Hash :
5c1ecaff
Author :
Date :
2013-04-26T12:48:33
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/*
* Copyright 2013 Andrew Smith
* Copyright 2013 Con Kolivas
*
* 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 3 of the License, or (at your option)
* any later version. See COPYING for more details.
*/
#include <float.h>
#include <limits.h>
#include <pthread.h>
#include <stdint.h>
#include <stdio.h>
#include <strings.h>
#include <sys/time.h>
#include <unistd.h>
#include "config.h"
#ifdef WIN32
#include <windows.h>
#endif
#include "compat.h"
#include "miner.h"
#include "usbutils.h"
#define BLANK ""
#define LFSTR "<LF>"
#define BFLSC_DI_FIRMWARE "FIRMWARE"
#define BFLSC_DI_ENGINES "ENGINES"
#define BFLSC_DI_JOBSINQUE "JOBS IN QUEUE"
#define BFLSC_DI_XLINKMODE "XLINK MODE"
#define BFLSC_DI_XLINKPRESENT "XLINK PRESENT"
#define BFLSC_DI_DEVICESINCHAIN "DEVICES IN CHAIN"
#define BFLSC_DI_CHAINPRESENCE "CHAIN PRESENCE MASK"
#define FULLNONCE 0x100000000
struct bflsc_dev {
// Work
unsigned int ms_work;
int work_queued;
int work_complete;
int nonces_hw; // TODO: this - need to add a paramter to submit_nonce()
// so can pass 'dev' to hw_error
uint64_t hashes_unsent;
uint64_t hashes_sent;
uint64_t nonces_found;
struct timeval last_check_result;
struct timeval last_dev_result; // array > 0
struct timeval last_nonce_result; // > 0 nonce
// Info
char *firmware;
int engines; // does a faulty engine only hash 'x/16 * FULLNONCE' ?
char *xlink_mode;
char *xlink_present;
// Status
bool dead; // TODO: handle seperate x-link devices failing?
bool overheat;
// Stats
float temp1;
float temp2;
float vcc1; // TODO? get V also
float vcc2;
float vmain;
float temp1_max;
float temp2_max;
time_t temp1_max_time;
time_t temp2_max_time;
float temp1_sum;
float temp2_sum;
uint64_t temp_count;
time_t temp_time;
float temp1_5min_av; // TODO:
float temp2_5min_av; // TODO:
// To handle the fact that flushing the queue may not remove all work
// (normally one item is still being processed)
// and also that once the queue is flushed, results may still be in
// the output queue - but we don't want to process them at the time of doing an LP
// when result_id > flush_id+1, flushed work can be discarded since it
// is no longer in the device
uint64_t flush_id; // counter when results were last flushed
uint64_t result_id; // counter when results were last checked
bool flushed; // are any flushed?
};
// TODO: I stole cgpu_info.device_file
// ... need to update miner.h to instead have a generic void *device_info = NULL;
// ... and these structure definitions need to be in miner.h if API needs to see them
// ... but then again maybe not - maybe another devinfo that the driver provides
// However, clean up all that for all devices in miner.h ... miner.h is a mess at the moment
struct bflsc_info {
pthread_rwlock_t stat_lock;
struct thr_info results_thr;
uint64_t hashes_sent;
uint32_t update_count;
struct timeval last_update;
int sc_count;
struct bflsc_dev *sc_devs;
unsigned int scan_sleep_time;
unsigned int results_sleep_time;
unsigned int default_ms_work;
bool shutdown;
bool flash_led;
};
#define BFLSC_XLINKHDR '@'
#define BFLSC_MAXPAYLOAD 255
struct DataForwardToChain {
uint8_t header;
uint8_t deviceAddress;
uint8_t payloadSize;
uint8_t payloadData[BFLSC_MAXPAYLOAD];
};
#define DATAFORWARDSIZE(data) (1 + 1 + 1 + data.payloadSize)
#define MIDSTATE_BYTES 32
#define MERKLE_OFFSET 64
#define MERKLE_BYTES 12
#define BFLSC_QJOBSIZ (MIDSTATE_BYTES+MERKLE_BYTES+1)
#define BFLSC_EOB 0xaa
struct QueueJobStructure {
uint8_t payloadSize;
uint8_t midState[MIDSTATE_BYTES];
uint8_t blockData[MERKLE_BYTES];
uint8_t endOfBlock;
};
#define QUE_MIDSTATE 0
#define QUE_BLOCKDATA 1
#define QUE_NONCECOUNT 2
#define QUE_FLD_MIN 3
#define QUE_FLD_MAX 11
#define BFLSC_SIGNATURE 0xc1
#define BFLSC_EOW 0xfe
// N.B. this will only work with 5 jobs
// requires a different jobs[N] for each job count
// but really only need to handle 5 anyway
struct QueueJobPackStructure {
uint8_t payloadSize;
uint8_t signature;
uint8_t jobsInArray;
struct QueueJobStructure jobs[5];
uint8_t endOfWrapper;
};
// TODO: Implement in API and also in usb device selection
struct SaveString {
uint8_t payloadSize;
uint8_t payloadData[BFLSC_MAXPAYLOAD];
};
// Commands
#define BFLSC_IDENTIFY "ZGX"
#define BFLSC_IDENTIFY_LEN (sizeof(BFLSC_IDENTIFY)-1)
#define BFLSC_DETAILS "ZCX"
#define BFLSC_DETAILS_LEN (sizeof(BFLSC_DETAILS)-1)
#define BFLSC_FIRMWARE "ZJX"
#define BFLSC_FIRMWARE_LEN (sizeof(BFLSC_FIRMWARE)-1)
#define BFLSC_FLASH "ZMX"
#define BFLSC_FLASH_LEN (sizeof(BFLSC_FLASH)-1)
#define BFLSC_VOLTAGE "ZTX"
#define BFLSC_VOLTAGE_LEN (sizeof(BFLSC_VOLTAGE)-1)
#define BFLSC_TEMPERATURE "ZLX"
#define BFLSC_TEMPERATURE_LEN (sizeof(BFLSC_TEMPERATURE)-1)
#define BFLSC_QJOB "ZNX"
#define BFLSC_QJOB_LEN (sizeof(BFLSC_QJOB)-1)
#define BFLSC_QJOBS "ZWX"
#define BFLSC_QJOBS_LEN (sizeof(BFLSC_QJOBS)-1)
#define BFLSC_QRES "ZOX"
