I don't think the intent of this test is to make sure we only have one compile unit; it's to make sure request_compileUnits returns something sensible. Relax the test case to just make sure that the main source file is one of the compile units returned, even if there are others.
Fixes llvm.org/pr49418.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D138344
This patch adds a new runToBinaryEntry option which sets a one-shot breakpoint
at program entry. This option is useful for synchronizing module loading with
dynamic loader to measure debugger startup performance: when program entry
one-short breakpoint hits most of the dependency modules should have been
loaded so this provides a good sample point for debugger startup time.
More explicitly for lldb-vscode, when this option is enabled, "Initialized" DAP
event is synchronously sent after most dependency modules are loaded.
Differential Revision: https://reviews.llvm.org/D135798
TestVSCode_coreFile looks for an exe/core file in the same directory as the test. It first calls `realpath`, but I don't think it's necessary. Using `realpath` prevents this test from working when run as part of a build system that uses content-addressed-storage, i.e. all the files might all be symlinks in the same directory pointing to files in different directories elsewhere. If some amount of normalization is needed, maybe `os.path.normpath()` would be useful, although I wouldn't see why that's needed either.
(This is a fairly trivial patch, but I'm mailing it to see if there is a reason we need to keep `realpath`, and if so, if there's some other workaround we can do).
Differential Revision: https://reviews.llvm.org/D138345
This patch will gather debug info & breakpoint info from the statistics dump (from `(SBTarget.GetStatistics())` func) and send to DAP in terminated event.
The statistics content can be huge (especially the `modules`) and dumping in full JSON can create delay in the IDE's debugging UI. (For more details, please read: 7bbd0fba98 ). Hence, we will filter out large contents before returning it in terminated event.
It will keep all the metadata fields (those starts with "total"). For large contents, it uses the opt-out strategy. Currently it only removes the "modules" field. This way every time a new top-level field being added, we will be able to capture them from DAP log without changing lldb-vscode.
The DAP terminated event should look like
```
{
"event":"terminated",
"seq":0,
"statistics": {
"memory": <JSON string>
"targets": <JSON string>, // it's a JSON array, breakpoints info included in each target
<metadata_key: value> // pairs
},
"type":"event"
}
```
All the info above will be append to statistics field in the terminated event
Test Plan
Debugged a simple hello world program from VSCode. Exit debug session in two ways: 1) run to program exit; 2) user initiated debug session end (quit debugging before program exit).
Check DAP log and see both debug sessions have statistics returned in terminated event.
Here's an example when debugging the test program:
```
{"event":"terminated","seq":0,"statistics":{"memory":"{\"strings\":{\"bytesTotal\":1843200,\"bytesUnused\":897741,\"bytesUsed\":945459}}","targets":"[{\"breakpoints\":[{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"NameMask\":[56],\"Offset\":0,\"SkipPrologue\":true,\"SymbolNames\":[\"foo\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":1,\"internal\":false,\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.002232},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Column\":0,\"Exact\":false,\"FileName\":\"/data/users/wanyi/llvm-sand/external/llvm-project/lldb/test/API/tools/lldb-vscode/terminated-event/main.cpp\",\"Inlines\":true,\"LineNumber\":5,\"Offset\":0,\"SkipPrologue\":true},\"Type\":\"FileAndLine\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":2,\"internal\":false,\"numLocations\":0,\"numResolvedLocations\":0,\"resolveTime\":0.23203799999999999},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Language\":\"c\",\"NameMask\":[4,4,4,4,4,4],\"Offset\":0,\"SkipPrologue\":false,\"SymbolNames\":[\"_dl_debug_state\",\"rtld_db_dlactivity\",\"__dl_rtld_db_dlactivity\",\"r_debug_state\",\"_r_debug_state\",\"_rtld_debug_state\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"SearchFilter\":{\"Options\":{\"ModuleList\":[\"/usr/lib64/ld-2.28.so\"]},\"Type\":\"Modules\"}}},\"id\":-1,\"internal\":true,\"kindDescription\":\"shared-library-event\",\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.00026699999999999998}],\"expressionEvaluation\":{\"failures\":0,\"successes\":0},\"firstStopTime\":0.087458974999999994,\"frameVariable\":{\"failures\":0,\"successes\":0},\"launchOrAttachTime\":0.052953161999999998,\"moduleIdentifiers\":[94554748126576,94554747837792,94554747149216,139800112130176,139800112161056,139800112206064,139800112340224,139800112509552,139800112236528],\"signals\":[{\"SIGSTOP\":1}],\"sourceMapDeduceCount\":0,\"stopCount\":8,\"targetCreateTime\":0.00057700000000000004,\"totalBreakpointResolveTime\":0.234537}]","totalDebugInfoByteSize":1668056,"totalDebugInfoEnabled":3,"totalDebugInfoIndexLoadedFromCache":0,"totalDebugInfoIndexSavedToCache":0,"totalDebugInfoIndexTime":0.027963000000000002,"totalDebugInfoParseTime":0.34354800000000002,"totalModuleCount":10,"totalModuleCountHasDebugInfo":3,"totalSymbolTableIndexTime":0.056050000000000003,"totalSymbolTableParseTime":0.23930000000000001,"totalSymbolTableStripped":0,"totalSymbolTablesLoadedFromCache":0,"totalSymbolTablesSavedToCache":0},"type":"event"}
```
Differential Revision: https://reviews.llvm.org/D137665
This patch will gather debug info & breakpoint info from the statistics dump (from `(SBTarget.GetStatistics())` func) and send to DAP in terminated event.
