llvm-project/llvm/test/Bitcode/dso_location.ll

; RUN: llvm-as < %s | llvm-dis | FileCheck %s

; Tests parsing for the dso_local keyword as well as the serialization/
; deserialization of the dso_local value on GlobalValues.

@local_global = dso_local global i32 0
; CHECK: @local_global = dso_local global i32 0

@weak_local_global = weak dso_local global i32 0
; CHECK: @weak_local_global = weak dso_local global i32 0

@external_local_global = external dso_local global i32
; CHECK: @external_local_global = external dso_local global i32

@default_local_global = dso_local default global i32 0
; CHECK: @default_local_global = dso_local global i32 0

@hidden_local_global = hidden global i32 0
; CHECK: @hidden_local_global = hidden global i32 0

@protected_local_global = protected global i32 0
; CHECK: @protected_local_global = protected global i32 0

@local_alias = dso_local alias i32, i32* @local_global
; CHECK-DAG: @local_alias = dso_local alias i32, i32* @local_global

@preemptable_alias = dso_preemptable alias i32, i32* @hidden_local_global
; CHECK-DAG: @preemptable_alias = alias i32, i32* @hidden_local_global

@preemptable_ifunc = dso_preemptable ifunc void (), i8* ()* @ifunc_resolver
; CHECK-DAG: @preemptable_ifunc = ifunc void (), i8* ()* @ifunc_resolver
declare dso_local default void @default_local()
; CHECK: declare dso_local void @default_local()

declare hidden void @hidden_local()
; CHECK: declare hidden void @hidden_local()

define protected void @protected_local() {
; CHECK: define protected void @protected_local()
entry:
  ret void
}

define i8* @ifunc_resolver() {
entry:
  ret i8* null
}
Represent runtime preemption in the IR. Currently we do not represent runtime preemption in the IR, which has several drawbacks: 1) The semantics of GlobalValues differ depending on the object file format you are targeting (as well as the relocation-model and -fPIE value). 2) We have no way of disabling inlining of run time interposable functions, since in the IR we only know if a function is link-time interposable. Because of this llvm cannot support elf-interposition semantics. 3) In LTO builds of executables we will have extra knowledge that a symbol resolved to a local definition and can't be preemptable, but have no way to propagate that knowledge through the compiler. This patch adds preemptability specifiers to the IR with the following meaning: dso_local --> means the compiler may assume the symbol will resolve to a definition within the current linkage unit and the symbol may be accessed directly even if the definition is not within this compilation unit. dso_preemptable --> means that the compiler must assume the GlobalValue may be replaced with a definition from outside the current linkage unit at runtime. To ease transitioning dso_preemptable is treated as a 'default' in that low-level codegen will still do the same checks it did previously to see if a symbol should be accessed indirectly. Eventually when IR producers emit the specifiers on all Globalvalues we can change dso_preemptable to mean 'always access indirectly', and remove the current logic. Differential Revision: https://reviews.llvm.org/D20217 llvm-svn: 316668 2017-10-26 23:00:26 +08:00			`; RUN: llvm-as < %s \| llvm-dis \| FileCheck %s`

			`; Tests parsing for the dso_local keyword as well as the serialization/`
			`; deserialization of the dso_local value on GlobalValues.`

			`@local_global = dso_local global i32 0`
			`; CHECK: @local_global = dso_local global i32 0`

			`@weak_local_global = weak dso_local global i32 0`
			`; CHECK: @weak_local_global = weak dso_local global i32 0`

			`@external_local_global = external dso_local global i32`
			`; CHECK: @external_local_global = external dso_local global i32`

			`@default_local_global = dso_local default global i32 0`
			`; CHECK: @default_local_global = dso_local global i32 0`

