/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2009-2010 The FreeBSD Foundation * All rights reserved. * * This software was developed by Pawel Jakub Dawidek under sponsorship from * the FreeBSD Foundation. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "nv.h" #ifndef PJDLOG_ASSERT #include #define PJDLOG_ASSERT(...) assert(__VA_ARGS__) #endif #ifndef PJDLOG_ABORT #define PJDLOG_ABORT(...) abort() #endif #define NV_TYPE_NONE 0 #define NV_TYPE_INT8 1 #define NV_TYPE_UINT8 2 #define NV_TYPE_INT16 3 #define NV_TYPE_UINT16 4 #define NV_TYPE_INT32 5 #define NV_TYPE_UINT32 6 #define NV_TYPE_INT64 7 #define NV_TYPE_UINT64 8 #define NV_TYPE_INT8_ARRAY 9 #define NV_TYPE_UINT8_ARRAY 10 #define NV_TYPE_INT16_ARRAY 11 #define NV_TYPE_UINT16_ARRAY 12 #define NV_TYPE_INT32_ARRAY 13 #define NV_TYPE_UINT32_ARRAY 14 #define NV_TYPE_INT64_ARRAY 15 #define NV_TYPE_UINT64_ARRAY 16 #define NV_TYPE_STRING 17 #define NV_TYPE_MASK 0x7f #define NV_TYPE_FIRST NV_TYPE_INT8 #define NV_TYPE_LAST NV_TYPE_STRING #define NV_ORDER_NETWORK 0x00 #define NV_ORDER_HOST 0x80 #define NV_ORDER_MASK 0x80 #define NV_MAGIC 0xaea1e struct nv { int nv_magic; int nv_error; struct ebuf *nv_ebuf; }; struct nvhdr { uint8_t nvh_type; uint8_t nvh_namesize; uint32_t nvh_dsize; char nvh_name[0]; } __packed; #define NVH_DATA(nvh) ((unsigned char *)nvh + NVH_HSIZE(nvh)) #define NVH_HSIZE(nvh) \ (sizeof(struct nvhdr) + roundup2((nvh)->nvh_namesize, 8)) #define NVH_DSIZE(nvh) \ (((nvh)->nvh_type & NV_ORDER_MASK) == NV_ORDER_HOST ? \ (nvh)->nvh_dsize : \ le32toh((nvh)->nvh_dsize)) #define NVH_SIZE(nvh) (NVH_HSIZE(nvh) + roundup2(NVH_DSIZE(nvh), 8)) #define NV_CHECK(nv) do { \ PJDLOG_ASSERT((nv) != NULL); \ PJDLOG_ASSERT((nv)->nv_magic == NV_MAGIC); \ } while (0) static void nv_add(struct nv *nv, const unsigned char *value, size_t vsize, int type, const char *name); static void nv_addv(struct nv *nv, const unsigned char *value, size_t vsize, int type, const char *namefmt, va_list nameap); static struct nvhdr *nv_find(struct nv *nv, int type, const char *namefmt, va_list nameap); static void nv_swap(struct nvhdr *nvh, bool tohost); /* * Allocate and initialize new nv structure. * Return NULL in case of malloc(3) failure. */ struct nv * nv_alloc(void) { struct nv *nv; nv = malloc(sizeof(*nv)); if (nv == NULL) return (NULL); nv->nv_ebuf = ebuf_alloc(0); if (nv->nv_ebuf == NULL) { free(nv); return (NULL); } nv->nv_error = 0; nv->nv_magic = NV_MAGIC; return (nv); } /* * Free the given nv structure. */ void nv_free(struct nv *nv) { if (nv == NULL) return; NV_CHECK(nv); nv->nv_magic = 0; ebuf_free(nv->nv_ebuf); free(nv); } /* * Return error for the given nv structure. */ int nv_error(const struct nv *nv) { if (nv == NULL) return (ENOMEM); NV_CHECK(nv); return (nv->nv_error); } /* * Set error for the given nv structure and return previous error. */ int nv_set_error(struct nv *nv, int error) { int preverr; if (nv == NULL) return (ENOMEM); NV_CHECK(nv); preverr = nv->nv_error; nv->nv_error = error; return (preverr); } /* * Validate correctness of the entire nv structure and all its elements. * If extrap is not NULL, store number of extra bytes at the end of the buffer. */ int nv_validate(struct nv *nv, size_t *extrap) { struct nvhdr *nvh; unsigned char *data, *ptr; size_t dsize, size, vsize; int error; if (nv == NULL) { errno = ENOMEM; return (-1); } NV_CHECK(nv); PJDLOG_ASSERT(nv->nv_error == 0); /* TODO: Check that names are unique? */ error = 0; ptr = ebuf_data(nv->nv_ebuf, &size); while (size > 0) { /* * Zeros at the end of the buffer are acceptable. */ if (ptr[0] == '\0') break; /* * Minimum size at this point is size of nvhdr structure, one * character long name plus terminating '\0'. */ if (size < sizeof(*nvh) + 2) { error = EINVAL; break; } nvh = (struct nvhdr *)ptr; if (size < NVH_HSIZE(nvh)) { error = EINVAL; break; } if (nvh->nvh_name[nvh->nvh_namesize - 1] != '\0') { error = EINVAL; break; } if (strlen(nvh->nvh_name) != (size_t)(nvh->nvh_namesize - 1)) { error = EINVAL; break; } if ((nvh->nvh_type & NV_TYPE_MASK) < NV_TYPE_FIRST || (nvh->nvh_type & NV_TYPE_MASK) > NV_TYPE_LAST) { error = EINVAL; break; } dsize = NVH_DSIZE(nvh); if (dsize == 0) { error = EINVAL; break; } if (size < NVH_SIZE(nvh)) { error = EINVAL; break; } vsize = 0; switch (nvh->nvh_type & NV_TYPE_MASK) { case NV_TYPE_INT8: case NV_TYPE_UINT8: if (vsize == 0) vsize = 1; /* FALLTHROUGH */ case NV_TYPE_INT16: case NV_TYPE_UINT16: if (vsize == 0) vsize = 2; /* FALLTHROUGH */ case NV_TYPE_INT32: case NV_TYPE_UINT32: if (vsize == 0) vsize = 4; /* FALLTHROUGH */ case NV_TYPE_INT64: case NV_TYPE_UINT64: if (vsize == 0) vsize = 8; if (dsize != vsize) { error = EINVAL; break; } break; case NV_TYPE_INT8_ARRAY: case NV_TYPE_UINT8_ARRAY: break; case NV_TYPE_INT16_ARRAY: case NV_TYPE_UINT16_ARRAY: if (vsize == 0) vsize = 2; /* FALLTHROUGH */ case NV_TYPE_INT32_ARRAY: case NV_TYPE_UINT32_ARRAY: if (vsize == 0) vsize = 4; /* FALLTHROUGH */ case NV_TYPE_INT64_ARRAY: case NV_TYPE_UINT64_ARRAY: if (vsize == 0) vsize = 8; if ((dsize % vsize) != 0) { error = EINVAL; break; } break; case NV_TYPE_STRING: data = NVH_DATA(nvh); if (data[dsize - 1] != '\0') { error = EINVAL; break; } if (strlen((char *)data) != dsize - 1) { error = EINVAL; break; } break; default: PJDLOG_ABORT("invalid condition"); } if (error != 0) break; ptr += NVH_SIZE(nvh); size -= NVH_SIZE(nvh); } if (error != 0) { errno = error; if (nv->nv_error == 0) nv->nv_error = error; return (-1); } if (extrap != NULL) *extrap = size; return (0); } /* * Convert the given nv structure to network byte order and return ebuf * structure. */ struct ebuf * nv_hton(struct nv *nv) { struct nvhdr *nvh; unsigned char *ptr; size_t size; NV_CHECK(nv); PJDLOG_ASSERT(nv->nv_error == 0); ptr = ebuf_data(nv->nv_ebuf, &size); while (size > 0) { /* * Minimum size at this point is size of nvhdr structure, * one character long name plus terminating '\0'. */ PJDLOG_ASSERT(size >= sizeof(*nvh) + 2); nvh = (struct nvhdr *)ptr; PJDLOG_ASSERT(NVH_SIZE(nvh) <= size); nv_swap(nvh, false); ptr += NVH_SIZE(nvh); size -= NVH_SIZE(nvh); } return (nv->nv_ebuf); } /* * Create nv structure based on ebuf received from the network. */ struct nv * nv_ntoh(struct ebuf *eb) { struct nv *nv; size_t extra; int rerrno; PJDLOG_ASSERT(eb != NULL); nv = malloc(sizeof(*nv)); if (nv == NULL) return (NULL); nv->nv_error = 0; nv->nv_ebuf = eb; nv->nv_magic = NV_MAGIC; if (nv_validate(nv, &extra) == -1) { rerrno = errno; nv->nv_magic = 0; free(nv); errno = rerrno; return (NULL); } /* * Remove extra zeros at the end of the buffer. */ ebuf_del_tail(eb, extra); return (nv); } #define NV_DEFINE_ADD(type, TYPE) \ void \ nv_add_##type(struct nv *nv, type##_t value, const char *namefmt, ...) \ { \ va_list nameap; \ \ va_start(nameap, namefmt); \ nv_addv(nv, (unsigned char *)&value, sizeof(value), \ NV_TYPE_##TYPE, namefmt, nameap); \ va_end(nameap); \ } NV_DEFINE_ADD(int8, INT8) NV_DEFINE_ADD(uint8, UINT8) NV_DEFINE_ADD(int16, INT16) NV_DEFINE_ADD(uint16, UINT16) NV_DEFINE_ADD(int32, INT32) NV_DEFINE_ADD(uint32, UINT32) NV_DEFINE_ADD(int64, INT64) NV_DEFINE_ADD(uint64, UINT64) #undef NV_DEFINE_ADD #define NV_DEFINE_ADD_ARRAY(type, TYPE) \ void \ nv_add_##type##_array(struct nv *nv, const type##_t *value, \ size_t nsize, const char *namefmt, ...) \ { \ va_list nameap; \ \ va_start(nameap, namefmt); \ nv_addv(nv, (const unsigned char *)value, \ sizeof(value[0]) * nsize, NV_TYPE_##TYPE##_ARRAY, namefmt, \ nameap); \ va_end(nameap); \ } NV_DEFINE_ADD_ARRAY(int8, INT8) NV_DEFINE_ADD_ARRAY(uint8, UINT8) NV_DEFINE_ADD_ARRAY(int16, INT16) NV_DEFINE_ADD_ARRAY(uint16, UINT16) NV_DEFINE_ADD_ARRAY(int32, INT32) NV_DEFINE_ADD_ARRAY(uint32, UINT32) NV_DEFINE_ADD_ARRAY(int64, INT64) NV_DEFINE_ADD_ARRAY(uint64, UINT64) #undef NV_DEFINE_ADD_ARRAY void nv_add_string(struct nv *nv, const char *value, const char *namefmt, ...) { va_list nameap; size_t size; size = strlen(value) + 1; va_start(nameap, namefmt); nv_addv(nv, (const unsigned char *)value, size, NV_TYPE_STRING, namefmt, nameap); va_end(nameap); } void nv_add_stringf(struct nv *nv, const char *name, const char *valuefmt, ...) { va_list valueap; va_start(valueap, valuefmt); nv_add_stringv(nv, name, valuefmt, valueap); va_end(valueap); } void nv_add_stringv(struct nv *nv, const char *name, const char *valuefmt, va_list valueap) { char *value; ssize_t size; size = vasprintf(&value, valuefmt, valueap); if (size == -1) { if (nv->nv_error == 0) nv->nv_error = ENOMEM; return; } size++; nv_add(nv, (const unsigned char *)value, size, NV_TYPE_STRING, name); free(value); } #define NV_DEFINE_GET(type, TYPE) \ type##_t \ nv_get_##type(struct nv *nv, const char *namefmt, ...) \ { \ struct nvhdr *nvh; \ va_list nameap; \ type##_t value; \ \ va_start(nameap, namefmt); \ nvh = nv_find(nv, NV_TYPE_##TYPE, namefmt, nameap); \ va_end(nameap); \ if (nvh == NULL) \ return (0); \ PJDLOG_ASSERT((nvh->nvh_type & NV_ORDER_MASK) == NV_ORDER_HOST);\ PJDLOG_ASSERT(sizeof(value) == nvh->nvh_dsize); \ bcopy(NVH_DATA(nvh), &value, sizeof(value)); \ \ return (value); \ } NV_DEFINE_GET(int8, INT8) NV_DEFINE_GET(uint8, UINT8) NV_DEFINE_GET(int16, INT16) NV_DEFINE_GET(uint16, UINT16) NV_DEFINE_GET(int32, INT32) NV_DEFINE_GET(uint32, UINT32) NV_DEFINE_GET(int64, INT64) NV_DEFINE_GET(uint64, UINT64) #undef NV_DEFINE_GET #define NV_DEFINE_GET_ARRAY(type, TYPE) \ const type##_t * \ nv_get_##type##_array(struct nv *nv, size_t *sizep, \ const char *namefmt, ...) \ { \ struct nvhdr *nvh; \ va_list nameap; \ \ va_start(nameap, namefmt); \ nvh = nv_find(nv, NV_TYPE_##TYPE##_ARRAY, namefmt, nameap); \ va_end(nameap); \ if (nvh == NULL) \ return (NULL); \ PJDLOG_ASSERT((nvh->nvh_type & NV_ORDER_MASK) == NV_ORDER_HOST);\ PJDLOG_ASSERT((nvh->nvh_dsize % sizeof(type##_t)) == 0); \ if (sizep != NULL) \ *sizep = nvh->nvh_dsize / sizeof(type##_t); \ return ((type##_t *)(void *)NVH_DATA(nvh)); \ } NV_DEFINE_GET_ARRAY(int8, INT8) NV_DEFINE_GET_ARRAY(uint8, UINT8) NV_DEFINE_GET_ARRAY(int16, INT16) NV_DEFINE_GET_ARRAY(uint16, UINT16) NV_DEFINE_GET_ARRAY(int32, INT32) NV_DEFINE_GET_ARRAY(uint32, UINT32) NV_DEFINE_GET_ARRAY(int64, INT64) NV_DEFINE_GET_ARRAY(uint64, UINT64) #undef NV_DEFINE_GET_ARRAY const char * nv_get_string(struct nv *nv, const char *namefmt, ...) { struct nvhdr *nvh; va_list nameap; char *str; va_start(nameap, namefmt); nvh = nv_find(nv, NV_TYPE_STRING, namefmt, nameap); va_end(nameap); if (nvh == NULL) return (NULL); PJDLOG_ASSERT((nvh->nvh_type & NV_ORDER_MASK) == NV_ORDER_HOST); PJDLOG_ASSERT(nvh->nvh_dsize >= 1); str = (char *)NVH_DATA(nvh); PJDLOG_ASSERT(str[nvh->nvh_dsize - 1] == '\0'); PJDLOG_ASSERT(strlen(str) == nvh->nvh_dsize - 1); return (str); } static bool nv_vexists(struct nv *nv, const char *namefmt, va_list nameap) { struct nvhdr *nvh; int snverror, serrno; if (nv == NULL) return (false); serrno = errno; snverror = nv->nv_error; nvh = nv_find(nv, NV_TYPE_NONE, namefmt, nameap); errno = serrno; nv->nv_error = snverror; return (nvh != NULL); } bool nv_exists(struct nv *nv, const char *namefmt, ...) { va_list nameap; bool ret; va_start(nameap, namefmt); ret = nv_vexists(nv, namefmt, nameap); va_end(nameap); return (ret); } void nv_assert(struct nv *nv, const char *namefmt, ...) { va_list nameap; va_start(nameap, namefmt); PJDLOG_ASSERT(nv_vexists(nv, namefmt, nameap)); va_end(nameap); } /* * Dump content of the nv structure. */ void nv_dump(struct nv *nv) { struct nvhdr *nvh; unsigned char *data, *ptr; size_t dsize, size; unsigned int ii; bool swap; if (nv_validate(nv, NULL) == -1) { printf("error: %d\n", errno); return; } NV_CHECK(nv); PJDLOG_ASSERT(nv->nv_error == 0); ptr = ebuf_data(nv->nv_ebuf, &size); while (size > 0) { PJDLOG_ASSERT(size >= sizeof(*nvh) + 2); nvh = (struct nvhdr *)ptr; PJDLOG_ASSERT(size >= NVH_SIZE(nvh)); swap = ((nvh->nvh_type & NV_ORDER_MASK) == NV_ORDER_NETWORK); dsize = NVH_DSIZE(nvh); data = NVH_DATA(nvh); printf(" %s", nvh->nvh_name); switch (nvh->nvh_type & NV_TYPE_MASK) { case NV_TYPE_INT8: printf("(int8): %jd", (intmax_t)(*(int8_t *)data)); break; case NV_TYPE_UINT8: printf("(uint8): %ju", (uintmax_t)(*(uint8_t *)data)); break; case NV_TYPE_INT16: printf("(int16): %jd", swap ? (intmax_t)le16toh(*(int16_t *)(void *)data) : (intmax_t)*(int16_t *)(void *)data); break; case NV_TYPE_UINT16: printf("(uint16): %ju", swap ? (uintmax_t)le16toh(*(uint16_t *)(void *)data) : (uintmax_t)*(uint16_t *)(void *)data); break; case NV_TYPE_INT32: printf("(int32): %jd", swap ? (intmax_t)le32toh(*(int32_t *)(void *)data) : (intmax_t)*(int32_t *)(void *)data); break; case NV_TYPE_UINT32: printf("(uint32): %ju", swap ? (uintmax_t)le32toh(*(uint32_t *)(void *)data) : (uintmax_t)*(uint32_t *)(void *)data); break; case NV_TYPE_INT64: printf("(int64): %jd", swap ? (intmax_t)le64toh(*(int64_t *)(void *)data) : (intmax_t)*(int64_t *)(void *)data); break; case NV_TYPE_UINT64: printf("(uint64): %ju", swap ? (uintmax_t)le64toh(*(uint64_t *)(void *)data) : (uintmax_t)*(uint64_t *)(void *)data); break; case NV_TYPE_INT8_ARRAY: printf("(int8 array):"); for (ii = 0; ii < dsize; ii++) printf(" %jd", (intmax_t)((int8_t *)data)[ii]); break; case NV_TYPE_UINT8_ARRAY: printf("(uint8 array):"); for (ii = 0; ii < dsize; ii++) printf(" %ju", (uintmax_t)((uint8_t *)data)[ii]); break; case NV_TYPE_INT16_ARRAY: printf("(int16 array):"); for (ii = 0; ii < dsize / 2; ii++) { printf(" %jd", swap ? (intmax_t)le16toh(((int16_t *)(void *)data)[ii]) : (intmax_t)((int16_t *)(void *)data)[ii]); } break; case NV_TYPE_UINT16_ARRAY: printf("(uint16 array):"); for (ii = 0; ii < dsize / 2; ii++) { printf(" %ju", swap ? (uintmax_t)le16toh(((uint16_t *)(void *)data)[ii]) : (uintmax_t)((uint16_t *)(void *)data)[ii]); } break; case NV_TYPE_INT32_ARRAY: printf("(int32 array):"); for (ii = 0; ii < dsize / 4; ii++) { printf(" %jd", swap ? (intmax_t)le32toh(((int32_t *)(void *)data)[ii]) : (intmax_t)((int32_t *)(void *)data)[ii]); } break; case NV_TYPE_UINT32_ARRAY: printf("(uint32 array):"); for (ii = 0; ii < dsize / 4; ii++) { printf(" %ju", swap ? (uintmax_t)le32toh(((uint32_t *)(void *)data)[ii]) : (uintmax_t)((uint32_t *)(void *)data)[ii]); } break; case NV_TYPE_INT64_ARRAY: printf("(int64 array):"); for (ii = 0; ii < dsize / 8; ii++) { printf(" %ju", swap ? (uintmax_t)le64toh(((uint64_t *)(void *)data)[ii]) : (uintmax_t)((uint64_t *)(void *)data)[ii]); } break; case NV_TYPE_UINT64_ARRAY: printf("(uint64 array):"); for (ii = 0; ii < dsize / 8; ii++) { printf(" %ju", swap ? (uintmax_t)le64toh(((uint64_t *)(void *)data)[ii]) : (uintmax_t)((uint64_t *)(void *)data)[ii]); } break; case NV_TYPE_STRING: printf("(string): %s", (char *)data); break; default: PJDLOG_ABORT("invalid condition"); } printf("\n"); ptr += NVH_SIZE(nvh); size -= NVH_SIZE(nvh); } } /* * Local routines below. */ static void nv_add(struct nv *nv, const unsigned char *value, size_t vsize, int type, const char *name) { static unsigned char align[7]; struct nvhdr *nvh; size_t namesize; if (nv == NULL) { errno = ENOMEM; return; } NV_CHECK(nv); namesize = strlen(name) + 1; nvh = malloc(sizeof(*nvh) + roundup2(namesize, 8)); if (nvh == NULL) { if (nv->nv_error == 0) nv->nv_error = ENOMEM; return; } nvh->nvh_type = NV_ORDER_HOST | type; nvh->nvh_namesize = (uint8_t)namesize; nvh->nvh_dsize = (uint32_t)vsize; bcopy(name, nvh->nvh_name, namesize); /* Add header first. */ if (ebuf_add_tail(nv->nv_ebuf, nvh, NVH_HSIZE(nvh)) == -1) { PJDLOG_ASSERT(errno != 0); if (nv->nv_error == 0) nv->nv_error = errno; free(nvh); return; } free(nvh); /* Add the actual data. */ if (ebuf_add_tail(nv->nv_ebuf, value, vsize) == -1) { PJDLOG_ASSERT(errno != 0); if (nv->nv_error == 0) nv->nv_error = errno; return; } /* Align the data (if needed). */ vsize = roundup2(vsize, 8) - vsize; if (vsize == 0) return; PJDLOG_ASSERT(vsize > 0 && vsize <= sizeof(align)); if (ebuf_add_tail(nv->nv_ebuf, align, vsize) == -1) { PJDLOG_ASSERT(errno != 0); if (nv->nv_error == 0) nv->nv_error = errno; return; } } static void nv_addv(struct nv *nv, const unsigned char *value, size_t vsize, int type, const char *namefmt, va_list nameap) { char name[255]; size_t namesize; namesize = vsnprintf(name, sizeof(name), namefmt, nameap); PJDLOG_ASSERT(namesize > 0 && namesize < sizeof(name)); nv_add(nv, value, vsize, type, name); } static