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Merge pull request #3 from shufps/debug-output

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Debug output
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Thomas Shufps 2024-09-13 20:45:11 +02:00 committed by GitHub
commit 8251f462a1
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12 changed files with 109 additions and 76 deletions
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62
src/drivers/nerd-nos/bm1397.cpp
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@ -48,9 +48,6 @@ typedef struct __attribute__((__packed__))
static const char *TAG = "bm1397Module";
static uint8_t asic_response_buffer[CHUNK_SIZE];
static task_result result;
uint32_t increment_bitmask(const uint32_t value, const uint32_t mask);
/// @brief
@ -195,7 +192,7 @@ void BM1397_send_hash_frequency(float frequency)
vTaskDelay(10 / portTICK_PERIOD_MS);
ESP_LOGI(TAG, "Setting Frequency to %.2fMHz (%.2f)", frequency, newf);
Serial.printf("Setting Frequency to %.2fMHz (%.2f)\n", frequency, newf);
}
@ -203,18 +200,19 @@ static uint8_t _send_init(uint64_t frequency, uint16_t asic_count)
{
// send the init command
_send_read_address();
uint8_t buf[11] = {0};
int chip_counter = 0;
while (true) {
int received = SERIAL_rx(asic_response_buffer, 11, 1000);
int received = SERIAL_rx(buf, 11, 1000);
if (received > 0) {
ESP_LOG_BUFFER_HEX(TAG, asic_response_buffer, received);
//ESP_LOG_BUFFER_HEX(TAG, asic_response_buffer, received);
chip_counter++;
} else {
break;
}
}
ESP_LOGI(TAG, "%i chip(s) detected on the chain, expected %i", chip_counter, asic_count);
Serial.printf("%i chip(s) detected on the chain, expected %i\n", chip_counter, asic_count);
// send serial data
vTaskDelay(SLEEP_TIME / portTICK_PERIOD_MS);
@ -269,9 +267,7 @@ static void _reset(void)
uint8_t BM1397_init(uint64_t frequency, uint16_t asic_count)
{
ESP_LOGI(TAG, "Initializing BM1397");
memset(asic_response_buffer, 0, sizeof(asic_response_buffer));
Serial.println("Initializing BM1397");
gpio_set_direction(NERD_NOS_GPIO_PEN, GPIO_MODE_OUTPUT);
gpio_set_level(NERD_NOS_GPIO_PEN, 1);
@ -299,7 +295,7 @@ int BM1397_set_default_baud(void)
int BM1397_set_max_baud(void)
{
// divider of 0 for 3,125,000
ESP_LOGI(TAG, "Setting max baud of 3125000");
Serial.println("Setting max baud of 3125000");
unsigned char baudrate[9] = {0x00, MISC_CONTROL, 0x00, 0x00, 0b01100000, 0b00110001};
; // baudrate - misc_control
_send_BM1397((TYPE_CMD | GROUP_ALL | CMD_WRITE), baudrate, 6, BM1397_SERIALTX_DEBUG);
@ -330,7 +326,7 @@ void BM1397_set_job_difficulty_mask(int difficulty)
job_difficulty_mask[5 - i] = reverse_bits(value);
}
ESP_LOGI(TAG, "Setting job ASIC mask to %d", difficulty);
Serial.printf("Setting job ASIC mask to %d\n", difficulty);
_send_BM1397((TYPE_CMD | GROUP_ALL | CMD_WRITE), job_difficulty_mask, 6, BM1397_SERIALTX_DEBUG);
}
@ -361,45 +357,47 @@ void BM1397_send_work(bm_job_t *next_bm_job, uint8_t job_id)
_send_BM1397((TYPE_JOB | GROUP_SINGLE | CMD_WRITE), (uint8_t*) &job, sizeof(job_packet_t), BM1397_DEBUG_WORK);
}
asic_result *BM1397_receive_work(uint16_t timeout)
bool BM1397_receive_work(uint16_t timeout, asic_result *result)
{
uint8_t *rcv_buf = (uint8_t*) result;
// wait for a response, wait time is pretty arbitrary
int received = SERIAL_rx(asic_response_buffer, 9, timeout);
int received = SERIAL_rx(rcv_buf, 9, timeout);
if (received < 0)
{
ESP_LOGI(TAG, "Error in serial RX");
return NULL;
Serial.println("Error in serial RX");
return false;
}
else if (received == 0)
{
// Didn't find a solution, restart and try again
return NULL;
return false;
}
if (received != 9 || asic_response_buffer[0] != 0xAA || asic_response_buffer[1] != 0x55)
if (received != 9 || rcv_buf[0] != 0xAA || rcv_buf[1] != 0x55)
{
ESP_LOGI(TAG, "Serial RX invalid %i", received);
ESP_LOG_BUFFER_HEX(TAG, asic_response_buffer, received);
return NULL;
Serial.println("Serial RX invalid. Resetting receive buffer ...");
//ESP_LOG_BUFFER_HEX(TAG, asic_response_buffer, received);
SERIAL_clear_buffer();
return false;
}
return true;
return (asic_result *)asic_response_buffer;
}
task_result *BM1397_proccess_work(uint32_t version, uint16_t timeout)
bool BM1397_proccess_work(uint32_t version, uint16_t timeout, task_result *result)
{
asic_result *asic_result = BM1397_receive_work(timeout);
asic_result asic_result;
if (asic_result == NULL)
if (!BM1397_receive_work(timeout, &asic_result))
{
ESP_LOGI(TAG, "return null");
return NULL;
return false;
}
uint8_t rx_job_id = (asic_result->job_id & 0xfc) >> 2;
uint8_t rx_midstate_index = asic_result->job_id & 0x03;
uint8_t rx_job_id = (asic_result.job_id & 0xfc) >> 2;
uint8_t rx_midstate_index = asic_result.job_id & 0x03;
uint32_t rolled_version = version;
for (int i = 0; i < rx_midstate_index; i++)
@ -407,10 +405,10 @@ task_result *BM1397_proccess_work(uint32_t version, uint16_t timeout)
rolled_version = increment_bitmask(rolled_version, 0x1fffe000);
}
result.job_id = rx_job_id;
result.nonce = asic_result->nonce;
result.rolled_version = rolled_version;
result->job_id = rx_job_id;
result->nonce = asic_result.nonce;
result->rolled_version = rolled_version;
return &result;
return true;
}