Make GlobalValues with non-default visibilility dso_local. This is similar to r322317, but for visibility. It is not as neat because we have to special case extern_weak. The idea is the same as the previous change, make the transition to explicit dso_local easier for the frontends. With this they only have to add dso_local to symbols where we need some external information to decide if it is dso_local (like it being part of an ELF executable). llvm-svn: 322806 2018-01-18 10:08:23 +08:00			`@hidden_local_global = hidden global i32 0`
			`; CHECK: @hidden_local_global = hidden global i32 0`
Represent runtime preemption in the IR. Currently we do not represent runtime preemption in the IR, which has several drawbacks: 1) The semantics of GlobalValues differ depending on the object file format you are targeting (as well as the relocation-model and -fPIE value). 2) We have no way of disabling inlining of run time interposable functions, since in the IR we only know if a function is link-time interposable. Because of this llvm cannot support elf-interposition semantics. 3) In LTO builds of executables we will have extra knowledge that a symbol resolved to a local definition and can't be preemptable, but have no way to propagate that knowledge through the compiler. This patch adds preemptability specifiers to the IR with the following meaning: dso_local --> means the compiler may assume the symbol will resolve to a definition within the current linkage unit and the symbol may be accessed directly even if the definition is not within this compilation unit. dso_preemptable --> means that the compiler must assume the GlobalValue may be replaced with a definition from outside the current linkage unit at runtime. To ease transitioning dso_preemptable is treated as a 'default' in that low-level codegen will still do the same checks it did previously to see if a symbol should be accessed indirectly. Eventually when IR producers emit the specifiers on all Globalvalues we can change dso_preemptable to mean 'always access indirectly', and remove the current logic. Differential Revision: https://reviews.llvm.org/D20217 llvm-svn: 316668 2017-10-26 23:00:26 +08:00
Make GlobalValues with non-default visibilility dso_local. This is similar to r322317, but for visibility. It is not as neat because we have to special case extern_weak. The idea is the same as the previous change, make the transition to explicit dso_local easier for the frontends. With this they only have to add dso_local to symbols where we need some external information to decide if it is dso_local (like it being part of an ELF executable). llvm-svn: 322806 2018-01-18 10:08:23 +08:00			`@protected_local_global = protected global i32 0`
			`; CHECK: @protected_local_global = protected global i32 0`
Represent runtime preemption in the IR. Currently we do not represent runtime preemption in the IR, which has several drawbacks: 1) The semantics of GlobalValues differ depending on the object file format you are targeting (as well as the relocation-model and -fPIE value). 2) We have no way of disabling inlining of run time interposable functions, since in the IR we only know if a function is link-time interposable. Because of this llvm cannot support elf-interposition semantics. 3) In LTO builds of executables we will have extra knowledge that a symbol resolved to a local definition and can't be preemptable, but have no way to propagate that knowledge through the compiler. This patch adds preemptability specifiers to the IR with the following meaning: dso_local --> means the compiler may assume the symbol will resolve to a definition within the current linkage unit and the symbol may be accessed directly even if the definition is not within this compilation unit. dso_preemptable --> means that the compiler must assume the GlobalValue may be replaced with a definition from outside the current linkage unit at runtime. To ease transitioning dso_preemptable is treated as a 'default' in that low-level codegen will still do the same checks it did previously to see if a symbol should be accessed indirectly. Eventually when IR producers emit the specifiers on all Globalvalues we can change dso_preemptable to mean 'always access indirectly', and remove the current logic. Differential Revision: https://reviews.llvm.org/D20217 llvm-svn: 316668 2017-10-26 23:00:26 +08:00
			`@local_alias = dso_local alias i32, i32* @local_global`
			`; CHECK-DAG: @local_alias = dso_local alias i32, i32* @local_global`

			`@preemptable_alias = dso_preemptable alias i32, i32* @hidden_local_global`
			`; CHECK-DAG: @preemptable_alias = alias i32, i32* @hidden_local_global`

