Summary:
Previously lldb-test's LinePrinter would output the indentation spaces
even on completely empty lines. This is not nice, as trailing spaces get
flagged as errors in some tools/editors, and it prevents FileCheck's
CHECK-EMPTY from working.
Equally annoying was the fact that the LinePrinter did not terminate
it's output with a newline (instead it would leave the unterminated hanging
indent from the last NewLine() command), which meant that the shell prompt
following the lldb-test command came out wrong.
This fixes both issues by changing how newlines are handled. NewLine(),
which was ending the previous line ('\n') *and* begging the next line by
printing the indent, is now "demoted" to just printing literal "\n".
Instead, lines are now delimited via a helper Line object, which makes
sure the line is indented and terminated in an RAII fashion. The typical
usage would be:
Printer.line() << "This text will be indented and terminated";
If one needs to do more work than it will fit into a single statement,
one can also assign the result of the line() function to a local
variable. The line will then be terminated when that object goes out of
scope.
Reviewers: zturner
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D55597
llvm-svn: 349269
Summary:
This patch attempts to move as much code as possible out of the
CreateSections function to make room for future improvements there. Some
of this may be slightly over-engineered (VMAddressProvider), but I
wanted to keep the logic of this function very simple, because once I
start taking segment headers into acount (as discussed in D55356), the
function is going to grow significantly.
While in there, I also added tests for various bits of functionality.
This should be NFC, except that I changed the order of hac^H^Heuristicks
for determining section type slightly. Previously, name-based deduction
(.symtab -> symtab) would take precedence over type-based (SHT_SYMTAB ->
symtab) one. In fact we would assert if we ran into a .text section with
type SHT_SYMTAB. Though unlikely to matter in practice, this order
seemed wrong to me, so I have inverted it.
Reviewers: clayborg, krytarowski, espindola
Subscribers: emaste, arichardson, lldb-commits
Differential Revision: https://reviews.llvm.org/D55706
llvm-svn: 349268
Move code into a separate function, and replace the if-else chain with
llvm::StringSwitch.
A slight behavioral change is that now I use the section flags
(SHF_TLS) instead of the section name to set the thread-specific
property. There is no explanation in the original commit introducing
this (r153537) as to why that was done this way, but the new behavior
should be more correct.
llvm-svn: 348936
Previously, lldb-test would only print top-level sections. However, in
lldb, sections can contain other sections. This teaches lldb-test to
print nested sections too.
llvm-svn: 348924
This re-commits r348592, which was reverted due to a failing test on
macos.
The issue was that I was passing a null pointer for the
"CreateMemoryInstance" callback when registering ObjectFileBreakpad,
which caused crashes when attemping to load modules from memory. The
correct thing to do is to pass a callback which always returns a null
pointer (as breakpad files are never loaded in inferior memory).
It turns out that there is only one test which exercises this code path,
and it's mac-only, so I've create a new test which should run everywhere
(except windows, as one cannot delete an executable which is being run).
Unfortunately, this test still fails on linux for other reasons, but at
least it gives us something to aim for.
The original commit message was:
This patch adds the scaffolding necessary for lldb to recognise symbol
files generated by breakpad. These (textual) files contain just enough
information to be able to produce a backtrace from a crash
dump. This information includes:
- UUID, architecture and name of the module
- line tables
- list of symbols
- unwind information
A minimal breakpad file could look like this:
MODULE Linux x86_64 0000000024B5D199F0F766FFFFFF5DC30 a.out
INFO CODE_ID 00000000B52499D1F0F766FFFFFF5DC3
FILE 0 /tmp/a.c
FUNC 1010 10 0 _start
1010 4 4 0
1014 5 5 0
1019 5 6 0
101e 2 7 0
PUBLIC 1010 0 _start
STACK CFI INIT 1010 10 .cfa: $rsp 8 + .ra: .cfa -8 + ^
STACK CFI 1011 $rbp: .cfa -16 + ^ .cfa: $rsp 16 +
STACK CFI 1014 .cfa: $rbp 16 +
Even though this data would normally be considered "symbol" information,
in the current lldb infrastructure it is assumed every SymbolFile object
is backed by an ObjectFile instance. So, in order to better interoperate
with the rest of the code (particularly symbol vendors).
