* _scripts/test_linux.sh,_scripts/test_windows.ps1: always return exit code 0 when testing on tip
Same as what we do for test_mac.sh
* proc: support function call injection on arm64
Support function call injection on arm64 with go1.19
This commit improves the handling of hardcoded breakpoints in Delve.
A hardcoded breakpoint is a breakpoint instruction hardcoded in the
text of the program, for example through runtime.Breakpoint.
1. hardcoded breakpoints are now indicated by setting the breakpoint
field on any thread stopped by a hardcoded breakpoint
2. if multiple hardcoded breakpoints are hit during a single stop all
will be notified to the user.
3. a debugger breakpoint with an unmet condition can't hide a hardcoded
breakpoint anymore.
Use of `replace` in go.mod breaks delve installation using
`go install`. (see https://github.com/golang/go/issues/40276)
Workaround this limitation by explicitly require the fork
github.com/go-delve/liner.
go-delve/liner@v1.2.2-1 already has go.mod module name fixed
to be github.com/go-delve/liner.
Fixesgo-delve/delve#2904
It's possible that an inlined function call also contains an inlined
sunroutine. In this case we should also parse the children of
inlined calls to ensure we don't lose this information.
* dap: support 'Env' attribute for launch requests
Env is applied in addition to the delve process environment
variables. The env setting is done by calling os.Setenv
as early as possible when a Launch request is received.
Prior discussion is in https://github.com/go-delve/delve/pull/2582
In Visual Studio Code, setting null for an environment variable
in launch.json or tasks.json indicates users want to unset
the environment variable. Support the behavior by accepting
nil value.
* dap: Env field itself can be omitempty
* edit comment
Fix signal handling during thread single stepping so that signals that
are generated by executing the current instruction are immediately
propagated to the inferior, while signals other signals sent to the
thread are delayed until the full resume happens.
Fixes a bug where a breakpoint set on an instruction that causes a
SIGSEGV would make Delve hang and a bug where signals received during
single step would make it look like an instruction is executed twice.
Fixes#2801Fixes#2792
* proc,locspec: support setting breakpoints by func name on generic funcs
Changes proc.Function to parse function names correctly when they
contain instantiation lists and locspec to match generic functions.
* vendor: update golang.org/x/tools
The old version of golang.org/x/tools is incompatible with the new
iexport format.
Debugserver has a bug where writing to a AVX-2 or AVX-512 register does
not work unless it is followed by at least a write to a AVX (not 2 or
512) register.
See also: https://bugs.llvm.org/show_bug.cgi?id=52362Fixes#2767
* service/dap: fix goroutine id selection for hardcoded breakpoints
Determining the stopped goroutine id on a breakpoint required
checking for breakpoints since some may be tracepoints. However,
there may be goroutines stopped on hardcoded breakpoints with
no breakpoint. We fix this by checking for runtime.breakpoint or
StopReason=proc.StopHardcodedBreakpoint.
* proc/native: always stop after RequestManualStop on Windows
On Windows RequestManualStop will generate an exception on a special
DbgUiRemoteBreakin thread, sometimes this thread will die before we
finish stopping the process. We need to account for that and still stop
even if the thread is gone and no other thread hit a breakpoint.
Fixes flakiness of TestIssue419.
* proc/native: fix watchpoints with new threads on Windows
When a new thread is created we must reapply all watchpoints to it,
like we do on linux.
* tests: be lenient on goroutinestackprog tests on Windows
We can not guarantee that we find all goroutines stopped in a good
place and sometimes the stacktrace fails on Windows.
Adds watchpoint support to gdbserver backend for rr debugger and
debugserver on macOS/amd64 and macOS/arm64.
Also changes stack watchpoints to support reverse execution.
Change debug_info type reader and proc to convert parametric types into
their real types by reading the corresponding dictionary entry and
using the same method used for interfaces to retrieve the DIE from a
runtime._type address.
'2586e9b1'.
With generics a single function can have multiple concrete
instantiations, the old version of FindFileLocation supported at most
one concrete instantiation per function and any number of inlined
calls, this supports any number of inlined calls and concrete
functions.
