Message ID | 1626362126-27775-2-git-send-email-alan.maguire@oracle.com (mailing list archive) |
---|---|
State | New |
Headers | show |
Series | libbpf: BTF dumper support for typed data | expand |
On Thu, Jul 15, 2021 at 8:15 AM Alan Maguire <alan.maguire@oracle.com> wrote: > > Add a BTF dumper for typed data, so that the user can dump a typed > version of the data provided. > > The API is > > int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, > void *data, size_t data_sz, > const struct btf_dump_type_data_opts *opts); > > ...where the id is the BTF id of the data pointed to by the "void *" > argument; for example the BTF id of "struct sk_buff" for a > "struct skb *" data pointer. Options supported are > > - a starting indent level (indent_lvl) > - a user-specified indent string which will be printed once per > indent level; if NULL, tab is chosen but any string <= 32 chars > can be provided. > - a set of boolean options to control dump display, similar to those > used for BPF helper bpf_snprintf_btf(). Options are > - compact : omit newlines and other indentation > - skip_names: omit member names > - emit_zeroes: show zero-value members > > Default output format is identical to that dumped by bpf_snprintf_btf(), > for example a "struct sk_buff" representation would look like this: > > struct sk_buff){ > (union){ > (struct){ > .next = (struct sk_buff *)0xffffffffffffffff, > .prev = (struct sk_buff *)0xffffffffffffffff, > (union){ > .dev = (struct net_device *)0xffffffffffffffff, > .dev_scratch = (long unsigned int)18446744073709551615, > }, > }, > ... > > If the data structure is larger than the *data_sz* > number of bytes that are available in *data*, as much > of the data as possible will be dumped and -E2BIG will > be returned. This is useful as tracers will sometimes > not be able to capture all of the data associated with > a type; for example a "struct task_struct" is ~16k. > Being able to specify that only a subset is available is > important for such cases. On success, the amount of data > dumped is returned. > > Signed-off-by: Alan Maguire <alan.maguire@oracle.com> > --- Ok, this looks great. I think I found a few residual problems, so please see comments below and address them. But I'm inclined to land this patch set as is because it's in a good shape already, and it is pretty, so it's hard and time-consuming to weed through minor (at this point) changes between versions. So please send follow-up patch(es) with fixes. Hopefully soon enough before the libbpf release. Thanks a lot for working on this and persevering, this is a great API! I'll apply a patch set to bpf-next when it will open up for new patches. Thanks. > tools/lib/bpf/btf.h | 19 ++ > tools/lib/bpf/btf_dump.c | 819 ++++++++++++++++++++++++++++++++++++++++++++++- > tools/lib/bpf/libbpf.map | 1 + > 3 files changed, 834 insertions(+), 5 deletions(-) I also wanted to call out this ^^ versus: a) initial kernel-sharing version: > 18 files changed, 3236 insertions(+), 1319 deletions(-) b) initial libbpf-only version: > 6 files changed, 1251 insertions(+), 3 deletions(-) And the API actually gained in supported features and correctness. > [...] > + > +union float_data { > + long double ld; > + double d; > + float f; > +}; clever > + > +static int btf_dump_float_data(struct btf_dump *d, > + const struct btf_type *t, > + __u32 type_id, > + const void *data) > +{ > + const union float_data *flp = data; > + union float_data fl; > + int sz = t->size; > + > + /* handle unaligned data; copy to local union */ > + if (((uintptr_t)data) % sz) { > + memcpy(&fl, data, sz); > + flp = &fl; > + } > + > + switch (sz) { > + case 16: > + btf_dump_type_values(d, "%Lf", flp->ld); > + break; > + case 8: > + btf_dump_type_values(d, "%lf", flp->d); > + break; > + case 4: > + btf_dump_type_values(d, "%f", flp->f); > + break; > + default: > + pr_warn("unexpected size %d for id [%u]\n", sz, type_id); > + return -EINVAL; > + } > + return 0; > +} > + [...] > + > +static int btf_dump_array_data(struct btf_dump *d, > + const struct btf_type *t, > + __u32 id, > + const void *data) > +{ > + const struct btf_array *array = btf_array(t); > + const struct btf_type *elem_type; > + __u32 i, elem_size = 0, elem_type_id; > + bool is_array_member; > + > + elem_type_id = array->type; > + elem_type = skip_mods_and_typedefs(d->btf, elem_type_id, NULL); > + elem_size = btf__resolve_size(d->btf, elem_type_id); > + if (elem_size <= 0) { > + pr_warn("unexpected elem size %d for array type [%u]\n", elem_size, id); > + return -EINVAL; > + } > + > + if (btf_is_int(elem_type)) { > + /* > + * BTF_INT_CHAR encoding never seems to be set for > + * char arrays, so if size is 1 and element is > + * printable as a char, we'll do that. > + */ > + if (elem_size == 1) > + d->typed_dump->is_array_char = true; > + } > + > + /* note that we increment depth before calling btf_dump_print() below; > + * this is intentional. btf_dump_data_newline() will not print a > + * newline for depth 0 (since this leaves us with trailing newlines > + * at the end of typed display), so depth is incremented first. > + * For similar reasons, we decrement depth before showing the closing > + * parenthesis. > + */ > + d->typed_dump->depth++; > + btf_dump_printf(d, "[%s", btf_dump_data_newline(d)); > + > + /* may be a multidimensional array, so store current "is array member" > + * status so we can restore it correctly later. > + */ > + is_array_member = d->typed_dump->is_array_member; > + d->typed_dump->is_array_member = true; > + for (i = 0; i < array->nelems; i++, data += elem_size) { > + if (d->typed_dump->is_array_terminated) > + break; I suspect this logic breaks for multi-dimensional char arrays. Please check and add follow-up tests and fixes, no need to address that in this patch set, you've suffered enough. > + btf_dump_dump_type_data(d, NULL, elem_type, elem_type_id, data, 0, 0); > + } > + d->typed_dump->is_array_member = is_array_member; > + d->typed_dump->depth--; > + btf_dump_data_pfx(d); > + btf_dump_type_values(d, "]"); > + > + return 0; > +} > + > +static int btf_dump_struct_data(struct btf_dump *d, > + const struct btf_type *t, > + __u32 id, > + const void *data) > +{ > + const struct btf_member *m = btf_members(t); > + __u16 n = btf_vlen(t); > + int i, err; > + > + /* note that we increment depth before calling btf_dump_print() below; > + * this is intentional. btf_dump_data_newline() will not print a > + * newline for depth 0 (since this leaves us with trailing newlines > + * at the end of typed display), so depth is incremented first. > + * For similar reasons, we decrement depth before showing the closing > + * parenthesis. > + */ ah, ok, I see. I sort of randomly stumbled on this from a purely aesthetic reasons, but I'm happy we clarified this because it's completely non-obvious > + d->typed_dump->depth++; > + btf_dump_printf(d, "{%s", btf_dump_data_newline(d)); > + > + for (i = 0; i < n; i++, m++) { > + const struct btf_type *mtype; > + const char *mname; > + __u32 moffset; > + __u8 bit_sz; > + > + mtype = btf__type_by_id(d->btf, m->type); > + mname = btf_name_of(d, m->name_off); > + moffset = btf_member_bit_offset(t, i); > + > + bit_sz = btf_member_bitfield_size(t, i); > + err = btf_dump_dump_type_data(d, mname, mtype, m->type, data + moffset / 8, > + moffset % 8, bit_sz); > + if (err < 0) > + return err; > + } > + d->typed_dump->depth--; > + btf_dump_data_pfx(d); > + btf_dump_type_values(d, "}"); > + return err; > +} > + > +static int btf_dump_ptr_data(struct btf_dump *d, > + const struct btf_type *t, > + __u32 id, > + const void *data) > +{ > + btf_dump_type_values(d, "%p", *(void **)data); Wait, you fixed pointer zero checking logic and misaligned reads for ints/floats, but none of that for actually printing pointers?... Please send a follow-up fix. > + return 0; > +} > + > +static int btf_dump_get_enum_value(struct btf_dump *d, > + const struct btf_type *t, > + const void *data, > + __u32 id, > + __s64 *value) > +{ > + int sz = t->size; > + > + /* handle unaligned enum value */ > + if (((uintptr_t)data) % sz) { nit: probably worth a small helper with obvious name to avoid extra comments and all those ((())) > + *value = (__s64)btf_dump_bitfield_get_data(d, t, data, 0, 0); > + return 0; > + } [...] > + elem_type_id = array->type; > + elem_size = btf__resolve_size(d->btf, elem_type_id); > + elem_type = skip_mods_and_typedefs(d->btf, elem_type_id, NULL); > + > + ischar = btf_is_int(elem_type) && elem_size == 1; > + > + /* check all elements; if _any_ element is nonzero, all > + * of array is displayed. We make an exception however > + * for char arrays where the first element is 0; these > + * are considered zeroed also, even if later elements are > + * non-zero because the string is terminated. > + */ > + for (i = 0; i < array->nelems; i++) { > + if (i == 0 && ischar && *(char *)data == 0) > + return -ENODATA; same here, this might be too aggressive for something like char a[2][10] ? > + err = btf_dump_type_data_check_zero(d, elem_type, > + elem_type_id, > + data + > + (i * elem_size), > + bits_offset, 0); > + if (err != -ENODATA) > + return err; > + } > + return -ENODATA; > + } > + case BTF_KIND_STRUCT: > + case BTF_KIND_UNION: { > + const struct btf_member *m = btf_members(t); > + __u16 n = btf_vlen(t); > + > + /* if any struct/union member is non-zero, the struct/union > + * is considered non-zero and dumped. > + */ > + for (i = 0; i < n; i++, m++) { > + const struct btf_type *mtype; > + __u32 moffset; > + > + mtype = btf__type_by_id(d->btf, m->type); > + moffset = btf_member_bit_offset(t, i); > + > + /* btf_int_bits() does not store member bitfield size; > + * bitfield size needs to be stored here so int display > + * of member can retrieve it. > + */ > + bit_sz = btf_member_bitfield_size(t, i); > + err = btf_dump_type_data_check_zero(d, mtype, m->type, data + moffset / 8, > + moffset % 8, bit_sz); > + if (err != ENODATA) > + return err; > + } > + return -ENODATA; > + } > + case BTF_KIND_ENUM: > + if (btf_dump_get_enum_value(d, t, data, id, &value)) > + return 0; why not propagating error here? > + if (value == 0) > + return -ENODATA; > + return 0; > + default: > + return 0; > + } > +} > + [...] > + case BTF_KIND_ARRAY: > + err = btf_dump_array_data(d, t, id, data); > + break; > + case BTF_KIND_STRUCT: > + case BTF_KIND_UNION: > + err = btf_dump_struct_data(d, t, id, data); > + break; > + case BTF_KIND_ENUM: > + /* handle bitfield and int enum values */ > + if (bit_sz) { > + unsigned __int128 print_num; > + __s64 enum_val; > + > + print_num = btf_dump_bitfield_get_data(d, t, data, bits_offset, bit_sz); > + enum_val = (__s64)print_num; > + err = btf_dump_enum_data(d, t, id, &enum_val); this is broken on big-endian, no? Basically almost always it will be printing either 0, -1 or 0xffffffff?.. > + } else > + err = btf_dump_enum_data(d, t, id, data); > + break; > + case BTF_KIND_VAR: > + err = btf_dump_var_data(d, t, id, data); > + break; > + case BTF_KIND_DATASEC: > + err = btf_dump_datasec_data(d, t, id, data); > + break; > + default: > + pr_warn("unexpected kind [%u] for id [%u]\n", > + BTF_INFO_KIND(t->info), id); > + return -EINVAL; > + } > + if (err < 0) > + return err; > + return size; > +} > + > +int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, > + const void *data, size_t data_sz, > + const struct btf_dump_type_data_opts *opts) > +{ > + const struct btf_type *t; > + int ret; > + > + if (!OPTS_VALID(opts, btf_dump_type_data_opts)) > + return libbpf_err(-EINVAL); > + > + t = btf__type_by_id(d->btf, id); > + if (!t) > + return libbpf_err(-ENOENT); > + > + d->typed_dump = calloc(1, sizeof(struct btf_dump_data)); just realized this doesn't have to be calloc()'ed, it can be on the stack zero-initialized variable; feel free to switch in the follow up as well > + if (!d->typed_dump) > + return libbpf_err(-ENOMEM); then we won't need to handle this at all > + > + d->typed_dump->data_end = data + data_sz; > + d->typed_dump->indent_lvl = OPTS_GET(opts, indent_level, 0); > + /* default indent string is a tab */ > + if (!opts->indent_str) > + d->typed_dump->indent_str[0] = '\t'; [...]
On Thu, Jul 15, 2021 at 11:24 PM Andrii Nakryiko <andrii.nakryiko@gmail.com> wrote: > > On Thu, Jul 15, 2021 at 8:15 AM Alan Maguire <alan.maguire@oracle.com> wrote: > > > > Add a BTF dumper for typed data, so that the user can dump a typed > > version of the data provided. > > > > The API is > > > > int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, > > void *data, size_t data_sz, > > const struct btf_dump_type_data_opts *opts); > > > > ...where the id is the BTF id of the data pointed to by the "void *" > > argument; for example the BTF id of "struct sk_buff" for a > > "struct skb *" data pointer. Options supported are > > > > - a starting indent level (indent_lvl) > > - a user-specified indent string which will be printed once per > > indent level; if NULL, tab is chosen but any string <= 32 chars > > can be provided. > > - a set of boolean options to control dump display, similar to those > > used for BPF helper bpf_snprintf_btf(). Options are > > - compact : omit newlines and other indentation > > - skip_names: omit member names > > - emit_zeroes: show zero-value members > > > > Default output format is identical to that dumped by bpf_snprintf_btf(), > > for example a "struct sk_buff" representation would look like this: > > > > struct sk_buff){ > > (union){ > > (struct){ > > .next = (struct sk_buff *)0xffffffffffffffff, > > .prev = (struct sk_buff *)0xffffffffffffffff, > > (union){ > > .dev = (struct net_device *)0xffffffffffffffff, > > .dev_scratch = (long unsigned int)18446744073709551615, > > }, > > }, > > ... > > > > If the data structure is larger than the *data_sz* > > number of bytes that are available in *data*, as much > > of the data as possible will be dumped and -E2BIG will > > be returned. This is useful as tracers will sometimes > > not be able to capture all of the data associated with > > a type; for example a "struct task_struct" is ~16k. > > Being able to specify that only a subset is available is > > important for such cases. On success, the amount of data > > dumped is returned. > > > > Signed-off-by: Alan Maguire <alan.maguire@oracle.com> > > --- > > Ok, this looks great. I think I found a few residual problems, so > please see comments below and address them. But I'm inclined to land > this patch set as is because it's in a good shape already, and it is > pretty, so it's hard and time-consuming to weed through minor (at this > point) changes between versions. So please send follow-up patch(es) > with fixes. Hopefully soon enough before the libbpf release. Thanks a > lot for working on this and persevering, this is a great API! > > I'll apply a patch set to bpf-next when it will open up for new patches. Thanks. Applied to bpf-next. > > > tools/lib/bpf/btf.h | 19 ++ > > tools/lib/bpf/btf_dump.c | 819 ++++++++++++++++++++++++++++++++++++++++++++++- > > tools/lib/bpf/libbpf.map | 1 + > > 3 files changed, 834 insertions(+), 5 deletions(-) > > I also wanted to call out this ^^ versus: > > a) initial kernel-sharing version: > > > 18 files changed, 3236 insertions(+), 1319 deletions(-) > > b) initial libbpf-only version: > > > 6 files changed, 1251 insertions(+), 3 deletions(-) > > And the API actually gained in supported features and correctness. > > > > > [...] > > > + > > +union float_data { > > + long double ld; > > + double d; > > + float f; > > +}; > > clever > > > + > > +static int btf_dump_float_data(struct btf_dump *d, > > + const struct btf_type *t, > > + __u32 type_id, > > + const void *data) > > +{ > > + const union float_data *flp = data; > > + union float_data fl; > > + int sz = t->size; > > + > > + /* handle unaligned data; copy to local union */ > > + if (((uintptr_t)data) % sz) { > > + memcpy(&fl, data, sz); > > + flp = &fl; > > + } > > + > > + switch (sz) { > > + case 16: > > + btf_dump_type_values(d, "%Lf", flp->ld); > > + break; > > + case 8: > > + btf_dump_type_values(d, "%lf", flp->d); > > + break; > > + case 4: > > + btf_dump_type_values(d, "%f", flp->f); > > + break; > > + default: > > + pr_warn("unexpected size %d for id [%u]\n", sz, type_id); > > + return -EINVAL; > > + } > > + return 0; > > +} > > + > > [...] > > > + > > +static int btf_dump_array_data(struct btf_dump *d, > > + const struct btf_type *t, > > + __u32 id, > > + const void *data) > > +{ > > + const struct btf_array *array = btf_array(t); > > + const struct btf_type *elem_type; > > + __u32 i, elem_size = 0, elem_type_id; > > + bool is_array_member; > > + > > + elem_type_id = array->type; > > + elem_type = skip_mods_and_typedefs(d->btf, elem_type_id, NULL); > > + elem_size = btf__resolve_size(d->btf, elem_type_id); > > + if (elem_size <= 0) { > > + pr_warn("unexpected elem size %d for array type [%u]\n", elem_size, id); > > + return -EINVAL; > > + } > > + > > + if (btf_is_int(elem_type)) { > > + /* > > + * BTF_INT_CHAR encoding never seems to be set for > > + * char arrays, so if size is 1 and element is > > + * printable as a char, we'll do that. > > + */ > > + if (elem_size == 1) > > + d->typed_dump->is_array_char = true; > > + } > > + > > + /* note that we increment depth before calling btf_dump_print() below; > > + * this is intentional. btf_dump_data_newline() will not print a > > + * newline for depth 0 (since this leaves us with trailing newlines > > + * at the end of typed display), so depth is incremented first. > > + * For similar reasons, we decrement depth before showing the closing > > + * parenthesis. > > + */ > > + d->typed_dump->depth++; > > + btf_dump_printf(d, "[%s", btf_dump_data_newline(d)); > > + > > + /* may be a multidimensional array, so store current "is array member" > > + * status so we can restore it correctly later. > > + */ > > + is_array_member = d->typed_dump->is_array_member; > > + d->typed_dump->is_array_member = true; > > + for (i = 0; i < array->nelems; i++, data += elem_size) { > > + if (d->typed_dump->is_array_terminated) > > + break; > > I suspect this logic breaks for multi-dimensional char arrays. Please > check and add follow-up tests and fixes, no need to address that in > this patch set, you've suffered enough. > > > > + btf_dump_dump_type_data(d, NULL, elem_type, elem_type_id, data, 0, 0); > > + } > > + d->typed_dump->is_array_member = is_array_member; > > + d->typed_dump->depth--; > > + btf_dump_data_pfx(d); > > + btf_dump_type_values(d, "]"); > > + > > + return 0; > > +} > > + > > +static int btf_dump_struct_data(struct btf_dump *d, > > + const struct btf_type *t, > > + __u32 id, > > + const void *data) > > +{ > > + const struct btf_member *m = btf_members(t); > > + __u16 n = btf_vlen(t); > > + int i, err; > > + > > + /* note that we increment depth before calling btf_dump_print() below; > > + * this is intentional. btf_dump_data_newline() will not print a > > + * newline for depth 0 (since this leaves us with trailing newlines > > + * at the end of typed display), so depth is incremented first. > > + * For similar reasons, we decrement depth before showing the closing > > + * parenthesis. > > + */ > > ah, ok, I see. I sort of randomly stumbled on this from a purely > aesthetic reasons, but I'm happy we clarified this because it's > completely non-obvious > > > + d->typed_dump->depth++; > > + btf_dump_printf(d, "{%s", btf_dump_data_newline(d)); > > + > > + for (i = 0; i < n; i++, m++) { > > + const struct btf_type *mtype; > > + const char *mname; > > + __u32 moffset; > > + __u8 bit_sz; > > + > > + mtype = btf__type_by_id(d->btf, m->type); > > + mname = btf_name_of(d, m->name_off); > > + moffset = btf_member_bit_offset(t, i); > > + > > + bit_sz = btf_member_bitfield_size(t, i); > > + err = btf_dump_dump_type_data(d, mname, mtype, m->type, data + moffset / 8, > > + moffset % 8, bit_sz); > > + if (err < 0) > > + return err; > > + } > > + d->typed_dump->depth--; > > + btf_dump_data_pfx(d); > > + btf_dump_type_values(d, "}"); > > + return err; > > +} > > + > > +static int btf_dump_ptr_data(struct btf_dump *d, > > + const struct btf_type *t, > > + __u32 id, > > + const void *data) > > +{ > > + btf_dump_type_values(d, "%p", *(void **)data); > > Wait, you fixed pointer zero checking logic and misaligned reads for > ints/floats, but none of that for actually printing pointers?... > Please send a follow-up fix. > > > + return 0; > > +} > > + > > +static int btf_dump_get_enum_value(struct btf_dump *d, > > + const struct btf_type *t, > > + const void *data, > > + __u32 id, > > + __s64 *value) > > +{ > > + int sz = t->size; > > + > > + /* handle unaligned enum value */ > > + if (((uintptr_t)data) % sz) { > > nit: probably worth a small helper with obvious name to avoid extra > comments and all those ((())) > > > + *value = (__s64)btf_dump_bitfield_get_data(d, t, data, 0, 0); > > + return 0; > > + } > > [...] > > > + elem_type_id = array->type; > > + elem_size = btf__resolve_size(d->btf, elem_type_id); > > + elem_type = skip_mods_and_typedefs(d->btf, elem_type_id, NULL); > > + > > + ischar = btf_is_int(elem_type) && elem_size == 1; > > + > > + /* check all elements; if _any_ element is nonzero, all > > + * of array is displayed. We make an exception however > > + * for char arrays where the first element is 0; these > > + * are considered zeroed also, even if later elements are > > + * non-zero because the string is terminated. > > + */ > > + for (i = 0; i < array->nelems; i++) { > > + if (i == 0 && ischar && *(char *)data == 0) > > + return -ENODATA; > > same here, this might be too aggressive for something like char a[2][10] ? > > > + err = btf_dump_type_data_check_zero(d, elem_type, > > + elem_type_id, > > + data + > > + (i * elem_size), > > + bits_offset, 0); > > + if (err != -ENODATA) > > + return err; > > + } > > + return -ENODATA; > > + } > > + case BTF_KIND_STRUCT: > > + case BTF_KIND_UNION: { > > + const struct btf_member *m = btf_members(t); > > + __u16 n = btf_vlen(t); > > + > > + /* if any struct/union member is non-zero, the struct/union > > + * is considered non-zero and dumped. > > + */ > > + for (i = 0; i < n; i++, m++) { > > + const struct btf_type *mtype; > > + __u32 moffset; > > + > > + mtype = btf__type_by_id(d->btf, m->type); > > + moffset = btf_member_bit_offset(t, i); > > + > > + /* btf_int_bits() does not store member bitfield size; > > + * bitfield size needs to be stored here so int display > > + * of member can retrieve it. > > + */ > > + bit_sz = btf_member_bitfield_size(t, i); > > + err = btf_dump_type_data_check_zero(d, mtype, m->type, data + moffset / 8, > > + moffset % 8, bit_sz); > > + if (err != ENODATA) > > + return err; > > + } > > + return -ENODATA; > > + } > > + case BTF_KIND_ENUM: > > + if (btf_dump_get_enum_value(d, t, data, id, &value)) > > + return 0; > > why not propagating error here? > > > + if (value == 0) > > + return -ENODATA; > > + return 0; > > + default: > > + return 0; > > + } > > +} > > + > > [...] > > > + case BTF_KIND_ARRAY: > > + err = btf_dump_array_data(d, t, id, data); > > + break; > > + case BTF_KIND_STRUCT: > > + case BTF_KIND_UNION: > > + err = btf_dump_struct_data(d, t, id, data); > > + break; > > + case BTF_KIND_ENUM: > > + /* handle bitfield and int enum values */ > > + if (bit_sz) { > > + unsigned __int128 print_num; > > + __s64 enum_val; > > + > > + print_num = btf_dump_bitfield_get_data(d, t, data, bits_offset, bit_sz); > > + enum_val = (__s64)print_num; > > + err = btf_dump_enum_data(d, t, id, &enum_val); > > this is broken on big-endian, no? Basically almost always it will be > printing either 0, -1 or 0xffffffff?.. > > > + } else > > + err = btf_dump_enum_data(d, t, id, data); > > + break; > > + case BTF_KIND_VAR: > > + err = btf_dump_var_data(d, t, id, data); > > + break; > > + case BTF_KIND_DATASEC: > > + err = btf_dump_datasec_data(d, t, id, data); > > + break; > > + default: > > + pr_warn("unexpected kind [%u] for id [%u]\n", > > + BTF_INFO_KIND(t->info), id); > > + return -EINVAL; > > + } > > + if (err < 0) > > + return err; > > + return size; > > +} > > + > > +int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, > > + const void *data, size_t data_sz, > > + const struct btf_dump_type_data_opts *opts) > > +{ > > + const struct btf_type *t; > > + int ret; > > + > > + if (!OPTS_VALID(opts, btf_dump_type_data_opts)) > > + return libbpf_err(-EINVAL); > > + > > + t = btf__type_by_id(d->btf, id); > > + if (!t) > > + return libbpf_err(-ENOENT); > > + > > + d->typed_dump = calloc(1, sizeof(struct btf_dump_data)); > > just realized this doesn't have to be calloc()'ed, it can be on the > stack zero-initialized variable; feel free to switch in the follow up > as well > > > + if (!d->typed_dump) > > + return libbpf_err(-ENOMEM); > > then we won't need to handle this at all > > > + > > + d->typed_dump->data_end = data + data_sz; > > + d->typed_dump->indent_lvl = OPTS_GET(opts, indent_level, 0); > > + /* default indent string is a tab */ > > + if (!opts->indent_str) > > + d->typed_dump->indent_str[0] = '\t'; > > [...]
