mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-21 10:13:10 +00:00
370 lines
12 KiB
C
370 lines
12 KiB
C
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/* Copyright (C) 2022-2023 Salvatore Sanfilippo -- All Rights Reserved
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* See the LICENSE file for information about the license.
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*
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* Protocol fields implementation. */
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#include "app.h"
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/* Create a new field of the specified type. Without populating its
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* type-specific value. */
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static ProtoViewField* field_new(ProtoViewFieldType type, const char* name) {
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ProtoViewField* f = malloc(sizeof(*f));
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f->type = type;
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f->name = strdup(name);
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return f;
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}
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/* Free only the auxiliary data of a field, used to represent the
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* current type. Name and type are not touched. */
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static void field_free_aux_data(ProtoViewField* f) {
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switch(f->type) {
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case FieldTypeStr:
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free(f->str);
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break;
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case FieldTypeBytes:
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free(f->bytes);
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break;
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default:
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break; // Nothing to free for other types.
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}
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}
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/* Free a field an associated data. */
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static void field_free(ProtoViewField* f) {
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field_free_aux_data(f);
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free(f->name);
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free(f);
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}
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/* Return the type of the field as string. */
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const char* field_get_type_name(ProtoViewField* f) {
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switch(f->type) {
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case FieldTypeStr:
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return "str";
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case FieldTypeSignedInt:
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return "int";
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case FieldTypeUnsignedInt:
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return "uint";
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case FieldTypeBinary:
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return "bin";
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case FieldTypeHex:
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return "hex";
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case FieldTypeBytes:
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return "bytes";
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case FieldTypeFloat:
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return "float";
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}
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return "unknown";
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}
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/* Set a string representation of the specified field in buf. */
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int field_to_string(char* buf, size_t len, ProtoViewField* f) {
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switch(f->type) {
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case FieldTypeStr:
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return snprintf(buf, len, "%s", f->str);
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case FieldTypeSignedInt:
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return snprintf(buf, len, "%lld", (long long)f->value);
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case FieldTypeUnsignedInt:
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return snprintf(buf, len, "%llu", (unsigned long long)f->uvalue);
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case FieldTypeBinary: {
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uint64_t test_bit = (1 << (f->len - 1));
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uint64_t idx = 0;
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while(idx < len - 1 && test_bit) {
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buf[idx++] = (f->uvalue & test_bit) ? '1' : '0';
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test_bit >>= 1;
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}
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buf[idx] = 0;
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return idx;
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}
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case FieldTypeHex:
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return snprintf(buf, len, "%*llX", (int)(f->len + 7) / 8, f->uvalue);
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case FieldTypeFloat:
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return snprintf(buf, len, "%.*f", (int)f->len, (double)f->fvalue);
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case FieldTypeBytes: {
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uint64_t idx = 0;
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while(idx < len - 1 && idx < f->len) {
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const char* charset = "0123456789ABCDEF";
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uint32_t nibble = idx & 1 ? (f->bytes[idx / 2] & 0xf) : (f->bytes[idx / 2] >> 4);
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buf[idx++] = charset[nibble];
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}
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buf[idx] = 0;
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return idx;
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}
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}
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return 0;
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}
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/* Set the field value from its string representation in 'buf'.
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* The field type must already be set and the field should be valid.
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* The string represenation 'buf' must be null termianted. Note that
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* even when representing binary values containing zero, this values
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* are taken as representations, so that would be the string "00" as
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* the Bytes type representation.
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*
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* The function returns true if the filed was successfully set to the
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* new value, otherwise if the specified value is invalid for the
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* field type, false is returned. */
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bool field_set_from_string(ProtoViewField* f, char* buf, size_t len) {
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// Initialize values to zero since the Flipper sscanf() implementation
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// is fuzzy... may populate only part of the value.
