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add-new-jit-ee-api
Add a new API to the JIT-VM (aka JIT-EE) interface in the codebase.
Codex 또는 Claude로 설치 이 Prompt를 복사해 Codex, Claude 또는 다른 어시스턴트에 붙여 넣으면 Skill 페이지를 검토하고 설치를 진행할 수 있습니다.
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Add a new API to the JIT-VM (aka JIT-EE) interface in the codebase.
Codex 또는 Claude로 설치 이 Prompt를 복사해 Codex, Claude 또는 다른 어시스턴트에 붙여 넣으면 Skill 페이지를 검토하고 설치를 진행할 수 있습니다.
SOC 직업 분류 기준
| name | add-new-jit-ee-api |
| description | Add a new API to the JIT-VM (aka JIT-EE) interface in the codebase. |
Implement one new JIT-VM (also known as JIT-EE) API and all supporting glue. The JIT-VM interface defines the APIs through which the JIT compiler communicates with the runtime (VM).
Ask the user for a C-like signature of the new API if it's not provided.
Suggest <repo_root>/src/coreclr/tools/Common/JitInterface/ThunkGenerator/ThunkInput.txt file as a reference. Example:
CORINFO_METHOD_HANDLE getUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg);
ThunkInput.txt file with the new API definition. Example:+CORINFO_METHOD_HANDLE getUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg);
Insert the new API definition without removing any existing entries, placing it near similar signatures.
Invoke <repo_root>/src/coreclr/tools/Common/JitInterface/ThunkGenerator/gen.sh script
(or <repo_root>/src/coreclr/tools/Common/JitInterface/ThunkGenerator/gen.bat on Windows) to update auto-generated files.
Use the correct directory for the script to run.
Open <repo_root>/src/coreclr/inc/corinfo.h and add the new API inside class ICorStaticInfo class as the last member. Example:
+ virtual CORINFO_METHOD_HANDLE getUnboxedEntry(
+ CORINFO_METHOD_HANDLE ftn,
+ bool* requiresInstMethodTableArg
+ ) = 0;
<repo_root>/src/coreclr/tools/Common/JitInterface/CorInfoImpl.cs and add the new API in the end of class CorInfoImpl class declaration. Use <repo_root>/src/coreclr/tools/Common/JitInterface/CorInfoImpl_generated.cs to inspect how type parameters look like for C# for the newly added API since it is expected to be auto-generated there by the gen.sh(bat) script. Example:+ private CORINFO_METHOD_STRUCT_* getUnboxedEntry(CORINFO_METHOD_STRUCT_* ftn, ref bool requiresInstMethodTableArg)
+ {
+ // Use CorInfoImpl.RyuJit.cs and CorInfoImpl.ReadyToRun.cs if the implementation
+ // is not shared for NativeAOT and R2R.
+ throw new NotImplementedException();
+ }
Implement the API if asked, leave the NotImplementedException() otherwise.
<repo_root>/src/coreclr/vm/jitinterface.cpp and add a dummy implementation at the file's end. Example:+CORINFO_METHOD_HANDLE CEEInfo::getUnboxedEntry(
+ CORINFO_METHOD_HANDLE ftn,
+ bool* requiresInstMethodTableArg)
+{
+ CONTRACTL {
+ THROWS;
+ GC_TRIGGERS;
+ MODE_PREEMPTIVE;
+ } CONTRACTL_END;
+
+ CORINFO_METHOD_HANDLE result = NULL;
+
+ JIT_TO_EE_TRANSITION();
+
+ UNREACHABLE(); // To be implemented
+
+ EE_TO_JIT_TRANSITION();
+
+ return result;
+}
Implement the API if asked, leave the UNREACHABLE() otherwise.
<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/agnostic.h:<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/lwmlist.h:<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/methodcontext.h:<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/methodcontext.cpp:Go through each of them one by one.
<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/agnostic.h:
Define two Agnostic_* types for input arguments and another one for output parameters (return value, output arguments).
Do not create them if one of the generics ones can be re-used such as DLD, DD, DLDL, etc. Use DWORD*
like types for integers. Inspect the whole file to see how other APIs are defined.
<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/lwmlist.h:
Add a new entry to the LWM list. Example:
+LWM(GetUnboxedEntry, DWORDLONG, DLD);
NOTE: Use upper-case for the first letter of the API name here. Add the new record after the very last LWM one.
<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/methodcontext.h:
Define 3 methods in this header file inside class MethodContext class (at the end of its definition).The methods are prefixed with rec* (record), dmp* (dump to console) and rep* (replay). Example
+ void recGetUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg, CORINFO_METHOD_HANDLE result);
+ void dmpGetUnboxedEntry(DWORDLONG key, DLD value);
+ CORINFO_METHOD_HANDLE repGetUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg);
Now add a new element to enum mcPackets enum in the same file. Example:
+ Packet_GetUnboxedEntry = <last value + 1>,
<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/methodcontext.cpp:
Add the implementation of the 3 methods to methodcontext.cpp at the end of it.