#define BFLSC_QRES_LEN (sizeof(BFLSC_QRES)-1)
#define BFLSC_QFLUSH "ZQX"
#define BFLSC_QFLUSH_LEN (sizeof(BFLSC_QFLUSH)-1)
#define BFLSC_FANAUTO "Z5X"
#define BFLSC_FANOUT_LEN (sizeof(BFLSC_FANAUTO)-1)
#define BFLSC_FAN0 "Z0X"
#define BFLSC_FAN0_LEN (sizeof(BFLSC_FAN0)-1)
#define BFLSC_FAN1 "Z1X"
#define BFLSC_FAN1_LEN (sizeof(BFLSC_FAN1)-1)
#define BFLSC_FAN2 "Z2X"
#define BFLSC_FAN2_LEN (sizeof(BFLSC_FAN2)-1)
#define BFLSC_FAN3 "Z3X"
#define BFLSC_FAN3_LEN (sizeof(BFLSC_FAN3)-1)
#define BFLSC_FAN4 "Z4X"
#define BFLSC_FAN4_LEN (sizeof(BFLSC_FAN4)-1)
#define BFLSC_SAVESTR "ZSX"
#define BFLSC_SAVESTR_LEN (sizeof(BFLSC_SAVESTR)-1)
#define BFLSC_LOADSTR "ZUX"
#define BFLSC_LOADSTR_LEN (sizeof(BFLSC_LOADSTR)-1)
// Replies
#define BFLSC_IDENTITY "BitFORCE SC"
#define BFLSC_BFLFPGA "SHA256"
#define BFLSC_OK "OK\n"
#define BFLSC_OK_LEN (sizeof(BFLSC_OK)-1)
#define BFLSC_SUCCESS "SUCCESS\n"
#define BFLSC_SUCCESS_LEN (sizeof(BFLSC_SUCCESS)-1)
#define BFLSC_RESULT "COUNT:"
#define BFLSC_RESULT_LEN (sizeof(BFLSC_RESULT)-1)
#define BFLSC_ANERR "ERR:"
#define BFLSC_ANERR_LEN (sizeof(BFLSC_ANERR)-1)
#define BFLSC_TIMEOUT BFLSC_ANERR "TIMEOUT"
#define BFLSC_TIMEOUT_LEN (sizeof(BFLSC_TIMEOUT)-1)
#define BFLSC_INVALID BFLSC_ANERR "INVALID DATA"
#define BFLSC_INVALID_LEN (sizeof(BFLSC_INVALID)-1)
#define BFLSC_ERRSIG BFLSC_ANERR "SIGNATURE"
#define BFLSC_ERRSIG_LEN (sizeof(BFLSC_ERRSIG)-1)
#define BFLSC_OKQ "OK:QUEUED"
#define BFLSC_OKQ_LEN (sizeof(BFLSC_OKQ)-1)
// Followed by N=1..5
#define BFLSC_OKQN "OK:QUEUED "
#define BFLSC_OKQN_LEN (sizeof(BFLSC_OKQN)-1)
#define BFLSC_QFULL "QUEUE FULL"
#define BFLSC_QFULL_LEN (sizeof(BFLSC_QFULL)-1)
#define BFLSC_HITEMP "HIGH TEMPERATURE RECOVERY"
#define BFLSC_HITEMP_LEN (sizeof(BFLSC_HITEMP)-1)
#define BFLSC_EMPTYSTR "MEMORY EMPTY"
#define BFLSC_EMPTYSTR_LEN (sizeof(BFLSC_EMPTYSTR)-1)
// Queued and non-queued are the same
#define FullNonceRangeJob QueueJobStructure
#define BFLSC_JOBSIZ BFLSC_QJOBSIZ
// Non queued commands
#define BFLSC_SENDWORK "ZDX"
#define BFLSC_SENDWORK_LEN (sizeof(BFLSC_SENDWORK)-1)
// Non queued commands (not used)
#define BFLSC_WORKSTATUS "ZFX"
#define BFLSC_WORKSTATUS_LEN (sizeof(BFLSC_WORKSTATUS)-1)
#define BFLSC_SENDRANGE "ZPX"
#define BFLSC_SENDRANGE_LEN (sizeof(BFLSC_SENDRANGE)-1)
// Non queued work replies (not used)
#define BFLSC_NONCE "NONCE-FOUND:"
#define BFLSC_NONCE_LEN (sizeof(BFLSC_NONCE)-1)
#define BFLSC_NO_NONCE "NO-NONCE"
#define BFLSC_NO_NONCE_LEN (sizeof(BFLSC_NO_NONCE)-1)
#define BFLSC_IDLE "IDLE"
#define BFLSC_IDLE_LEN (sizeof(BFLSC_IDLE)-1)
#define BFLSC_BUSY "BUSY"
#define BFLSC_BUSY_LEN (sizeof(BFLSC_BUSY)-1)
#define BFLSC_MINIRIG "BAM"
#define BFLSC_SINGLE "BAS"
#define BFLSC_LITTLESINGLE "BAL"
#define BFLSC_JALAPENO "BAJ"
// Default expected time for a nonce range
// - thus no need to check until this + last time work was found
// 60GH/s MiniRig (1 board) or Single
#define BAM_WORK_TIME 71.58
#define BAS_WORK_TIME 71.58
// 30GH/s Little Single
#define BAL_WORK_TIME 143.17
// 4.5GH/s Jalapeno
#define BAJ_WORK_TIME 954.44
// Defaults (slightly over half the work time) but ensure none are above 100
// SCAN_TIME - delay after sending work
// RES_TIME - delay between checking for results
// TODO: make dynamic? (for all but MiniRig)
#define BAM_SCAN_TIME 2
#define BAM_RES_TIME 2
#define BAS_SCAN_TIME 36
#define BAS_RES_TIME 36
#define BAL_SCAN_TIME 72
#define BAL_RES_TIME 72
#define BAJ_SCAN_TIME 100
#define BAJ_RES_TIME 100
#define BFLSC_TEMP_SLEEPMS 5
#define BFLSC_QUE_SIZE 20
#define BFLSC_QUE_FULL_ENOUGH 13
#define BFLSC_BUFSIZ (0x200)
// Must drop this far below cutoff before resuming work
#define BFLSC_TEMP_RECOVER 5
// If initialisation fails the first time,
// sleep this amount (ms) and try again
#define REINIT_TIME_FIRST_MS 100
// Max ms per sleep
#define REINIT_TIME_MAX_MS 800
// Keep trying up to this many us
#define REINIT_TIME_MAX 3000000
static const char *blank = "";
struct device_drv bflsc_drv;
static void bflsc_applog(struct cgpu_info *bflsc, int dev, enum usb_cmds cmd, int amount, int err)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
char xlink[17];
if (dev > 0)
sprintf(xlink, "x-%d", dev);
else {
if (sc_info->sc_count > 0)
strcpy(xlink, " master");
else
xlink[0] = '\0';
}
usb_applog(bflsc, cmd, xlink, amount, err);
}
// Break an input up into lines with LFs removed
// false means an error, but if *lines > 0 then data was also found
// error would be no data or missing LF at the end
static bool tolines(struct cgpu_info *bflsc, int dev, char *buf, int *lines, char ***items, enum usb_cmds cmd)
{
bool ok = true;
char *ptr;
#define p_lines (*lines)
#define p_items (*items)
p_lines = 0;
p_items = NULL;
if (!buf || !(*buf)) {
applog(LOG_DEBUG, "USB: %s%i: (%d) empty %s",
bflsc->drv->name, bflsc->device_id, dev, usb_cmdname(cmd));
return false;
}
ptr = strdup(buf);
while (ptr && *ptr) {
p_items = realloc(p_items, ++p_lines * sizeof(*p_items));
if (unlikely(!p_items))
