1*f5c631daSSadaf Ebrahimi // Copyright 2017, VIXL authors
2*f5c631daSSadaf Ebrahimi // All rights reserved.
3*f5c631daSSadaf Ebrahimi //
4*f5c631daSSadaf Ebrahimi // Redistribution and use in source and binary forms, with or without
5*f5c631daSSadaf Ebrahimi // modification, are permitted provided that the following conditions are met:
6*f5c631daSSadaf Ebrahimi //
7*f5c631daSSadaf Ebrahimi // * Redistributions of source code must retain the above copyright notice,
8*f5c631daSSadaf Ebrahimi // this list of conditions and the following disclaimer.
9*f5c631daSSadaf Ebrahimi // * Redistributions in binary form must reproduce the above copyright notice,
10*f5c631daSSadaf Ebrahimi // this list of conditions and the following disclaimer in the documentation
11*f5c631daSSadaf Ebrahimi // and/or other materials provided with the distribution.
12*f5c631daSSadaf Ebrahimi // * Neither the name of ARM Limited nor the names of its contributors may be
13*f5c631daSSadaf Ebrahimi // used to endorse or promote products derived from this software without
14*f5c631daSSadaf Ebrahimi // specific prior written permission.
15*f5c631daSSadaf Ebrahimi //
16*f5c631daSSadaf Ebrahimi // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND
17*f5c631daSSadaf Ebrahimi // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
18*f5c631daSSadaf Ebrahimi // WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
19*f5c631daSSadaf Ebrahimi // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
20*f5c631daSSadaf Ebrahimi // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21*f5c631daSSadaf Ebrahimi // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
22*f5c631daSSadaf Ebrahimi // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
23*f5c631daSSadaf Ebrahimi // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
24*f5c631daSSadaf Ebrahimi // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
25*f5c631daSSadaf Ebrahimi // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26*f5c631daSSadaf Ebrahimi
27*f5c631daSSadaf Ebrahimi #ifndef VIXL_POOL_MANAGER_IMPL_H_
28*f5c631daSSadaf Ebrahimi #define VIXL_POOL_MANAGER_IMPL_H_
29*f5c631daSSadaf Ebrahimi
30*f5c631daSSadaf Ebrahimi #include "pool-manager.h"
31*f5c631daSSadaf Ebrahimi
32*f5c631daSSadaf Ebrahimi #include <algorithm>
33*f5c631daSSadaf Ebrahimi #include "assembler-base-vixl.h"
34*f5c631daSSadaf Ebrahimi
35*f5c631daSSadaf Ebrahimi namespace vixl {
36*f5c631daSSadaf Ebrahimi
37*f5c631daSSadaf Ebrahimi
38*f5c631daSSadaf Ebrahimi template <typename T>
Emit(MacroAssemblerInterface * masm,T pc,int num_bytes,ForwardReference<T> * new_reference,LocationBase<T> * new_object,EmitOption option)39*f5c631daSSadaf Ebrahimi T PoolManager<T>::Emit(MacroAssemblerInterface* masm,
40*f5c631daSSadaf Ebrahimi T pc,
41*f5c631daSSadaf Ebrahimi int num_bytes,
42*f5c631daSSadaf Ebrahimi ForwardReference<T>* new_reference,
43*f5c631daSSadaf Ebrahimi LocationBase<T>* new_object,
44*f5c631daSSadaf Ebrahimi EmitOption option) {
45*f5c631daSSadaf Ebrahimi // Make sure that the buffer still has the alignment we think it does.
46*f5c631daSSadaf Ebrahimi VIXL_ASSERT(IsAligned(masm->AsAssemblerBase()
47*f5c631daSSadaf Ebrahimi ->GetBuffer()
48*f5c631daSSadaf Ebrahimi ->GetStartAddress<uintptr_t>(),
49*f5c631daSSadaf Ebrahimi buffer_alignment_));
50*f5c631daSSadaf Ebrahimi
51*f5c631daSSadaf Ebrahimi // We should not call this method when the pools are blocked.
52*f5c631daSSadaf Ebrahimi VIXL_ASSERT(!IsBlocked());
53*f5c631daSSadaf Ebrahimi if (objects_.empty()) return pc;
54*f5c631daSSadaf Ebrahimi
55*f5c631daSSadaf Ebrahimi // Emit header.
56*f5c631daSSadaf Ebrahimi if (option == kBranchRequired) {
57*f5c631daSSadaf Ebrahimi masm->EmitPoolHeader();
58*f5c631daSSadaf Ebrahimi // TODO: The pc at this point might not actually be aligned according to
59*f5c631daSSadaf Ebrahimi // alignment_. This is to support the current AARCH32 MacroAssembler which
60*f5c631daSSadaf Ebrahimi // does not have a fixed size instruction set. In practice, the pc will be
61*f5c631daSSadaf Ebrahimi // aligned to the alignment instructions need for the current instruction
62*f5c631daSSadaf Ebrahimi // set, so we do not need to align it here. All other calculations do take
63*f5c631daSSadaf Ebrahimi // the alignment into account, which only makes the checkpoint calculations
64*f5c631daSSadaf Ebrahimi // more conservative when we use T32. Uncomment the following assertion if
65*f5c631daSSadaf Ebrahimi // the AARCH32 MacroAssembler is modified to only support one ISA at the
66*f5c631daSSadaf Ebrahimi // time.
