all the macros from the modules the user has loaded.
These macros are currently imported textually into
the expression's source code, which turns out not to
impose the horrific string processing overhead that
I thought it would, but I still plan to look into
performance improvements.
Also modified TestCModules to test that this works.
llvm-svn: 234922
relocations. We used to do GEP on a pointer to
the result type, which is wrong. We should be doing
GEP on a pointer to char, which allows us to offset
correctly.
This fixes the C modules testcase, so it's no longer
ExpectFail.
llvm-svn: 234918
This patch is major step towards supporting lldb on ARM.
This adds all the required bits to support register manipulation on Linux Arm.
Also adds utility enumerations, definitions and register context classes for arm.
llvm-svn: 234870
This patch deprecates the three Python CMake variables in favor of
a single variable PYTHON_HOME which points to the root of a python
installation. Since building Python doesn't output the files in
a structure that is compatible with the PYTHONHOME environment
variable, we also provide a script install_custom_python.py which
will copy the output of a custom python build to the correct
directory structure.
The supported workflow after this patch will be to build python
once for each configuration and architecture {Debug,Release} x {x86,x64}
and then run the script. Then run CMake specifying -DPYTHON_HOME=<path>
The first time you do this will probably require you to delete your
CMake cache.
The old workflow is still supported during a transitionary period,
but a warning is printed at CMake time, and this will eventually
be removed.
Differential Revision: http://reviews.llvm.org/D8979
llvm-svn: 234660
Also fixed an issue with the GUI mode where tree items wouldn't be notified that they were selected. Now selecting a thread or stack frame in the Threads view will update all windows (source, variables, registers).
llvm-svn: 234640
This covers most of rdar://20490076, but leaves one corner case still open - namely the case where we try to have arguments of the form foo\ bar (unquoted, but slashed) go through argdumper
llvm-svn: 234554
Summary: This will get the windows bots going.
Test Plan: Build LLDB on Windows.
Reviewers: zturner
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8934
llvm-svn: 234527
Summary:
This fixes an issue with GCC generated binaries wherein an expression
with method invocations on std::string variables was failing. Such use
cases are tested in TestSTL (albeit, in a test marked with
@unittest2.expectedFailure because of other reasons).
The reason for this particular failure with GCC is that the generated
DWARF for std::basic_string<...> is incomplete, which makes clang not
to use the alternate mangling scheme. GCC correctly generates the name
of basic_string<...>:
DW_AT_name "basic_string<char, std::char_traits<char>, std::allocator<char> >"
It also lists the template parameters of basic_string correctly:
DW_TAG_template_type_parameter
DW_AT_name "_CharT"
DW_AT_type <0x0000009c>
DW_TAG_template_type_parameter
DW_AT_name "_Traits"
DW_AT_type <0x00000609>
DW_TAG_template_type_parameter
DW_AT_name "_Alloc"
DW_AT_type <0x000007fb>
However, it does not list the template parameters of std::char_traits<>.
This makes Clang feel (while parsing the expression) that the string
variable is not actually a basic_string instance, and consequently does
not use the alternate mangling scheme.
Test Plan:
dotest.py -C gcc -p TestSTL
-- See it go past the "for" loop expression successfully.
Reviewers: clayborg, spyffe
Reviewed By: clayborg, spyffe
Subscribers: tberghammer, zturner, lldb-commits
Differential Revision: http://reviews.llvm.org/D8846
llvm-svn: 234522
Summary:
Previously the Debugger::HandleProcessEvent hid a top IOHandler if the
process's IOHandler was inactive and later refreshed it. Usually the
IOHandler.Refresh() prints the (lldb) prompt. The problem was in case of
iOS remote platform when trying to execute 'command source' command.
On this platform the process's IOHandler is empty, therefore the
Debugger::HandleProcessEvent hid a top IOHandler and later refreshed it.
So that the (lldb) prompt was printed with a program output in mixed
order:
was:
```
longlonglonglonglonglonglonglonglonglonglonglonglonglonglonglonglonglong
longlonglonglonglonglonglonglonglonglonglonglonglonglonglon(lldb)
glonglonglonglonglonglonglonglonglonglonglonglong string
```
now:
```
longlonglonglonglonglonglonglonglonglonglonglonglonglonglonglonglonglong
longlonglonglonglonglonglonglonglonglonglonglonglonglonglonglonglonglong
longlonglonglonglonglonglonglonglong string
```
Reviewers: zturner, jingham, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits, jingham, zturner, clayborg
Differential Revision: http://reviews.llvm.org/D8929
llvm-svn: 234517
Previously, users on Windows had to manually specify PYTHONPATH
to point to the site-packages directory before running LLDB.
The reason for this was because sys.path was being initialized
with a path containing unescaped backslashes, causing escape
sequences to end up in the paths.
llvm-svn: 234516
context as the first thing we do. This prevents
crashes if some of the initial setup produces
messages or errors.
<rdar://problem/20457882>
llvm-svn: 234511
Plan is to have this initialized on a per-process basis somewhat the same as the ObjC library on module loading, but this commit is simply the foundation work and will be incrementally built upon to add that detection functionality.
Differential Revision: http://reviews.llvm.org/D8896
llvm-svn: 234503
Summary:
This checkin sends an MI event when a module is loaded that causes a pending breakpoint to bind to it's real address in the target. This allows breakpoints to be set before the process is launched, and the target address of the BP to be discovered when the module loads, prior to the breakpoint being hit.
Patch from chuckr@microsoft.com
Test Plan:
I ran the check-lldb target with and without this patch and saw no change. I am unsure of how to write an MI specific test for this because the new event is buried in module load events. Here is an example (the new event is in bold):
```
(gdb)
-file-exec-and-symbols a.out
^done
(gdb)
=shlibs-added,shlib-info=[num="1",name="a.out",dyld-addr="-",reason="dyld",path="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/a.out",loaded_addr="-",dsym-objpath="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/a.out.dSYM/Contents/Resources/DWARF/a.out"]
-break-insert -f main.cpp:15
^done,bkpt={number="1",type="breakpoint",disp="keep",enabled="y",addr="0xffffffffffffffff",func="main",file="main.cpp",fullname="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/main.cpp",line="15",pending=["main.cpp:15"],times="0",original-location="main.cpp:15"}
(gdb)
=breakpoint-modified,bkpt={number="1",type="breakpoint",disp="keep",enabled="y",addr="0xffffffffffffffff",func="main",file="main.cpp",fullname="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/main.cpp",line="15",pending=["main.cpp:15"],times="0",original-location="main.cpp:15"}
-exec-run
^running
=thread-group-started,id="i1",pid="75620"
(gdb)
=thread-created,id="1",group-id="i1"
=thread-selected,id="1"
(gdb)
=shlibs-added,shlib-info=[num="2",name="dyld",dyld-addr="0x7fff5fc00000",reason="dyld",path="/usr/lib/dyld",loaded_addr="0x7fff5fc00000"]
(gdb)
=shlibs-added,shlib-info=[num="3",name="dyld",dyld-addr="0x7fff5fc00000",reason="dyld",path="/usr/lib/dyld",loaded_addr="0x7fff5fc00000"]
(gdb)
*running,thread-id="all"
(gdb)
(gdb)
=shlibs-added,shlib-info=[num="4",name="libc++.1.dylib",dyld-addr="0x7fff85dd0000",reason="dyld",path="/usr/lib/libc++.1.dylib",loaded_addr="0x7fff85dd0000"]
(gdb)
=shlibs-added,shlib-info=[num="5",name="libSystem.B.dylib",dyld-addr="0x7fff851ab000",reason="dyld",path="/usr/lib/libSystem.B.dylib",loaded_addr="0x7fff851ab000"]
(gdb)
=shlibs-added,shlib-info=[num="6",name="libc++abi.dylib",dyld-addr="0x7fff81be8000",reason="dyld",path="/usr/lib/libc++abi.dylib",loaded_addr="0x7fff81be8000"]
(gdb)
