/* * Copyright (C) 2017 Netronome Systems, Inc. * * This software is dual licensed under the GNU General License Version 2, * June 1991 as shown in the file COPYING in the top-level directory of this * source tree or the BSD 2-Clause License provided below. You have the * option to license this software under the complete terms of either license. * * The BSD 2-Clause License: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * 1. Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * 2. Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include "nfp_asm.h" #include "nfp_main.h" #include "nfpcore/nfp.h" #include "nfpcore/nfp_nffw.h" #define NFP_DUMP_SPEC_RTSYM "_abi_dump_spec" #define ALIGN8(x) ALIGN(x, 8) enum nfp_dumpspec_type { NFP_DUMPSPEC_TYPE_CPP_CSR = 0, NFP_DUMPSPEC_TYPE_XPB_CSR = 1, NFP_DUMPSPEC_TYPE_ME_CSR = 2, NFP_DUMPSPEC_TYPE_INDIRECT_ME_CSR = 3, NFP_DUMPSPEC_TYPE_RTSYM = 4, NFP_DUMPSPEC_TYPE_HWINFO = 5, NFP_DUMPSPEC_TYPE_FWNAME = 6, NFP_DUMPSPEC_TYPE_HWINFO_FIELD = 7, NFP_DUMPSPEC_TYPE_PROLOG = 10000, NFP_DUMPSPEC_TYPE_ERROR = 10001, }; /* The following structs must be carefully aligned so that they can be used to * interpret the binary dumpspec and populate the dump data in a deterministic * way. */ /* generic type plus length */ struct nfp_dump_tl { __be32 type; __be32 length; /* chunk length to follow, aligned to 8 bytes */ char data[0]; }; /* NFP CPP parameters */ struct nfp_dumpspec_cpp_isl_id { u8 target; u8 action; u8 token; u8 island; }; struct nfp_dump_common_cpp { struct nfp_dumpspec_cpp_isl_id cpp_id; __be32 offset; /* address to start dump */ __be32 dump_length; /* total bytes to dump, aligned to reg size */ }; /* CSR dumpables */ struct nfp_dumpspec_csr { struct nfp_dump_tl tl; struct nfp_dump_common_cpp cpp; __be32 register_width; /* in bits */ }; struct nfp_dumpspec_rtsym { struct nfp_dump_tl tl; char rtsym[0]; }; /* header for register dumpable */ struct nfp_dump_csr { struct nfp_dump_tl tl; struct nfp_dump_common_cpp cpp; __be32 register_width; /* in bits */ __be32 error; /* error code encountered while reading */ __be32 error_offset; /* offset being read when error occurred */ }; struct nfp_dump_rtsym { struct nfp_dump_tl tl; struct nfp_dump_common_cpp cpp; __be32 error; /* error code encountered while reading */ u8 padded_name_length; /* pad so data starts at 8 byte boundary */ char rtsym[0]; /* after padded_name_length, there is dump_length data */ }; struct nfp_dump_prolog { struct nfp_dump_tl tl; __be32 dump_level; }; struct nfp_dump_error { struct nfp_dump_tl tl; __be32 error; char padding[4]; char spec[0]; }; /* to track state through debug size calculation TLV traversal */ struct nfp_level_size { __be32 requested_level; /* input */ u32 total_size; /* output */ }; /* to track state during debug dump creation TLV traversal */ struct nfp_dump_state { __be32 requested_level; /* input param */ u32 dumped_size; /* adds up to size of dumped data */ u32 buf_size; /* size of buffer pointer to by p */ void *p; /* current point in dump buffer */ }; typedef int (*nfp_tlv_visit)(struct nfp_pf *pf, struct nfp_dump_tl *tl, void *param); static int nfp_traverse_tlvs(struct nfp_pf *pf, void *data, u32 data_length, void *param, nfp_tlv_visit tlv_visit) { long long remaining = data_length; struct nfp_dump_tl *tl; u32 total_tlv_size; void *p = data; int err; while (remaining >= sizeof(*tl)) { tl = p; if (!tl->type && !tl->length) break; if (be32_to_cpu(tl->length) > remaining - sizeof(*tl)) return -EINVAL; total_tlv_size = sizeof(*tl) + be32_to_cpu(tl->length); /* Spec TLVs should be aligned to 4 bytes. */ if (total_tlv_size % 4 != 0) return -EINVAL; p += total_tlv_size; remaining -= total_tlv_size; err = tlv_visit(pf, tl, param); if (err) return err; } return 0; } static u32 nfp_get_numeric_cpp_id(struct nfp_dumpspec_cpp_isl_id *cpp_id) { return NFP_CPP_ISLAND_ID(cpp_id->target, cpp_id->action, cpp_id->token, cpp_id->island); } struct nfp_dumpspec * nfp_net_dump_load_dumpspec(struct nfp_cpp *cpp, struct nfp_rtsym_table *rtbl) { const struct nfp_rtsym *specsym; struct nfp_dumpspec *dumpspec; int bytes_read; u32 cpp_id; specsym = nfp_rtsym_lookup(rtbl, NFP_DUMP_SPEC_RTSYM); if (!specsym) return NULL; /* expected size of this buffer is in the order of tens of kilobytes */ dumpspec = vmalloc(sizeof(*dumpspec) + specsym->size); if (!dumpspec) return NULL; dumpspec->size = specsym->size; cpp_id = NFP_CPP_ISLAND_ID(specsym->target, NFP_CPP_ACTION_RW, 0, specsym->domain); bytes_read = nfp_cpp_read(cpp, cpp_id, specsym->addr, dumpspec->data, specsym->size); if (bytes_read != specsym->size) { vfree(dumpspec); nfp_warn(cpp, "Debug dump specification read failed.\n"); return NULL; } return dumpspec; } static int nfp_dump_error_tlv_size(struct nfp_dump_tl *spec) { return ALIGN8(sizeof(struct nfp_dump_error) + sizeof(*spec) + be32_to_cpu(spec->length)); } static int nfp_calc_fwname_tlv_size(struct nfp_pf *pf) { u32 fwname_len = strlen(nfp_mip_name(pf->mip)); return sizeof(struct nfp_dump_tl) + ALIGN8(fwname_len + 1); } static int nfp_calc_hwinfo_field_sz(struct nfp_pf *pf, struct nfp_dump_tl *spec) { u32 tl_len, key_len; const char *value; tl_len = be32_to_cpu(spec->length); key_len = strnlen(spec->data, tl_len); if (key_len == tl_len) return nfp_dump_error_tlv_size(spec); value = nfp_hwinfo_lookup(pf->hwinfo, spec->data); if (!value) return nfp_dump_error_tlv_size(spec); return sizeof(struct nfp_dump_tl) + ALIGN8(key_len + strlen(value) + 2); } static bool nfp_csr_spec_valid(struct nfp_dumpspec_csr *spec_csr) { u32 required_read_sz = sizeof(*spec_csr) - sizeof(spec_csr->tl); u32 available_sz = be32_to_cpu(spec_csr->tl.length); u32 reg_width; if (available_sz < required_read_sz) return false; reg_width = be32_to_cpu(spec_csr->register_width); return reg_width == 32 || reg_width == 64; } static int nfp_calc_rtsym_dump_sz(struct nfp_pf *pf, struct nfp_dump_tl *spec) { struct nfp_rtsym_table *rtbl = pf->rtbl; struct nfp_dumpspec_rtsym *spec_rtsym; const struct nfp_rtsym *sym; u32 tl_len, key_len; spec_rtsym = (struct nfp_dumpspec_rtsym *)spec; tl_len = be32_to_cpu(spec->length); key_len = strnlen(spec_rtsym->rtsym, tl_len); if (key_len == tl_len) return nfp_dump_error_tlv_size(spec); sym = nfp_rtsym_lookup(rtbl, spec_rtsym->rtsym); if (!sym) return nfp_dump_error_tlv_size(spec); return ALIGN8(offsetof(struct nfp_dump_rtsym, rtsym) + key_len + 1) + ALIGN8(sym->size); } static int nfp_add_tlv_size(struct nfp_pf *pf, struct nfp_dump_tl *tl, void *param) { struct nfp_dumpspec_csr *spec_csr; u32 *size = param; u32 hwinfo_size; switch (be32_to_cpu(tl->type)) { case NFP_DUMPSPEC_TYPE_FWNAME: *size += nfp_calc_fwname_tlv_size(pf); break; case NFP_DUMPSPEC_TYPE_CPP_CSR: case NFP_DUMPSPEC_TYPE_XPB_CSR: case NFP_DUMPSPEC_TYPE_ME_CSR: spec_csr = (struct nfp_dumpspec_csr *)tl; if (!nfp_csr_spec_valid(spec_csr)) *size += nfp_dump_error_tlv_size(tl); else *size += ALIGN8(sizeof(struct nfp_dump_csr)) + ALIGN8(be32_to_cpu(spec_csr->cpp.dump_length)); break; case NFP_DUMPSPEC_TYPE_INDIRECT_ME_CSR: spec_csr = (struct nfp_dumpspec_csr *)tl; if (!nfp_csr_spec_valid(spec_csr)) *size += nfp_dump_error_tlv_size(tl); else *size += ALIGN8(sizeof(struct nfp_dump_csr)) + ALIGN8(be32_to_cpu(spec_csr->cpp.dump_length) * NFP_IND_NUM_CONTEXTS); break; case NFP_DUMPSPEC_TYPE_RTSYM: *size += nfp_calc_rtsym_dump_sz(pf, tl); break; case NFP_DUMPSPEC_TYPE_HWINFO: hwinfo_size = nfp_hwinfo_get_packed_str_size(pf->hwinfo); *size += sizeof(struct nfp_dump_tl) + ALIGN8(hwinfo_size); break; case NFP_DUMPSPEC_TYPE_HWINFO_FIELD: *size += nfp_calc_hwinfo_field_sz(pf, tl); break; default: *size += nfp_dump_error_tlv_size(tl); break; } return 0; } static int nfp_calc_specific_level_size(struct nfp_pf *pf, struct nfp_dump_tl *dump_level, void *param) { struct nfp_level_size *lev_sz = param; if (dump_level->type != lev_sz->requested_level) return 0; return nfp_traverse_tlvs(pf, dump_level->data, be32_to_cpu(dump_level->length), &lev_sz->total_size, nfp_add_tlv_size); } s64 nfp_net_dump_calculate_size(struct nfp_pf *pf, struct nfp_dumpspec *spec, u32 flag) { struct nfp_level_size lev_sz; int err; lev_sz.requested_level = cpu_to_be32(flag); lev_sz.total_size = ALIGN8(sizeof(struct nfp_dump_prolog)); err = nfp_traverse_tlvs(pf, spec->data, spec->size, &lev_sz, nfp_calc_specific_level_size); if (err) return err; return lev_sz.total_size; } static int nfp_add_tlv(u32 type, u32 total_tlv_sz, struct nfp_dump_state *dump) { struct nfp_dump_tl *tl = dump->p; if (total_tlv_sz > dump->buf_size) return -ENOSPC; if (dump->buf_size - total_tlv_sz < dump->dumped_size) return -ENOSPC; tl->type = cpu_to_be32(type); tl->length = cpu_to_be32(total_tlv_sz - sizeof(*tl)); dump->dumped_size += total_tlv_sz; dump->p += total_tlv_sz; return 0; } static int nfp_dump_error_tlv(struct nfp_dump_tl *spec, int error, struct nfp_dump_state *dump) { struct nfp_dump_error *dump_header = dump->p; u32 total_spec_size, total_size; int err; total_spec_size = sizeof(*spec) + be32_to_cpu(spec->length); total_size = ALIGN8(sizeof(*dump_header) + total_spec_size); err = nfp_add_tlv(NFP_DUMPSPEC_TYPE_ERROR, total_size, dump); if (err) return err; dump_header->error = cpu_to_be32(error); memcpy(dump_header->spec, spec, total_spec_size); return 0; } static int nfp_dump_fwname(struct nfp_pf *pf, struct nfp_dump_state *dump) { struct