67*f5c631daSSadaf Ebrahimi // VIXL_ASSERT(pc == AlignUp(pc, alignment_));
68*f5c631daSSadaf Ebrahimi pc += header_size_;
69*f5c631daSSadaf Ebrahimi } else {
70*f5c631daSSadaf Ebrahimi // If the header is optional, we might need to add some extra padding to
71*f5c631daSSadaf Ebrahimi // meet the minimum location of the first object.
72*f5c631daSSadaf Ebrahimi if (pc < objects_[0].min_location_) {
73*f5c631daSSadaf Ebrahimi int32_t padding = objects_[0].min_location_ - pc;
74*f5c631daSSadaf Ebrahimi masm->EmitNopBytes(padding);
75*f5c631daSSadaf Ebrahimi pc += padding;
76*f5c631daSSadaf Ebrahimi }
77*f5c631daSSadaf Ebrahimi }
78*f5c631daSSadaf Ebrahimi
79*f5c631daSSadaf Ebrahimi PoolObject<T>* existing_object = GetObjectIfTracked(new_object);
80*f5c631daSSadaf Ebrahimi
81*f5c631daSSadaf Ebrahimi // Go through all objects and emit one by one.
82*f5c631daSSadaf Ebrahimi for (objects_iter iter = objects_.begin(); iter != objects_.end();) {
83*f5c631daSSadaf Ebrahimi PoolObject<T>& current = *iter;
84*f5c631daSSadaf Ebrahimi if (ShouldSkipObject(¤t,
85*f5c631daSSadaf Ebrahimi pc,
86*f5c631daSSadaf Ebrahimi num_bytes,
87*f5c631daSSadaf Ebrahimi new_reference,
88*f5c631daSSadaf Ebrahimi new_object,
89*f5c631daSSadaf Ebrahimi existing_object)) {
90*f5c631daSSadaf Ebrahimi ++iter;
91*f5c631daSSadaf Ebrahimi continue;
92*f5c631daSSadaf Ebrahimi }
93*f5c631daSSadaf Ebrahimi LocationBase<T>* label_base = current.label_base_;
94*f5c631daSSadaf Ebrahimi T aligned_pc = AlignUp(pc, current.alignment_);
95*f5c631daSSadaf Ebrahimi masm->EmitPaddingBytes(aligned_pc - pc);
96*f5c631daSSadaf Ebrahimi pc = aligned_pc;
97*f5c631daSSadaf Ebrahimi VIXL_ASSERT(pc >= current.min_location_);
98*f5c631daSSadaf Ebrahimi VIXL_ASSERT(pc <= current.max_location_);
99*f5c631daSSadaf Ebrahimi // First call SetLocation, which will also resolve the references, and then
100*f5c631daSSadaf Ebrahimi // call EmitPoolObject, which might add a new reference.
101*f5c631daSSadaf Ebrahimi label_base->SetLocation(masm->AsAssemblerBase(), pc);
102*f5c631daSSadaf Ebrahimi label_base->EmitPoolObject(masm);
103*f5c631daSSadaf Ebrahimi int object_size = label_base->GetPoolObjectSizeInBytes();
104*f5c631daSSadaf Ebrahimi if (label_base->ShouldDeletePoolObjectOnPlacement()) {
105*f5c631daSSadaf Ebrahimi label_base->MarkBound();
106*f5c631daSSadaf Ebrahimi iter = RemoveAndDelete(iter);
107*f5c631daSSadaf Ebrahimi } else {
108*f5c631daSSadaf Ebrahimi VIXL_ASSERT(!current.label_base_->ShouldDeletePoolObjectOnPlacement());
109*f5c631daSSadaf Ebrahimi current.label_base_->UpdatePoolObject(¤t);
110*f5c631daSSadaf Ebrahimi VIXL_ASSERT(current.alignment_ >= label_base->GetPoolObjectAlignment());
111*f5c631daSSadaf Ebrahimi ++iter;
112*f5c631daSSadaf Ebrahimi }
113*f5c631daSSadaf Ebrahimi pc += object_size;
114*f5c631daSSadaf Ebrahimi }
115*f5c631daSSadaf Ebrahimi
116*f5c631daSSadaf Ebrahimi // Recalculate the checkpoint before emitting the footer. The footer might
117*f5c631daSSadaf Ebrahimi // call Bind() which will check if we need to emit.
118*f5c631daSSadaf Ebrahimi RecalculateCheckpoint();
119*f5c631daSSadaf Ebrahimi
120*f5c631daSSadaf Ebrahimi // Always emit footer - this might add some padding.
121*f5c631daSSadaf Ebrahimi masm->EmitPoolFooter();
122*f5c631daSSadaf Ebrahimi pc = AlignUp(pc, alignment_);
123*f5c631daSSadaf Ebrahimi
124*f5c631daSSadaf Ebrahimi return pc;
125*f5c631daSSadaf Ebrahimi }
126*f5c631daSSadaf Ebrahimi
127*f5c631daSSadaf Ebrahimi template <typename T>
ShouldSkipObject(PoolObject<T> * pool_object,T pc,int num_bytes,ForwardReference<T> * new_reference,LocationBase<T> * new_object,PoolObject<T> * existing_object)128*f5c631daSSadaf Ebrahimi bool PoolManager<T>::ShouldSkipObject(PoolObject<T>* pool_object,
129*f5c631daSSadaf Ebrahimi T pc,
130*f5c631daSSadaf Ebrahimi int num_bytes,
131*f5c631daSSadaf Ebrahimi ForwardReference<T>* new_reference,
132*f5c631daSSadaf Ebrahimi LocationBase<T>* new_object,
133*f5c631daSSadaf Ebrahimi PoolObject<T>* existing_object) const {
134*f5c631daSSadaf Ebrahimi // We assume that all objects before this have been skipped and all objects
135*f5c631daSSadaf Ebrahimi // after this will be emitted, therefore we will emit the whole pool. Add
136*f5c631daSSadaf Ebrahimi // the header size and alignment, as well as the number of bytes we are
137*f5c631daSSadaf Ebrahimi // planning to emit.