=shlibs-added,shlib-info=[num="7",name="libcache.dylib",dyld-addr="0x7fff8b975000",reason="dyld",path="/usr/lib/system/libcache.dylib",loaded_addr="0x7fff8b975000"]
(gdb)
=shlibs-added,shlib-info=[num="8",name="libcommonCrypto.dylib",dyld-addr="0x7fff85d14000",reason="dyld",path="/usr/lib/system/libcommonCrypto.dylib",loaded_addr="0x7fff85d14000"]
(gdb)
=shlibs-added,shlib-info=[num="9",name="libcompiler_rt.dylib",dyld-addr="0x7fff86154000",reason="dyld",path="/usr/lib/system/libcompiler_rt.dylib",loaded_addr="0x7fff86154000"]
(gdb)
=shlibs-added,shlib-info=[num="10",name="libcopyfile.dylib",dyld-addr="0x7fff81ac7000",reason="dyld",path="/usr/lib/system/libcopyfile.dylib",loaded_addr="0x7fff81ac7000"]
(gdb)
=shlibs-added,shlib-info=[num="11",name="libcorecrypto.dylib",dyld-addr="0x7fff87d5d000",reason="dyld",path="/usr/lib/system/libcorecrypto.dylib",loaded_addr="0x7fff87d5d000"]
(gdb)
=shlibs-added,shlib-info=[num="12",name="libdispatch.dylib",dyld-addr="0x7fff8ea8c000",reason="dyld",path="/usr/lib/system/libdispatch.dylib",loaded_addr="0x7fff8ea8c000"]
(gdb)
=shlibs-added,shlib-info=[num="13",name="libdyld.dylib",dyld-addr="0x7fff89087000",reason="dyld",path="/usr/lib/system/libdyld.dylib",loaded_addr="0x7fff89087000"]
(gdb)
=shlibs-added,shlib-info=[num="14",name="libkeymgr.dylib",dyld-addr="0x7fff8e818000",reason="dyld",path="/usr/lib/system/libkeymgr.dylib",loaded_addr="0x7fff8e818000"]
(gdb)
=shlibs-added,shlib-info=[num="15",name="liblaunch.dylib",dyld-addr="0x7fff84936000",reason="dyld",path="/usr/lib/system/liblaunch.dylib",loaded_addr="0x7fff84936000"]
(gdb)
=shlibs-added,shlib-info=[num="16",name="libmacho.dylib",dyld-addr="0x7fff8534e000",reason="dyld",path="/usr/lib/system/libmacho.dylib",loaded_addr="0x7fff8534e000"]
(gdb)
=shlibs-added,shlib-info=[num="17",name="libquarantine.dylib",dyld-addr="0x7fff90f97000",reason="dyld",path="/usr/lib/system/libquarantine.dylib",loaded_addr="0x7fff90f97000"]
(gdb)
=shlibs-added,shlib-info=[num="18",name="libremovefile.dylib",dyld-addr="0x7fff8ccb5000",reason="dyld",path="/usr/lib/system/libremovefile.dylib",loaded_addr="0x7fff8ccb5000"]
(gdb)
=shlibs-added,shlib-info=[num="19",name="libsystem_asl.dylib",dyld-addr="0x7fff8df67000",reason="dyld",path="/usr/lib/system/libsystem_asl.dylib",loaded_addr="0x7fff8df67000"]
(gdb)
=shlibs-added,shlib-info=[num="20",name="libsystem_blocks.dylib",dyld-addr="0x7fff8621c000",reason="dyld",path="/usr/lib/system/libsystem_blocks.dylib",loaded_addr="0x7fff8621c000"]
(gdb)
=shlibs-added,shlib-info=[num="21",name="libsystem_c.dylib",dyld-addr="0x7fff83c0f000",reason="dyld",path="/usr/lib/system/libsystem_c.dylib",loaded_addr="0x7fff83c0f000"]
(gdb)
=shlibs-added,shlib-info=[num="22",name="libsystem_configuration.dylib",dyld-addr="0x7fff8fd71000",reason="dyld",path="/usr/lib/system/libsystem_configuration.dylib",loaded_addr="0x7fff8fd71000"]
(gdb)
=shlibs-added,shlib-info=[num="23",name="libsystem_coreservices.dylib",dyld-addr="0x7fff8a028000",reason="dyld",path="/usr/lib/system/libsystem_coreservices.dylib",loaded_addr="0x7fff8a028000"]
(gdb)
=shlibs-added,shlib-info=[num="24",name="libsystem_coretls.dylib",dyld-addr="0x7fff90996000",reason="dyld",path="/usr/lib/system/libsystem_coretls.dylib",loaded_addr="0x7fff90996000"]
(gdb)
=shlibs-added,shlib-info=[num="25",name="libsystem_dnssd.dylib",dyld-addr="0x7fff8b71f000",reason="dyld",path="/usr/lib/system/libsystem_dnssd.dylib",loaded_addr="0x7fff8b71f000"]
(gdb)
=shlibs-added,shlib-info=[num="26",name="libsystem_info.dylib",dyld-addr="0x7fff8b9f2000",reason="dyld",path="/usr/lib/system/libsystem_info.dylib",loaded_addr="0x7fff8b9f2000"]
(gdb)
=shlibs-added,shlib-info=[num="27",name="libsystem_kernel.dylib",dyld-addr="0x7fff81ad0000",reason="dyld",path="/usr/lib/system/libsystem_kernel.dylib",loaded_addr="0x7fff81ad0000"]
(gdb)
=shlibs-added,shlib-info=[num="28",name="libsystem_m.dylib",dyld-addr="0x7fff84953000",reason="dyld",path="/usr/lib/system/libsystem_m.dylib",loaded_addr="0x7fff84953000"]
(gdb)
=shlibs-added,shlib-info=[num="29",name="libsystem_malloc.dylib",dyld-addr="0x7fff887bd000",reason="dyld",path="/usr/lib/system/libsystem_malloc.dylib",loaded_addr="0x7fff887bd000"]
(gdb)
=shlibs-added,shlib-info=[num="30",name="libsystem_network.dylib",dyld-addr="0x7fff88304000",reason="dyld",path="/usr/lib/system/libsystem_network.dylib",loaded_addr="0x7fff88304000"]
(gdb)
=shlibs-added,shlib-info=[num="31",name="libsystem_networkextension.dylib",dyld-addr="0x7fff82085000",reason="dyld",path="/usr/lib/system/libsystem_networkextension.dylib",loaded_addr="0x7fff82085000"]
(gdb)
=shlibs-added,shlib-info=[num="32",name="libsystem_notify.dylib",dyld-addr="0x7fff8eb69000",reason="dyld",path="/usr/lib/system/libsystem_notify.dylib",loaded_addr="0x7fff8eb69000"]
(gdb)
=shlibs-added,shlib-info=[num="33",name="libsystem_platform.dylib",dyld-addr="0x7fff89ac7000",reason="dyld",path="/usr/lib/system/libsystem_platform.dylib",loaded_addr="0x7fff89ac7000"]
(gdb)
=shlibs-added,shlib-info=[num="34",name="libsystem_pthread.dylib",dyld-addr="0x7fff83ff8000",reason="dyld",path="/usr/lib/system/libsystem_pthread.dylib",loaded_addr="0x7fff83ff8000"]
(gdb)
=shlibs-added,shlib-info=[num="35",name="libsystem_sandbox.dylib",dyld-addr="0x7fff89084000",reason="dyld",path="/usr/lib/system/libsystem_sandbox.dylib",loaded_addr="0x7fff89084000"]
(gdb)
=shlibs-added,shlib-info=[num="36",name="libsystem_secinit.dylib",dyld-addr="0x7fff8e816000",reason="dyld",path="/usr/lib/system/libsystem_secinit.dylib",loaded_addr="0x7fff8e816000"]
(gdb)
=shlibs-added,shlib-info=[num="37",name="libsystem_stats.dylib",dyld-addr="0x7fff89eaf000",reason="dyld",path="/usr/lib/system/libsystem_stats.dylib",loaded_addr="0x7fff89eaf000"]
(gdb)
=shlibs-added,shlib-info=[num="38",name="libsystem_trace.dylib",dyld-addr="0x7fff8ead4000",reason="dyld",path="/usr/lib/system/libsystem_trace.dylib",loaded_addr="0x7fff8ead4000"]
(gdb)
=shlibs-added,shlib-info=[num="39",name="libunc.dylib",dyld-addr="0x7fff8ab27000",reason="dyld",path="/usr/lib/system/libunc.dylib",loaded_addr="0x7fff8ab27000"]
(gdb)
=shlibs-added,shlib-info=[num="40",name="libunwind.dylib",dyld-addr="0x7fff85cf3000",reason="dyld",path="/usr/lib/system/libunwind.dylib",loaded_addr="0x7fff85cf3000"]
(gdb)
=shlibs-added,shlib-info=[num="41",name="libxpc.dylib",dyld-addr="0x7fff88896000",reason="dyld",path="/usr/lib/system/libxpc.dylib",loaded_addr="0x7fff88896000"]
(gdb)
=shlibs-added,shlib-info=[num="42",name="libobjc.A.dylib",dyld-addr="0x7fff84f13000",reason="dyld",path="/usr/lib/libobjc.A.dylib",loaded_addr="0x7fff84f13000"]
(gdb)
=shlibs-added,shlib-info=[num="43",name="libauto.dylib",dyld-addr="0x7fff85d89000",reason="dyld",path="/usr/lib/libauto.dylib",loaded_addr="0x7fff85d89000"]
(gdb)
=shlibs-added,shlib-info=[num="44",name="libDiagnosticMessagesClient.dylib",dyld-addr="0x7fff822e1000",reason="dyld",path="/usr/lib/libDiagnosticMessagesClient.dylib",loaded_addr="0x7fff822e1000"]
```
=breakpoint-modified,bkpt={number="1",type="breakpoint",disp="keep",enabled="y",addr="0x0000000100000f4d",func="main",file="main.cpp",fullname="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/main.cpp",line="15",pending=["main.cpp:15"],times="0",original-location="main.cpp:15"}
```
(gdb)
=shlibs-added,shlib-info=[num="45",name="a.out",dyld-addr="0x100000000",reason="dyld",path="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/a.out",loaded_addr="0x100000000",dsym-objpath="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/a.out.dSYM/Contents/Resources/DWARF/a.out"]
=shlibs-added,shlib-info=[num="46",name="libc++.1.dylib",dyld-addr="0x7fff85dd0000",reason="dyld",path="/usr/lib/libc++.1.dylib",loaded_addr="0x7fff85dd0000"]
=shlibs-added,shlib-info=[num="47",name="libSystem.B.dylib",dyld-addr="0x7fff851ab000",reason="dyld",path="/usr/lib/libSystem.B.dylib",loaded_addr="0x7fff851ab000"]
=shlibs-added,shlib-info=[num="48",name="libc++abi.dylib",dyld-addr="0x7fff81be8000",reason="dyld",path="/usr/lib/libc++abi.dylib",loaded_addr="0x7fff81be8000"]