The statistics content can be huge (especially the `modules`) and dumping in full JSON can create delay in the IDE's debugging UI. (For more details, please read: 7bbd0fba98 ). Hence, we will filter out large contents before returning it in terminated event.
It will keep all the metadata fields (those starts with "total"). For large contents, it uses the opt-out strategy. Currently it only removes the "modules" field. This way every time a new top-level field being added, we will be able to capture them from DAP log without changing lldb-vscode.
The DAP terminated event should look like
```
{
"event":"terminated",
"seq":0,
"statistics": {
"memory": <JSON string>
"targets": <JSON string>, // it's a JSON array, breakpoints info included in each target
<metadata_key: value> // pairs
},
"type":"event"
}
```
All the info above will be append to statistics field in the terminated event
Test Plan
Debugged a simple hello world program from VSCode. Exit debug session in two ways: 1) run to program exit; 2) user initiated debug session end (quit debugging before program exit).
Check DAP log and see both debug sessions have statistics returned in terminated event.
Here's an example when debugging the test program:
```
{"event":"terminated","seq":0,"statistics":{"memory":"{\"strings\":{\"bytesTotal\":1843200,\"bytesUnused\":897741,\"bytesUsed\":945459}}","targets":"[{\"breakpoints\":[{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"NameMask\":[56],\"Offset\":0,\"SkipPrologue\":true,\"SymbolNames\":[\"foo\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":1,\"internal\":false,\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.002232},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Column\":0,\"Exact\":false,\"FileName\":\"/data/users/wanyi/llvm-sand/external/llvm-project/lldb/test/API/tools/lldb-vscode/terminated-event/main.cpp\",\"Inlines\":true,\"LineNumber\":5,\"Offset\":0,\"SkipPrologue\":true},\"Type\":\"FileAndLine\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":2,\"internal\":false,\"numLocations\":0,\"numResolvedLocations\":0,\"resolveTime\":0.23203799999999999},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Language\":\"c\",\"NameMask\":[4,4,4,4,4,4],\"Offset\":0,\"SkipPrologue\":false,\"SymbolNames\":[\"_dl_debug_state\",\"rtld_db_dlactivity\",\"__dl_rtld_db_dlactivity\",\"r_debug_state\",\"_r_debug_state\",\"_rtld_debug_state\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"SearchFilter\":{\"Options\":{\"ModuleList\":[\"/usr/lib64/ld-2.28.so\"]},\"Type\":\"Modules\"}}},\"id\":-1,\"internal\":true,\"kindDescription\":\"shared-library-event\",\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.00026699999999999998}],\"expressionEvaluation\":{\"failures\":0,\"successes\":0},\"firstStopTime\":0.087458974999999994,\"frameVariable\":{\"failures\":0,\"successes\":0},\"launchOrAttachTime\":0.052953161999999998,\"moduleIdentifiers\":[94554748126576,94554747837792,94554747149216,139800112130176,139800112161056,139800112206064,139800112340224,139800112509552,139800112236528],\"signals\":[{\"SIGSTOP\":1}],\"sourceMapDeduceCount\":0,\"stopCount\":8,\"targetCreateTime\":0.00057700000000000004,\"totalBreakpointResolveTime\":0.234537}]","totalDebugInfoByteSize":1668056,"totalDebugInfoEnabled":3,"totalDebugInfoIndexLoadedFromCache":0,"totalDebugInfoIndexSavedToCache":0,"totalDebugInfoIndexTime":0.027963000000000002,"totalDebugInfoParseTime":0.34354800000000002,"totalModuleCount":10,"totalModuleCountHasDebugInfo":3,"totalSymbolTableIndexTime":0.056050000000000003,"totalSymbolTableParseTime":0.23930000000000001,"totalSymbolTableStripped":0,"totalSymbolTablesLoadedFromCache":0,"totalSymbolTablesSavedToCache":0},"type":"event"}
```
Differential Revision: https://reviews.llvm.org/D137003
https://reviews.llvm.org/D127702 adds the initial logpoints support in
lldb-vscode. This patch further improves it by:
