third_party/llvm-project/lld/test/ELF/arm-exidx-order.s - cobalt - Git at Google

 // REQUIRES: arm
 // RUN: llvm-mc -filetype=obj -triple=armv7a-none-linux-gnueabi %s -o %t
 // RUN: llvm-mc -filetype=obj -triple=armv7a-none-linux-gnueabi %S/Inputs/arm-exidx-cantunwind.s -o %tcantunwind
 // RUN: ld.lld --no-merge-exidx-entries %t %tcantunwind -o %t2 2>&1
 // RUN: llvm-objdump -d -triple=armv7a-none-linux-gnueabi %t2 | FileCheck %s
 // RUN: llvm-objdump -s -triple=armv7a-none-linux-gnueabi %t2 | FileCheck -check-prefix=CHECK-EXIDX %s
 // RUN: llvm-readobj --program-headers --sections %t2 | FileCheck -check-prefix=CHECK-PT %s
 // Use Linker script to place .ARM.exidx in between .text and orphan sections
 // RUN: echo "SECTIONS { \
 // RUN:          .text 0x11000 : { *(.text*) } \
 // RUN:          .ARM.exidx : { *(.ARM.exidx) } } " > %t.script
 // RUN: ld.lld --no-merge-exidx-entries --script %t.script %tcantunwind %t -o %t3 2>&1
 // RUN: llvm-objdump -d -triple=armv7a-none-linux-gnueabi %t3 | FileCheck -check-prefix=CHECK-SCRIPT %s
 // RUN: llvm-objdump -s -triple=armv7a-none-linux-gnueabi %t3 | FileCheck -check-prefix=CHECK-SCRIPT-EXIDX %s

 // Each assembler created .ARM.exidx section has the SHF_LINK_ORDER flag set
 // with the sh_link containing the section index of the executable section
 // containing the function it describes. The linker must combine the .ARM.exidx
 // InputSections in the same order that it has combined the executable section,
 // such that the combined .ARM.exidx OutputSection can be used as a binary
 // search table.

  .syntax unified
  .section .text, "ax",%progbits
  .globl _start
 _start:
  .fnstart
  bx lr
  .cantunwind
  .fnend

  .section .text.f1, "ax", %progbits
  .globl f1
 f1:
  .fnstart
  bx lr
  .cantunwind
  .fnend

  .section .text.f2, "ax", %progbits
  .globl f2
 f2:
  .fnstart
  bx lr
  .cantunwind
  .fnend
  .globl f3
 f3:
  .fnstart
  bx lr
  .cantunwind
  .fnend

 // Check default no linker script order.

 // CHECK: Disassembly of section .text:
 // CHECK: _start:
 // CHECK-NEXT:    11000:       1e ff 2f e1     bx      lr
 // CHECK: f1:
 // CHECK-NEXT:    11004:       1e ff 2f e1     bx      lr
 // CHECK: f2:
 // CHECK-NEXT:    11008:       1e ff 2f e1     bx      lr
 // CHECK: f3:
 // CHECK-NEXT:    1100c:       1e ff 2f e1     bx      lr
 // CHECK: func4:
 // CHECK-NEXT:    11010:       1e ff 2f e1     bx      lr
 // CHECK: func5:
 // CHECK-NEXT:    11014:       1e ff 2f e1     bx      lr
 // CHECK: Disassembly of section .func1:
 // CHECK-NEXT: func1:
 // CHECK-NEXT:    11018:       1e ff 2f e1     bx      lr
 // CHECK: Disassembly of section .func2:
 // CHECK-NEXT: func2:
 // CHECK-NEXT:    1101c:       1e ff 2f e1     bx      lr
 // CHECK: Disassembly of section .func3:
 // CHECK-NEXT: func3:
 // CHECK-NEXT:    11020:       1e ff 2f e1     bx      lr

 // Each .ARM.exidx section has two 4 byte fields
 // Field 1 is the 31-bit offset to the function. The top bit is used to
 // indicate whether Field 2 is a pointer or an inline table entry.
 // Field 2 is either a pointer to a .ARM.extab section or an inline table
 // In this example all Field 2 entries are inline can't unwind (0x1)
 // We expect to see the entries in the same order as the functions

