Message ID | 20230720201443.224040-2-alan.maguire@oracle.com (mailing list archive) |
---|---|
State | RFC |
Headers | show |
Series | dwarves: detect BTF kinds supported by kernel | expand |
Context | Check | Description |
---|---|---|
netdev/tree_selection | success | Not a local patch |
On Thu, Jul 20, 2023 at 09:14:42PM +0100, Alan Maguire wrote: > When a newer pahole is run on an older kernel, it often knows about BTF > kinds that the kernel does not support. This is a problem because the BTF > generated is then embedded in the kernel image and read, and if unknown > kinds are found, BTF handling fails and core BPF functionality is > unavailable. > > The scripts/pahole-flags.sh script enumerates the various pahole options > available associated with various versions of pahole, but the problem is > what matters in the case of an older kernel is the set of kinds the kernel > understands. Because recent features such as BTF_KIND_ENUM64 are added > by default (and only skipped if --skip_encoding_btf_* is set), BTF will > be created with these newer kinds that the older kernel cannot read. > This can be fixed by stable-backporting --skip options, but this is > cumbersome and would have to be done every time a new BTF kind is > introduced. > > Here instead we pre-process the DWARF information associated with the > target for BTF generation; if we find an enum with a BTF_KIND_MAX > value in the DWARF associated with the object, we use that to > determine the maximum BTF kind supported. Note that the enum > representation of BTF kinds starts for the 5.16 kernel; prior to this > The benefit of auto-detection is that no work is required for older > kernels when new kinds are added, and --skip_encoding options are > less needed. > > [1] https://github.com/oracle-samples/bpftune/issues/35 > > Signed-off-by: Alan Maguire <alan.maguire@oracle.com> > --- > btf_encoder.c | 12 ++++++++++++ > dwarf_loader.c | 52 ++++++++++++++++++++++++++++++++++++++++++++++++++ > dwarves.h | 2 ++ > 3 files changed, 66 insertions(+) > > diff --git a/btf_encoder.c b/btf_encoder.c > index 65f6e71..98c7529 100644 > --- a/btf_encoder.c > +++ b/btf_encoder.c > @@ -1889,3 +1889,15 @@ struct btf *btf_encoder__btf(struct btf_encoder *encoder) > { > return encoder->btf; > } > + > +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max) > +{ > + if (btf_kind_max < 0 || btf_kind_max >= BTF_KIND_MAX) > + return; > + if (btf_kind_max < BTF_KIND_DECL_TAG) > + conf_load->skip_encoding_btf_decl_tag = true; > + if (btf_kind_max < BTF_KIND_TYPE_TAG) > + conf_load->skip_encoding_btf_type_tag = true; > + if (btf_kind_max < BTF_KIND_ENUM64) > + conf_load->skip_encoding_btf_enum64 = true; > +} hi, so there are some older kernels other than stable that would use this feature right? because stable already have proper setup for pahole options or it's just there to be complete and we'd eventually add new rules in here? wouldn't that be covered by the BTF kind layout stuff you work on? is there some overlap? > diff --git a/dwarf_loader.c b/dwarf_loader.c > index ccf3194..8984043 100644 > --- a/dwarf_loader.c > +++ b/dwarf_loader.c > @@ -3358,8 +3358,60 @@ static int __dwarf_cus__process_cus(struct dwarf_cus *dcus) > return 0; > } > > +/* Find enumeration value for BTF_KIND_MAX; replace conf_load->btf_kind_max with > + * this value if found since it indicates that the target object does not know > + * about kinds > its BTF_KIND_MAX value. This is valuable for kernel/module > + * BTF where a newer pahole/libbpf operate on an older kernel which cannot > + * parse some of the newer kinds pahole can generate. > + */ > +static void dwarf__find_btf_kind_max(struct dwarf_cus *dcus) > +{ > + struct conf_load *conf = dcus->conf; > + uint8_t pointer_size, offset_size; > + Dwarf_Off off = 