=shlibs-added,shlib-info=[num="49",name="libcache.dylib",dyld-addr="0x7fff8b975000",reason="dyld",path="/usr/lib/system/libcache.dylib",loaded_addr="0x7fff8b975000"]
=shlibs-added,shlib-info=[num="50",name="libcommonCrypto.dylib",dyld-addr="0x7fff85d14000",reason="dyld",path="/usr/lib/system/libcommonCrypto.dylib",loaded_addr="0x7fff85d14000"]
=shlibs-added,shlib-info=[num="51",name="libcompiler_rt.dylib",dyld-addr="0x7fff86154000",reason="dyld",path="/usr/lib/system/libcompiler_rt.dylib",loaded_addr="0x7fff86154000"]
=shlibs-added,shlib-info=[num="52",name="libcopyfile.dylib",dyld-addr="0x7fff81ac7000",reason="dyld",path="/usr/lib/system/libcopyfile.dylib",loaded_addr="0x7fff81ac7000"]
=shlibs-added,shlib-info=[num="53",name="libcorecrypto.dylib",dyld-addr="0x7fff87d5d000",reason="dyld",path="/usr/lib/system/libcorecrypto.dylib",loaded_addr="0x7fff87d5d000"]
=shlibs-added,shlib-info=[num="54",name="libdispatch.dylib",dyld-addr="0x7fff8ea8c000",reason="dyld",path="/usr/lib/system/libdispatch.dylib",loaded_addr="0x7fff8ea8c000"]
=shlibs-added,shlib-info=[num="55",name="libdyld.dylib",dyld-addr="0x7fff89087000",reason="dyld",path="/usr/lib/system/libdyld.dylib",loaded_addr="0x7fff89087000"]
=shlibs-added,shlib-info=[num="56",name="libkeymgr.dylib",dyld-addr="0x7fff8e818000",reason="dyld",path="/usr/lib/system/libkeymgr.dylib",loaded_addr="0x7fff8e818000"]
=shlibs-added,shlib-info=[num="57",name="liblaunch.dylib",dyld-addr="0x7fff84936000",reason="dyld",path="/usr/lib/system/liblaunch.dylib",loaded_addr="0x7fff84936000"]
=shlibs-added,shlib-info=[num="58",name="libmacho.dylib",dyld-addr="0x7fff8534e000",reason="dyld",path="/usr/lib/system/libmacho.dylib",loaded_addr="0x7fff8534e000"]
=shlibs-added,shlib-info=[num="59",name="libquarantine.dylib",dyld-addr="0x7fff90f97000",reason="dyld",path="/usr/lib/system/libquarantine.dylib",loaded_addr="0x7fff90f97000"]
=shlibs-added,shlib-info=[num="60",name="libremovefile.dylib",dyld-addr="0x7fff8ccb5000",reason="dyld",path="/usr/lib/system/libremovefile.dylib",loaded_addr="0x7fff8ccb5000"]
=shlibs-added,shlib-info=[num="61",name="libsystem_asl.dylib",dyld-addr="0x7fff8df67000",reason="dyld",path="/usr/lib/system/libsystem_asl.dylib",loaded_addr="0x7fff8df67000"]
=shlibs-added,shlib-info=[num="62",name="libsystem_blocks.dylib",dyld-addr="0x7fff8621c000",reason="dyld",path="/usr/lib/system/libsystem_blocks.dylib",loaded_addr="0x7fff8621c000"]
=shlibs-added,shlib-info=[num="63",name="libsystem_c.dylib",dyld-addr="0x7fff83c0f000",reason="dyld",path="/usr/lib/system/libsystem_c.dylib",loaded_addr="0x7fff83c0f000"]
=shlibs-added,shlib-info=[num="64",name="libsystem_configuration.dylib",dyld-addr="0x7fff8fd71000",reason="dyld",path="/usr/lib/system/libsystem_configuration.dylib",loaded_addr="0x7fff8fd71000"]
=shlibs-added,shlib-info=[num="65",name="libsystem_coreservices.dylib",dyld-addr="0x7fff8a028000",reason="dyld",path="/usr/lib/system/libsystem_coreservices.dylib",loaded_addr="0x7fff8a028000"]
=shlibs-added,shlib-info=[num="66",name="libsystem_coretls.dylib",dyld-addr="0x7fff90996000",reason="dyld",path="/usr/lib/system/libsystem_coretls.dylib",loaded_addr="0x7fff90996000"]
=shlibs-added,shlib-info=[num="67",name="libsystem_dnssd.dylib",dyld-addr="0x7fff8b71f000",reason="dyld",path="/usr/lib/system/libsystem_dnssd.dylib",loaded_addr="0x7fff8b71f000"]
=shlibs-added,shlib-info=[num="68",name="libsystem_info.dylib",dyld-addr="0x7fff8b9f2000",reason="dyld",path="/usr/lib/system/libsystem_info.dylib",loaded_addr="0x7fff8b9f2000"]
=shlibs-added,shlib-info=[num="69",name="libsystem_kernel.dylib",dyld-addr="0x7fff81ad0000",reason="dyld",path="/usr/lib/system/libsystem_kernel.dylib",loaded_addr="0x7fff81ad0000"]
=shlibs-added,shlib-info=[num="70",name="libsystem_m.dylib",dyld-addr="0x7fff84953000",reason="dyld",path="/usr/lib/system/libsystem_m.dylib",loaded_addr="0x7fff84953000"]
=shlibs-added,shlib-info=[num="71",name="libsystem_malloc.dylib",dyld-addr="0x7fff887bd000",reason="dyld",path="/usr/lib/system/libsystem_malloc.dylib",loaded_addr="0x7fff887bd000"]
=shlibs-added,shlib-info=[num="72",name="libsystem_network.dylib",dyld-addr="0x7fff88304000",reason="dyld",path="/usr/lib/system/libsystem_network.dylib",loaded_addr="0x7fff88304000"]
=shlibs-added,shlib-info=[num="73",name="libsystem_networkextension.dylib",dyld-addr="0x7fff82085000",reason="dyld",path="/usr/lib/system/libsystem_networkextension.dylib",loaded_addr="0x7fff82085000"]
=shlibs-added,shlib-info=[num="74",name="libsystem_notify.dylib",dyld-addr="0x7fff8eb69000",reason="dyld",path="/usr/lib/system/libsystem_notify.dylib",loaded_addr="0x7fff8eb69000"]
=shlibs-added,shlib-info=[num="75",name="libsystem_platform.dylib",dyld-addr="0x7fff89ac7000",reason="dyld",path="/usr/lib/system/libsystem_platform.dylib",loaded_addr="0x7fff89ac7000"]
=shlibs-added,shlib-info=[num="76",name="libsystem_pthread.dylib",dyld-addr="0x7fff83ff8000",reason="dyld",path="/usr/lib/system/libsystem_pthread.dylib",loaded_addr="0x7fff83ff8000"]
=shlibs-added,shlib-info=[num="77",name="libsystem_sandbox.dylib",dyld-addr="0x7fff89084000",reason="dyld",path="/usr/lib/system/libsystem_sandbox.dylib",loaded_addr="0x7fff89084000"]
=shlibs-added,shlib-info=[num="78",name="libsystem_secinit.dylib",dyld-addr="0x7fff8e816000",reason="dyld",path="/usr/lib/system/libsystem_secinit.dylib",loaded_addr="0x7fff8e816000"]
=shlibs-added,shlib-info=[num="79",name="libsystem_stats.dylib",dyld-addr="0x7fff89eaf000",reason="dyld",path="/usr/lib/system/libsystem_stats.dylib",loaded_addr="0x7fff89eaf000"]
=shlibs-added,shlib-info=[num="80",name="libsystem_trace.dylib",dyld-addr="0x7fff8ead4000",reason="dyld",path="/usr/lib/system/libsystem_trace.dylib",loaded_addr="0x7fff8ead4000"]
=shlibs-added,shlib-info=[num="81",name="libunc.dylib",dyld-addr="0x7fff8ab27000",reason="dyld",path="/usr/lib/system/libunc.dylib",loaded_addr="0x7fff8ab27000"]
=shlibs-added,shlib-info=[num="82",name="libunwind.dylib",dyld-addr="0x7fff85cf3000",reason="dyld",path="/usr/lib/system/libunwind.dylib",loaded_addr="0x7fff85cf3000"]
=shlibs-added,shlib-info=[num="83",name="libxpc.dylib",dyld-addr="0x7fff88896000",reason="dyld",path="/usr/lib/system/libxpc.dylib",loaded_addr="0x7fff88896000"]
=shlibs-added,shlib-info=[num="84",name="libobjc.A.dylib",dyld-addr="0x7fff84f13000",reason="dyld",path="/usr/lib/libobjc.A.dylib",loaded_addr="0x7fff84f13000"]
=shlibs-added,shlib-info=[num="85",name="libauto.dylib",dyld-addr="0x7fff85d89000",reason="dyld",path="/usr/lib/libauto.dylib",loaded_addr="0x7fff85d89000"]
=shlibs-added,shlib-info=[num="86",name="libDiagnosticMessagesClient.dylib",dyld-addr="0x7fff822e1000",reason="dyld",path="/usr/lib/libDiagnosticMessagesClient.dylib",loaded_addr="0x7fff822e1000"]
(gdb)
*stopped,reason="breakpoint-hit",disp="del",bkptno="1",frame={addr="0x0000000100000f4d",func="main",args=[{name="argc",value="1"},{name="argv",value="0x00007fff5fbffed8"}],file="main.cpp",fullname="/Users/chuckr/llama/llvm/tools/lldb/test/tools/lldb-mi/main.cpp",line="15"},thread-id="1",stopped-threads="all"
(gdb)
```
Reviewers: abidh, clayborg, ChuckR, jingham
Subscribers: ki.stfu, paulmaybee, lldb-commits
Differential Revision: http://reviews.llvm.org/D8847
llvm-svn: 234483
Modify all read/write calls to allow any system to define MAX_READ_SIZE or MAX_WRITE_SIZE so large reads and writes can be divided up correctly.
<rdar://problem/20471411>
llvm-svn: 234455
Summary:
If a struct type S has a member T that has a member that is a function that
returns a typedef of S* the respective field would be duplicated, which caused
an assert down the line in RecordLayoutBuilder. This patch adds a check that
removes the possibility of trying to resolve the same type twice within the
same callstack.
This commit also adds unit tests for these failures.
Fixes https://llvm.org/bugs/show_bug.cgi?id=20486.
Patch by Cristian Hancila.
Test Plan: Run unit tests.
Reviewers: clayborg spyffe
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8561
llvm-svn: 234441
Summary:
E.g., if thread 1 hits a breakpoint, then a `thread info` on thread 2 will cause
a segfault, since thread 2 will have no stop info (intended behavior?).