1. Adding a newline at the end of each log message
2. Support most of the format specifiers like \t, \n, \x etc..
The implementation is borrowed from FormatEntity::ParseInternal(). Future
patch should merge these two implementations.
Differential Revision: https://reviews.llvm.org/D136697
This reverts commit c8a26f8c6d.
Returning full statistics result in "terminated" (DAP) event could result in delay in the UI when debugging from VSCode.
If the program run to exit and debug session terminates. The DAP event order will be: exited event --> terminateCommands --> terminated event --> disconnect request --> disconnect response.
The debugging UI in VSCode corresponds to "disconnect" request/response. If the terminated event is taking long to process, the IDE won't quit debugging UI until it's done.
For big binary (tested example has 29 GB of debug info), it can cause ~15s delay in terminated event itself. And the UI could take ~20s to reflect.
This may cause confusion in debug sessions. We should persuit a more lightweight return or other solution to return such info.
This patch will gather debug info & breakpoint info from the statistics dump and send to DAP in terminated event.
We will return full contents of statistics dump (`SBTarget.GetStatistics()`) as a JSON string. So that every time a new field being added, we will be able to capture them from DAP log without changing lldb-vscode.
All the info above will be append to `statistics` field in the terminated event
Test Plan
Debugged a simple hello world program from VSCode. Exit debug session in two ways: 1) run to program exit; 2) user initiated debug session end (quit debugging before program exit).
Check DAP log and see both debug sessions have statistics returned in terminated event.
Here's an example when debugging the test program:
```
{"event":"terminated","seq":0,"statistics":"{\"memory\":{\"strings\":{\"bytesTotal\":1851392,\"bytesUnused\":905933,\"bytesUsed\":945459}},\"modules\":[{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":93901655961472,\"path\":\"/data/users/wanyi/llvm-sand/build/Debug/fbcode-x86_64/toolchain/lldb-test-build.noindex/tools/lldb-vscode/terminated-event/TestVSCode_terminatedEvent.test_terminated_event/a.out.stripped\",\"symbolTableIndexTime\":0.00067299999999999999,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.00054799999999999998,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"E317E50F\"},{\"debugInfoByteSize\":833593,\"debugInfoEnabled\":true,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0.012657,\"debugInfoParseTime\":0.32714500000000002,\"identifier\":93901656106336,\"path\":\"/usr/lib64/ld-2.28.so\",\"symbolTableIndexTime\":0.0017719999999999999,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.025423000000000001,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"57D782C6-AF24-135E-6970-7B9D3334B91B-6CD33392\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":93901654578688,\"path\":\"[vdso](0x00007ffff7ffd000)\",\"symbolTableIndexTime\":3.1000000000000001e-05,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.00038900000000000002,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64-unknown-linux-gnu\",\"uuid\":\"B5AF4022-69CE-E598-5703-F5C62C32322D-D9CF26D1\"},{\"debugInfoByteSize\":1020,\"debugInfoEnabled\":true,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0.0021559999999999999,\"debugInfoParseTime\":0.00024699999999999999,\"identifier\":140008887806080,\"path\":\"/data/users/wanyi/llvm-sand/build/Debug/fbcode-x86_64/toolchain/lldb-test-build.noindex/tools/lldb-vscode/terminated-event/TestVSCode_terminatedEvent.test_terminated_event/libfoo.so\",\"symbolTableIndexTime\":6.2000000000000003e-05,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.00080800000000000002,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--\",\"uuid\":\"109BFB15\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887859888,\"path\":\"/lib64/libdl.so.2\",\"symbolTableIndexTime\":0.000105,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.0013470000000000001,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