struct nvhdr * nv_find(struct nv *nv, int type, const char *namefmt, va_list nameap) { char name[255]; struct nvhdr *nvh; unsigned char *ptr; size_t size, namesize; if (nv == NULL) { errno = ENOMEM; return (NULL); } NV_CHECK(nv); namesize = vsnprintf(name, sizeof(name), namefmt, nameap); PJDLOG_ASSERT(namesize > 0 && namesize < sizeof(name)); namesize++; ptr = ebuf_data(nv->nv_ebuf, &size); while (size > 0) { PJDLOG_ASSERT(size >= sizeof(*nvh) + 2); nvh = (struct nvhdr *)ptr; PJDLOG_ASSERT(size >= NVH_SIZE(nvh)); nv_swap(nvh, true); if (strcmp(nvh->nvh_name, name) == 0) { if (type != NV_TYPE_NONE && (nvh->nvh_type & NV_TYPE_MASK) != type) { errno = EINVAL; if (nv->nv_error == 0) nv->nv_error = EINVAL; return (NULL); } return (nvh); } ptr += NVH_SIZE(nvh); size -= NVH_SIZE(nvh); } errno = ENOENT; if (nv->nv_error == 0) nv->nv_error = ENOENT; return (NULL); } static void nv_swap(struct nvhdr *nvh, bool tohost) { unsigned char *data, *end, *p; size_t vsize; data = NVH_DATA(nvh); if (tohost) { if ((nvh->nvh_type & NV_ORDER_MASK) == NV_ORDER_HOST) return; nvh->nvh_dsize = le32toh(nvh->nvh_dsize); end = data + nvh->nvh_dsize; nvh->nvh_type &= ~NV_ORDER_MASK; nvh->nvh_type |= NV_ORDER_HOST; } else { if ((nvh->nvh_type & NV_ORDER_MASK) == NV_ORDER_NETWORK) return; end = data + nvh->nvh_dsize; nvh->nvh_dsize = htole32(nvh->nvh_dsize); nvh->nvh_type &= ~NV_ORDER_MASK; nvh->nvh_type |= NV_ORDER_NETWORK; } vsize = 0; switch (nvh->nvh_type & NV_TYPE_MASK) { case NV_TYPE_INT8: case NV_TYPE_UINT8: case NV_TYPE_INT8_ARRAY: case NV_TYPE_UINT8_ARRAY: break; case NV_TYPE_INT16: case NV_TYPE_UINT16: case NV_TYPE_INT16_ARRAY: case NV_TYPE_UINT16_ARRAY: if (vsize == 0) vsize = 2; /* FALLTHROUGH */ case NV_TYPE_INT32: case NV_TYPE_UINT32: case NV_TYPE_INT32_ARRAY: case NV_TYPE_UINT32_ARRAY: if (vsize == 0) vsize = 4; /* FALLTHROUGH */ case NV_TYPE_INT64: case NV_TYPE_UINT64: case NV_TYPE_INT64_ARRAY: case NV_TYPE_UINT64_ARRAY: if (vsize == 0) vsize = 8; for (p = data; p < end; p += vsize) { if (tohost) { switch (vsize) { case 2: *(uint16_t *)(void *)p = le16toh(*(uint16_t *)(void *)p); break; case 4: *(uint32_t *)(void *)p = le32toh(*(uint32_t *)(void *)p); break; case 8: *(uint64_t *)(void *)p = le64toh(*(uint64_t *)(void *)p); break; default: PJDLOG_ABORT("invalid condition"); } } else { switch (vsize) { case 2: *(uint16_t *)(void *)p = htole16(*(uint16_t *)(void *)p); break; case 4: *(uint32_t *)(void *)p = htole32(*(uint32_t *)(void *)p); break; case 8: *(uint64_t *)(void *)p = htole64(*(uint64_t *)(void *)p); break; default: PJDLOG_ABORT("invalid condition"); } } } break; case NV_TYPE_STRING: break; default: PJDLOG_ABORT("unrecognized type"); } }