Reviewers: kubabrecka, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8905
llvm-svn: 234437
The OperatingSystem plug-ins allow code to detect threads in memory and then say "memory thread 0x11111" is backed by the actual thread 1.
You can then single step these virtual threads. A problem arose when thread specific breakpoints were used during thread plans where we would say "set a breakpoint on thread 0x11111" and we would hit the breakpoint on the real thread 1 and the thread IDs wouldn't match and we would get rid of the "stopped at breakpoint" stop info due to this mismatch. Code was added to ensure these events get forwarded and thus allow single stepping a memory thread to work correctly.
Added a test case for this as well.
<rdar://problem/19211770>
llvm-svn: 234364
Summary:
ConnectionFileDescriptor::Read was returning eConnectionStatusError instead of 0
on m_shutting_down, which caused the caller to think that some number of bytes
were read.
Reviewers: jingham, vharron, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8850
llvm-svn: 234341
in a session would be silently ignored by the compiler
because the compiler looked at its SourceLocation and
decided it had already handled it.
Also updated the relevant test case.
<rdar://problem/20315447>
llvm-svn: 234330
ELF symbol tables on aarch64 may contains some mapping symbols. They
provide information about the underlying data but interfere with symbol
look-up of lldb. They are already ignored on arm32. With this CL they
will be ignored on aarch64 also.
Differential revision: http://reviews.llvm.org/D8776
llvm-svn: 234307
Summary:
"command alias" can add invalid options to the command. "command alias start process launch -s" will add an extra argument, "<no-argument>" to the alias, so it runs "process launch -s <no-argument>", which launches the process with args that include "<no-argument>".
This patch changes the text compare of the variable value with "<OptionParser::eNoArgument>" to a compare of variable value_type with OptionParser::eNoArgument. It also moves the previous test inside the if, so it won't add a trailing space if there is no argument.
Reviewers: clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8844
llvm-svn: 234244
This used to be the case for "printf" before a function prototype was added to the builtin expression prefix file. This fix makes sure that if we get a mangled name that we don't find in the current target, that we only fall back to looking up function by basename if the function isn't contained in a namespace or class (no decl context).
llvm-svn: 234178
The FreeBSD debug register access is a little usual, but in any case
different from Linux. As it stands it's not possible to share an
implementation of DR_OFFSET, so revert that part of r233837 and provide
a separate FreeBSD and Linux implementation.
We'll still want a better fix, but this should restore basic
functionality (and the buildbot).
llvm-svn: 234048
verifying that the types from that module don't
override types from DWARF. Also added a target setting
to LLDB so we can tell Clang where to look for these
local modules.
<rdar://problem/18805055>
llvm-svn: 234016
There were a couple of real bugs here regarding error checking and
signed/unsigned comparisons, but mostly these were just noise.
There was one class of bugs fixed here which is particularly
annoying, dealing with MSVC's non-standard behavior regarding
the underlying type of enums. See the comment in
lldb-enumerations.h for details. In short, from now on please use
FLAGS_ENUM and FLAGS_ANONYMOUS_ENUM when defining enums which
contain values larger than can fit into a signed integer.
llvm-svn: 233943
Guard against this by setting a new "m_finalizing" flag that lets us know we are in the process of finalizing.
<rdar://problem/20369152>
llvm-svn: 233935
files. Before we'd give up if we found a .o that doesn't have
DWARF associated with it; now we iterate through them all.
Also made this iteration a higher-order function so that people
don't have to remember to do this right.
<rdar://problem/20261196>
llvm-svn: 233838
Summary:
The implementation of GDBRemoteRegisterContext relies on byte offsets to cache
register values. GPR, FPR, etc. should start on different offsets. This is
correctly done in debugserver (in DNBArchImplX86_64.cpp), but not on Linux or
FreeBSD (in RegisterInfos_x86_64.h).
Test Plan: `register read st0` no longer overwrites `rbp` on Linux with LLGS.
Reviewers: sivachandra, jingham, emaste, ovyalov, clayborg
Reviewed By: clayborg
Subscribers: emaste, lldb-commits
Differential Revision: http://reviews.llvm.org/D8685
llvm-svn: 233837
The underlying type of wchar_t is not defined by the standard. This CL
add logic to correctly use the type specified for the current target
based on TargetInfo.
llvm-svn: 233795
In an effort to reduce binary size for components not wishing to
link against all of LLDB, as well as a parallel effort to reduce
link dependencies on Python, this patch splits out the notion of
LLDB initialization into "full" and "common" initialization.
All code related to initializing the full LLDB suite lives directly
in API now. Previously it was only referenced from API, but because
it was defined in lldbCore, it would get implicitly linked against
by everything including lldb-server, causing a considerable
increase in binary size.
By moving this to the API layer, it also creates a better layering
for the ongoing effort to make the embedded interpreter replacable
with one from a different language (or even be completely removeable).
One semantic change necessary to get this all working was to remove
the notion of a shared debugger refcount. The debugger is either
initialized or uninitialized now, and calling Initialize() multiple
times will simply have no effect, while the first Terminate() will
now shut it down no matter how many times Initialize() was called.
This behaves nicely with all of our supported usage patterns though,
and allows us to fix a number of nasty hacks from before.
Differential Revision: http://reviews.llvm.org/D8462
llvm-svn: 233758
I am fixing this by:
1 - make sure we aren't trying to set the symbol file for a module to the same thing it already has and leaving it alone if it is the same
2 - keep all old symbol files around in the module in case there are any outstanding type references
<rdar://problem/18029116>
llvm-svn: 233757
A char can have signed and unsigned encoding but previously lldb always
assumed it is signed. This CL adds a logic to detect the encoding of
'char' types based on the default encoding on the target architecture.
It fixes variable printing and expression evaluation on architectures
where 'char' is signed by default.
Differential revision: http://reviews.llvm.org/D8636
llvm-svn: 233682
lldb-platform's listener socket only had a backlog of one connection.
That means that if more than one client connected simultaneously, the
connection would be refused. The test suite can be run remotely with
dozens of threads connecting simultaneously. Raised this limit to 100
to effectively eliminate lost connections.
Test Plan:
run tests against a remote target
Differential Revision: http://reviews.llvm.org/D8696
llvm-svn: 233652
Summary:
This is similar to the change introduced for variable DIEs in r233098. If the
linkage names of functions are missing in the DWARF, then their fully qualified
names (similar to the name that would be got by demangling their linkage name)
is generated using the decl context.
This change fixes TestNamespace when the test case is compiled with GCC, hence
it is enabled for GCC. The test and the test case are also enhanced to cover
variadic functions.
Test Plan: dotest.py -C <clang|gcc> -p TestNamespace
Reviewers: clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8623
llvm-svn: 233336
When no hijack listener is set up, the global event listener will
try to pull events off the queue, racing with the event thread.
By always forcing a hijack listener, even when one was not given,
we guarantee that the listener always gets all events.
This was causing problems in synchronous mode with the process
stop event sometimes never being picked up and causing the debugger
to hang while processing a .lldbinit file.
Reviewed by: Jim Ingham
Differential Revision: http://reviews.llvm.org/D8562
llvm-svn: 233315
Summary:
This should always be true but sometimes is not, during platform bring
up. As recommended by Jim Ingham, an assertion should be enough here to
help.
This addresses post commit comments in http://reviews.llvm.org/D8554.
Test Plan: Run unit tests.
Reviewers: jasonmolenda, emaste, jingham, clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8574
llvm-svn: 233298
Summary:
This patch fixes -gdb-exit for locally target. It includes the following changes:
# Fix Process::Finalize
# Use SBProcess::Destroy in -gdb-exit
Reviewers: abidh, zturner, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits, clayborg, abidh
Differential Revision: http://reviews.llvm.org/D8298
llvm-svn: 233255
Adds the --server argument to lldb-server platform which when specified will allow multiple simultaneous connections by forking off to handle each individual connection. This will allow us to run the remote tests in parallel.
Test Plan:
Run: lldb-server platform --listen *:1234 --server
Connect from multiple lldb clients simultaneously.
I will also test running the test suite remotely with multiple simultaneous jobs.
Differential Revision: http://reviews.llvm.org/D8452
llvm-svn: 233185
Gcc for android use the leal instruction to substract from the stack
pointer in the prologue of a function call. This patch add basic support
for evaluating this instruction to support stack unwinding on
android-x86.
Differential revision: http://reviews.llvm.org/D8583
llvm-svn: 233178
The automatic conversion from long int to lldb::addr_t caused sign
extension but for a register read it is an unwanted behaviour. Fix with
forcing different conversion path.
llvm-svn: 233176
Summary:
Fixes http://reviews.llvm.org/D8511
The original method of using dladdr() could return the incorrect relative
path if not dynamically linked against liblldb and the working directory
has changed. This is not a problem when built with python, since
ScriptInterpreterPython::InitializePrivate calls
HostInfo::GetLLDBPath(ePathTypeLLDBShlibDir, ...) and caches the
correct path before any changes to the working directory.
The /proc/self/exe approach fails if run using Python, but works for all other
cases (including for android, which doesn't have dladdr()).
So if we combine the two, we should reasonably cover all corner cases.
Reviewers: vharron, ovyalov, clayborg
Reviewed By: ovyalov, clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8570
llvm-svn: 233129
Since ClangASTSource::layoutRecordType() was overriding a virtual
function in the base, this was inadvertently causing a new method
to be introduced rather than an override. To fix this all method
signatures are changed back to taking DenseMaps, and the `override`
keyword is added to make sure this type of error doesn't happen
again.
To keep the original fix intact, which is that fields and bases
must be added in offset order, the ImportOffsetMap() function
now copies the DenseMap into a vector and then sorts the vector
on the value type (e.g. the offset) before iterating over the
sorted vector and inserting the items.
llvm-svn: 233099
Summary:
This commit adds this alternate route only when parsing variable dies
corresponding to global or static variables. The motivation for this is that GCC
does not emit linkage names for functions and variables declared/defined in
anonymous namespaces. Having this alternate route fixes one part of
TestNamespace which fails when the test case is compiled with GCC.