0, noff; > + size_t cuhl; > + > + while (dwarf_nextcu(dcus->dw, off, &noff, &cuhl, NULL, &pointer_size, &offset_size) == 0) { > + Dwarf_Die die_mem; > + Dwarf_Die *cu_die = dwarf_offdie(dcus->dw, off + cuhl, &die_mem); > + Dwarf_Die child; > + > + if (cu_die == NULL) > + break; > + if (dwarf_child(cu_die, &child) == 0) { > + Dwarf_Die *die = &child; > + > + do { > + Dwarf_Die echild, *edie; > + > + if (dwarf_tag(die) != DW_TAG_enumeration_type || > + !dwarf_haschildren(die) || > + dwarf_child(die, &echild) != 0) > + continue; > + edie = &echild; > + do { > + const char *ename; > + int btf_kind_max; > + > + if (dwarf_tag(edie) != DW_TAG_enumerator) > + continue; > + ename = attr_string(edie, DW_AT_name, conf); > + if (!ename || strcmp(ename, "BTF_KIND_MAX") != 0) > + continue; > + btf_kind_max = attr_numeric(edie, DW_AT_const_value); > + dwarves__set_btf_kind_max(conf, btf_kind_max); > + return; > + } while (dwarf_siblingof(edie, edie) == 0); > + } while (dwarf_siblingof(die, die) == 0); > + } > + off = noff; > + } > +} > + > static int dwarf_cus__process_cus(struct dwarf_cus *dcus) > { > + dwarf__find_btf_kind_max(dcus); first I though this should be enabled by some (detect) option.. but that would probably beat the main purpose.. also I think we don't need kernel with BTF that it can't process jirka > + > if (dcus->conf->nr_jobs > 1) > return dwarf_cus__threaded_process_cus(dcus); > > diff --git a/dwarves.h b/dwarves.h > index eb1a6df..f4d9347 100644 > --- a/dwarves.h > +++ b/dwarves.h > @@ -1480,4 +1480,6 @@ extern const char tabs[]; > #define DW_TAG_skeleton_unit 0x4a > #endif > > +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max); > + > #endif /* _DWARVES_H_ */ > -- > 2.39.3 >
On 26/07/2023 11:39, Jiri Olsa wrote: > On Thu, Jul 20, 2023 at 09:14:42PM +0100, Alan Maguire wrote: >> When a newer pahole is run on an older kernel, it often knows about BTF >> kinds that the kernel does not support. This is a problem because the BTF >> generated is then embedded in the kernel image and read, and if unknown >> kinds are found, BTF handling fails and core BPF functionality is >> unavailable. >> >> The scripts/pahole-flags.sh script enumerates the various pahole options >> available associated with various versions of pahole, but the problem is >> what matters in the case of an older kernel is the set of kinds the kernel >> understands. Because recent features such as BTF_KIND_ENUM64 are added >> by default (and only skipped if --skip_encoding_btf_* is set), BTF will >> be created with these newer kinds that the older kernel cannot read. >> This can be fixed by stable-backporting --skip options, but this is >> cumbersome and would have to be done every time a new BTF kind is >> introduced. >> >> Here instead we pre-process the DWARF information associated with the >> target for BTF generation; if we find an enum with a BTF_KIND_MAX >> value in the DWARF associated with the object, we use that to >> determine the maximum BTF kind supported. Note that the enum >> representation of BTF kinds starts for the 5.16 kernel; prior to this >> The benefit of auto-detection is that no work is required for older >> kernels when new kinds are added, and --skip_encoding options are >> less needed. >> >> [1] https://github.com/oracle-samples/bpftune/issues/35 >> >> Signed-off-by: Alan Maguire <alan.maguire@oracle.com> >> --- >> btf_encoder.c | 12 ++++++++++++ >> dwarf_loader.c | 52 ++++++++++++++++++++++++++++++++++++++++++++++++++ >> dwarves.h | 2 ++ >> 3 files changed, 66 insertions(+) >> >> diff --git a/btf_encoder.c b/btf_encoder.c >> index 65f6e71..98c7529 100644 >> --- a/btf_encoder.c >> +++ b/btf_encoder.c >> @@ -1889,3 +1889,15 @@ struct btf *btf_encoder__btf(struct btf_encoder *encoder) >> { >> return