2
src/drivers/nerd-nos/bm1397.h
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@ -17,5 +17,5 @@ void BM1397_set_job_difficulty_mask(int);
int BM1397_set_max_baud(void);
int BM1397_set_default_baud(void);
void BM1397_send_hash_frequency(float frequency);
task_result *BM1397_proccess_work(uint32_t version, uint16_t timeout);
bool BM1397_proccess_work(uint32_t version, uint16_t timeout, task_result *result);

9
src/drivers/nerd-nos/mining.cpp
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@ -62,8 +62,9 @@ static void calculate_merkle_root_hash(const char *coinbase_tx, mining_job* job,
double_sha256_bin(coinbase_tx_bin, coinbase_tx_bin_len, new_root);
memcpy(both_merkles, new_root, 32);
for (size_t i = 0; i < job->merkle_branch.size(); i++) {
hex2bin((const char*) job->merkle_branch[i], &both_merkles[32], 32);
for (size_t i = 0; i < job->merkle_branch_size; i++) {
const char* m = job->merkle_branch[i].c_str();
hex2bin(m, &both_merkles[32], 32);
double_sha256_bin(both_merkles, 64, new_root);
memcpy(both_merkles, new_root, 32);
}
@ -140,8 +141,8 @@ void nerdnos_send_work(bm_job_t *next_bm_job, uint8_t job_id) {
BM1397_send_work(next_bm_job, job_id);
}
task_result *nerdnos_proccess_work(uint32_t version, uint16_t timeout) {
return BM1397_proccess_work(version, timeout);
bool nerdnos_proccess_work(uint32_t version, uint16_t timeout, task_result *result) {
return BM1397_proccess_work(version, timeout, result);
}
void nerdnos_free_bm_job(bm_job_t *job) {