An alternate route to get fully qualified names of functions whose linkage names
are missing will be added with a followup change. With that, the other failing
part of TestNamespace will also be fixed.
Test Plan: dotest.py -C gcc -p TestNamespace
Reviewers: clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8569
llvm-svn: 233098
Prior to this patch, we would try to synthesize class types by
iterating over a DenseMap of FieldDecls and adding each one to
a CXXRecordDecl. Since a DenseMap doesn't provide a deterministic
ordering of the elements, this would not add the fields in
FieldOffset order, but rather in some random order determined by
the memory layout of the DenseMap.
This patch fixes the issue by changing DenseMaps to vectors. The
ability to lookup a value in the DenseMap was hardly being used,
and where it is sufficient to do a vector lookup.
Differential Revision: http://reviews.llvm.org/D8512
llvm-svn: 233090
This includes following:
# Add a missing Process argument when calling GetSharedModule in DynamicLoaderDarwinKernel::KextImageInfo::LoadImageUsingMemoryModule
# Fix PlatformDarwinKernel::GetSharedModule prototype
llvm-svn: 233084
Previously the remote module sepcification was fetched only from the
remote platform. With this CL if we have a remote process then we ask it
if it have any information from a given module. It is required because
on android the dynamic linker only reports the name of the SO file and
the platform can't always find it without a full path (the process can
do it based on /proc/<pid>/maps).
Differential revision: http://reviews.llvm.org/D8547
llvm-svn: 233061
Summary:
Saw this while reading some code in DynamicLoader classes. Looks like this has
been a FIXME since 2011 at least.
Test Plan: Run unit tests.
Reviewers: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8558
llvm-svn: 232983
Summary:
This has been discovered while experimenting with the gecko linker on android.
In general, assert()'ing on "user input" is a bad idea.
Test Plan: Run unit tests.
Reviewers: clayborg, tfiala
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8495
llvm-svn: 232966
The latter is uint64_t beacuse lldb supports arbitrary pid/platforms
but in this case we're using it as return value for fork() which might
return -1 to the parent in case the syscall fails.
Differential Revision: http://reviews.llvm.org/D8491
llvm-svn: 232926
Summary:
Previously lldb-mi contains a stub for that but it didn't work and all CommanInterpreter's events were ignored.
This commit adds a handling of CommandInterpreter's events in lldb-mi.
Steps:
# Fix CMICmnLLDBDebugger::InitSBListener
# Add SBCommandInterpreter::EventIsCommandInterpreterEvent
# Exit on lldb::SBCommandInterpreter::eBroadcastBitQuitCommandReceived
All tests pass on OS X.
In further we can remove "quit" hack in lldb-mi.
Test Plan:
# Create start_script file:
```
target create ~/p/hello
b main
r
quit
```
# Run lldb-mi --interpreter
# Execute start_script file by following command:
```
-interpreter-exec console "command source start_script"
```
Log:
```
$ bin/lldb-mi --interpreter
(gdb)
-interpreter-exec console "command source start_script"
Executing commands in '/Users/IliaK/p/llvm/build_ninja/start_script'.
(lldb) target create ~/p/hello
Current executable set to '~/p/hello' (x86_64).
(lldb) b main
Breakpoint 1: where = hello`main + 29 at hello.cpp:12, address = 0x0000000100000e2d
(lldb) r
Process 1582 launched: '/Users/IliaK/p/hello' (x86_64)
(lldb) quit
^done
(gdb)
=thread-created,id="1",group-id="i1"
=thread-selected,id="1"
(gdb)
=shlibs-added,shlib-info=[num="1",name="hello",dyld-addr="-",reason="dyld",path="/Users/IliaK/p/hello",loaded_addr="-",dsym-objpath="/Users/IliaK/p/hello.dSYM/Contents/Resources/DWARF/hello"]
...
=shlibs-added,shlib-info=[num="132",name="libDiagnosticMessagesClient.dylib",dyld-addr="0x7fff91705000",reason="dyld",path="/usr/lib/libDiagnosticMessagesClient.dylib",loaded_addr="0x7fff91705000"]
(gdb)
*stopped,reason="breakpoint-hit",disp="del",bkptno="1",frame={addr="0x100000e2d",func="main",args=[{name="argc",value="1"},{name="argv",value="0x00007fff5fbffc88"}],file="hello.cpp",fullname="/Users/IliaK/p/hello.cpp",line="12"},thread-id="1",stopped-threads="all"
(gdb)<press Enter>
MI: Program exited OK
```
Reviewers: abidh, clayborg
Reviewed By: abidh
Subscribers: jingham, lldb-commits, clayborg, abidh
Differential Revision: http://reviews.llvm.org/D8382
llvm-svn: 232891
Summary:
ComputeSupportExeDirectory relied on ComputeSharedLibraryDirectory which was
not always reliable. Using procfs seems to be the best way to deal with it on
Linux (since it's already done on Android, might as well merge it).
Reviewers: ovyalov
Reviewed By: ovyalov
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8511
llvm-svn: 232883
Test Plan: No tests, this is just a debug logging function.
Reviewers: tberghammer
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8453
llvm-svn: 232815
Summary:
Presently, if a log file already exists, lldb simply starts overwriting bits of it, without
truncating or anything. This patch makes it use eFileOptionFileTruncate by default. It also adds
an --append option, which will append to the file without truncating. A test is included.
Reviewers: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8450
llvm-svn: 232801
This creates a new top-level folder called Initialization which
is intended to hold code specific to LLDB system initialization.
Currently this holds the Initialize() and Terminate() functions,
as well as the fatal error handler.
This provides a means to break the massive dependency cycle which
is caused by the fact that Debugger depends on Initialize and
Terminate which then depends on the entire LLDB project. With
this structure, it will be possible for applications to invoke
lldb_private::Initialize() directly, and have that invoke
Debugger::Initialize.
llvm-svn: 232768
Summary:
sc.block->AppendVariables(...) returns 0 if there are no arguments or local
variables, but we still need to check for global variables.
Test Plan:
```
$ cat test.cpp
int i;
int main() {
}
$ lldb test -o 'b main' -o r
(lldb) script
>>> print lldb.frame.FindValue('i', lldb.eValueTypeVariableGlobal)
(int) i = 0 # as opposed to "No value"
```
Reviewers: jingham, ovyalov, vharron, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8464
llvm-svn: 232767
Some application on Linux an all application on android close stdout and
stderr during the libc exit stage. Previously the master file descriptor
of the pseudo terminal used to communicate with the inferior was closed
on an EOF causing a race condition and a possible SIGHUP on process
exit. After this change the master file descriptor will be closed by the
destructor of the GDBRemoteCommunicationServerLLGS class.
Differential revision: http://reviews.llvm.org/D8436
llvm-svn: 232724
Specifically, there were some functions for converting enums
to strings and a function for matching a string using a specific
matching algorithm. This moves those functions to more appropriate
headers in lldb/Utility and updates references to include the
new headers.
llvm-svn: 232673
So that we don't have to update every single #include in the entire
codebase to #include this new header (which used to get included by
lldb-private-log.h, we automatically #include "Logging.h" from
within "Log.h".
llvm-svn: 232653
This moves the conversion of the open options to the target platform. On mac fcntl.h has different values for O_CREAT and O_TRUNC than on linux so by transmitting the standardized lldb open options we can correctly convert them on the target platform.
Test Plan:
On linux:
lldb-server p --listen *:1234
On mac:
lldb
platform select remote-linux
platform connect connect://ip-of-linux-box:1234
target create ~/path/to/linux/binary
b main
process launch
Binary is successfully pushed to linux remote, process successfully launches and break in the main method.
Differential Revision: http://reviews.llvm.org/D8395
llvm-svn: 232634
In android a .note.android.ident section header is added to the elf
files to provide information for the debuggers that it is an android
specific module. This CL add logic to parse it out from the elf files
and set the module specification based on it.
Differential revision: http://reviews.llvm.org/D8377
llvm-svn: 232625
Summary:
This is initial implementation of assembly profiler which only scans prologue/epilogue assembly instructions to create CFI instructions.
Reviewers: clayborg, jasonmolenda
Differential Revision: http://reviews.llvm.org/D7696
llvm-svn: 232619
Summary:
The existing formatter in C++ has been removed as it was not being used.
The associated test TestDataFormatterStdVBool.py has been enabled for
both Clang and GCC on Linux.
Test Plan: dotest.py -p TestDataFormatterStdVBool
Reviewers: vharron, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8390
llvm-svn: 232548
This removes ScriptInterpreterObject from the codebase completely.
Places that used to rely on ScriptInterpreterObject now use
StructuredData::Object and its derived classes. To support this,
a new type of StructuredData object is introduced, called
StructuredData::Generic, which stores a void*. Internally within
the python library, StructuredPythonObject subclasses this
StructuredData::Generic class so that it can addref and decref
the python object on construction and destruction.
Additionally, all of the classes in PythonDataObjects.h such
as PythonList, PythonDictionary, etc now provide a method to
create an instance of the corresponding StructuredData type. For
example, there is PythonDictionary::CreateStructuredDictionary.
To eliminate dependencies on PythonDataObjects for external
callers, all ScriptInterpreter methods now return only
StructuredData classes
The rest of the changes in this CL are focused on fixing up
users of PythonDataObjects classes to use the new StructuredData
classes.
llvm-svn: 232534
# Fix CommandInterpreter.Broadcaster name (it should be the same as CommandInterpreter::GetStaticBroadcasterClass())
# Prevent the same error in Process.Broadcaster
# Fix SBCommandInterpreter::GetBroadcasterClass (it should call CommandInterpreter::GetStaticBroadcasterClass(), was Communication::GetStaticBroadcasterClass())
llvm-svn: 232500
Some linux kernel reports a watchpoint hit after single stepping even
when no watchpoint was hit. This CL looks for a watchpoint which was hit
and reports a stop by trace if it haven't found any.