Consider other similar methods in the file for reference. Do not change implementations of other methods in the file. Example:+void MethodContext::recGetUnboxedEntry(CORINFO_METHOD_HANDLE ftn,
+ bool* requiresInstMethodTableArg,
+ CORINFO_METHOD_HANDLE result)
+{
+ // Initialize the "input - output" map if it is not already initialized
+ if (GetUnboxedEntry == nullptr)
+ {
+ GetUnboxedEntry = new LightWeightMap<DWORDLONG, DLD>();
+ }
+
+ // Create a key out of the input arguments
+ DWORDLONG key = CastHandle(ftn);
+ DLD value;
+ value.A = CastHandle(result);
+
+ // Create a value out of the return value and out parameters
+ if (requiresInstMethodTableArg != nullptr)
+ {
+ value.B = (DWORD)*requiresInstMethodTableArg ? 1 : 0;
+ }
+ else
+ {
+ value.B = 0;
+ }
+
+ // Save it to the map
+ GetUnboxedEntry->Add(key, value);
+ DEBUG_REC(dmpGetUnboxedEntry(key, value));
+}
+void MethodContext::dmpGetUnboxedEntry(DWORDLONG key, DLD value)
+{
+ // Dump key and value to the console for debug purposes.
+ printf("GetUnboxedEntry ftn-%016" PRIX64 ", result-%016" PRIX64 ", requires-inst-%u", key, value.A, value.B);
+}
+CORINFO_METHOD_HANDLE MethodContext::repGetUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg)
+{
+ // Create a key out of the input arguments
+ DWORDLONG key = CastHandle(ftn);
+
+ // Perform the lookup to obtain the value (output arguments and return value)
+ DLD value = LookupByKeyOrMiss(GetUnboxedEntry, key, ": key %016" PRIX64 "", key);
+ DEBUG_REP(dmpGetUnboxedEntry(key, value));
+
+ // propagate result to output arguments and return value (if exists)
+ if (requiresInstMethodTableArg != nullptr)
+ {
+ *requiresInstMethodTableArg = (value.B == 1);
+ }
+ return (CORINFO_METHOD_HANDLE)(value.A);
+}
<repo_root>/src/coreclr/tools/superpmi/superpmi/icorjitinfo.cpp that calls the rep* method. Example:+CORINFO_METHOD_HANDLE MyICJI::getUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg)
+{
+ jitInstance->mc->cr->AddCall("getUnboxedEntry");
+ CORINFO_METHOD_HANDLE result = jitInstance->mc->repGetUnboxedEntry(ftn, requiresInstMethodTableArg);
+ return result;
+}
<repo_root>/src/coreclr/tools/superpmi/superpmi-shim-collector/icorjitinfo.cpp that calls the rec* method. Example:+CORINFO_METHOD_HANDLE interceptor_ICJI::getUnboxedEntry(CORINFO_METHOD_HANDLE ftn, bool* requiresInstMethodTableArg)
+{
+ mc->cr->AddCall("getUnboxedEntry");
+ bool localRequiresInstMethodTableArg = false;
+ CORINFO_METHOD_HANDLE result = original_ICorJitInfo->getUnboxedEntry(ftn, &localRequiresInstMethodTableArg);
+ mc->recGetUnboxedEntry(ftn, &localRequiresInstMethodTableArg, result);
+ if (requiresInstMethodTableArg != nullptr)
+ {
+ *requiresInstMethodTableArg = localRequiresInstMethodTableArg;
+ }
+ return result;
+}
<repo_root>/src/coreclr/tools/Common/JitInterface/ThunkGenerator/ThunkInput.txt<repo_root>/src/coreclr/inc/corinfo.h<repo_root>/src/coreclr/tools/Common/JitInterface/CorInfoImpl.cs<repo_root>/src/coreclr/vm/jitinterface.cpp<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/agnostic.h [optional - only if new types are needed]<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/lwmlist.h<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/methodcontext.h<repo_root>/src/coreclr/tools/superpmi/superpmi-shared/methodcontext.cpp<repo_root>/src/coreclr/tools/superpmi/superpmi/icorjitinfo.cpp<repo_root>/src/coreclr/tools/superpmi/superpmi-shim-collector/icorjitinfo.cppReview code changes in dotnet/runtime for correctness, performance, and consistency with project conventions. Use when reviewing PRs or code changes.
Analyze CI build and test status from Azure DevOps and Helix for dotnet repository PRs. Use when checking CI status, investigating failures, determining if a PR is ready to merge, or given URLs containing dev.azure.com or helix.dot.net. Also use when asked "why is CI red", "test failures", "retry CI", "rerun tests", or "is CI green".
Analyze VMR codeflow PR status for dotnet repositories. Use when investigating stale codeflow PRs, checking if fixes have flowed through the VMR pipeline, debugging dependency update issues in PRs authored by dotnet-maestro[bot], checking overall flow status for a repo, or diagnosing why backflow PRs are missing or blocked.
Extract a standalone JIT regression test case from a given GitHub issue and save it under the JitBlue folder. Use this when asked to create or extract a JIT regression test from an issue.
Generate and run ad hoc performance benchmarks to validate code changes. Use this when asked to benchmark, profile, or validate the performance impact of a code change in dotnet/runtime.