"776BF255-7FD5-1D1A-CAB0-D1D2D7568263-EC5999B5\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887883408,\"path\":\"/lib64/libstdc++.so.6\",\"symbolTableIndexTime\":0.038710000000000001,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.075740000000000002,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"104D4081-3FC7-4F42-7CD4-AC714B249C02-DA5E62C3\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887951248,\"path\":\"/lib64/libm.so.6\",\"symbolTableIndexTime\":0.003212,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.027257,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"089E6D24-BF02-DE2B-C57E-456118BFDC1D-691B14BB\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008888170224,\"path\":\"/lib64/libgcc_s.so.1\",\"symbolTableIndexTime\":0.000357,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.0040460000000000001,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--\",\"uuid\":\"CD2F6200-D8CA-7045-ADDB-17C6C4240AAC-5DE305B1\"},{\"debugInfoByteSize\":0,\"debugInfoEnabled\":false,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0,\"debugInfoParseTime\":0,\"identifier\":140008887911072,\"path\":\"/lib64/libc.so.6\",\"symbolTableIndexTime\":0.0070210000000000003,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.072236999999999996,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"F65C85BF-DB90-4B62-3D4F-E2139B4D7C25-CF8C0B58\"},{\"debugInfoByteSize\":833593,\"debugInfoEnabled\":true,\"debugInfoIndexLoadedFromCache\":false,\"debugInfoIndexSavedToCache\":false,\"debugInfoIndexTime\":0.012407,\"debugInfoParseTime\":0.012078999999999999,\"identifier\":140008887927648,\"path\":\"/lib64/ld-linux-x86-64.so.2\",\"symbolTableIndexTime\":0.001758,\"symbolTableLoadedFromCache\":false,\"symbolTableParseTime\":0.022352,\"symbolTableSavedToCache\":false,\"symbolTableStripped\":false,\"triple\":\"x86_64--linux\",\"uuid\":\"57D782C6-AF24-135E-6970-7B9D3334B91B-6CD33392\"}],\"targets\":[{\"breakpoints\":[{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"NameMask\":[56],\"Offset\":0,\"SkipPrologue\":true,\"SymbolNames\":[\"foo\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":1,\"internal\":false,\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.0020110000000000002},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Column\":0,\"Exact\":false,\"FileName\":\"/data/users/wanyi/llvm-sand/external/llvm-project/lldb/test/API/tools/lldb-vscode/terminated-event/main.cpp\",\"Inlines\":true,\"LineNumber\":5,\"Offset\":0,\"SkipPrologue\":true},\"Type\":\"FileAndLine\"},\"Hardware\":false,\"Names\":[\"vscode\"],\"SearchFilter\":{\"Options\":{},\"Type\":\"Unconstrained\"}}},\"id\":2,\"internal\":false,\"numLocations\":0,\"numResolvedLocations\":0,\"resolveTime\":0.22744400000000001},{\"details\":{\"Breakpoint\":{\"BKPTOptions\":{\"AutoContinue\":false,\"ConditionText\":\"\",\"EnabledState\":true,\"IgnoreCount\":0,\"OneShotState\":false},\"BKPTResolver\":{\"Options\":{\"Language\":\"c\",\"NameMask\":[4,4,4,4,4,4],\"Offset\":0,\"SkipPrologue\":false,\"SymbolNames\":[\"_dl_debug_state\",\"rtld_db_dlactivity\",\"__dl_rtld_db_dlactivity\",\"r_debug_state\",\"_r_debug_state\",\"_rtld_debug_state\"]},\"Type\":\"SymbolName\"},\"Hardware\":false,\"SearchFilter\":{\"Options\":{\"ModuleList\":[\"/usr/lib64/ld-2.28.so\"]},\"Type\":\"Modules\"}}},\"id\":-1,\"internal\":true,\"kindDescription\":\"shared-library-event\",\"numLocations\":1,\"numResolvedLocations\":1,\"resolveTime\":0.00034600000000000001}],\"expressionEvaluation\":{\"failures\":0,\"successes\":0},\"firstStopTime\":0.157499681,\"frameVariable\":{\"failures\":0,\"successes\":0},\"launchOrAttachTime\":0.117741226,\"moduleIdentifiers\":[93901655961472,93901656106336,93901654578688,140008887806080,140008887859888,140008887883408,140008887951248,140008888170224,140008887911072],\"signals\":[{\"SIGSTOP\":1}],\"sourceMapDeduceCount\":0,\"stopCount\":8,\"targetCreateTime\":0.00064000000000000005,\"totalBreakpointResolveTime\":0.22980100000000003}],\"totalDebugInfoByteSize\":1668206,\"totalDebugInfoEnabled\":3,\"totalDebugInfoIndexLoadedFromCache\":0,\"totalDebugInfoIndexSavedToCache\":0,\"totalDebugInfoIndexTime\":0.027220000000000001,\"totalDebugInfoParseTime\":0.33947100000000002,\"totalModuleCount\":10,\"totalModuleCountHasDebugInfo\":3,\"totalSymbolTableIndexTime\":0.053701000000000006,\"totalSymbolTableParseTime\":0.23014699999999999,\"totalSymbolTableStripped\":0,\"totalSymbolTablesLoadedFromCache\":0,\"totalSymbolTablesSavedToCache\":0}","type":"event"}