On Thu, Jul 15, 2021 at 8:15 AM Alan Maguire <alan.maguire@oracle.com> wrote: > > Add a BTF dumper for typed data, so that the user can dump a typed > version of the data provided. > > The API is > > int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, > void *data, size_t data_sz, > const struct btf_dump_type_data_opts *opts); > > ...where the id is the BTF id of the data pointed to by the "void *" > argument; for example the BTF id of "struct sk_buff" for a > "struct skb *" data pointer. Options supported are > > - a starting indent level (indent_lvl) > - a user-specified indent string which will be printed once per > indent level; if NULL, tab is chosen but any string <= 32 chars > can be provided. > - a set of boolean options to control dump display, similar to those > used for BPF helper bpf_snprintf_btf(). Options are > - compact : omit newlines and other indentation > - skip_names: omit member names > - emit_zeroes: show zero-value members > > Default output format is identical to that dumped by bpf_snprintf_btf(), > for example a "struct sk_buff" representation would look like this: > > struct sk_buff){ > (union){ > (struct){ > .next = (struct sk_buff *)0xffffffffffffffff, > .prev = (struct sk_buff *)0xffffffffffffffff, > (union){ > .dev = (struct net_device *)0xffffffffffffffff, > .dev_scratch = (long unsigned int)18446744073709551615, > }, > }, > ... > > If the data structure is larger than the *data_sz* > number of bytes that are available in *data*, as much > of the data as possible will be dumped and -E2BIG will > be returned. This is useful as tracers will sometimes > not be able to capture all of the data associated with > a type; for example a "struct task_struct" is ~16k. > Being able to specify that only a subset is available is > important for such cases. On success, the amount of data > dumped is returned. > > Signed-off-by: Alan Maguire <alan.maguire@oracle.com> > --- > tools/lib/bpf/btf.h | 19 ++ > tools/lib/bpf/btf_dump.c | 819 ++++++++++++++++++++++++++++++++++++++++++++++- > tools/lib/bpf/libbpf.map | 1 + > 3 files changed, 834 insertions(+), 5 deletions(-) > [...] > +/* return size of type, or if base type overflows, return -E2BIG. */ > +static int btf_dump_type_data_check_overflow(struct btf_dump *d, > + const struct btf_type *t, > + __u32 id, > + const void *data, > + __u8 bits_offset) > +{ > + __s64 size = btf__resolve_size(d->btf, id); > + > + if (size < 0 || size >= INT_MAX) { > + pr_warn("unexpected size [%lld] for id [%u]\n", > + size, id); ppc64le arch doesn't like the %lld: In file included from btf_dump.c:22: btf_dump.c: In function 'btf_dump_type_data_check_overflow': libbpf_internal.h:111:22: error: format '%lld' expects argument of type 'long long int', but argument 3 has type '__s64' {aka 'long int'} [-Werror=format=] 111 | libbpf_print(level, "libbpf: " fmt, ##__VA_ARGS__); \ | ^~~~~~~~~~ libbpf_internal.h:114:27: note: in expansion of macro '__pr' 114 | #define pr_warn(fmt, ...) __pr(LIBBPF_WARN, fmt, ##__VA_ARGS__) | ^~~~ btf_dump.c:1992:3: note: in expansion of macro 'pr_warn' 1992 | pr_warn("unexpected size [%lld] for id [%u]\n", | ^~~~~~~ btf_dump.c:1992:32: note: format string is defined here 1992 | pr_warn("unexpected size [%lld] for id [%u]\n", | ~~~^ | | | long long int | %ld Cast to size_t and use %zu. > + return -EINVAL; > + } > + [...]
On Thu, 15 Jul 2021 at 20:46, Alan Maguire <alan.maguire@oracle.com> wrote: > > Add a BTF dumper for typed data, so that the user can dump a typed > version of the data provided. > > The API is > > int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, > void *data, size_t data_sz, > const struct btf_dump_type_data_opts *opts); > > ...where the id is the BTF id of the data pointed to by the "void *" > argument; for example the BTF id of "struct sk_buff" for a > "struct skb *" data pointer. Options supported are > > - a starting indent level (indent_lvl) > - a user-specified indent string which will be printed once per > indent level; if NULL, tab is chosen but any string <= 32 chars > can be provided. > - a set of boolean options to control dump display, similar to those > used for BPF helper bpf_snprintf_btf(). Options are > - compact : omit newlines and other indentation > - skip_names: omit member names > - emit_zeroes: show zero-value members > > Default output format is identical to that dumped by bpf_snprintf_btf(), > for example a "struct sk_buff" representation would look like this: > > struct sk_buff){ > (union){ > (struct){ > .next = (struct sk_buff *)0xffffffffffffffff, > .prev = (struct sk_buff *)0xffffffffffffffff, > (union){ > .dev = (struct net_device *)0xffffffffffffffff, > .dev_scratch = (long unsigned int)18446744073709551615, > }, > }, > ... > > If the data structure is larger than the *data_sz* > number of bytes that are available in *data*, as much > of the data as possible will be dumped and -E2BIG will > be returned. This is useful as tracers will sometimes > not be able to capture all of the data associated with > a type; for example a "struct task_struct" is ~16k. > Being able to specify that only a subset is available is > important for such cases. On success, the amount of data > dumped is returned. > > Signed-off-by: Alan Maguire <alan.maguire@oracle.com> > --- > tools/lib/bpf/btf.h | 19 ++ > tools/lib/bpf/btf_dump.c | 819 ++++++++++++++++++++++++++++++++++++++++++++++- > tools/lib/bpf/libbpf.map | 1 + > 3 files changed, 834 insertions(+), 5 deletions(-) <trim> > diff --git a/tools/lib/bpf/btf_dump.c b/tools/lib/bpf/btf_dump.c > index 5dc6b517..929cf93 100644 > --- a/tools/lib/bpf/btf_dump.c > +++ b/tools/lib/bpf/btf_dump.c Following perf build errors noticed on i386 and arm 32-bit architectures on linux next 20210719 tag with gcc-11. metadata: -------------- git_repo: https://gitlab.com/Linaro/lkft/mirrors/next/linux-next git_short_log: 08076eab6fef ( Add linux-next specific files for 20210719 ) toolchain: gcc-11 target_arch: arm and i386 > +static void btf_dump_int128(struct btf_dump *d, > + const struct btf_type *t, > + const void *data) > +{ > + __int128 num = *(__int128 *)data; btf_dump.c: In function 'btf_dump_int128': btf_dump.c:1559:9: error: expected expression before '__int128' 1559 | __int128 num = *(__int128 *)data; | ^~~~~~~~ btf_dump.c:1561:14: error: 'num' undeclared (first use in this function) 1561 | if ((num >> 64) == 0) | ^~~ btf_dump.c:1561:14: note: each undeclared identifier is reported only once for each function it appears in btf_dump.c: At top level: btf_dump.c:1568:17: error: '__int128' is not supported on this target 1568 | static unsigned __int128 btf_dump_bitfield_get_data(struct btf_dump *d, | ^~~~~~~~ btf_dump.c: In function 'btf_dump_bitfield_get_data': btf_dump.c:1576:18: error: '__int128' is not supported on this target 1576 | unsigned __int128 num = 0, ret; | ^~~~~~~~ btf_dump.c: In function 'btf_dump_bitfield_check_zero': btf_dump.c:1608:9: error: expected expression before '__int128' 1608 | __int128 check_num; | ^~~~~~~~ btf_dump.c:1610:9: error: 'check_num' undeclared (first use in this function) 1610 | check_num = btf_dump_bitfield_get_data(d, t, data, bits_offset, bit_sz); | ^~~~~~~~~ btf_dump.c: In function 'btf_dump_bitfield_data': btf_dump.c:1622:18: error: '__int128' is not supported on this target 1622 | unsigned __int128 print_num; | ^~~~~~~~ btf_dump.c: In function 'btf_dump_dump_type_data': btf_dump.c:2212:34: error: '__int128' is not supported on this target 2212 | unsigned __int128 print_num; | ^~~~~~~~ Reported-by: Linux Kernel Functional Testing <lkft@linaro.org> reference build link, build: https://builds.tuxbuild.com/1vWeCpIox9EoV35c80bwOvU9nbb/ config: https://builds.tuxbuild.com/1vWeCpIox9EoV35c80bwOvU9nbb/config steps to reproduce: --------------------- # TuxMake is a command line tool and Python library that provides # portable and repeatable Linux kernel builds across a variety of # architectures, toolchains, kernel configurations, and make targets. # # TuxMake supports the concept of runtimes. # See https://docs.tuxmake.org/runtimes/, for that to work it requires # that you install podman or docker on your system. # # To install tuxmake on your system globally: # sudo pip3 install -U tuxmake # # See https://docs.tuxmake.org/ for complete documentation. tuxmake --runtime podman --target-arch arm --toolchain gcc-11 --kconfig defconfig --kconfig-add https://builds.tuxbuild.com/1vWeCpIox9EoV35c80bwOvU9nbb/config -- Linaro LKFT https://lkft.linaro.org
