1, uint16_t instr2)
+int
+thumb32_dataproc_reg(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,4,0xF), op2 = BITS(instr2,4,0xF);
+       int op1 = BITS(instr1, 4, 0xF), op2 = BITS(instr2, 4, 0xF);
 
        if (((0 <= op1) && (op1 <= 5)) && (op2 & 0x8) == 0x8) {
-               if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC)
+               if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        if ((op1 & 0x8) == 0 && op2 == 0) {
-               if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+               if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
-       if ((op1 & 0x8) == 0x8 && (op2 & 0xC) == 0)
-               return thumb32_parallel_addsub_signed(instr1,instr2);
+       if ((op1 & 0x8) == 0x8 && (op2 & 0xC) == 0) {
+               return thumb32_parallel_addsub_signed(instr1, instr2);
+       }
 
-       if ((op1 & 0x8) == 0x8 && (op2 & 0xC) == 0x4)
-               return thumb32_parallel_addsub_unsigned(instr1,instr2);
+       if ((op1 & 0x8) == 0x8 && (op2 & 0xC) == 0x4) {
+               return thumb32_parallel_addsub_unsigned(instr1, instr2);
+       }
 
-       if ((op1 & 0xC) == 0x8 && (op2 & 0xC) == 0x8)
-               return thumb32_misc(instr1,instr2);
+       if ((op1 & 0xC) == 0x8 && (op2 & 0xC) == 0x8) {
+               return thumb32_misc(instr1, instr2);
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_dataproc_regshift(uint16_t instr1, uint16_t instr2)
+int
+thumb32_dataproc_regshift(uint16_t instr1, uint16_t instr2)
 {
-       int op = BITS(instr1,5,0xF), S = BITS(instr1,4,0x1);
+       int op = BITS(instr1, 5, 0xF), S = BITS(instr1, 4, 0x1);
 
        if (op == 0 || op == 0x4 || op == 0x8 || op == 0xD) {
                /* These become test instructions if S is 1 and Rd is PC, otherwise they are data instructions. */
                if (S == 1) {
-                       if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+                       if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                                return FASTTRAP_T_COMMON;
+                       }
                } else {
-                       if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC &&
-                           THUMB32_RN(instr1,instr2) != REG_PC)
+                       if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC &&
+                           THUMB32_RN(instr1, instr2) != REG_PC) {
                                return FASTTRAP_T_COMMON;
+                       }
                }
        } else if (op == 0x2 || op == 0x3) {
                /* These become moves if RN is PC, otherwise they are data insts. We don't instrument mov pc, reg here */
-               if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC)
+               if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        } else {
                /* Normal three register instruction */
-               if (THUMB32_RM(instr1,instr2) != REG_PC && THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+               if (THUMB32_RM(instr1, instr2) != REG_PC && THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_store_single(uint16_t instr1, uint16_t instr2)
+int
+thumb32_store_single(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,5,0x7), op2 = BITS(instr2,6,0x3F);
+       int op1 = BITS(instr1, 5, 0x7), op2 = BITS(instr2, 6, 0x3F);
 
        /* Do not support any use of the pc yet */
        if ((op1 == 0 || op1 == 1 || op1 == 2) && (op2 & 0x20) == 0) {
                /* str (register) uses RM */
-               if (THUMB32_RM(instr1,instr2) == REG_PC)
+               if (THUMB32_RM(instr1, instr2) == REG_PC) {
                        return FASTTRAP_T_INV;
+               }
        }
 
-       if (THUMB32_RT(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RT(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_loadbyte_memhint(uint16_t instr1, uint16_t instr2)
+int
+thumb32_loadbyte_memhint(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,7,0x3), __unused op2 = BITS(instr2,6,0x3F);
+       int op1 = BITS(instr1, 7, 0x3), __unused op2 = BITS(instr2, 6, 0x3F);
 
        /* Do not support any use of the pc yet */
-       if ((op1 == 0 || op1 == 0x2) && THUMB32_RM(instr1,instr2) == REG_PC)
+       if ((op1 == 0 || op1 == 0x2) && THUMB32_RM(instr1, instr2) == REG_PC) {
                return FASTTRAP_T_INV;
+       }
 
-       if (THUMB32_RT(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RT(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_loadhalfword_memhint(uint16_t instr1, uint16_t instr2)
+int
+thumb32_loadhalfword_memhint(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,7,0x3), op2 = BITS(instr2,6,0x3F);
+       int op1 = BITS(instr1, 7, 0x3), op2 = BITS(instr2, 6, 0x3F);
 