Differential revision: http://reviews.llvm.org/D8081
llvm-svn: 232482
Summary:
Also, change its return type to size_t to match the return types of
its callers.
With this change, std::vector and std::list data formatter tests
pass on Linux (when using libstdc++) with clang as well as with gcc.
These tests have also been enabled in this patch.
Test Plan: dotest.py -p <TestDataFormatterStdVector|TestDataFormatterStdList>
Reviewers: vharron, clayborg
Reviewed By: clayborg
Subscribers: zturner, lldb-commits
Differential Revision: http://reviews.llvm.org/D8337
llvm-svn: 232399
A recent refactor had introduced a bug where if you escaped a
character, the rest of the string would get processed incorrectly.
This patch fixes that bug and adds some unit tests for Args.
llvm-svn: 232288
Sigh. There's really not a good alternative until we decouple
python from lldb better. The only way the build works right now
is by having every executable link against every LLDB library.
This causes implicit transitive link dependencies on the union
of everything that LLDB brings in. Which means that if all we
want is one header file from interpreter, we have to bring in
everything, including everything that everything depends on,
which means python.
There's outstanding efforts to address this, but it's not yet
complete. So until then, this is all we can do.
llvm-svn: 232287
* On Android (at least on platfrom-21 x86) the dynamic linker reports the
executable with its full path
* Use the platform path of the executable when storing it into the cache
(used to identify the SO entry for the executable) as this is the path
what will be reported by the dynamic linker. If the platform path isn't
set (local debugging) then it falls back to the normal file path.
Differential revision: http://reviews.llvm.org/D8296
llvm-svn: 232158
Fill in the missing part of the architecture in GetProcessInfo from the
HostArchitecture (e.g. Environment).
Differential revision: http://reviews.llvm.org/D8292
llvm-svn: 232157
The file path is currently required on android because the executables
only contain the name of the system libraries without their path. This
CL add an extra field to the qModuleInfo packet to return the full path
of a modul and add logic to locate a shared module on android.
Differential revision: http://reviews.llvm.org/D8221
llvm-svn: 232156
This CL change the logic used to terminate the monitor thread of
NativeProcessLinux to use a signal instead of pthread_cancel as
pthread_cancel is not supported on android.
Differential revision: http://reviews.llvm.org/D8205
llvm-svn: 232155
Previously it was fetched only if the architecture isn't valid, but the
architecture can be valid without containing all information about the
current target (e.g. missing os).
Differential revision: http://reviews.llvm.org/D8057
llvm-svn: 232153
Summary:
SymbolFileDWARF was not respecting the include_inlines argument in function lookup in all code
paths. This resulted in an attempt to call an inlined function during expression evaluation,
which is impossible, and usually resulted in a segfault in the inferior. This patch makes sure
include_inlines is respected in all code paths.
Reviewers: clayborg
Subscribers: lldb-commits, sivachandra
Differential Revision: http://reviews.llvm.org/D8286
llvm-svn: 232151
This works by creating a command backed by a class whose interface should - at least - include
def __init__(self, debugger, session_dict)
def __call__(self, args, return_obj, exe_ctx)
What works:
- adding a command via command script add --class
- calling a thusly created command
What is missing:
- support for custom help
- test cases
The missing parts will follow over the next couple of days
This is an improvement over the existing system as:
a) it provides an obvious location for commands to provide help strings (i.e. methods)
b) it allows commands to store state in an obvious fashion
c) it allows us to easily add features to script commands over time (option parsing and subcommands registration, I am looking at you :-)
llvm-svn: 232136
Summary:
There was a race condition regarding the output of the inferior process. The reading of the
output is performed on a separate thread, and there was no guarantee that the output will get
eventually consumed. Because of that, it was happening that calling Process::GetSTDOUT was not
returning anything even though the process was terminated and would definitely not produce any
further output. This was usually happening only under very heavy system load, but it can be
reproduced by placing an usleep in the stdio thread (Process::STDIOReadThreadBytesReceived).
This patch addresses this by adding synchronization capabilities to the Communication thread.
After calling Communication::SynchronizeWithReadThread one can be sure that all pending input has
been processed by the read thread. This function is then called after every public event which
stops the process to obtain the entire process output.
Test Plan: TestProcessIO.py should now succeed every time instead of flaking in and out.
Reviewers: clayborg, jingham
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8246
llvm-svn: 232023
Summary:
This patch fixes SDK selection in the following case:
```
platform select remote-ios --sysroot "/Users/IliaK/Library/Developer/Xcode/iOS DeviceSupport/8.1.2 (12B440)" --build 12B440 --version 8.1.2
target create --arch arm64 "~/Project1.app"
```
Currently the lldb selects a first SDK version (in name order) in directory and then updates it after the device is connected. This approach ignores user's arguments and actually "platform select" command doesn't make sense.
After this patch, lldb takes a SDK which matches to user's arguments.
Reviewers: jasonmolenda, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits, clayborg, jasonmolenda, aemerson
Differential Revision: http://reviews.llvm.org/D8249
llvm-svn: 232017
This was previously initialized by ProcessGDBRemote::Initialize but lldb-server does not contain ProcessGDBRemote anymore so this needs to be initialized directly.
Differential Revision: http://reviews.llvm.org/D8186
llvm-svn: 231966
In http://reviews.llvm.org/D7880 the initialization for LLGS was separated out so that LLGS could initialize only the components it needs to. This further reduces the set of components initialized for LLGS.
Differential Revision: http://reviews.llvm.org/D8112
llvm-svn: 231964
Summary:
ProcessGDBRemote::AsyncThread nuked its own thread handle upon exiting. This prevented the main
thread from joining it correctly in StopAsyncThread. I address this by moving the Reset() call to
StopAsyncThread, after the join.
Reviewers: clayborg, zturner
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8218
llvm-svn: 231915
kernel debug session, instead of issuing a warning (which on one ever
sees), drop the user-specified kernel binary Module from the target and
try to discover the correct one dynamically.
<rdar://problem/19450329>
llvm-svn: 231885
After http://reviews.llvm.org/D8133 landed as r231550 process launch on remote platform stopped working.
This adds Debugger::InitializeForLLGS and tracks whether one or both of Initialize and InitializeForLLGS have been called, calling only the corresponding lldb_private::Terminate* methods as necessary. Since lldb_private::Terminate calls lldb_private::TerminateForLLGS, the latter method may be called twice if Initialize was called for both however the terminate methods ensure they are only called once after being initialized.
This still maintains the reduced binary size, though it does now technically link in lldb_private::Terminate on lldb-server even though this should never be called.
This should resolve the issue raised in http://reviews.llvm.org/D8133 where Debugger::Terminate assumed that there were 0 references to debugger and terminated early.
Differential Revision: http://reviews.llvm.org/D8183
llvm-svn: 231808
The issue can happen if you strip your main executable and then run an expression and it would fail to find the stripped symbol and it would then not be able to make the function call. The issue was fixed by doing our normal FindFunctions call.
<rdar://problem/20072750>
llvm-svn: 231667
Thic change have effect wehn the AVX registers aren't available with
reporting the count of user registers without them.
Differential revision: http://reviews.llvm.org/D8111
llvm-svn: 231638
Linux configure+make builds have ~175 tests failing that aren't
failing in cmake builds. The tests have error messages like
"'a.out' doesn't contain the architecture x86-64" ObjectFileELF
plugin wasn't loaded when this message was output.
I found ScriptInterpreterPython::InitializePrivate() is calling
Debugger::Terminate(), which terminates ObjectFileELF (and lots
of other stuff) setup earlier in the InitializeForLLGS.
So I moved python Init/Term from Init/TermForLLGS to Init/Term
llvm-svn: 231550
This means you can set an expression prefix file with:
(lldb) settings set target.expr-prefix /tmp/to/prefix.txt
And you can run an expression and modify your expression prefix file in another editor without having to type:
(lldb) settings set target.expr-prefix /tmp/to/prefix.txt
again...
<rdar://problem/12155942>
llvm-svn: 231535
This removes Host::Backtrace from the codebase, and changes all
call sites to use llvm::sys::PrintStackTrace(). This makes the
functionality available for all platforms, and even for platforms
which currently had a supported implementation of Host::Backtrace,
this patch should enable richer information in stack traces, such
as file and line number information, as well as giving it the
ability to unwind through inlined functions.
llvm-svn: 231511
- use a hardcoded formatter to match all vector types, and make it so that their element type is taken into account when doing default formatting
- special case a vector of char to display byte values instead of characters by default
Fixes the test failures Ilia was seeing
llvm-svn: 231504
Previously it was initialized by ProcessLinux but lldb-server don't
contain ProcessLinux anymore so it have to be initialized by
NativeProcessLinux also.
Differential revision: http://reviews.llvm.org/D8080
llvm-svn: 231482
Summary:
starting a debug session on linux with -o "process launch" lldb parameter was failing since
Target::Launch (in sychronous mode) is expecting to be able to receive public process events.
However, PlatformLinux did not set up event hijacking on process launch, which caused these
events to be processed elsewhere and left Target::Launch hanging. This patch enables event
interception in PlatformLinux (which was commented out).
Upon enabling event interception, I noticed an issue, which I traced back to the inconsistent
state of public run lock, which remained false even though public and private process states were
"stopped". I addressed this by making sure the run lock is "stopped" upon exit from
WaitForProcessToStop (which already had similar provisions for other return paths).
Test Plan: This should fix the intermittent TestFormats failure we have been experiencing on Linux.
Reviewers: jingham, clayborg, vharron
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8079
llvm-svn: 231460
Unlike GDB, we tackle the problem of representing vector types in different styles by having a synthetic child provider that recognizes the format you're trying to apply to the variable, and coming up with the right type and number of child values to match that format
This makes for a more compact representation and less visual noise
Fixes rdar://5429347
llvm-svn: 231449
This is a temporary fix until a more comprehensive fix can be made for finding functions that we call in expressions.