On Mon, 19 Jul 2021, Naresh Kamboju wrote: > On Thu, 15 Jul 2021 at 20:46, Alan Maguire <alan.maguire@oracle.com> wrote: > > > > Add a BTF dumper for typed data, so that the user can dump a typed > > version of the data provided. > > <trim> > > > diff --git a/tools/lib/bpf/btf_dump.c b/tools/lib/bpf/btf_dump.c > > index 5dc6b517..929cf93 100644 > > --- a/tools/lib/bpf/btf_dump.c > > +++ b/tools/lib/bpf/btf_dump.c > > > Following perf build errors noticed on i386 and arm 32-bit architectures on > linux next 20210719 tag with gcc-11. > > metadata: > -------------- > git_repo: https://gitlab.com/Linaro/lkft/mirrors/next/linux-next > git_short_log: 08076eab6fef ( Add linux-next specific files for 20210719 ) > toolchain: gcc-11 > target_arch: arm and i386 > > > > +static void btf_dump_int128(struct btf_dump *d, > > + const struct btf_type *t, > > + const void *data) > > +{ > > + __int128 num = *(__int128 *)data; > > > btf_dump.c: In function 'btf_dump_int128': > btf_dump.c:1559:9: error: expected expression before '__int128' > 1559 | __int128 num = *(__int128 *)data; > | ^~~~~~~~ > btf_dump.c:1561:14: error: 'num' undeclared (first use in this function) > 1561 | if ((num >> 64) == 0) > | ^~~ > btf_dump.c:1561:14: note: each undeclared identifier is reported only > once for each function it appears in > btf_dump.c: At top level: > btf_dump.c:1568:17: error: '__int128' is not supported on this target > 1568 | static unsigned __int128 btf_dump_bitfield_get_data(struct btf_dump *d, > | ^~~~~~~~ > btf_dump.c: In function 'btf_dump_bitfield_get_data': > btf_dump.c:1576:18: error: '__int128' is not supported on this target > 1576 | unsigned __int128 num = 0, ret; > | ^~~~~~~~ > btf_dump.c: In function 'btf_dump_bitfield_check_zero': > btf_dump.c:1608:9: error: expected expression before '__int128' > 1608 | __int128 check_num; > | ^~~~~~~~ > btf_dump.c:1610:9: error: 'check_num' undeclared (first use in this function) > 1610 | check_num = btf_dump_bitfield_get_data(d, t, data, > bits_offset, bit_sz); > | ^~~~~~~~~ > btf_dump.c: In function 'btf_dump_bitfield_data': > btf_dump.c:1622:18: error: '__int128' is not supported on this target > 1622 | unsigned __int128 print_num; > | ^~~~~~~~ > btf_dump.c: In function 'btf_dump_dump_type_data': > btf_dump.c:2212:34: error: '__int128' is not supported on this target > 2212 | unsigned __int128 print_num; > | ^~~~~~~~ > > Thanks for the report Naresh! Andrii, I'm thinking the best approach might be to remove use of int128 and have the bitfield computations operate on a __u64 representation instead. With that change, we would only lose the ability to handle int128 bitfields; what do you think? I hope to have something ready shortly covering that, the non-propogation of return values and the endianness issues with enum handling - in fact the latter goes away if the bitfield computations are done for 64-bit values. Thanks! Alan
diff --git a/tools/lib/bpf/btf.h b/tools/lib/bpf/btf.h index b54f1c3..374e9f1 100644 --- a/tools/lib/bpf/btf.h +++ b/tools/lib/bpf/btf.h @@ -184,6 +184,25 @@ struct btf_dump_emit_type_decl_opts { btf_dump__emit_type_decl(struct btf_dump *d, __u32 id, const struct btf_dump_emit_type_decl_opts *opts); + +struct btf_dump_type_data_opts { + /* size of this struct, for forward/backward compatibility */ + size_t sz; + const char *indent_str; + int indent_level; + /* below match "show" flags for bpf_show_snprintf() */ + bool compact; /* no newlines/indentation */ + bool skip_names; /* skip member/type names */ + bool emit_zeroes; /* show 0-valued fields */ + size_t :0; +}; +#define btf_dump_type_data_opts__last_field emit_zeroes + +LIBBPF_API int +btf_dump__dump_type_data(struct btf_dump *d, __u32 id, + const void *data, size_t data_sz, + const struct btf_dump_type_data_opts *opts); + /* * A set of helpers for easier BTF types handling */ diff --git a/tools/lib/bpf/btf_dump.c b/tools/lib/bpf/btf_dump.c index 5dc6b517..929cf93 100644 --- a/tools/lib/bpf/btf_dump.c +++ b/tools/lib/bpf/btf_dump.c @@ -10,6 +10,8 @@ #include <stddef.h> #include <stdlib.h> #include <string.h> +#include <ctype.h> +#include <endian.h> #include <errno.h> #include <linux/err.h> #include <linux/btf.h> @@ -53,6 +55,26 @@ struct btf_dump_type_aux_state { __u8 referenced: 1; }; +/* indent string length; one indent string is added for each indent level */ +#define BTF_DATA_INDENT_STR_LEN 32 + +/* + * Common internal data for BTF type data dump operations. + */ +struct btf_dump_data { + const void *data_end; /* end of valid data to show */ + bool compact; + bool skip_names; + bool emit_zeroes; + __u8 indent_lvl; /* base indent level */ + char indent_str[BTF_DATA_INDENT_STR_LEN]; + /* below are used during iteration */ + int depth; + bool is_array_member; + bool is_array_terminated; + bool is_array_char; +}; + struct btf_dump { const struct btf *btf; const struct btf_ext *btf_ext; @@ -60,6 +82,7 @@ struct btf_dump { struct btf_dump_opts opts; int ptr_sz; bool strip_mods; + bool skip_anon_defs; int last_id; /* per-type auxiliary state */ @@ -89,6 +112,10 @@ struct btf_dump { * name occurrences */ struct hashmap *ident_names; + /* + * data for typed display; allocated if needed. + */ + struct btf_dump_data *typed_dump; }; static size_t str_hash_fn(const void *key, void *ctx) @@ -765,11 +792,11 @@ static void btf_dump_emit_type(struct btf_dump *d, __u32 id, __u32 cont_id) break; case BTF_KIND_FUNC_PROTO: { const struct btf_param *p = btf_params(t); - __u16 vlen = btf_vlen(t); + __u16 n = btf_vlen(t); int i; btf_dump_emit_type(d, t->type, cont_id); - for (i = 0; i < vlen; i++, p++) + for (i = 0; i < n; i++, p++) btf_dump_emit_type(d, p->type, cont_id); break; @@ -852,8 +879,9 @@ static void btf_dump_emit_bit_padding(const struct btf_dump *d, static void btf_dump_emit_struct_fwd(struct btf_dump *d, __u32 id, const struct btf_type *t) { - btf_dump_printf(d, "%s %s", + btf_dump_printf(d, "%s%s%s", btf_is_struct(t) ? "struct" : "union", + t->name_off ? " " : "", btf_dump_type_name(d, id)); } @@ -1259,7 +1287,7 @@ static void btf_dump_emit_type_chain(struct btf_dump *d, case BTF_KIND_UNION: btf_dump_emit_mods(d, decls); /* inline anonymous struct/union */ - if (t->name_off == 0) + if (t->name_off == 0 && !d->skip_anon_defs) btf_dump_emit_struct_def(d, id, t, lvl); else btf_dump_emit_struct_fwd(d, id, t); @@ -1267,7 +1295,7 @@ static void btf_dump_emit_type_chain(struct btf_dump *d, case BTF_KIND_ENUM: btf_dump_emit_mods(d, decls); /* inline anonymous enum */ - if (t->name_off == 0) + if (t->name_off == 0 && !d->skip_anon_defs) btf_dump_emit_enum_def(d, id, t, lvl); else btf_dump_emit_enum_fwd(d, id, t); @@ -1392,6 +1420,39 @@ static void btf_dump_emit_type_chain(struct btf_dump *d, btf_dump_emit_name(d, fname, last_was_ptr); } +/* show type name as (type_name) */ +static void btf_dump_emit_type_cast(struct btf_dump *d, __u32 id, + bool top_level) +{ + const struct btf_type *t; + + /* for array members, we don't bother emitting type name for each + * member to avoid the redundancy of + * .name = (char[4])[(char)'f',(char)'o',(char)'o',] + */ + if (d->typed_dump->is_array_member) + return; + + /* avoid type name specification for variable/section; it will be done + * for the associated variable value(s). + */ + t = btf__type_by_id(d->btf, id); + if (btf_is_var(t) || btf_is_datasec(t)) + return; + + if (top_level) + btf_dump_printf(d, "("); + + d->skip_anon_defs = true; + d->strip_mods = true; + btf_dump_emit_type_decl(d, id, "", 0); + d->strip_mods = false; + d->skip_anon_defs = false; + + if (top_level) + btf_dump_printf(d, ")"); +} + /* return number of duplicates (occurrences) of a given name */ static size_t btf_dump_name_dups(struct btf_dump *d, struct hashmap *name_map, const char *orig_name) @@ -1442,3 +1503,751 @@ static const char *btf_dump_ident_name(struct btf_dump *d, __u32 id) { return btf_dump_resolve_name(d, id, d->ident_names); } + +static int btf_dump_dump_type_data(struct btf_dump *d, + const char *fname, + const struct btf_type *t, + __u32 id, + const void *data, + __u8 bits_offset, + __u8 bit_sz); + +static const char *btf_dump_data_newline(struct btf_dump *d) +{ + return d->typed_dump->compact || d->typed_dump->depth == 0 ? "" : "\n"; +} + +static const char *btf_dump_data_delim(struct btf_dump *d) +{ + return d->typed_dump->depth == 0 ? "" : ","; +} + +static void btf_dump_data_pfx(struct btf_dump *d) +{ + int i, lvl = d->typed_dump->indent_lvl + d->typed_dump->depth; + + if (d->typed_dump->compact) + return; + + for (i = 0; i < lvl; i++) + btf_dump_printf(d, "%s", d->typed_dump->indent_str); +} + +/* A macro is used here as btf_type_value[s]() appends format specifiers + * to the format specifier passed in; these do the work of appending + * delimiters etc while the caller simply has to specify the type values + * in the format specifier + value(s). + */ +#define btf_dump_type_values(d, fmt, ...) \ + btf_dump_printf(d, fmt "%s%s", \ + ##__VA_ARGS__, \ + btf_dump_data_delim(d), \ + btf_dump_data_newline(d)) + +static int btf_dump_unsupported_data(struct btf_dump *d, + const struct btf_type *t, + __u32 id) +{ + btf_dump_printf(d, "<unsupported kind:%u>", btf_kind(t)); + return -ENOTSUP; +} + +static void btf_dump_int128(struct btf_dump *d, + const struct btf_type *t, + const void *data) +{ + __int128 num = *(__int128 *)data; + + if ((num >> 64) == 0) + btf_dump_type_values(d, "0x%llx", (long long)num); + else + btf_dump_type_values(d, "0x%llx%016llx", (long long)num >> 32, + (long long)num); +} + +static unsigned __int128 btf_dump_bitfield_get_data(struct btf_dump *d, + const struct btf_type *t, + const void *data, + __u8 bits_offset, + __u8 bit_sz) +{ + __u16 left_shift_bits, right_shift_bits; + __u8 nr_copy_bits, nr_copy_bytes; + unsigned __int128 num = 0, ret; + const __u8 *bytes = data; + int i; + + /* Bitfield value retrieval is done in two steps; first relevant bytes are + * stored in num, then we left/right shift num to eliminate irrelevant bits. + */ + nr_copy_bits = bit_sz + bits_offset; + nr_copy_bytes = t->size; +#if __BYTE_ORDER == __LITTLE_ENDIAN + for (i = nr_copy_bytes - 1; i >= 0; i--) + num = num * 256 + bytes[i]; +#elif __BYTE_ORDER == __BIG_ENDIAN + for (i = 0; i < nr_copy_bytes; i++) + num = num * 256 + bytes[i]; +#else +# error "Unrecognized __BYTE_ORDER__" +#endif + left_shift_bits = 128 - nr_copy_bits; + right_shift_bits = 128 - bit_sz; + + ret = (num << left_shift_bits) >> right_shift_bits; + + return ret; +} + +static int btf_dump_bitfield_check_zero(struct btf_dump *d, + const struct btf_type *t, + const void *data, + __u8 bits_offset, + __u8 bit_sz) +{ + __int128 check_num; + + check_num = btf_dump_bitfield_get_data(d, t, data, bits_offset, bit_sz); + if (check_num == 0) + return -ENODATA; + return 0; +} + +static int btf_dump_bitfield_data(struct btf_dump *d, + const struct btf_type *t, + const void *data, + __u8 bits_offset, + __u8 bit_sz) +{ + unsigned __int128 print_num; + + print_num = btf_dump_bitfield_get_data(d, t, data, bits_offset, bit_sz); + btf_dump_int128(d, t, &print_num); + + return 0; +} + +/* ints, floats and ptrs */ +static int btf_dump_base_type_check_zero(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data) +{ + static __u8 bytecmp[16] = {}; + int nr_bytes; + + /* For pointer types, pointer size is not defined on a per-type basis. + * On dump creation however, we store the pointer size. + */ + if (btf_kind(t) == BTF_KIND_PTR) + nr_bytes = d->ptr_sz; + else + nr_bytes = t->size; + + if (nr_bytes < 1 || nr_bytes > 16) { + pr_warn("unexpected size %d for id [%u]\n", nr_bytes, id); + return -EINVAL; + } + + if (memcmp(data, bytecmp, nr_bytes) == 0) + return -ENODATA; + return 0; +} + +static int btf_dump_int_data(struct btf_dump *d, + const struct btf_type *t, + __u32 type_id, + const void *data, + __u8 bits_offset) +{ + __u8 encoding = btf_int_encoding(t); + bool sign = encoding & BTF_INT_SIGNED; + int sz = t->size; + + if (sz == 0) { + pr_warn("unexpected size %d for id [%u]\n", sz, type_id); + return -EINVAL; + } + + /* handle packed int data - accesses of integers not aligned on + * int boundaries can cause problems on some platforms. + */ + if (((uintptr_t)data) % sz) + return btf_dump_bitfield_data(d, t, data, 0, 0); + + switch (sz) { + case 16: + btf_dump_int128(d, t, data); + break; + case 8: + if (sign) + btf_dump_type_values(d, "%lld", *(long long *)data); + else + btf_dump_type_values(d, "%llu", *(unsigned long long *)data); + break; + case 4: + if (sign) + btf_dump_type_values(d, "%d", *(__s32 *)data); + else + btf_dump_type_values(d, "%u", *(__u32 *)data); + break; + case 2: + if (sign) + btf_dump_type_values(d, "%d", *(__s16 *)data); + else + btf_dump_type_values(d, "%u", *(__u16 *)data); + break; + case 1: + if (d->typed_dump->is_array_char) { + /* check for null terminator */ + if (d->typed_dump->is_array_terminated) + break; + if (*(char *)data == '\0') { + d->typed_dump->is_array_terminated = true; + break; + } + if (isprint(*(char *)data)) { + btf_dump_type_values(d, "'%c'", *(char *)data); + break; + } + } + if (sign) + btf_dump_type_values(d, "%d", *(__s8 *)data); + else + btf_dump_type_values(d, "%u", *(__u8 *)data); + break; + default: + pr_warn("unexpected sz %d for id [%u]\n", sz, type_id); + return -EINVAL; + } + return 0; +} + +union float_data { + long double ld; + double d; + float f; +}; + +static int btf_dump_float_data(struct btf_dump *d, + const struct btf_type *t, + __u32 type_id, + const void *data) +{ + const union float_data *flp = data; + union float_data fl; + int sz = t->size; + + /* handle unaligned data; copy to local union */ + if (((uintptr_t)data) % sz) { + memcpy(&fl, data, sz); + flp = &fl; + } + + switch (sz) { + case 16: + btf_dump_type_values(d, "%Lf", flp->ld); + break; + case 8: + btf_dump_type_values(d, "%lf", flp->d); + break; + case 4: + btf_dump_type_values(d, "%f", flp->f); + break; + default: + pr_warn("unexpected size %d for id [%u]\n", sz, type_id); + return -EINVAL; + } + return 0; +} + +static int btf_dump_var_data(struct btf_dump *d, + const struct btf_type *v, + __u32 id, + const void *data) +{ + enum btf_func_linkage linkage = btf_var(v)->linkage; + const struct btf_type *t; + const