        /* Do not support any use of the PC yet */
-       if (op1 == 0 && op2 == 0 && THUMB32_RM(inst1,instr2) == REG_PC)
+       if (op1 == 0 && op2 == 0 && THUMB32_RM(inst1, instr2) == REG_PC) {
                return FASTTRAP_T_INV;
+       }
 
-       if (THUMB32_RT(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RT(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_loadword(uint16_t instr1, uint16_t instr2)
+int
+thumb32_loadword(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,7,0x3), op2 = BITS(instr2,6,0x3F);
+       int op1 = BITS(instr1, 7, 0x3), op2 = BITS(instr2, 6, 0x3F);
 
-       if ((op1 & 0x2) == 0 && THUMB32_RN(instr1,instr2) == REG_PC && THUMB32_RT(instr1,instr2) != REG_PC)
+       if ((op1 & 0x2) == 0 && THUMB32_RN(instr1, instr2) == REG_PC && THUMB32_RT(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_LDR_PC_IMMED;
+       }
 
        if (op1 == 0 && op2 == 0) {
                /* ldr (register) uses an additional reg */
-               if (THUMB32_RM(instr1,instr2) == REG_PC)
+               if (THUMB32_RM(instr1, instr2) == REG_PC) {
                        return FASTTRAP_T_INV;
+               }
        }
 
-       if (THUMB32_RT(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RT(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_loadstore_double_exclusive_table(__unused uint16_t instr1, __unused uint16_t instr2)
+int
+thumb32_loadstore_double_exclusive_table(__unused uint16_t instr1, __unused uint16_t instr2)
 {
        /* Don't instrument any of these */
 
@@ -914,9 +1059,10 @@ int thumb32_loadstore_double_exclusive_table(__unused uint16_t instr1, __unused
 }
 
 static
-int thumb32_loadstore_multiple(uint16_t instr1, uint16_t instr2)
+int
+thumb32_loadstore_multiple(uint16_t instr1, uint16_t instr2)
 {
-       int op = BITS(instr1,7,0x3), L = BITS(instr1,4,0x1), uses_pc = BITS(instr2,15,0x1), uses_lr = BITS(instr2,14,0x1);
+       int op = BITS(instr1, 7, 0x3), L = BITS(instr1, 4, 0x1), uses_pc = BITS(instr2, 15, 0x1), uses_lr = BITS(instr2, 14, 0x1);
 
        if (op == 0 || op == 0x3) {
                /* Privileged instructions: srs, rfe */
@@ -924,174 +1070,208 @@ int thumb32_loadstore_multiple(uint16_t instr1, uint16_t instr2)
        }
 
        /* Only emulate a use of the pc if it's a return from function: ldmia sp!, { ... pc }, aka pop { ... pc } */
-       if (op == 0x1 && L == 1 && THUMB32_RN(instr1,instr2) == REG_SP && uses_pc == 1)
+       if (op == 0x1 && L == 1 && THUMB32_RN(instr1, instr2) == REG_SP && uses_pc == 1) {
                return FASTTRAP_T_LDM_PC;
+       }
 
        /* stmia sp!, { ... lr }, aka push { ... lr } doesn't touch the pc, but it is very common, so special case it */
-       if (op == 0x2 && L == 0 && THUMB32_RN(instr1,instr2) == REG_SP && uses_lr == 1)
+       if (op == 0x2 && L == 0 && THUMB32_RN(instr1, instr2) == REG_SP && uses_lr == 1) {
                return FASTTRAP_T_STM_LR;
+       }
 
-       if (THUMB32_RN(instr1,instr2) != REG_PC && uses_pc == 0)
+       if (THUMB32_RN(instr1, instr2) != REG_PC && uses_pc == 0) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_misc_control(__unused uint16_t instr1, __unused uint16_t instr2)
+int
+thumb32_misc_control(__unused uint16_t instr1, __unused uint16_t instr2)
 {
        /* Privileged, and instructions dealing with ThumbEE */
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_cps_hints(__unused uint16_t instr1, __unused uint16_t instr2)
+int
+thumb32_cps_hints(__unused uint16_t instr1, __unused uint16_t instr2)
 {
        /* Privileged */
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_b_misc_control(uint16_t instr1, uint16_t instr2)
+int
+thumb32_b_misc_control(uint16_t instr1, uint16_t instr2)
 {
-       int op = BITS(instr1,4,0x7F), op1 = BITS(instr2,12,0x7), __unused op2 = BITS(instr2,8,0xF);
+       int op = BITS(instr1, 4, 0x7F), op1 = BITS(instr2, 12, 0x7), __unused op2 = BITS(instr2, 8, 0xF);
 
        if ((op1 & 0x5) == 0) {
-               if ((op & 0x38) != 0x38)
+               if ((op & 0x38) != 0x38) {
                        return FASTTRAP_T_B_COND;
+               }
 