quit(1, "Failed to realloc p_items in tolines");
p_items[p_lines-1] = ptr;
ptr = strchr(ptr, '\n');
if (ptr)
*(ptr++) = '\0';
else {
if (ok) {
applog(LOG_DEBUG, "USB: %s%i: (%d) missing lf(s) in %s",
bflsc->drv->name, bflsc->device_id, dev, usb_cmdname(cmd));
}
ok = false;
}
}
return ok;
}
static void freetolines(int *lines, char ***items)
{
if (*lines > 0) {
free(**items);
free(*items);
}
*lines = 0;
*items = NULL;
}
enum breakmode {
NOCOLON,
ONECOLON,
ALLCOLON // Temperature uses this
};
// Break down a single line into 'fields'
// 'lf' will be a pointer to the final LF if it is there (or NULL)
// firstname will be the allocated buf copy pointer which is also
// the string before ':' for ONECOLON and ALLCOLON
// If any string is missing the ':' when it was expected, false is returned
static bool breakdown(enum breakmode mode, char *buf, int *count, char **firstname, char ***fields, char **lf)
{
char *ptr, *colon, *comma;
bool ok;
#define p_count (*count)
#define p_firstname (*firstname)
#define p_fields (*fields)
#define p_lf (*lf)
p_count = 0;
p_firstname = NULL;
p_fields = NULL;
p_lf = NULL;
if (!buf || !(*buf))
return false;
ptr = p_firstname = strdup(buf);
p_lf = strchr(p_firstname, '\n');
if (mode == ONECOLON) {
colon = strchr(ptr, ':');
if (colon) {
ptr = colon;
*(ptr++) = '\0';
} else
ok = false;
}
while (*ptr == ' ')
ptr++;
ok = true;
while (ptr && *ptr) {
if (mode == ALLCOLON) {
colon = strchr(ptr, ':');
if (colon)
ptr = colon + 1;
else
ok = false;
}
while (*ptr == ' ')
ptr++;
comma = strchr(ptr, ',');
if (comma)
*(comma++) = '\0';
p_fields = realloc(p_fields, ++p_count * sizeof(*p_fields));
if (unlikely(!p_fields))
quit(1, "Failed to realloc p_fields in breakdown");
p_fields[p_count-1] = ptr;
ptr = comma;
}
return ok;
}
static void freebreakdown(int *count, char **firstname, char ***fields)
{
if (*firstname)
free(*firstname);
if (*count > 0)
free(*fields);
*count = 0;
*firstname = NULL;
*fields = NULL;
}
static void xlinkstr(char *xlink, int dev, struct bflsc_info *sc_info)
{
if (dev > 0)
sprintf(xlink, " x-%d", dev);
else {
if (sc_info->sc_count > 0)
strcpy(xlink, " mast");
else
*xlink = '\0';
}
}
static void __bflsc_initialise(struct cgpu_info *bflsc)
{
int err;
// TODO: this is a standard BFL FPGA Initialisation
// it probably will need changing ...
// TODO: does x-link bypass the other device FTDI? (I think it does)
// So no initialisation required except for the master device?
if (bflsc->usbinfo.nodev)
return;
// Reset
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_RESET,
FTDI_VALUE_RESET, bflsc->usbdev->found->interface, C_RESET);
applog(LOG_DEBUG, "%s%i: reset got err %d",
bflsc->drv->name, bflsc->device_id, err);
if (bflsc->usbinfo.nodev)
return;
// Set data control
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_DATA,
FTDI_VALUE_DATA, bflsc->usbdev->found->interface, C_SETDATA);
applog(LOG_DEBUG, "%s%i: setdata got err %d",
bflsc->drv->name, bflsc->device_id, err);
if (bflsc->usbinfo.nodev)
return;
// Set the baud
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_BAUD, FTDI_VALUE_BAUD,
(FTDI_INDEX_BAUD & 0xff00) | bflsc->usbdev->found->interface,
C_SETBAUD);
applog(LOG_DEBUG, "%s%i: setbaud got err %d",
bflsc->drv->name, bflsc->device_id, err);
if (bflsc->usbinfo.nodev)
return;
// Set Flow Control
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_FLOW,
FTDI_VALUE_FLOW, bflsc->usbdev->found->interface, C_SETFLOW);
applog(LOG_DEBUG, "%s%i: setflowctrl got err %d",
bflsc->drv->name, bflsc->device_id, err);
if (bflsc->usbinfo.nodev)
return;
// Set Modem Control
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_MODEM,
FTDI_VALUE_MODEM, bflsc->usbdev->found->interface, C_SETMODEM);
applog(LOG_DEBUG, "%s%i: setmodemctrl got err %d",
bflsc->drv->name, bflsc->device_id, err);
if (bflsc->usbinfo.nodev)
return;
// Clear any sent data
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_RESET,
FTDI_VALUE_PURGE_TX, bflsc->usbdev->found->interface, C_PURGETX);
applog(LOG_DEBUG, "%s%i: purgetx got err %d",
bflsc->drv->name, bflsc->device_id, err);
if (bflsc->usbinfo.nodev)
return;
// Clear any received data
err = usb_transfer(bflsc, FTDI_TYPE_OUT, FTDI_REQUEST_RESET,
FTDI_VALUE_PURGE_RX, bflsc->usbdev->found->interface, C_PURGERX);
applog(LOG_DEBUG, "%s%i: purgerx got err %d",
bflsc->drv->name, bflsc->device_id, err);
}
static void bflsc_initialise(struct cgpu_info *bflsc)
{
mutex_lock(&(bflsc->device_mutex));
bflsc_initialise(bflsc);
mutex_unlock(&(bflsc->device_mutex));
}
static int write_to_dev(struct cgpu_info *bflsc, int dev, char *buf, int buflen, int *amount, enum usb_cmds cmd)
{
struct DataForwardToChain data;
int len;
if (dev == 0)
return usb_write(bflsc, buf, buflen, amount, cmd);
data.header = BFLSC_XLINKHDR;
data.deviceAddress = (uint8_t)dev;
data.payloadSize = buflen;
memcpy(data.payloadData, buf, buflen);
len = DATAFORWARDSIZE(data);
// TODO: handle xlink timeout message - here or at call?