In this patch I just parse the breakpad header, which is enough to
populate the UUID and architecture fields of the ObjectFile interface.
The rough plan for followup patches is to expose the individual parts of
the breakpad file as ObjectFile "sections", which can then be used by
other parts of the codebase (SymbolFileBreakpad ?) to vend the necessary
information.
Reviewers: clayborg, zturner, lemo, amccarth
Subscribers: mgorny, fedor.sergeev, markmentovai, lldb-commits
Differential Revision: https://reviews.llvm.org/D55214
llvm-svn: 348773
Summary:
This patch adds the scaffolding necessary for lldb to recognise symbol
files generated by breakpad. These (textual) files contain just enough
information to be able to produce a backtrace from a crash
dump. This information includes:
- UUID, architecture and name of the module
- line tables
- list of symbols
- unwind information
A minimal breakpad file could look like this:
MODULE Linux x86_64 0000000024B5D199F0F766FFFFFF5DC30 a.out
INFO CODE_ID 00000000B52499D1F0F766FFFFFF5DC3
FILE 0 /tmp/a.c
FUNC 1010 10 0 _start
1010 4 4 0
1014 5 5 0
1019 5 6 0
101e 2 7 0
PUBLIC 1010 0 _start
STACK CFI INIT 1010 10 .cfa: $rsp 8 + .ra: .cfa -8 + ^
STACK CFI 1011 $rbp: .cfa -16 + ^ .cfa: $rsp 16 +
STACK CFI 1014 .cfa: $rbp 16 +
Even though this data would normally be considered "symbol" information,
in the current lldb infrastructure it is assumed every SymbolFile object
is backed by an ObjectFile instance. So, in order to better interoperate
with the rest of the code (particularly symbol vendors).
In this patch I just parse the breakpad header, which is enough to
populate the UUID and architecture fields of the ObjectFile interface.
The rough plan for followup patches is to expose the individual parts of
the breakpad file as ObjectFile "sections", which can then be used by
other parts of the codebase (SymbolFileBreakpad ?) to vend the necessary
information.
Reviewers: clayborg, zturner, lemo, amccarth
Subscribers: mgorny, fedor.sergeev, markmentovai, lldb-commits
Differential Revision: https://reviews.llvm.org/D55214
llvm-svn: 348592
Summary:
This parses entries in pecoff import tables for imported DLLs and
is intended as the first step to allow LLDB to load a PE's shared
modules when creating a target on the LLDB console.
Reviewers: rnk, zturner, aleksandr.urakov, lldb-commits, labath, asmith
Reviewed By: labath, asmith
Subscribers: labath, lemo, clayborg, Hui, mgorny, mgrang, teemperor
Differential Revision: https://reviews.llvm.org/D53094
llvm-svn: 348527
This patch changes the way the reproducer is initialized. Rather than
making changes at run time we now do everything at initialization time.
To make this happen we had to introduce initializer options and their SB
variant. This allows us to tell the initializer that we're running in
reproducer capture/replay mode.
Because of this change we also had to alter our testing strategy. We
cannot reinitialize LLDB when using the dotest infrastructure. Instead
we use lit and invoke two instances of the driver.
Another consequence is that we can no longer enable capture or replay
through commands. This was bound to go away form the beginning, but I
had something in mind where you could enable/disable specific providers.
However this seems like it adds very little value right now so the
corresponding commands were removed.
Finally this change also means you now have to control this through the
driver, for which I replaced --reproducer with --capture and --replay to
differentiate between the two modes.
Differential revision: https://reviews.llvm.org/D55038
llvm-svn: 348152
In January Davide sent an e-mail to the mailing list to suggest removing
unmaintained language plugins such as Go and Java. The plan was to have
some cool down period to allow users to speak up, however after that the
plugins were never actually removed.
This patch removes the OCaml debugger plugin.
The plugin can be added again in the future if it is mature enough both
in terms of testing and maintenance commitment.