2
src/drivers/nerd-nos/mining.h
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@ -16,7 +16,7 @@ void nerdnos_create_job(mining_subscribe *mWorker, mining_job *job, bm_job_t *ne
void nerdnos_send_work(bm_job_t *next_bm_job, uint8_t job_id);
// receive and process responses
task_result *nerdnos_proccess_work(uint32_t version, uint16_t timeout);
bool nerdnos_proccess_work(uint32_t version, uint16_t timeout, task_result *result);
// test difficulty
double nerdnos_test_nonce_value(const bm_job_t *job, const uint32_t nonce, const uint32_t rolled_version, uint8_t hash_result[32]);

8
src/drivers/nerd-nos/serial.cpp
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@ -51,8 +51,8 @@ int SERIAL_send(uint8_t *data, int len, bool debug)
return uart_write_bytes(UART_NUM_1, (const char *)data, len);
}
int SERIAL_check_for_data() {
int length;
size_t SERIAL_check_for_data() {
size_t length;
uart_get_buffered_data_len(UART_NUM_1, (size_t*)&length);
return length;
}
@ -65,7 +65,9 @@ int SERIAL_check_for_data() {
int16_t SERIAL_rx(uint8_t *buf, uint16_t size, uint16_t timeout_ms)
{
// don't return incomplete data
if (SERIAL_check_for_data() < size) {
size_t available = SERIAL_check_for_data();
if (available && available < size) {
Serial.printf("not returning parts of data ... %d vs %d\n", (int) available, (int) size);
return 0;
}

18
src/drivers/nerd-nos/utils.cpp
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@ -127,6 +127,24 @@ uint8_t hex2val(char c)
}
}
bool is_hex_digit(char c) {
return ((c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'));
}
bool is_hex_string(const char* str) {
// Check if the string is exactly 64 characters long
if (strlen(str) != 64) {
return false;
}
// Check if each character is a valid hexadecimal digit
for (size_t i = 0; i < 64; i++) {
if (!is_hex_digit(str[i])) {
return false;
}
}
return true;
}
size_t hex2bin(const char *hex, uint8_t *bin, size_t bin_len)
{
size_t len = 0;

4
src/drivers/nerd-nos/utils.h
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@ -2,6 +2,7 @@
#include <stddef.h>
#include <stdint.h>
#include <stdbool.h>
int hex2char(uint8_t x, char *c);
@ -38,3 +39,6 @@ unsigned char reverse_bits(unsigned char num);
int largest_power_of_two(int num);
uint32_t increment_bitmask(const uint32_t value, const uint32_t mask);
bool is_hex_digit(char c);
bool is_hex_string(const char* str);