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long long val = 0;
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unsigned long long uval = 0;
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float fval = 0;
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switch(f->type) {
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case FieldTypeStr:
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free(f->str);
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f->len = len;
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f->str = malloc(len + 1);
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memcpy(f->str, buf, len + 1);
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break;
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case FieldTypeSignedInt:
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if(!sscanf(buf, "%lld", &val)) return false;
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f->value = val;
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break;
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case FieldTypeUnsignedInt:
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if(!sscanf(buf, "%llu", &uval)) return false;
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f->uvalue = uval;
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break;
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case FieldTypeBinary: {
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uint64_t bit_to_set = (1 << (len - 1));
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uint64_t idx = 0;
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uval = 0;
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while(buf[idx]) {
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if(buf[idx] == '1')
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uval |= bit_to_set;
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else if(buf[idx] != '0')
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return false;
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bit_to_set >>= 1;
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idx++;
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}
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f->uvalue = uval;
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} break;
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case FieldTypeHex:
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if(!sscanf(buf, "%llx", &uval) && !sscanf(buf, "%llX", &uval)) return false;
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f->uvalue = uval;
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break;
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case FieldTypeFloat:
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if(!sscanf(buf, "%f", &fval)) return false;
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f->fvalue = fval;
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break;
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case FieldTypeBytes: {
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if(len > f->len) return false;
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uint64_t idx = 0;
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while(buf[idx]) {
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uint8_t nibble = 0;
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char c = toupper(buf[idx]);
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if(c >= '0' && c <= '9')
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nibble = c - '0';
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else if(c >= 'A' && c <= 'F')
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nibble = 10 + (c - 'A');
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else
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return false;
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if(idx & 1) {
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f->bytes[idx / 2] = (f->bytes[idx / 2] & 0xF0) | nibble;
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} else {
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f->bytes[idx / 2] = (f->bytes[idx / 2] & 0x0F) | (nibble << 4);
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}
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idx++;
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}
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buf[idx] = 0;
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} break;
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}
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return true;
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}
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/* Set the 'dst' field to contain a copy of the value of the 'src'
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* field. The field name is not modified. */
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void field_set_from_field(ProtoViewField* dst, ProtoViewField* src) {
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field_free_aux_data(dst);
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dst->type = src->type;
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dst->len = src->len;
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switch(src->type) {
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case FieldTypeStr:
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dst->str = strdup(src->str);
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break;
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case FieldTypeBytes:
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dst->bytes = malloc(src->len);
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memcpy(dst->bytes, src->bytes, dst->len);
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break;
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case FieldTypeSignedInt:
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dst->value = src->value;
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break;
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case FieldTypeUnsignedInt:
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case FieldTypeBinary:
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case FieldTypeHex:
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dst->uvalue = src->uvalue;
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break;
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case FieldTypeFloat:
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dst->fvalue = src->fvalue;
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break;
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}
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}
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/* Increment the specified field value of 'incr'. If the field type
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* does not support increments false is returned, otherwise the
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* action is performed. */
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bool field_incr_value(ProtoViewField* f, int incr) {
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switch(f->type) {
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case FieldTypeStr:
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return false;
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case FieldTypeSignedInt: {
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/* Wrap around depending on the number of bits (f->len)
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* the integer was declared to have. */
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int64_t max = (1ULL << (f->len - 1)) - 1;
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int64_t min = -max - 1;
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int64_t v = (int64_t)f->value + incr;
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if(v > max) v = min + (v - max - 1);
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if(v < min) v = max + (v - min + 1);
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f->value = v;
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break;
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}
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case FieldTypeBinary:
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case FieldTypeHex:
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case FieldTypeUnsignedInt: {
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/* Wrap around like for the unsigned case, but here
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* is simpler. */
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uint64_t max = (1ULL << f->len) - 1; // Broken for 64 bits.
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uint64_t uv = (uint64_t)f->value + incr;
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if(uv > max) uv = uv & max;
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f->uvalue = uv;
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break;
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}
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case FieldTypeFloat:
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f->fvalue += incr;
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break;
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case FieldTypeBytes: {
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// For bytes we only support single unit increments.
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if(incr != -1 && incr != 1) return false;
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for(int j = f->len - 1; j >= 0; j--) {
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uint8_t nibble = (j & 1) ? (f->bytes[j / 2] & 0x0F) : ((f->bytes[j / 2] & 0xF0) >> 4);
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nibble += incr;
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nibble &= 0x0F;
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f->bytes[j / 2] = (j & 1) ? ((f->bytes[j / 2] & 0xF0) | nibble) :
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((f->bytes[j / 2] & 0x0F) | (nibble << 4));
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/* Propagate the operation on overflow of this nibble. */
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if((incr == 1 && nibble == 0) || (incr == -1 && nibble == 0xf)) {
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continue;
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}
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break; // Otherwise stop the loop here.
