mirror of https://github.com/encounter/objdiff.git
PPC: Display data values on hover for pools as well
This commit is contained in:
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commit
d8ead1fcd4
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@ -113,6 +113,7 @@ impl ObjArch for ObjArchArm {
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relocations: &[ObjReloc],
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line_info: &BTreeMap<u64, u32>,
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config: &DiffObjConfig,
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_sections: &[ObjSection],
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) -> Result<ProcessCodeResult> {
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let start_addr = address as u32;
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let end_addr = start_addr + code.len() as u32;
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@ -216,6 +217,7 @@ impl ObjArch for ObjArchArm {
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mnemonic: Cow::Borrowed(parsed_ins.mnemonic),
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args,
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reloc,
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fake_pool_reloc: None,
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branch_dest,
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line,
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formatted: parsed_ins.display(display_options).to_string(),
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@ -29,6 +29,7 @@ impl ObjArch for ObjArchArm64 {
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relocations: &[ObjReloc],
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line_info: &BTreeMap<u64, u32>,
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config: &DiffObjConfig,
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_sections: &[ObjSection],
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) -> Result<ProcessCodeResult> {
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let start_address = address;
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let end_address = address + code.len() as u64;
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@ -59,6 +60,7 @@ impl ObjArch for ObjArchArm64 {
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mnemonic: Cow::Borrowed("<invalid>"),
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args: vec![],
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reloc: None,
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fake_pool_reloc: None,
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branch_dest: None,
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line: None,
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formatted: "".to_string(),
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@ -121,6 +123,7 @@ impl ObjArch for ObjArchArm64 {
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mnemonic: Cow::Borrowed(mnemonic),
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args,
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reloc,
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fake_pool_reloc: None,
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branch_dest,
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line,
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formatted: ins.to_string(),
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@ -87,6 +87,7 @@ impl ObjArch for ObjArchMips {
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relocations: &[ObjReloc],
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line_info: &BTreeMap<u64, u32>,
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config: &DiffObjConfig,
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_sections: &[ObjSection],
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) -> Result<ProcessCodeResult> {
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let _guard = RABBITIZER_MUTEX.lock().map_err(|e| anyhow!("Failed to lock mutex: {e}"))?;
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configure_rabbitizer(match config.mips_abi {
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@ -205,6 +206,7 @@ impl ObjArch for ObjArchMips {
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mnemonic: Cow::Borrowed(mnemonic),
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args,
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reloc: reloc.cloned(),
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fake_pool_reloc: None,
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branch_dest,
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line,
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formatted,
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@ -36,13 +36,22 @@ pub enum DataType {
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impl DataType {
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pub fn display_bytes<Endian: ByteOrder>(&self, bytes: &[u8]) -> Option<String> {
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// TODO: Attempt to interpret large symbols as arrays of a smaller type,
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// fallback to intrepreting it as bytes.
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// https://github.com/encounter/objdiff/issues/124
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if self.required_len().is_some_and(|l| bytes.len() != l) {
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log::warn!("Failed to display a symbol value for a symbol whose size doesn't match the instruction referencing it.");
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if self.required_len().is_some_and(|l| bytes.len() < l) {
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log::warn!("Failed to display a symbol value for a symbol whose size is too small for instruction referencing it.");
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return None;
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}
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let mut bytes = bytes;
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if self.required_len().is_some_and(|l| bytes.len() > l) {
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// If the symbol's size is larger a single instance of this data type, we take just the
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// bytes necessary for one of them in order to display the first element of the array.
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bytes = &bytes[0..self.required_len().unwrap()];
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// TODO: Attempt to interpret large symbols as arrays of a smaller type and show all
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// elements of the array instead. https://github.com/encounter/objdiff/issues/124
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// However, note that the stride of an array can not always be determined just by the
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// data type guessed by the single instruction accessing it. There can also be arrays of
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// structs that contain multiple elements of different types, so if other elements after
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// the first one were to be displayed in this manner, they may be inaccurate.