138*f5c631daSSadaf Ebrahimi T max_actual_location = pc + num_bytes + max_pool_size_;
139*f5c631daSSadaf Ebrahimi
140*f5c631daSSadaf Ebrahimi if (new_reference != NULL) {
141*f5c631daSSadaf Ebrahimi // If we're adding a new object, also assume that it will have to be emitted
142*f5c631daSSadaf Ebrahimi // before the object we are considering to skip.
143*f5c631daSSadaf Ebrahimi VIXL_ASSERT(new_object != NULL);
144*f5c631daSSadaf Ebrahimi T new_object_alignment = std::max(new_reference->object_alignment_,
145*f5c631daSSadaf Ebrahimi new_object->GetPoolObjectAlignment());
146*f5c631daSSadaf Ebrahimi if ((existing_object != NULL) &&
147*f5c631daSSadaf Ebrahimi (existing_object->alignment_ > new_object_alignment)) {
148*f5c631daSSadaf Ebrahimi new_object_alignment = existing_object->alignment_;
149*f5c631daSSadaf Ebrahimi }
150*f5c631daSSadaf Ebrahimi max_actual_location +=
151*f5c631daSSadaf Ebrahimi (new_object->GetPoolObjectSizeInBytes() + new_object_alignment - 1);
152*f5c631daSSadaf Ebrahimi }
153*f5c631daSSadaf Ebrahimi
154*f5c631daSSadaf Ebrahimi // Hard limit.
155*f5c631daSSadaf Ebrahimi if (max_actual_location >= pool_object->max_location_) return false;
156*f5c631daSSadaf Ebrahimi
157*f5c631daSSadaf Ebrahimi // Use heuristic.
158*f5c631daSSadaf Ebrahimi return (pc < pool_object->skip_until_location_hint_);
159*f5c631daSSadaf Ebrahimi }
160*f5c631daSSadaf Ebrahimi
161*f5c631daSSadaf Ebrahimi template <typename T>
UpdateCheckpointForObject(T checkpoint,const PoolObject<T> * object)162*f5c631daSSadaf Ebrahimi T PoolManager<T>::UpdateCheckpointForObject(T checkpoint,
163*f5c631daSSadaf Ebrahimi const PoolObject<T>* object) {
164*f5c631daSSadaf Ebrahimi checkpoint -= object->label_base_->GetPoolObjectSizeInBytes();
165*f5c631daSSadaf Ebrahimi if (checkpoint > object->max_location_) checkpoint = object->max_location_;
166*f5c631daSSadaf Ebrahimi checkpoint = AlignDown(checkpoint, object->alignment_);
167*f5c631daSSadaf Ebrahimi return checkpoint;
168*f5c631daSSadaf Ebrahimi }
169*f5c631daSSadaf Ebrahimi
170*f5c631daSSadaf Ebrahimi template <typename T>
MaxCheckpoint()171*f5c631daSSadaf Ebrahimi static T MaxCheckpoint() {
172*f5c631daSSadaf Ebrahimi return std::numeric_limits<T>::max();
173*f5c631daSSadaf Ebrahimi }
174*f5c631daSSadaf Ebrahimi
175*f5c631daSSadaf Ebrahimi template <typename T>
CheckCurrentPC(T pc,T checkpoint)176*f5c631daSSadaf Ebrahimi static inline bool CheckCurrentPC(T pc, T checkpoint) {
177*f5c631daSSadaf Ebrahimi VIXL_ASSERT(pc <= checkpoint);
178*f5c631daSSadaf Ebrahimi // We must emit the pools if we are at the checkpoint now.
179*f5c631daSSadaf Ebrahimi return pc == checkpoint;
180*f5c631daSSadaf Ebrahimi }
181*f5c631daSSadaf Ebrahimi
182*f5c631daSSadaf Ebrahimi template <typename T>
CheckFuturePC(T pc,T checkpoint)183*f5c631daSSadaf Ebrahimi static inline bool CheckFuturePC(T pc, T checkpoint) {
184*f5c631daSSadaf Ebrahimi // We do not need to emit the pools now if the projected future PC will be
185*f5c631daSSadaf Ebrahimi // equal to the checkpoint (we will need to emit the pools then).
186*f5c631daSSadaf Ebrahimi return pc > checkpoint;
187*f5c631daSSadaf Ebrahimi }
188*f5c631daSSadaf Ebrahimi
189*f5c631daSSadaf Ebrahimi template <typename T>
MustEmit(T pc,int num_bytes,ForwardReference<T> * reference,LocationBase<T> * label_base)190*f5c631daSSadaf Ebrahimi bool PoolManager<T>::MustEmit(T pc,
191*f5c631daSSadaf Ebrahimi int num_bytes,
192*f5c631daSSadaf Ebrahimi ForwardReference<T>* reference,
193*f5c631daSSadaf Ebrahimi LocationBase<T>* label_base) const {
194*f5c631daSSadaf Ebrahimi // Check if we are at or past the checkpoint.
195*f5c631daSSadaf Ebrahimi if (CheckCurrentPC(pc, checkpoint_)) return true;
196*f5c631daSSadaf Ebrahimi
197*f5c631daSSadaf Ebrahimi // Check if the future PC will be past the checkpoint.