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}
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break;
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}
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}
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return true;
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}
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/* Free a field set and its contained fields. */
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void fieldset_free(ProtoViewFieldSet* fs) {
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for(uint32_t j = 0; j < fs->numfields; j++) field_free(fs->fields[j]);
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free(fs->fields);
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free(fs);
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}
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/* Allocate and init an empty field set. */
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ProtoViewFieldSet* fieldset_new(void) {
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ProtoViewFieldSet* fs = malloc(sizeof(*fs));
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fs->numfields = 0;
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fs->fields = NULL;
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return fs;
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}
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/* Append an already allocated field at the end of the specified field set. */
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static void fieldset_add_field(ProtoViewFieldSet* fs, ProtoViewField* field) {
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fs->numfields++;
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fs->fields = realloc(fs->fields, sizeof(ProtoViewField*) * fs->numfields);
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fs->fields[fs->numfields - 1] = field;
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}
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/* Allocate and append an integer field. */
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void fieldset_add_int(ProtoViewFieldSet* fs, const char* name, int64_t val, uint8_t bits) {
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ProtoViewField* f = field_new(FieldTypeSignedInt, name);
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f->value = val;
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f->len = bits;
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fieldset_add_field(fs, f);
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}
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/* Allocate and append an unsigned field. */
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void fieldset_add_uint(ProtoViewFieldSet* fs, const char* name, uint64_t uval, uint8_t bits) {
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ProtoViewField* f = field_new(FieldTypeUnsignedInt, name);
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f->uvalue = uval;
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f->len = bits;
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fieldset_add_field(fs, f);
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}
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/* Allocate and append a hex field. This is an unsigned number but
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* with an hex representation. */
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void fieldset_add_hex(ProtoViewFieldSet* fs, const char* name, uint64_t uval, uint8_t bits) {
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ProtoViewField* f = field_new(FieldTypeHex, name);
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f->uvalue = uval;
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f->len = bits;
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fieldset_add_field(fs, f);
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}
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/* Allocate and append a bin field. This is an unsigned number but
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* with a binary representation. */
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void fieldset_add_bin(ProtoViewFieldSet* fs, const char* name, uint64_t uval, uint8_t bits) {
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ProtoViewField* f = field_new(FieldTypeBinary, name);
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f->uvalue = uval;
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f->len = bits;
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fieldset_add_field(fs, f);
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}
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/* Allocate and append a string field. The string 's' does not need to point
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* to a null terminated string, but must have at least 'len' valid bytes
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* starting from the pointer. The field object will be correctly null
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* terminated. */
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void fieldset_add_str(ProtoViewFieldSet* fs, const char* name, const char* s, size_t len) {
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ProtoViewField* f = field_new(FieldTypeStr, name);
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f->len = len;
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f->str = malloc(len + 1);
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memcpy(f->str, s, len);
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f->str[len] = 0;
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fieldset_add_field(fs, f);
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}
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/* Allocate and append a bytes field. Note that 'count' is specified in
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* nibbles (bytes*2). */
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void fieldset_add_bytes(
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ProtoViewFieldSet* fs,
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const char* name,
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const uint8_t* bytes,
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uint32_t count_nibbles) {
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uint32_t numbytes = (count_nibbles + count_nibbles % 2) / 2;
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ProtoViewField* f = field_new(FieldTypeBytes, name);
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f->bytes = malloc(numbytes);
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memcpy(f->bytes, bytes, numbytes);
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f->len = count_nibbles;
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fieldset_add_field(fs, f);
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}
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/* Allocate and append a float field. */
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void fieldset_add_float(
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ProtoViewFieldSet* fs,
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const char* name,
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float val,
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uint32_t digits_after_dot) {
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ProtoViewField* f = field_new(FieldTypeFloat, name);
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f->fvalue = val;
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f->len = digits_after_dot;
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fieldset_add_field(fs, f);
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}
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/* For each field of the destination filedset 'dst', look for a matching
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* field name/type in the source fieldset 'src', and if one is found copy
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* its value into the 'dst' field. */
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void fieldset_copy_matching_fields(ProtoViewFieldSet* dst, ProtoViewFieldSet* src) {
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for(uint32_t j = 0; j < dst->numfields; j++) {
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for(uint32_t i = 0; i < src->numfields; i++) {
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if(dst->fields[j]->type == src->fields[i]->type &&
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!strcmp(dst->fields[j]->name, src->fields[i]->name)) {
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field_set_from_field(dst->fields[j], src->fields[i]);
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}
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}
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}
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}
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