encoder->btf; >> } >> + >> +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max) >> +{ >> + if (btf_kind_max < 0 || btf_kind_max >= BTF_KIND_MAX) >> + return; >> + if (btf_kind_max < BTF_KIND_DECL_TAG) >> + conf_load->skip_encoding_btf_decl_tag = true; >> + if (btf_kind_max < BTF_KIND_TYPE_TAG) >> + conf_load->skip_encoding_btf_type_tag = true; >> + if (btf_kind_max < BTF_KIND_ENUM64) >> + conf_load->skip_encoding_btf_enum64 = true; >> +} > > hi, > so there are some older kernels other than stable that would use this feature > right? because stable already have proper setup for pahole options > > or it's just there to be complete and we'd eventually add new rules in here? > wouldn't that be covered by the BTF kind layout stuff you work on? is there > some overlap? > Yeah, the idea is to minimize the complexity when adding new kinds. The approach explored here does this because when adding a new kind we have to either - make it a pahole opt-in parameter, which means more --btf_encode_* parameters for dwarves; or - make it an opt-out parameter, which means more stable backports to set the opt-out. My original hope was BTF kind layout encoding would solve the problem, but the problem is that new kinds are often entwined tightly in the representation of structures, functions etc. When that happens, even knowing the kind layout won't help an older kernel interpret what the BTF actually means when it was generated by a newer pahole. Kind layout still has value - it means BTF can always be dumped for example - but it can't really help the kernel to reliabily _use_ kernel/module BTF information. So the approach here is to try to streamline the process by not requiring new options when a new kind is added; we can simply detect if the kernel knows about the kind and skip it if not. Since this detection is all internal to pahole, nothing needs to be exposed to the user. >> diff --git a/dwarf_loader.c b/dwarf_loader.c >> index ccf3194..8984043 100644 >> --- a/dwarf_loader.c >> +++ b/dwarf_loader.c >> @@ -3358,8 +3358,60 @@ static int __dwarf_cus__process_cus(struct dwarf_cus *dcus) >> return 0; >> } >> >> +/* Find enumeration value for BTF_KIND_MAX; replace conf_load->btf_kind_max with >> + * this value if found since it indicates that the target object does not know >> + * about kinds > its BTF_KIND_MAX value. This is valuable for kernel/module >> + * BTF where a newer pahole/libbpf operate on an older kernel which cannot >> + * parse some of the newer kinds pahole can generate. >> + */ >> +static void dwarf__find_btf_kind_max(struct dwarf_cus *dcus) >> +{ >> + struct conf_load *conf = dcus->conf; >> + uint8_t pointer_size, offset_size; >> + Dwarf_Off off = 0, noff; >> + size_t cuhl; >> + >> + while (dwarf_nextcu(dcus->dw, off, &noff, &cuhl, NULL, &pointer_size, &offset_size) == 0) { >> + Dwarf_Die die_mem; >> + Dwarf_Die *cu_die = dwarf_offdie(dcus->dw, off + cuhl, &die_mem); >> + Dwarf_Die child; >> + >> + if (cu_die == NULL) >> + break; >> + if (dwarf_child(cu_die, &child) == 0) { >> + Dwarf_Die *die = &child; >> + >> + do { >> + Dwarf_Die echild, *edie; >> + >> + if (dwarf_tag(die) != DW_TAG_enumeration_type || >> + !dwarf_haschildren(die) || >> + dwarf_child(die, &echild) != 0) >> + continue; >> + edie = &echild; >> + do { >> + const char *ename; >> + int btf_kind_max; >> + >> + if (dwarf_tag(edie) != DW_TAG_enumerator) >> + continue; >> + ename = attr_string(edie, DW_AT_name, conf); >> + if (!ename || strcmp(ename, "BTF_KIND_MAX") != 0) >> + continue; >> + btf_kind_max = attr_numeric(edie, DW_AT_const_value); >> + dwarves__set_btf_kind_max(conf, btf_kind_max); >> + return; >> + } while (dwarf_siblingof(edie, edie) == 0); >> + } while (dwarf_siblingof(die, die) == 0); >> + } >> + off = noff; >> + } >> +} >> + >> static int dwarf_cus__process_cus(struct dwarf_cus *dcus) >> { >> + dwarf__find_btf_kind_max(dcus); > > first I though this should be enabled by some (detect) option.. but that > would probably beat the main purpose.. also I think we don't need kernel > with BTF that it can't process > Hmm, maybe it might be good to have it associated with --btf_gen_all in case we ever want to disable it for debugging purposes? What do you think? Thanks! Alan > jirka > >> + >> if (dcus->conf->nr_jobs > 1) >> return dwarf_cus__threaded_process_cus(dcus); >> >> diff --git a/dwarves.h b/dwarves.h >> index eb1a6df..f4d9347 100644 >> --- a/dwarves.h >> +++ b/dwarves.h >> @@ -1480,4 +1480,6 @@ extern const char tabs[]; >> #define DW_TAG_skeleton_unit 0x4a >> #endif >> >> +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max); >> + >> #endif /* _DWARVES_H_ */ >> -- >> 2.39.3 >>
On Wed, Jul 26, 2023 at 8:29 AM Alan Maguire <alan.maguire@oracle.com> wrote: > > On 26/07/2023 11:39, Jiri Olsa wrote: > > On Thu, Jul 20, 2023 at 09:14:42PM +0100, Alan Maguire wrote: > >> When a newer pahole is run on an older kernel, it often knows about BTF > >> kinds that the kernel does not support. This is a problem because the BTF > >> generated is then embedded in the kernel image and read, and if unknown > >> kinds are found, BTF handling fails and core BPF functionality is > >> unavailable. > >> > >> The scripts/pahole-flags.sh script enumerates the various pahole options > >> available associated with various versions of pahole, but the problem is > >> what matters in the case of an older kernel is the set of kinds the kernel > >> understands. Because recent features such as BTF_KIND_ENUM64 are added > >> by default (and only skipped if --skip_encoding_btf_* is set), BTF will > >> be created with these newer kinds that the older kernel cannot read. > >> This can be fixed by stable-backporting --skip options, but this is > >> cumbersome and would have to be done every time a new BTF kind is > >> introduced. > >> > >> Here instead we pre-process the DWARF information associated with the > >> target for BTF generation; if we find an enum with a BTF_KIND_MAX > >> value in the DWARF associated with the object, we use that to > >> determine the maximum BTF kind supported. Note that the enum > >> representation of BTF kinds starts for the 5.16 kernel; prior to this > >> The benefit of auto-detection is that no work is required for older > >> kernels when new kinds are added, and --skip_encoding options are > >> less needed. > >> > >> [1] https://github.com/oracle-samples/bpftune/issues/35 > >> > >> Signed-off-by: Alan Maguire <alan.maguire@oracle.com> > >> --- > >> btf_encoder.c | 12 ++++++++++++ > >> dwarf_loader.c | 52 ++++++++++++++++++++++++++++++++++++++++++++++++++ > >> dwarves.h | 2 ++ > >> 3 files changed, 66 insertions(+) > >> > >> diff --git a/btf_encoder.c b/btf_encoder.c > >> index 65f6e71..98c7529 100644 > >> --- a/btf_encoder.c > >> +++ b/btf_encoder.c > >> @@ -1889,3 +1889,15 @@ struct btf *btf_encoder__btf(struct btf_encoder *encoder) > >> { > >> return encoder->btf; > >> } > >> + > >> +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max) > >> +{ > >> + if (btf_kind_max < 0 || btf_kind_max >= BTF_KIND_MAX) > >> + return; > >> + if (btf_kind_max < BTF_KIND_DECL_TAG) > >> + conf_load->skip_encoding_btf_decl_tag = true; > >> + if (btf_kind_max < BTF_KIND_TYPE_TAG) > >> + conf_load->skip_encoding_btf_type_tag = true; > >> + if (btf_kind_max < BTF_KIND_ENUM64) > >> + conf_load->skip_encoding_btf_enum64 = true; > >> +} > > > > hi, > > so there are some older kernels other than stable that would use this feature > > right? because stable already have proper setup for pahole options > > > > or it's just there to be complete and we'd eventually add new rules in here? > > wouldn't that be covered by the BTF kind