 // CHECK-EXIDX: Contents of section .ARM.exidx:
 // 100d4 + f2c = 11000 = _start
 // 100dc + f28 = 11004 = f1
 // CHECK-EXIDX-NEXT:       100d4 2c0f0000 01000000 280f0000 01000000
 // 100e4 + f24 = 11008 = f2
 // 100ec + f20 = 1100c = f3
 // CHECK-EXIDX-NEXT:  100e4 240f0000 01000000 200f0000 01000000
 // 100f4 + f1c = 11010 = func4
 // 100fc + f18 = 11014 = func5
 // CHECK-EXIDX-NEXT:  100f4 1c0f0000 01000000 180f0000 01000000
 // 10104 + f14 = 11018 = func1
 // 1010c + f10 = 1101c = func2
 // CHECK-EXIDX-NEXT:  10104 140f0000 01000000 100f0000 01000000
 // 10114 + f0c = 11020 = func3
 // CHECK-EXIDX-NEXT:  10114 0c0f0000 01000000

 // Check that PT_ARM_EXIDX program header has been generated that describes
 // the .ARM.exidx output section
 // CHECK-PT:          Name: .ARM.exidx
 // CHECK-PT-NEXT:     Type: SHT_ARM_EXIDX (0x70000001)
 // CHECK-PT-NEXT:     Flags [
 // CHECK-PT-NEXT:       SHF_ALLOC
 // CHECK-PT-NEXT:       SHF_LINK_ORDER
 // CHECK-PT-NEXT:     ]
 // CHECK-PT-NEXT:     Address: 0x100D4
 // CHECK-PT-NEXT:     Offset: 0xD4
 // CHECK-PT-NEXT:     Size: 80

 // CHECK-PT:          Type: PT_ARM_EXIDX (0x70000001)
 // CHECK-PT-NEXT:     Offset: 0xD4
 // CHECK-PT-NEXT:     VirtualAddress: 0x100D4
 // CHECK-PT-NEXT:     PhysicalAddress: 0x100D4
 // CHECK-PT-NEXT:     FileSize: 80
 // CHECK-PT-NEXT:     MemSize: 80
 // CHECK-PT-NEXT:     Flags [ (0x4)
 // CHECK-PT-NEXT:       PF_R (0x4)
 // CHECK-PT-NEXT:     ]
 // CHECK-PT-NEXT:     Alignment: 4
 // CHECK-PT-NEXT:   }


 // Check linker script order. The .ARM.exidx section will be inserted after
 // the .text section but before the orphan sections

 // CHECK-SCRIPT: Disassembly of section .text:
 // CHECK-SCRIPT-NEXT: func4:
 // CHECK-SCRIPT-NEXT:    11000:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT:      func5:
 // CHECK-SCRIPT-NEXT:    11004:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT:      _start:
 // CHECK-SCRIPT-NEXT:    11008:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT:      f1:
 // CHECK-SCRIPT-NEXT:    1100c:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT:      f2:
 // CHECK-SCRIPT-NEXT:    11010:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT:      f3:
 // CHECK-SCRIPT-NEXT:    11014:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT-NEXT: Disassembly of section .func1:
 // CHECK-SCRIPT-NEXT: func1:
 // CHECK-SCRIPT-NEXT:    11018:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT-NEXT: Disassembly of section .func2:
 // CHECK-SCRIPT-NEXT: func2:
 // CHECK-SCRIPT-NEXT:    1101c:       1e ff 2f e1     bx      lr
 // CHECK-SCRIPT-NEXT: Disassembly of section .func3:
 // CHECK-SCRIPT-NEXT: func3:
 // CHECK-SCRIPT-NEXT:    11020:       1e ff 2f e1     bx      lr

