unleashed-firmware/lib/flipper_format/flipper_format_stream.c
gornekich d31578508a
[FL-2245] Introduce Mifare Classic Emulation (#1242)
* digital signal: introduce digital signal
* nfca: add nfca signal encoder
* nfc: add mifare classic emulation scene
* nfca: add classic emulation support to lib and hal
* mifare classic: support basic read commands
* nfc: add mifare classic menu scene
* mifare classic: start parsing commands in emulation
* mifare classic: add nested auth
* nfc: fix errors
* mifare classic: add encrypt function
* nfc: fix mifare classic save
* lib hex: add hex uint64_t ASCII parser
* flipper format: add uint64 hex format support
* nfc: add mifare classic key map
* nfc: hide mifare classic keys on emulation
* mifare classic: add NACK responce
* nfc: add partial bytes support in transparent mode
* nfc: mifare classic add shadow file support
* digital signal: move arr buffer from BSS to heap
* mifare classic: process access bits more careful
* nfca: fix memory leack
* nfc: format sources
* mifare classic: cleun up

Co-authored-by: あく <alleteam@gmail.com>
2022-05-24 17:00:15 +03:00

524 lines
16 KiB
C

#include <inttypes.h>
#include <toolbox/hex.h>
#include <furi/check.h>
#include "flipper_format_stream.h"
#include "flipper_format_stream_i.h"
static bool flipper_format_stream_write(Stream* stream, const void* data, size_t data_size) {
size_t bytes_written = stream_write(stream, data, data_size);
return bytes_written == data_size;
}
static bool flipper_format_stream_write_key(Stream* stream, const char* key) {
bool result = false;
do {
if(!flipper_format_stream_write(stream, key, strlen(key))) break;
if(!flipper_format_stream_write(stream, &flipper_format_delimiter, 1)) break;
if(!flipper_format_stream_write(stream, " ", 1)) break;
result = true;
} while(false);
return result;
}
bool flipper_format_stream_write_eol(Stream* stream) {
return flipper_format_stream_write(stream, &flipper_format_eoln, 1);
}
static bool flipper_format_stream_read_valid_key(Stream* stream, string_t key) {
string_reset(key);
const size_t buffer_size = 32;
uint8_t buffer[buffer_size];
bool found = false;
bool error = false;
bool accumulate = true;
bool new_line = true;
while(true) {
size_t was_read = stream_read(stream, buffer, buffer_size);
if(was_read == 0) break;
for(size_t i = 0; i < was_read; i++) {
uint8_t data = buffer[i];
if(data == flipper_format_eoln) {
// EOL found, clean data, start accumulating data and set the new_line flag
string_reset(key);
accumulate = true;
new_line = true;
} else if(data == flipper_format_eolr) {
// ignore
} else if(data == flipper_format_comment && new_line) {
// if there is a comment character and we are at the beginning of a new line
// do not accumulate comment data and reset the new_line flag
accumulate = false;
new_line = false;
} else if(data == flipper_format_delimiter) {
if(new_line) {
// we are on a "new line" and found the delimiter
// this can only be if we have previously found some kind of key, so
// clear the data, set the flag that we no longer want to accumulate data
// and reset the new_line flag
string_reset(key);
accumulate = false;
new_line = false;
} else {
// parse the delimiter only if we are accumulating data
if(accumulate) {
// we found the delimiter, move the rw pointer to the delimiter location
// and signal that we have found something
if(!stream_seek(stream, i - was_read, StreamOffsetFromCurrent)) {
error = true;
break;
}
found = true;
break;
}
}
} else {
// just new symbol, reset the new_line flag
new_line = false;
if(accumulate) {
// and accumulate data if we want
string_push_back(key, data);
}
}
}
if(found || error) break;
}
return found;
}
bool flipper_format_stream_seek_to_key(Stream* stream, const char* key, bool strict_mode) {
bool found = false;
string_t read_key;
string_init(read_key);
while(!stream_eof(stream)) {
if(flipper_format_stream_read_valid_key(stream, read_key)) {
if(string_cmp_str(read_key, key) == 0) {
if(!stream_seek(stream, 2, StreamOffsetFromCurrent)) break;
found = true;
break;
} else if(strict_mode) {
found = false;
break;