Discussion on the mailing list:
http://lists.llvm.org/pipermail/lldb-dev/2018-January/013171.html
Differential revision: https://reviews.llvm.org/D54060
llvm-svn: 346159
In January Davide sent an e-mail to the mailing list to suggest removing
unmaintained language plugins such as Go and Java. The plan was to have
some cool down period to allow users to speak up, however after that the
plugins were never actually removed.
This patch removes the Java debugger plugin.
The plugin can be added again in the future if it is mature enough both
in terms of testing and maintenance commitment.
Discussion on the mailing list:
http://lists.llvm.org/pipermail/lldb-dev/2018-January/013171.html
Differential revision: https://reviews.llvm.org/D54059
llvm-svn: 346158
In January Davide sent an e-mail to the mailing list to suggest removing
unmaintained language plugins such as Go and Java. The plan was to have
some cool down period to allow users to speak up, however after that the
plugins were never actually removed.
This patch removes the Go debugger plugin.
The plugin can be added again in the future if it is mature enough both
in terms of testing and maintenance commitment.
Discussion on the mailing list:
http://lists.llvm.org/pipermail/lldb-dev/2018-January/013171.html
Differential revision: https://reviews.llvm.org/D54057
llvm-svn: 346157
This patch removes the logic for resolving paths out of FileSpec and
updates call sites to rely on the FileSystem class instead.
Differential revision: https://reviews.llvm.org/D53915
llvm-svn: 345890
This patch should not introduce any behavior changes. It consists of
mostly one of two changes:
1. Replacing fall through comments with the LLVM_FALLTHROUGH macro
2. Inserting 'break' before falling through into a case block consisting
of only 'break'.
We were already using this warning with GCC, but its warning behaves
slightly differently. In this patch, the following differences are
relevant:
1. GCC recognizes comments that say "fall through" as annotations, clang
doesn't
2. GCC doesn't warn on "case N: foo(); default: break;", clang does
3. GCC doesn't warn when the case contains a switch, but falls through
the outer case.
I will enable the warning separately in a follow-up patch so that it can
be cleanly reverted if necessary.
Reviewers: alexfh, rsmith, lattner, rtrieu, EricWF, bollu
Differential Revision: https://reviews.llvm.org/D53950
llvm-svn: 345882
This is an NFC commit to refactor the "load dependent files" parameter
from a boolean to an enum value. We want to be able to specify a
default, in which case we decide whether or not to load the dependent
files based on whether the target is an executable or not (i.e. a
dylib).
This is a dependency for D51934.
Differential revision: https://reviews.llvm.org/D51859
llvm-svn: 342633
Summary:
This patch adds an implementation of retrieving of declarations and declaration
contexts based on PDB symbols.
PDB has different type symbols for const-qualified types, and this
implementation ensures that only one declaration was created for both const
and non-const types, but creates different compiler types for them.
The implementation also processes the case when there are two symbols
corresponding to a variable. It's possible e.g. for class static variables,
they has one global symbol and one symbol belonging to a class.
PDB has no info about namespaces, so this implementation parses the full symbol
name and tries to figure out if the symbol belongs to namespace or not,
and then creates nested namespaces if necessary.
Reviewers: asmith, zturner, labath
Reviewed By: asmith
Subscribers: aleksandr.urakov, teemperor, lldb-commits, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D51162
llvm-svn: 341782
Summary:
This patch allows to resolve a symbol context block info even if a function
info was not requested. Also it adds the correct resolving of nested blocks
(the previous implementation used function blocks instead of them).
Reviewers: zturner, asmith, labath
Reviewed By: asmith
Subscribers: lldb-commits, stella.stamenova
Tags: #lldb
Differential Revision: https://reviews.llvm.org/D51104
llvm-svn: 340901
Summary:
This test makes sure we are able to read the shorter build-ids which are
generated by lld.
To make this work, I've extended lldb-test to print the UUID of the
loaded object file. I've renamed the lldb-test subcommand from
"module-sections" to "object-file" to reflect the fact it prints more
than just the sections.
I've also added the module Architecture to the output, so we could avoid
printing the entire symbol file information just to get the ArchSpec
details in the lc_version_min test (which was also the only test in it's
folder not using the module-sections command).