 // Check that the .ARM.exidx section is sorted in order as the functions
 // The offset in field 1, is 32-bit so in the binary the most significant bit
 // 11024 - 24 = 11000 func4
 // 1102c - 28 = 11004 func5
 // CHECK-SCRIPT-EXIDX:       11024 dcffff7f 01000000 d8ffff7f 01000000
 // 11034 - 2c = 11008 _start
 // 1103c - 30 = 1100c f1
 // CHECK-SCRIPT-EXIDX-NEXT:  11034 d4ffff7f 01000000 d0ffff7f 01000000
 // 11044 - 34 = 11010 f2
 // 1104c - 38 = 11014 f3
 // CHECK-SCRIPT-EXIDX-NEXT:  11044 ccffff7f 01000000 c8ffff7f 01000000
 // 11054 - 3c = 11018 func1
 // 1105c - 40 = 1101c func2
 // CHECK-SCRIPT-EXIDX-NEXT:  11054 c4ffff7f 01000000 c0ffff7f 01000000
 // 11064 - 44 = 11020 func3
 // 11068 - 48 = 11024 func3 + sizeof(func3)
 // CHECK-SCRIPT-EXIDX-NEXT:  11064 bcffff7f 01000000 b8ffff7f 01000000
	// REQUIRES: arm
	// RUN: llvm-mc -filetype=obj -triple=armv7a-none-linux-gnueabi %s -o %t
	// RUN: llvm-mc -filetype=obj -triple=armv7a-none-linux-gnueabi %S/Inputs/arm-exidx-cantunwind.s -o %tcantunwind
	// RUN: ld.lld --no-merge-exidx-entries %t %tcantunwind -o %t2 2>&1
	// RUN: llvm-objdump -d -triple=armv7a-none-linux-gnueabi %t2 \| FileCheck %s
	// RUN: llvm-objdump -s -triple=armv7a-none-linux-gnueabi %t2 \| FileCheck -check-prefix=CHECK-EXIDX %s
	// RUN: llvm-readobj --program-headers --sections %t2 \| FileCheck -check-prefix=CHECK-PT %s
	// Use Linker script to place .ARM.exidx in between .text and orphan sections
	// RUN: echo "SECTIONS { \
	// RUN: .text 0x11000 : { (.text) } \
	// RUN: .ARM.exidx : { *(.ARM.exidx) } } " > %t.script
	// RUN: ld.lld --no-merge-exidx-entries --script %t.script %tcantunwind %t -o %t3 2>&1
	// RUN: llvm-objdump -d -triple=armv7a-none-linux-gnueabi %t3 \| FileCheck -check-prefix=CHECK-SCRIPT %s
	// RUN: llvm-objdump -s -triple=armv7a-none-linux-gnueabi %t3 \| FileCheck -check-prefix=CHECK-SCRIPT-EXIDX %s

	// Each assembler created .ARM.exidx section has the SHF_LINK_ORDER flag set
	// with the sh_link containing the section index of the executable section
	// containing the function it describes. The linker must combine the .ARM.exidx
	// InputSections in the same order that it has combined the executable section,
	// such that the combined .ARM.exidx OutputSection can be used as a binary
	// search table.

	.syntax unified
	.section .text, "ax",%progbits
	.globl _start
	_start:
	.fnstart
	bx lr
	.cantunwind
	.fnend

	.section .text.f1, "ax", %progbits
	.globl f1
	f1:
	.fnstart
	bx lr
	.cantunwind
	.fnend

	.section .text.f2, "ax", %progbits
	.globl f2
	f2:
	.fnstart
	bx lr
	.cantunwind
	.fnend
	.globl f3
	f3:
	.fnstart
	bx lr
	.cantunwind
	.fnend

	// Check default no linker script order.

	// CHECK: Disassembly of section .text:
	// CHECK: _start:
	// CHECK-NEXT: 11000: 1e ff 2f e1 bx lr
	// CHECK: f1:
	// CHECK-NEXT: 11004: 1e ff 2f e1 bx lr
	// CHECK: f2:
	// CHECK-NEXT: 11008: 1e ff 2f e1 bx lr
	// CHECK: f3:
	// CHECK-NEXT: 1100c: 1e ff 2f e1 bx lr
	// CHECK: func4:
	// CHECK-NEXT: 11010: 1e ff 2f e1 bx lr
	// CHECK: func5:
	// CHECK-NEXT: 11014: 1e ff 2f e1 bx lr
	// CHECK: Disassembly of section .func1:
	// CHECK-NEXT: func1:
	// CHECK-NEXT: 11018: 1e ff 2f e1 bx lr
	// CHECK: Disassembly of section .func2:
	// CHECK-NEXT: func2:
	// CHECK-NEXT: 1101c: 1e ff 2f e1 bx lr
	// CHECK: Disassembly of section .func3:
	// CHECK-NEXT: func3:
	// CHECK-NEXT: 11020: 1e ff 2f e1 bx lr

	// Each .ARM.exidx section has two 4 byte fields
	// Field 1 is the 31-bit offset to the function. The top bit is used to
	// indicate whether Field 2 is a pointer or an inline table entry.
	// Field 2 is either a pointer to a .ARM.extab section or an inline table
	// In this example all Field 2 entries are inline can't unwind (0x1)
	// We expect to see the entries in the same order as the functions

