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Commit Graph

Author	SHA1	Message	Date
Fangrui Song	25e22613df	[XRay] Change ARM/AArch64/powerpc64le to use version 2 sled (PC-relative address) Follow-up of D78082 (x86-64). This change avoids dynamic relocations in `xray_instr_map` for ARM/AArch64/powerpc64le. MIPS64 cannot use 64-bit PC-relative addresses because R_MIPS_PC64 is not defined. Because MIPS32 shares the same code, for simplicity, we don't use PC-relative addresses for MIPS32 as well. Tested on AArch64 Linux and ppc64le Linux. Reviewed By: ianlevesque Differential Revision: https://reviews.llvm.org/D78590	2020-04-24 08:35:43 -07:00
Kuba Mracek	06995e866b	[xray] Add XRay support for Mach-O in CodeGen Currently, XRay only supports emitting the XRay table (xray_instr_map) on ELF binaries. Let's add Mach-O support. Differential Revision: https://reviews.llvm.org/D26983 llvm-svn: 287734	2016-11-23 02:07:04 +00:00
Dean Michael Berris	156f6cafc2	[XRay] Support for for tail calls for ARM no-Thumb This patch adds simplified support for tail calls on ARM with XRay instrumentation. Known issue: compiled with generic flags: `-O3 -g -fxray-instrument -Wall -std=c++14 -ffunction-sections -fdata-sections` (this list doesn't include my specific flags like --target=armv7-linux-gnueabihf etc.), the following program #include <cstdio> #include <cassert> #include <xray/xray_interface.h> [[clang::xray_always_instrument]] void __attribute__ ((noinline)) fC() { std::printf("In fC()\n"); } [[clang::xray_always_instrument]] void __attribute__ ((noinline)) fB() { std::printf("In fB()\n"); fC(); } [[clang::xray_always_instrument]] void __attribute__ ((noinline)) fA() { std::printf("In fA()\n"); fB(); } // Avoid infinite recursion in case the logging function is instrumented (so calls logging // function again). [[clang::xray_never_instrument]] void simplyPrint(int32_t functionId, XRayEntryType xret) { printf("XRay: functionId=%d type=%d.\n", int(functionId), int(xret)); } int main(int argc, char* argv[]) { __xray_set_handler(simplyPrint); printf("Patching...\n"); __xray_patch(); fA(); printf("Unpatching...\n"); __xray_unpatch(); fA(); return 0; } gives the following output: Patching... XRay: functionId=3 type=0. In fA() XRay: functionId=3 type=1. XRay: functionId=2 type=0. In fB() XRay: functionId=2 type=1. XRay: functionId=1 type=0. XRay: functionId=1 type=1. In fC() Unpatching... In fA() In fB() In fC() So for function fC() the exit sled seems to be called too much before function exit: before printing In fC(). Debugging shows that the above happens because printf from fC is also called as a tail call. So first the exit sled of fC is executed, and only then printf is jumped into. So it seems we can't do anything about this with the current approach (i.e. within the simplification described in https://reviews.llvm.org/D23988 ). Differential Revision: https://reviews.llvm.org/D25030 llvm-svn: 284456	2016-10-18 05:54:15 +00:00

Author

SHA1

Message

Date

Fangrui Song

25e22613df

[XRay] Change ARM/AArch64/powerpc64le to use version 2 sled (PC-relative address)

Follow-up of D78082 (x86-64).

This change avoids dynamic relocations in `xray_instr_map` for ARM/AArch64/powerpc64le.

MIPS64 cannot use 64-bit PC-relative addresses because R_MIPS_PC64 is not defined.
Because MIPS32 shares the same code, for simplicity, we don't use PC-relative addresses for MIPS32 as well.

Tested on AArch64 Linux and ppc64le Linux.

Reviewed By: ianlevesque

Differential Revision: https://reviews.llvm.org/D78590

2020-04-24 08:35:43 -07:00

Kuba Mracek

06995e866b

[xray] Add XRay support for Mach-O in CodeGen

Currently, XRay only supports emitting the XRay table (xray_instr_map) on ELF binaries. Let's add Mach-O support.

Differential Revision: https://reviews.llvm.org/D26983

llvm-svn: 287734

2016-11-23 02:07:04 +00:00

Dean Michael Berris

156f6cafc2

[XRay] Support for for tail calls for ARM no-Thumb

This patch adds simplified support for tail calls on ARM with XRay instrumentation.

Known issue: compiled with generic flags: `-O3 -g -fxray-instrument -Wall
-std=c++14  -ffunction-sections -fdata-sections` (this list doesn't include my
specific flags like --target=armv7-linux-gnueabihf etc.), the following program

    #include <cstdio>
    #include <cassert>
    #include <xray/xray_interface.h>

    [[clang::xray_always_instrument]] void __attribute__ ((noinline)) fC() {
      std::printf("In fC()\n");
    }

    [[clang::xray_always_instrument]] void __attribute__ ((noinline)) fB() {
      std::printf("In fB()\n");
      fC();
    }

    [[clang::xray_always_instrument]] void __attribute__ ((noinline)) fA() {
      std::printf("In fA()\n");
      fB();
    }

    // Avoid infinite recursion in case the logging function is instrumented (so calls logging
    //   function again).
    [[clang::xray_never_instrument]] void simplyPrint(int32_t functionId, XRayEntryType xret)
    {
      printf("XRay: functionId=%d type=%d.\n", int(functionId), int(xret));
    }

    int main(int argc, char* argv[]) {
      __xray_set_handler(simplyPrint);

      printf("Patching...\n");
      __xray_patch();
      fA();

      printf("Unpatching...\n");
      __xray_unpatch();
      fA();

      return 0;
    }

gives the following output:

    Patching...
    XRay: functionId=3 type=0.
    In fA()
    XRay: functionId=3 type=1.
    XRay: functionId=2 type=0.
    In fB()
    XRay: functionId=2 type=1.
    XRay: functionId=1 type=0.
    XRay: functionId=1 type=1.
    In fC()
    Unpatching...
    In fA()
    In fB()
    In fC()

So for function fC() the exit sled seems to be called too much before function
exit: before printing In fC().

Debugging shows that the above happens because printf from fC is also called as
a tail call. So first the exit sled of fC is executed, and only then printf is
jumped into. So it seems we can't do anything about this with the current
approach (i.e. within the simplification described in
https://reviews.llvm.org/D23988 ).

Differential Revision: https://reviews.llvm.org/D25030

llvm-svn: 284456

2016-10-18 05:54:15 +00:00

3 Commits