Reviewers: aprantl, zturner
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D48646
llvm-svn: 335967
Summary:
This patch fixes a problem with retrieving a function symbol by an
address in a nested block. In the current implementation of
ResolveSymbolContext function it retrieves a symbol with
PDB_SymType::None and then checks if found symbol's tag equals to
PDB_SymType::Function. So, if nested block's symbol was found,
ResolveSymbolContext does not resolve a function.
Reviewers: asmith, labath, zturner
Reviewed By: asmith, labath
Differential Revision: https://reviews.llvm.org/D47939
Patch by Aleksandr Urakov <aleksandr.urakov@jetbrains.com>
llvm-svn: 335822
SetFile has an optional style argument which defaulted to the native
style. This patch makes that argument mandatory so clients of the
FileSpec class are forced to think about the correct syntax.
At the same time this introduces a (protected) convenience method to
update the file from within the FileSpec class that keeps the current
style.
These two changes together prevent a potential pitfall where the style
might be forgotten, leading to the path being updated and the style
unintentionally being changed to the host style.
llvm-svn: 334663
Some gcc versions (circa 4.9) do not accept initializing Expected
objects containing a reference to a function from a function.
Change the Expected object to contain function pointers to work around
this.
llvm-svn: 334501
The motivation for this is to be able to Dwarf index ability to look up
variables within a given compilation unit. It also fits in with the
patch in progress at D47939, which will add the ability to look up
funtions using file+line pairs.
The verification of which lldb-test options can be used together was
getting a bit unwieldy, so I moved the logic out into a separate
function.
llvm-svn: 334498
Summary:
The patch adds support of splitted functions (when MSVC is used with PGO) and function-level linking feature.
SymbolFilePDB::ParseCompileUnitLineTable function relies on fact that ranges of compiled source files in the binary are continuous and don't intersect each other. The function creates LineSequence for each file and inserts it into LineTable, and implementation of last one relies on continuity of the sequence. But it's not always true when function-level linking enabled, e.g. in added input test file test-pdb-function-level-linking.exe there is xstring's std__basic_string_char_std__char_traits_char__std__allocator_char_____max_size (.00454820) between test-pdb-function-level-linking.cpp's foo (.00454770) and main (.004548F0).
To fix the problem this patch renews the sequence on each address gap.
Reviewers: asmith, zturner
Reviewed By: asmith
Subscribers: aleksandr.urakov, labath, mgorny, lldb-commits
Differential Revision: https://reviews.llvm.org/D47708
llvm-svn: 334260
Change the syntax of the malloc and free commands in lldb-test's
ir-memory-map subcommand to:
<malloc> ::= <label> = malloc <size> <alignment>
<free> ::= free <label>
This should make it easier to read and extend tests in the future, e.g
to test IRMemoryMap::WriteMemory or double-free behavior.
Differential Revision: https://reviews.llvm.org/D47646
llvm-svn: 333930
This adds a new command to the ir-memory-map tester:
free <allocation-index>
The argument to free is an index which identifies which live allocation
to free. Index 0 identifies the first live allocation in the address
space, index 1 identifies the second, etc. where the allocations are
sorted in increasing order.
For illustrative purposes, assume malloc returns monotonically
increasing addresses. Here are some examples of how free would work:
Example 1
---------
malloc 16 1
malloc 32 1
free 1 //< Free the 32-byte allocation.
free 0 //< Next, free the 16-byte allocation.
Example 2
---------
malloc 16 1
malloc 32 1
free 0 //< Free the 16-byte allocation.
free 0 //< Next, free the 32-byte allocation.
llvm-svn: 333700
r333583 introduced testing for IRMemoryMap's process-side allocations
(eAllocationPolicyProcessOnly). This adds support for the host-side
variety (eAllocationPolicyHostOnly).
llvm-svn: 333698
Summary:
As discussed in https://bugs.llvm.org/show_bug.cgi?id=37317,
FindGlobalVariables does not properly handle the case where
append=false. As this doesn't seem to be used in the tree, this patch
removes the parameter entirely.
