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/*
* Copyright (C) 2015 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "linker/arm/relative_patcher_arm_base.h"
#include "compiled_method.h"
#include "linker/output_stream.h"
#include "oat.h"
#include "oat_quick_method_header.h"
namespace art {
namespace linker {
uint32_t ArmBaseRelativePatcher::ReserveSpace(uint32_t offset,
const CompiledMethod* compiled_method,
MethodReference method_ref) {
return ReserveSpaceInternal(offset, compiled_method, method_ref, 0u);
}
uint32_t ArmBaseRelativePatcher::ReserveSpaceEnd(uint32_t offset) {
uint32_t aligned_offset = CompiledMethod::AlignCode(offset, instruction_set_);
bool needs_thunk = ReserveSpaceProcessPatches(aligned_offset,
MethodReference(nullptr, 0u),
aligned_offset);
if (needs_thunk) {
// All remaining patches will be handled by this thunk.
DCHECK(!unprocessed_patches_.empty());
DCHECK_LE(aligned_offset - unprocessed_patches_.front().second, max_positive_displacement_);
unprocessed_patches_.clear();
thunk_locations_.push_back(aligned_offset);
offset = aligned_offset + thunk_code_.size();
}
return offset;
}
uint32_t ArmBaseRelativePatcher::WriteThunks(OutputStream* out, uint32_t offset) {
if (current_thunk_to_write_ == thunk_locations_.size()) {
return offset;
}
uint32_t aligned_offset = CompiledMethod::AlignCode(offset, instruction_set_);
if (UNLIKELY(aligned_offset == thunk_locations_[current_thunk_to_write_])) {
++current_thunk_to_write_;
uint32_t aligned_code_delta = aligned_offset - offset;
if (aligned_code_delta != 0u && !WriteCodeAlignment(out, aligned_code_delta)) {
return 0u;
}
if (UNLIKELY(!WriteRelCallThunk(out, ArrayRef<const uint8_t>(thunk_code_)))) {
return 0u;
}
offset = aligned_offset + thunk_code_.size();
}
return offset;
}
ArmBaseRelativePatcher::ArmBaseRelativePatcher(RelativePatcherTargetProvider* provider,
InstructionSet instruction_set,
std::vector<uint8_t> thunk_code,
uint32_t max_positive_displacement,
uint32_t max_negative_displacement)
: provider_(provider), instruction_set_(instruction_set), thunk_code_(thunk_code),
max_positive_displacement_(max_positive_displacement),
max_negative_displacement_(max_negative_displacement),
thunk_locations_(), current_thunk_to_write_(0u), unprocessed_patches_() {
}
uint32_t ArmBaseRelativePatcher::ReserveSpaceInternal(uint32_t offset,
const CompiledMethod* compiled_method,
MethodReference method_ref,
uint32_t max_extra_space) {
uint32_t quick_code_size = compiled_method->GetQuickCode().size();
uint32_t quick_code_offset = compiled_method->AlignCode(offset + sizeof(OatQuickMethodHeader));
uint32_t next_aligned_offset = compiled_method->AlignCode(quick_code_offset + quick_code_size);
// Adjust for extra space required by the subclass.
next_aligned_offset = compiled_method->AlignCode(next_aligned_offset + max_extra_space);
// TODO: ignore unprocessed patches targeting this method if they can reach quick_code_offset.
// We need the MethodReference for that.
if (!unprocessed_patches_.empty() &&
next_aligned_offset - unprocessed_patches_.front().second > max_positive_displacement_) {
bool needs_thunk = ReserveSpaceProcessPatches(quick_code_offset,
method_ref,
next_aligned_offset);
if (needs_thunk) {
// A single thunk will cover all pending patches.
unprocessed_patches_.clear();
uint32_t thunk_location = CompiledMethod::AlignCode(offset, instruction_set_);
thunk_locations_.push_back(thunk_location);
offset = thunk_location + thunk_code_.size();
}
}
for (const LinkerPatch& patch : compiled_method->GetPatches()) {
if (patch.GetType() == LinkerPatch::Type::kCallRelative) {
unprocessed_patches_.emplace_back(patch.TargetMethod(),
quick_code_offset + patch.LiteralOffset());
}
}
return offset;
}
uint32_t ArmBaseRelativePatcher::CalculateDisplacement(uint32_t patch_offset,
uint32_t target_offset) {
// Unsigned arithmetic with its well-defined overflow behavior is just fine here.
uint32_t displacement = target_offset - patch_offset;
// NOTE: With unsigned arithmetic we do mean to use && rather than || below.
if (displacement > max_positive_displacement_ && displacement < -max_negative_displacement_) {
// Unwritten thunks have higher offsets, check if it's within range.
DCHECK(current_thunk_to_write_ == thunk_locations_.size() ||
thunk_locations_[current_thunk_to_write_] > patch_offset);
if (current_thunk_to_write_ != thunk_locations_.size() &&
thunk_locations_[current_thunk_to_write_] - patch_offset < max_positive_displacement_) {
displacement = thunk_locations_[current_thunk_to_write_] - patch_offset;
} else {
// We must have a previous thunk then.
DCHECK_NE(current_thunk_to_write_, 0u);
DCHECK_LT(thunk_locations_[current_thunk_to_write_ - 1], patch_offset);
displacement = thunk_locations_[current_thunk_to_write_ - 1] - patch_offset;
DCHECK(displacement >= -max_negative_displacement_);
}
}
return displacement;
}
bool ArmBaseRelativePatcher::ReserveSpaceProcessPatches(uint32_t quick_code_offset,
MethodReference method_ref,
uint32_t next_aligned_offset) {
// Process as many patches as possible, stop only on unresolved targets or calls too far back.
while (!unprocessed_patches_.empty()) {
MethodReference patch_ref = unprocessed_patches_.front().first;
uint32_t patch_offset = unprocessed_patches_.front().second;
DCHECK(thunk_locations_.empty() || thunk_locations_.back() <= patch_offset);
if (patch_ref.dex_file == method_ref.dex_file &&
patch_ref.dex_method_index == method_ref.dex_method_index) {
DCHECK_GT(quick_code_offset, patch_offset);
if (quick_code_offset - patch_offset > max_positive_displacement_) {
return true;
}
} else {
auto result = provider_->FindMethodOffset(patch_ref);
if (!result.first) {
// If still unresolved, check if we have a thunk within range.
if (thunk_locations_.empty() ||
patch_offset - thunk_locations_.back() > max_negative_displacement_) {
// No thunk in range, we need a thunk if the next aligned offset
// is out of range, or if we're at the end of all code.
return (next_aligned_offset - patch_offset > max_positive_displacement_) ||
(quick_code_offset == next_aligned_offset); // End of code.
}
} else {
uint32_t target_offset = result.second - CompiledCode::CodeDelta(instruction_set_);
if (target_offset >= patch_offset) {
DCHECK_LE(target_offset - patch_offset, max_positive_displacement_);
} else {
// When calling back, check if we have a thunk that's closer than the actual target.
if (!thunk_locations_.empty()) {
target_offset = std::max(target_offset, thunk_locations_.back());
}
if (patch_offset - target_offset > max_negative_displacement_) {
return true;
}
}
}
}
unprocessed_patches_.pop_front();
}
return false;
}
} // namespace linker
} // namespace art