198*f5c631daSSadaf Ebrahimi pc += num_bytes;
199*f5c631daSSadaf Ebrahimi if (CheckFuturePC(pc, checkpoint_)) return true;
200*f5c631daSSadaf Ebrahimi
201*f5c631daSSadaf Ebrahimi // No new reference - nothing to do.
202*f5c631daSSadaf Ebrahimi if (reference == NULL) {
203*f5c631daSSadaf Ebrahimi VIXL_ASSERT(label_base == NULL);
204*f5c631daSSadaf Ebrahimi return false;
205*f5c631daSSadaf Ebrahimi }
206*f5c631daSSadaf Ebrahimi
207*f5c631daSSadaf Ebrahimi if (objects_.empty()) {
208*f5c631daSSadaf Ebrahimi // Basic assertions that restrictions on the new (and only) reference are
209*f5c631daSSadaf Ebrahimi // possible to satisfy.
210*f5c631daSSadaf Ebrahimi VIXL_ASSERT(AlignUp(pc + header_size_, alignment_) >=
211*f5c631daSSadaf Ebrahimi reference->min_object_location_);
212*f5c631daSSadaf Ebrahimi VIXL_ASSERT(pc <= reference->max_object_location_);
213*f5c631daSSadaf Ebrahimi return false;
214*f5c631daSSadaf Ebrahimi }
215*f5c631daSSadaf Ebrahimi
216*f5c631daSSadaf Ebrahimi // Check if the object is already being tracked.
217*f5c631daSSadaf Ebrahimi const PoolObject<T>* existing_object = GetObjectIfTracked(label_base);
218*f5c631daSSadaf Ebrahimi if (existing_object != NULL) {
219*f5c631daSSadaf Ebrahimi // If the existing_object is already in existing_objects_ and its new
220*f5c631daSSadaf Ebrahimi // alignment and new location restrictions are not stricter, skip the more
221*f5c631daSSadaf Ebrahimi // expensive check.
222*f5c631daSSadaf Ebrahimi if ((reference->min_object_location_ <= existing_object->min_location_) &&
223*f5c631daSSadaf Ebrahimi (reference->max_object_location_ >= existing_object->max_location_) &&
224*f5c631daSSadaf Ebrahimi (reference->object_alignment_ <= existing_object->alignment_)) {
225*f5c631daSSadaf Ebrahimi return false;
226*f5c631daSSadaf Ebrahimi }
227*f5c631daSSadaf Ebrahimi }
228*f5c631daSSadaf Ebrahimi
229*f5c631daSSadaf Ebrahimi // Create a temporary object.
230*f5c631daSSadaf Ebrahimi PoolObject<T> temp(label_base);
231*f5c631daSSadaf Ebrahimi temp.RestrictRange(reference->min_object_location_,
232*f5c631daSSadaf Ebrahimi reference->max_object_location_);
233*f5c631daSSadaf Ebrahimi temp.RestrictAlignment(reference->object_alignment_);
234*f5c631daSSadaf Ebrahimi if (existing_object != NULL) {
235*f5c631daSSadaf Ebrahimi temp.RestrictRange(existing_object->min_location_,
236*f5c631daSSadaf Ebrahimi existing_object->max_location_);
237*f5c631daSSadaf Ebrahimi temp.RestrictAlignment(existing_object->alignment_);
238*f5c631daSSadaf Ebrahimi }
239*f5c631daSSadaf Ebrahimi
240*f5c631daSSadaf Ebrahimi // Check if the new reference can be added after the end of the current pool.
241*f5c631daSSadaf Ebrahimi // If yes, we don't need to emit.
242*f5c631daSSadaf Ebrahimi T last_reachable = AlignDown(temp.max_location_, temp.alignment_);
243*f5c631daSSadaf Ebrahimi const PoolObject<T>& last = objects_.back();
244*f5c631daSSadaf Ebrahimi T after_pool = AlignDown(last.max_location_, last.alignment_) +
245*f5c631daSSadaf Ebrahimi last.label_base_->GetPoolObjectSizeInBytes();
246*f5c631daSSadaf Ebrahimi // The current object can be placed at the end of the pool, even if the last
247*f5c631daSSadaf Ebrahimi // object is placed at the last possible location.
248*f5c631daSSadaf Ebrahimi if (last_reachable >= after_pool) return false;
249*f5c631daSSadaf Ebrahimi // The current object can be placed after the code we are about to emit and
250*f5c631daSSadaf Ebrahimi // after the existing pool (with a pessimistic size estimate).
251*f5c631daSSadaf Ebrahimi if (last_reachable >= pc + num_bytes + max_pool_size_) return false;
252*f5c631daSSadaf Ebrahimi
253*f5c631daSSadaf Ebrahimi // We're not in a trivial case, so we need to recalculate the checkpoint.
254*f5c631daSSadaf Ebrahimi
255*f5c631daSSadaf Ebrahimi // Check (conservatively) if we can fit it into the objects_ array, without
256*f5c631daSSadaf Ebrahimi // breaking our assumptions. Here we want to recalculate the checkpoint as
257*f5c631daSSadaf Ebrahimi // if the new reference was added to the PoolManager but without actually
258*f5c631daSSadaf Ebrahimi // adding it (as removing it is non-trivial).
259*f5c631daSSadaf Ebrahimi
260*f5c631daSSadaf Ebrahimi T checkpoint = MaxCheckpoint<T>();
261*f5c631daSSadaf Ebrahimi // Will temp be the last object in objects_?