layout stuff you work on? is there > > some overlap? > > > > Yeah, the idea is to minimize the complexity when adding new kinds. The > approach explored here does this because when adding a new kind we have > to either > > - make it a pahole opt-in parameter, which means more --btf_encode_* > parameters for dwarves; or > - make it an opt-out parameter, which means more stable backports to set > the opt-out. > > My original hope was BTF kind layout encoding would solve the problem, > but the problem is that new kinds are often entwined tightly in the > representation of structures, functions etc. When that happens, even > knowing the kind layout won't help an older kernel interpret what the > BTF actually means when it was generated by a newer pahole. Kind layout > still has value - it means BTF can always be dumped for example - but it > can't really help the kernel to reliabily _use_ kernel/module BTF > information. So the approach here is to try to streamline the process by > not requiring new options when a new kind is added; we can simply detect > if the kernel knows about the kind and skip it if not. Since this > detection is all internal to pahole, nothing needs to be exposed to the > user. > > > >> diff --git a/dwarf_loader.c b/dwarf_loader.c > >> index ccf3194..8984043 100644 > >> --- a/dwarf_loader.c > >> +++ b/dwarf_loader.c > >> @@ -3358,8 +3358,60 @@ static int __dwarf_cus__process_cus(struct dwarf_cus *dcus) > >> return 0; > >> } > >> > >> +/* Find enumeration value for BTF_KIND_MAX; replace conf_load->btf_kind_max with > >> + * this value if found since it indicates that the target object does not know > >> + * about kinds > its BTF_KIND_MAX value. This is valuable for kernel/module > >> + * BTF where a newer pahole/libbpf operate on an older kernel which cannot > >> + * parse some of the newer kinds pahole can generate. > >> + */ > >> +static void dwarf__find_btf_kind_max(struct dwarf_cus *dcus) > >> +{ > >> + struct conf_load *conf = dcus->conf; > >> + uint8_t pointer_size, offset_size; > >> + Dwarf_Off off = 0, noff; > >> + size_t cuhl; > >> + > >> + while (dwarf_nextcu(dcus->dw, off, &noff, &cuhl, NULL, &pointer_size, &offset_size) == 0) { > >> + Dwarf_Die die_mem; > >> + Dwarf_Die *cu_die = dwarf_offdie(dcus->dw, off + cuhl, &die_mem); > >> + Dwarf_Die child; > >> + > >> + if (cu_die == NULL) > >> + break; > >> + if (dwarf_child(cu_die, &child) == 0) { > >> + Dwarf_Die *die = &child; > >> + > >> + do { > >> + Dwarf_Die echild, *edie; > >> + > >> + if (dwarf_tag(die) != DW_TAG_enumeration_type || > >> + !dwarf_haschildren(die) || > >> + dwarf_child(die, &echild) != 0) > >> + continue; > >> + edie = &echild; > >> + do { > >> + const char *ename; > >> + int btf_kind_max; > >> + > >> + if (dwarf_tag(edie) != DW_TAG_enumerator) > >> + continue; > >> + ename = attr_string(edie, DW_AT_name, conf); > >> + if (!ename || strcmp(ename, "BTF_KIND_MAX") != 0) > >> + continue; > >> + btf_kind_max = attr_numeric(edie, DW_AT_const_value); > >> + dwarves__set_btf_kind_max(conf, btf_kind_max); > >> + return; > >> + } while (dwarf_siblingof(edie, edie) == 0); > >> + } while (dwarf_siblingof(die, die) == 0); > >> + } > >> + off = noff; > >> + } > >> +} > >> + > >> static int dwarf_cus__process_cus(struct dwarf_cus *dcus) > >> { > >> + dwarf__find_btf_kind_max(dcus); > > > > first I though this should be enabled by some (detect) option.. but that > > would probably beat the main purpose.. also I think we don't need kernel > > with BTF that it can't process > > > > Hmm, maybe it might be good to have it associated with --btf_gen_all in > case we ever want to disable it for debugging purposes? What do you > think? Thanks! Overall approach makes sense to me and an extra flag like --btf_gen_all to disable this smartness also makes sense.