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}
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match self {
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DataType::Int8 => {
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@ -117,6 +126,7 @@ impl DataType {
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}
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pub trait ObjArch: Send + Sync {
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#[expect(clippy::too_many_arguments)]
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fn process_code(
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&self,
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address: u64,
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@ -125,6 +135,7 @@ pub trait ObjArch: Send + Sync {
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relocations: &[ObjReloc],
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line_info: &BTreeMap<u64, u32>,
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config: &DiffObjConfig,
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sections: &[ObjSection],
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) -> Result<ProcessCodeResult>;
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fn implcit_addend(
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@ -1,4 +1,7 @@
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use std::{borrow::Cow, collections::BTreeMap};
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use std::{
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borrow::Cow,
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collections::{BTreeMap, HashMap},
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};
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use anyhow::{bail, ensure, Result};
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use byteorder::BigEndian;
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@ -7,7 +10,7 @@ use object::{
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elf, File, Object, ObjectSection, ObjectSymbol, Relocation, RelocationFlags, RelocationTarget,
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Symbol, SymbolKind,
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};
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use ppc750cl::{Argument, InsIter, Opcode, GPR};
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use ppc750cl::{Argument, InsIter, Opcode, ParsedIns, GPR};
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use crate::{
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arch::{DataType, ObjArch, ProcessCodeResult},
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@ -27,6 +30,180 @@ fn is_rel_abs_arg(arg: &Argument) -> bool {
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fn is_offset_arg(arg: &Argument) -> bool { matches!(arg, Argument::Offset(_)) }
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fn guess_data_type_from_load_store_inst_op(inst_op: Opcode) -> Option<DataType> {
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match inst_op {
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Opcode::Lbz | Opcode::Lbzu | Opcode::Lbzux | Opcode::Lbzx => Some(DataType::Int8),
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Opcode::Lhz | Opcode::Lhzu | Opcode::Lhzux | Opcode::Lhzx => Some(DataType::Int16),
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Opcode::Lha | Opcode::Lhau | Opcode::Lhaux | Opcode::Lhax => Some(DataType::Int16),
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Opcode::Lwz | Opcode::Lwzu | Opcode::Lwzux | Opcode::Lwzx => Some(DataType::Int32),
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Opcode::Lfs | Opcode::Lfsu | Opcode::Lfsux | Opcode::Lfsx => Some(DataType::Float),
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Opcode::Lfd | Opcode::Lfdu | Opcode::Lfdux | Opcode::Lfdx => Some(DataType::Double),
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Opcode::Stb | Opcode::Stbu | Opcode::Stbux | Opcode::Stbx => Some(DataType::Int8),
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Opcode::Sth | Opcode::Sthu | Opcode::Sthux | Opcode::Sthx => Some(DataType::Int16),
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Opcode::Stw | Opcode::Stwu | Opcode::Stwux | Opcode::Stwx => Some(DataType::Int32),
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Opcode::Stfs | Opcode::Stfsu | Opcode::Stfsux | Opcode::Stfsx => Some(DataType::Float),
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Opcode::Stfd | Opcode::Stfdu | Opcode::Stfdux | Opcode::Stfdx => Some(DataType::Double),
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_ => None,
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}
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}
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// Given an instruction, determine if it could accessing data at the address in a register.
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// If so, return the offset added to the register's address, the register containing that address,
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// and (optionally) which destination register the address is being copied into.
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fn get_offset_and_addr_gpr_for_possible_pool_reference(
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opcode: Opcode,
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simplified: &ParsedIns,
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) -> Option<(i16, GPR, Option<GPR>)> {
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let args = &simplified.args;
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if guess_data_type_from_load_store_inst_op(opcode).is_some() {
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match (args[1], args[2]) {
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(Argument::Offset(offset), Argument::GPR(addr_src_gpr)) => {
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// e.g. lwz. Immediate offset.