return usb_write(bflsc, (char *)&data, len, amount, cmd);
}
static bool getinfo(struct cgpu_info *bflsc, int dev)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct bflsc_dev sc_dev;
char buf[BFLSC_BUFSIZ+1];
int err, amount;
char **items, *firstname, **fields, *lf;
int i, lines, count;
bool res, ok;
// TODO: if dev is ever > 0 must handle xlink timeout message
err = write_to_dev(bflsc, dev, BFLSC_DETAILS, BFLSC_DETAILS_LEN, &amount, C_REQUESTDETAILS);
if (err < 0 || amount != BFLSC_DETAILS_LEN) {
applog(LOG_ERR, "%s detect (%s) send details request failed (%d:%d)",
bflsc->drv->dname, bflsc->device_path, amount, err);
return false;
}
err = usb_ftdi_read_ok(bflsc, buf, sizeof(buf)-1, &amount, C_GETDETAILS);
if (err < 0 || amount < 1) {
if (err < 0) {
applog(LOG_ERR, "%s detect (%s) get details return invalid/timed out (%d:%d)",
bflsc->drv->dname, bflsc->device_path, amount, err);
} else {
applog(LOG_ERR, "%s detect (%s) get details returned nothing (%d:%d)",
bflsc->drv->dname, bflsc->device_path, amount, err);
}
return false;
}
bzero(&sc_dev, sizeof(struct bflsc_dev));
sc_info->sc_count = 1;
res = tolines(bflsc, dev, buf, &lines, &items, C_GETDETAILS);
for (i = 0; i < lines-1; i++) {
res = breakdown(ONECOLON, items[i], &count, &firstname, &fields, &lf);
if (lf)
*lf = '\0';
if (!res || count != 2 || !lf) {
applog(LOG_WARNING, "%s detect (%s) invalid details line: '%s%s'",
bflsc->drv->dname, bflsc->device_path, buf, lf ? LFSTR : BLANK);
dev_error(bflsc, REASON_DEV_COMMS_ERROR);
goto mata;
}
if (strcmp(firstname, BFLSC_DI_FIRMWARE) == 0)
sc_dev.firmware = strdup(fields[0]);
else if (strcmp(firstname, BFLSC_DI_ENGINES) == 0) {
sc_dev.engines = atoi(fields[0]);
if (sc_dev.engines < 1 || sc_dev.engines > 8) {
applog(LOG_WARNING, "%s detect (%s) invalid engine count: '%s%s'",
bflsc->drv->dname, bflsc->device_path, buf, lf ? LFSTR : BLANK);
goto mata;
}
}
else if (strcmp(firstname, BFLSC_DI_XLINKMODE) == 0)
sc_dev.xlink_mode = strdup(fields[0]);
else if (strcmp(firstname, BFLSC_DI_XLINKPRESENT) == 0)
sc_dev.xlink_present = strdup(fields[0]);
else if (strcmp(firstname, BFLSC_DI_DEVICESINCHAIN) == 0) {
sc_info->sc_count = atoi(fields[0]) + 1;
if (sc_info->sc_count < 1 || sc_info->sc_count > 30) {
applog(LOG_WARNING, "%s detect (%s) invalid s-link count: '%s%s'",
bflsc->drv->dname, bflsc->device_path, buf, lf ? LFSTR : BLANK);
goto mata;
}
}
freebreakdown(&count, &firstname, &fields);
}
sc_info->sc_devs = calloc(sc_info->sc_count, sizeof(struct bflsc_dev));
if (unlikely(!sc_info->sc_devs))
quit(1, "Failed to calloc in getinfo");
memcpy(&(sc_info->sc_devs[0]), &sc_dev, sizeof(sc_dev));
// TODO: do we care about getting this info for the rest if > 0 x-link
ok = true;
goto ne;
mata:
freebreakdown(&count, &firstname, &fields);
ok = false;
ne:
freetolines(&lines, &items);
return ok;
}
static bool bflsc_detect_one(struct libusb_device *dev, struct usb_find_devices *found)
{
struct bflsc_info *sc_info = NULL;
char buf[BFLSC_BUFSIZ+1];
char devpath[20];
int i, err, amount;
struct timeval init_start, init_now;
int init_sleep, init_count;
bool ident_first;
char *newname;
struct cgpu_info *bflsc = calloc(1, sizeof(*bflsc));
if (unlikely(!bflsc))
quit(1, "Failed to calloc bflsc in bflsc_detect_one");
bflsc->drv = &bflsc_drv;
bflsc->deven = DEV_ENABLED;
bflsc->threads = 1;
sc_info = calloc(1, sizeof(*sc_info));
if (unlikely(!sc_info))
quit(1, "Failed to calloc sc_info in bflsc_detect_one");
// TODO: fix ... everywhere ...
bflsc->device_file = (FILE *)sc_info;
if (!usb_init(bflsc, dev, found)) {
applog(LOG_ERR, "%s detect (%d:%d) failed to initialise (incorrect device?)",
bflsc->drv->dname,
(int)(bflsc->usbinfo.bus_number),
(int)(bflsc->usbinfo.device_address));
goto shin;
}
sprintf(devpath, "%d:%d",
(int)(bflsc->usbinfo.bus_number),
(int)(bflsc->usbinfo.device_address));
// Allow 2 complete attempts if the 1st time returns an unrecognised reply
ident_first = true;
retry:
init_count = 0;
init_sleep = REINIT_TIME_FIRST_MS;
cgtime(&init_start);
reinit:
__bflsc_initialise(bflsc);
err = write_to_dev(bflsc, 0, BFLSC_IDENTIFY, BFLSC_IDENTIFY_LEN, &amount, C_REQUESTIDENTIFY);
if (err < 0 || amount != BFLSC_IDENTIFY_LEN) {
applog(LOG_ERR, "%s detect (%s) send identify request failed (%d:%d)",
bflsc->drv->dname, devpath, amount, err);
goto unshin;
}
err = usb_ftdi_read_nl(bflsc, buf, sizeof(buf)-1, &amount, C_GETIDENTIFY);
if (err < 0 || amount < 1) {
init_count++;
cgtime(&init_now);
if (us_tdiff(&init_now, &init_start) <= REINIT_TIME_MAX) {
if (init_count == 2) {
applog(LOG_WARNING, "%s detect (%s) 2nd init failed (%d:%d) - retrying",
bflsc->drv->dname, devpath, amount, err);
}
nmsleep(init_sleep);
if ((init_sleep * 2) <= REINIT_TIME_MAX_MS)
init_sleep *= 2;
goto reinit;
}
if (init_count > 0)
applog(LOG_WARNING, "%s detect (%s) init failed %d times %.2fs",
bflsc->drv->dname, devpath, init_count, tdiff(&init_now, &init_start));
if (err < 0) {
applog(LOG_ERR, "%s detect (%s) error identify reply (%d:%d)",
bflsc->drv->dname, devpath, amount, err);
} else {
applog(LOG_ERR, "%s detect (%s) empty identify reply (%d)",
bflsc->drv->dname, devpath, amount);
}
goto unshin;
}
buf[amount] = '\0';
if (unlikely(strstr(buf, BFLSC_BFLFPGA))) {
applog(LOG_DEBUG, "%s detect (%s) found an FPGA '%s' ignoring",
bflsc->drv->dname, devpath, buf);
goto unshin;
}
if (unlikely(!strstr(buf, BFLSC_IDENTITY))) {
if (ident_first) {
applog(LOG_DEBUG, "%s detect (%s) didn't recognise '%s' trying again ...",
bflsc->drv->dname, devpath, buf);
ident_first = false;
goto retry;
}
applog(LOG_DEBUG, "%s detect (%s) didn't recognise '%s' on 2nd attempt",
bflsc->drv->dname, devpath, buf);
goto unshin;
}
bflsc->device_path = strdup(devpath);
if (!getinfo(bflsc, 0))
goto unshin;
sc_info->scan_sleep_time = BAS_SCAN_TIME;
sc_info->results_sleep_time = BAS_RES_TIME;
sc_info->default_ms_work = BAS_WORK_TIME;
newname = NULL;
if (sc_info->sc_count > 1) {
newname = BFLSC_MINIRIG;
sc_info->scan_sleep_time = BAM_SCAN_TIME;
sc_info->results_sleep_time = BAM_RES_TIME;
sc_info->default_ms_work = BAM_WORK_TIME;
} else {
switch (sc_info->sc_devs[0].engines) {
case 1:
newname = BFLSC_JALAPENO;
sc_info->scan_sleep_time = BAJ_SCAN_TIME;
sc_info->results_sleep_time = BAJ_RES_TIME;
sc_info->default_ms_work = BAJ_WORK_TIME;
break;
case 2:
case 3:
case 4:
newname = BFLSC_LITTLESINGLE;
sc_info->scan_sleep_time = BAL_SCAN_TIME;
sc_info->results_sleep_time = BAL_RES_TIME;
sc_info->default_ms_work = BAL_WORK_TIME;
break;
default:
break;
}
}
for (i = 0; i < sc_info->sc_count; i++)
sc_info->sc_devs[i].ms_work = sc_info->default_ms_work;
if (newname) {
if (!bflsc->drv->copy)
bflsc->drv = copy_drv(bflsc->drv);
bflsc->drv->name = newname;
}
// Do a performance test of a nonce? (and set ms_work)
// We have a real BFLSC!