262*f5c631daSSadaf Ebrahimi if (PoolObjectLessThan(last, temp)) {
263*f5c631daSSadaf Ebrahimi checkpoint = UpdateCheckpointForObject(checkpoint, &temp);
264*f5c631daSSadaf Ebrahimi if (checkpoint < temp.min_location_) return true;
265*f5c631daSSadaf Ebrahimi }
266*f5c631daSSadaf Ebrahimi
267*f5c631daSSadaf Ebrahimi bool temp_not_placed_yet = true;
268*f5c631daSSadaf Ebrahimi for (int i = static_cast<int>(objects_.size()) - 1; i >= 0; --i) {
269*f5c631daSSadaf Ebrahimi const PoolObject<T>& current = objects_[i];
270*f5c631daSSadaf Ebrahimi if (temp_not_placed_yet && PoolObjectLessThan(current, temp)) {
271*f5c631daSSadaf Ebrahimi checkpoint = UpdateCheckpointForObject(checkpoint, &temp);
272*f5c631daSSadaf Ebrahimi if (checkpoint < temp.min_location_) return true;
273*f5c631daSSadaf Ebrahimi if (CheckFuturePC(pc, checkpoint)) return true;
274*f5c631daSSadaf Ebrahimi temp_not_placed_yet = false;
275*f5c631daSSadaf Ebrahimi }
276*f5c631daSSadaf Ebrahimi if (current.label_base_ == label_base) continue;
277*f5c631daSSadaf Ebrahimi checkpoint = UpdateCheckpointForObject(checkpoint, ¤t);
278*f5c631daSSadaf Ebrahimi if (checkpoint < current.min_location_) return true;
279*f5c631daSSadaf Ebrahimi if (CheckFuturePC(pc, checkpoint)) return true;
280*f5c631daSSadaf Ebrahimi }
281*f5c631daSSadaf Ebrahimi // temp is the object with the smallest max_location_.
282*f5c631daSSadaf Ebrahimi if (temp_not_placed_yet) {
283*f5c631daSSadaf Ebrahimi checkpoint = UpdateCheckpointForObject(checkpoint, &temp);
284*f5c631daSSadaf Ebrahimi if (checkpoint < temp.min_location_) return true;
285*f5c631daSSadaf Ebrahimi }
286*f5c631daSSadaf Ebrahimi
287*f5c631daSSadaf Ebrahimi // Take the header into account.
288*f5c631daSSadaf Ebrahimi checkpoint -= header_size_;
289*f5c631daSSadaf Ebrahimi checkpoint = AlignDown(checkpoint, alignment_);
290*f5c631daSSadaf Ebrahimi
291*f5c631daSSadaf Ebrahimi return CheckFuturePC(pc, checkpoint);
292*f5c631daSSadaf Ebrahimi }
293*f5c631daSSadaf Ebrahimi
294*f5c631daSSadaf Ebrahimi template <typename T>
RecalculateCheckpoint(SortOption sort_option)295*f5c631daSSadaf Ebrahimi void PoolManager<T>::RecalculateCheckpoint(SortOption sort_option) {
296*f5c631daSSadaf Ebrahimi // TODO: Improve the max_pool_size_ estimate by starting from the
297*f5c631daSSadaf Ebrahimi // min_location_ of the first object, calculating the end of the pool as if
298*f5c631daSSadaf Ebrahimi // all objects were placed starting from there, and in the end adding the
299*f5c631daSSadaf Ebrahimi // maximum object alignment found minus one (which is the maximum extra
300*f5c631daSSadaf Ebrahimi // padding we would need if we were to relocate the pool to a different
301*f5c631daSSadaf Ebrahimi // address).
302*f5c631daSSadaf Ebrahimi max_pool_size_ = 0;
303*f5c631daSSadaf Ebrahimi
304*f5c631daSSadaf Ebrahimi if (objects_.empty()) {
305*f5c631daSSadaf Ebrahimi checkpoint_ = MaxCheckpoint<T>();
306*f5c631daSSadaf Ebrahimi return;
307*f5c631daSSadaf Ebrahimi }
308*f5c631daSSadaf Ebrahimi
309*f5c631daSSadaf Ebrahimi // Sort objects by their max_location_.
310*f5c631daSSadaf Ebrahimi if (sort_option == kSortRequired) {
311*f5c631daSSadaf Ebrahimi std::sort(objects_.begin(), objects_.end(), PoolObjectLessThan);
312*f5c631daSSadaf Ebrahimi }
313*f5c631daSSadaf Ebrahimi
314*f5c631daSSadaf Ebrahimi // Add the header size and header and footer max alignment to the maximum
315*f5c631daSSadaf Ebrahimi // pool size.
316*f5c631daSSadaf Ebrahimi max_pool_size_ += header_size_ + 2 * (alignment_ - 1);
317*f5c631daSSadaf Ebrahimi
318*f5c631daSSadaf Ebrahimi T checkpoint = MaxCheckpoint<T>();
319*f5c631daSSadaf Ebrahimi int last_object_index = static_cast<int>(objects_.size()) - 1;
320*f5c631daSSadaf Ebrahimi for (int i = last_object_index; i >= 0; --i) {
321*f5c631daSSadaf Ebrahimi // Bring back the checkpoint by the size of the current object, unless
322*f5c631daSSadaf Ebrahimi // we need to bring it back more, then align.