Right now, if (*compositeMemory).WriteMemory needs to write a value to
a register that's smaller than the full size of the register (say, a
uint32 being passed as an argument), then (*AMD64Registers).SetReg can
later fail a sanity check that ensures the passed DwarfRegister is a
full size register.
Fix this by reading the old value of the register and overwriting just
the relevant parts with the new register. For the purposes of an
argument, it would probably be fine to just pad with zeroes, but merging
with the existing value is what gdb does.
Fixes#2698
* terminal,service: add way to see internal breakpoints
Now that Delve has internal breakpoints that survive for long periods
of time it will be useful to have an option to display them.
* proc,terminal,service: support stack watchpoints
Adds support for watchpoints on stack allocated variables.
When a stack variable is watched, in addition to the normal watchpoint
some support breakpoints are created:
- one breakpoint inside runtime.copystack, used to adjust the address
of the watchpoint when the stack is resized
- one or more breakpoints used to detect when the stack variable goes
out of scope, those are similar to the breakpoints set by StepOut.
Implements #279
* proc: support new Go 1.17 panic/defer mechanism
Go 1.17 will create wrappers for deferred calls that take arguments.
Change defer reading code so that wrappers are automatically unwrapped.
Also the deferred function is called directly by runtime.gopanic, without going through runtime.callN which means that sometimes when a panic happens the stack is either:
0. deferred function call
1. deferred call wrapper
2. runtime.gopanic
or:
0. deferred function call
1. runtime.gopanic
instead of always being:
0. deferred function call
1. runtime.callN
2. runtime.gopanic
the isPanicCall check is changed accordingly.
* test: miscellaneous minor test fixes for Go 1.17
* proc: resolve inlined calls when stepping out of runtime.breakpoint
Calls to runtime.Breakpoint are inlined in Go 1.17 when inlining is
enabled, resolve inlined calls in stepInstructionOut.
* proc: add support for debugCallV2 with regabi
This change adds support for the new debug call protocol which had to
change for the new register ABI introduced in Go 1.17.
Summary of changes:
- Abstracts over the debug call version depending on the Go version
found in the binary.
- Uses R12 instead of RAX as the debug protocol register when the binary
is from Go 1.17 or later.
- Creates a variable directly from the DWARF entry for function
arguments to support passing arguments however the ABI expects.
- Computes a very conservative stack frame size for the call when
injecting a call into a Go process whose version is >=1.17.
Co-authored-by: Michael Anthony Knyszek <mknyszek@google.com>
Co-authored-by: Alessandro Arzilli <alessandro.arzilli@gmail.com>
* TeamCity: enable tests on go-tip
* goversion: version compatibility bump
* TeamCity: fix go-tip builds on macOS/arm64
Co-authored-by: Michael Anthony Knyszek <mknyszek@google.com>
We told clients that further loading of variables can be done by
specifying a type cast using the address of a variable that we
returned.
This does not work for registerized variables (or, in general,
variables that have a complex location expression) because we don't
give them unique addresses and we throw away the compositeMemory object
we made to read them.
This commit changes proc so that:
1. variables with location expression divided in pieces do get a unique
memory address
2. the compositeMemory object is saved somewhere
3. when an integer is cast back into a pointer type we look through our
saved compositeMemory objects to see if there is one that covers the
specified address and use it.
The unique memory addresses we generate have the MSB set to 1, as
specified by the Intel 86x64 manual addresses in this form are reserved
for kernel memory (which we can not read anyway) so we are guaranteed
to never generate a fake memory address that overlaps a real memory
address of the application.
The unfortunate side effect of this is that it will break clients that
do not deserialize the address to a 64bit integer. This practice is
contrary to how we defined our types and contrary to the specification
of the JSON format, as of json.org, however it is also fairly common,
due to javascript itself having only 53bit integers.
We could come up with a new mechanism but then even more old clients
would have to be changed.
Adds filtering and grouping to the goroutines command.
The current implementation of the goroutines command is modeled after
the threads command of gdb. It works well for programs that have up to
a couple dozen goroutines but becomes unusable quickly after that.
This commit adds the ability to filter and group goroutines by several
different properties, allowing a better debugging experience on
programs that have hundreds or thousands of goroutines.
We can get the throw reason by looking at the argument "s" in runtime.throw. This is not currently working in Go 1.16 or Go 1.17 (see golang/go#46425), but does work in Go 1.15 and Go 1.14
If the base address isn't set then indexing and slicing will not work.