```
Differential Revision: https://reviews.llvm.org/D136177
There is a bug in lldb-vscode that only shows stop reason ("exception") in
stopped event without showing the stop description of thrown exception. This
causes VSCode UI to only show "Paused on Exception" general message in
callstack window UI.
This patch fixes the bug so that VSCode callstack will show the detailed
exceptioni description, like "signal SIGABRT" or "EXC_BAD_ACCESS..." which
aligns with command line lldb experience.
I use C++ exception in testcase because the hardware exception description is
platform dependent and hard to verify.
Differential Revision: https://reviews.llvm.org/D136295
After recent diffs that enable variable errors that stop variables from being correctly displayed when debugging, allow users to see these errors in the LOCALS variables in the VS Code UI. We do this by detecting when no variables are available and when there is an error to be displayed, and we add a single variable named "<error>" whose value is a string error that the user can read. This allows the user to be aware of the reason variables are not available and fix the issue. Previously if someone enabled "-gline-tables-only" or was debugging with DWARF in .o files or with .dwo files and those separate object files were missing or they were out of date, the user would see nothing in the variables view. Communicating these errors to the user is essential to a good debugging experience.
Differential Revision: https://reviews.llvm.org/D134333
After recent diffs that enable variable errors that stop variables from being correctly displayed when debugging, allow users to see these errors in the LOCALS variables in the VS Code UI. We do this by detecting when no variables are available and when there is an error to be displayed, and we add a single variable named "<error>" whose value is a string error that the user can read. This allows the user to be aware of the reason variables are not available and fix the issue. Previously if someone enabled "-gline-tables-only" or was debugging with DWARF in .o files or with .dwo files and those separate object files were missing or they were out of date, the user would see nothing in the variables view. Communicating these errors to the user is essential to a good debugging experience.
Differential Revision: https://reviews.llvm.org/D134333
This allows users to see similar output to what the "register read" command emits in LLDB's command line.
Added a test to verify that the PC has the correct value with contains a pointer followed by the module + function name and the source line info. Something like:
0x0000000100000a64 a.out`main + 132 at main.cpp:17:11
Differential Revision: https://reviews.llvm.org/D129528
TestVSCode_breakpointEvents.py is failing on macOS Ventura because we
receive 3 breakpoint events instead of one. This is likely the result of
dyld moving into the shared cache.
This patch implements VSCode DAP logpoints feature (also called tracepoint
in other VS debugger).
This will provide a convenient way for user to do printf style logging
debugging without pausing debuggee.
Differential Revision: https://reviews.llvm.org/D127702
Eliminate boilerplate of having each test manually assign to `mydir` by calling
`compute_mydir` in lldbtest.py.
Differential Revision: https://reviews.llvm.org/D128077
This fixes an issue that optimized variable error message is not shown to end
users in lldb-vscode.
Differential Revision: https://reviews.llvm.org/D126014
To help user identify optimized code This diff adds a "[opt]" suffix to
optimized stack frames in lldb-vscode. This provides consistent experience
as command line lldb.