-               if (op == 0x3A)
-                       return thumb32_cps_hints(instr1,instr2);
+               if (op == 0x3A) {
+                       return thumb32_cps_hints(instr1, instr2);
+               }
 
-               if (op == 0x3B)
-                       return thumb32_misc_control(instr1,instr2);
+               if (op == 0x3B) {
+                       return thumb32_misc_control(instr1, instr2);
+               }
        }
 
-       if ((op1 & 0x5) == 1)
+       if ((op1 & 0x5) == 1) {
                return FASTTRAP_T_B_UNCOND;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_dataproc_plain_immed(uint16_t instr1, uint16_t instr2)
+int
+thumb32_dataproc_plain_immed(uint16_t instr1, uint16_t instr2)
 {
-       int op = BITS(instr1,4,0x1F);
+       int op = BITS(instr1, 4, 0x1F);
 
        if (op == 0x04 || op == 0x0C || op == 0x16) {
                /* mov, movt, bfi, bfc */
                /* These use only RD */
-               if (THUMB32_RD(instr1,instr2) != REG_PC)
+               if (THUMB32_RD(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        } else {
-               if (THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+               if (THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int thumb32_dataproc_mod_immed(uint16_t instr1, uint16_t instr2)
+int
+thumb32_dataproc_mod_immed(uint16_t instr1, uint16_t instr2)
 {
-       int op = BITS(instr1,5,0xF), S = BITS(instr1,4,0x1);
+       int op = BITS(instr1, 5, 0xF), S = BITS(instr1, 4, 0x1);
 
        if (op == 0x2 || op == 0x3) {
                /* These allow REG_PC in RN, but it doesn't mean use the PC! */
-               if (THUMB32_RD(instr1,instr2) != REG_PC)
+               if (THUMB32_RD(instr1, instr2) != REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
        if (op == 0 || op == 0x4 || op == 0x8 || op == 0xD) {
                /* These are test instructions, if the sign bit is set and RD is the PC. */
-               if (S && THUMB32_RD(instr1,instr2) == REG_PC)
+               if (S && THUMB32_RD(instr1, instr2) == REG_PC) {
                        return FASTTRAP_T_COMMON;
+               }
        }
 
-       if (THUMB32_RD(instr1,instr2) != REG_PC && THUMB32_RN(instr1,instr2) != REG_PC)
+       if (THUMB32_RD(instr1, instr2) != REG_PC && THUMB32_RN(instr1, instr2) != REG_PC) {
                return FASTTRAP_T_COMMON;
+       }
 
        return FASTTRAP_T_INV;
 }
 
 static
-int dtrace_decode_thumb32(uint16_t instr1, uint16_t instr2)
+int
+dtrace_decode_thumb32(uint16_t instr1, uint16_t instr2)
 {
-       int op1 = BITS(instr1,11,0x3), op2 = BITS(instr1,4,0x7F), op = BITS(instr2,15,0x1);
+       int op1 = BITS(instr1, 11, 0x3), op2 = BITS(instr1, 4, 0x7F), op = BITS(instr2, 15, 0x1);
 
        if (op1 == 0x1) {
-               if ((op2 & 0x64) == 0)
-                       return thumb32_loadstore_multiple(instr1,instr2);
+               if ((op2 & 0x64) == 0) {
+                       return thumb32_loadstore_multiple(instr1, instr2);
+               }
 
-               if ((op2 & 0x64) == 0x04)
-                       return thumb32_loadstore_double_exclusive_table(instr1,instr2);
+               if ((op2 & 0x64) == 0x04) {
+                       return thumb32_loadstore_double_exclusive_table(instr1, instr2);
+               }
 
-               if ((op2 & 0x60) == 0x20)
-                       return thumb32_dataproc_regshift(instr1,instr2);
+               if ((op2 & 0x60) == 0x20) {
+                       return thumb32_dataproc_regshift(instr1, instr2);
+               }
 
