/*- * Copyright (c) 2015-2016 Landon Fuller * All rights reserved. * * 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, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any * redistribution must be conditioned upon including a substantially * similar Disclaimer requirement for further binary redistribution. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL * THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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 DAMAGES. */ #include #include #include #ifdef _KERNEL #include #include #include #include #include #else /* !_KERNEL */ #include #include #include #include #include #endif /* _KERNEL */ #include "bhnd_nvram_private.h" #include "bhnd_nvram_valuevar.h" static bool bhnd_nvram_ident_octet_string(const char *inp, size_t ilen, char *delim, size_t *nelem); static bool bhnd_nvram_ident_num_string(const char *inp, size_t ilen, u_int base, u_int *obase); static int bhnd_nvram_val_bcm_macaddr_filter( const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype); static int bhnd_nvram_val_bcm_macaddr_encode( bhnd_nvram_val *value, void *outp, size_t *olen, bhnd_nvram_type otype); static int bhnd_nvram_val_bcm_macaddr_string_filter( const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype); static int bhnd_nvram_val_bcm_macaddr_string_encode_elem( bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype); static const void *bhnd_nvram_val_bcm_macaddr_string_next( bhnd_nvram_val *value, const void *prev, size_t *len); static int bhnd_nvram_val_bcm_int_filter( const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype); static int bhnd_nvram_val_bcm_int_encode(bhnd_nvram_val *value, void *outp, size_t *olen, bhnd_nvram_type otype); static int bhnd_nvram_val_bcm_decimal_encode_elem( bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype); static int bhnd_nvram_val_bcm_hex_encode_elem( bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype); static int bhnd_nvram_val_bcm_leddc_filter( const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype); static int bhnd_nvram_val_bcm_leddc_encode_elem( bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype); static int bhnd_nvram_val_bcmstr_encode(bhnd_nvram_val *value, void *outp, size_t *olen, bhnd_nvram_type otype); static int bhnd_nvram_val_bcmstr_csv_filter( const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype); static const void *bhnd_nvram_val_bcmstr_csv_next(bhnd_nvram_val *value, const void *prev, size_t *len); /** * Broadcom NVRAM MAC address format. */ const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_macaddr_fmt = { .name = "bcm-macaddr", .native_type = BHND_NVRAM_TYPE_UINT8_ARRAY, .op_filter = bhnd_nvram_val_bcm_macaddr_filter, .op_encode = bhnd_nvram_val_bcm_macaddr_encode, }; /** Broadcom NVRAM MAC address string format. */ static const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_macaddr_string_fmt = { .name = "bcm-macaddr-string", .native_type = BHND_NVRAM_TYPE_STRING, .op_filter = bhnd_nvram_val_bcm_macaddr_string_filter, .op_encode_elem = bhnd_nvram_val_bcm_macaddr_string_encode_elem, .op_next = bhnd_nvram_val_bcm_macaddr_string_next, }; /** * Broadcom NVRAM LED duty-cycle format. */ const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_leddc_fmt = { .name = "bcm-leddc", .native_type = BHND_NVRAM_TYPE_UINT32, .op_filter = bhnd_nvram_val_bcm_leddc_filter, .op_encode_elem = bhnd_nvram_val_bcm_leddc_encode_elem, }; /** * Broadcom NVRAM decimal integer format. * * Extends standard integer handling, encoding the string representation of * the integer value as a decimal string: * - Positive values will be string-encoded without a prefix. * - Negative