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Some((offset.0, addr_src_gpr, None))
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}
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(Argument::GPR(addr_src_gpr), Argument::GPR(_offset_gpr)) => {
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// e.g. lwzx. The offset is in a register and was likely calculated from an index.
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// Treat the offset as being 0 in this case to show the first element of the array.
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// It may be possible to show all elements by figuring out the stride of the array
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// from the calculations performed on the index before it's put into offset_gpr, but
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// this would be much more complicated, so it's not currently done.
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Some((0, addr_src_gpr, None))
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}
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_ => None,
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}
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} else {
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// If it's not a load/store instruction, there's two more possibilities we need to handle.
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// 1. It could be a reference to @stringBase.
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// 2. It could be moving the relocation address plus an offset into a different register to
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// load from later.
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// If either of these match, we also want to return the destination register that the
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// address is being copied into so that we can detect any future references to that new
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// register as well.
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match (opcode, args[0], args[1], args[2]) {
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(
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Opcode::Addi,
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Argument::GPR(addr_dst_gpr),
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Argument::GPR(addr_src_gpr),
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Argument::Simm(simm),
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) => Some((simm.0, addr_src_gpr, Some(addr_dst_gpr))),
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(
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Opcode::Or,
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Argument::GPR(addr_dst_gpr),
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Argument::GPR(addr_src_gpr),
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Argument::None,
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) => Some((0, addr_src_gpr, Some(addr_dst_gpr))), // `mr` or `mr.`
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_ => None,
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}
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}
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}
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// We create a fake relocation for an instruction, vaguely simulating what the actual relocation
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// might have looked like if it wasn't pooled. This is so minimal changes are needed to display
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// pooled accesses vs non-pooled accesses. We set the relocation type to R_PPC_NONE to indicate that
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// there isn't really a relocation here, as copying the pool relocation's type wouldn't make sense.
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// Also, if this instruction is accessing the middle of a symbol instead of the start, we add an
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// addend to indicate that.
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fn make_fake_pool_reloc(
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offset: i16,
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cur_addr: u32,
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pool_reloc: &ObjReloc,
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sections: &[ObjSection],
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) -> Option<ObjReloc> {
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let offset_from_pool = pool_reloc.addend + offset as i64;
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let target_address = pool_reloc.target.address.checked_add_signed(offset_from_pool)?;
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let orig_section_index = pool_reloc.target.orig_section_index?;
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let section = sections.iter().find(|s| s.orig_index == orig_section_index)?;
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let target_symbol = section
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.symbols
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.iter()
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.find(|s| s.size > 0 && (s.address..s.address + s.size).contains(&target_address))?;
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let addend = (target_address - target_symbol.address) as i64;
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Some(ObjReloc {
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flags: RelocationFlags::Elf { r_type: elf::R_PPC_NONE },
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address: cur_addr as u64,
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target: target_symbol.clone(),
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addend,
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})
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}
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// Searches through all instructions in a function, determining which registers have the addresses
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// of pooled data relocations in them, finding which instructions load data from those addresses,
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// and constructing a mapping of the address of that instruction to a "fake pool relocation" that
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// simulates what that instruction's relocation would look like if data hadn't been pooled.
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// Limitations: This method currently only goes through the instructions in a function in linear
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// order, from start to finish. It does *not* follow any branches. This means that it could have
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// false positives or false negatives in determining which relocation is currently loaded in which
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// register at any given point in the function, as control flow is not respected.
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// There are currently no known examples of this method producing inaccurate results in reality, but
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// if examples are found, it may be possible to update this method to also follow all branches so
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// that it produces more accurate results.
