Hash :
440edfc4
Author :
Date :
2012-12-10T20:14:36
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/*
* Copyright 2012 Andrew Smith
*
* 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 "config.h"
#include <stdint.h>
#include <stdbool.h>
#include "logging.h"
#include "miner.h"
#include "usbutils.h"
#ifdef USE_ICARUS
#define DRV_ICARUS 1
#endif
#ifdef USE_BITFORCE
#define DRV_BITFORCE 2
#endif
#ifdef USE_MODMINER
#define DRV_MODMINER 3
#endif
#define DRV_LAST -1
#define USB_CONFIG 1
#define EPI(x) (LIBUSB_ENDPOINT_IN | (unsigned char)(x))
#define EPO(x) (LIBUSB_ENDPOINT_OUT | (unsigned char)(x))
#ifdef WIN32
#define MODMINER_TIMEOUT_MS 200
#else
#define MODMINER_TIMEOUT_MS 100
#endif
#ifdef USE_MODMINER
static struct usb_endpoints mmq_eps[] = {
{ LIBUSB_TRANSFER_TYPE_BULK, 64, EPI(3), 0 },
{ LIBUSB_TRANSFER_TYPE_BULK, 64, EPO(3), 0 }
};
#endif
// TODO: Add support for (at least) Interrupt endpoints
static struct usb_find_devices find_dev[] = {
/*
#ifdef USE_ICARUS
{ DRV_ICARUS, "ICA", 0x067b, 0x0230, true, EPI(3), EPO(2), 1 },
{ DRV_ICARUS, "LOT", 0x0403, 0x6001, false, EPI(0), EPO(0), 1 },
{ DRV_ICARUS, "CM1", 0x067b, 0x0230, false, EPI(0), EPO(0), 1 },
#endif
#ifdef USE_BITFORCE
{ DRV_BITFORCE, "BFL", 0x0403, 0x6014, true, EPI(1), EPO(2), 1 },
#endif
*/
#ifdef USE_MODMINER
{
.drv = DRV_MODMINER,
.name = "MMQ",
.idVendor = 0x1fc9,
.idProduct = 0x0003,
.config = 1,
.interface = 1,
.timeout = MODMINER_TIMEOUT_MS,
.epcount = ARRAY_SIZE(mmq_eps),
.eps = mmq_eps },
#endif
{ DRV_LAST, NULL, 0, 0, 0, 0, 0, 0, NULL }
};
#ifdef USE_BITFORCE
extern struct device_api bitforce_api;
#endif
#ifdef USE_ICARUS
extern struct device_api icarus_api;
#endif
#ifdef USE_MODMINER
extern struct device_api modminer_api;
#endif
/*
* Our own internal list of used USB devices
* So two drivers or a single driver searching
* can't touch the same device during detection
*/
struct usb_list {
uint8_t bus_number;
uint8_t device_address;
uint8_t filler[2];
struct usb_list *prev;
struct usb_list *next;
};
#define STRBUFLEN 256
static const char *BLANK = "";
static pthread_mutex_t *list_lock = NULL;
static struct usb_list *usb_head = NULL;
struct cg_usb_stats_item {
uint64_t count;
double total_delay;
double min_delay;
double max_delay;
struct timeval first;
struct timeval last;
};
#define CMD_CMD 0
#define CMD_TIMEOUT 1
#define CMD_ERROR 2
struct cg_usb_stats_details {
int seq;
struct cg_usb_stats_item item[CMD_ERROR+1];
};
struct cg_usb_stats {
char *name;
int device_id;
struct cg_usb_stats_details *details;
};
#define SEQ0 0
#define SEQ1 1
static struct cg_usb_stats *usb_stats = NULL;
static int next_stat = 0;
static const char **usb_commands;
static const char *C_PING_S = "Ping";
static const char *C_CLEAR_S = "Clear";
static const char *C_REQUESTVERSION_S = "RequestVersion";
static const char *C_GETVERSION_S = "GetVersion";
static const char *C_REQUESTFPGACOUNT_S = "RequestFPGACount";
static const char *C_GETFPGACOUNT_S = "GetFPGACount";
static const char *C_STARTPROGRAM_S = "StartProgram";
static const char *C_STARTPROGRAMSTATUS_S = "StartProgramStatus";
static const char *C_PROGRAM_S = "Program";
static const char *C_PROGRAMSTATUS_S = "ProgramStatus";
static const char *C_PROGRAMSTATUS2_S = "ProgramStatus2";
static const char *C_FINALPROGRAMSTATUS_S = "FinalProgramStatus";
static const char *C_SETCLOCK_S = "SetClock";
static const char *C_REPLYSETCLOCK_S = "ReplySetClock";
static const char *C_REQUESTUSERCODE_S = "RequestUserCode";
static const char *C_GETUSERCODE_S = "GetUserCode";
static const char *C_REQUESTTEMPERATURE_S = "RequestTemperature";
