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When you look up a type by name using ctf_lookup_by_name, in most cases libctf can just strip off any qualifiers and look for the name, but for pointer types this doesn't work, since the caller will want the pointer type itself. But pointer types are nameless, and while they cite the types they point to, looking up a type by name requires a link going the *other way*, from the type pointed to to the pointer type that points to it. libctf has always built this up at open time: ctf_ptrtab is an array of type indexes pointing from the index of every type to the index of the type that points to it. But because it is built up at open time (and because it uses type indexes and not type IDs) it is restricted to working within a single dict and ignoring parent/child relationships. This is normally invisible, unless you manage to get a dict with a type in the parent but the only pointer to it in a child. The ctf_ptrtab will not track this relationship, so lookups of this pointer type by name will fail. Since which type is in the parent and which in the child is largely opaque to the user (which goes where is up to the deduplicator, and it can and does reshuffle things to save space), this leads to a very bad user experience, with an obviously-visible pointer type which ctf_lookup_by_name claims doesn't exist. The fix is to have another array, ctf_pptrtab, which is populated in child dicts: like the parent's ctf_ptrtab, it has one element per type in the parent, but is all zeroes except for those types which are pointed to by types in the child: so it maps parent dict indices to child dict indices. The array is grown, and new child types scanned, whenever a lookup happens and new types have been added to the child since the last time a lookup happened that might need the pptrtab. (So for non-writable dicts, this only happens once, since new types cannot be added to non-writable dicts at all.) Since this introduces new complexity (involving updating only part of the ctf_pptrtab) which is only seen when a writable dict is in use, we introduce a new libctf-writable testsuite that contains lookup tests with no corresponding CTF-containing .c files (which can thus be run even on platforms with no .ctf-section support in the linker yet), and add a test to check that creation of pointers in children to types in parents and a following lookup by name works as expected. The non- writable case is tested in a new libctf-regression testsuite which is used to track now-fixed outright bugs in libctf. libctf/ChangeLog 2021-01-05 Nick Alcock <nick.alcock@oracle.com> * ctf-impl.h (ctf_dict_t) <ctf_pptrtab>: New. <ctf_pptrtab_len>: New. <ctf_pptrtab_typemax>: New. * ctf-create.c (ctf_serialize): Update accordingly. (ctf_add_reftype): Note that we don't need to update pptrtab here, despite updating ptrtab. * ctf-open.c (ctf_dict_close): Destroy the pptrtab. (ctf_import): Likewise. (ctf_import_unref): Likewise. * ctf-lookup.c (grow_pptrtab): New. (refresh_pptrtab): New, update a pptrtab. (ctf_lookup_by_name): Turn into a wrapper around (and rename to)... (ctf_lookup_by_name_internal): ... this: construct the pptrtab, and use it in addition to the parent's ptrtab when parent dicts are searched. * testsuite/libctf-regression/regression.exp: New testsuite for regression tests. * testsuite/libctf-regression/pptrtab*: New test. * testsuite/libctf-writable/writable.exp: New testsuite for tests of writable CTF dicts. * testsuite/libctf-writable/pptrtab*: New test.
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148 B
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5 lines
148 B
Plaintext
# source: pptrtab-a.c
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# source: pptrtab-b.c
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# link_flags: -Wl,--ctf-share-types=share-duplicated
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.*/pptrtab-[ab]\.c: .* points to a type of kind 10
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