applog(LOG_DEBUG, "%s (%s) identified as: '%s'",
bflsc->drv->dname, devpath, bflsc->drv->name);
if (!add_cgpu(bflsc))
goto unshin;
update_usb_stats(bflsc);
mutex_init(&bflsc->device_mutex);
return true;
unshin:
usb_uninit(bflsc);
shin:
free(bflsc->device_path);
free(bflsc->device_file);
if (bflsc->name != blank)
free(bflsc->name);
if (bflsc->drv->copy)
free(bflsc->drv);
free(bflsc);
return false;
}
static void bflsc_detect(void)
{
usb_detect(&bflsc_drv, bflsc_detect_one);
}
static void get_bflsc_statline_before(char *buf, struct cgpu_info *bflsc)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
float temp = 0;
float vcc1 = 0;
int i;
rd_lock(&(sc_info->stat_lock));
for (i = 0; i < sc_info->sc_count; i++) {
if (sc_info->sc_devs[i].temp1 > temp)
temp = sc_info->sc_devs[i].temp1;
if (sc_info->sc_devs[i].temp2 > temp)
temp = sc_info->sc_devs[i].temp2;
if (sc_info->sc_devs[i].vcc1 > vcc1)
vcc1 = sc_info->sc_devs[i].vcc1;
}
rd_unlock(&(sc_info->stat_lock));
tailsprintf(buf, "max%5.1fC%4.2fV | ", temp, vcc1);
}
static bool getok(struct cgpu_info *bflsc, enum usb_cmds cmd, int *err, int *amount)
{
char buf[BFLSC_BUFSIZ+1];
*err = usb_ftdi_read_nl(bflsc, buf, sizeof(buf)-1, amount, cmd);
if (*err < 0 || *amount < (int)BFLSC_OK_LEN)
return false;
else
return true;
}
static bool getokerr(struct cgpu_info *bflsc, enum usb_cmds cmd, int *err, int *amount, char *buf, size_t bufsiz)
{
*err = usb_ftdi_read_nl(bflsc, buf, bufsiz-1, amount, cmd);
if (*err < 0 || *amount < (int)BFLSC_OK_LEN)
return false;
else {
if (*amount > (int)BFLSC_ANERR_LEN && strncmp(buf, BFLSC_ANERR, BFLSC_ANERR_LEN) == 0)
return false;
else
return true;
}
}
static void bflsc_send_flush_work(struct cgpu_info *bflsc, int dev)
{
int err, amount;
// Device is gone
if (bflsc->usbinfo.nodev)
return;
mutex_lock(&bflsc->device_mutex);
err = write_to_dev(bflsc, dev, BFLSC_QFLUSH, BFLSC_QFLUSH_LEN, &amount, C_QUEFLUSH);
if (err < 0 || amount != BFLSC_QFLUSH_LEN) {
mutex_unlock(&bflsc->device_mutex);
bflsc_applog(bflsc, dev, C_QUEFLUSH, amount, err);
} else {
// TODO: do we care if we don't get 'OK'? (always will in normal processing)
err = getok(bflsc, C_QUEFLUSHREPLY, &err, &amount);
mutex_unlock(&bflsc->device_mutex);
// TODO: report an error if not 'OK' ?
}
}
static void flush_one_dev(struct cgpu_info *bflsc, int dev)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct work *work, *tmp;
bool did = false;
bflsc_send_flush_work(bflsc, dev);
rd_lock(&bflsc->qlock);
HASH_ITER(hh, bflsc->queued_work, work, tmp) {
if (work->queued && work->subid == dev) {
// devflag is used to flag stale work
work->devflag = true;
did = true;
}
}
rd_unlock(&bflsc->qlock);
if (did) {
wr_lock(&(sc_info->stat_lock));
sc_info->sc_devs[dev].flushed = true;
sc_info->sc_devs[dev].flush_id = sc_info->sc_devs[dev].result_id;
sc_info->sc_devs[dev].work_queued = 0;
wr_unlock(&(sc_info->stat_lock));
}
}
static void bflsc_flush_work(struct cgpu_info *bflsc)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
int dev;
for (dev = 0; dev < sc_info->sc_count; dev++)
flush_one_dev(bflsc, dev);
}
static void bflsc_flash_led(struct cgpu_info *bflsc, int dev)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
int err, amount;
// Device is gone
if (bflsc->usbinfo.nodev)
return;
// It is not critical flashing the led so don't get stuck if we
// can't grab the mutex now
if (mutex_trylock(&bflsc->device_mutex))
return;
err = write_to_dev(bflsc, dev, BFLSC_FLASH, BFLSC_FLASH_LEN, &amount, C_REQUESTFLASH);
if (err < 0 || amount != BFLSC_FLASH_LEN) {
mutex_unlock(&(bflsc->device_mutex));
bflsc_applog(bflsc, dev, C_REQUESTFLASH, amount, err);
} else {
getok(bflsc, C_FLASHREPLY, &err, &amount);
mutex_unlock(&(bflsc->device_mutex));
}
// Once we've tried - don't do it until told to again
// - even if it failed
sc_info->flash_led = false;
return;
}
static bool bflsc_get_temp(struct cgpu_info *bflsc, int dev)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
char buf[BFLSC_BUFSIZ+1];
int err, amount;
char *firstname, **fields, *lf;
char xlink[17];
int count;
bool res;
float temp, temp1, temp2;
// Device is gone
if (bflsc->usbinfo.nodev)
return false;
if (dev >= sc_info->sc_count) {
applog(LOG_ERR, "%s%i: temp invalid xlink device %d - limit %d",
bflsc->drv->name, bflsc->device_id, dev, sc_info->sc_count - 1);
return false;
}
// Flash instead of Temp
if (sc_info->flash_led) {
bflsc_flash_led(bflsc, dev);
return true;
}
/* It is not very critical getting temp so don't get stuck if we
* can't grab the mutex here */
if (mutex_trylock(&bflsc->device_mutex))
return false;
xlinkstr(&(xlink[0]), dev, sc_info);
err = write_to_dev(bflsc, dev, BFLSC_TEMPERATURE, BFLSC_TEMPERATURE_LEN, &amount, C_REQUESTTEMPERATURE);
if (err < 0 || amount != BFLSC_TEMPERATURE_LEN) {
mutex_unlock(&(bflsc->device_mutex));
applog(LOG_ERR, "%s%i: Error: Request%s temp invalid/timed out (%d:%d)",
bflsc->drv->name, bflsc->device_id, xlink, amount, err);
return false;
}
err = usb_ftdi_read_nl(bflsc, buf, sizeof(buf)-1, &amount, C_GETTEMPERATURE);
if (err < 0 || amount < 1) {
mutex_unlock(&(bflsc->device_mutex));
if (err < 0) {
applog(LOG_ERR, "%s%i: Error: Get%s temp return invalid/timed out (%d:%d)",
bflsc->drv->name, bflsc->device_id, xlink, amount, err);
} else {
applog(LOG_ERR, "%s%i: Error: Get%s temp returned nothing (%d:%d)",
bflsc->drv->name, bflsc->device_id, xlink, amount, err);
}
return false;
}
mutex_unlock(&(bflsc->device_mutex));