values will be string-encoded with a leading '-' sign. */ const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_decimal_fmt = { .name = "bcm-decimal", .native_type = BHND_NVRAM_TYPE_UINT64, .op_filter = bhnd_nvram_val_bcm_int_filter, .op_encode = bhnd_nvram_val_bcm_int_encode, .op_encode_elem = bhnd_nvram_val_bcm_decimal_encode_elem, }; /** * Broadcom NVRAM decimal integer format. * * Extends standard integer handling, encoding the string representation of * unsigned and positive signed integer values as an 0x-prefixed hexadecimal * string. * * For compatibility with standard Broadcom NVRAM parsing, if the integer is * both signed and negative, it will be string encoded as a negative decimal * value, not as a twos-complement hexadecimal value. */ const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_hex_fmt = { .name = "bcm-hex", .native_type = BHND_NVRAM_TYPE_UINT64, .op_filter = bhnd_nvram_val_bcm_int_filter, .op_encode = bhnd_nvram_val_bcm_int_encode, .op_encode_elem = bhnd_nvram_val_bcm_hex_encode_elem, }; /** * Broadcom NVRAM string format. * * Handles standard, comma-delimited, and octet-string values as used in * Broadcom NVRAM data. */ const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_string_fmt = { .name = "bcm-string", .native_type = BHND_NVRAM_TYPE_STRING, .op_encode = bhnd_nvram_val_bcmstr_encode, }; /** Broadcom comma-delimited string. */ static const bhnd_nvram_val_fmt bhnd_nvram_val_bcm_string_csv_fmt = { .name = "bcm-string[]", .native_type = BHND_NVRAM_TYPE_STRING, .op_filter = bhnd_nvram_val_bcmstr_csv_filter, .op_next = bhnd_nvram_val_bcmstr_csv_next, }; /* Built-in format definitions */ #define BHND_NVRAM_VAL_FMT_NATIVE(_n, _type) \ const bhnd_nvram_val_fmt bhnd_nvram_val_ ## _n ## _fmt = { \ .name = __STRING(_n), \ .native_type = BHND_NVRAM_TYPE_ ## _type, \ } BHND_NVRAM_VAL_FMT_NATIVE(uint8, UINT8); BHND_NVRAM_VAL_FMT_NATIVE(uint16, UINT16); BHND_NVRAM_VAL_FMT_NATIVE(uint32, UINT32); BHND_NVRAM_VAL_FMT_NATIVE(uint64, UINT64); BHND_NVRAM_VAL_FMT_NATIVE(int8, INT8); BHND_NVRAM_VAL_FMT_NATIVE(int16, INT16); BHND_NVRAM_VAL_FMT_NATIVE(int32, INT32); BHND_NVRAM_VAL_FMT_NATIVE(int64, INT64); BHND_NVRAM_VAL_FMT_NATIVE(char, CHAR); BHND_NVRAM_VAL_FMT_NATIVE(bool, BOOL); BHND_NVRAM_VAL_FMT_NATIVE(string, STRING); BHND_NVRAM_VAL_FMT_NATIVE(data, DATA); BHND_NVRAM_VAL_FMT_NATIVE(null, NULL); BHND_NVRAM_VAL_FMT_NATIVE(uint8_array, UINT8_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(uint16_array, UINT16_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(uint32_array, UINT32_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(uint64_array, UINT64_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(int8_array, INT8_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(int16_array, INT16_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(int32_array, INT32_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(int64_array, INT64_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(char_array, CHAR_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(bool_array, BOOL_ARRAY); BHND_NVRAM_VAL_FMT_NATIVE(string_array, STRING_ARRAY); /** * Common hex/decimal integer filter implementation. */ static int bhnd_nvram_val_bcm_int_filter(const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype) { bhnd_nvram_type itype_base; itype_base = bhnd_nvram_base_type(itype); switch (itype_base) { case BHND_NVRAM_TYPE_STRING: /* * If the input is a string, delegate to the Broadcom * string format -- preserving the original string value * takes priority over enforcing hexadecimal/integer string * formatting. */ *fmt = &bhnd_nvram_val_bcm_string_fmt; return (0); default: if (bhnd_nvram_is_int_type(itype_base)) return (0); return (EFTYPE); } } /** * Broadcom hex/decimal integer encode implementation. */ static int bhnd_nvram_val_bcm_int_encode(bhnd_nvram_val *value, void *outp, size_t *olen, bhnd_nvram_type otype) { /* If encoding to a string, format multiple elements (if any) with a * comma delimiter. */ if (otype == BHND_NVRAM_TYPE_STRING) return (bhnd_nvram_val_printf(value, "%[]s", outp, olen, ",")); return (bhnd_nvram_val_generic_encode(value, outp, olen, otype)); } /** * Broadcom hex integer encode_elem implementation. */ static int bhnd_nvram_val_bcm_hex_encode_elem(bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype) { bhnd_nvram_type itype; ssize_t width; int error; itype = bhnd_nvram_val_elem_type(value); BHND_NV_ASSERT(bhnd_nvram_is_int_type(itype), ("invalid type")); /* If not encoding as a string, perform generic value encoding */ if (otype != BHND_NVRAM_TYPE_STRING) return (bhnd_nvram_val_generic_encode_elem(value, inp, ilen, outp, olen, otype)); /* If the value is a signed, negative value, encode as a decimal * string */ if (bhnd_nvram_is_signed_type(itype)) { int64_t sval; size_t slen; bhnd_nvram_type stype; stype = BHND_NVRAM_TYPE_INT64; slen = sizeof(sval); /* Fetch 64-bit signed representation */ error = bhnd_nvram_value_coerce(inp, ilen, itype, &sval, &slen, stype); if (error) return (error); /* Decimal encoding required? */ if (sval < 0) return (bhnd_nvram_value_printf("%I64d", &sval, slen, stype, outp, olen, otype)); } /* * Encode the value as a hex string. * * Most producers of Broadcom NVRAM values zero-pad hex values out to * their native width (width * two hex characters), and we do the same * for compatibility */ width = bhnd_nvram_type_width(itype) * 2; return (bhnd_nvram_value_printf("0x%0*I64X", inp, ilen, itype, outp, olen, width)); } /** * Broadcom decimal integer encode_elem implementation. */ static int bhnd_nvram_val_bcm_decimal_encode_elem(bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype) { const char *sfmt; bhnd_nvram_type itype; itype = bhnd_nvram_val_elem_type(value); BHND_NV_ASSERT(bhnd_nvram_is_int_type(itype), ("invalid type")); /* If not encoding as a string, perform generic value encoding */ if (otype != BHND_NVRAM_TYPE_STRING) return (bhnd_nvram_val_generic_encode_elem(value, inp, ilen, outp, olen, otype)); sfmt = bhnd_nvram_is_signed_type(itype) ? "%I64d" : "%I64u"; return (bhnd_nvram_value_printf(sfmt, inp, ilen, itype, outp, olen)); } /** * Broadcom LED duty-cycle filter. */ static int bhnd_nvram_val_bcm_leddc_filter(const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype) { const char *p; size_t plen; switch (itype) { case BHND_NVRAM_TYPE_UINT16: case BHND_NVRAM_TYPE_UINT32: return (0); case BHND_NVRAM_TYPE_STRING: /* Trim any whitespace */ p = inp; plen = bhnd_nvram_trim_field(&p, ilen, '\0'); /* If the value is not a valid integer string, delegate to the * Broadcom string format */ if (!bhnd_nvram_ident_num_string(p, plen, 0, NULL)) *fmt = &bhnd_nvram_val_bcm_string_fmt; return (0); default: return (EFTYPE); } } /** * Broadcom LED duty-cycle encode. */ static int bhnd_nvram_val_bcm_leddc_encode_elem(bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype) { bhnd_nvram_type itype; size_t limit, nbytes; int error; uint16_t led16; uint32_t led32; bool led16_lossy; union { uint16_t u16; uint32_t u32; } strval; /* * LED duty-cycle values represent the on/off periods as a 32-bit * integer, with the top 16 bits representing on cycles, and the * bottom 16 representing off cycles. * * LED duty cycle values have three different formats: * * - SPROM: A 16-bit unsigned integer, with on/off cycles encoded * as 