This reapplies 2cc64df0bd6a802eab592dbc282463c3e4a4281c, which was reverted in
5379c46d490640bfa80283e00240b6f1006092b4 due to bot failures.
The new patch contains fixes to ELFLinkGraphBuilder.h to better handle
non-SHT_ALLOC sections (these were being accidentally skipped in the previous
patch), and to skip SHT_NULL sections.
The original MemDeallocPolicy had two options:
* Standard: allocated memory lives until deallocated or abandoned.
* Finalize: allocated memory lives until all finalize actions have been run,
then is destroyed.
This patch introduces a new 'NoAlloc' option. NoAlloc indicates that the
section should be ignored by the JITLinkMemoryManager -- the memory manager
should allocate neither working memory nor executor address space to blocks in
NoAlloc sections. The NoAlloc option is intended to support metadata sections
(e.g. debug info) that we want to keep in the graph and have fixed up if
necessary, but don't want allocated or transmitted to the executor (or we want
that allocation and transmission to be managed manually by plugins).
Since NoAlloc blocks are ignored by the JITLinkMemoryManager they will not have
working memory allocated to them by default post-allocation. Clients wishing to
modify the content of a block in a NoAlloc section should call
`Block::getMutableMemory(LinkGraph&)` to get writable memory allocated on the
LinkGraph's allocator (this memory will exist for the lifetime of the graph).
If no client requests mutable memory prior to the fixup phase then the generic
link algorithm will do so when it encounters the first edge in any given block.
Addresses of blocks in NoAlloc sections are initialized by the LinkGraph
creator (a LinkGraphBuilder, if the graph is generated from an object file),
and should not be modified by the JITLinkMemoryManager. Plugins are responsible
for updating addresses if they add/remove content from these sections. The
meaning of addresses in NoAlloc-sections is backend/plugin defined, but for
fixup purposes they will be treated the same as addresses in Standard/Finalize
sections. References from Standard/Finalize sections to NoAlloc sections are
expected to be common (these represent metadata tracking executor addresses).
References from NoAlloc sections to Standard/Finalize sections are expected to
be rare/non-existent (they would represent JIT'd code / data tracking metadata
in the controller, which would be surprising). LinkGraphBuilders and specific
backends may impose additional constraints on edges between Standard/Finalize
and NoAlloc sections where required for correctness.
Differential Revision: https://reviews.llvm.org/D146183
This re-applies e32b1eee6aab52e2b7b75ee15e506b3e7dd30e68, which was reverted in
20675d8f7dab293172266fdde426c2173b5b3997 due to broken unit tests. This patch
includes fixes for the tests.
SPSExecutorAddr will now be serializable to/from ExecutorAddr, rather than
uint64_t. This improves type safety when working with serialized addresses.
Also updates the SupportFunctionCall to use an ExecutorAddrRange (rather than
a separate ExecutorAddr addr and uint64_t size field), and updates the
tpctypes::*Write data structures to use ExecutorAddr rather than
JITTargetAddress.
This reintroduces "[ORC] Introduce EPCGenericRTDyldMemoryManager."
(bef55a2b47a938ef35cbd7b61a1e5fa74e68c9ed) and "[lli] Add ChildTarget dependence
on OrcTargetProcess library." (7a219d801bf2c3006482cf3cbd3170b3b4ea2e1b) which were
reverted in 99951a56842d8e4cd0706cd17a04f77b5d0f6dd0 due to bot failures.
The root cause of the bot failures should be fixed by "[ORC] Fix uninitialized
variable." (0371049277912afc201da721fa659ecef7ab7fba) and "[ORC] Wait for
handleDisconnect to complete in SimpleRemoteEPC::disconnect."
(320832cc9b7e7fea5fc8afbed75c34c4a43287ba).
This reverts commit bef55a2b47a938ef35cbd7b61a1e5fa74e68c9ed while I investigate
failures on some bots. Also reverts "[lli] Add ChildTarget dependence on
OrcTargetProcess library." (7a219d801bf2c3006482cf3cbd3170b3b4ea2e1b) which was
a fallow-up to bef55a2b47a.
EPCGenericRTDyldMemoryMnaager is an EPC-based implementation of the
RuntimeDyld::MemoryManager interface. It enables remote-JITing via EPC (backed
by a SimpleExecutorMemoryManager instance on the executor side) for RuntimeDyld
clients.
The lli and lli-child-target tools are updated to use SimpleRemoteEPC and
SimpleRemoteEPCServer (rather than OrcRemoteTargetClient/Server), and
EPCGenericRTDyldMemoryManager for MCJIT tests.
By enabling remote-JITing for MCJIT and RuntimeDyld-based ORC clients,
EPCGenericRTDyldMemoryManager allows us to deprecate older remote-JITing
support, including OrcTargetClient/Server, OrcRPCExecutorProcessControl, and the
Orc RPC system itself. These will be removed in future patches.