			`@preemptable_ifunc = dso_preemptable ifunc void (), i8* ()* @ifunc_resolver`
			`; CHECK-DAG: @preemptable_ifunc = ifunc void (), i8* ()* @ifunc_resolver`
			`declare dso_local default void @default_local()`
			`; CHECK: declare dso_local void @default_local()`

Make GlobalValues with non-default visibilility dso_local. This is similar to r322317, but for visibility. It is not as neat because we have to special case extern_weak. The idea is the same as the previous change, make the transition to explicit dso_local easier for the frontends. With this they only have to add dso_local to symbols where we need some external information to decide if it is dso_local (like it being part of an ELF executable). llvm-svn: 322806 2018-01-18 10:08:23 +08:00			`declare hidden void @hidden_local()`
			`; CHECK: declare hidden void @hidden_local()`
Represent runtime preemption in the IR. Currently we do not represent runtime preemption in the IR, which has several drawbacks: 1) The semantics of GlobalValues differ depending on the object file format you are targeting (as well as the relocation-model and -fPIE value). 2) We have no way of disabling inlining of run time interposable functions, since in the IR we only know if a function is link-time interposable. Because of this llvm cannot support elf-interposition semantics. 3) In LTO builds of executables we will have extra knowledge that a symbol resolved to a local definition and can't be preemptable, but have no way to propagate that knowledge through the compiler. This patch adds preemptability specifiers to the IR with the following meaning: dso_local --> means the compiler may assume the symbol will resolve to a definition within the current linkage unit and the symbol may be accessed directly even if the definition is not within this compilation unit. dso_preemptable --> means that the compiler must assume the GlobalValue may be replaced with a definition from outside the current linkage unit at runtime. To ease transitioning dso_preemptable is treated as a 'default' in that low-level codegen will still do the same checks it did previously to see if a symbol should be accessed indirectly. Eventually when IR producers emit the specifiers on all Globalvalues we can change dso_preemptable to mean 'always access indirectly', and remove the current logic. Differential Revision: https://reviews.llvm.org/D20217 llvm-svn: 316668 2017-10-26 23:00:26 +08:00
Make GlobalValues with non-default visibilility dso_local. This is similar to r322317, but for visibility. It is not as neat because we have to special case extern_weak. The idea is the same as the previous change, make the transition to explicit dso_local easier for the frontends. With this they only have to add dso_local to symbols where we need some external information to decide if it is dso_local (like it being part of an ELF executable). llvm-svn: 322806 2018-01-18 10:08:23 +08:00			`define protected void @protected_local() {`
			`; CHECK: define protected void @protected_local()`
Represent runtime preemption in the IR. Currently we do not represent runtime preemption in the IR, which has several drawbacks: 1) The semantics of GlobalValues differ depending on the object file format you are targeting (as well as the relocation-model and -fPIE value). 2) We have no way of disabling inlining of run time interposable functions, since in the IR we only know if a function is link-time interposable. Because of this llvm cannot support elf-interposition semantics. 3) In LTO builds of executables we will have extra knowledge that a symbol resolved to a local definition and can't be preemptable, but have no way to propagate that knowledge through the compiler. This patch adds preemptability specifiers to the IR with the following meaning: dso_local --> means the compiler may assume the symbol will resolve to a definition within the current linkage unit and the symbol may be accessed directly even if the definition is not within this compilation unit. dso_preemptable --> means that the compiler must assume the GlobalValue may be replaced with a definition from outside the current linkage unit at runtime. To ease transitioning dso_preemptable is treated as a 'default' in that low-level codegen will still do the same checks it did previously to see if a symbol should be accessed indirectly. Eventually when IR producers emit the specifiers on all Globalvalues we can change dso_preemptable to mean 'always access indirectly', and remove the current logic. Differential Revision: https://reviews.llvm.org/D20217 llvm-svn: 316668 2017-10-26 23:00:26 +08:00			`entry:`
			`ret void`
			`}`

			`define i8* @ifunc_resolver() {`
			`entry:`
			`ret i8* null`
			`}`