res = breakdown(ALLCOLON, buf, &count, &firstname, &fields, &lf);
if (lf)
*lf = '\0';
if (!res || count != 2 || !lf) {
applog(LOG_WARNING, "%s%i: Invalid%s temp reply: '%s%s'",
bflsc->drv->name, bflsc->device_id, xlink, buf, lf ? LFSTR : BLANK);
freebreakdown(&count, &firstname, &fields);
dev_error(bflsc, REASON_DEV_COMMS_ERROR);
return false;
}
temp = temp1 = (float)atoi(fields[0]);
temp2 = (float)atoi(fields[1]);
if (temp1 > 0 || temp2 > 0) {
wr_lock(&(sc_info->stat_lock));
sc_info->sc_devs[dev].temp1 = temp1;
sc_info->sc_devs[dev].temp2 = temp2;
if (temp1 > sc_info->sc_devs[dev].temp1_max) {
sc_info->sc_devs[dev].temp1_max = temp1;
sc_info->sc_devs[dev].temp1_max_time = time(NULL);
}
if (temp2 > sc_info->sc_devs[dev].temp2_max) {
sc_info->sc_devs[dev].temp2_max = temp2;
sc_info->sc_devs[dev].temp2_max_time = time(NULL);
}
sc_info->sc_devs[dev].temp1_sum += temp1;
sc_info->sc_devs[dev].temp2_sum += temp2;
sc_info->sc_devs[dev].temp_count++;
sc_info->sc_devs[dev].temp_time = time(NULL);
// TODO: 5min av
// also will be useful for adjusting the fans by code
wr_unlock(&(sc_info->stat_lock));
if (temp < temp2)
temp = temp2;
bflsc->temp = temp;
if (bflsc->cutofftemp > 0 && temp > bflsc->cutofftemp) {
applog(LOG_WARNING, "%s%i:%s temp (%.1f) hit thermal cutoff limit %d, stopping work!",
bflsc->drv->name, bflsc->device_id, xlink,
temp, bflsc->cutofftemp);
dev_error(bflsc, REASON_DEV_THERMAL_CUTOFF);
sc_info->sc_devs[dev].overheat = true;
flush_one_dev(bflsc, dev);
return false;
}
if (bflsc->cutofftemp > 0 && temp < (bflsc->cutofftemp - BFLSC_TEMP_RECOVER))
sc_info->sc_devs[dev].overheat = false;
}
freebreakdown(&count, &firstname, &fields);
return true;
}
static void process_nonces(struct cgpu_info *bflsc, int dev, int count, char **fields, int *nonces)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
char midstate[MIDSTATE_BYTES], blockdata[MERKLE_BYTES];
struct work *work;
uint32_t nonce;
int i, num;
bool res;
if (count < QUE_FLD_MIN) {
// error msg
return;
}
if (count > QUE_FLD_MAX) {
// error msg
count = QUE_FLD_MAX;
}
num = atoi(fields[QUE_NONCECOUNT]);
if (num != count - QUE_FLD_MIN) {
// error msg
}
bzero(midstate, MIDSTATE_BYTES);
bzero(blockdata, MERKLE_BYTES);
hex2bin((unsigned char *)midstate, fields[QUE_MIDSTATE], MIDSTATE_BYTES);
hex2bin((unsigned char *)blockdata, fields[QUE_BLOCKDATA], MERKLE_BYTES);
work = find_queued_work_bymidstate(bflsc, midstate, MIDSTATE_BYTES,
blockdata, MERKLE_OFFSET, MERKLE_BYTES);
if (!work) {
// error msg
return;
}
res = false;
for (i = QUE_FLD_MIN; i < count; i++) {
if (strlen(fields[i]) != 8) {
// error msg
}
hex2bin((void*)&nonce, fields[i], 4);
#ifndef __BIG_ENDIAN__
nonce = swab32(nonce);
#endif
wr_lock(&(sc_info->stat_lock));
sc_info->sc_devs[dev].nonces_found++;
wr_unlock(&(sc_info->stat_lock));
submit_nonce(bflsc->thr[0], work, nonce);
(*nonces)++;
res = true;
}
wr_lock(&(sc_info->stat_lock));
if (res)
sc_info->sc_devs[dev].result_id++;
sc_info->sc_devs[i].work_complete++;
sc_info->sc_devs[i].hashes_unsent += FULLNONCE;
// If not flushed (stale)
if (!(work->devflag))
sc_info->sc_devs[i].work_queued -= 1;
wr_unlock(&(sc_info->stat_lock));
work_completed(bflsc, work);
}
static int process_results(struct cgpu_info *bflsc, int dev, char *buf, int *nonces)
{
char **items, *firstname, **fields, *lf;
int que, i, lines, count;
bool res;
*nonces = 0;
res = tolines(bflsc, dev, buf, &lines, &items, C_GETRESULTS);
if (lines < 1) {
que = 0;
goto arigatou;
}
res = breakdown(ONECOLON, items[0], &count, &firstname, &fields, &lf);
if (count < 1) {
// error msg
freebreakdown(&count, &firstname, &fields);
que = 0;
goto arigatou;
}
if (count != 1) {
// error msg
}
que = atoi(fields[0]);
if (que != (lines - 2)) {
// error
que = lines - 2;
}
freebreakdown(&count, &firstname, &fields);
for (i = 1; i <= que; i++) {
res = breakdown(NOCOLON, items[i], &count, &firstname, &fields, &lf);
process_nonces(bflsc, dev, count, fields, nonces);
freebreakdown(&count, &firstname, &fields);
}
arigatou:
freetolines(&lines, &items);
return que;
}
#define TVF(tv) ((float)((tv)->tv_sec) + ((float)((tv)->tv_usec) / 1000000.0))
#define TVFMS(tv) (TVF(tv) * 1000.0)
// Thread to simply keep looking for results
static void *bflsc_get_results(void *userdata)
{
struct cgpu_info *bflsc = (struct cgpu_info *)userdata;
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct timeval elapsed, now;
float oldest, f;
char buf[BFLSC_BUFSIZ+1];
int err, amount;
int i, que, dev, nonces;
cgtime(&now);
for (i = 0; i < sc_info->sc_count; i++) {
copy_time(&(sc_info->sc_devs[i].last_check_result), &now);
copy_time(&(sc_info->sc_devs[i].last_dev_result), &now);
copy_time(&(sc_info->sc_devs[i].last_nonce_result), &now);
}
while (sc_info->shutdown == false) {
if (bflsc->usbinfo.nodev)
return NULL;
dev = -1;
oldest = FLT_MAX;
cgtime(&now);
// Find the first oldest ... that also needs checking
for (i = 0; i < sc_info->sc_count; i++) {
timersub(&now, &(sc_info->sc_devs[i].last_check_result), &elapsed);
f = TVFMS(&elapsed);
if (f < oldest && f >= sc_info->sc_devs[i].ms_work) {
f = oldest;
dev = i;
}
}
if (bflsc->usbinfo.nodev)
return NULL;
if (dev == -1)
goto utsura;
mutex_lock(&(bflsc->device_mutex));
cgtime(&(sc_info->sc_devs[dev].last_check_result));
err = write_to_dev(bflsc, dev, BFLSC_QRES, BFLSC_QRES_LEN, &amount, C_REQUESTRESULTS);
if (err < 0 || amount != BFLSC_QRES_LEN) {
mutex_unlock(&(bflsc->device_mutex));
bflsc_applog(bflsc, dev, C_REQUESTRESULTS, amount, err);
// TODO: do what? flag as dead device?