Large floating point registers already had the base set but small
general purpose registers did not.
Adds DWARF register number and support for AVX-512 registers.
Changes proc/gdbserial so that the 'g' and 'G' commands are never used
with debugserver since they seem to corrupt the thread state when used
on AVX-512 capable hardware.
Also changes TestClientServer_FpRegisters to be simpler and more
resilient to changes to the Go runtime.
Fixes#2479
* dap: use larger variable load limits in 'repl', 'variables' context
When evaluate requests are triggered in the context of 'repl'
(DEBUG CONSOLE in VSCode) or 'variables' (copy values from VARIABLES
section in VSCode), they are the result of human action and have
more rooms to display. So it is not too bad to apply longer limits.
Variable auto-loading for strings or arrays is nice but currently
it's unclear to me how this should be integrated in the DEBUG
CONSOLE or with the Copy Value feature. Until we have better ideas
and tools, let's go with these larger limits.
Unfortunately, the "Copy Value" from WATCH section triggers evaluate
requests with "watch" context and we don't want to load large data
automatically for "watch". So, users who want to query a large value
should first copy the expression to DEBUG CONSOLE and evaluate it.
Not ideal but not the end of the world either.
Updates golang/vscode-go#1318
* dap: apply large limit only to the string type result
* dap: move string reload logic to convertVariable* where other reload logic is
Currently we are thinking string reload for evaluation as a temporary
workaround until we figure out an intutitive way to present long strings.
So, I hope moving this logic near other reload logic may be better.
And, use the address based expression when reloading - when handling the
function return values, we may not have an expression to use.
* dap: make deep source check happy
* dap: move string reevaluation logic back to onEvaluateRequest
Reloading string variables is tricky if they are in registers.
We don't attempt to reload them but for clarity, move this up
to the onEvaluateRequest handler.
For function call, use a generous limit for string load
since the results are volatile.
* dap: check variable isn't affected by evaluate in other context
* dap: handle SetVariable requests
The handler invokes debugger.SetVariableInScope, except for
string type variables. For which, we rely on the `call` command.
Moved the call expression handling logic to the new `doCall`
function, so it can be reused by the SetVariable requenst
handler.
With this PR, every successful SetVariable request triggers
a StoppedEvent - that's a hack to reset the variablesHandle
map internally and notify the client of this change. It will
be nice if we can just update cached data corresponding to
the updated variable. But I cannot find an easy and safe way
to achieve this yet.
Also fixed a small bug in the call expression evaluation -
Previously, dlv dap returned an error "Unable to evaluate
expression: call stopped" if the call expression is for
variable assignment. (e.g. "call animal = "rabbit").
* dap: address comments from aarzilli
resetHandlesForStop & sendStoppedEvent unconditionally after
call command is left as a TODO - This is an existing code path
(just refactored) and an preexisting bug. Fixing it here
requires updates in TestEvaluateCallRequest and I prefer
addressing it in a separate cl.
Disabled call injection testing on arm64. Separated TestSetVariable
into two, one that doesn't involve call injection and another that
may involve call injection.
Fixed variableByName by removing unnecessary recursion.
* dap: address polina's comments
- removed the hard reset for every variable set
- added tests for various variable types
- added tests that involves interrupted function calls. (breakpoint/panic)
And,
- changed to utilize EvalVariableInScope to access the variable instead
of searching the children by name.
- changed to utilize evaluate requests when verifying whether the variable
is changed as expected in testing. Since now we avoid resetting the variable
handles after variable reset, either we need to trigger scope changes
explicitly, or stop depending on the variables request.
* dap: address comments
- Discuss the problem around the current doCall implementation
and the implication.
- Refine the description on how VS Code handles after setVariable
and evaluate request (there could be followup scopes/evaluate requests).
- Use the explicit line numbers for breakpoints in the SetVariable tests.
- Do not use errors.Is - we could've used golang.org/x/xerrors polyfill
but that's an additional dependency, and we will remove this check once
tests that depend on old behavior are fixed.
* dap: remove errTerminated and adjust the test
* dap: evaluate in the outer frame, instead of advancing to the next bp
Adds the low-level support for watchpoints (aka data breakpoints) to
the native linux/amd64 backend.