It also adds a new "optimized" attribute to DAP stack frame object so that
it is easy to identify from telemetry than parsing trailing "[opt]".
Differential Revision: https://reviews.llvm.org/D126013
Prior to this fix if we have a really large array or collection class, we would end up always creating all of the child variables for an array or collection class. If the number of children was very high this can cause delays when expanding variables. By adding the "indexedVariables" to variables with lots of children, we can keep good performance in the variables view at all times. This patch will add the "indexedVariables" key/value pair to any "Variable" JSON dictionairies when we have an array of synthetic child provider that will create more than 100 children.
We have to be careful to not call "uint32_t SBValue::GetNumChildren()" on any lldb::SBValue that we use because it can cause a class, struct or union to complete the type in order to be able to properly tell us how many children it has and this can be expensive if you have a lot of variables. By default LLDB won't need to complete a type if we have variables that are classes, structs or unions unless the user expands the variable in the variable view. So we try to only get the GetNumChildren() when we have an array, as this is a cheap operation, or a synthetic child provider, most of which are for showing collections that typically fall into this category. We add a variable reference, which indicates that something can be expanded, when the function "bool SBValue::MightHaveChildren()" is true as this call doesn't need to complete the type in order to return true. This way if no one ever expands class variables, we don't need to complete the type.
Differential Revision: https://reviews.llvm.org/D125347
This improves this test a lot because before when using the "attachCommands" to run the following commands:
(lldb) target create -d /path/to/a.out
(lldb) process launch
This was racy as it wasn't stopping the program at the entry point, and the process might run to completion before we can even debug it. With the recent changes to the "attachCommands" we were waiting for the process to stop, but the process might be exited already, and that _should_ have caused the attach to fail since there was no process to attach to. By adding "--stop-at-entry" to the process launch, we ensure this should be less racy and give us a valid process to attach to.
This is a modified version of a previous patch that was reverted: https://reviews.llvm.org/D119797
This version only waits for the process to stop when using "launchCommands" or "attachCommands"...
...and doesn't play with the async mode when doing normal launch/attach.
We discovered that when using "launchCommands" or "attachCommands" that there was an issue where these commands were not being run synchronously. There were further problems in this case where we would get thread events for the process that was just launched or attached before the IDE was ready, which is after "configurationDone" was sent to lldb-vscode.
This fix introduces the ability to wait for the process to stop after "launchCommands" or "attachCommands" are run to ensure that we have a stopped process point that is ready for the debug session to proceed. We spin up the thread that listens for process events before we start the launch or attach, but we don't want stop events being delivered through the DAP protocol until the "configurationDone" packet is received. We now always ignore the stop event with a stop ID of 1, which is the first stop. All normal launch and attach scenarios use the synchronous mode, and "launchCommands and "attachCommands" run an array of LLDB commands in async mode.
This should make our launch with "launchCommands" and attach with "attachCommands" avoid a race condition when the process is being launched or attached.
Differential Revision: https://reviews.llvm.org/D120755
The race is between these two pieces of code that are executed in two separate
lldb-vscode threads (the first is in the main thread and another is in the
event-handling thread):
```
// lldb-vscode.cpp
g_vsc.debugger.SetAsync(false);
g_vsc.target.Launch(launch_info, error);
g_vsc.debugger.SetAsync(true);
```
```
// Target.cpp
bool old_async = debugger.GetAsyncExecution();
debugger.SetAsyncExecution(true);
debugger.GetCommandInterpreter().HandleCommands(GetCommands(), exc_ctx,
options, result);
debugger.SetAsyncExecution(old_async);
```
The sequence that leads to the bug is this one:
1. Main thread enables synchronous mode and launches the process.
2. When the process is launched, it generates the first stop event.
3. This stop event is catched by the event-handling thread and DoOnRemoval
is invoked.
4. Inside DoOnRemoval, this thread runs stop hooks. And before running stop
hooks, the current synchronization mode is stored into old_async (and
right now it is equal to "false").
5. The main thread finishes the launch and returns to lldb-vscode, the
synchronization mode is restored to asynchronous by lldb-vscode.
