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api.cpp
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api.cpp
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/*
* Copyright 2014 ccminer team
*
* Implementation by tpruvot (based on cgminer)
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 2 of the License, or (at your option)
* any later version. See COPYING for more details.
*/
#define APIVERSION "1.3"
#ifdef WIN32
# define _WINSOCK_DEPRECATED_NO_WARNINGS
//# include <winsock2.h>
#endif
#include <cstdio>
#include <ctype.h>
#include <cstdlib>
#include <cstring>
#include <inttypes.h>
#include <unistd.h>
#include <sys/time.h>
#include <ctime>
#include <cmath>
#include <cstdarg>
#include <cassert>
using namespace std;
#include <sys/stat.h>
#include <sys/types.h>
#include "miner.h"
#include "nvml.h"
#ifndef WIN32
# include <errno.h>
# include <sys/socket.h>
# include <netinet/in.h>
# include <arpa/inet.h>
# include <netdb.h>
# define SOCKETTYPE long
# define SOCKETFAIL(a) ((a) < 0)
# define INVSOCK -1 /* INVALID_SOCKET */
# define INVINETADDR -1 /* INADDR_NONE */
# define CLOSESOCKET close
# define SOCKETINIT {}
# define SOCKERRMSG strerror(errno)
#else
# define SOCKETTYPE SOCKET
# define SOCKETFAIL(a) ((a) == SOCKET_ERROR)
# define INVSOCK INVALID_SOCKET
# define INVINETADDR INADDR_NONE
# define CLOSESOCKET closesocket
# define in_addr_t uint32_t
#endif
#define GROUP(g) (toupper(g))
#define PRIVGROUP GROUP('W')
#define NOPRIVGROUP GROUP('R')
#define ISPRIVGROUP(g) (GROUP(g) == PRIVGROUP)
#define GROUPOFFSET(g) (GROUP(g) - GROUP('A'))
#define VALIDGROUP(g) (GROUP(g) >= GROUP('A') && GROUP(g) <= GROUP('Z'))
#define COMMANDS(g) (apigroups[GROUPOFFSET(g)].commands)
#define DEFINEDGROUP(g) (ISPRIVGROUP(g) || COMMANDS(g) != NULL)
struct APIGROUPS {
// This becomes a string like: "|cmd1|cmd2|cmd3|" so it's quick to search
char *commands;
} apigroups['Z' - 'A' + 1]; // only A=0 to Z=25 (R: noprivs, W: allprivs)
struct IP4ACCESS {
in_addr_t ip;
in_addr_t mask;
char group;
};
static int ips = 1;
static struct IP4ACCESS *ipaccess = NULL;
#define MYBUFSIZ 16384
#define SOCK_REC_BUFSZ 1024
#define QUEUE 10
#define ALLIP4 "0.0.0.0"
static const char *localaddr = "127.0.0.1";
static const char *UNAVAILABLE = " - API will not be available";
static char *buffer = NULL;
static time_t startup = 0;
static int bye = 0;
extern char *opt_api_allow;
extern uint16_t opt_api_listen; /* port */
extern uint32_t accepted_count;
extern uint32_t rejected_count;
extern int num_cpus;
extern struct stratum_ctx stratum;
extern char* rpc_user;
extern bool stop_mining;
extern uint32_t device_plimit[MAX_GPUS];
// sysinfos.cpp
extern float cpu_temp(int);
extern uint32_t cpu_clock(int);
// cuda.cpp
int cuda_num_devices();
int cuda_gpu_clocks(struct cgpu_info *gpu);
int cuda_gpu_info(struct cgpu_info *gpu);
char driver_version[32] = { 0 };
/***************************************************************/
static void gpustatus(int thr_id)
{
if(thr_id >= 0 && thr_id < opt_n_threads)
{
struct cgpu_info *cgpu = &thr_info[thr_id].gpu;
double khashes_per_watt = 0;
int gpuid = cgpu->gpu_id;