8-bit values. * - NVRAM: A 16-bit decimal or hexadecimal string, with on/off * cycles encoded as 8-bit values as per the SPROM format. * - NVRAM: A 32-bit decimal or hexadecimal string, with on/off * cycles encoded as 16-bit values. * * To convert from a 16-bit representation to a 32-bit representation: * ((value & 0xFF00) << 16) | ((value & 0x00FF) << 8) * * To convert from a 32-bit representation to a 16-bit representation, * perform the same operation in reverse, discarding the lower 8-bits * of each half of the 32-bit representation: * ((value >> 16) & 0xFF00) | ((value >> 8) & 0x00FF) */ itype = bhnd_nvram_val_elem_type(value); nbytes = 0; led16_lossy = false; /* Determine output byte limit */ if (outp != NULL) limit = *olen; else limit = 0; /* If the input/output types match, just delegate to standard value * encoding support */ if (otype == itype) { return (bhnd_nvram_value_coerce(inp, ilen, itype, outp, olen, otype)); } /* If our value is a string, it may either be a 16-bit or a 32-bit * representation of the duty cycle */ if (itype == BHND_NVRAM_TYPE_STRING) { const char *p; uint32_t ival; size_t nlen, parsed; /* Parse integer value */ p = inp; nlen = sizeof(ival); error = bhnd_nvram_parse_int(p, ilen, 0, &parsed, &ival, &nlen, BHND_NVRAM_TYPE_UINT32); if (error) return (error); /* Trailing garbage? */ if (parsed < ilen && *(p+parsed) != '\0') return (EFTYPE); /* Point inp and itype to either our parsed 32-bit or 16-bit * value */ inp = &strval; if (ival & 0xFFFF0000) { strval.u32 = ival; itype = BHND_NVRAM_TYPE_UINT32; } else { strval.u16 = ival; itype = BHND_NVRAM_TYPE_UINT16; } } /* Populate both u32 and (possibly lossy) u16 LEDDC representations */ switch (itype) { case BHND_NVRAM_TYPE_UINT16: { led16 = *(const uint16_t *)inp; led32 = ((led16 & 0xFF00) << 16) | ((led16 & 0x00FF) << 8); /* If all bits are set in the 16-bit value (indicating that * the value is 'unset' in SPROM), we must update the 32-bit * representation to match. */ if (led16 == UINT16_MAX) led32 = UINT32_MAX; break; } case BHND_NVRAM_TYPE_UINT32: led32 = *(const uint32_t *)inp; led16 = ((led32 >> 16) & 0xFF00) | ((led32 >> 8) & 0x00FF); /* * Determine whether the led16 conversion is lossy: * * - If the lower 8 bits of each half of the 32-bit value * aren't set, we can safely use the 16-bit representation * without losing data. * - If all bits in the 32-bit value are set, the variable is * treated as unset in SPROM. We can safely use the 16-bit * representation without losing data. */ if ((led32 & 0x00FF00FF) != 0 && led32 != UINT32_MAX) led16_lossy = true; break; default: BHND_NV_PANIC("unsupported backing data type: %s", bhnd_nvram_type_name(itype)); } /* * Encode as requested output type. */ switch (otype) { case BHND_NVRAM_TYPE_STRING: /* * Prefer 16-bit format. */ if (!led16_lossy) { return (bhnd_nvram_value_printf("0x%04hX", &led16, sizeof(led16), BHND_NVRAM_TYPE_UINT16, outp, olen)); } else { return (bhnd_nvram_value_printf("0x%04X", &led32, sizeof(led32), BHND_NVRAM_TYPE_UINT32, outp, olen)); } break; case BHND_NVRAM_TYPE_UINT16: { /* Can we encode as uint16 without losing data? */ if (led16_lossy) return (ERANGE); /* Write led16 format */ nbytes += sizeof(uint16_t); if (limit >= nbytes) *(uint16_t *)outp = led16; break; } case BHND_NVRAM_TYPE_UINT32: /* Write led32 format */ nbytes += sizeof(uint32_t); if (limit >= nbytes) *(uint32_t *)outp = led32; break; default: /* No other output formats are supported */ return (EFTYPE); } /* Provide the actual length */ *olen = nbytes; /* Report insufficient space (if output was requested) */ if (limit < nbytes && outp != NULL) return (ENOMEM); return (0); } /** * Broadcom NVRAM