6. Event-handling thread finishes stop hooks processing and restores the
synchronization mode according to old_async (i.e. makes the mode synchronous)
7. And now the mode is synchronous while lldb-vscode expects it to be
asynchronous. Synchronous mode forbids the process to broadcast public stop
events, so, VS Code just hangs because lldb-vscode doesn't notify it about
stops.
So, this diff makes the target intercept the first stop event if the process is
launched in the synchronous mode, thus preventing stop hooks execution.
The bug is only present on Windows because other platforms already
intercept this event using their own hijacking listeners.
So, this diff also fixes some problems with lldb-vscode tests on Windows to make
it possible to run the related test. Other tests still can't be enabled because
the debugged program prints something into stdout and LLDB can't intercept this
output and redirect it to lldb-vscode properly.
Reviewed By: jingham
Differential Revision: https://reviews.llvm.org/D119548
We discovered that when using "launchCommands" or "attachCommands" that there was an issue where these commands were not being run synchronously. There were further problems in this case where we would get thread events for the process that was just launched or attached before the IDE was ready, which is after "configurationDone" was sent to lldb-vscode.
This fix introduces the ability to wait for the process to stop after the run or attach to ensure that we have a stopped process at the entry point that is ready for the debug session to proceed. This also allows us to run the normal launch or attach without needing to play with the async flag the debugger. We spin up the thread that listens for process events before we start the launch or attach, but we stop the first eStateStopped (with stop ID of zero) event from being delivered through the DAP protocol because the "configurationDone" request handler will deliver it manually as the IDE expects a stop after configuration done. The request_configurationDone will also only deliver the stop packet if the "stopOnEntry" is False in the launch configuration.
Also added a new "timeout" to the launch and attach launch configuration arguments that can be set and defaults to 30 seconds. Since we now poll to detect when the process is stopped, we need a timeout that can be changed in case certain workflows take longer that 30 seconds to attach. If the process is not stopped by the timeout, an error will be retured for the launch or attach.
Added a flag to the vscode.py protocol classes that detects and ensures that no "stopped" events are sent prior to "configurationDone" has been sent and will raise an error if it does happen.
This should make our launching and attaching more reliable and avoid some deadlocks that were being seen (https://reviews.llvm.org/D119548).
Differential Revision: https://reviews.llvm.org/D119797
Scopes can have an optional hint for how to present this scope in the UI:
https://microsoft.github.io/debug-adapter-protocol/specification#Types_Scope
The IDEs can use the hint to present the data accordingly. For example,
Visual Studio has a separate Registers window, which is populated with the
data from the scope with `presentationHint: "registers"`.
Reviewed By: wallace
Differential Revision: https://reviews.llvm.org/D113400
SetSourceMapFromArguments is called after the core is loaded. This means
that the source file for the crashing code won't have the source map applied.
Move the call to SetSourceMapFromArguments in request_attach to just after
the call to RunInitCommands, matching request_launch behavior.
Reviewed By: clayborg, wallace
Differential Revision: https://reviews.llvm.org/D112834
Based on post-commit review discussion on
2bd8493847 with Richard Smith.
Other uses of forcing HasEmptyPlaceHolder to false seem OK to me -
they're all around pointer/reference types where the pointer/reference
token will appear at the rightmost side of the left side of the type
name, so they make nested types (eg: the "int" in "int *") behave as
though there is a non-empty placeholder (because the "*" is essentially
the placeholder as far as the "int" is concerned).
This was originally committed in 277623f4d5
Reverted in f9ad1d1c77 due to breakages
outside of clang - lldb seems to have some strange/strong dependence on
"char [N]" versus "char[N]" when printing strings (not due to that name
appearing in DWARF, but probably due to using clang to stringify type
names) that'll need to be addressed, plus a few other odds and ends in
other subprojects (clang-tools-extra, compiler-rt, etc).
The thread that Visual Studio Code displays on a stop is called the focus thread. When the previous focus thread exits and we stop in a new thread, lldb-vscode does not tell vscode to set the new thread as the focus thread, so it selects the first thread in the thread list.
This patch changes lldb-vscode to tell vscode that the new thread is the focus thread. It also includes a test that verifies the DAP stop message for this case contains the correct values.
Reviewed By: clayborg, wallace
Differential Revision: https://reviews.llvm.org/D109633
VScode now sends a "scopes" DAP request immediately after any expression evaluation.