char buf[512]; *buf = '\0';
char* card;
cuda_gpu_info(cgpu);
cgpu->gpu_plimit = device_plimit[cgpu->gpu_id];
#ifdef USE_WRAPNVML
cgpu->has_monitoring = true;
cgpu->gpu_bus = gpu_busid(cgpu);
cgpu->gpu_temp = gpu_temp(cgpu);
cgpu->gpu_fan = (uint16_t)gpu_fanpercent(cgpu);
cgpu->gpu_fan_rpm = (uint16_t)gpu_fanrpm(cgpu);
cgpu->gpu_power = gpu_power(cgpu); // mWatts
cgpu->gpu_plimit = gpu_plimit(cgpu); // mW or %
#endif
cgpu->khashes = stats_get_speed(thr_id, 0.0) / 1000.0;
if(cgpu->monitor.gpu_power)
{
cgpu->gpu_power = cgpu->monitor.gpu_power;
khashes_per_watt = (double)cgpu->khashes / cgpu->monitor.gpu_power;
khashes_per_watt *= 1000; // power in mW
//gpulog(LOG_BLUE, thr_id, "KHW: %g", khashes_per_watt);
}
card = device_name[gpuid];
snprintf(buf, sizeof(buf), "GPU=%d;BUS=%hd;CARD=%s;TEMP=%.1f;"
"POWER=%u;FAN=%hu;RPM=%hu;"
"FREQ=%u;MEMFREQ=%u;GPUF=%u;MEMF=%u;"
"KHS=%.2f;KHW=%.5f;PLIM=%u;"
"ACC=%u;REJ=%u;HWF=%u;I=%.1f;THR=%u|",
gpuid, cgpu->gpu_bus, card, cgpu->gpu_temp,
cgpu->gpu_power, cgpu->gpu_fan, cgpu->gpu_fan_rpm,
cgpu->gpu_clock / 1000, cgpu->gpu_memclock / 1000, // base freqs in MHz
cgpu->monitor.gpu_clock, cgpu->monitor.gpu_memclock, // current
cgpu->khashes, khashes_per_watt, cgpu->gpu_plimit,
cgpu->accepted, (unsigned)cgpu->rejected, (unsigned)cgpu->hw_errors,
cgpu->intensity, cgpu->throughput);
// append to buffer for multi gpus
strcat(buffer, buf);
}
}
/**
* Returns gpu/thread specific stats
*/
static char *getthreads(char *params)
{
*buffer = '\0';
for (int i = 0; i < opt_n_threads; i++)
gpustatus(i);
return buffer;
}
/*****************************************************************************/
/**
* Returns miner global infos
*/
static char *getsummary(char *params)
{
char algo[64]; *algo = '\0';
time_t ts = time(NULL);
double uptime = difftime(ts, startup);
double accps = (60.0 * accepted_count) / (uptime ? uptime : 1.0);
get_currentalgo(algo, sizeof(algo));
*buffer = '\0';
sprintf(buffer, "NAME=%s;VER=%s;API=%s;"
"ALGO=%s;GPUS=%d;KHS=%.2f;ACC=%d;REJ=%d;"
"ACCMN=%.3f;DIFF=%.6f;UPTIME=%.0f;TS=%u|",
PACKAGE_NAME, PACKAGE_VERSION, APIVERSION,
algo, active_gpus, (double)global_hashrate / 1000.0,
accepted_count, rejected_count,
accps, global_diff, uptime, (uint32_t) ts);
return buffer;
}
/**
* Returns some infos about current pool
*/
static char *getpoolnfo(char *params)
{
char *p = buffer;
char jobid[128] = { 0 };
char nonce[128] = { 0 };
*p = '\0';
if (!stratum.url) {
sprintf(p, "|");
return p;
}
if (stratum.job.job_id)
strncpy(jobid, stratum.job.job_id, sizeof(stratum.job.job_id));
if (stratum.job.xnonce2) {
/* used temporary to be sure all is ok */
cbin2hex(nonce, (const char*) stratum.job.xnonce2, stratum.xnonce2_size);
}
snprintf(p, MYBUFSIZ, "URL=%s;USER=%s;H=%u;JOB=%s;DIFF=%.6f;N2SZ=%d;N2=0x%s;PING=%u;DISCO=%u;UPTIME=%u|",
stratum.url, rpc_user ? rpc_user : "",
stratum.job.height, jobid, stratum.job.diff,
(int) stratum.xnonce2_size, nonce, stratum.answer_msec,
stratum.disconnects, (uint32_t) (time(NULL) - stratum.tm_connected));
return p;
}
/*****************************************************************************/
static void gpuhwinfos(int gpu_id)
{