323*f5c631daSSadaf Ebrahimi PoolObject<T>& current = objects_[i];
324*f5c631daSSadaf Ebrahimi checkpoint = UpdateCheckpointForObject(checkpoint, ¤t);
325*f5c631daSSadaf Ebrahimi VIXL_ASSERT(checkpoint >= current.min_location_);
326*f5c631daSSadaf Ebrahimi max_pool_size_ += (current.alignment_ - 1 +
327*f5c631daSSadaf Ebrahimi current.label_base_->GetPoolObjectSizeInBytes());
328*f5c631daSSadaf Ebrahimi }
329*f5c631daSSadaf Ebrahimi // Take the header into account.
330*f5c631daSSadaf Ebrahimi checkpoint -= header_size_;
331*f5c631daSSadaf Ebrahimi checkpoint = AlignDown(checkpoint, alignment_);
332*f5c631daSSadaf Ebrahimi
333*f5c631daSSadaf Ebrahimi // Update the checkpoint of the pool manager.
334*f5c631daSSadaf Ebrahimi checkpoint_ = checkpoint;
335*f5c631daSSadaf Ebrahimi
336*f5c631daSSadaf Ebrahimi // NOTE: To handle min_location_ in the generic case, we could make a second
337*f5c631daSSadaf Ebrahimi // pass of the objects_ vector, increasing the checkpoint as needed, while
338*f5c631daSSadaf Ebrahimi // maintaining the alignment requirements.
339*f5c631daSSadaf Ebrahimi // It should not be possible to have any issues with min_location_ with actual
340*f5c631daSSadaf Ebrahimi // code, since there should always be some kind of branch over the pool,
341*f5c631daSSadaf Ebrahimi // whether introduced by the pool emission or by the user, which will make
342*f5c631daSSadaf Ebrahimi // sure the min_location_ requirement is satisfied. It's possible that the
343*f5c631daSSadaf Ebrahimi // user could emit code in the literal pool and intentionally load the first
344*f5c631daSSadaf Ebrahimi // value and then fall-through into the pool, but that is not a supported use
345*f5c631daSSadaf Ebrahimi // of VIXL and we will assert in that case.
346*f5c631daSSadaf Ebrahimi }
347*f5c631daSSadaf Ebrahimi
348*f5c631daSSadaf Ebrahimi template <typename T>
PoolObjectLessThan(const PoolObject<T> & a,const PoolObject<T> & b)349*f5c631daSSadaf Ebrahimi bool PoolManager<T>::PoolObjectLessThan(const PoolObject<T>& a,
350*f5c631daSSadaf Ebrahimi const PoolObject<T>& b) {
351*f5c631daSSadaf Ebrahimi if (a.max_location_ != b.max_location_)
352*f5c631daSSadaf Ebrahimi return (a.max_location_ < b.max_location_);
353*f5c631daSSadaf Ebrahimi int a_size = a.label_base_->GetPoolObjectSizeInBytes();
354*f5c631daSSadaf Ebrahimi int b_size = b.label_base_->GetPoolObjectSizeInBytes();
355*f5c631daSSadaf Ebrahimi if (a_size != b_size) return (a_size < b_size);
356*f5c631daSSadaf Ebrahimi if (a.alignment_ != b.alignment_) return (a.alignment_ < b.alignment_);
357*f5c631daSSadaf Ebrahimi if (a.min_location_ != b.min_location_)
358*f5c631daSSadaf Ebrahimi return (a.min_location_ < b.min_location_);
359*f5c631daSSadaf Ebrahimi return false;
360*f5c631daSSadaf Ebrahimi }
361*f5c631daSSadaf Ebrahimi
362*f5c631daSSadaf Ebrahimi template <typename T>
AddObjectReference(const ForwardReference<T> * reference,LocationBase<T> * label_base)363*f5c631daSSadaf Ebrahimi void PoolManager<T>::AddObjectReference(const ForwardReference<T>* reference,
364*f5c631daSSadaf Ebrahimi LocationBase<T>* label_base) {
365*f5c631daSSadaf Ebrahimi VIXL_ASSERT(reference->object_alignment_ <= buffer_alignment_);
366*f5c631daSSadaf Ebrahimi VIXL_ASSERT(label_base->GetPoolObjectAlignment() <= buffer_alignment_);
367*f5c631daSSadaf Ebrahimi
368*f5c631daSSadaf Ebrahimi PoolObject<T>* object = GetObjectIfTracked(label_base);
369*f5c631daSSadaf Ebrahimi
370*f5c631daSSadaf Ebrahimi if (object == NULL) {
371*f5c631daSSadaf Ebrahimi PoolObject<T> new_object(label_base);
372*f5c631daSSadaf Ebrahimi new_object.RestrictRange(reference->min_object_location_,
373*f5c631daSSadaf Ebrahimi reference->max_object_location_);
374*f5c631daSSadaf Ebrahimi new_object.RestrictAlignment(reference->object_alignment_);
375*f5c631daSSadaf Ebrahimi Insert(new_object);
376*f5c631daSSadaf Ebrahimi } else {
377*f5c631daSSadaf Ebrahimi object->RestrictRange(reference->min_object_location_,
378*f5c631daSSadaf Ebrahimi reference->max_object_location_);
379*f5c631daSSadaf Ebrahimi object->RestrictAlignment(reference->object_alignment_);
380*f5c631daSSadaf Ebrahimi
381*f5c631daSSadaf Ebrahimi // Move the object, if needed.
382*f5c631daSSadaf Ebrahimi if (objects_.size() != 1) {
383*f5c631daSSadaf Ebrahimi PoolObject<T> new_object(*object);
384*f5c631daSSadaf Ebrahimi ptrdiff_t distance = std::distance(objects_.data(), object);
385*f5c631daSSadaf Ebrahimi objects_.erase(objects_.begin() + distance);
386*f5c631daSSadaf Ebrahimi Insert(new_object);
387*f5c631daSSadaf Ebrahimi }
388*f5c631daSSadaf Ebrahimi }
389*f5c631daSSadaf Ebrahimi // No need to sort, we inserted the object in an already sorted array.