diff --git a/btf_encoder.c b/btf_encoder.c index 65f6e71..98c7529 100644 --- a/btf_encoder.c +++ b/btf_encoder.c @@ -1889,3 +1889,15 @@ struct btf *btf_encoder__btf(struct btf_encoder *encoder) { return encoder->btf; } + +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max) +{ + if (btf_kind_max < 0 || btf_kind_max >= BTF_KIND_MAX) + return; + if (btf_kind_max < BTF_KIND_DECL_TAG) + conf_load->skip_encoding_btf_decl_tag = true; + if (btf_kind_max < BTF_KIND_TYPE_TAG) + conf_load->skip_encoding_btf_type_tag = true; + if (btf_kind_max < BTF_KIND_ENUM64) + conf_load->skip_encoding_btf_enum64 = true; +} diff --git a/dwarf_loader.c b/dwarf_loader.c index ccf3194..8984043 100644 --- a/dwarf_loader.c +++ b/dwarf_loader.c @@ -3358,8 +3358,60 @@ static int __dwarf_cus__process_cus(struct dwarf_cus *dcus) return 0; } +/* Find enumeration value for BTF_KIND_MAX; replace conf_load->btf_kind_max with + * this value if found since it indicates that the target object does not know + * about kinds > its BTF_KIND_MAX value. This is valuable for kernel/module + * BTF where a newer pahole/libbpf operate on an older kernel which cannot + * parse some of the newer kinds pahole can generate. + */ +static void dwarf__find_btf_kind_max(struct dwarf_cus *dcus) +{ + struct conf_load *conf = dcus->conf; + uint8_t pointer_size, offset_size; + Dwarf_Off off = 0, noff; + size_t cuhl; + + while (dwarf_nextcu(dcus->dw, off, &noff, &cuhl, NULL, &pointer_size, &offset_size) == 0) { + Dwarf_Die die_mem; + Dwarf_Die *cu_die = dwarf_offdie(dcus->dw, off + cuhl, &die_mem); + Dwarf_Die child; + + if (cu_die == NULL) + break; + if (dwarf_child(cu_die, &child) == 0) { + Dwarf_Die *die = &child; + + do { + Dwarf_Die echild, *edie; + + if (dwarf_tag(die) != DW_TAG_enumeration_type || + !dwarf_haschildren(die) || + dwarf_child(die, &echild) != 0) + continue; + edie = &echild; + do { + const char *ename; + int btf_kind_max; + + if (dwarf_tag(edie) != DW_TAG_enumerator) + continue; + ename = attr_string(edie, DW_AT_name, conf); + if (!ename || strcmp(ename, "BTF_KIND_MAX") != 0) + continue; + btf_kind_max = attr_numeric(edie, DW_AT_const_value); + dwarves__set_btf_kind_max(conf, btf_kind_max); + return; + } while (dwarf_siblingof(edie, edie) == 0); + } while (dwarf_siblingof(die, die) == 0); + } + off = noff; + } +} + static int dwarf_cus__process_cus(struct dwarf_cus *dcus) { + dwarf__find_btf_kind_max(dcus); + if (dcus->conf->nr_jobs > 1) return dwarf_cus__threaded_process_cus(dcus); diff --git a/dwarves.h b/dwarves.h index eb1a6df..f4d9347 100644 --- a/dwarves.h +++ b/dwarves.h @@ -1480,4 +1480,6 @@ extern const char tabs[]; #define DW_TAG_skeleton_unit 0x4a #endif +void dwarves__set_btf_kind_max(struct conf_load *conf_load, int btf_kind_max); + #endif /* _DWARVES_H_ */
When a newer pahole is run on an older kernel, it often knows about BTF kinds that the kernel does not support. This is a problem because the BTF generated is then embedded in the kernel image and read, and if unknown kinds are found, BTF handling fails and core BPF functionality is unavailable. The scripts/pahole-flags.sh script enumerates the various pahole options available associated with various versions of pahole, but the problem is what matters in the case of an older kernel is the set of kinds the kernel understands. Because recent features such as BTF_KIND_ENUM64 are added by default (and only skipped if --skip_encoding_btf_* is set), BTF will be created with these newer kinds that the older kernel cannot read. This can be fixed by stable-backporting --skip options, but this is cumbersome and would have to be done every time a new BTF kind is introduced. Here instead we pre-process the DWARF information associated with the target for BTF generation; if we find an enum with a BTF_KIND_MAX value in the DWARF associated with the object, we use that to determine the maximum BTF kind supported. Note that the enum representation of BTF kinds starts for the 5.16 kernel; prior to this The benefit of auto-detection is that no work is required for older kernels when new kinds are added, and --skip_encoding options are less needed. [1] https://github.com/oracle-samples/bpftune/issues/35 Signed-off-by: Alan Maguire <alan.maguire@oracle.com> --- btf_encoder.c | 12 ++++++++++++ dwarf_loader.c | 52 ++++++++++++++++++++++++++++++++++++++++++++++++++ dwarves.h | 2 ++ 3 files changed, 66 insertions(+)