// count how many times it has happened and reset/fail it
// or even make sure it is all x-link and that means device
// has failed after some limit of this?
// of course all other I/O must also be failing ...
} else {
err = usb_ftdi_read_ok(bflsc, buf, sizeof(buf)-1, &amount, C_GETRESULTS);
mutex_unlock(&(bflsc->device_mutex));
if (err < 0 || amount < 1) {
bflsc_applog(bflsc, dev, C_GETRESULTS, amount, err);
// TODO: do what? ... see above
} else {
que = process_results(bflsc, dev, buf, &nonces);
if (que > 0)
cgtime(&(sc_info->sc_devs[dev].last_dev_result));
if (nonces > 0)
cgtime(&(sc_info->sc_devs[dev].last_nonce_result));
// TODO: if not getting results ...
}
// TODO: re-estimate the wait times (results_sleep_time and ms_work) based on ?
}
utsura:
nmsleep(sc_info->results_sleep_time);
}
return NULL;
}
static bool bflsc_thread_prepare(struct thr_info *thr)
{
struct cgpu_info *bflsc = thr->cgpu;
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct timeval now;
if (thr_info_create(&(sc_info->results_thr), NULL, bflsc_get_results, (void *)bflsc)) {
applog(LOG_ERR, "%s%i: thread create failed", bflsc->drv->name, bflsc->device_id);
return false;
}
pthread_detach(sc_info->results_thr.pth);
cgtime(&now);
get_datestamp(bflsc->init, &now);
return true;
}
static void bflsc_shutdown(struct thr_info *thr)
{
struct cgpu_info *bflsc = thr->cgpu;
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
sc_info->shutdown = true;
}
static void bflsc_thread_enable(struct thr_info *thr)
{
struct cgpu_info *bflsc = thr->cgpu;
if (bflsc->usbinfo.nodev)
return;
bflsc_initialise(bflsc);
}
static bool bflsc_send_work(struct cgpu_info *bflsc, int dev, struct work *work)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct FullNonceRangeJob data;
char buf[BFLSC_BUFSIZ+1];
int err, amount;
int len;
int try;
// Device is gone
if (bflsc->usbinfo.nodev)
return false;
// TODO: handle this everywhere
if (sc_info->sc_devs[dev].overheat == true)
return false;
// Initially code only deals with sending one work item
data.payloadSize = BFLSC_JOBSIZ;
memcpy(data.midState, work->midstate, MIDSTATE_BYTES);
memcpy(data.blockData, work->data + MERKLE_OFFSET, MERKLE_BYTES);
data.endOfBlock = BFLSC_EOB;
try = 0;
re_send:
mutex_lock(&(bflsc->device_mutex));
err = write_to_dev(bflsc, dev, BFLSC_QJOB, BFLSC_QJOB_LEN, &amount, C_REQUESTQUEJOB);
if (err < 0 || amount != BFLSC_QJOB_LEN) {
mutex_unlock(&(bflsc->device_mutex));
bflsc_applog(bflsc, dev, C_REQUESTQUEJOB, amount, err);
return false;
}
if (!getok(bflsc, C_REQUESTQUEJOBSTATUS, &err, &amount)) {
mutex_unlock(&(bflsc->device_mutex));
bflsc_applog(bflsc, dev, C_REQUESTQUEJOBSTATUS, amount, err);
return false;
}
len = sizeof(struct FullNonceRangeJob);
err = write_to_dev(bflsc, dev, (char *)&data, len, &amount, C_QUEJOB);
if (err < 0 || amount != len) {
mutex_unlock(&(bflsc->device_mutex));
bflsc_applog(bflsc, dev, C_QUEJOB, amount, err);
return false;
}
if (!getokerr(bflsc, C_QUEJOBSTATUS, &err, &amount, buf, sizeof(buf))) {
// TODO: check for QUEUE FULL and set work_queued to BFLSC_QUE_SIZE
// and report a code bug LOG_ERR - coz it should never happen
// Try twice
if (try++ < 1 && amount > 1 &&
strncasecmp(buf, BFLSC_TIMEOUT, BFLSC_TIMEOUT_LEN) == 0)
goto re_send;
mutex_unlock(&(bflsc->device_mutex));
bflsc_applog(bflsc, dev, C_QUEJOBSTATUS, amount, err);
return false;
}
mutex_unlock(&(bflsc->device_mutex));
wr_lock(&(sc_info->stat_lock));
sc_info->sc_devs[dev].work_queued++;
wr_unlock(&(sc_info->stat_lock));
work->subid = dev;
return true;
}
static bool bflsc_queue_full(struct cgpu_info *bflsc)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct work *work;
int i, dev, tried, que;
bool ret = false;
int tries = 0;
tried = -1;
// if something is wrong with a device try the next one available
// TODO: try them all? Add an unavailable flag to sc_devs[i] init to 0 here first
while (++tries < 3) {
// Device is gone
if (bflsc->usbinfo.nodev)
return false;
dev = -1;
rd_lock(&(sc_info->stat_lock));
// Anything waiting - gets the work first
for (i = 0; i < sc_info->sc_count; i++) {
// TODO: and ignore x-link dead - once I work out how to decide it is dead
if (i != tried && sc_info->sc_devs[i].work_queued == 0 &&
!sc_info->sc_devs[i].overheat) {
dev = i;
break;
}
}
if (dev == -1) {
que = BFLSC_QUE_SIZE * 10; // 10x is certainly above the MAX it could be
// The first device with the smallest amount queued
for (i = 0; i < sc_info->sc_count; i++) {
if (i != tried && sc_info->sc_devs[i].work_queued < que &&
!sc_info->sc_devs[i].overheat) {
dev = i;
que = sc_info->sc_devs[i].work_queued;
}
}
if (que > BFLSC_QUE_FULL_ENOUGH)
dev = -1;
}
rd_unlock(&(sc_info->stat_lock));
// nothing needs work yet
if (dev == -1)
break;
work = get_queued(bflsc);
if (work) {
if (bflsc_send_work(bflsc, dev, work)) {
ret = true;
break;
} else
tried = dev;
} else
break;
}
return ret;
}
static int64_t bflsc_scanwork(struct thr_info *thr)
{
struct cgpu_info *bflsc = thr->cgpu;
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
int64_t ret, unsent;
bool flushed, cleanup;
struct work *work, *tmp, *flush;
int dev;
// Device is gone
if (bflsc->usbinfo.nodev)
return -1;
flushed = false;
// Single lock check if any are flagged as flushed
rd_lock(&(sc_info->stat_lock));
for (dev = 0; dev < sc_info->sc_count; dev++)
flushed |= sc_info->sc_devs[dev].flushed;
rd_unlock(&(sc_info->stat_lock));
// > 0 flagged as flushed
if (flushed) {
// TODO: something like this ......