Does not add user interface or functioning support for watchpoints
on stack variables.
Updates #279
* Truncate long compound map keys and use address suffix only for those
* Remove test typo that causes failures
Co-authored-by: Polina Sokolova <polinasok@users.noreply.github.com>
* Adds toggle command
Also adds two rpc2 tests for testing the new functionality
* Removes Debuggers' ToggleBreakpoint method
rpc2's ToggleBreakpoint now calls AmendBreakpoint
Refactors the ClearBreakpoint to avoid a lock.
* service/dap: support auto-loading of unloaded interfaces
* Make DeepSource happy
* Don't set reference if data failed to auto-load
* Use frame-less expressions
* Refine interface recursion capping test case
Co-authored-by: Polina Sokolova <polinasok@users.noreply.github.com>
* DAP test for github.com/golang/vscode-go/issues/1056
* DAP test for github.com/golang/vscode-go/issues/884
* DAP test for github.com/golang/vscode-go/issues/851
* DAP test for github.com/golang/vscode-go/issues/1053
* DAP test for github.com/golang/vscode-go/issues/1054
* Make DeepSource happy
Co-authored-by: Polina Sokolova <polinasok@users.noreply.github.com>
Both structMember and findMethod implemented a depth-first search in
embedded fields but the Go specification requires a breadth-first
search. They also allowed promotion of fields in the concrete type of
embedded interfaces even though this is not allowed by Go.
Furthermore they both lacked protection from infinite recursion
when a type embeds itself and the user requests a non-existent field.
Fixes#2316
Add a helper method for collecting line table file references that
does the correct thing for DWARF 5 vs DWARF 4 (in the latter case you
have an implicit 0 entry which is the comp dir, whereas in the former
case you do not). This is to avoid out-of-bounds errors when examining
the file table section of a DWARF 5 compilation unit's line table.
Included is a new linux/amd-only test that includes a precompiled C
object file with a DWARF-5 section that triggers the bug in question.
Fixes#2319
evalFunctionCall needs to remove the breakpoint from the current thread
after starting the function call injection, otherwise Continue will
think that the thread is stopped at a breakpoint and return to the user
instead of continuing the call injection.
1. Forward stdin/stdout/stderr to the target process when in foreground
mode instead of always forwarding the current tty (issue #1964)
2. When redirecting a file descriptor make sure to also specify
something for all three otherwise debugserver will misbehave (either
exit on launch or run but giving the target process a closed file
descriptor).
Fixes#1964
The test needs to set a breakpoint on main.CallFn after the prologue,
on linux/386 this function does not have any instruction after the
prologue on the function header line because it doesn't need to
allocate space for local variables. Change the fixture so that this
isn't a problem.
This bug results on the test failing a small percentage of the time.
Co-authored-by: a <a@kra>
Adds features to support default file descriptor redirects for the
target process:
1. A new command line flag '--redirect' and '-r' are added to specify
file redirects for the target process
2. New syntax is added to the 'restart' command to specify file
redirects.
3. Interactive instances will check if stdin/stdout and stderr are
terminals and print a helpful error message if they aren't.
An internal breakpoint condition shouldn't ever error:
* use a ThreadContext to evaluate conditions if a goroutine isn't
available
* evaluate runtime.curg to a fake g variable containing only
`goid == 0` when there is no current goroutine
Fixes#2113
Recent changes to the way registers are handled broke reporting of AVX
registers (i.e. YMMx). This change restores the functionality by:
- concatenating the higher half of the YMMx registers to their
corresponding XMMx lower half (YMMx registers do not have an
independent DWARF register number)
- modifying the formatSSEReg function to handle them when they are
present.
