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esphome/esphome/components/teleinfo/teleinfo.cpp

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6.1 KiB
C++
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#include "teleinfo.h"
#include "esphome/core/log.h"
namespace esphome {
namespace teleinfo {
static const char *const TAG = "teleinfo";
/* Helpers */
static int get_field(char *dest, char *buf_start, char *buf_end, int sep, int max_len) {
char *field_end;
int len;
field_end = static_cast<char *>(memchr(buf_start, sep, buf_end - buf_start));
if (!field_end)
return 0;
len = field_end - buf_start;
if (len >= max_len)
return len;
strncpy(dest, buf_start, len);
dest[len] = '\0';
return len;
}
/* TeleInfo methods */
bool TeleInfo::check_crc_(const char *grp, const char *grp_end) {
int grp_len = grp_end - grp;
uint8_t raw_crc = grp[grp_len - 1];
uint8_t crc_tmp = 0;
int i;
for (i = 0; i < grp_len - checksum_area_end_; i++)
crc_tmp += grp[i];
crc_tmp &= 0x3F;
crc_tmp += 0x20;
if (raw_crc != crc_tmp) {
ESP_LOGE(TAG, "bad crc: got %d except %d", raw_crc, crc_tmp);
return false;
}
return true;
}
bool TeleInfo::read_chars_until_(bool drop, uint8_t c) {
uint8_t received;
int j = 0;
while (available() > 0 && j < 128) {
j++;
received = read();
if (received == c)
return true;
if (drop)
continue;
/*
* Internal buffer is full, switch to OFF mode.
* Data will be retrieved on next update.
*/
if (buf_index_ >= (MAX_BUF_SIZE - 1)) {
ESP_LOGW(TAG, "Internal buffer full");
state_ = OFF;
return false;
}
buf_[buf_index_++] = received;
}
return false;
}
void TeleInfo::setup() { state_ = OFF; }
void TeleInfo::update() {
if (state_ == OFF) {
buf_index_ = 0;
state_ = ON;
}
}
void TeleInfo::loop() {
switch (state_) {
case OFF:
break;
case ON:
/* Dequeue chars until start frame (0x2) */
if (read_chars_until_(true, 0x2))
state_ = START_FRAME_RECEIVED;
break;
case START_FRAME_RECEIVED:
/* Dequeue chars until end frame (0x3) */
if (read_chars_until_(false, 0x3))
state_ = END_FRAME_RECEIVED;
break;
case END_FRAME_RECEIVED:
char *buf_finger;
char *grp_end;
char *buf_end;
int field_len;
buf_finger = buf_;
buf_end = buf_ + buf_index_;
/* Each frame is composed of multiple groups starting by 0xa(Line Feed) and ending by
* 0xd ('\r').
*
* Historical mode: each group contains tag, data and a CRC separated by 0x20 (Space)
* 0xa | Tag | 0x20 | Data | 0x20 | CRC | 0xd
* ^^^^^^^^^^^^^^^^^^^^
* Checksum is computed on the above in historical mode.
*
* Standard mode: each group contains tag, data and a CRC separated by 0x9 (\t)
* 0xa | Tag | 0x9 | Data | 0x9 | CRC | 0xd
* ^^^^^^^^^^^^^^^^^^^^^^^^^
* Checksum is computed on the above in standard mode.
*
* Note that some Tags may have a timestamp in Standard mode. In this case
* the group would looks like this:
* 0xa | Tag | 0x9 | Timestamp | 0x9 | Data | 0x9 | CRC | 0xd
*
* The DATE tag is a special case. The group looks like this
* 0xa | Tag | 0x9 | Timestamp | 0x9 | 0x9 | CRC | 0xd
*
*/
while ((buf_finger = static_cast<char *>(memchr(buf_finger, (int) 0xa, buf_index_ - 1))) &&
((buf_finger - buf_) < buf_index_)) { // NOLINT(clang-diagnostic-sign-compare)
/*
* Make sure timesamp is nullified between each tag as some tags don't
* have a timestamp
*/
timestamp_[0] = '\0';
/* Point to the first char of the group after 0xa */
buf_finger += 1;
/* Group len */
grp_end = static_cast<char *>(memchr(buf_finger, 0xd, buf_end - buf_finger));
if (!grp_end) {
ESP_LOGE(TAG, "No group found");
break;
}
if (!check_crc_(buf_finger, grp_end))
continue;
/* Get tag */
field_len = get_field(tag_, buf_finger, grp_end, separator_, MAX_TAG_SIZE);
if (!field_len || field_len >= MAX_TAG_SIZE) {
ESP_LOGE(TAG, "Invalid tag.");
continue;
}
/* Advance buf_finger to after the tag and the separator. */
buf_finger += field_len + 1;
/*
* If there is two separators and the tag is not equal to "DATE" or
* historical mode is not in use (separator_ != 0x20), it means there is a
* timestamp to read first.
*/
if (std::count(buf_finger, grp_end, separator_) == 2 && strcmp(tag_, "DATE") != 0 && separator_ != 0x20) {
field_len = get_field(timestamp_, buf_finger, grp_end, separator_, MAX_TIMESTAMP_SIZE);
if (!field_len || field_len >= MAX_TIMESTAMP_SIZE) {
ESP_LOGE(TAG, "Invalid timestamp for tag %s", timestamp_);
continue;
}
/* Advance buf_finger to after the first data and the separator. */
buf_finger += field_len + 1;
}
field_len = get_field(val_, buf_finger, grp_end, separator_, MAX_VAL_SIZE);
if (!field_len || field_len >= MAX_VAL_SIZE) {
ESP_LOGE(TAG, "Invalid value for tag %s", tag_);
continue;
}
/* Advance buf_finger to end of group */
buf_finger += field_len + 1 + 1 + 1;
publish_value_(std::string(tag_), std::string(val_));
}
state_ = OFF;
break;
}
}
void TeleInfo::publish_value_(const std::string &tag, const std::string &val) {
for (auto element : teleinfo_listeners_) {
if (tag != element->tag)
continue;
element->publish_val(val);
}
}
void TeleInfo::dump_config() {
ESP_LOGCONFIG(TAG, "TeleInfo:");
this->check_uart_settings(baud_rate_, 1, uart::UART_CONFIG_PARITY_EVEN, 7);
}
TeleInfo::TeleInfo(bool historical_mode) {
if (historical_mode) {
/*
* Historical mode doesn't contain last separator between checksum and data.
*/
checksum_area_end_ = 2;
separator_ = 0x20;
baud_rate_ = 1200;
} else {
checksum_area_end_ = 1;
separator_ = 0x9;
baud_rate_ = 9600;
}
}
void TeleInfo::register_teleinfo_listener(TeleInfoListener *listener) { teleinfo_listeners_.push_back(listener); }
} // namespace teleinfo
} // namespace esphome
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