Bug 24457 - X87 FPU Special Purpose Registers

Summary:
  - For 'register read --all' command on x86_64-Linux Platform:

      -- Provide correct values of X87 FPU Special Purpose Registers
      -- Both 32-bit & 64-bit inferiors give correct values on this
         Platform

  - Added a Test Vector:
      -- To verify the expected behaviour of the command

Signed-off-by: Abhishek Aggarwal <abhishek.a.aggarwal@intel.com>

Reviewers: ashok.thirumurthi, granata.enrico, tfiala, clayborg

Differential Revision: http://reviews.llvm.org/D12592

llvm-svn: 246955
This commit is contained in:
Abhishek Aggarwal 2015-09-07 07:40:16 +00:00
parent 907abf799d
commit 7f658edd61
6 changed files with 140 additions and 5 deletions

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@ -422,6 +422,10 @@ NativeRegisterContextLinux_x86_64::NativeRegisterContextLinux_x86_64 (const Arch
// Clear out the FPR state. // Clear out the FPR state.
::memset(&m_fpr, 0, sizeof(FPR)); ::memset(&m_fpr, 0, sizeof(FPR));
// Store byte offset of fctrl (i.e. first register of FPR)
const RegisterInfo *reg_info_fctrl = GetRegisterInfoByName("fctrl");
m_fctrl_offset_in_userarea = reg_info_fctrl->byte_offset;
} }
// CONSIDER after local and llgs debugging are merged, register set support can // CONSIDER after local and llgs debugging are merged, register set support can
@ -559,8 +563,16 @@ NativeRegisterContextLinux_x86_64::ReadRegister (const RegisterInfo *reg_info, R
} }
// Get pointer to m_fpr.xstate.fxsave variable and set the data from it. // Get pointer to m_fpr.xstate.fxsave variable and set the data from it.
assert (reg_info->byte_offset < sizeof(m_fpr));
uint8_t *src = (uint8_t *)&m_fpr + reg_info->byte_offset; // Byte offsets of all registers are calculated wrt 'UserArea' structure.
// However, ReadFPR() reads fpu registers {using ptrace(PTRACE_GETFPREGS,..)}
// and stores them in 'm_fpr' (of type FPR structure). To extract values of fpu
// registers, m_fpr should be read at byte offsets calculated wrt to FPR structure.
// Since, FPR structure is also one of the member of UserArea structure.
// byte_offset(fpu wrt FPR) = byte_offset(fpu wrt UserArea) - byte_offset(fctrl wrt UserArea)
assert ( (reg_info->byte_offset - m_fctrl_offset_in_userarea) < sizeof(m_fpr));
uint8_t *src = (uint8_t *)&m_fpr + reg_info->byte_offset - m_fctrl_offset_in_userarea;
switch (reg_info->byte_size) switch (reg_info->byte_size)
{ {
case 2: case 2:
@ -620,8 +632,16 @@ NativeRegisterContextLinux_x86_64::WriteRegister (const RegisterInfo *reg_info,
else else
{ {
// Get pointer to m_fpr.xstate.fxsave variable and set the data to it. // Get pointer to m_fpr.xstate.fxsave variable and set the data to it.
assert (reg_info->byte_offset < sizeof(m_fpr));
uint8_t *dst = (uint8_t *)&m_fpr + reg_info->byte_offset; // Byte offsets of all registers are calculated wrt 'UserArea' structure.
// However, WriteFPR() takes m_fpr (of type FPR structure) and writes only fpu
// registers using ptrace(PTRACE_SETFPREGS,..) API. Hence fpu registers should
// be written in m_fpr at byte offsets calculated wrt FPR structure.
// Since, FPR structure is also one of the member of UserArea structure.
// byte_offset(fpu wrt FPR) = byte_offset(fpu wrt UserArea) - byte_offset(fctrl wrt UserArea)
assert ( (reg_info->byte_offset - m_fctrl_offset_in_userarea) < sizeof(m_fpr));
uint8_t *dst = (uint8_t *)&m_fpr + reg_info->byte_offset - m_fctrl_offset_in_userarea;
switch (reg_info->byte_size) switch (reg_info->byte_size)
{ {
case 2: case 2:

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@ -136,6 +136,7 @@ namespace process_linux {
YMM m_ymm_set; YMM m_ymm_set;
RegInfo m_reg_info; RegInfo m_reg_info;
uint64_t m_gpr_x86_64[k_num_gpr_registers_x86_64]; uint64_t m_gpr_x86_64[k_num_gpr_registers_x86_64];
uint32_t m_fctrl_offset_in_userarea;
// Private member methods. // Private member methods.
bool IsRegisterSetAvailable (uint32_t set_index) const; bool IsRegisterSetAvailable (uint32_t set_index) const;

2
lldb/test/functionalities/register/Makefile Normal file → Executable file
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@ -1,5 +1,5 @@
LEVEL = ../../make LEVEL = ../../make
CXX_SOURCES := main.cpp CXX_SOURCES := main.cpp a.cpp
include $(LEVEL)/Makefile.rules include $(LEVEL)/Makefile.rules