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fn generate_fake_pool_reloc_for_addr_mapping(
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address: u64,
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code: &[u8],
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relocations: &[ObjReloc],
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sections: &[ObjSection],
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) -> HashMap<u32, ObjReloc> {
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let mut active_pool_relocs = HashMap::new();
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let mut pool_reloc_for_addr = HashMap::new();
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for (cur_addr, ins) in InsIter::new(code, address as u32) {
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let simplified = ins.simplified();
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let reloc = relocations.iter().find(|r| (r.address as u32 & !3) == cur_addr);
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if let Some(reloc) = reloc {
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// This instruction has a real relocation, so it may be a pool load we want to keep
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// track of.
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let args = &simplified.args;
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match (ins.op, args[0], args[1], args[2]) {
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(
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Opcode::Addi,
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Argument::GPR(addr_dst_gpr),
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Argument::GPR(_addr_src_gpr),
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Argument::Simm(_simm),
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) => {
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active_pool_relocs.insert(addr_dst_gpr.0, reloc.clone()); // `lis` + `addi`
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}
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(
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Opcode::Ori,
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Argument::GPR(addr_dst_gpr),
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Argument::GPR(_addr_src_gpr),
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Argument::Uimm(_uimm),
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) => {
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active_pool_relocs.insert(addr_dst_gpr.0, reloc.clone()); // `lis` + `ori`
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}
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_ => {}
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}
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} else if let Some((offset, addr_src_gpr, addr_dst_gpr)) =
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get_offset_and_addr_gpr_for_possible_pool_reference(ins.op, &simplified)
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{
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// This instruction doesn't have a real relocation, so it may be a reference to one of
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// the already-loaded pools.
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if let Some(pool_reloc) = active_pool_relocs.get(&addr_src_gpr.0) {
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if let Some(fake_pool_reloc) =
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make_fake_pool_reloc(offset, cur_addr, pool_reloc, sections)
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{
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pool_reloc_for_addr.insert(cur_addr, fake_pool_reloc);
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}
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if let Some(addr_dst_gpr) = addr_dst_gpr {
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// If the address of the pool relocation got copied into another register, we
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// need to keep track of it in that register too as future instructions may
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// reference the symbol indirectly via this new register, instead of the
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// register the symbol's address was originally loaded into.
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// For example, the start of the function might `lis` + `addi` the start of the
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// ...data pool into r25, and then later the start of a loop will `addi` r25
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// with the offset within the .data section of an array variable into r21.
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// Then the body of the loop will `lwzx` one of the array elements from r21.
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let mut new_reloc = pool_reloc.clone();
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new_reloc.addend += offset as i64;
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active_pool_relocs.insert(addr_dst_gpr.0, new_reloc);
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}
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}
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}
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}
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pool_reloc_for_addr
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}
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pub struct ObjArchPpc {
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/// Exception info
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pub extab: Option<BTreeMap<usize, ExceptionInfo>>,
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@ -45,10 +222,13 @@ impl ObjArch for ObjArchPpc {
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relocations: &[ObjReloc],
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line_info: &BTreeMap<u64, u32>,
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config: &DiffObjConfig,
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sections: &[ObjSection],
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) -> Result<ProcessCodeResult> {
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let ins_count = code.len() / 4;
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let mut ops = Vec::<u16>::with_capacity(ins_count);
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let mut insts = Vec::<ObjIns>::with_capacity(ins_count);
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let fake_pool_reloc_for_addr =
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generate_fake_pool_reloc_for_addr_mapping(address, code, relocations, sections);
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for (cur_addr, mut ins) in InsIter::new(code, address as u32) {
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let reloc = relocations.iter().find(|r| (r.address as u32 & !3) == cur_addr);
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if let Some(reloc) = reloc {
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@ -146,6 +326,7 @@ impl ObjArch for ObjArchPpc {
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mnemonic: Cow::Borrowed(simplified.mnemonic),
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args,
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reloc: reloc.cloned(),
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fake_pool_reloc: fake_pool_reloc_for_addr.get(&cur_addr).cloned(),
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op: ins.op as u16,
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branch_dest,
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line,
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@ -173,6 +354,7 @@ impl ObjArch for ObjArchPpc {
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fn display_reloc(&self, flags: RelocationFlags) -> Cow<'static, str> {
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match flags {
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RelocationFlags::Elf { r_type } => match r_type {
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elf::R_PPC_NONE => Cow::Borrowed("R_PPC_NONE"), // We use this for fake pool relocs
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elf::R_PPC_ADDR16_LO => Cow::Borrowed("R_PPC_ADDR16_LO"),
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elf::R_PPC_ADDR16_HI => Cow::Borrowed("R_PPC_ADDR16_HI"),
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elf::R_PPC_ADDR16_HA => Cow::Borrowed("R_PPC_ADDR16_HA"),
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|
@ -188,27 +370,16 @@ impl ObjArch for ObjArchPpc {
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}
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fn guess_data_type(&self, instruction: &ObjIns) -> Option<super::DataType> {
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// Always shows the first string of the table. Not ideal, but it's really hard to find
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// the actual string being referenced.