char buf[256];
char pstate[8];
char* card;
struct cgpu_info *cgpu = NULL;
for (int g = 0; g < opt_n_threads; g++) {
if (device_map[g] == gpu_id) {
cgpu = &thr_info[g].gpu;
break;
}
}
if (cgpu == NULL)
return;
#ifdef USE_WRAPNVML
cgpu->has_monitoring = true;
cgpu->gpu_bus = gpu_busid(cgpu);
cgpu->gpu_temp = gpu_temp(cgpu);
cgpu->gpu_fan = (uint16_t) gpu_fanpercent(cgpu);
cgpu->gpu_fan_rpm = (uint16_t) gpu_fanrpm(cgpu);
cgpu->gpu_pstate = gpu_pstate(cgpu);
cgpu->gpu_power = gpu_power(cgpu);
cgpu->gpu_plimit = gpu_plimit(cgpu);
gpu_info(cgpu);
#endif
cuda_gpu_clocks(cgpu);
memset(pstate, 0, sizeof(pstate));
if (cgpu->gpu_pstate != -1)
snprintf(pstate, sizeof(pstate), "P%hu", cgpu->gpu_pstate);
card = device_name[gpu_id];
snprintf(buf, sizeof(buf), "GPU=%d;BUS=%hd;CARD=%s;SM=%hu;MEM=%u;"
"TEMP=%.1f;FAN=%hu;RPM=%hu;FREQ=%u;MEMFREQ=%u;GPUF=%u;MEMF=%u;"
"PST=%s;POWER=%u;PLIM=%u;"
"VID=%hx;PID=%hx;NVML=%d;NVAPI=%d;SN=%s;BIOS=%s|",
gpu_id, cgpu->gpu_bus, card, cgpu->gpu_arch, (uint32_t)cgpu->gpu_mem,
cgpu->gpu_temp, cgpu->gpu_fan, cgpu->gpu_fan_rpm,
cgpu->gpu_clock / 1000U, cgpu->gpu_memclock / 1000U, // base clocks
cgpu->monitor.gpu_clock, cgpu->monitor.gpu_memclock, // current
pstate, cgpu->gpu_power, cgpu->gpu_plimit,
cgpu->gpu_vid, cgpu->gpu_pid, cgpu->nvml_id, cgpu->nvapi_id,
cgpu->gpu_sn, cgpu->gpu_desc);
strcat(buffer, buf);
}
#ifndef WIN32
static char os_version[64] = "linux ";
#endif
static const char* os_name()
{
#ifdef WIN32
return "windows";
#else
return "linux";
#endif
}
/**
* System and CPU Infos
*/
static void syshwinfos()
{
char buf[256];
int cputc = (int) cpu_temp(0);
uint32_t cpuclk = cpu_clock(0);
memset(buf, 0, sizeof(buf));
snprintf(buf, sizeof(buf), "OS=%s;NVDRIVER=%s;CPUS=%d;CPUTEMP=%d;CPUFREQ=%d|",
os_name(), driver_version, num_cpus, cputc, cpuclk);
strcat(buffer, buf);
}
/**
* Returns gpu and system (todo) informations
*/
static char *gethwinfos(char *params)
{
*buffer = '\0';
for (int i = 0; i < cuda_num_devices(); i++)
gpuhwinfos(i);
syshwinfos();
return buffer;
}
/*****************************************************************************/
/**
* Returns the last 50 scans stats
* optional param thread id (default all)
*/
static char *gethistory(char *params)
{
struct stats_data data[50];
int thrid = params ? atoi(params) : -1;
char *p = buffer;
int records = stats_get_history(thrid, data, ARRAY_SIZE(data));
*buffer = '\0';
for (int i = 0; i < records; i++) {
time_t ts = data[i].tm_stat;
p += sprintf(p, "GPU=%d;H=%u;KHS=%.2f;DIFF=%.6f;"
"COUNT=%u;FOUND=%u;ID=%u;TS=%u|",
data[i].gpu_id, data[i].height, data[i].hashrate, data[i].difficulty,
data[i].hashcount, data[i].hashfound, data[i].uid, (uint32_t)ts);
}
return buffer;
}
/**
* Returns the job scans ranges (debug purpose)
*/
static char *getscanlog(char *params)
{
struct hashlog_data data[50];
char *p = buffer;
int records = hashlog_get_history(data, ARRAY_SIZE(data));
*buffer = '\0';
for (int i = 0; i < records; i++) {
time_t ts = data[i].tm_upd;
p += sprintf(p, "H=%u;JOB=%u;N=%u;FROM=0x%x;SCANTO=0x%x;"
"COUNT=0x%x;FOUND=%u;TS=%u|",
data[i].height, data[i].njobid, data[i].nonce, data[i].scanned_from, data[i].scanned_to,