This scopes request would clear and invalidate any non-scoped expandable variables in g_vsc.variables, causing later "variables" request to return empty result.
The symptom is that any expandable variables in VScode watch window/debug console UI to return empty content.
This diff fixes this issue by only clearing the expandable variables at process continue time. To achieve this, we have to repopulate all scoped variables
during context switch for each "scopes" request without clearing global expandable variables.
So the PR puts the scoped variables into its own locals/globals/registers; and all expandable variables into separate "expandableVariables" list.
Also, instead of using the variable index for "variableReference", it generates a new variableReference id each time as the key of "expandableVariables".
As a further new feature, this PR adds a new "expandablePermanentVariables" which has the lifetime of debug session. Any expandable variables from debug console
are added into this list. This enables users to snapshot expanable old variable in debug console and compare with new variables if desire.
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D105166
D104406 introduced an error in which, if there are multiple matchings rules for a given path, lldb was only checking for the validity in the filesystem of the first match instead of looking exhaustively one by one until a valid file is found.
Besides that, a call to consume_front was being done incorrectly, as it was modifying the input, which renders subsequent matches incorrect.
I added a test that checks for both cases.
Differential Revision: https://reviews.llvm.org/D106723
The variable.rst documentation says:
```
If it returns a value, and that value is True, LLDB will be allowed to cache the children and the children count it previously obtained, and will not return to the provider class to ask. If nothing, None, or anything other than True is returned, LLDB will discard the cached information and ask. Regardless, whenever necessary LLDB will call update.
```
However, several update methods in gnu_libstdcpp.py were returning True,
which made lldb unaware of any changes in the corresponding objects.
This problem was visible by lldb-vscode in the following way:
- If a breakpoint is hit and there's a vector with the contents {1, 2},
it'll be displayed correctly.
- Then the user steps and the next stop contains the vector modified.
The program changed it to {1, 2, 3}
- frame var then displays {1, 2} incorrectly, due to the caching caused
by the update method
It's worth mentioning that none of libcxx.py'd update methods return True. Same for LibCxxVector.cpp, which returns false.
Added a very simple test that fails without this fix.
Differential Revision: https://reviews.llvm.org/D103209
VSCode doesn't render multiple variables with the same name in the variables view. It only renders one of them. This is a situation that happens often when there are shadowed variables.
The nodejs debugger solves this by adding a number suffix to the variable, e.g. "x", "x2", "x3" are the different x variables in nested blocks.
In this patch I'm doing something similar, but the suffix is " @ <file_name:line>), e.g. "x @ main.cpp:17", "x @ main.cpp:21". The fallback would be an address if the source and line information is not present, which should be rare.
This fix is only needed for globals and locals. Children of variables don't suffer of this problem.
When there are shadowed variables
{F16182150}
Without shadowed variables
{F16182152}
Modifying these variables through the UI works
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D99989
In certain occasions times, like when LLDB is initializing and
evaluating the .lldbinit files, it tries to print to stderr and stdout
directly. This confuses the IDE with malformed data, as it talks to
lldb-vscode using stdin and stdout following the JSON RPC protocol. This
ends up terminating the debug session with the user unaware of what's
going on. There might be other situations in which this can happen, and
they will be harder to debug than the .lldbinit case.
After several discussions with @clayborg, @yinghuitan and @aadsm, we
realized that the best course of action is to simply redirect stdout and
stderr to the console, without modifying LLDB itself. This will prove to
be resilient to future bugs or features.
I made the simplest possible redirection logic I could come up with. It
only works for POSIX, and to make it work with Windows should be merely
changing pipe and dup2 for the windows equivalents like _pipe and _dup2.
Sadly I don't have a Windows machine, so I'll do it later once my office
reopens, or maybe someone else can do it.
I'm intentionally not adding a stop-redirecting logic, as I don't see it
useful for the lldb-vscode case (why would we want to do that, really?).
I added a test.
Note: this is a simpler version of D80659. I first tried to implement a
RIIA version of it, but it was problematic to manage the state of the
thread and reverting the redirection came with some non trivial
complexities, like what to do with unflushed data after the debug
session has finished on the IDE's side.
This diff ass postRunCommands, which are the counterpart of the preRunCommands. TThey will be executed right after the target is launched or attached correctly, which means that the targets can assume that the target is running.
Differential Revision: https://reviews.llvm.org/D100340