Fixes#2033
* Initial support for scopes and variables requests
* Add detailed variables test
* Address review comments
* Fix typo and redudant escaped characters
* Bug fix for uninitialized interfaces; no refs needed for 0-size vars
* Minor cosmetic tweaks
* Add incomplete loading test
* Make DeepSource happy
* Remove unnecessary t.Helper() calls
* Update broken test after merge
* Add missing return
* Rework test harness to abort testvariables2 before stack overflow
* Remove accidentally duplicated disconnet
* Test for invalid interface type with regex
* Drop testvariables3, clean up and test unreadable case
* Respond to review comments
* Make expectVar test helper less fragile
* Make DeepSource happy
* Use proc.LoadConfig directly
* Adjust test to avoid var count discrepency between Go 1.15 and earlier
* Make compound keys in a map unique for correct display
* Remove locals num check that will break if more vars are added
Co-authored-by: Polina Sokolova <polinasok@users.noreply.github.com>
* proc: start variable visibility one line after their decl line
In most cases variables shouldn't be visible on their declaration line
because they won't be initialized there.
Function arguments are treated as an exception.
This fix is only applied to programs compiled with Go 1.15 or later as
previous versions of Go did not report the correct declaration line for
variables captured by closures.
Fixes#1134
* proc: silence go vet error
* Makefile: enable PIE tests on windows/Go 1.15
* core: support core files for PIEs on windows
* goversion: add Go 1.15 to supported versions
* proc: fix function call injection for Go 1.15
Go 1.15 changed the call injection protocol so that the runtime will
execute the injected call on a different (new) goroutine.
This commit changes the function call support in delve to:
1. correctly track down the call injection state after the runtime
switches to a different goroutine.
2. correctly perform the escapeCheck when stack values can come from
multiple goroutine stacks.
* proc: miscellaneous fixed for call injection under macOS with go 1.15
- create copy of SP in debugCallAXCompleteCall case because the code
used to assume that regs doesn't change
- fix automatic address calculation for function arguments when an
argument has a spurious DW_OP_piece at entry
The file:line information for the entrypoint is more acccurate than the
file:line information at a return point, which could be affected by a
compiler bug.
Fixes#2086
On platforms other than macOS this doesn't matter but on macOS a
segmentation fault will cause ContinueOnce to return an error, before
returning it we should still fix the current thread and selected
goroutine values.
Fixes#2078
* dwarf/line: implement DW_LNE_set_discriminator
We don't use the discriminator field in any way but we need to at least
parse it to support debub_line programs that use it.
* dwarf/line: support parsing DWARF4 debug_line sections
There is an extra field maximum_operations_per_instruction that is used
for VLIW CPUs. We don't support this feature but we have to at least
parse the field to not crash.
Under some circumstances (methods with non-pointer receivers or from
embedded fields called through an interface) the compiler will
autogenerate wrapper functions.
This commit changes next, step and stepout to skip all autogenerated
wrappers.
Fixes#1908
Implement debugging function for 386 on linux with reference to AMD64.
There are a few remaining problems that need to be solved in another time.
1. The stacktrace of cgo are not exactly as expected.
2. Not implement `core` for now.
3. Not implement `call` for now. Can't not find `runtime·debugCallV1` or
similar function in $GOROOT/src/runtime/asm_386.s.
Update #20
* Fixed DirIdx (index starts at one)
I am using the elf to load C++ based elf and there the index starts at one and not zero, hence the minor fix.
* Added test
* Added proper test for c-generated elf & replaced index offset by adding build dir
* Changed other IncludeDir test
* Format fix & replace print with actual test
* Format fixes @derekparker requested.
Removes the restriction that the DWARF type for the receiver of a method
must be a TypeDef. This seems reasonable in practice, but it turns out
Go DWARF does not consider
```
type X int
```
to be a typedef. This patch also allows for calling a method where the
receiver is not used or passed in, such as:
```
func (_ X) Method() { println("why") }
```
According to #1800#1584#1038, `dlv` should enable the user to dive into
memory. User can print binary data in specific memory address range.
But not support for sepecific variable name or structures temporarily.(Because
I have no idea that modify `print` command.)
Close#1584.
* proc: separate amd64-arch code
separate amd64 code about stacktrace, so we can add arm64 stacktrace code.
* proc: implemente stacktrace of arm64
* delve now can use stack, frame commands on arm64-arch debug.
Co-authored-by: tykcd996 <tang.yuke@zte.com.cn>
Co-authored-by: hengwu0 <wu.heng@zte.com.cn>
* test: remove skip-code of stacktrace on arm64
* add LR DWARF register and remove skip-code for fixed tests
* proc: fix the Continue command after the hardcoded breakpoint on arm64
Arm64 use hardware breakpoint, and it will not set PC to the next instruction like amd64. We should move PC in both runtime.breakpoints and hardcoded breakpoints(probably cgo).