(data[i].scanned_to - data[i].scanned_from), data[i].tm_sent ? 1 : 0, (uint32_t)ts);
}
return buffer;
}
/**
* Some debug infos about memory usage
*/
static char *getmeminfo(char *params)
{
uint64_t smem, hmem, totmem;
uint32_t srec, hrec;
stats_getmeminfo(&smem, &srec);
hashlog_getmeminfo(&hmem, &hrec);
totmem = smem + hmem;
*buffer = '\0';
sprintf(buffer, "STATS=%u;HASHLOG=%u;MEM=%llu|",
srec, hrec, totmem);
return buffer;
}
/*****************************************************************************/
static char *gethelp(char *params);
struct CMDS {
const char *name;
char *(*func)(char *);
} cmds[] = {
{ "summary", getsummary },
{ "threads", getthreads },
{ "pool", getpoolnfo },
{ "histo", gethistory },
{ "hwinfo", gethwinfos },
{ "meminfo", getmeminfo },
{ "scanlog", getscanlog },
/* keep it the last */
{ "help", gethelp },
};
#define CMDMAX ARRAY_SIZE(cmds)
static char *gethelp(char *params)
{
*buffer = '\0';
char * p = buffer;
for (int i = 0; i < CMDMAX-1; i++)
p += sprintf(p, "%s\n", cmds[i].name);
sprintf(p, "|");
return buffer;
}
/*****************************************************************************/
static int send_result(SOCKETTYPE c, char *result)
{
int n;
if (!result) {
n = send(c, "", 1, 0);
} else {
// ignore failure - it's closed immediately anyway
n = send(c, result, (int)strlen(result) + 1, 0);
}
return n;
}
/* ---- Base64 Encoding/Decoding Table --- */
static const char table64[]=
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
static size_t base64_encode(const uchar *indata, size_t insize, char *outptr, size_t outlen)
{
uchar ibuf[3];
uchar obuf[4];
int i, inputparts, inlen = (int) insize;
size_t len = 0;
char *output, *outbuf;
memset(outptr, 0, outlen);
outbuf = output = (char*)calloc(1, inlen * 4 / 3 + 4);
if(outbuf == NULL)
{
applog(LOG_ERR, "Out of memory!");
proper_exit(1);
}
while (inlen > 0) {
for (i = inputparts = 0; i < 3; i++) {
if (inlen > 0) {
inputparts++;
ibuf[i] = (uchar) *indata;
indata++; inlen--;
}
else
ibuf[i] = 0;
}
obuf[0] = (uchar) ((ibuf[0] & 0xFC) >> 2);
obuf[1] = (uchar) (((ibuf[0] & 0x03) << 4) | ((ibuf[1] & 0xF0) >> 4));
obuf[2] = (uchar) (((ibuf[1] & 0x0F) << 2) | ((ibuf[2] & 0xC0) >> 6));
obuf[3] = (uchar) (ibuf[2] & 0x3F);
switch(inputparts) {
case 1: /* only one byte read */
snprintf(output, 5, "%c%c==",
table64[obuf[0]],
table64[obuf[1]]);
break;
case 2: /* two bytes read */
snprintf(output, 5, "%c%c%c=",
table64[obuf[0]],
table64[obuf[1]],
table64[obuf[2]]);
break;
default:
snprintf(output, 5, "%c%c%c%c",
table64[obuf[0]],
table64[obuf[1]],
table64[obuf[2]],
table64[obuf[3]] );
break;
}
if ((len+4) > outlen)
break;
output += 4; len += 4;
}
len = snprintf(outptr, len, "%s", outbuf);
// todo: seems to be missing on linux
if (strlen(outptr) == 27)
strcat(outptr, "=");
free(outbuf);
return len;
}
#include "openssl/sha.h"
/* websocket handshake (tested in Chrome) */
static int websocket_handshake(SOCKETTYPE c, char *result, char *clientkey)
{
char answer[256];
char inpkey[128] = { 0 };
char seckey[64];
uchar sha1[20];
SHA_CTX ctx;
if (opt_protocol)
applog(LOG_DEBUG, "clientkey: %s", clientkey);