char *l; + __u32 type_id; + + switch (linkage) { + case BTF_FUNC_STATIC: + l = "static "; + break; + case BTF_FUNC_EXTERN: + l = "extern "; + break; + case BTF_FUNC_GLOBAL: + default: + l = ""; + break; + } + + /* format of output here is [linkage] [type] [varname] = (type)value, + * for example "static int cpu_profile_flip = (int)1" + */ + btf_dump_printf(d, "%s", l); + type_id = v->type; + t = btf__type_by_id(d->btf, type_id); + btf_dump_emit_type_cast(d, type_id, false); + btf_dump_printf(d, " %s = ", btf_name_of(d, v->name_off)); + return btf_dump_dump_type_data(d, NULL, t, type_id, data, 0, 0); +} + +static int btf_dump_array_data(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data) +{ + const struct btf_array *array = btf_array(t); + const struct btf_type *elem_type; + __u32 i, elem_size = 0, elem_type_id; + bool is_array_member; + + elem_type_id = array->type; + elem_type = skip_mods_and_typedefs(d->btf, elem_type_id, NULL); + elem_size = btf__resolve_size(d->btf, elem_type_id); + if (elem_size <= 0) { + pr_warn("unexpected elem size %d for array type [%u]\n", elem_size, id); + return -EINVAL; + } + + if (btf_is_int(elem_type)) { + /* + * BTF_INT_CHAR encoding never seems to be set for + * char arrays, so if size is 1 and element is + * printable as a char, we'll do that. + */ + if (elem_size == 1) + d->typed_dump->is_array_char = true; + } + + /* note that we increment depth before calling btf_dump_print() below; + * this is intentional. btf_dump_data_newline() will not print a + * newline for depth 0 (since this leaves us with trailing newlines + * at the end of typed display), so depth is incremented first. + * For similar reasons, we decrement depth before showing the closing + * parenthesis. + */ + d->typed_dump->depth++; + btf_dump_printf(d, "[%s", btf_dump_data_newline(d)); + + /* may be a multidimensional array, so store current "is array member" + * status so we can restore it correctly later. + */ + is_array_member = d->typed_dump->is_array_member; + d->typed_dump->is_array_member = true; + for (i = 0; i < array->nelems; i++, data += elem_size) { + if (d->typed_dump->is_array_terminated) + break; + btf_dump_dump_type_data(d, NULL, elem_type, elem_type_id, data, 0, 0); + } + d->typed_dump->is_array_member = is_array_member; + d->typed_dump->depth--; + btf_dump_data_pfx(d); + btf_dump_type_values(d, "]"); + + return 0; +} + +static int btf_dump_struct_data(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data) +{ + const struct btf_member *m = btf_members(t); + __u16 n = btf_vlen(t); + int i, err; + + /* note that we increment depth before calling btf_dump_print() below; + * this is intentional. btf_dump_data_newline() will not print a + * newline for depth 0 (since this leaves us with trailing newlines + * at the end of typed display), so depth is incremented first. + * For similar reasons, we decrement depth before showing the closing + * parenthesis. + */ + d->typed_dump->depth++; + btf_dump_printf(d, "{%s", btf_dump_data_newline(d)); + + for (i = 0; i < n; i++, m++) { + const struct btf_type *mtype; + const char *mname; + __u32 moffset; + __u8 bit_sz; + + mtype = btf__type_by_id(d->btf, m->type); + mname = btf_name_of(d, m->name_off); + moffset = btf_member_bit_offset(t, i); + + bit_sz = btf_member_bitfield_size(t, i); + err = btf_dump_dump_type_data(d, mname, mtype, m->type, data + moffset / 8, + moffset % 8, bit_sz); + if (err < 0) + return err; + } + d->typed_dump->depth--; + btf_dump_data_pfx(d); + btf_dump_type_values(d, "}"); + return err; +} + +static int btf_dump_ptr_data(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data) +{ + btf_dump_type_values(d, "%p", *(void **)data); + return 0; +} + +static int btf_dump_get_enum_value(struct btf_dump *d, + const struct btf_type *t, + const void *data, + __u32 id, + __s64 *value) +{ + int sz = t->size; + + /* handle unaligned enum value */ + if (((uintptr_t)data) % sz) { + *value = (__s64)btf_dump_bitfield_get_data(d, t, data, 0, 0); + return 0; + } + switch (t->size) { + case 8: + *value = *(__s64 *)data; + return 0; + case 4: + *value = *(__s32 *)data; + return 0; + case 2: + *value = *(__s16 *)data; + return 0; + case 1: + *value = *(__s8 *)data; + return 0; + default: + pr_warn("unexpected size %d for enum, id:[%u]\n", t->size, id); + return -EINVAL; + } +} + +static int btf_dump_enum_data(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data) +{ + const struct btf_enum *e; + __s64 value; + int i, err; + + err = btf_dump_get_enum_value(d, t, data, id, &value); + if (err) + return err; + + for (i = 0, e = btf_enum(t); i < btf_vlen(t); i++, e++) { + if (value != e->val) + continue; + btf_dump_type_values(d, "%s", btf_name_of(d, e->name_off)); + return 0; + } + + btf_dump_type_values(d, "%d", value); + return 0; +} + +static int btf_dump_datasec_data(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data) +{ + const struct btf_var_secinfo *vsi; + const struct btf_type *var; + __u32 i; + int err; + + btf_dump_type_values(d, "SEC(\"%s\") ", btf_name_of(d, t->name_off)); + + for (i = 0, vsi = btf_var_secinfos(t); i < btf_vlen(t); i++, vsi++) { + var = btf__type_by_id(d->btf, vsi->type); + err = btf_dump_dump_type_data(d, NULL, var, vsi->type, data + vsi->offset, 0, 0); + if (err < 0) + return err; + btf_dump_printf(d, ";"); + } + return 0; +} + +/* return size of type, or if base type overflows, return -E2BIG. */ +static int btf_dump_type_data_check_overflow(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data, + __u8 bits_offset) +{ + __s64 size = btf__resolve_size(d->btf, id); + + if (size < 0 || size >= INT_MAX) { + pr_warn("unexpected size [%lld] for id [%u]\n", + size, id); + return -EINVAL; + } + + /* Only do overflow checking for base types; we do not want to + * avoid showing part of a struct, union or array, even if we + * do not have enough data to show the full object. By + * restricting overflow checking to base types we can ensure + * that partial display succeeds, while avoiding overflowing + * and using bogus data for display. + */ + t = skip_mods_and_typedefs(d->btf, id, NULL); + if (!t) { + pr_warn("unexpected error skipping mods/typedefs for id [%u]\n", + id); + return -EINVAL; + } + + switch (btf_kind(t)) { + case BTF_KIND_INT: + case BTF_KIND_FLOAT: + case BTF_KIND_PTR: + case BTF_KIND_ENUM: + if (data + bits_offset / 8 + size > d->typed_dump->data_end) + return -E2BIG; + break; + default: + break; + } + return (int)size; +} + +static int btf_dump_type_data_check_zero(struct btf_dump *d, + const struct btf_type *t, + __u32 id, + const void *data, + __u8 bits_offset, + __u8 bit_sz) +{ + __s64 value; + int i, err; + + /* toplevel exceptions; we show zero values if + * - we ask for them (emit_zeros) + * - if we are at top-level so we see "struct empty { }" + * - or if we are an array member and the array is non-empty and + * not a char array; we don't want to be in a situation where we + * have an integer array 0, 1, 0, 1 and only show non-zero values. + * If the array contains zeroes only, or is a char array starting + * with a '\0', the array-level check_zero() will prevent showing it; + * we are concerned with determining zero value at the array member + * level here. + */ + if (d->typed_dump->emit_zeroes || d->typed_dump->depth == 0 || + (d->typed_dump->is_array_member && + !d->typed_dump->is_array_char)) + return 0; + + t = skip_mods_and_typedefs(d->btf, id, NULL); + + switch (btf_kind(t)) { + case BTF_KIND_INT: + if (bit_sz) + return btf_dump_bitfield_check_zero(d, t, data, bits_offset, bit_sz); + return