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if instruction.reloc.as_ref().is_some_and(|r| r.target.name.starts_with("@stringBase")) {
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if instruction
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.reloc
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.as_ref()
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.or(instruction.fake_pool_reloc.as_ref())
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.is_some_and(|r| r.target.name.starts_with("@stringBase"))
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{
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return Some(DataType::String);
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}
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match Opcode::from(instruction.op as u8) {
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Opcode::Lbz | Opcode::Lbzu | Opcode::Lbzux | Opcode::Lbzx => Some(DataType::Int8),
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Opcode::Lhz | Opcode::Lhzu | Opcode::Lhzux | Opcode::Lhzx => Some(DataType::Int16),
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Opcode::Lha | Opcode::Lhau | Opcode::Lhaux | Opcode::Lhax => Some(DataType::Int16),
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Opcode::Lwz | Opcode::Lwzu | Opcode::Lwzux | Opcode::Lwzx => Some(DataType::Int32),
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Opcode::Lfs | Opcode::Lfsu | Opcode::Lfsux | Opcode::Lfsx => Some(DataType::Float),
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Opcode::Lfd | Opcode::Lfdu | Opcode::Lfdux | Opcode::Lfdx => Some(DataType::Double),
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Opcode::Stb | Opcode::Stbu | Opcode::Stbux | Opcode::Stbx => Some(DataType::Int8),
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Opcode::Sth | Opcode::Sthu | Opcode::Sthux | Opcode::Sthx => Some(DataType::Int16),
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Opcode::Stw | Opcode::Stwu | Opcode::Stwux | Opcode::Stwx => Some(DataType::Int32),
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Opcode::Stfs | Opcode::Stfsu | Opcode::Stfsux | Opcode::Stfsx => Some(DataType::Float),
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Opcode::Stfd | Opcode::Stfdu | Opcode::Stfdux | Opcode::Stfdx => Some(DataType::Double),
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_ => None,
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}
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guess_data_type_from_load_store_inst_op(Opcode::from(instruction.op as u8))
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}
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fn display_data_type(&self, ty: DataType, bytes: &[u8]) -> Option<String> {
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|
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@ -34,6 +34,7 @@ impl ObjArch for ObjArchX86 {
|
|||
relocations: &[ObjReloc],
|
||||
line_info: &BTreeMap<u64, u32>,
|
||||
config: &DiffObjConfig,
|
||||
_sections: &[ObjSection],
|
||||
) -> Result<ProcessCodeResult> {
|
||||
let mut result = ProcessCodeResult { ops: Vec::new(), insts: Vec::new() };
|