sprintf(inpkey, "%s258EAFA5-E914-47DA-95CA-C5AB0DC85B11", clientkey);
// SHA-1 test from rfc, returns in base64 "s3pPLMBiTxaQ9kYGzzhZRbK+xOo="
//sprintf(inpkey, "dGhlIHNhbXBsZSBub25jZQ==258EAFA5-E914-47DA-95CA-C5AB0DC85B11");
SHA1_Init(&ctx);
SHA1_Update(&ctx, inpkey, strlen(inpkey));
SHA1_Final(sha1, &ctx);
base64_encode(sha1, 20, seckey, sizeof(seckey));
sprintf(answer,
"HTTP/1.1 101 Switching Protocol\r\n"
"Upgrade: WebSocket\r\nConnection: Upgrade\r\n"
"Sec-WebSocket-Accept: %s\r\n"
"Sec-WebSocket-Protocol: text\r\n"
"\r\n", seckey);
// data result as tcp frame
uchar hd[10] = { 0 };
hd[0] = 129; // 0x1 text frame (FIN + opcode)
uint64_t datalen = (uint64_t) strlen(result);
uint8_t frames = 2;
if (datalen <= 125) {
hd[1] = (uchar) (datalen);
} else if (datalen <= 65535) {
hd[1] = (uchar) 126;
hd[2] = (uchar) (datalen >> 8);
hd[3] = (uchar) (datalen);
frames = 4;
} else {
hd[1] = (uchar) 127;
hd[2] = (uchar) (datalen >> 56);
hd[3] = (uchar) (datalen >> 48);
hd[4] = (uchar) (datalen >> 40);
hd[5] = (uchar) (datalen >> 32);
hd[6] = (uchar) (datalen >> 24);
hd[7] = (uchar) (datalen >> 16);
hd[8] = (uchar) (datalen >> 8);
hd[9] = (uchar) (datalen);
frames = 10;
}
size_t handlen = strlen(answer);
uchar *data = (uchar*) calloc(1, handlen + frames + (size_t) datalen + 1);
if(data == NULL)
{
applog(LOG_ERR, "Out of memory!");
proper_exit(1);
}
else {
uchar *p = data;
// HTTP header 101
memcpy(p, answer, handlen);
p += handlen;
// WebSocket Frame - Header + Data
memcpy(p, hd, frames);
memcpy(p + frames, result, (size_t)datalen);
if(SOCKETFAIL(send(c, (const char*)data, (int)strlen(answer) + frames + (int)datalen + 1, 0)) && (opt_debug || opt_protocol))
applog(LOG_WARNING, "API: failed to send %d bytes", (int)strlen(answer) + frames + (int)datalen + 1);
free(data);
}
return 0;
}
/*
* N.B. IP4 addresses are by Definition 32bit big endian on all platforms
*/
static void setup_ipaccess()
{
char *buf, *ptr, *comma, *slash, *dot;
int ipcount, mask, octet, i;
char group;
buf = (char*) calloc(1, strlen(opt_api_allow) + 1);
if(buf == NULL)
{
applog(LOG_ERR, "Out of memory!");
proper_exit(1);
}
strcpy(buf, opt_api_allow);
ipcount = 1;
ptr = buf;
while (*ptr) if (*(ptr++) == ',')
ipcount++;
// possibly more than needed, but never less
ipaccess = (struct IP4ACCESS *) calloc(ipcount, sizeof(struct IP4ACCESS));
if(ipaccess == NULL)
{
applog(LOG_ERR, "Out of memory!");
proper_exit(1);
}
ips = 0;
ptr = buf;
while (ptr && *ptr) {
while (*ptr == ' ' || *ptr == '\t')
ptr++;
if (*ptr == ',') {
ptr++;
continue;
}
comma = strchr(ptr, ',');
if (comma)
*(comma++) = '\0';
group = NOPRIVGROUP;
if (isalpha(*ptr) && *(ptr+1) == ':') {
if (DEFINEDGROUP(*ptr))
group = GROUP(*ptr);
ptr += 2;
}
ipaccess[ips].group = group;
if (strcmp(ptr, ALLIP4) == 0)
ipaccess[ips].ip = ipaccess[ips].mask = 0;
else
{
slash = strchr(ptr, '/');
if (!slash)
ipaccess[ips].mask = 0xffffffff;
else {
*(slash++) = '\0';
mask = atoi(slash);
if (mask < 1 || mask > 32)
goto popipo; // skip invalid/zero
ipaccess[ips].mask = 0;
while (mask-- >= 0) {
octet = 1 << (mask & 7);
ipaccess[ips].mask |= (octet << (24 - (8 * (mask >> 3))));
}
}