* proc: implement cgo stacktrace on arm64
* proc: combine amd64_stack.go and arm64_stack.go file
* proc: reorganize the stacktrace code
* move SwitchStack function arch-related
* fix Continue command after manual stop on arm64
* add timeout flag to make.go to enable infinite timeouts
Co-authored-by: aarzilli <alessandro.arzilli@gmail.com>
Co-authored-by: hengwu0 <wu.heng@zte.com.cn>
Co-authored-by: tykcd996 <56993522+tykcd996@users.noreply.github.com>
Co-authored-by: Alessandro Arzilli <alessandro.arzilli@gmail.com>
Due to a bug in the Go compiler midstack inlined calls do not report
their ranges correctly. We can't check if an address is in the range of
a DIE by simply looking at that DIE's range, we should also recursively
check the DIE's children's ranges.
Also fixes the way stacktraces of midstack inlined calls are reported
(they used to be inverted, with the deepest inlined stack frame
reported last).
Fixes#1795
Use the name specified by compile unit attribute DW_AT_go_package_name,
introduced in Go 1.13, to map package names to package paths, instead of
trying to deduce it from names of types.
Also use this mapping for resolving global variables and function
expressions.
program
When evaluating type casts always resolve array types.
Instead of resolving them by looking up the string in debug_info
construct a fake array type so that a type cast to an array type always
works as long as the element type exists.
We already did this for byte arrays, this commit extends this to any
array type. The reason is that we return a fake array type (that
doesn't exist in the target program) for the array of a channel type.
Fixes#1736
Fixes a case of breakpoint confusion on resume caused by having two
breakpoints one byte apart. This bug can cause the target program to
resume execution a single byte inside an instruction and crash either
with SIGILL or a SIGSEGV, or misbehave (depending on how the truncated
instruction is decoded).
native.(*Thread).StepInstruction should call FindBreakpoint using
adjustPC==false because at that point the PC of the thread should
already have been adjusted (and it has been).
Adds a '-r' option to the 'restart' command (and to the Restart API)
that re-records the target when using rr.
Also moves the code to delete the trace directory inside the gdbserial
package.
Trust argument order to determine argument frame layout when calling
functions, this allows calling optimized functions and removes the
special cases for runtime.mallocgc.
Fixes#1589
If a closure captures a variable but also defines a variable of the
same name in its root scope the shadowed flag would, sometimes, not be
appropriately applied to the captured variable.
This change:
1. sorts the variable list by depth *and* declaration line, so that
closure captured variables always appear before other root-scope
variables, regardless of the order used by the compiler
2. marks variable with the same name as shadowed even if there is only
one scope at play.
This fixes the problem but as a side effect:
1. programs compiled with Go prior to version 1.9 will have the
shadowed flag applied arbitrarily (previously the shadowed flag was not
applied at all)
2. programs compiled with Go prior to versoin 1.11 will still exhibit
the bug, as they do not have DeclLine information.
Fixes#1672
proc.Next and proc.Step will call, after setting their temp
breakpoints, curthread.SetCurrentBreakpoint. This is intended to find
if one of the newly created breakpoints happens to be at the same
instruction that curthread is stopped at.
However SetCurrentBreakpoint is intended to be called after a Continue
and StepInstruction operation so it will also detect if curthread is
stopped one byte after a breakpoint.
If the instruction immediately preceeding the current instruction of
curthread happens to:
1. have one of the newly created temp breakpoints
2. be one byte long
SetCurrentBreakpoint will believe that we just hit that breakpoint and
therefore the instruction should be repeated, and thus rewind the PC of
curthread by 1.
We should distinguish between the two uses of SetCurrentBreakpoint and
disable the check for "just hit" breakpoints when inappropriate.
Fixes#1656
* proc: fix stacktraces when a SIGSEGV happens during a cgo call
When a SIGSEGV happens in a cgo call (for example as a result of
dereferencing a NULL pointer) the stack layout will look like this:
(system stack) runtime.fatalthrow
(system stack) runtime.throw
(system stack) runtime.sigpanic
(system stack) offending C function
... other C functions...