390*f5c631daSSadaf Ebrahimi RecalculateCheckpoint(kNoSortRequired);
391*f5c631daSSadaf Ebrahimi }
392*f5c631daSSadaf Ebrahimi
393*f5c631daSSadaf Ebrahimi template <typename T>
Insert(const PoolObject<T> & new_object)394*f5c631daSSadaf Ebrahimi void PoolManager<T>::Insert(const PoolObject<T>& new_object) {
395*f5c631daSSadaf Ebrahimi bool inserted = false;
396*f5c631daSSadaf Ebrahimi // Place the object in the right position.
397*f5c631daSSadaf Ebrahimi for (objects_iter iter = objects_.begin(); iter != objects_.end(); ++iter) {
398*f5c631daSSadaf Ebrahimi PoolObject<T>& current = *iter;
399*f5c631daSSadaf Ebrahimi if (!PoolObjectLessThan(current, new_object)) {
400*f5c631daSSadaf Ebrahimi objects_.insert(iter, new_object);
401*f5c631daSSadaf Ebrahimi inserted = true;
402*f5c631daSSadaf Ebrahimi break;
403*f5c631daSSadaf Ebrahimi }
404*f5c631daSSadaf Ebrahimi }
405*f5c631daSSadaf Ebrahimi if (!inserted) {
406*f5c631daSSadaf Ebrahimi objects_.push_back(new_object);
407*f5c631daSSadaf Ebrahimi }
408*f5c631daSSadaf Ebrahimi }
409*f5c631daSSadaf Ebrahimi
410*f5c631daSSadaf Ebrahimi template <typename T>
RemoveAndDelete(PoolObject<T> * object)411*f5c631daSSadaf Ebrahimi void PoolManager<T>::RemoveAndDelete(PoolObject<T>* object) {
412*f5c631daSSadaf Ebrahimi for (objects_iter iter = objects_.begin(); iter != objects_.end(); ++iter) {
413*f5c631daSSadaf Ebrahimi PoolObject<T>& current = *iter;
414*f5c631daSSadaf Ebrahimi if (current.label_base_ == object->label_base_) {
415*f5c631daSSadaf Ebrahimi (void)RemoveAndDelete(iter);
416*f5c631daSSadaf Ebrahimi return;
417*f5c631daSSadaf Ebrahimi }
418*f5c631daSSadaf Ebrahimi }
419*f5c631daSSadaf Ebrahimi VIXL_UNREACHABLE();
420*f5c631daSSadaf Ebrahimi }
421*f5c631daSSadaf Ebrahimi
422*f5c631daSSadaf Ebrahimi template <typename T>
RemoveAndDelete(objects_iter iter)423*f5c631daSSadaf Ebrahimi typename PoolManager<T>::objects_iter PoolManager<T>::RemoveAndDelete(
424*f5c631daSSadaf Ebrahimi objects_iter iter) {
425*f5c631daSSadaf Ebrahimi PoolObject<T>& object = *iter;
426*f5c631daSSadaf Ebrahimi LocationBase<T>* label_base = object.label_base_;
427*f5c631daSSadaf Ebrahimi
428*f5c631daSSadaf Ebrahimi // Check if we also need to delete the LocationBase object.
429*f5c631daSSadaf Ebrahimi if (label_base->ShouldBeDeletedOnPoolManagerDestruction()) {
430*f5c631daSSadaf Ebrahimi delete_on_destruction_.push_back(label_base);
431*f5c631daSSadaf Ebrahimi }
432*f5c631daSSadaf Ebrahimi if (label_base->ShouldBeDeletedOnPlacementByPoolManager()) {
433*f5c631daSSadaf Ebrahimi VIXL_ASSERT(!label_base->ShouldBeDeletedOnPoolManagerDestruction());
434*f5c631daSSadaf Ebrahimi delete label_base;
435*f5c631daSSadaf Ebrahimi }
436*f5c631daSSadaf Ebrahimi
437*f5c631daSSadaf Ebrahimi return objects_.erase(iter);
438*f5c631daSSadaf Ebrahimi }
439*f5c631daSSadaf Ebrahimi
440*f5c631daSSadaf Ebrahimi template <typename T>
Bind(MacroAssemblerInterface * masm,LocationBase<T> * object,T location)441*f5c631daSSadaf Ebrahimi T PoolManager<T>::Bind(MacroAssemblerInterface* masm,
442*f5c631daSSadaf Ebrahimi LocationBase<T>* object,
443*f5c631daSSadaf Ebrahimi T location) {
444*f5c631daSSadaf Ebrahimi PoolObject<T>* existing_object = GetObjectIfTracked(object);
445*f5c631daSSadaf Ebrahimi int alignment;
446*f5c631daSSadaf Ebrahimi T min_location;
447*f5c631daSSadaf Ebrahimi if (existing_object == NULL) {
448*f5c631daSSadaf Ebrahimi alignment = object->GetMaxAlignment();
449*f5c631daSSadaf Ebrahimi min_location = object->GetMinLocation();
450*f5c631daSSadaf Ebrahimi } else {
451*f5c631daSSadaf Ebrahimi alignment = existing_object->alignment_;
452*f5c631daSSadaf Ebrahimi min_location = existing_object->min_location_;
453*f5c631daSSadaf Ebrahimi }
454*f5c631daSSadaf Ebrahimi
455*f5c631daSSadaf Ebrahimi // Align if needed, and add necessary padding to reach the min_location_.