We find "NSLog" in ClangExpressionDeclMap::FindExternalVisibleDecls() in after a call to target->GetImages().FindFunctions(...). Note that there are two symbols: NSLog from CFNetwork which is not external, and NSLog from Foundation which _is_ external. We do something with the external symbol with:
if (extern_symbol)
{
AddOneFunction (context, NULL, extern_symbol, current_id);
context.m_found.function = true;
}
Then later we try to lookup the _Z5NSLogP8NSStringz name and we don't find it so we call ClangExpressionDeclMap::GetFunctionAddress() with "_Z5NSLogP8NSStringz" as the name and the sc_list_size is zero at the "if" statement at line 568 because we don't find the mangled name and we extract the basename "NSLog" and call:
FindCodeSymbolInContext(ConstString(basename), m_parser_vars->m_sym_ctx, sc_list);
sc_list_size = sc_list.GetSize();
and we get a list size of two again, and we proceed to search for the symbol again, this time ignoring the external vs non-external-ness of the symbols that we find. This fix ensures we prioritize the external symbol until we get a real fix from Sean Callanan when he gets back to make sure we don't do multiple lookups for the same symbol we already resolved.
<rdar://problem/19879282>
llvm-svn: 231420
operator in addition to the vendor-extension DW_OP_GNU_push_tls_address.
clang on PS4 and Darwin will be emitting the standard opcode
as of r231286 via http://reviews.llvm.org/D8018
Behavior of this standard opcode is the same as
DW_OP_GNU_push_tls_address.
<rdar://problem/20043195>
llvm-svn: 231342
We would like it if LLDB never crashed, especially if we never caused LLDB to crash
On the other hand, having assertions can sometimes be useful
lldbassert(x) is the best of both worlds:
- in debug builds, it turns into a regular assert, which is fine because we don't mind debug LLDB to crash on development machines
- in non-debug builds, it emits a message formatted just like assert(x) would, but then instead of crashing, it dumps a backtrace, suggests filing a bug, and keeps running
llvm-svn: 231310
Setting it from the Target architecture cause problems when the target
archiutecture is filled just by examining the executable because in that
case the OS isn't set.
Differential revision: http://reviews.llvm.org/D8035
llvm-svn: 231234
The deadlock occurred when the Attach or the Launch operation failed for
any reason.
Differential revision: http://reviews.llvm.org/D8030
llvm-svn: 231231
Summary:
Symbol table generation code was failing to take into account the debug symbols because
the object file was looking only into its own section list when doing the generation, even though
the debug symbols from another object file were correctly detected and loaded by the
SymbolVendor. This changes the code to use the unified section list, which fixes this problem.
Test Plan:
I do not intend do submit this yet since it causes (or more like, exposes) the issue
in D7884, but I wanted to put this out here, so that anyone who wants to take a look at it can do
so. (And I also wanted to know if this is the right approach to the problem :).
Reviewers: clayborg, zturner
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7913
llvm-svn: 231229
Summary:
Symbols in ELF files can be versioned, but LLDB currently does not understand these. This problem
becomes apparent once one loads glibc with debug info. Here (in the .symtab section) the versions
are embedded in the name (name@VERSION), which causes issues when evaluating expressions
referencing memcpy for example (current glibc contains memcpy@@GLIBC_2.14 and
memcpy@GLIBC_2.2.5).
This problem was not evident without debug symbols as the .dynsym section
stores the bare names and the actual versions are present in a separate section (.gnu.version_d),
which LLDB ignores. This resulted in two definitions of memcpy in the symbol table.
This patch adds support for storing annotated names to the Symbol class. If
Symbol.m_contains_linker_annotations is true then this symbol is annotated. Unannotated name can
be obtained by calling StripLinkerAnnotations on the corresponding ObjectFile. ObjectFileELF
implements this to strip @VERSION suffixes when requested. Symtab uses this function to add the
bare name as well as the annotated name to the name lookup table.
To preserve the size of the Symbol class, I had to steal one bit from the m_type field.
Test Plan:
This fixes TestExprHelpExamples.py when run with a glibc with debug symbols. Writing
an environment agnostic test case would require building a custom shared library with symbol
versions and testing symbol resolution against that, which is somewhat challenging.
Reviewers: clayborg, jingham
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D8036
llvm-svn: 231228
Debugger.h is a huge file that gets included everywhere, and
FormatManager.h brings in a ton of unnecessary stuff and doesn't
even use anything from it in the header.
llvm-svn: 231161
This continues the effort to reduce header footprint and improve
build speed by removing clang and other unnecessary headers
from Target.h. In one case, some headers were included solely
for the purpose of declaring a nested class in Target, which was
not needed by anybody outside the class. In this case the
definition and implementation of the nested class were isolated
in the .cpp file so the header could be removed.
llvm-svn: 231107
This is part of a larger effort to reduce header file footprints.
Combined, these patches reduce the build time of LLDB locally by
over 30%. However, they touch many files and make many changes,
so will be submitted in small incremental pieces.
Reviewed By: Greg Clayton
Differential Revision: http://reviews.llvm.org/D8022
llvm-svn: 231097
* Add missing functionality to the process launcher
* Fixup PATH environment variable to workaround an OS bug
* Add default shell path to the host info structure
Differential revision: http://reviews.llvm.org/D8009
llvm-svn: 231065
Separate out the necessary component initialization for lldb-server such that the linker can greatly reduce the binary size. With this patch the size of lldb-server on my 64 bit linux release build drops from 46MB to 26MB.
Differential Revision: http://reviews.llvm.org/D7880
llvm-svn: 230963
Summary:
Presently Args::SetCommandString allows quotes to be escaped with backslash. However, the
backslash itself is not removed from the argument, nor there is a way to escape the backslash
itself. This leads to surprising results:
"a b" c" -> 'a b', 'c' # Here we actually have an unterminated quote, but that is ignored
"a b\" c" -> 'a b\" c' # We try to escape the quote. That works but the backslash is not removed.
"a b\\" c" -> 'a b\\" c' # Escaping the backslash has no effect.
This change changes quote handling to be more shell-like:
- single quotes and backquotes are literal and there is no way to escape the closing quote or
anything else inside;
- inside double quotes you can use backslash to escape the closing quote and another backslash
- outside any quotes, you can use backslash to escape quotes, spaces and itself.
This makes the parsing more consistent with what the user is familiar and increases the
probability that pasting the command line from shell to the "process launch" command "just work".
Reviewers: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7855
llvm-svn: 230955
Previously the operation thread is stopped with a cancel event but
pthread_cancel is not supported on android. This CL creates a custom
operation which asks the operation thread to exit without any pthread
call.
Differential revision: http://reviews.llvm.org/D7937
llvm-svn: 230945
Instead of lldb calling the ptrace APIs directly, it launches an llgs
instance and communicates with it via the remote debug protocol.
This has two advantages.
There is more code shared between the remote debugging code path
and the local debugging code path. If a feature works in remote, it
probably works locally and vice-versa.
It makes us more architecturally similar to OSX (which also does
local debugging via a connection to debugserver).
This path is called LLGS local. We think that this configuration is
now at parity with (or better than) local linux debugging.
It is currently invoked if you have an environment variable defined
"PLATFORM_LINUX_FORCE_LLGS_LOCAL"
We would like to switch to LLGS local as the default path and only
use the non-LLGS path if someone has an environment variable defined
"PLATFORM_LINUX_DISABLE_LLGS_LOCAL"
Later, if all goes well, we would like to remove non-LLGS local
debugging support to simplify the codebase and avoid confusion.
llvm-svn: 230919
Summary:
syscalls involving pid/tid on 32 bit binaries are failing with
"Invalid argument" because the uint64_t arguments are too wide.
Reviewers: clayborg, ovyalov, sivachandra
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7963
llvm-svn: 230817
Summary:
Before this fix the FileSpec::GetPath() returned string which might be without '\0' at the end.
It could have happened if the size of buffer for path was less than actual path.
Test case:
```
FileSpec test("/path/to/file", false);
char buf[]="!!!!!!";
test.GetPath(buf, 3);
```
Before fix:
```
233 FileSpec test("/path/to/file", false);
234 char buf[]="!!!!!!";
235 test.GetPath(buf, 3);
236
-> 237 if (core_file)
238 {
239 if (!core_file.Exists())
240 {
(lldb) print buf
(char [7]) $0 = "/pa!!!"
```
After fix:
```
233 FileSpec test("/path/to/file", false);
234 char buf[]="!!!!!!";
235 test.GetPath(buf, 3);
236
-> 237 if (core_file)
238 {
239 if (!core_file.Exists())
240 {
(lldb) print buf
(char [7]) $0 = "/p"
```
Reviewers: zturner, abidh, clayborg
Reviewed By: abidh, clayborg
Subscribers: tberghammer, vharron, lldb-commits, clayborg, zturner, abidh
Differential Revision: http://reviews.llvm.org/D7553
llvm-svn: 230787
Summary:
The code for GetSyntheticArrayMemberFromPointer and
GetSyntheticArrayMemberFromArray was identical, so just collapse the
the methods into one.
Reviewers: granata.enrico, clayborg
Reviewed By: clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7911
llvm-svn: 230708
Summary:
http://llvm.org/bugs/show_bug.cgi?id=20400
The default triple of i686-pc-linux-gnu for 32 bit linux targets is compatible
but not necessarily identical to the inferior binaries.
Applying Azat Khuzhin's solution of using ArchSpec::IsCompatibleMatch() instead
of ArchSpec::IsExactMatch() when comparing ObjectFile and Modules architecture.
Reviewers: vharron
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7897
llvm-svn: 230694
Summary:
They'll be set anyway when the thread starts running, so the launching threads
should just ignore the set request.