70
lldb/test/functionalities/register/TestRegisters.py Normal file → Executable file
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@ -35,6 +35,13 @@ class RegisterCommandsTestCase(TestBase):
self.buildDefault() self.buildDefault()
self.fp_register_write() self.fp_register_write()
def test_fp_special_purpose_register_read(self):
"""Test commands that read fpu special purpose registers."""
if not self.getArchitecture() in ['amd64', 'i386', 'x86_64']:
self.skipTest("This test requires x86 or x86_64 as the architecture for the inferior")
self.buildDefault()
self.fp_special_purpose_register_read()
def test_register_expressions(self): def test_register_expressions(self):
"""Test expression evaluation with commands related to registers.""" """Test expression evaluation with commands related to registers."""
if not self.getArchitecture() in ['amd64', 'i386', 'x86_64']: if not self.getArchitecture() in ['amd64', 'i386', 'x86_64']:
@ -152,6 +159,69 @@ class RegisterCommandsTestCase(TestBase):
self.expect("register read " + register, self.expect("register read " + register,
substrs = [register + ' = ', new_value]) substrs = [register + ' = ', new_value])
def fp_special_purpose_register_read(self):
exe = os.path.join(os.getcwd(), "a.out")
# Create a target by the debugger.
target = self.dbg.CreateTarget(exe)
self.assertTrue(target, VALID_TARGET)
# Find the line number to break inside a.cpp.
self.line = line_number('a.cpp', '// Set break point at this line.')
# Set breakpoint
lldbutil.run_break_set_by_file_and_line (self, "a.cpp", self.line, num_expected_locations=1, loc_exact=True)
# Launch the process, and do not stop at the entry point.
self.runCmd ("run", RUN_SUCCEEDED)
process = target.GetProcess()
self.assertTrue(process.GetState() == lldb.eStateStopped,
PROCESS_STOPPED)
thread = process.GetThreadAtIndex(0)
self.assertTrue(thread.IsValid(), "current thread is valid")
currentFrame = thread.GetFrameAtIndex(0)
self.assertTrue(currentFrame.IsValid(), "current frame is valid")
# Extract the value of fstat and ftag flag at the point just before
# we start pushing floating point values on st% register stack
value = currentFrame.FindValue("fstat", lldb.eValueTypeRegister)
error = lldb.SBError()
reg_value_fstat_initial = value.GetValueAsUnsigned(error, 0)
self.assertTrue(error.Success(), "reading a value for fstat")
value = currentFrame.FindValue("ftag", lldb.eValueTypeRegister)
error = lldb.SBError()
reg_value_ftag_initial = value.GetValueAsUnsigned(error, 0)
self.assertTrue(error.Success(), "reading a value for ftag")
fstat_top_pointer_initial = (reg_value_fstat_initial & 0x3800)>>11
# Execute 'si' aka 'thread step-inst' instruction 5 times and with
# every execution verify the value of fstat and ftag registers
for x in range(0,5):
# step into the next instruction to push a value on 'st' register stack
self.runCmd ("si", RUN_SUCCEEDED)
# Verify fstat and save it to be used for verification in next execution of 'si' command
if not (reg_value_fstat_initial & 0x3800):
self.expect("register read fstat",
substrs = ['fstat' + ' = ', str("0x%0.4x" %((reg_value_fstat_initial & ~(0x3800))| 0x3800))])
reg_value_fstat_initial = ((reg_value_fstat_initial & ~(0x3800))| 0x3800)
fstat_top_pointer_initial = 7
else :
self.expect("register read fstat",
substrs = ['fstat' + ' = ', str("0x%0.4x" % (reg_value_fstat_initial - 0x0800))])
reg_value_fstat_initial = (reg_value_fstat_initial - 0x0800)
fstat_top_pointer_initial -= 1
# Verify ftag and save it to be used for verification in next execution of 'si' command
self.expect("register read ftag",
substrs = ['ftag' + ' = ', str("0x%0.4x" % (reg_value_ftag_initial | (1<< fstat_top_pointer_initial)))])
reg_value_ftag_initial = reg_value_ftag_initial | (1<< fstat_top_pointer_initial)
def fp_register_write(self): def fp_register_write(self):
exe = os.path.join(os.getcwd(), "a.out") exe = os.path.join(os.getcwd(), "a.out")

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@ -0,0 +1,40 @@
//===-- a.cpp ------------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include <stdio.h>
long double
return_long_double (long double value)
{
float a=2, b=4,c=8, d=16, e=32, f=64, k=128, l=256, add=0;
__asm__ ( "fld %1 ;"
"fld %2 ;"
"fld %3 ;"
"fld %4 ;"
"fld %5 ;"
"fld %6 ;"
"fld %7 ;"
"fadd ;" : "=g" (add) : "g" (a), "g" (b), "g" (c), "g" (d), "g" (e), "g" (f), "g" (k), "g" (l) ); // Set break point at this line.
return value;
}
long double
outer_return_long_double (long double value)
{
long double val = return_long_double(value);
val *= 2 ;
return val;
}
long double
outermost_return_long_double (long double value)
{
long double val = outer_return_long_double(value);
val *= 2 ;
return val;
}

4
lldb/test/functionalities/register/main.cpp Normal file → Executable file
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@ -15,6 +15,8 @@
#include <chrono> #include <chrono>
#include <thread> #include <thread>
long double outermost_return_long_double (long double my_long_double);
int main (int argc, char const *argv[]) int main (int argc, char const *argv[])
{ {
#if defined(__linux__) #if defined(__linux__)
@ -32,6 +34,7 @@ int main (int argc, char const *argv[])
char my_string[] = {'a', 'b', 'c', 'd', 'e', 'f', 'g', 0}; char my_string[] = {'a', 'b', 'c', 'd', 'e', 'f', 'g', 0};
double my_double = 1234.5678; double my_double = 1234.5678;
long double my_long_double = 1234.5678;
// For simplicity assume that any cmdline argument means wait for attach. // For simplicity assume that any cmdline argument means wait for attach.
if (argc > 1) if (argc > 1)
@ -43,5 +46,6 @@ int main (int argc, char const *argv[])
printf("my_string=%s\n", my_string); printf("my_string=%s\n", my_string);
printf("my_double=%g\n", my_double); printf("my_double=%g\n", my_double);
outermost_return_long_double (my_long_double);
return 0; return 0;
} }