Reviewers: clayborg, jingham, labath
Reviewed By: clayborg
Subscribers: aprantl, lldb-commits, kubamracek, JDevlieghere
Differential Revision: https://reviews.llvm.org/D46885
Patch by Tom Tromey <ttromey@mozilla.com>.
llvm-svn: 333639
This teaches lldb-test how to launch a process, set up an IRMemoryMap,
and issue memory allocations in the target process through the map. This
makes it possible to test IRMemoryMap in a targeted way.
This has uncovered two bugs so far. The first bug is that Malloc
performs an adjustment on the pointer returned from AllocateMemory (for
alignment purposes) which ultimately allows overlapping memory regions
to be created. The second bug is that after most of the address space on
the host side is exhausted, Malloc may return the same address multiple
times. These bugs (and hopefully more!) can be uncovered and tested for
with targeted lldb-test commands.
At an even higher level, the motivation for addressing these bugs is
that they can lead to strange user-visible failures (e.g, variables
assume the wrong value during expression evaluation, or the debugger
crashes). See my third comment on this swift-lldb PR for an example:
https://github.com/apple/swift-lldb/pull/652
I hope lldb-test is the right place to add this testing harness. Setting
up a gtest-style unit test proved too cumbersome (you need to recreate
or mock way too much debugger state), as did writing end-to-end tests
(it's hard to write a test that actually hits a buggy path).
With lldb-test, it's easy to read/generate the test input and parse the
test output. I'll attach a simple "fuzz" tester which generates failing
test cases to the Phab review. Here's an example:
```
Command: malloc(size=1024, alignment=32)
Malloc: address = 0xca000
Command: malloc(size=64, alignment=16)
Malloc: address = 0xca400
Command: malloc(size=1024, alignment=16)
Malloc: address = 0xca440
Command: malloc(size=16, alignment=8)
Malloc: address = 0xca840
Command: malloc(size=2048, alignment=16)
Malloc: address = 0xcb000
Command: malloc(size=64, alignment=32)
Malloc: address = 0xca860
Command: malloc(size=1024, alignment=16)
Malloc: address = 0xca890
Malloc error: overlapping allocation detected, previous allocation at [0xca860, 0xca8a0)
```
{F6288839}
Differential Revision: https://reviews.llvm.org/D47508
llvm-svn: 333583
Summary:
For lldb-server, it is sufficient to parse only the native object file
format for its target OS (no other file can be loaded into a running
process). This moves the object file initialization code into specific
initializer classes: lldb-test and liblldb get all object files;
lldb-server gets only one of them. For this to work, I've needed to
create a special SystemInitializer for use in lldb-server, instead of it
calling directly into the common one.
This reduces the size of lldb-server by about 2%, which is not
earth-shattering, but it's an easy win, and it helps.
Reviewers: zturner, clayborg
Subscribers: mgorny, lldb-commits
Differential Revision: https://reviews.llvm.org/D47250
llvm-svn: 333182
Summary:
lldb-test already had the ability to dump all symbol information in a
module. This is interesting, but it can be too verbose, and it also does
not use the same APIs that lldb uses to query symbol information. The
last part is interesting to me now, because I am about to add DWARF v5
debug_names support, which needs to implement these APIs.
This patch adds a set of arguments to lldb-test, which modify it's
behavior from dumping all symbols to dumping only the requested
information:
- --find={function,namespace,type,variable} - search for the given
kind of objects.
- --name - the name to search for.
- --regex - whether to treat the "name" as a regular expression. This is
not available for all lookup types (we do not have the required APIs
for namespaces and types).
- --context - specifies the context, which can be used to restrict the
search. This argument takes a variable name (which must be defined and
be unique), and we then use the context that this variable is defined
in as the search context.
- --function-flags={auto,full,base,method,selector} - a set of flags to
further restrict the search for function symbols.
Together, these flags and their combinations cover the main SymbolFile
entry points which I will need to modify for the accelerator table
support, and so I plan to do most of the regression testing this way.
(I've also found this a useful tool for exploration of what the given
APIs are supposed to do.)
I add a couple of tests to demonstrate the usage of the usage of the
various options, and also an xfailed test which demonstrates a bug I
found while playing with this. The only requirement for these tests is
the presence of lld -- the should run on any platform which is able to
build lldb.