28
src/mining_nerdnos.cpp
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@ -40,7 +40,7 @@ static bm_job_t asic_jobs[ASIC_JOB_COUNT] = {0};
typedef struct {
uint32_t diffs[ASIC_HISTORY_SIZE];
uint32_t timestamps[ASIC_HISTORY_SIZE];
uint64_t timestamps[ASIC_HISTORY_SIZE];
uint32_t newest;
uint32_t oldest;
uint64_t sum;
@ -78,7 +78,7 @@ static void calculate_hashrate(history_t *history, uint32_t diff) {
history->diffs[history->newest % ASIC_HISTORY_SIZE] = diff;
// micros() wraps around after about 71.58min because it's 32bit casted from 64bit timer :facepalm:
history->timestamps[history->newest % ASIC_HISTORY_SIZE] = esp_timer_get_time();
history->timestamps[history->newest % ASIC_HISTORY_SIZE] = (uint64_t) esp_timer_get_time();
uint64_t oldest_timestamp = history->timestamps[history->oldest % ASIC_HISTORY_SIZE];
uint64_t newest_timestamp = history->timestamps[history->newest % ASIC_HISTORY_SIZE];
@ -172,15 +172,11 @@ void runASIC(void * task_id) {
// send the job and
nerdnos_send_work(&asic_jobs[asic_job_id], asic_job_id);
// the pointer returned is the RS232 receive buffer :shushing-face:
// but we only have a single thread so it should be okay
// process all results if we have more than one
// this is okay because serial uses a buffer and (most likely^^) DMA
task_result *result = NULL;
while ((result = nerdnos_proccess_work(version, 1)) != NULL) {
task_result result = {0};
while (nerdnos_proccess_work(version, 1, &result)) {
// check if the ID is in the valid range and the slot is not empty
if (result->job_id >= ASIC_JOB_COUNT || !asic_jobs[result->job_id].ntime) {
Serial.printf("Invalid job ID or no job found for ID %02x\n", result->job_id);
if (result.job_id >= ASIC_JOB_COUNT || !asic_jobs[result.job_id].ntime) {
Serial.printf("Invalid job ID or no job found for ID %02x\n", result.job_id);
continue;
}
@ -188,9 +184,9 @@ void runASIC(void * task_id) {
// check the nonce difficulty
double diff_hash = nerdnos_test_nonce_value(
&asic_jobs[result->job_id],
result->nonce,
result->rolled_version,
&asic_jobs[result.job_id],
result.nonce,
result.rolled_version,
hash);
// update best diff
@ -199,14 +195,14 @@ void runASIC(void * task_id) {
}
// calculate the hashrate
if (diff_hash >= asic_jobs[result->job_id].pool_diff) {
calculate_hashrate(&history, asic_jobs[result->job_id].pool_diff);
if (diff_hash >= asic_jobs[result.job_id].pool_diff) {
calculate_hashrate(&history, asic_jobs[result.job_id].pool_diff);
Serial.printf("avg hashrate: %.2fGH/s (history spans %.2fs, %d shares)\n", history.avg_gh, history.duration, history.shares);
}
if(diff_hash > mMiner.poolDifficulty)
{
tx_mining_submit_asic(client, mWorker, &asic_jobs[result->job_id], result);
tx_mining_submit_asic(client, mWorker, &asic_jobs[result.job_id], &result);
Serial.println("valid share!");
Serial.printf(" - Current diff share: %.3f\n", diff_hash);
Serial.printf(" - Current pool diff : %.3f\n", mMiner.poolDifficulty);

4
src/monitor.cpp
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@ -250,7 +250,7 @@ String getCurrentTemperature() {
}
String getCurrentVCore() {
return String(nerdnos_get_vcore(), 2);
return String(nerdnos_get_vcore(), 0);
}
#else
String getCurrentHashRate(unsigned long mElapsed)
@ -263,7 +263,7 @@ String getCurrentTemperature() {
}
String getCurrentVCore() {
return String(0.0, 2);
return String(0.0, 0);
}
#endif

15
src/stratum.cpp
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@ -188,7 +188,20 @@ bool parse_mining_notify(String line, mining_job& mJob)
mJob.prev_block_hash = String((const char*) doc["params"][1]);
mJob.coinb1 = String((const char*) doc["params"][2]);
mJob.coinb2 = String((const char*) doc["params"][3]);
mJob.merkle_branch = doc["params"][4];
// this only copies references to the static json buffer
// and can lead to crashes when there is a new stratum response
// and the content of the array is still needed like on NerdNOS
// that computes the merkle tree new each 30ms^^
//mJob.merkle_branch = doc["params"][4];
// This copies the merkle branch
JsonArray merkle_tree = doc["params"][4];
mJob.merkle_branch_size = merkle_tree.size();
for (size_t i = 0; i < mJob.merkle_branch_size; i++) {
mJob.merkle_branch[i] = String((const char*) merkle_tree[i]);
}
mJob.version = String((const char*) doc["params"][5]);
mJob.nbits = String((const char*) doc["params"][6]);
mJob.ntime = String((const char*) doc["params"][7]);

3
src/stratum.h
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@ -31,7 +31,8 @@ typedef struct mining_job {
String coinb1;
String coinb2;
String nbits;
JsonArray merkle_branch;
String merkle_branch[MAX_MERKLE_BRANCHES];
size_t merkle_branch_size;
String version;
uint32_t target;
String ntime;