}
}
}
string_clear(read_key);
return found;
}
static bool flipper_format_stream_read_value(Stream* stream, string_t value, bool* last) {
string_reset(value);
const size_t buffer_size = 32;
uint8_t buffer[buffer_size];
bool result = false;
bool error = false;
while(true) {
size_t was_read = stream_read(stream, buffer, buffer_size);
if(was_read == 0) {
// check EOF
if(stream_eof(stream) && string_size(value) > 0) {
result = true;
*last = true;
break;
}
}
for(uint16_t i = 0; i < was_read; i++) {
uint8_t data = buffer[i];
if(data == flipper_format_eoln) {
if(string_size(value) > 0) {
if(!stream_seek(stream, i - was_read, StreamOffsetFromCurrent)) {
error = true;
break;
}
result = true;
*last = true;
break;
} else {
error = true;
}
} else if(data == ' ') {
if(string_size(value) > 0) {
if(!stream_seek(stream, i - was_read, StreamOffsetFromCurrent)) {
error = true;
break;
}
result = true;
*last = false;
break;
}
} else if(data == flipper_format_eolr) {
// Ignore
} else {
string_push_back(value, data);
}
}
if(error || result) break;
}
return result;
}
static bool flipper_format_stream_read_line(Stream* stream, string_t str_result) {
string_reset(str_result);
const size_t buffer_size = 32;
uint8_t buffer[buffer_size];
do {
size_t was_read = stream_read(stream, buffer, buffer_size);
if(was_read == 0) break;
bool result = false;
bool error = false;
for(size_t i = 0; i < was_read; i++) {
uint8_t data = buffer[i];
if(data == flipper_format_eoln) {
if(!stream_seek(stream, i - was_read, StreamOffsetFromCurrent)) {
error = true;
break;
}
result = true;
break;
} else if(data == flipper_format_eolr) {
// Ignore
} else {
string_push_back(str_result, data);
}
}
if(result || error) {
break;
}
} while(true);
return string_size(str_result) != 0;
}
static bool flipper_format_stream_seek_to_next_line(Stream* stream) {
const size_t buffer_size = 32;
uint8_t buffer[buffer_size];
bool result = false;
bool error = false;
do {
size_t was_read = stream_read(stream, buffer, buffer_size);
if(was_read == 0) {
if(stream_eof(stream)) {
result = true;
break;
}
}
for(size_t i = 0; i < was_read; i++) {
if(buffer[i] == flipper_format_eoln) {
if(!stream_seek(stream, i - was_read, StreamOffsetFromCurrent)) {
error = true;
break;
}
result = true;
break;
}
}
if(result || error) {
break;
}
} while(true);
return result;
}
bool flipper_format_stream_write_value_line(Stream* stream, FlipperStreamWriteData* write_data) {
bool result = false;
if(write_data->type == FlipperStreamValueIgnore) {
result = true;
} else {
string_t value;
string_init(value);
do {
if(!flipper_format_stream_write_key(stream, write_data->key)) break;
if(write_data->type == FlipperStreamValueStr) write_data->data_size = 1;
bool cycle_error = false;
for(uint16_t i = 0; i < write_data->data_size; i++) {
switch(write_data->type) {
case FlipperStreamValueStr: {
const char* data = write_data->data;
string_printf(value, "%s", data);
}; break;
case FlipperStreamValueHex: {
const uint8_t* data = write_data->data;
string_printf(value, "%02X", data[i]);
}; break;
#ifndef FLIPPER_STREAM_LITE
case FlipperStreamValueFloat: {
const float* data = write_data->data;
string_printf(value, "%f", (double)data[i]);
}; break;
#endif
case FlipperStreamValueInt32: {
const int32_t* data = write_data->data;
string_printf(value, "%" PRIi32, data[i]);
}; break;
case FlipperStreamValueUint32: {
const uint32_t* data = write_data->data;
string_printf(value, "%" PRId32, data[i]);
}; break;
case FlipperStreamValueHexUint64: {
const uint64_t* data = write_data->data;
string_printf(
value, "%08lX%08lX", (uint32_t)(data[i] >> 32), (uint32_t)data[i]);
}; break;
case FlipperStreamValueBool: {
const bool* data = write_data->data;
string_printf(value, data[i] ? "true" : "false");
}; break;
default:
furi_crash("Unknown FF type");
}
if((size_t)(i + 1) < write_data->data_size) {
string_cat(value, " ");
}
if(!flipper_format_stream_write(
stream, string_get_cstr(value), string_size(value))) {
cycle_error = true;
break;
}
}
if(cycle_error) break;
if(!flipper_format_stream_write_eol(stream)) break;
result = true;
} while(false);