These tests use c++ code as input, but this isn't a requirement. It is also
possible to use IR, assembly or json to create the test module.
Reviewers: davide, zturner, asmith, JDevlieghere, clayborg, alexshap
Subscribers: mgorny, aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D46318
llvm-svn: 331447
This reverts commit r327318. It breaks the Xcode and CMake Darwin
builders:
clang: error: no such file or directory:
'.../source/Plugins/Architecture/PPC64/ArchitecturePPC64.cpp'
clang: error: no input files
More details are in https://reviews.llvm.org/D42582.
llvm-svn: 327327
Summary:
The test was failing in remote debugging scenario with windows as a host
as cmd.exe is not able to parse the complicated shell commands in the
Makefile.
The test seemed like a perfect candidate for a more focused testing
approach, so I have rewritten in on top of lldb-test's module-sections
functionality. The slight gotcha there was that the
Module::GetSectionList does not include the sections from the symbol
file until someone manually calls Module::GetSymbolVendor. Normally,
this is not an issue, because someone will have initialized the symbol
vendor by the time anyone starts looking at the sections. However, when
all one this is dump the section list, we run into this problem.
I've tried making this behavior more automatic, but it turns out it's
not that easy, so for now, I just manually initialize the Symbol Vendor
before dumping out the sections in lldb-test.
Reviewers: jankratochvil
Subscribers: lldb-commits
Differential Revision: https://reviews.llvm.org/D42914
llvm-svn: 326805
Summary:
The command takes two input arguments: a module to use as a debug target
and a file containing a list of commands. The command will execute each
of the breakpoint commands in the file and dump the breakpoint state
after each one.
The commands are expected to be breakpoint set/remove/etc. commands, but
I explicitly allow any lldb command here, so you can do things like
change setting which impact breakpoint resolution, etc. There is also a
"-persistent" flag, which causes lldb-test to *not* automatically clear
the breakpoint list after each command. Right now I don't use it, but
the idea behind it was that it could be used to test more complex
combinations of breakpoint commands (set+modify, set+disable, etc.).
Right now the command prints out only the basic breakpoint state, but
more information can be easily added there. To enable easy matching of
the "at least one breakpoint location found" state, the command
explicitly prints out the string "At least one breakpoint location.".
To enable testing of breakpoints set with an absolute paths, I add the
ability to perform rudimentary substitutions on the commands: right now
the string %p is replaced by the directory which contains the command
file (so, under normal circumstances, this will perform the same
substitution as lit would do for %p).
I use this command to rewrite the TestBreakpointCaseSensitivity test --
the test was checking about a dozen breakpoint commands, but it was
launching a new process for each one, so it took about 90 seconds to
run. The new test takes about 0.3 seconds for me, which is approximately
a 300x speedup.
Reviewers: davide, zturner, jingham
Subscribers: luporl, lldb-commits
Differential Revision: https://reviews.llvm.org/D43686
llvm-svn: 326112
Summary:
We use the llvm decompressor to decompress SHF_COMPRESSED sections. This enables
us to read data from debug info sections, which are sometimes compressed,
particuarly in the split-dwarf case. This functionality is only available if
llvm is compiled with zlib support.
Reviewers: clayborg, zturner
Subscribers: emaste, mgorny, aprantl, lldb-commits
Differential Revision: https://reviews.llvm.org/D40616
llvm-svn: 320813
This is basically a proof-of-concept and starting point for having a
testing-centric tool in LLDB. I'm sure this leaves a lot of room to be
desired, but this at least allows us to have something to build on.
Right now there is only one command, the `module-sections` command, and I
created this command not because it was particularly special, but
because it addressed an immediate use case and was extremely simple.
Run the tool as `lldb-test module-sections <path-to-object>`.
Feel free to add testing related stuff to your heart's content after
this goes in. Implementing the commands themselves takes some work, but
once they're there they can be reused without writing any code and
result in very easy to use and maintain tests.
Differential Revision: https://reviews.llvm.org/D40636
llvm-svn: 319504
Pavel Labath