30
src/utils.cpp
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@ -170,13 +170,13 @@ void getNextExtranonce2(int extranonce2_size, char *extranonce2) {
}
miner_data init_miner_data(void){
miner_data newMinerData;
newMinerData.poolDifficulty = DEFAULT_DIFFICULTY;
newMinerData.inRun = false;
newMinerData.newJob = false;
return newMinerData;
}
@ -185,14 +185,14 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
miner_data mMiner = init_miner_data();
// calculate target - target = (nbits[2:]+'00'*(int(nbits[:2],16) - 3)).zfill(64)
char target[TARGET_BUFFER_SIZE+1];
memset(target, '0', TARGET_BUFFER_SIZE);
int zeros = (int) strtol(mJob.nbits.substring(0, 2).c_str(), 0, 16) - 3;
memcpy(target + zeros - 2, mJob.nbits.substring(2).c_str(), mJob.nbits.length() - 2);
target[TARGET_BUFFER_SIZE] = 0;
Serial.print(" target: "); Serial.println(target);
// bytearray target
size_t size_target = to_byte_array(target, 32, mMiner.bytearray_target);
@ -204,12 +204,12 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
// get extranonce2 - extranonce2 = hex(random.randint(0,2**32-1))[2:].zfill(2*extranonce2_size)
//To review
char extranonce2_char[2 * mWorker.extranonce2_size+1];
char extranonce2_char[2 * mWorker.extranonce2_size+1];
mWorker.extranonce2.toCharArray(extranonce2_char, 2 * mWorker.extranonce2_size + 1);
getNextExtranonce2(mWorker.extranonce2_size, extranonce2_char);
mWorker.extranonce2 = String(extranonce2_char);
//mWorker.extranonce2 = "00000002";
//get coinbase - coinbase_hash_bin = hashlib.sha256(hashlib.sha256(binascii.unhexlify(coinbase)).digest()).digest()
String coinbase = mJob.coinb1 + mWorker.extranonce1 + mWorker.extranonce2 + mJob.coinb2;
Serial.print(" coinbase: "); Serial.println(coinbase);
@ -229,10 +229,10 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
mbedtls_sha256_context ctx;
mbedtls_sha256_init(&ctx);
byte interResult[32]; // 256 bit
byte shaResult[32]; // 256 bit
mbedtls_sha256_starts_ret(&ctx,0);
mbedtls_sha256_update_ret(&ctx, bytearray, str_len);
mbedtls_sha256_finish_ret(&ctx, interResult);
@ -249,13 +249,13 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
Serial.println("");
#endif
// copy coinbase hash
memcpy(mMiner.merkle_result, shaResult, sizeof(shaResult));
byte merkle_concatenated[32 * 2];
for (size_t k=0; k < mJob.merkle_branch.size(); k++) {
const char* merkle_element = (const char*) mJob.merkle_branch[k];
for (size_t k=0; k < mJob.merkle_branch_size; k++) {
const char* merkle_element = (const char*) mJob.merkle_branch[k].c_str();
uint8_t bytearray[32];
size_t res = to_byte_array(merkle_element, 64, bytearray);
@ -294,7 +294,7 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
#endif
}
// merkle root from merkle_result
Serial.print(" merkle sha : ");
char merkle_root[65];
for (int i = 0; i < 32; i++) {
@ -308,7 +308,7 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
// j.block_header = ''.join([j.version, j.prevhash, merkle_root, j.ntime, j.nbits])
String blockheader = mJob.version + mJob.prev_block_hash + String(merkle_root) + mJob.ntime + mJob.nbits + "00000000";
str_len = blockheader.length()/2;
//uint8_t bytearray_blockheader[str_len];
res = to_byte_array(blockheader.c_str(), str_len*2, mMiner.bytearray_blockheader);
@ -375,7 +375,7 @@ miner_data calculateMiningData(mining_subscribe& mWorker, mining_job mJob){
#ifdef DEBUG_MINING
Serial.print(" >>> bytearray_blockheader : ");
Serial.print(" >>> bytearray_blockheader : ");
for (size_t i = 0; i < 4; i++)
Serial.printf("%02x", mMiner.bytearray_blockheader[i]);
Serial.println("");