ipaccess[ips].ip = 0; // missing default to '.0'
for (i = 0; ptr && (i < 4); i++) {
dot = strchr(ptr, '.');
if (dot)
*(dot++) = '\0';
octet = atoi(ptr);
if (octet < 0 || octet > 0xff)
goto popipo; // skip invalid
ipaccess[ips].ip |= (octet << (24 - (i * 8)));
ptr = dot;
}
ipaccess[ips].ip &= ipaccess[ips].mask;
}
ips++;
popipo:
ptr = comma;
}
free(buf);
}
static bool check_connect(struct sockaddr_in *cli, char **connectaddr, char *group)
{
bool addrok = false;
*connectaddr = inet_ntoa(cli->sin_addr);
*group = NOPRIVGROUP;
if (opt_api_allow) {
int client_ip = htonl(cli->sin_addr.s_addr);
for (int i = 0; i < ips; i++) {
if ((client_ip & ipaccess[i].mask) == ipaccess[i].ip) {
addrok = true;
*group = ipaccess[i].group;
break;
}
}
}
else
addrok = (strcmp(*connectaddr, localaddr) == 0);
return addrok;
}
static void api()
{
const char *addr = opt_api_allow;
uint16_t port = opt_api_listen; // 4068
char buf[MYBUFSIZ];
SOCKETTYPE c;
int n, bound;
char *connectaddr = nullptr;
char *binderror = nullptr;
char group;
time_t bindstart;
struct sockaddr_in serv;
struct sockaddr_in cli;
socklen_t clisiz;
bool addrok = false;
long long counter;
char *result = nullptr;
char *params = nullptr;
int i;
SOCKETTYPE *apisock = nullptr;
if (!opt_api_listen) {
applog(LOG_DEBUG, "API disabled");
return;
}
if (opt_api_allow) {
setup_ipaccess();
if (ips == 0) {
applog(LOG_WARNING, "API not running (no valid IPs specified)%s", UNAVAILABLE);
}
}
apisock = (SOCKETTYPE*) calloc(1, sizeof(*apisock));
if(apisock == NULL)
{
applog(LOG_ERR, "Out of memory!");
proper_exit(1);
}
*apisock = INVSOCK;
sleep(1);
*apisock = socket(AF_INET, SOCK_STREAM, 0);
if (*apisock == INVSOCK) {
applog(LOG_ERR, "API initialisation failed (%s)%s", strerror(errno), UNAVAILABLE);
return;
}
memset(&serv, 0, sizeof(serv));
serv.sin_family = AF_INET;
serv.sin_addr.s_addr = inet_addr(addr);
if (serv.sin_addr.s_addr == (in_addr_t)INVINETADDR) {
applog(LOG_ERR, "API initialisation 2 failed (%s)%s", strerror(errno), UNAVAILABLE);
return;
}
serv.sin_port = htons(port);
#ifndef WIN32
// On linux with SO_REUSEADDR, bind will get the port if the previous
// socket is closed (even if it is still in TIME_WAIT) but fail if
// another program has it open - which is what we want
int optval = 1;
// If it doesn't work, we don't really care - just show a debug message
if (SOCKETFAIL(setsockopt(*apisock, SOL_SOCKET, SO_REUSEADDR, (void *)(&optval), sizeof(optval))))
applog(LOG_DEBUG, "API setsockopt SO_REUSEADDR failed (ignored): %s", SOCKERRMSG);
#else
// On windows a 2nd program can bind to a port>1024 already in use unless
// SO_EXCLUSIVEADDRUSE is used - however then the bind to a closed port
// in TIME_WAIT will fail until the timeout - so we leave the options alone
#endif
// try for 1 minute ... in case the old one hasn't completely gone yet
bound = 0;
bindstart = time(NULL);
while(bound == 0)
{
if(bind(*apisock, (struct sockaddr *)(&serv), sizeof(serv)) < 0)
{
binderror = strerror(errno);
if((time(NULL) - bindstart) > 61)
break;
else
{
if(!opt_quiet || opt_debug || opt_protocol)
applog(LOG_WARNING, "API bind to port %u failed - trying again in 20sec",