||||
let mut decoder = Decoder::with_ip(self.bits, code, address, DecoderOptions::NONE);
|
||||
|
@ -54,6 +55,7 @@ impl ObjArch for ObjArchX86 {
|
|||
mnemonic: Cow::Borrowed("<invalid>"),
|
||||
args: vec![],
|
||||
reloc: None,
|
||||
fake_pool_reloc: None,
|
||||
branch_dest: None,
|
||||
line: None,
|
||||
formatted: String::new(),
|
||||
|
@ -79,6 +81,7 @@ impl ObjArch for ObjArchX86 {
|
|||
mnemonic: Cow::Borrowed("<invalid>"),
|
||||
args: vec![],
|
||||
reloc: reloc.cloned(),
|
||||
fake_pool_reloc: None,
|
||||
branch_dest: None,
|
||||
line,
|
||||
formatted: String::new(),
|
||||
|
|
|
@ -28,6 +28,7 @@ pub fn process_code_symbol(
|
|||
§ion.relocations,
|
||||
§ion.line_info,
|
||||
config,
|
||||
&obj.sections,
|
||||
)
|
||||
}
|
||||
|
||||
|
|
|
@ -106,6 +106,7 @@ pub struct ObjIns {
|
|||
pub mnemonic: Cow<'static, str>,
|
||||
pub args: Vec<ObjInsArg>,
|
||||
pub reloc: Option<ObjReloc>,
|
||||
pub fake_pool_reloc: Option<ObjReloc>,
|
||||
pub branch_dest: Option<u64>,
|
||||
/// Line number
|
||||
pub line: Option<u32>,
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
use std::default::Default;
|
||||
use std::{cmp::Ordering, default::Default};
|
||||
|
||||
use egui::{text::LayoutJob, Id, Label, Response, RichText, Sense, Widget};
|
||||
use egui_extras::TableRow;
|
||||
|
@ -118,9 +118,17 @@ fn ins_hover_ui(
|
|||
}
|
||||
}
|
||||
|
||||
if let Some(reloc) = &ins.reloc {
|
||||
if let Some(reloc) = ins.reloc.as_ref().or(ins.fake_pool_reloc.as_ref()) {
|
||||
ui.label(format!("Relocation type: {}", obj.arch.display_reloc(reloc.flags)));
|
||||
ui.colored_label(appearance.highlight_color, format!("Name: {}", reloc.target.name));
|
||||
let addend_str = match reloc.addend.cmp(&0i64) {
|
||||
Ordering::Greater => format!("+{:x}", reloc.addend),
|
||||
Ordering::Less => format!("-{:x}", -reloc.addend),
|
||||
_ => "".to_string(),
|
||||
};
|
||||
ui.colored_label(
|
||||
appearance.highlight_color,
|
||||
format!("Name: {}{}", reloc.target.name, addend_str),
|
||||
);
|
||||
if let Some(orig_section_index) = reloc.target.orig_section_index {
|
||||
if let Some(section) =
|
||||
obj.sections.iter().find(|s| s.orig_index == orig_section_index)
|
||||
|
@ -132,19 +140,19 @@ fn ins_hover_ui(
|
|||
}
|
||||
ui.colored_label(
|
||||
appearance.highlight_color,
|
||||
format!("Address: {:x}", reloc.target.address),
|
||||
format!("Address: {:x}{}", reloc.target.address, addend_str),
|
||||
);
|
||||
ui.colored_label(
|
||||
appearance.highlight_color,
|
||||
format!("Size: {:x}", reloc.target.size),
|
||||
);
|
||||
if let Some(s) = obj
|
||||
.arch
|
||||
.guess_data_type(ins)
|
||||
.and_then(|ty| obj.arch.display_data_type(ty, &reloc.target.bytes))
|
||||
{
|
||||
if reloc.addend >= 0 && reloc.target.bytes.len() > reloc.addend as usize {
|
||||
if let Some(s) = obj.arch.guess_data_type(ins).and_then(|ty| {
|
||||
obj.arch.display_data_type(ty, &reloc.target.bytes[reloc.addend as usize..])
|
||||
}) {
|
||||
ui.colored_label(appearance.highlight_color, s);
|
||||
}
|
||||
}
|
||||
} else {
|
||||
ui.colored_label(appearance.highlight_color, "Extern".to_string());
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue