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Differential D152840

[ELF] A new code layout algorithm for function reordering [3a/3]
ClosedPublic

Authored by spupyrev on Jun 13 2023, 10:56 AM.

Details

Reviewers
MaskRay
wenlei
hoy
wlei
rahmanl
Commits
rG904b3f66f59e: [ELF] A new code layout algorithm for function reordering [3a/3]
Summary

We are brining a new algorithm for function layout (reordering) based on the
call graph (extracted from a profile data). The algorithm is an improvement of
top of a known heuristic, C^3. It tries to co-locate hot and frequently executed
together functions in the resulting ordering. Unlike C^3, it explores a larger
search space and have an objective closely tied to the performance of
instruction and i-TLB caches. Hence, the name CDS = Cache-Directed Sort.
The algorithm can be used at the linking or post-linking (e.g., BOLT) stage.
Refer to https://reviews.llvm.org/D152834 for the actual implementation of the
reordering algorithm.

This diff adds a linker option to replace the existing C^3 heuristic with CDS.
The new behavior can be turned on by passing "--use-cache-directed-sort".
(the plan is to make it default in a next diff)

Perf-impact
clang-10 binary (built with LTO+AutoFDO/CSSPGO): wins on top of C^3 in [0.3%..0.8%]
rocksDB-8 binary (built with LTO+CSSPGO): wins on top of C^3 in [0.8%..1.5%]

Note that function layout affects the perf the most on older machines (with
smaller instruction/iTLB caches) and when huge pages are not enabled. The impact
on newer processors with huge pages enabled is likely neutral/minor.

Diff Detail

Event Timeline

spupyrev created this revision.Jun 13 2023, 10:56 AM
Herald added a reviewer: MaskRay. · View Herald TranscriptJun 13 2023, 10:56 AM
Herald added a project: Restricted Project. · View Herald Transcript
Herald added subscribers: arichardson, emaste. · View Herald Transcript
spupyrev added a parent revision: D152834: A new code layout algorithm for function reordering [2/3].Jun 13 2023, 10:57 AM
Harbormaster completed remote builds in B238557: Diff 530988.Jun 13 2023, 12:49 PM
spupyrev retitled this revision from A new code layout algorithm for function reordering [3/3] to A new code layout algorithm for function reordering [3a/3].Jun 13 2023, 1:35 PM
spupyrev edited the summary of this revision. (Show Details)
spupyrev edited the summary of this revision. (Show Details)Jun 13 2023, 1:46 PM
Herald added subscribers: wlei, wenlei. · View Herald TranscriptJun 13 2023, 1:46 PM
spupyrev added subscribers: ellis, kyulee.Jun 14 2023, 10:38 AM
spupyrev updated this revision to Diff 531453.Jun 14 2023, 12:07 PM

upd

spupyrev published this revision for review.Jun 14 2023, 12:15 PM
spupyrev added reviewers: wenlei, hoy, wlei.
Herald added a project: Restricted Project. · View Herald TranscriptJun 14 2023, 12:15 PM
Herald added a subscriber: llvm-commits. · View Herald Transcript
Harbormaster completed remote builds in B238900: Diff 531453.Jun 14 2023, 12:21 PM
spupyrev mentioned this in D152834: A new code layout algorithm for function reordering [2/3].Jun 20 2023, 4:27 PM
rahmanl added a reviewer: rahmanl.Jun 20 2023, 4:38 PM
uabelho added a subscriber: uabelho.Jul 10 2023, 10:29 PM
rahmanl added inline comments.Aug 10 2023, 12:48 PM
lld/ELF/CallGraphSort.cpp
324

Add a function comment for this.

334

It doesn't look like this can take configurations by flags?

341–343

https://llvm.org/docs/CodingStandards.html#don-t-use-braces-on-simple-single-statement-bodies-of-if-else-loop-statements

345

https://llvm.org/docs/CodingStandards.html#don-t-use-else-after-a-return

lld/ELF/CallGraphSort.h
17

Why are we abbreviating here? It's not clear to me what CDS stands for.

spupyrev planned changes to this revision.Aug 17 2023, 7:51 AM
Kobzol added a subscriber: Kobzol.Sep 4 2023, 2:23 PM
spupyrev marked 5 inline comments as done.Sep 11 2023, 6:51 AM
spupyrev updated this revision to Diff 556427.Sep 11 2023, 6:54 AM

addressing comments, adding a test for cdsort

MaskRay added a comment.Sep 12 2023, 9:09 PM

Thank you for contributing a new algorithm and sorry for not commenting earlier.

A new code layout algorithm for function reordering [3a/3]

lld/ELF patches are usually tagged [ELF] . You should be able to find many examples with git log -- lld/ELF. [3a/3] seems unclear.
I think it's much better to mention https://reviews.llvm.org/D152834 in the summary as [3a/3] isn't clear whether 1/3 and 2/3 are :)

I'd like to know a plan whether we are going to remove the existing hfsort heuristic, and state this in the summary.
In D152834 you mentioned it, but many folks reading lld including me do not follow bolt.

--use-cdsort is the default and overrides the existing hfsort. This should be stated as well.

I will need some time to read D152834.

lld/ELF/CallGraphSort.cpp
277

lld/ code uses variableName. Please fix.

MaskRay added inline comments.Sep 12 2023, 9:12 PM
lld/ELF/CallGraphSort.cpp
8–9

This large comment is now stale.

277

static void

312

We don't add a blank line after variable declarations.

317

inline the used-once variable.

lld/ELF/Options.td
343

New options use BB.

spupyrev updated this revision to Diff 556720.Sep 13 2023, 2:04 PM
spupyrev marked 5 inline comments as done.

Thanks for looking into this. I made the requested changes

Herald added a subscriber: hiraditya. · View Herald TranscriptSep 13 2023, 2:04 PM
spupyrev removed a parent revision: D152834: A new code layout algorithm for function reordering [2/3].Sep 13 2023, 2:05 PM
spupyrev retitled this revision from A new code layout algorithm for function reordering [3a/3] to [ELF] A new code layout algorithm for function reordering [3a/3].Sep 13 2023, 2:11 PM
spupyrev edited the summary of this revision. (Show Details)
spupyrev updated this revision to Diff 556722.Sep 13 2023, 2:14 PM

rebasing to latest

Harbormaster completed remote builds in B257187: Diff 556722.Sep 13 2023, 3:57 PM
MaskRay added a comment.Sep 17 2023, 4:48 PM

Thanks for the update.

https://maskray.me/blog/2021-08-08-toolchain-testing#the-test-checks-at-the-wrong-layer We need some unittests in llvm/. I created D159527

lld/ELF/CMakeLists.txt
75

move after TargetParser for an alphabetical order.

lld/ELF/CallGraphSort.cpp
9–12

using LLVM call graph profile data ...

12

TLB misses and i-cache misses

277

lld code prefers SmallVector<X, 0> for a smaller size and usually better performance.

D159526 will change these to use ArrayRef, enabling SmallVector<X, 0> at call sites.

279

the nested pair feels unnatural to me. I updated D159526 to change the element type to a std::tuple

317

This needs a comment: // Assume that the jump is at the middle of the input section. The profile data does not contain jump offsets.

332

buildCallGraph is called once and the conventional style just remove the extra function.

lld/ELF/CallGraphSort.h
17

This does not need to be a public API. Apply seems less appropriate in the context. I created D159526 to rename this to compute*

lld/ELF/Options.td
343

I feel that this abbreviated option name isn't intuitive.

A similar --call-graph-profile-sort intentionally picks a long but descriptive name. I think --use-cache-directed-sort will be better.

I suggest we make --no-use-cache-directed-sort the default and then change the default in another patch.

344

Reorder input sections with cache-directed sort.

spupyrev updated this revision to Diff 556945.Sep 18 2023, 6:56 AM
spupyrev marked 6 inline comments as done.

comments

spupyrev edited the summary of this revision. (Show Details)Sep 18 2023, 6:57 AM
spupyrev edited the summary of this revision. (Show Details)
spupyrev updated this revision to Diff 556947.Sep 18 2023, 7:02 AM
spupyrev marked an inline comment as done.

renaming the option

Harbormaster completed remote builds in B257340: Diff 556947.Sep 18 2023, 7:21 AM
MaskRay mentioned this in D159526: [CodeLayout] Refactor std::vector uses, namespace, and EdgeCountT. NFC.Sep 18 2023, 12:46 PM
MaskRay added a comment.Sep 19 2023, 2:47 PM

Thanks for the update. I am mainly waiting for the renamed function (applyCDSort does not convey the meaning well), changes of nested std::pair and std::vector => SmallVector<*, 0>

spupyrev added a comment.Sep 19 2023, 2:52 PM
In D152840#4648482, @MaskRay wrote:

Thanks for the update. I am mainly waiting for the renamed function (applyCDSort does not convey the meaning well), changes of nested std::pair and std::vector => SmallVector<*, 0>

I have an impression the changes are made in the follow-up D159526 (which I'd prefer to land after this one). Do I miss something?

MaskRay added a comment.Sep 19 2023, 10:15 PM
In D152840#4648483, @spupyrev wrote:
In D152840#4648482, @MaskRay wrote:

Thanks for the update. I am mainly waiting for the renamed function (applyCDSort does not convey the meaning well), changes of nested std::pair and std::vector => SmallVector<*, 0>

I have an impression the changes are made in the follow-up D159526 (which I'd prefer to land after this one). Do I miss something?

You are right. You may rebase this patch on top of D159526 :)

spupyrev added a comment.Sep 20 2023, 12:20 AM
In D152840#4648582, @MaskRay wrote:
In D152840#4648483, @spupyrev wrote:
In D152840#4648482, @MaskRay wrote:

Thanks for the update. I am mainly waiting for the renamed function (applyCDSort does not convey the meaning well), changes of nested std::pair and std::vector => SmallVector<*, 0>

I have an impression the changes are made in the follow-up D159526 (which I'd prefer to land after this one). Do I miss something?

You are right. You may rebase this patch on top of D159526 :)

I suggest to rebase D159526 on top of this one

MaskRay added a comment.EditedSep 20 2023, 3:51 PM
In D152840#4648633, @spupyrev wrote:
In D152840#4648582, @MaskRay wrote:
In D152840#4648483, @spupyrev wrote:
In D152840#4648482, @MaskRay wrote:

Thanks for the update. I am mainly waiting for the renamed function (applyCDSort does not convey the meaning well), changes of nested std::pair and std::vector => SmallVector<*, 0>

I have an impression the changes are made in the follow-up D159526 (which I'd prefer to land after this one). Do I miss something?

You are right. You may rebase this patch on top of D159526 :)

I suggest to rebase D159526 on top of this one

D159526 performed the rename. If this patch is applied, applyCDSort in lld/ELF will need to be updated again. This is exactly the scenario I want to avoid.
D159527 added a unittest, which I consider necessary for making more application of the new layout algorithm.
(lld/test/ELF is not supposed to test functional change in llvm/ https://maskray.me/blog/2021-08-08-toolchain-testing#the-test-checks-at-the-wrong-layer)

spupyrev added a comment.Sep 21 2023, 1:31 AM

D159526 performed the rename. If this patch is applied, applyCDSort in lld/ELF will need to be updated again. This is exactly the scenario I want to avoid.

Can you explain why renaming a function might be a problem and we may want to avoid this either in the linker or in the compiler?

I am not fully convinced that the newly proposed naming is preferred over the existing one. The new algorithm is called "cdsort" (which mimics the existing and commonly accepted name of "hfsort"), and it makes a sense to call the corresponding function "applyCDSort" as in "applyAlgorithmX". In contrast, "computeXXXlayout" might feel confusing, since the word "layout" often means a process.

uabelho removed a subscriber: uabelho.Sep 21 2023, 1:35 AM
MaskRay added a comment.Sep 21 2023, 9:43 AM
In D152840#4649238, @spupyrev wrote:

D159526 performed the rename. If this patch is applied, applyCDSort in lld/ELF will need to be updated again. This is exactly the scenario I want to avoid.

Can you explain why renaming a function might be a problem and we may want to avoid this either in the linker or in the compiler?

I am not fully convinced that the newly proposed naming is preferred over the existing one. The new algorithm is called "cdsort" (which mimics the existing and commonly accepted name of "hfsort"), and it makes a sense to call the corresponding function "applyCDSort" as in "applyAlgorithmX". In contrast, "computeXXXlayout" might feel confusing, since the word "layout" often means a process.

I think apply* is often used when some structs are changed, e.g. applyDomTreeUpdates.
If we have a section order, then we use that to change the list of sections, we can say apply....
If we just compute the section order, apply* is not appropriate.
compute* is the conventional name here.

MaskRay added a comment.Sep 21 2023, 9:46 AM

I have also explained that SmallVector<*, 0> is preferred in lld/ELF code, so I have a vector => ArrayRef refactoring.
We should also get rid of buildCallGraph, which uses a number of output parameters, while the function can just be inlined into apply* (to be renamed).

MaskRay added a comment.EditedSep 22 2023, 10:08 AM

Instead of having a --use-*, the best is probably to create a JJ<"call-graph-profile-sort=", ...> (values: hfsort,cdsort),
make the existing --call-graph-profile-sort an alias (FF<"call-graph-profile-sort", ...>, Alias<call_graph_profile_sort>, AliasArgs<"hfsort">),
then add a BB for --no-call-graph-profile-sort.

(I'll be out of town during 9-29 ~ 10-9)

MaskRay added a comment.Sep 22 2023, 10:56 AM
In D152840#4650105, @MaskRay wrote:

Instead of having a --use-*, the best is probably to create a JJ<"call-graph-profile-sort=", ...> (values: hfsort,cdsort),
make the existing --call-graph-profile-sort an alias (FF<"call-graph-profile-sort", ...>, Alias<call_graph_profile_sort>, AliasArgs<"hfsort">),
then add a BB for --no-call-graph-profile-sort.

(I'll be out of town during 9-29 ~ 10-9)

See D159544

spupyrev updated this revision to Diff 557308.Sep 25 2023, 9:17 AM

minor

Harbormaster completed remote builds in B257571: Diff 557308.Sep 25 2023, 9:55 AM
spupyrev updated this revision to Diff 557316.Sep 25 2023, 10:38 AM

tests

spupyrev updated this revision to Diff 557318.Sep 25 2023, 10:41 AM
spupyrev marked 3 inline comments as done.

nit

Harbormaster completed remote builds in B257576: Diff 557318.Sep 25 2023, 11:29 AM
MaskRay added a comment.Sep 25 2023, 12:52 PM

Thanks for the update.

lld/ELF/CallGraphSort.cpp
278

Nit: delete this comment.

"// Create the graph." below is clear enough.

283

sections can use SmallVector as well.

We can use one type for multiple variables

SmallVector<uint64_t, 0> funcSizes, funcCounts, callOffsets;`
lld/ELF/Config.h
61–62

update this comment

spupyrev updated this revision to Diff 557331.Sep 25 2023, 2:53 PM
spupyrev marked 3 inline comments as done.

nits

MaskRay accepted this revision.Sep 25 2023, 3:00 PM

lld/docs/ld.lld.1 needs an update as well. The format is difficult to write... you can use man lld/docs/ld.lld.1 to check whether it looks right.

This revision is now accepted and ready to land.Sep 25 2023, 3:00 PM
spupyrev updated this revision to Diff 557339.Sep 25 2023, 3:42 PM

edited ld.lld.1

MaskRay accepted this revision.Sep 25 2023, 3:53 PM

LGTM! Thanks for bearing with me about all the nits.

I'd like to have tests at the proper layer. Does D159527 look good to you?

Harbormaster completed remote builds in B257593: Diff 557339.Sep 25 2023, 4:45 PM
Closed by commit rG904b3f66f59e: [ELF] A new code layout algorithm for function reordering [3a/3] (authored by spupyrev). · Explain WhySep 26 2023, 6:24 AM
This revision was automatically updated to reflect the committed changes.
spupyrev added a commit: rG904b3f66f59e: [ELF] A new code layout algorithm for function reordering [3a/3].

Revision Contents

PathSize
lld/
ELF/
1 line
2 lines
140 lines
4 lines
2 lines
2 lines
docs/
2 lines
test/
ELF/
28 lines
31 lines

Diff 557339

lld/ELF/CMakeLists.txt

Show First 20 LinesShow All 66 Lines▼ Show 20 Linesadd_lld_library(lldELF
DebugInfoDWARF DebugInfoDWARF
Demangle Demangle
LTO LTO
MC MC
Object Object
Option Option
Passes Passes
Support Support
TargetParser TargetParser
MaskRayUnsubmitted
Done
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move after TargetParser for an alphabetical order.

MaskRay: move after TargetParser for an alphabetical order.
TransformUtils
LINK_LIBS LINK_LIBS
lldCommon lldCommon
${imported_libs} ${imported_libs}
${LLVM_PTHREAD_LIB} ${LLVM_PTHREAD_LIB}
DEPENDS DEPENDS
ELFOptionsTableGen ELFOptionsTableGen
intrinsics_gen intrinsics_gen
) )

lld/ELF/CallGraphSort.h

//===- CallGraphSort.h ------------------------------------------*- C++ -*-===// //===- CallGraphSort.h ------------------------------------------*- C++ -*-===//
// //
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information. // See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
// //
//===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===//
#ifndef LLD_ELF_CALL_GRAPH_SORT_H #ifndef LLD_ELF_CALL_GRAPH_SORT_H
#define LLD_ELF_CALL_GRAPH_SORT_H #define LLD_ELF_CALL_GRAPH_SORT_H
#include "llvm/ADT/DenseMap.h" #include "llvm/ADT/DenseMap.h"
namespace lld::elf { namespace lld::elf {
class InputSectionBase; class InputSectionBase;
llvm::DenseMap<const InputSectionBase *, int> computeCacheDirectedSortOrder();
rahmanlUnsubmitted
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Why are we abbreviating here? It's not clear to me what CDS stands for.

rahmanl: Why are we abbreviating here? It's not clear to me what CDS stands for.
MaskRayUnsubmitted
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This does not need to be a public API. Apply seems less appropriate in the context. I created D159526 to rename this to compute*

MaskRay: This does not need to be a public API. `Apply` seems less appropriate in the context. I created…
llvm::DenseMap<const InputSectionBase *, int> computeCallGraphProfileOrder(); llvm::DenseMap<const InputSectionBase *, int> computeCallGraphProfileOrder();
} // namespace lld::elf } // namespace lld::elf
#endif #endif

lld/ELF/CallGraphSort.cpp

//===- CallGraphSort.cpp --------------------------------------------------===// //===- CallGraphSort.cpp --------------------------------------------------===//
// //
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information. // See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
// //
//===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===//
/// ///
/// Implementation of Call-Chain Clustering from: Optimizing Function Placement /// The file is responsible for sorting sections using LLVM call graph profile
MaskRayUnsubmitted
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This large comment is now stale.

MaskRay: This large comment is now stale.
/// for Large-Scale Data-Center Applications /// data by placing frequently executed code sections together. The goal of the
/// https://research.fb.com/wp-content/uploads/2017/01/cgo2017-hfsort-final1.pdf /// placement is to improve the runtime performance of the final executable by
/// /// arranging code sections so that i-TLB misses and i-cache misses are reduced.
MaskRayUnsubmitted
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using LLVM call graph profile data ...

MaskRay: using LLVM call graph profile data ...
MaskRayUnsubmitted
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TLB misses and i-cache misses

MaskRay: TLB misses and i-cache misses
/// The goal of this algorithm is to improve runtime performance of the final
/// executable by arranging code sections such that page table and i-cache
/// misses are minimized.
///
/// Definitions:
/// * Cluster
/// * An ordered list of input sections which are laid out as a unit. At the
/// beginning of the algorithm each input section has its own cluster and
/// the weight of the cluster is the sum of the weight of all incoming
/// edges.
/// * Call-Chain Clustering (C³) Heuristic
/// * Defines when and how clusters are combined. Pick the highest weighted
/// input section then add it to its most likely predecessor if it wouldn't
/// penalize it too much.
/// * Density
/// * The weight of the cluster divided by the size of the cluster. This is a
/// proxy for the amount of execution time spent per byte of the cluster.
///
/// It does so given a call graph profile by the following:
/// * Build a weighted call graph from the call graph profile
/// * Sort input sections by weight
/// * For each input section starting with the highest weight
/// * Find its most likely predecessor cluster
/// * Check if the combined cluster would be too large, or would have too low
/// a density.
/// * If not, then combine the clusters.
/// * Sort non-empty clusters by density
/// ///
/// The algorithm first builds a call graph based on the profile data and then
/// iteratively merges "chains" (ordered lists) of input sections which will be
/// laid out as a unit. There are two implementations for deciding how to
/// merge a pair of chains:
/// - a simpler one, referred to as Call-Chain Clustering (C^3), that follows
/// "Optimizing Function Placement for Large-Scale Data-Center Applications"
/// https://research.fb.com/wp-content/uploads/2017/01/cgo2017-hfsort-final1.pdf
/// - a more advanced one, referred to as Cache-Directed-Sort (CDSort), which
/// typically produces layouts with higher locality, and hence, yields fewer
/// instruction cache misses on large binaries.
//===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===//
#include "CallGraphSort.h" #include "CallGraphSort.h"
#include "InputFiles.h" #include "InputFiles.h"
#include "InputSection.h" #include "InputSection.h"
#include "Symbols.h" #include "Symbols.h"
#include "llvm/Support/FileSystem.h" #include "llvm/Support/FileSystem.h"
#include "llvm/Transforms/Utils/CodeLayout.h"
#include <numeric> #include <numeric>
using namespace llvm; using namespace llvm;
using namespace lld; using namespace lld;
using namespace lld::elf; using namespace lld::elf;
namespace { namespace {
Show All 14 Linesstruct Cluster {
int next; int next;
int prev; int prev;
uint64_t size; uint64_t size;
uint64_t weight = 0; uint64_t weight = 0;
uint64_t initialWeight = 0; uint64_t initialWeight = 0;
Edge bestPred = {-1, 0}; Edge bestPred = {-1, 0};
}; };
/// Implementation of the Call-Chain Clustering (C^3). The goal of this
/// algorithm is to improve runtime performance of the executable by arranging
/// code sections such that page table and i-cache misses are minimized.
///
/// Definitions:
/// * Cluster
/// * An ordered list of input sections which are laid out as a unit. At the
/// beginning of the algorithm each input section has its own cluster and
/// the weight of the cluster is the sum of the weight of all incoming
/// edges.
/// * Call-Chain Clustering (C³) Heuristic
/// * Defines when and how clusters are combined. Pick the highest weighted
/// input section then add it to its most likely predecessor if it wouldn't
/// penalize it too much.
/// * Density
/// * The weight of the cluster divided by the size of the cluster. This is a
/// proxy for the amount of execution time spent per byte of the cluster.
///
/// It does so given a call graph profile by the following:
/// * Build a weighted call graph from the call graph profile
/// * Sort input sections by weight
/// * For each input section starting with the highest weight
/// * Find its most likely predecessor cluster
/// * Check if the combined cluster would be too large, or would have too low
/// a density.
/// * If not, then combine the clusters.
/// * Sort non-empty clusters by density
class CallGraphSort { class CallGraphSort {
public: public:
CallGraphSort(); CallGraphSort();
DenseMap<const InputSectionBase *, int> run(); DenseMap<const InputSectionBase *, int> run();
private: private:
std::vector<Cluster> clusters; std::vector<Cluster> clusters;
▲ Show 20 LinesShow All 169 Lines▼ Show 20 Lines for (int leader : sorted)
if (i == leader) if (i == leader)
break; break;
} }
} }
return orderMap; return orderMap;
} }
// Sort sections by the profile data using the Cache-Directed Sort algorithm.
// The placement is done by optimizing the locality by co-locating frequently
// executed code sections together.
DenseMap<const InputSectionBase *, int> elf::computeCacheDirectedSortOrder() {
MaskRayUnsubmitted
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lld/ code uses variableName. Please fix.

MaskRay: lld/ code uses `variableName`. Please fix.
MaskRayUnsubmitted
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static void

MaskRay: `static void`
MaskRayUnsubmitted
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lld code prefers SmallVector<X, 0> for a smaller size and usually better performance.

D159526 will change these to use ArrayRef, enabling SmallVector<X, 0> at call sites.

MaskRay: lld code prefers `SmallVector<X, 0>` for a smaller size and usually better performance.
SmallVector<uint64_t, 0> funcSizes;
MaskRayUnsubmitted
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Nit: delete this comment.

"// Create the graph." below is clear enough.

MaskRay: Nit: delete this comment. "// Create the graph." below is clear enough.
SmallVector<uint64_t, 0> funcCounts;
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the nested pair feels unnatural to me. I updated D159526 to change the element type to a std::tuple

MaskRay: the nested pair feels unnatural to me. I updated D159526 to change the element type to a `std…
SmallVector<codelayout::EdgeCount, 0> callCounts;
SmallVector<uint64_t, 0> callOffsets;
SmallVector<const InputSectionBase *, 0> sections;
DenseMap<const InputSectionBase *, size_t> secToTargetId;
MaskRayUnsubmitted
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sections can use SmallVector as well.

We can use one type for multiple variables

SmallVector<uint64_t, 0> funcSizes, funcCounts, callOffsets;`
MaskRay: `sections` can use `SmallVector` as well. We can use one type for multiple variables ```…
auto getOrCreateNode = [&](const InputSectionBase *inSec) -> size_t {
auto res = secToTargetId.try_emplace(inSec, sections.size());
if (res.second) {
// inSec does not appear before in the graph.
sections.push_back(inSec);
assert(inSec->getSize() > 0 && "found a function with zero size");
funcSizes.push_back(inSec->getSize());
funcCounts.push_back(0);
}
return res.first->second;
};
// Create the graph.
for (std::pair<SectionPair, uint64_t> &c : config->callGraphProfile) {
const InputSectionBase *fromSB = cast<InputSectionBase>(c.first.first);
const InputSectionBase *toSB = cast<InputSectionBase>(c.first.second);
// Ignore edges between input sections belonging to different sections.
if (fromSB->getOutputSection() != toSB->getOutputSection())
continue;
uint64_t weight = c.second;
// Ignore edges with zero weight.
if (weight == 0)
continue;
size_t from = getOrCreateNode(fromSB);
size_t to = getOrCreateNode(toSB);
// Ignore self-edges (recursive calls).
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We don't add a blank line after variable declarations.

MaskRay: We don't add a blank line after variable declarations.
if (from == to)
continue;
callCounts.push_back({from, to, weight});
// Assume that the jump is at the middle of the input section. The profile
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inline the used-once variable.

MaskRay: inline the used-once variable.
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This needs a comment: // Assume that the jump is at the middle of the input section. The profile data does not contain jump offsets.

MaskRay: This needs a comment: `// Assume that the jump is at the middle of the input section. The…
// data does not contain jump offsets.
callOffsets.push_back((funcSizes[from] + 1) / 2);
funcCounts[to] += weight;
}
// Run the layout algorithm.
std::vector<uint64_t> sortedSections = codelayout::computeCacheDirectedLayout(
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Add a function comment for this.

rahmanl: Add a function comment for this.
funcSizes, funcCounts, callCounts, callOffsets);
// Create the final order.
DenseMap<const InputSectionBase *, int> orderMap;
int curOrder = 1;
for (uint64_t secIdx : sortedSections)
orderMap[sections[secIdx]] = curOrder++;
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buildCallGraph is called once and the conventional style just remove the extra function.

MaskRay: buildCallGraph is called once and the conventional style just remove the extra function.
return orderMap;
}
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It doesn't look like this can take configurations by flags?

rahmanl: It doesn't look like this can take configurations by flags?
// Sort sections by the profile data provided by --callgraph-profile-file. // Sort sections by the profile data provided by --callgraph-profile-file.
// //
// This first builds a call graph based on the profile data then merges sections // This first builds a call graph based on the profile data then merges sections
// according to the C³ heuristic. All clusters are then sorted by a density // according either to the C³ or Cache-Directed-Sort ordering algorithm.
// metric to further improve locality.
DenseMap<const InputSectionBase *, int> elf::computeCallGraphProfileOrder() { DenseMap<const InputSectionBase *, int> elf::computeCallGraphProfileOrder() {
if (config->callGraphProfileSort == CGProfileSortKind::Cdsort)
return computeCacheDirectedSortOrder();
return CallGraphSort().run(); return CallGraphSort().run();
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https://llvm.org/docs/CodingStandards.html#don-t-use-braces-on-simple-single-statement-bodies-of-if-else-loop-statements

rahmanl: https://llvm.org/docs/CodingStandards.html#don-t-use-braces-on-simple-single-statement-bodies…
} }
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https://llvm.org/docs/CodingStandards.html#don-t-use-else-after-a-return

rahmanl: https://llvm.org/docs/CodingStandards.html#don-t-use-else-after-a-return

lld/ELF/Config.h

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}; };
// For -Bno-symbolic, -Bsymbolic-non-weak-functions, -Bsymbolic-functions, // For -Bno-symbolic, -Bsymbolic-non-weak-functions, -Bsymbolic-functions,
// -Bsymbolic-non-weak, -Bsymbolic. // -Bsymbolic-non-weak, -Bsymbolic.
enum class BsymbolicKind { None, NonWeakFunctions, Functions, NonWeak, All }; enum class BsymbolicKind { None, NonWeakFunctions, Functions, NonWeak, All };
// For --build-id. // For --build-id.
enum class BuildIdKind { None, Fast, Md5, Sha1, Hexstring, Uuid }; enum class BuildIdKind { None, Fast, Md5, Sha1, Hexstring, Uuid };
// For --call-graph-profile-sort={none,hfsort}. // For --call-graph-profile-sort={none,hfsort,cdsort}.
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update this comment

MaskRay: update this comment
enum class CGProfileSortKind { None, Hfsort }; enum class CGProfileSortKind { None, Hfsort, Cdsort };
// For --discard-{all,locals,none}. // For --discard-{all,locals,none}.
enum class DiscardPolicy { Default, All, Locals, None }; enum class DiscardPolicy { Default, All, Locals, None };
// For --icf={none,safe,all}. // For --icf={none,safe,all}.
enum class ICFLevel { None, Safe, All }; enum class ICFLevel { None, Safe, All };
// For --strip-{all,debug}. // For --strip-{all,debug}.
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lld/ELF/Driver.cpp

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s + ", --lto-whole-program-visibility disabled"); s + ", --lto-whole-program-visibility disabled");
} }
} }
static CGProfileSortKind getCGProfileSortKind(opt::InputArgList &args) { static CGProfileSortKind getCGProfileSortKind(opt::InputArgList &args) {
StringRef s = args.getLastArgValue(OPT_call_graph_profile_sort, "hfsort"); StringRef s = args.getLastArgValue(OPT_call_graph_profile_sort, "hfsort");
if (s == "hfsort") if (s == "hfsort")
return CGProfileSortKind::Hfsort; return CGProfileSortKind::Hfsort;
if (s == "cdsort")
return CGProfileSortKind::Cdsort;
if (s != "none") if (s != "none")
error("unknown --call-graph-profile-sort= value: " + s); error("unknown --call-graph-profile-sort= value: " + s);
return CGProfileSortKind::None; return CGProfileSortKind::None;
} }
static DebugCompressionType getCompressionType(StringRef s, StringRef option) { static DebugCompressionType getCompressionType(StringRef s, StringRef option) {
DebugCompressionType type = StringSwitch<DebugCompressionType>(s) DebugCompressionType type = StringSwitch<DebugCompressionType>(s)
.Case("zlib", DebugCompressionType::Zlib) .Case("zlib", DebugCompressionType::Zlib)
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lld/ELF/Options.td

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defm pack_dyn_relocs: defm pack_dyn_relocs:
EEq<"pack-dyn-relocs", "Pack dynamic relocations in the given format">, EEq<"pack-dyn-relocs", "Pack dynamic relocations in the given format">,
MetaVarName<"[none,android,relr,android+relr]">; MetaVarName<"[none,android,relr,android+relr]">;
defm use_android_relr_tags: BB<"use-android-relr-tags", defm use_android_relr_tags: BB<"use-android-relr-tags",
"Use SHT_ANDROID_RELR / DT_ANDROID_RELR* tags instead of SHT_RELR / DT_RELR*", "Use SHT_ANDROID_RELR / DT_ANDROID_RELR* tags instead of SHT_RELR / DT_RELR*",
"Use SHT_RELR / DT_RELR* tags (default)">; "Use SHT_RELR / DT_RELR* tags (default)">;
def pic_veneer: F<"pic-veneer">, def pic_veneer: F<"pic-veneer">,
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New options use BB.

MaskRay: New options use `BB`.
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I feel that this abbreviated option name isn't intuitive.

A similar --call-graph-profile-sort intentionally picks a long but descriptive name. I think --use-cache-directed-sort will be better.

I suggest we make --no-use-cache-directed-sort the default and then change the default in another patch.

MaskRay: I feel that this abbreviated option name isn't intuitive. A similar `--call-graph-profile…
HelpText<"Always generate position independent thunks (veneers)">; HelpText<"Always generate position independent thunks (veneers)">;
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Reorder input sections with cache-directed sort.

MaskRay: `Reorder input sections with cache-directed sort.`
defm pie: B<"pie", defm pie: B<"pie",
"Create a position independent executable", "Create a position independent executable",
"Do not create a position independent executable (default)">; "Do not create a position independent executable (default)">;
defm print_gc_sections: B<"print-gc-sections", defm print_gc_sections: B<"print-gc-sections",
"List removed unused sections", "List removed unused sections",
"Do not list removed unused sections (default)">; "Do not list removed unused sections (default)">;
▲ Show 20 LinesShow All 249 Lines▼ Show 20 Linesdef lto_partitions: JJ<"lto-partitions=">,
HelpText<"Number of LTO codegen partitions">; HelpText<"Number of LTO codegen partitions">;
def lto_cs_profile_generate: FF<"lto-cs-profile-generate">, def lto_cs_profile_generate: FF<"lto-cs-profile-generate">,
HelpText<"Perform context sensitive PGO instrumentation">; HelpText<"Perform context sensitive PGO instrumentation">;
def lto_cs_profile_file: JJ<"lto-cs-profile-file=">, def lto_cs_profile_file: JJ<"lto-cs-profile-file=">,
HelpText<"Context sensitive profile file path">; HelpText<"Context sensitive profile file path">;
defm lto_pgo_warn_mismatch: BB<"lto-pgo-warn-mismatch", defm lto_pgo_warn_mismatch: BB<"lto-pgo-warn-mismatch",
"turn on warnings about profile cfg mismatch (default)", "turn on warnings about profile cfg mismatch (default)",
"turn off warnings about profile cfg mismatch">; "turn off warnings about profile cfg mismatch">;
defm lto_known_safe_vtables : EEq<"lto-known-safe-vtables", defm lto_known_safe_vtables : EEq<"lto-known-safe-vtables",
"When --lto-validate-all-vtables-have-type-infos is enabled, skip validation on these vtables (_ZTV symbols)">; "When --lto-validate-all-vtables-have-type-infos is enabled, skip validation on these vtables (_ZTV symbols)">;
def lto_obj_path_eq: JJ<"lto-obj-path=">; def lto_obj_path_eq: JJ<"lto-obj-path=">;
def lto_sample_profile: JJ<"lto-sample-profile=">, def lto_sample_profile: JJ<"lto-sample-profile=">,
HelpText<"Sample profile file path">; HelpText<"Sample profile file path">;
defm lto_validate_all_vtables_have_type_infos: BB<"lto-validate-all-vtables-have-type-infos", defm lto_validate_all_vtables_have_type_infos: BB<"lto-validate-all-vtables-have-type-infos",
"Validate that all vtables have type infos for LTO link", "Validate that all vtables have type infos for LTO link",
"Do not validate that all vtables have type infos for LTO link">; "Do not validate that all vtables have type infos for LTO link">;
defm lto_whole_program_visibility: BB<"lto-whole-program-visibility", defm lto_whole_program_visibility: BB<"lto-whole-program-visibility",
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lld/docs/ld.lld.1

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.Ar algorithm .Ar algorithm
may be: may be:
.Pp .Pp
.Bl -tag -width 2n -compact .Bl -tag -width 2n -compact
.It Cm none .It Cm none
Ignore call graph profile. Ignore call graph profile.
.It Cm hfsort .It Cm hfsort
Use hfsort (default). Use hfsort (default).
.It Cm cdsort
Use cdsort.
.El .El
.Pp .Pp
.It Fl -color-diagnostics Ns = Ns Ar value .It Fl -color-diagnostics Ns = Ns Ar value
Use colors in diagnostics. Use colors in diagnostics.
.Ar value .Ar value
may be one of may be one of
.Cm always , .Cm always ,
.Cm auto , .Cm auto ,
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lld/test/ELF/cgprofile-txt.s

Show All 24 Lines
# RUN: echo "TooManyPreds9 TooManyPreds 10" >> %t.call_graph # RUN: echo "TooManyPreds9 TooManyPreds 10" >> %t.call_graph
# RUN: echo "TooManyPreds10 TooManyPreds 11" >> %t.call_graph # RUN: echo "TooManyPreds10 TooManyPreds 11" >> %t.call_graph
# RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=hfsort -o %t2 # RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=hfsort -o %t2
# RUN: llvm-readobj --symbols %t2 | FileCheck %s # RUN: llvm-readobj --symbols %t2 | FileCheck %s
## --call-graph-profile-sort=hfsort is the default. ## --call-graph-profile-sort=hfsort is the default.
# RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph -o %t2b # RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph -o %t2b
# RUN: cmp %t2 %t2b # RUN: cmp %t2 %t2b
# RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=cdsort -o %t2
# RUN: llvm-readobj --symbols %t2 | FileCheck %s --check-prefix=CDSORT
# RUN: not ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=sort \ # RUN: not ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=sort \
# RUN: -o /dev/null 2>&1 | FileCheck %s --check-prefix=UNKNOWN # RUN: -o /dev/null 2>&1 | FileCheck %s --check-prefix=UNKNOWN
# UNKNOWN: error: unknown --call-graph-profile-sort= value: sort # UNKNOWN: error: unknown --call-graph-profile-sort= value: sort
.section .text.D,"ax",@progbits .section .text.D,"ax",@progbits
D: D:
retq retq
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# CHECK-NEXT: Value: 0x20113E # CHECK-NEXT: Value: 0x20113E
# CHECK: Name: GB # CHECK: Name: GB
# CHECK-NEXT: Value: 0x20113F # CHECK-NEXT: Value: 0x20113F
# CHECK: Name: _init # CHECK: Name: _init
# CHECK-NEXT: Value: 0x201140 # CHECK-NEXT: Value: 0x201140
# CHECK: Name: _init2 # CHECK: Name: _init2
# CHECK-NEXT: Value: 0x201141 # CHECK-NEXT: Value: 0x201141
# CDSORT: Name: D
# CDSORT-NEXT: Value: 0x201123
# CDSORT: Name: TooManyPreds
# CDSORT-NEXT: Value: 0x20112F
# CDSORT: Name: TooManyPreds10
# CDSORT-NEXT: Value: 0x20112E
# CDSORT: Name: C
# CDSORT-NEXT: Value: 0x201122
# CDSORT: Name: B
# CDSORT-NEXT: Value: 0x201121
# CDSORT: Name: A
# CDSORT-NEXT: Value: 0x201120
# CDSORT: Name: TS
# CDSORT-NEXT: Value: 0x20113D
# CDSORT: Name: PP
# CDSORT-NEXT: Value: 0x20113C
# CDSORT: Name: QC
# CDSORT-NEXT: Value: 0x20113E
# CDSORT: Name: GB
# CDSORT-NEXT: Value: 0x20113F
# CDSORT: Name: _init
# CDSORT-NEXT: Value: 0x201140
# CDSORT: Name: _init2
# CDSORT-NEXT: Value: 0x201141
# NOSORT: Name: D # NOSORT: Name: D
# NOSORT-NEXT: Value: 0x201120 # NOSORT-NEXT: Value: 0x201120
# NOSORT: Name: TooManyPreds # NOSORT: Name: TooManyPreds
# NOSORT-NEXT: Value: 0x201124 # NOSORT-NEXT: Value: 0x201124
# NOSORT: Name: TooManyPreds10 # NOSORT: Name: TooManyPreds10
# NOSORT-NEXT: Value: 0x201138 # NOSORT-NEXT: Value: 0x201138
# NOSORT: Name: C # NOSORT: Name: C
# NOSORT-NEXT: Value: 0x201121 # NOSORT-NEXT: Value: 0x201121
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lld/test/ELF/cgprofile-txt2.s

# REQUIRES: x86 # REQUIRES: x86
# RUN: llvm-mc -filetype=obj -triple=x86_64-unknown-linux %s -o %t # RUN: llvm-mc -filetype=obj -triple=x86_64-unknown-linux %s -o %t
# RUN: echo "A B 5" > %t.call_graph # RUN: echo "A B 5" > %t.call_graph
# RUN: echo "B C 50" >> %t.call_graph # RUN: echo "B C 50" >> %t.call_graph
# RUN: echo "C D 40" >> %t.call_graph # RUN: echo "C D 40" >> %t.call_graph
# RUN: echo "D B 10" >> %t.call_graph # RUN: echo "D B 10" >> %t.call_graph
# RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph -o %t2 # RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=hfsort -o %t2
# RUN: llvm-readobj --symbols %t2 | FileCheck %s # RUN: llvm-readobj --symbols %t2 | FileCheck %s --check-prefix=CHECKC3
# RUN: ld.lld -e A %t --call-graph-ordering-file %t.call_graph --call-graph-profile-sort=cdsort -o %t2
# CHECK: Name: A # RUN: llvm-readobj --symbols %t2 | FileCheck %s --check-prefix=CHECKCDS
# CHECK-NEXT: Value: 0x201123
# CHECK: Name: B # CHECKC3: Name: A
# CHECK-NEXT: Value: 0x201120 # CHECKC3-NEXT: Value: 0x201123
# CHECK: Name: C # CHECKC3: Name: B
# CHECK-NEXT: Value: 0x201121 # CHECKC3-NEXT: Value: 0x201120
# CHECK: Name: D # CHECKC3: Name: C
# CHECK-NEXT: Value: 0x201122 # CHECKC3-NEXT: Value: 0x201121
# CHECKC3: Name: D
# CHECKC3-NEXT: Value: 0x201122
# CHECKCDS: Name: A
# CHECKCDS-NEXT: Value: 0x201120
# CHECKCDS: Name: B
# CHECKCDS-NEXT: Value: 0x201121
# CHECKCDS: Name: C
# CHECKCDS-NEXT: Value: 0x201122
# CHECKCDS: Name: D
# CHECKCDS-NEXT: Value: 0x201123
.section .text.A,"ax",@progbits .section .text.A,"ax",@progbits
.globl A .globl A
A: A:
nop nop
.section .text.B,"ax",@progbits .section .text.B,"ax",@progbits
.globl B .globl B
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