nfp_dump_tl *dump_header = dump->p; u32 fwname_len, total_size; const char *fwname; int err; fwname = nfp_mip_name(pf->mip); fwname_len = strlen(fwname); total_size = sizeof(*dump_header) + ALIGN8(fwname_len + 1); err = nfp_add_tlv(NFP_DUMPSPEC_TYPE_FWNAME, total_size, dump); if (err) return err; memcpy(dump_header->data, fwname, fwname_len); return 0; } static int nfp_dump_hwinfo(struct nfp_pf *pf, struct nfp_dump_tl *spec, struct nfp_dump_state *dump) { struct nfp_dump_tl *dump_header = dump->p; u32 hwinfo_size, total_size; char *hwinfo; int err; hwinfo = nfp_hwinfo_get_packed_strings(pf->hwinfo); hwinfo_size = nfp_hwinfo_get_packed_str_size(pf->hwinfo); total_size = sizeof(*dump_header) + ALIGN8(hwinfo_size); err = nfp_add_tlv(NFP_DUMPSPEC_TYPE_HWINFO, total_size, dump); if (err) return err; memcpy(dump_header->data, hwinfo, hwinfo_size); return 0; } static int nfp_dump_hwinfo_field(struct nfp_pf *pf, struct nfp_dump_tl *spec, struct nfp_dump_state *dump) { struct nfp_dump_tl *dump_header = dump->p; u32 tl_len, key_len, val_len; const char *key, *value; u32 total_size; int err; tl_len = be32_to_cpu(spec->length); key_len = strnlen(spec->data, tl_len); if (key_len == tl_len) return nfp_dump_error_tlv(spec, -EINVAL, dump); key = spec->data; value = nfp_hwinfo_lookup(pf->hwinfo, key); if (!value) return nfp_dump_error_tlv(spec, -ENOENT, dump); val_len = strlen(value); total_size = sizeof(*dump_header) + ALIGN8(key_len + val_len + 2); err = nfp_add_tlv(NFP_DUMPSPEC_TYPE_HWINFO_FIELD, total_size, dump); if (err) return err; memcpy(dump_header->data, key, key_len + 1); memcpy(dump_header->data + key_len + 1, value, val_len + 1); return 0; } static int nfp_dump_csr_range(struct nfp_pf *pf, struct nfp_dumpspec_csr *spec_csr, struct nfp_dump_state *dump) { struct nfp_dump_csr *dump_header = dump->p; u32 reg_sz, header_size, total_size; u32 cpp_rd_addr, max_rd_addr; int bytes_read; void *dest; u32 cpp_id; int err; if (!nfp_csr_spec_valid(spec_csr)) return nfp_dump_error_tlv(&spec_csr->tl, -EINVAL, dump); reg_sz = be32_to_cpu(spec_csr->register_width) / BITS_PER_BYTE; header_size = ALIGN8(sizeof(*dump_header)); total_size = header_size + ALIGN8(be32_to_cpu(spec_csr->cpp.dump_length)); dest = dump->p + header_size; err = nfp_add_tlv(be32_to_cpu(spec_csr->tl.type), total_size, dump); if (err) return err; dump_header->cpp = spec_csr->cpp; dump_header->register_width = spec_csr->register_width; cpp_id = nfp_get_numeric_cpp_id(&spec_csr->cpp.cpp_id); cpp_rd_addr = be32_to_cpu(spec_csr->cpp.offset); max_rd_addr = cpp_rd_addr + be32_to_cpu(spec_csr->cpp.dump_length); while (cpp_rd_addr < max_rd_addr) { bytes_read = nfp_cpp_read(pf->cpp, cpp_id, cpp_rd_addr, dest, reg_sz); if (bytes_read != reg_sz) { if (bytes_read >= 0) bytes_read = -EIO; dump_header->error = cpu_to_be32(bytes_read); dump_header->error_offset = cpu_to_be32(cpp_rd_addr); break; } cpp_rd_addr += reg_sz; dest += reg_sz; } return 0; } /* Write context to CSRCtxPtr, then read from it. Then the value can be read * from IndCtxStatus. */ static int nfp_read_indirect_csr(struct nfp_cpp *cpp, struct