	// CHECK-EXIDX: Contents of section .ARM.exidx:
	// 100d4 + f2c = 11000 = _start
	// 100dc + f28 = 11004 = f1
	// CHECK-EXIDX-NEXT: 100d4 2c0f0000 01000000 280f0000 01000000
	// 100e4 + f24 = 11008 = f2
	// 100ec + f20 = 1100c = f3
	// CHECK-EXIDX-NEXT: 100e4 240f0000 01000000 200f0000 01000000
	// 100f4 + f1c = 11010 = func4
	// 100fc + f18 = 11014 = func5
	// CHECK-EXIDX-NEXT: 100f4 1c0f0000 01000000 180f0000 01000000
	// 10104 + f14 = 11018 = func1
	// 1010c + f10 = 1101c = func2
	// CHECK-EXIDX-NEXT: 10104 140f0000 01000000 100f0000 01000000
	// 10114 + f0c = 11020 = func3
	// CHECK-EXIDX-NEXT: 10114 0c0f0000 01000000

	// Check that PT_ARM_EXIDX program header has been generated that describes
	// the .ARM.exidx output section
	// CHECK-PT: Name: .ARM.exidx
	// CHECK-PT-NEXT: Type: SHT_ARM_EXIDX (0x70000001)
	// CHECK-PT-NEXT: Flags [
	// CHECK-PT-NEXT: SHF_ALLOC
	// CHECK-PT-NEXT: SHF_LINK_ORDER
	// CHECK-PT-NEXT: ]
	// CHECK-PT-NEXT: Address: 0x100D4
	// CHECK-PT-NEXT: Offset: 0xD4
	// CHECK-PT-NEXT: Size: 80

	// CHECK-PT: Type: PT_ARM_EXIDX (0x70000001)
	// CHECK-PT-NEXT: Offset: 0xD4
	// CHECK-PT-NEXT: VirtualAddress: 0x100D4
	// CHECK-PT-NEXT: PhysicalAddress: 0x100D4
	// CHECK-PT-NEXT: FileSize: 80
	// CHECK-PT-NEXT: MemSize: 80
	// CHECK-PT-NEXT: Flags [ (0x4)
	// CHECK-PT-NEXT: PF_R (0x4)
	// CHECK-PT-NEXT: ]
	// CHECK-PT-NEXT: Alignment: 4
	// CHECK-PT-NEXT: }


	// Check linker script order. The .ARM.exidx section will be inserted after
	// the .text section but before the orphan sections

	// CHECK-SCRIPT: Disassembly of section .text:
	// CHECK-SCRIPT-NEXT: func4:
	// CHECK-SCRIPT-NEXT: 11000: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT: func5:
	// CHECK-SCRIPT-NEXT: 11004: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT: _start:
	// CHECK-SCRIPT-NEXT: 11008: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT: f1:
	// CHECK-SCRIPT-NEXT: 1100c: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT: f2:
	// CHECK-SCRIPT-NEXT: 11010: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT: f3:
	// CHECK-SCRIPT-NEXT: 11014: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT-NEXT: Disassembly of section .func1:
	// CHECK-SCRIPT-NEXT: func1:
	// CHECK-SCRIPT-NEXT: 11018: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT-NEXT: Disassembly of section .func2:
	// CHECK-SCRIPT-NEXT: func2:
	// CHECK-SCRIPT-NEXT: 1101c: 1e ff 2f e1 bx lr
	// CHECK-SCRIPT-NEXT: Disassembly of section .func3:
	// CHECK-SCRIPT-NEXT: func3:
	// CHECK-SCRIPT-NEXT: 11020: 1e ff 2f e1 bx lr

	// Check that the .ARM.exidx section is sorted in order as the functions
	// The offset in field 1, is 32-bit so in the binary the most significant bit
	// 11024 - 24 = 11000 func4
	// 1102c - 28 = 11004 func5
	// CHECK-SCRIPT-EXIDX: 11024 dcffff7f 01000000 d8ffff7f 01000000
	// 11034 - 2c = 11008 _start
	// 1103c - 30 = 1100c f1
	// CHECK-SCRIPT-EXIDX-NEXT: 11034 d4ffff7f 01000000 d0ffff7f 01000000
	// 11044 - 34 = 11010 f2
	// 1104c - 38 = 11014 f3
	// CHECK-SCRIPT-EXIDX-NEXT: 11044 ccffff7f 01000000 c8ffff7f 01000000
	// 11054 - 3c = 11018 func1
	// 1105c - 40 = 1101c func2
	// CHECK-SCRIPT-EXIDX-NEXT: 11054 c4ffff7f 01000000 c0ffff7f 01000000
	// 11064 - 44 = 11020 func3
	// 11068 - 48 = 11024 func3 + sizeof(func3)
	// CHECK-SCRIPT-EXIDX-NEXT: 11064 bcffff7f 01000000 b8ffff7f 01000000