456*f5c631daSSadaf Ebrahimi T aligned_location = AlignUp(location, alignment);
457*f5c631daSSadaf Ebrahimi masm->EmitNopBytes(aligned_location - location);
458*f5c631daSSadaf Ebrahimi location = aligned_location;
459*f5c631daSSadaf Ebrahimi while (location < min_location) {
460*f5c631daSSadaf Ebrahimi masm->EmitNopBytes(alignment);
461*f5c631daSSadaf Ebrahimi location += alignment;
462*f5c631daSSadaf Ebrahimi }
463*f5c631daSSadaf Ebrahimi
464*f5c631daSSadaf Ebrahimi object->SetLocation(masm->AsAssemblerBase(), location);
465*f5c631daSSadaf Ebrahimi object->MarkBound();
466*f5c631daSSadaf Ebrahimi
467*f5c631daSSadaf Ebrahimi if (existing_object != NULL) {
468*f5c631daSSadaf Ebrahimi RemoveAndDelete(existing_object);
469*f5c631daSSadaf Ebrahimi // No need to sort, we removed the object from a sorted array.
470*f5c631daSSadaf Ebrahimi RecalculateCheckpoint(kNoSortRequired);
471*f5c631daSSadaf Ebrahimi }
472*f5c631daSSadaf Ebrahimi
473*f5c631daSSadaf Ebrahimi // We assume that the maximum padding we can possibly add here is less
474*f5c631daSSadaf Ebrahimi // than the header alignment - hence that we're not going to go past our
475*f5c631daSSadaf Ebrahimi // checkpoint.
476*f5c631daSSadaf Ebrahimi VIXL_ASSERT(!CheckFuturePC(location, checkpoint_));
477*f5c631daSSadaf Ebrahimi return location;
478*f5c631daSSadaf Ebrahimi }
479*f5c631daSSadaf Ebrahimi
480*f5c631daSSadaf Ebrahimi template <typename T>
Release(T pc)481*f5c631daSSadaf Ebrahimi void PoolManager<T>::Release(T pc) {
482*f5c631daSSadaf Ebrahimi USE(pc);
483*f5c631daSSadaf Ebrahimi if (--monitor_ == 0) {
484*f5c631daSSadaf Ebrahimi // Ensure the pool has not been blocked for too long.
485*f5c631daSSadaf Ebrahimi VIXL_ASSERT(pc <= checkpoint_);
486*f5c631daSSadaf Ebrahimi }
487*f5c631daSSadaf Ebrahimi }
488*f5c631daSSadaf Ebrahimi
489*f5c631daSSadaf Ebrahimi template <typename T>
490*f5c631daSSadaf Ebrahimi PoolManager<T>::~PoolManager<T>() VIXL_NEGATIVE_TESTING_ALLOW_EXCEPTION {
491*f5c631daSSadaf Ebrahimi #ifdef VIXL_DEBUG
492*f5c631daSSadaf Ebrahimi // Check for unbound objects.
493*f5c631daSSadaf Ebrahimi for (objects_iter iter = objects_.begin(); iter != objects_.end(); ++iter) {
494*f5c631daSSadaf Ebrahimi // There should not be any bound objects left in the pool. For unbound
495*f5c631daSSadaf Ebrahimi // objects, we will check in the destructor of the object itself.
496*f5c631daSSadaf Ebrahimi VIXL_ASSERT(!(*iter).label_base_->IsBound());
497*f5c631daSSadaf Ebrahimi }
498*f5c631daSSadaf Ebrahimi #endif
499*f5c631daSSadaf Ebrahimi // Delete objects the pool manager owns.
500*f5c631daSSadaf Ebrahimi for (typename std::vector<LocationBase<T>*>::iterator
501*f5c631daSSadaf Ebrahimi iter = delete_on_destruction_.begin(),
502*f5c631daSSadaf Ebrahimi end = delete_on_destruction_.end();
503*f5c631daSSadaf Ebrahimi iter != end;
504*f5c631daSSadaf Ebrahimi ++iter) {
505*f5c631daSSadaf Ebrahimi delete *iter;
506*f5c631daSSadaf Ebrahimi }
507*f5c631daSSadaf Ebrahimi }
508*f5c631daSSadaf Ebrahimi
509*f5c631daSSadaf Ebrahimi template <typename T>
GetPoolSizeForTest()510*f5c631daSSadaf Ebrahimi int PoolManager<T>::GetPoolSizeForTest() const {
511*f5c631daSSadaf Ebrahimi // Iterate over objects and return their cumulative size. This does not take
512*f5c631daSSadaf Ebrahimi // any padding into account, just the size of the objects themselves.
513*f5c631daSSadaf Ebrahimi int size = 0;
514*f5c631daSSadaf Ebrahimi for (const_objects_iter iter = objects_.begin(); iter != objects_.end();
515*f5c631daSSadaf Ebrahimi ++iter) {
516*f5c631daSSadaf Ebrahimi size += (*iter).label_base_->GetPoolObjectSizeInBytes();
517*f5c631daSSadaf Ebrahimi }
518*f5c631daSSadaf Ebrahimi return size;
519*f5c631daSSadaf Ebrahimi }
520*f5c631daSSadaf Ebrahimi }
521*f5c631daSSadaf Ebrahimi
522*f5c631daSSadaf Ebrahimi #endif // VIXL_POOL_MANAGER_IMPL_H_
523