for (dev = 0; dev < sc_info->sc_count; dev++) {
cleanup = false;
// Is there any flushed work that can be removed?
wr_lock(&(sc_info->stat_lock));
if (sc_info->sc_devs[dev].flushed) {
if (sc_info->sc_devs[dev].result_id > (sc_info->sc_devs[dev].flush_id + 1))
cleanup = true;
}
// yes remove the flushed work that can be removed
if (cleanup) {
// one lock per item - TODO: need a better way to do this?
do {
flush = NULL;
rd_lock(&bflsc->qlock);
HASH_ITER(hh, bflsc->queued_work, work, tmp) {
if (work->devflag && work->subid == dev)
flush = work;
}
rd_unlock(&bflsc->qlock);
if (flush)
discard_work(flush);
} while (flush);
sc_info->sc_devs[dev].flushed = false;
}
wr_unlock(&(sc_info->stat_lock));
}
}
// Count up the work done since we last were here
wr_lock(&(sc_info->stat_lock));
ret = 0;
for (dev = 0; dev < sc_info->sc_count; dev++) {
unsent = sc_info->sc_devs[dev].hashes_unsent;
sc_info->sc_devs[dev].hashes_unsent = 0;
sc_info->sc_devs[dev].hashes_sent += unsent;
sc_info->hashes_sent += unsent;
ret += unsent;
}
wr_unlock(&(sc_info->stat_lock));
// avoid a hard loop
if (sc_info->scan_sleep_time > 0)
nmsleep(sc_info->scan_sleep_time);
return ret;
}
static bool bflsc_get_stats(struct cgpu_info *bflsc)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
bool allok = true;
int i;
// Device is gone
if (bflsc->usbinfo.nodev)
return false;
for (i = 0; i < sc_info->sc_count; i++) {
if (!bflsc_get_temp(bflsc, i))
allok = false;
// Device is gone
if (bflsc->usbinfo.nodev)
return false;
if (i < (sc_info->sc_count - 1))
nmsleep(BFLSC_TEMP_SLEEPMS);
}
return allok;
}
static void bflsc_identify(struct cgpu_info *bflsc)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
// TODO: handle x-link
sc_info->flash_led = true;
}
static bool bflsc_thread_init(struct thr_info *thr)
{
struct cgpu_info *bflsc = thr->cgpu;
if (bflsc->usbinfo.nodev)
return false;
bflsc_initialise(bflsc);
return true;
}
// there should be a new API function to return device info that isn't the standard stuff
// instead of bflsc_api_stats - since the stats should really just be internal code info
// and the new one should be UNusual device stats/extra details - like the stuff below
static struct api_data *bflsc_api_stats(struct cgpu_info *bflsc)
{
struct bflsc_info *sc_info = (struct bflsc_info *)(bflsc->device_file);
struct api_data *root = NULL;
//if no x-link ... etc
rd_lock(&(sc_info->stat_lock));
root = api_add_temp(root, "Temp1", &(sc_info->sc_devs[0].temp1), true);
root = api_add_temp(root, "Temp2", &(sc_info->sc_devs[0].temp2), true);
root = api_add_volts(root, "Vcc1", &(sc_info->sc_devs[0].vcc1), true);
root = api_add_volts(root, "Vcc2", &(sc_info->sc_devs[0].vcc2), true);
root = api_add_volts(root, "Vmain", &(sc_info->sc_devs[0].vmain), true);
root = api_add_temp(root, "Temp1 Max", &(sc_info->sc_devs[0].temp1_max), true);
root = api_add_temp(root, "Temp2 Max", &(sc_info->sc_devs[0].temp2_max), true);
root = api_add_time(root, "Temp1 Max Time", &(sc_info->sc_devs[0].temp1_max_time), true);
root = api_add_time(root, "Temp2 Max Time", &(sc_info->sc_devs[0].temp2_max_time), true);
rd_unlock(&(sc_info->stat_lock));
/*
else a whole lot of something like these ... etc
root = api_add_temp(root, "X-%d-Temp1", &(sc_info->temp1), false);
root = api_add_temp(root, "X-%d-Temp2", &(sc_info->temp2), false);
root = api_add_volts(root, "X-%d-Vcc1", &(sc_info->vcc1), false);
root = api_add_volts(root, "X-%d-Vcc2", &(sc_info->vcc2), false);
root = api_add_volts(root, "X-%d-Vmain", &(sc_info->vmain), false);
*/
return root;
}
struct device_drv bflsc_drv = {
.drv_id = DRIVER_BFLSC,
.dname = "BitForceSC",
.name = BFLSC_SINGLE,
.drv_detect = bflsc_detect,
.get_api_stats = bflsc_api_stats,
.get_statline_before = get_bflsc_statline_before,
.get_stats = bflsc_get_stats,
.identify_device = bflsc_identify,
.thread_prepare = bflsc_thread_prepare,
.thread_init = bflsc_thread_init,
.hash_work = hash_queued_work,
.scanwork = bflsc_scanwork,
.queue_full = bflsc_queue_full,
.flush_work = bflsc_flush_work,
.thread_shutdown = bflsc_shutdown,
.thread_enable = bflsc_thread_enable
};