string_clear(value);
}
return result;
}
bool flipper_format_stream_read_value_line(
Stream* stream,
const char* key,
FlipperStreamValue type,
void* _data,
size_t data_size,
bool strict_mode) {
bool result = false;
do {
if(!flipper_format_stream_seek_to_key(stream, key, strict_mode)) break;
if(type == FlipperStreamValueStr) {
string_ptr data = (string_ptr)_data;
if(flipper_format_stream_read_line(stream, data)) {
result = true;
break;
}
} else {
result = true;
string_t value;
string_init(value);
for(size_t i = 0; i < data_size; i++) {
bool last = false;
result = flipper_format_stream_read_value(stream, value, &last);
if(result) {
int scan_values = 0;
switch(type) {
case FlipperStreamValueHex: {
uint8_t* data = _data;
if(string_size(value) >= 2) {
// sscanf "%02X" does not work here
if(hex_chars_to_uint8(
string_get_char(value, 0),
string_get_char(value, 1),
&data[i])) {
scan_values = 1;
}
}
}; break;
#ifndef FLIPPER_STREAM_LITE
case FlipperStreamValueFloat: {
float* data = _data;
// newlib-nano does not have sscanf for floats
// scan_values = sscanf(string_get_cstr(value), "%f", &data[i]);
char* end_char;
data[i] = strtof(string_get_cstr(value), &end_char);
if(*end_char == 0) {
// most likely ok
scan_values = 1;
}
}; break;
#endif
case FlipperStreamValueInt32: {
int32_t* data = _data;
scan_values = sscanf(string_get_cstr(value), "%" PRIi32, &data[i]);
}; break;
case FlipperStreamValueUint32: {
uint32_t* data = _data;
scan_values = sscanf(string_get_cstr(value), "%" PRId32, &data[i]);
}; break;
case FlipperStreamValueHexUint64: {
uint64_t* data = _data;
if(string_size(value) >= 16) {
if(hex_chars_to_uint64(string_get_cstr(value), &data[i])) {
scan_values = 1;
}
}
}; break;
case FlipperStreamValueBool: {
bool* data = _data;
data[i] = !string_cmpi_str(value, "true");
scan_values = 1;
}; break;
default:
furi_crash("Unknown FF type");
}
if(scan_values != 1) {
result = false;
break;
}
} else {
break;
}
if(last && ((i + 1) != data_size)) {
result = false;
break;
}
}
string_clear(value);
}
} while(false);
return result;
}
bool flipper_format_stream_get_value_count(
Stream* stream,
const char* key,
uint32_t* count,
bool strict_mode) {
bool result = false;
bool last = false;
string_t value;
string_init(value);
uint32_t position = stream_tell(stream);
do {
if(!flipper_format_stream_seek_to_key(stream, key, strict_mode)) break;
*count = 0;
result = true;
while(true) {
if(!flipper_format_stream_read_value(stream, value, &last)) {
result = false;
break;
}
*count = *count + 1;
if(last) break;
}
} while(false);
if(!stream_seek(stream, position, StreamOffsetFromStart)) {
result = false;
}
string_clear(value);
return result;
}
bool flipper_format_stream_delete_key_and_write(
Stream* stream,
FlipperStreamWriteData* write_data,
bool strict_mode) {
bool result = false;
do {
size_t size = stream_size(stream);
if(size == 0) break;
if(!stream_rewind(stream)) break;
// find key
if(!flipper_format_stream_seek_to_key(stream, write_data->key, strict_mode)) break;
// get key start position
size_t start_position = stream_tell(stream) - strlen(write_data->key);
if(start_position >= 2) {
start_position -= 2;
} else {
// something wrong
break;
}
// get value end position
if(!flipper_format_stream_seek_to_next_line(stream)) break;
size_t end_position = stream_tell(stream);
// newline symbol
if(end_position < size) {
end_position += 1;
}
if(!stream_seek(stream, start_position, StreamOffsetFromStart)) break;
if(!stream_delete_and_insert(
stream,
end_position - start_position,
(StreamWriteCB)flipper_format_stream_write_value_line,
write_data))
break;
result = true;
} while(false);
return result;
}
bool flipper_format_stream_write_comment_cstr(Stream* stream, const char* data) {
bool result = false;
do {
const char comment_buffer[2] = {flipper_format_comment, ' '};
result = flipper_format_stream_write(stream, comment_buffer, sizeof(comment_buffer));
if(!result) break;
result = flipper_format_stream_write(stream, data, strlen(data));
if(!result) break;
result = flipper_format_stream_write_eol(stream);
} while(false);
return result;
}