Reviewers: ovyalov
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7914
llvm-svn: 230671
When we have a debug map we have an executable with a bunch of STAB symbols and each source file has a N_SO symbol which scopes a bunch of symbols inside of it. We can use this to our advantage here when looking for the complete definition of an objective C class by looking for a symbol whose name matches the class name and whose type is eSymbolTypeObjCClass. If we find one, that symbol will be contained within a N_SO symbol. This symbol gets turned into a symbol whose type is eSymbolTypeSourceFile and that symbol will contain the eSymbolTypeObjCClass which helps us to locate the correct .o file and allows us to only look in that file.
To further accelerate things, if we are looking for the implementation, we can avoid looking at all .o files if we don't find a matching symbol because we have a debug map, which means the objective C symbol for the class can't have been stripped, so we can safely not search all remaining .o files. This will save us lots of time when trying to look for "NSObject" and any other AppKit and Foundation classes that we never have implementation definitions for.
<rdar://problem/19234225>
llvm-svn: 230562
The DebuggerThread was detecting the launch error, but it was
ignored by ProcessWindows::DoLaunch, causing LLDB to wait forever
in the debugger loop.
This fixes the test case that explicitly attempts to launch a
process from a non-existant path.
Patch by Adrian McCarthy
Differential Revision: http://reviews.llvm.org/D7874
llvm-svn: 230523
Earlier this week I was able to get clang-cl on Windows to be
able to self host. This opened the door to being able to
get a whole new slew of warnings for the Windows build.
This patch fixes all of the warnings, many of which were real
bugs.
llvm-svn: 230522
ExecutionContext::GetAddressByteSize() was calling GettAddressByteSize () on Target and Process class but was ignoring the return type. I have added the missing return.
No regression in the test suite. Committed as obvious.
llvm-svn: 230502
Add O_TRUNC when opening file for redirecting stdout and stderr of the
process. It is neccessary because if the file exists then on some
platform the original content is kept while it isn't overwritten by the
new data causing pollution of the saved stdout and stderr.
llvm-svn: 230492
Summary:
Symbols::LocateExecutableSymbolFile tries to locate the file in containing the debug info in a
splitdebug configuration. It tries to skip over the original file in its search path, but it was
easily fooled by symlinks. This changes the function to use llvm::sys::fs::equivalent, which can
correctly compare symlinks.
As a side effect, I had to fix one test because the address for the "abort" function resolves on
my system to "__GI_abort" now. With the debug info, the libc on my system contains two symbols
associated with the address of the abort function, and lldb prefers __GI_abort, possibly because
the debug info is associated with it. It would be nice at some point to have it prefer the public
symbol name.
Reviewers: emaste, zturner
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7836
llvm-svn: 230476
and llvm::sys::fs::make_absolute prepends the current
working directory to that path, leave the original
bare file name unchanged if $cwd/ls doesn't exist.
http://reviews.llvm.org/D7477
<rdar://problem/18775190>
llvm-svn: 230451
Fix this by returning the fact that the "symbols" word is complete if there is nothing else to complete after the "symbols" word.
<rdar://problem/19164599>
llvm-svn: 230408
This resubmits r230380. The primary cause of the failure was
actually just a warning, which we can disable at the CMake level
in a followup patch on the LLVM side. The other thing which was
actually an error on the bot should be able to be fixed with
a clean.
llvm-svn: 230389
An OBJECT library is a special type of CMake library that produces
no archive, has no link interface, and no link inputs. It is like
a regular archive, just without the physical output. To link
against an OBJECT library, you reference it in the *source* file
list of a library using the special syntax $<TARGET_OBJECTS:lldbAPI>.
This will cause every object file to be passed to the linker
independently, as opposed to a single archive being passed to the
linker.
This is *extremely* important on Windows. lldbAPI exports all of the
SB classes using __declspec(dllexport). Unfortunately for technical
reasons it is not possible (well, extremely difficult) to get the
linker to propagate a __declspec(dllexport) attribute from a symbol
in an object file in an archive to a DLL that links against that
archive. The solution to this is for the DLL to link the object files
directly. So lldbAPI must be an OBJECT library.
This fixes an issue that has been present since the duplicated
lldbAPI file lists were removed, which would cause linker failures.
As a side effect, this also makes LLDB_DISABLE_PYTHON=1 work again
on Windows, which was previously totally broken.
llvm-svn: 230380
This new class makes it easier to change the timeout of a
GDBRemoteCommunication instance for a short time and then restore it to
its original value.
Differential revision: http://reviews.llvm.org/D7826
llvm-svn: 230319
Also, since most of the time the lack of such information is a serious problem that hinders productive debugging, emit an actual user visible warning when this occurs (once per process)
Fixes rdar://19898507
llvm-svn: 230299
This is implemented by making a new FileSystem function:
bool
FileSystem::IsLocal(const FileSpec &spec)
Then using this in a new function:
DataBufferSP
FileSpec::MemoryMapFileContentsIfLocal(off_t file_offset, size_t file_size) const;
This function only mmaps data if the file is a local file since that means we can reliably page in data. We were experiencing crashes where people would use debug info files on network mounted file systems and that mount would go away and cause the next access to a page that wasn't paged in to crash LLDB.
We now avoid this by just copying the data into a heap buffer and keeping a permanent copy to avoid the crash. Updated all previous users of FileSpec::MemoryMapFileContentsIfLocal() in ObjectFile subclasses over to use the new FileSpec::MemoryMapFileContentsIfLocal() function.
<rdar://problem/19470249>
llvm-svn: 230283
Embedding python with MSVC is very finicky, for reasons having
to do with the operating system's CRT, the implementation of
python itself on Windows, and even bugs in CMake.
One side effect of this is that we cannot rely on FindPythonLibs
and FindPythonInterp CMake functions to locate the correct
version of Python. We must instead manually specify the location
of PYTHON_LIBRARY and PYTHON_INCLUDE_DIR.
As a side effect, this fixes building LLDB in release mode by
specifying -DCMAKE_BUILD_TYPE=Release, which was previously
broken.
llvm-svn: 230262
This makes these failures slightly more obvious, avoiding the need to
run LLDB under a debugger or rely on a LLDB core. I encountered these
while bringing up a new OS/arch combination.
llvm-svn: 230236
With the previous implementation the protocol used by the client and the
server for the response was different and worked only by an accident.
With this change the communication is fixed and the return code from
mkdir and chmod correctly captured by lldb. The change also add
documentation for the qPlatform__[mkdir,chmod] packages.
Differential revision: http://reviews.llvm.org/D7786
llvm-svn: 230213
Process::Launch try to catch a stop signal after launching a process. If
it is unsuccessful it destroy the process but previously still reported
that the process launched successfully. This behavior caused a
deadlock. With thic change the process launch error reported correctly.
Differential revision: http://reviews.llvm.org/D7784
llvm-svn: 230212
Summary:
This patch enables evaluation of DWARF expressions setting the CFA during stack unwinding.
This makes TestSigtrampUnwind "almost" pass on linux. I am not enabling the test yet since the
symbol name for the signal trampoline does not get resolved properly due to a different bug, but
apart from that, the backtrace is sane.
I am unsure how this change affects Mac. I think it makes the unwinder prefer the DWARF unwind
plan instead of some custom platform-dependant plan. However, it does not affect the end result
- the stack unwinding works as expected.
Reviewers: jasonmolenda
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7792
llvm-svn: 230211
Summary:
This change refactors UnwindPlan::Row to be able to store the fact that the CFA is value is set
by evaluating a dwarf expression (DW_CFA_def_cfa_expression). This is achieved by creating a new
class CFAValue and moving all CFA setting/getting code there. Note that code using the new
CFAValue::isDWARFExpression is not yet present and will be added in a follow-up patch. Therefore,
this patch should not change the functionality in any way.
Test Plan: Ran tests on Mac and Linux. No regressions detected.
Reviewers: jasonmolenda, clayborg
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7755
llvm-svn: 230210
const, there was never a need for lookup_const_result. Now that vestigal
type is gone, so switch LLDB to lookup_result and to use the
DeclContextLookupResult rather than the Const variant.
llvm-svn: 230126
- Add Host::GlobArguments() to perform local-globbing
I implemented this on OSX and Windows in terms of argdumper (Windows implementation is essentially the same as the OSX version + a change in binary name and some string magic)
Other platforms did not specifically chime in, so I left it unimplemented for them for the time being. Please feel free to fill in the blanks
- Add Platform::GlobArguments() to support remote-globbing
For now, no feature change here - but now we have infrastructure to help GDBRemote targets to support globbing - and patches to that effect will follow
No visible feature change
llvm-svn: 230065
Summary:
this also gets rid of a compiler warning in release builds by using a dynamically allocated
buffer. Therefore, a size assertion is not necessary (and probably should have been an error in
the first place).
Reviewers: tberghammer
Subscribers: lldb-commits
Differential Revision: http://reviews.llvm.org/D7751
llvm-svn: 229878
When launching argdumper, there are a few problems with the
current logic. First, on Windows, the file is called
argdumper.exe, not argdumper. Second, Windows paths have
backslashes in them, and JSON treats <backslash><char> as an
escape sequence. To fix the second problem, on Windows we
convert backslashes to forward slashes, since backslash isn't
a valid filename character anyway this shouldn't be a problem.
llvm-svn: 229784
llvm::StringRef doesn't make a copy of a string, it just holds a
reference. When special_directions_stream went out of scope,
special_directions was holding on to a stale pointer.
Moving special_directions_stream into a higher scope to keep
special_directions pointing to a valid string.
llvm-svn: 229767
target.error-path (and output-path) were getting resolved on the
local file system, which doesn't make any sense for remote targets
So this patch prevents file paths from being resolved on the host
system.
llvm-svn: 229763
CopyContext is necessary to safely get the XState, but LLDB doesn't currently
use the XState. CopyContext is available as of Windows 7 SP1, so it can't be
used on Vista. Furthermore, it requires the Windows 8 SDK it compile,
making the baseline for compiling and running LLDB higher than necessary.
Patch by: Adrian McCarthy
Reviewed by: Zachary Turner
Differential Revision: http://reviews.llvm.org/D7572
llvm-svn: 229710
Tamas Berghammer