string encoding. */ static int bhnd_nvram_val_bcmstr_encode(bhnd_nvram_val *value, void *outp, size_t *olen, bhnd_nvram_type otype) { bhnd_nvram_val array; const bhnd_nvram_val_fmt *array_fmt; const void *inp; bhnd_nvram_type itype; size_t ilen; int error; inp = bhnd_nvram_val_bytes(value, &ilen, &itype); /* If the output is not an array type (or if it's a character array), * we can fall back on standard string encoding */ if (!bhnd_nvram_is_array_type(otype) || otype == BHND_NVRAM_TYPE_CHAR_ARRAY) { return (bhnd_nvram_value_coerce(inp, ilen, itype, outp, olen, otype)); } /* Otherwise, we need to interpret our value as either a macaddr * string, or a comma-delimited string. */ inp = bhnd_nvram_val_bytes(value, &ilen, &itype); if (bhnd_nvram_ident_octet_string(inp, ilen, NULL, NULL)) array_fmt = &bhnd_nvram_val_bcm_macaddr_string_fmt; else array_fmt = &bhnd_nvram_val_bcm_string_csv_fmt; /* Wrap in array-typed representation */ error = bhnd_nvram_val_init(&array, array_fmt, inp, ilen, itype, BHND_NVRAM_VAL_BORROW_DATA); if (error) { BHND_NV_LOG("error initializing array representation: %d\n", error); return (error); } /* Ask the array-typed value to perform the encode */ error = bhnd_nvram_val_encode(&array, outp, olen, otype); if (error) BHND_NV_LOG("error encoding array representation: %d\n", error); bhnd_nvram_val_release(&array); return (error); } /** * Broadcom NVRAM comma-delimited string filter. */ static int bhnd_nvram_val_bcmstr_csv_filter(const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype) { switch (itype) { case BHND_NVRAM_TYPE_STRING: case BHND_NVRAM_TYPE_STRING_ARRAY: return (0); default: return (EFTYPE); } } /** * Broadcom NVRAM comma-delimited string iteration. */ static const void * bhnd_nvram_val_bcmstr_csv_next(bhnd_nvram_val *value, const void *prev, size_t *len) { const char *next; const char *inp; bhnd_nvram_type itype; size_t ilen, remain; char delim; /* Fetch backing representation */ inp = bhnd_nvram_val_bytes(value, &ilen, &itype); /* Fetch next value */ switch (itype) { case BHND_NVRAM_TYPE_STRING: /* Zero-length array? */ if (ilen == 0) return (NULL); if (prev == NULL) { /* First element */ next = inp; remain = ilen; delim = ','; } else { /* Advance to the previous element's delimiter */ next = (const char *)prev + *len; /* Did we hit the end of the string? */ if ((size_t)(next - inp) >= ilen) return (NULL); /* Fetch (and skip past) the delimiter */ delim = *next; next++; remain = ilen - (size_t)(next - inp); /* Was the delimiter the final character? */ if (remain == 0) return (NULL); } /* Parse the field value, up to the next delimiter */ *len = bhnd_nvram_parse_field(&next, remain, delim); return (next); case BHND_NVRAM_TYPE_STRING_ARRAY: /* Delegate to default array iteration */ return (bhnd_nvram_value_array_next(inp, ilen, itype, prev, len)); default: BHND_NV_PANIC("unsupported type: %d", itype); } } /** * MAC address filter. */ static int bhnd_nvram_val_bcm_macaddr_filter(const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype) { switch (itype) { case BHND_NVRAM_TYPE_UINT8_ARRAY: return (0); case BHND_NVRAM_TYPE_STRING: /* Let bcm_macaddr_string format handle it */ *fmt = &bhnd_nvram_val_bcm_macaddr_string_fmt; return (0); default: return (EFTYPE); } } /** * MAC address encoding. */ static int bhnd_nvram_val_bcm_macaddr_encode(bhnd_nvram_val *value, void *outp, size_t *olen, bhnd_nvram_type otype) { const void *inp; bhnd_nvram_type itype; size_t ilen; /* * If converting to a string (or a single-element string array), * produce an octet string (00:00:...). */ if (bhnd_nvram_base_type(otype) == BHND_NVRAM_TYPE_STRING) { return (bhnd_nvram_val_printf(value, "%[]02hhX", outp, olen, ":")); } /* Otherwise, use standard encoding support */ inp = bhnd_nvram_val_bytes(value, &ilen, &itype); return (bhnd_nvram_value_coerce(inp, ilen, itype, outp, olen, otype));} /** * MAC address string filter. */ static int bhnd_nvram_val_bcm_macaddr_string_filter(const bhnd_nvram_val_fmt **fmt, const void *inp, size_t ilen, bhnd_nvram_type itype) { switch (itype) { case BHND_NVRAM_TYPE_STRING: /* Use the standard Broadcom string format implementation if * the input is not an octet string. */ if (!bhnd_nvram_ident_octet_string(inp, ilen, NULL, NULL)) *fmt = &bhnd_nvram_val_bcm_string_fmt; return (0); default: return (EFTYPE); } } /** * MAC address string octet encoding. */ static int bhnd_nvram_val_bcm_macaddr_string_encode_elem(bhnd_nvram_val *value, const void *inp, size_t ilen, void *outp, size_t *olen, bhnd_nvram_type otype) { size_t nparsed; int error; /* If integer encoding is requested, explicitly parse our * non-0x-prefixed as a base 16 integer value */ if (bhnd_nvram_is_int_type(otype)) { error = bhnd_nvram_parse_int(inp, ilen, 16, &nparsed, outp, olen, otype); if (error) return (error); if (nparsed != ilen) return (EFTYPE); return (0); } /* Otherwise, use standard encoding support */ return (bhnd_nvram_value_coerce(inp, ilen, bhnd_nvram_val_elem_type(value), outp, olen, otype)); } /** * MAC address string octet iteration. */ static const void * bhnd_nvram_val_bcm_macaddr_string_next(bhnd_nvram_val *value, const void *prev, size_t *len) { const char *next; const char *str; bhnd_nvram_type stype; size_t slen, remain; char delim; /* Fetch backing string */ str = bhnd_nvram_val_bytes(value, &slen, &stype); BHND_NV_ASSERT(stype == BHND_NVRAM_TYPE_STRING, ("unsupported type: %d", stype)); /* Zero-length array? */ if (slen == 0) return (NULL); if (prev == NULL) { /* First element */ /* Determine delimiter */ if (!bhnd_nvram_ident_octet_string(str, slen, &delim, NULL)) { /* Default to comma-delimited parsing */ delim = ','; } /* Parsing will start at the base string pointer */ next = str; remain = slen; } else { /* Advance to the previous element's delimiter */ next = (const char *)prev + *len; /* Did we hit the end of the string? */ if ((size_t)(next - str) >= slen) return (NULL); /* Fetch (and skip past) the delimiter */ delim = *next; next++; remain = slen - (size_t)(next - str); /* Was the delimiter the final character? */ if (remain == 0) return (NULL); } /* Parse the field value, up to the next delimiter */ *len = bhnd_nvram_parse_field(&next, remain, delim); return (next); } /** * Determine whether @p inp is in octet string format, consisting of a * fields of two hex characters, separated with ':' or '-' delimiters. * * This may be used to identify MAC address octet strings * (BHND_NVRAM_SFMT_MACADDR). * * @param inp The string to be parsed. * @param ilen The length of @p inp, in bytes. * @param[out] delim On success, the delimiter used by this octet * string. May be set to NULL if the field * delimiter is not desired. * @param[out] nelem On success, the number of fields in this * octet string. May be set to NULL if the field * count is not desired. * * * @retval true if @p inp is a valid octet string * @retval false if @p inp is not a valid octet string. */ static bool bhnd_nvram_ident_octet_string(const char *inp, size_t ilen, char *delim, size_t *nelem) { size_t elem_count; size_t max_elem_count, min_elem_count; size_t field_count; char idelim; field_count = 0; /* Require exactly two digits. If we relax this, there is room * for ambiguity with signed integers and the '-' delimiter */ min_elem_count = 2; max_elem_count = 2; /* Identify the delimiter used. The standard