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dart-sdk/pkg/native_stack_traces
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Tess Strickland 061e321441 [pkg/native_stack_traces] Bump version number for publishing. 
Change-Id: I96ee4ce4e7f950512f5dc8c3738c7f2e1f1a7866
Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/226080
Reviewed-by: Slava Egorov <vegorov@google.com>
Commit-Queue: Tess Strickland <sstrickl@google.com>
2022-01-03 13:04:25 +00:00
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bin pkg:native_stack_trace - enable and fix a few more lints 2021-10-14 07:35:43 +00:00
lib Expand the range of trace line numbers 2022-01-03 11:45:44 +00:00
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analysis_options.yaml pkg:native_stack_trace - enable and fix a few more lints 2021-10-14 07:35:43 +00:00
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CHANGELOG.md [pkg/native_stack_traces] Bump version number for publishing. 2022-01-03 13:04:25 +00:00
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pubspec.yaml [pkg/native_stack_traces] Bump version number for publishing. 2022-01-03 13:04:25 +00:00
README.md Discontinue dart2native (use dart compile) 2021-08-23 20:53:09 +00:00

README.md

native_stack_traces

This package provides libraries and a utility for decoding non-symbolic stack traces generated by an AOT-compiled Dart application.

Converting stack traces

In some modes of AOT compilation, information on mapping execution points to source locations is no longer stored in the Dart image. Instead, this information is translated to separately stored debugging information. This debugging information can then be stripped from the application before shipping.

However, there is a drawback. Stack traces generated by such an application no longer includes file, function, and line number information (i.e., symbolic stack traces). Instead, stack trace frames simply include program counter information. Thus, to find the source information for these frames, we must use the debugging information. This means either keeping the original unstripped application, or saving the debugging information into a separate file.

Given this debugging information, the libraries in this package can turn non-symbolic stack traces back into symbolic stack traces. In addition, this package includes a command line tool decode whose output is the same as its input except that non-symbolic stack traces are translated.

Using decode

Take the following Dart code, which we put in throws.dart. The inlining pragmas are here just to ensure that bar is inlined into foo and that foo is not inlined into bar, to illustrate how inlined code is handled in the translated output.

@pragma('vm:prefer-inline')
bar() => throw Null;

@pragma('vm:never-inline')
foo() => bar();

main() => foo();

Now we run the following commands:

# Make sure that we have the native_stack_traces package.
$ dart pub global activate native_stack_traces

# We compile the example program, removing the source location information
# from the snapshot and saving the debugging information into throws.debug.
$ dart compile exe -S throws.debug throws.dart

# Run the program, saving the error output to throws.err.
$ ./throws.exe 2>throws.err

# Using the saved debugging information, we can translate the stack trace
# contained in throws.err to its symbolic form.
$ dart pub global run native_stack_traces:decode translate -d throws.debug -i throws.err

Features and bugs

Please file feature requests and bugs at the issue tracker.