btf_dump_base_type_check_zero(d, t, id, data); + case BTF_KIND_FLOAT: + case BTF_KIND_PTR: + return btf_dump_base_type_check_zero(d, t, id, data); + case BTF_KIND_ARRAY: { + const struct btf_array *array = btf_array(t); + const struct btf_type *elem_type; + __u32 elem_type_id, elem_size; + bool ischar; + + elem_type_id = array->type; + elem_size = btf__resolve_size(d->btf, elem_type_id); + elem_type = skip_mods_and_typedefs(d->btf, elem_type_id, NULL); + + ischar = btf_is_int(elem_type) && elem_size == 1; + + /* check all elements; if _any_ element is nonzero, all + * of array is displayed. We make an exception however + * for char arrays where the first element is 0; these + * are considered zeroed also, even if later elements are + * non-zero because the string is terminated. + */ + for (i = 0; i < array->nelems; i++) { + if (i == 0 && ischar && *(char *)data == 0) + return -ENODATA; + err = btf_dump_type_data_check_zero(d, elem_type, + elem_type_id, + data + + (i * elem_size), + bits_offset, 0); + if (err != -ENODATA) + return err; + } + return -ENODATA; + } + case BTF_KIND_STRUCT: + case BTF_KIND_UNION: { + const struct btf_member *m = btf_members(t); + __u16 n = btf_vlen(t); + + /* if any struct/union member is non-zero, the struct/union + * is considered non-zero and dumped. + */ + for (i = 0; i < n; i++, m++) { + const struct btf_type *mtype; + __u32 moffset; + + mtype = btf__type_by_id(d->btf, m->type); + moffset = btf_member_bit_offset(t, i); + + /* btf_int_bits() does not store member bitfield size; + * bitfield size needs to be stored here so int display + * of member can retrieve it. + */ + bit_sz = btf_member_bitfield_size(t, i); + err = btf_dump_type_data_check_zero(d, mtype, m->type, data + moffset / 8, + moffset % 8, bit_sz); + if (err != ENODATA) + return err; + } + return -ENODATA; + } + case BTF_KIND_ENUM: + if (btf_dump_get_enum_value(d, t, data, id, &value)) + return 0; + if (value == 0) + return -ENODATA; + return 0; + default: + return 0; + } +} + +/* returns size of data dumped, or error. */ +static int btf_dump_dump_type_data(struct btf_dump *d, + const char *fname, + const struct btf_type *t, + __u32 id, + const void *data, + __u8 bits_offset, + __u8 bit_sz) +{ + int size, err; + + size = btf_dump_type_data_check_overflow(d, t, id, data, bits_offset); + if (size < 0) + return size; + err = btf_dump_type_data_check_zero(d, t, id, data, bits_offset, bit_sz); + if (err) { + /* zeroed data is expected and not an error, so simply skip + * dumping such data. Record other errors however. + */ + if (err == -ENODATA) + return size; + return err; + } + btf_dump_data_pfx(d); + + if (!d->typed_dump->skip_names) { + if (fname && strlen(fname) > 0) + btf_dump_printf(d, ".%s = ", fname); + btf_dump_emit_type_cast(d, id, true); + } + + t = skip_mods_and_typedefs(d->btf, id, NULL); + + switch (btf_kind(t)) { + case BTF_KIND_UNKN: + case BTF_KIND_FWD: + case BTF_KIND_FUNC: + case BTF_KIND_FUNC_PROTO: + err = btf_dump_unsupported_data(d, t, id); + break; + case BTF_KIND_INT: + if (bit_sz) + err = btf_dump_bitfield_data(d, t, data, bits_offset, bit_sz); + else + err = btf_dump_int_data(d, t, id, data, bits_offset); + break; + case BTF_KIND_FLOAT: + err = btf_dump_float_data(d, t, id, data); + break; + case BTF_KIND_PTR: + err = btf_dump_ptr_data(d, t, id, data); + break; + case BTF_KIND_ARRAY: + err = btf_dump_array_data(d, t, id, data); + break; + case BTF_KIND_STRUCT: + case BTF_KIND_UNION: + err = btf_dump_struct_data(d, t, id, data); + break; + case BTF_KIND_ENUM: + /* handle bitfield and int enum values */ + if (bit_sz) { + unsigned __int128 print_num; + __s64 enum_val; + + print_num = btf_dump_bitfield_get_data(d, t, data, bits_offset, bit_sz); + enum_val = (__s64)print_num; + err = btf_dump_enum_data(d, t, id, &enum_val); + } else + err = btf_dump_enum_data(d, t, id, data); + break; + case BTF_KIND_VAR: + err = btf_dump_var_data(d, t, id, data); + break; + case BTF_KIND_DATASEC: + err = btf_dump_datasec_data(d, t, id, data); + break; + default: + pr_warn("unexpected kind [%u] for id [%u]\n", + BTF_INFO_KIND(t->info), id); + return -EINVAL; + } + if (err < 0) + return err; + return size; +} + +int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, + const void *data, size_t data_sz, + const struct btf_dump_type_data_opts *opts) +{ + const struct btf_type *t; + int ret; + + if (!OPTS_VALID(opts, btf_dump_type_data_opts)) + return libbpf_err(-EINVAL); + + t = btf__type_by_id(d->btf, id); + if (!t) + return libbpf_err(-ENOENT); + + d->typed_dump = calloc(1, sizeof(struct btf_dump_data)); + if (!d->typed_dump) + return libbpf_err(-ENOMEM); + + d->typed_dump->data_end = data + data_sz; + d->typed_dump->indent_lvl = OPTS_GET(opts, indent_level, 0); + /* default indent string is a tab */ + if (!opts->indent_str) + d->typed_dump->indent_str[0] = '\t'; + else + strncat(d->typed_dump->indent_str, opts->indent_str, + sizeof(d->typed_dump->indent_str) - 1); + + d->typed_dump->compact = OPTS_GET(opts, compact, false); + d->typed_dump->skip_names = OPTS_GET(opts, skip_names, false); + d->typed_dump->emit_zeroes = OPTS_GET(opts, emit_zeroes, false); + + ret = btf_dump_dump_type_data(d, NULL, t, id, data, 0, 0); + + free(d->typed_dump); + + return libbpf_err(ret); +} diff --git a/tools/lib/bpf/libbpf.map b/tools/lib/bpf/libbpf.map index 944c99d..5bfc107 100644 --- a/tools/lib/bpf/libbpf.map +++ b/tools/lib/bpf/libbpf.map @@ -373,5 +373,6 @@ LIBBPF_0.5.0 { bpf_map__initial_value; bpf_map_lookup_and_delete_elem_flags; bpf_object__gen_loader; + btf_dump__dump_type_data; libbpf_set_strict_mode; } LIBBPF_0.4.0;
Add a BTF dumper for typed data, so that the user can dump a typed version of the data provided. The API is int btf_dump__dump_type_data(struct btf_dump *d, __u32 id, void *data, size_t data_sz, const struct btf_dump_type_data_opts *opts); ...where the id is the BTF id of the data pointed to by the "void *" argument; for example the BTF id of "struct sk_buff" for a "struct skb *" data pointer. Options supported are - a starting indent level (indent_lvl) - a user-specified indent string which will be printed once per indent level; if NULL, tab is chosen but any string <= 32 chars can be provided. - a set of boolean options to control dump display, similar to those used for BPF helper bpf_snprintf_btf(). Options are - compact : omit newlines and other indentation - skip_names: omit member names - emit_zeroes: show zero-value members Default output format is identical to that dumped by bpf_snprintf_btf(), for example a "struct sk_buff" representation would look like this: struct sk_buff){ (union){ (struct){ .next = (struct sk_buff *)0xffffffffffffffff, .prev = (struct sk_buff *)0xffffffffffffffff, (union){ .dev = (struct net_device *)0xffffffffffffffff, .dev_scratch = (long unsigned int)18446744073709551615, }, }, ... If the data structure is larger than the *data_sz* number of bytes that are available in *data*, as much of the data as possible will be dumped and -E2BIG will be returned. This is useful as tracers will sometimes not be able to capture all of the data associated with a type; for example a "struct task_struct" is ~16k. Being able to specify that only a subset is available is important for such cases. On success, the amount of data dumped is returned. Signed-off-by: Alan Maguire <alan.maguire@oracle.com> --- tools/lib/bpf/btf.h | 19 ++ tools/lib/bpf/btf_dump.c | 819 ++++++++++++++++++++++++++++++++++++++++++++++- tools/lib/bpf/libbpf.map | 1 + 3 files changed, 834 insertions(+), 5 deletions(-)