(system stack) runtime.asmcgocall
(goroutine stack) call inside cgo
The code in switchStack would switch directly from the
runtime.fatalthrow frame to the first frame in the goroutine stack,
hiding important information.
Disable this switch for runtime.fatalthrow and reintroduce the check
for runtime.mstart that existed before this version of the code was
implemented in commit 7bec20.
This problem was reported in comment:
https://github.com/go-delve/delve/issues/935#issuecomment-512182533
* cmd/dlv: actually disable C compiler optimizations when building
Increases the maximum string length from 64 to 1MB when loading strings
for a binary operator, also delays the loading until it's necessary.
This ensures that comparison between strings will always succeed in
reasonable situations.
Fixes#1615
Backports debug/dwarf commit: 535741a69a1300d1fe2800778b99c8a1b75d7fdd
CL: https://go-review.googlesource.com/18459
The x/debug/dwarf that we used for dwarf/godwarf/type.go was forked
from debug/dwarf long before this commit.
Original description:
Currently readType simultaneously constructs a type graph and resolves
the sizes of the types. However, these two operations are
fundamentally at odds: the order we parse a cyclic structure in may be
different than the order we need to resolve type sizes in. As a
result, it's possible that when readType attempts to resolve the size
of a typedef, it may dereference a nil Type field of another typedef
retrieved from the type cache that's only partially constructed.
To fix this, we delay resolving typedef sizes until the end of the
readType recursion, when the full type graph is constructed.
Fixes#1601
If the argument of 'source' ends in '.star' it will be interpreted as a
starlark script.
If the argument of 'source' is '-' an interactive starlark repl will be
started.
For documentation on how the starlark execution environment works see
Documentation/cli/starlark.md.
The starlark API is autogenerated from the JSON-RPC API by
script/gen-starlark-bindings.go.
In general for each JSON-RPC API a single global starlark function is
created.
When one of those functions is called (through a starlark script) the
arguments are converted to go structs using reflection. See
unmarshalStarlarkValue in pkg/terminal/starbind/conv.go.
If there are no type conversion errors the JSON-RPC call is executed.
The return value of the JSON-RPC call is converted back into a starlark
value by interfaceToStarlarkValue (same file):
* primitive types (such as integers, floats or strings) are converted
by creating the corresponding starlark value.
* compound types (such as structs and slices) are converted by wrapping
their reflect.Value object into a type that implements the relevant
starlark interfaces.
* api.Variables are treated specially so that their Value field can be
of the proper type instead of always being a string.
Implements #1415, #1443
Allow changing the value of a string variable to a new literal string,
which requires calling runtime.mallocgc to allocate the string into the
target process.
This means that a command like:
call f("some string")
is now supported.
Additionally the command:
call s = "some string"
is also supported.
Fixes#826
* proc: support nested function calls
Changes the code in fncall.go to support nested function calls.
This changes delays argument evaluation until after we have used
the call injection protocol to allocate an argument frame. When
evaluating the parse tree of an expression we'll initiate each
function call we find on the way down and then complete the function
call on the way up.
For example. in:
f(g(x))
we will:
1. initiate the call injection protocol for f(...)
2. progress it until the point where we have space for the arguments
of 'f' (i.e. when we receive the debugCallAXCompleteCall message
from the target runtime)
3. inititate the call injection protocol for g(...)
4. progress it until the point where we have space for the arguments
of 'g'
5. copy the value of x into the argument frame of 'g'
6. finish the call to g(...)
7. copy the return value of g(x) into the argument frame of 'f'
8. finish the call to f(...)
Updates #119
* proc: bugfix: closure addr was wrong for non-closure functions
The initial implementation of the 'call' command required the
function call to be the root expression, i.e. something like:
double(3) + 1
was not allowed, because the root expression was the binary operator
'+', not the function call.
With this change expressions like the one above and others are
allowed.
This is the first step necessary to implement nested function calls
(where the result of a function call is used as argument to another
function call).
This is implemented by replacing proc.CallFunction with
proc.EvalExpressionWithCalls. EvalExpressionWithCalls will run
proc.(*EvalScope).EvalExpression in a different goroutine. This
goroutine, the 'eval' goroutine, will communicate with the main
goroutine of the debugger by means of two channels: continueRequest
and continueCompleted.