-               if ((op2 & 0x40) == 0x40)
-                       return thumb32_coproc(instr1,instr2);
+               if ((op2 & 0x40) == 0x40) {
+                       return thumb32_coproc(instr1, instr2);
+               }
        }
 
        if (op1 == 0x2) {
-               if ((op2 & 0x20) == 0 && op == 0)
-                       return thumb32_dataproc_mod_immed(instr1,instr2);
+               if ((op2 & 0x20) == 0 && op == 0) {
+                       return thumb32_dataproc_mod_immed(instr1, instr2);
+               }
 
-               if ((op2 & 0x20) == 0x20 && op == 0)
-                       return thumb32_dataproc_plain_immed(instr1,instr2);
+               if ((op2 & 0x20) == 0x20 && op == 0) {
+                       return thumb32_dataproc_plain_immed(instr1, instr2);
+               }
 
-               if (op == 1)
-                       return thumb32_b_misc_control(instr1,instr2);
+               if (op == 1) {
+                       return thumb32_b_misc_control(instr1, instr2);
+               }
        }
 
        if (op1 == 0x3) {
-               if ((op2 & 0x71) == 0)
-                       return thumb32_store_single(instr1,instr2);
+               if ((op2 & 0x71) == 0) {
+                       return thumb32_store_single(instr1, instr2);
+               }
 
                if ((op2 & 0x71) == 0x10) {
-                       return vfp_struct_loadstore(thumb32_instword_to_arm(instr1,instr2));
+                       return vfp_struct_loadstore(thumb32_instword_to_arm(instr1, instr2));
                }
 
-               if ((op2 & 0x67) == 0x01)
-                       return thumb32_loadbyte_memhint(instr1,instr2);
+               if ((op2 & 0x67) == 0x01) {
+                       return thumb32_loadbyte_memhint(instr1, instr2);
+               }
 
-               if ((op2 & 0x67) == 0x03)
-                       return thumb32_loadhalfword_memhint(instr1,instr2);
+               if ((op2 & 0x67) == 0x03) {
+                       return thumb32_loadhalfword_memhint(instr1, instr2);
+               }
 
-               if ((op2 & 0x67) == 0x05)
-                       return thumb32_loadword(instr1,instr2);
+               if ((op2 & 0x67) == 0x05) {
+                       return thumb32_loadword(instr1, instr2);
+               }
 
                if ((op2 & 0x67) == 0x07) {
                        /* Undefined instruction */
                        return FASTTRAP_T_INV;
                }
 
-               if ((op2 & 0x70) == 0x20)
-                       return thumb32_dataproc_reg(instr1,instr2);
+               if ((op2 & 0x70) == 0x20) {
+                       return thumb32_dataproc_reg(instr1, instr2);
+               }
 
-               if ((op2 & 0x78) == 0x30)
-                       return thumb32_multiply(instr1,instr2);
+               if ((op2 & 0x78) == 0x30) {
+                       return thumb32_multiply(instr1, instr2);
+               }
 
-               if ((op2 & 0x78) == 0x38)
-                       return thumb32_longmultiply(instr1,instr2);
+               if ((op2 & 0x78) == 0x38) {
+                       return thumb32_longmultiply(instr1, instr2);
+               }
 
-               if ((op2 & 0x40) == 0x40)
-                       return thumb32_coproc(instr1,instr2);
+               if ((op2 & 0x40) == 0x40) {
+                       return thumb32_coproc(instr1, instr2);
+               }
        }
 
        return FASTTRAP_T_INV;
 }
 
-int dtrace_decode_thumb(uint32_t instr)
+int
+dtrace_decode_thumb(uint32_t instr)
 {
        uint16_t* pInstr = (uint16_t*) &instr;
        uint16_t hw1 = pInstr[0], hw2 = pInstr[1];
 
-       int size = BITS(hw1,11,0x1F);
+       int size = BITS(hw1, 11, 0x1F);
 
-       if (size == 0x1D || size == 0x1E || size == 0x1F)
-               return dtrace_decode_thumb32(hw1,hw2);
-       else
+       if (size == 0x1D || size == 0x1E || size == 0x1F) {
+               return dtrace_decode_thumb32(hw1, hw2);
+       } else {
                return dtrace_decode_thumb16(hw1);
+       }
 }
-