(uint32_t)port);
sleep(20);
}
}
else
{
bound = 1;
}
}
if (bound == 0) {
applog(LOG_WARNING, "API bind to port %d failed (%s)%s", port, binderror, UNAVAILABLE);
free(apisock);
return;
}
if (SOCKETFAIL(listen(*apisock, QUEUE))) {
applog(LOG_ERR, "API initialisation 3 failed (%s)%s", strerror(errno), UNAVAILABLE);
CLOSESOCKET(*apisock);
free(apisock);
return;
}
buffer = (char *) calloc(1, MYBUFSIZ + 1);
if(buffer == NULL)
{
applog(LOG_ERR, "Out of memory!");
proper_exit(1);
}
counter = 0;
while (bye == 0) {
counter++;
clisiz = sizeof(cli);
c = accept(*apisock, (struct sockaddr*) (&cli), &clisiz);
if(SOCKETFAIL(c))
{
if(!stop_mining)
applog(LOG_ERR, "API failed (%s)%s", strerror(errno), UNAVAILABLE);
CLOSESOCKET(*apisock);
free(apisock);
free(buffer);
return;
}
addrok = check_connect(&cli, &connectaddr, &group);
if (opt_debug || opt_protocol)
applog(LOG_DEBUG, "API: connection from %s - %s",
connectaddr, addrok ? "Accepted" : "Ignored");
if (addrok) {
bool fail;
char *wskey = NULL;
n = recv(c, &buf[0], SOCK_REC_BUFSZ, 0);
fail = SOCKETFAIL(n);
if (fail)
buf[0] = '\0';
else if (n > 0 && buf[n-1] == '\n') {
/* telnet compat \r\n */
buf[n-1] = '\0'; n--;
if (n > 0 && buf[n-1] == '\r')
buf[n-1] = '\0';
}
buf[n] = '\0';
//if (opt_debug && opt_protocol && n > 0)
// applog(LOG_DEBUG, "API: recv command: (%d) '%s'+char(%x)", n, buf, buf[n-1]);
if (!fail) {
char *msg = NULL;
/* Websocket requests compat. */
if ((msg = strstr(buf, "GET /")) && strlen(msg) > 5) {
char cmd[256] = { 0 };
sscanf(&msg[5], "%s\n", cmd);
params = strchr(cmd, '/');
if (params)
*(params++) = '|';
params = strchr(cmd, '/');
if (params)
*(params++) = '\0';
wskey = strstr(msg, "Sec-WebSocket-Key");
if (wskey) {
char *eol = strchr(wskey, '\r');
if (eol) *eol = '\0';
wskey = strchr(wskey, ':');
wskey++;
while ((*wskey) == ' ') wskey++; // ltrim
}
n = sprintf(buf, "%s", cmd);
}
params = strchr(buf, '|');
if (params != NULL)
*(params++) = '\0';
if ((opt_debug || opt_protocol) && n > 0)
applog(LOG_DEBUG, "API: exec command %s(%s)", buf, params ? params : "");
for (i = 0; i < CMDMAX; i++) {
if (strcmp(buf, cmds[i].name) == 0 && strlen(buf)) {
result = (cmds[i].func)(params);
if (wskey) {
websocket_handshake(c, result, wskey);
break;
}
send_result(c, result);
break;
}
}
CLOSESOCKET(c);
}
}
}
CLOSESOCKET(*apisock);
free(apisock);
free(buffer);
}
/* external access */
void *api_thread(void *userdata)
{
struct thr_info *mythr = (struct thr_info*)userdata;
startup = time(NULL);
api();
tq_freeze(mythr->q);
return NULL;
}
extern enum sha_algos opt_algo;
static uint32_t algo_throughput[MAX_GPUS][64] = {0};
void bench_set_throughput(int thr_id, uint32_t throughput)
{
algo_throughput[thr_id][opt_algo] = throughput;
}
/* to be able to report the default value set in each algo */
void api_set_throughput(int thr_id, uint32_t throughput)
{
if(thr_id < MAX_GPUS && thr_info)
{
struct cgpu_info *cgpu = &thr_info[thr_id].gpu;
cgpu->intensity = throughput2intensity(throughput);
if(cgpu->throughput != throughput) cgpu->throughput = throughput;
}
// to display in bench results
if(opt_benchmark)
bench_set_throughput(thr_id, throughput);
}