The eval goroutine evaluates the expression recursively, when
a function call is encountered it takes care of setting up the
function call on the target program and writes a request to the
continueRequest channel, this causes the 'main' goroutine to restart
the target program by calling proc.Continue.
Whenever Continue encounters a breakpoint that belongs to the
function call injection protocol (runtime.debugCallV1 and associated
functions) it writes to continueCompleted which resumes the 'eval'
goroutine.
The 'eval' goroutine takes care of implementing the function call
injection protocol.
When the expression is fully evaluated the 'eval' goroutine will
write a special message to 'continueRequest' signaling that the
expression evaluation is terminated which will cause Continue to
return to the user.
Updates #119
Go 1.12 introduced a change to the internal map representation where
empty map cells can be marked with a tophash value of 1 instead of just
0.
Fixes#1531
Adds initial support for plugins, this is only the code needed to keep
track of loaded plugins on linux (both native and gdbserial backend).
It does not actually implement support for debugging plugins on linux.
Updates #865
Like we do with unrecovered panics, create a default breakpoint to
catch runtime errors that will cause the program to terminate.
Primarily intended to give users the opportunity to examine the state
of a deadlocked process.
runtime.clone (on some operating systems?) work similarly to fork:
when a thread calls runtime.clone a new thread is created. For a
short period of time both the parent thread and the child thread
appear to be running the same goroutine, until the child thread
adjusts its TLS to point to the correct goroutine.
This means that proc.GetG for a thread that's currently running
'runtime.clone' could be wrong and, consequently, the field
proc.(G).thread of a G struct returned by GoroutinesInfo could be
also wrong. And, finally, that FindGoroutine could sometimes return
a *G with a bad associated thread if the goroutine of interest
recently called 'runtime.clone'.
To work around this problem this commit makes two changes:
1. proc.GetG will return nil for all threads executing runtime.clone.
2. FindGoroutine will return the selected goroutine as long as the
ID matches the one requested.
Change (1) takes care of the 'runtime.clone' problem. If we stop
the target process shortly after a thread executed the SYSCALL
instruction in 'runtime.clone' there are three possibilities:
a. Both the parent thread and the child thread are stopped inside
'runtime.clone'. In this case the state we report is slightly
incorrect, because both threads will be reported as not running any
goroutine when we do know which goorutine one of them (the parent)
is running. This doesn't actually matter since runtime.clone is
always called on the system stack and therefore the goroutine in
runtime.allgs will have the correct location.
b. The child thread managed to exit 'runtime.clone' but the parent
thread didn't. This is similar to (a) but in this case GetG on the
child thread will return the correct goroutine. GetG on the parent
thread will still return (incorrectly) nil but this doesn't matter
for the samer reason as described in (a).
c. The parent thread managed to exit 'runtime.clone' but the child
thread didn't. In this case GetG will return the correct goroutine
both for the parent thread (because it's not executing runtime.clone)
and the child thread.
Change (2) means that even if a thread has a completely nonsensical
TLS (for example because it's set through cgo) evaluating a variable
with a valid GoroutineID will still work as long as it's the current
goroutine (which is the most common case). This change also doubles
as an optimization for FindGoroutine.
Fixes#1469
The repository is being switched from the personal account
github.com/derekparker/delve to the organization account
github.com/go-delve/delve. This patch updates imports and docs, while
preserving things which should not be changed such as my name in the
CHANGELOG and in TODO comments.
When casting an integer into a struct pointer we make a fake pointer
variable that doesn't have an address, maybeDereference and
structMember should still work on this kind of Variable.
Fixes#1432
Minidumps are the windows equivalent of unix core files.
This commit updates pkg/proc/core so that it can open and read windows
minidumps.
Updates #794
Some tests used a fake vendor directory placed inside _fixtures to
import some support packages.
In go.mod mode vendor directory are only supported on the root of the
project, which breaks some of our tests.
Since vendor directories outside the root of the project are so rare
anyway it's possible that a future version of go will stop supporting
it even in GOPATH mode.
Also it was weird and unnecessary in the first place anyawy.
Continue did not resume execution after a call to CallFunction if the
point where the process was stopped, before the call CallFunction, was
a breakpoint.
Fixes#1374