delimiter for MAC * addresses is ':', but some earlier NVRAM formats may use '-' */ for (const char *d = ":-";; d++) { const char *loc; /* No delimiter found, not an octet string */ if (*d == '\0') return (false); /* Look for the delimiter */ if ((loc = memchr(inp, *d, ilen)) == NULL) continue; /* Delimiter found */ idelim = *loc; break; } /* To disambiguate from signed integers, if the delimiter is "-", * the octets must be exactly 2 chars each */ if (idelim == '-') min_elem_count = 2; /* String must be composed of individual octets (zero or more hex * digits) separated by our delimiter. */ elem_count = 0; for (const char *p = inp; (size_t)(p - inp) < ilen; p++) { switch (*p) { case ':': case '-': case '\0': /* Hit a delim character; all delims must match * the first delimiter used */ if (*p != '\0' && *p != idelim) return (false); /* Must have parsed at least min_elem_count digits */ if (elem_count < min_elem_count) return (false); /* Reset element count */ elem_count = 0; /* Bump field count */ field_count++; break; default: /* More than maximum number of hex digits? */ if (elem_count >= max_elem_count) return (false); /* Octet values must be hex digits */ if (!bhnd_nv_isxdigit(*p)) return (false); elem_count++; break; } } if (delim != NULL) *delim = idelim; if (nelem != NULL) *nelem = field_count; return (true); } /** * Determine whether @p inp is in hexadecimal, octal, or decimal string * format. * * - A @p str may be prefixed with a single optional '+' or '-' sign denoting * signedness. * - A hexadecimal @p str may include an '0x' or '0X' prefix, denoting that a * base 16 integer follows. * - An octal @p str may include a '0' prefix, denoting that an octal integer * follows. * * @param inp The string to be parsed. * @param ilen The length of @p inp, in bytes. * @param base The input string's base (2-36), or 0. * @param[out] obase On success, will be set to the base of the parsed * integer. May be set to NULL if the base is not * desired. * * @retval true if @p inp is a valid number string * @retval false if @p inp is not a valid number string. * @retval false if @p base is invalid. */ static bool bhnd_nvram_ident_num_string(const char *inp, size_t ilen, u_int base, u_int *obase) { size_t nbytes, ndigits; nbytes = 0; ndigits = 0; /* Parse and skip sign */ if (nbytes >= ilen) return (false); if (inp[nbytes] == '-' || inp[nbytes] == '+') nbytes++; /* Truncated after sign character? */ if (nbytes == ilen) return (false); /* Identify (or validate) hex base, skipping 0x/0X prefix */ if (base == 16 || base == 0) { /* Check for (and skip) 0x/0X prefix */ if (ilen - nbytes >= 2 && inp[nbytes] == '0' && (inp[nbytes+1] == 'x' || inp[nbytes+1] == 'X')) { base = 16; nbytes += 2; } } /* Truncated after hex prefix? */ if (nbytes == ilen) return (false); /* Differentiate decimal/octal by looking for a leading 0 */ if (base == 0) { if (inp[nbytes] == '0') { base = 8; } else { base = 10; } } /* Consume and validate all remaining digit characters */ for (; nbytes < ilen; nbytes++) { u_int carry; char c; /* Parse carry value */ c = inp[nbytes]; if (bhnd_nv_isdigit(c)) { carry = c - '0'; } else if (bhnd_nv_isxdigit(c)) { if (bhnd_nv_isupper(c)) carry = (c - 'A') + 10; else carry = (c - 'a') + 10; } else { /* Hit a non-digit character */ return (false); } /* If carry is outside the base, it's not a valid digit * in the current parse context; consider it a non-digit * character */ if (carry >= base) return (false); /* Increment parsed digit count */ ndigits++; } /* Empty integer string? */ if (ndigits == 0) return (false); /* Valid integer -- provide the base and return */ if (obase != NULL) *obase = base; return (true); }