nfp_dumpspec_cpp_isl_id cpp_params, u32 offset, u32 reg_sz, u32 context, void *dest) { u32 csr_ctx_ptr_offs; u32 cpp_id; int result; csr_ctx_ptr_offs = nfp_get_ind_csr_ctx_ptr_offs(offset); cpp_id = NFP_CPP_ISLAND_ID(cpp_params.target, NFP_IND_ME_REFL_WR_SIG_INIT, cpp_params.token, cpp_params.island); result = nfp_cpp_writel(cpp, cpp_id, csr_ctx_ptr_offs, context); if (result != sizeof(context)) return result < 0 ? result : -EIO; cpp_id = nfp_get_numeric_cpp_id(&cpp_params); result = nfp_cpp_read(cpp, cpp_id, csr_ctx_ptr_offs, dest, reg_sz); if (result != reg_sz) return result < 0 ? result : -EIO; result = nfp_cpp_read(cpp, cpp_id, offset, dest, reg_sz); if (result != reg_sz) return result < 0 ? result : -EIO; return 0; } static int nfp_read_all_indirect_csr_ctx(struct nfp_cpp *cpp, struct nfp_dumpspec_csr *spec_csr, u32 address, u32 reg_sz, void *dest) { u32 ctx; int err; for (ctx = 0; ctx < NFP_IND_NUM_CONTEXTS; ctx++) { err = nfp_read_indirect_csr(cpp, spec_csr->cpp.cpp_id, address, reg_sz, ctx, dest + ctx * reg_sz); if (err) return err; } return 0; } static int nfp_dump_indirect_csr_range(struct nfp_pf *pf, struct nfp_dumpspec_csr *spec_csr, struct nfp_dump_state *dump) { struct nfp_dump_csr *dump_header = dump->p; u32 reg_sz, header_size, total_size; u32 cpp_rd_addr, max_rd_addr; u32 reg_data_length; void *dest; int err; if (!nfp_csr_spec_valid(spec_csr)) return nfp_dump_error_tlv(&spec_csr->tl, -EINVAL, dump); reg_sz = be32_to_cpu(spec_csr->register_width) / BITS_PER_BYTE; header_size = ALIGN8(sizeof(*dump_header)); reg_data_length = be32_to_cpu(spec_csr->cpp.dump_length) * NFP_IND_NUM_CONTEXTS; total_size = header_size + ALIGN8(reg_data_length); dest = dump->p + header_size; err = nfp_add_tlv(be32_to_cpu(spec_csr->tl.type), total_size, dump); if (err) return err; dump_header->cpp = spec_csr->cpp; dump_header->register_width = spec_csr->register_width; cpp_rd_addr = be32_to_cpu(spec_csr->cpp.offset); max_rd_addr = cpp_rd_addr + be32_to_cpu(spec_csr->cpp.dump_length); while (cpp_rd_addr < max_rd_addr) { err = nfp_read_all_indirect_csr_ctx(pf->cpp, spec_csr, cpp_rd_addr, reg_sz, dest); if (err) { dump_header->error = cpu_to_be32(err); dump_header->error_offset = cpu_to_be32(cpp_rd_addr); break; } cpp_rd_addr += reg_sz; dest += reg_sz * NFP_IND_NUM_CONTEXTS; } return 0; } static int nfp_dump_single_rtsym(struct nfp_pf *pf, struct nfp_dumpspec_rtsym *spec, struct nfp_dump_state *dump) { struct nfp_dump_rtsym *dump_header = dump->p; struct nfp_dumpspec_cpp_isl_id cpp_params; struct nfp_rtsym_table *rtbl = pf->rtbl; const struct nfp_rtsym *sym; u32 header_size, total_size; u32 tl_len, key_len; int bytes_read; u32 cpp_id; void *dest; int err; tl_len = be32_to_cpu(spec->tl.length); key_len = strnlen(spec->rtsym, tl_len); if (key_len == tl_len) return nfp_dump_error_tlv(&spec->tl, -EINVAL, dump); sym = nfp_rtsym_lookup(rtbl, spec->rtsym); if (!sym) return nfp_dump_error_tlv(&spec->tl, -ENOENT, dump); header_size = ALIGN8(offsetof(struct nfp_dump_rtsym, rtsym) + key_len + 1); total_size = header_size + ALIGN8(sym->size); dest = dump->p + header_size; err = nfp_add_tlv(be32_to_cpu(spec->tl.type), total_size, dump); if (err) return err; dump_header->padded_name_length = header_size - offsetof(struct nfp_dump_rtsym, rtsym); memcpy(dump_header->rtsym, spec->rtsym, key_len + 1); cpp_params.target = sym->target; cpp_params.action = NFP_CPP_ACTION_RW; cpp_params.token = 0; cpp_params.island = sym->domain; cpp_id = nfp_get_numeric_cpp_id(&cpp_params); dump_header->cpp.cpp_id = cpp_params; dump_header->cpp.offset = cpu_to_be32(sym->addr); dump_header->cpp.dump_length = cpu_to_be32(sym->size); bytes_read = nfp_cpp_read(pf->cpp, cpp_id, sym->addr, dest, sym->size); if (bytes_read != sym->size) { if (bytes_read >= 0) bytes_read = -EIO; dump_header->error = cpu_to_be32(bytes_read); } return 0; } static int nfp_dump_for_tlv(struct nfp_pf *pf, struct nfp_dump_tl *tl, void *param) { struct nfp_dumpspec_rtsym *spec_rtsym; struct nfp_dump_state *dump = param; struct nfp_dumpspec_csr *spec_csr; int err; switch (be32_to_cpu(tl->type)) { case NFP_DUMPSPEC_TYPE_FWNAME: err = nfp_dump_fwname(pf, dump); if (err) return err; break; case NFP_DUMPSPEC_TYPE_CPP_CSR: case NFP_DUMPSPEC_TYPE_XPB_CSR: case NFP_DUMPSPEC_TYPE_ME_CSR: spec_csr = (struct nfp_dumpspec_csr *)tl; err = nfp_dump_csr_range(pf, spec_csr, dump); if (err) return err; break; case NFP_DUMPSPEC_TYPE_INDIRECT_ME_CSR: spec_csr = (struct nfp_dumpspec_csr *)tl; err = nfp_dump_indirect_csr_range(pf, spec_csr, dump); if (err) return err; break; case NFP_DUMPSPEC_TYPE_RTSYM: spec_rtsym = (struct nfp_dumpspec_rtsym *)tl; err = nfp_dump_single_rtsym(pf, spec_rtsym, dump); if (err) return err; break; case NFP_DUMPSPEC_TYPE_HWINFO: err = nfp_dump_hwinfo(pf, tl, dump); if (err) return err; break; case NFP_DUMPSPEC_TYPE_HWINFO_FIELD: err = nfp_dump_hwinfo_field(pf, tl, dump); if (err) return err; break; default: err = nfp_dump_error_tlv(tl, -EOPNOTSUPP, dump); if (err) return err; } return 0; } static int nfp_dump_specific_level(struct nfp_pf *pf, struct nfp_dump_tl *dump_level, void *param) { struct nfp_dump_state *dump = param; if (dump_level->type != dump->requested_level) return 0; return nfp_traverse_tlvs(pf, dump_level->data, be32_to_cpu(dump_level->length), dump, nfp_dump_for_tlv); } static int nfp_dump_populate_prolog(struct nfp_dump_state *dump) { struct nfp_dump_prolog *prolog = dump->p; u32 total_size; int err; total_size = ALIGN8(sizeof(*prolog)); err = nfp_add_tlv(NFP_DUMPSPEC_TYPE_PROLOG, total_size, dump); if (err) return err; prolog->dump_level = dump->requested_level; return 0; } int nfp_net_dump_populate_buffer(struct nfp_pf *pf, struct nfp_dumpspec *spec, struct ethtool_dump *dump_param, void *dest) { struct nfp_dump_state dump; int err; dump.requested_level = cpu_to_be32(dump_param->flag); dump.dumped_size = 0; dump.p = dest; dump.buf_size = dump_param->len; err = nfp_dump_populate_prolog(&dump); if (err) return err; err = nfp_traverse_tlvs(pf, spec->data, spec->size, &dump, nfp_dump_specific_level); if (err) return err; /* Set size of actual dump, to trigger warning if different from * calculated size. */ dump_param->len = dump.dumped_size; return 0; }