static const char *C_GETTEMPERATURE_S = "GetTemperature";
static const char *C_SENDWORK_S = "SendWork";
static const char *C_SENDWORKSTATUS_S = "SendWorkStatus";
static const char *C_REQUESTWORKSTATUS_S = "RequestWorkStatus";
static const char *C_GETWORKSTATUS_S = "GetWorkStatus";
#ifdef EOL
#undef EOL
#endif
#define EOL "\n"
static const char *DESDEV = "Device";
static const char *DESCON = "Config";
static const char *DESSTR = "String";
static const char *DESINT = "Interface";
static const char *DESEP = "Endpoint";
static const char *DESHID = "HID";
static const char *DESRPT = "Report";
static const char *DESPHY = "Physical";
static const char *DESHUB = "Hub";
static const char *EPIN = "In: ";
static const char *EPOUT = "Out: ";
static const char *EPX = "?: ";
static const char *CONTROL = "Control";
static const char *ISOCHRONOUS_X = "Isochronous+?";
static const char *ISOCHRONOUS_N_X = "Isochronous+None+?";
static const char *ISOCHRONOUS_N_D = "Isochronous+None+Data";
static const char *ISOCHRONOUS_N_F = "Isochronous+None+Feedback";
static const char *ISOCHRONOUS_N_I = "Isochronous+None+Implicit";
static const char *ISOCHRONOUS_A_X = "Isochronous+Async+?";
static const char *ISOCHRONOUS_A_D = "Isochronous+Async+Data";
static const char *ISOCHRONOUS_A_F = "Isochronous+Async+Feedback";
static const char *ISOCHRONOUS_A_I = "Isochronous+Async+Implicit";
static const char *ISOCHRONOUS_D_X = "Isochronous+Adaptive+?";
static const char *ISOCHRONOUS_D_D = "Isochronous+Adaptive+Data";
static const char *ISOCHRONOUS_D_F = "Isochronous+Adaptive+Feedback";
static const char *ISOCHRONOUS_D_I = "Isochronous+Adaptive+Implicit";
static const char *ISOCHRONOUS_S_X = "Isochronous+Sync+?";
static const char *ISOCHRONOUS_S_D = "Isochronous+Sync+Data";
static const char *ISOCHRONOUS_S_F = "Isochronous+Sync+Feedback";
static const char *ISOCHRONOUS_S_I = "Isochronous+Sync+Implicit";
static const char *BULK = "Bulk";
static const char *INTERRUPT = "Interrupt";
static const char *UNKNOWN = "Unknown";
static const char *destype(uint8_t bDescriptorType)
{
switch (bDescriptorType) {
case LIBUSB_DT_DEVICE:
return DESDEV;
case LIBUSB_DT_CONFIG:
return DESCON;
case LIBUSB_DT_STRING:
return DESSTR;
case LIBUSB_DT_INTERFACE:
return DESINT;
case LIBUSB_DT_ENDPOINT:
return DESEP;
case LIBUSB_DT_HID:
return DESHID;
case LIBUSB_DT_REPORT:
return DESRPT;
case LIBUSB_DT_PHYSICAL:
return DESPHY;
case LIBUSB_DT_HUB:
return DESHUB;
}
return UNKNOWN;
}
static const char *epdir(uint8_t bEndpointAddress)
{
switch (bEndpointAddress & LIBUSB_ENDPOINT_DIR_MASK) {
case LIBUSB_ENDPOINT_IN:
return EPIN;
case LIBUSB_ENDPOINT_OUT:
return EPOUT;
}
return EPX;
}
static const char *epatt(uint8_t bmAttributes)
{
switch(bmAttributes & LIBUSB_TRANSFER_TYPE_MASK) {
case LIBUSB_TRANSFER_TYPE_CONTROL:
return CONTROL;
case LIBUSB_TRANSFER_TYPE_BULK:
return BULK;
case LIBUSB_TRANSFER_TYPE_INTERRUPT:
return INTERRUPT;
case LIBUSB_TRANSFER_TYPE_ISOCHRONOUS:
switch(bmAttributes & LIBUSB_ISO_SYNC_TYPE_MASK) {
case LIBUSB_ISO_SYNC_TYPE_NONE:
switch(bmAttributes & LIBUSB_ISO_USAGE_TYPE_MASK) {
case LIBUSB_ISO_USAGE_TYPE_DATA:
return ISOCHRONOUS_N_D;
case LIBUSB_ISO_USAGE_TYPE_FEEDBACK:
return ISOCHRONOUS_N_F;
case LIBUSB_ISO_USAGE_TYPE_IMPLICIT:
return ISOCHRONOUS_N_I;
}
return ISOCHRONOUS_N_X;
case LIBUSB_ISO_SYNC_TYPE_ASYNC:
switch(bmAttributes & LIBUSB_ISO_USAGE_TYPE_MASK) {
case LIBUSB_ISO_USAGE_TYPE_DATA:
return ISOCHRONOUS_A_D;
case LIBUSB_ISO_USAGE_TYPE_FEEDBACK:
return ISOCHRONOUS_A_F;
case LIBUSB_ISO_USAGE_TYPE_IMPLICIT:
return ISOCHRONOUS_A_I;
}
return ISOCHRONOUS_A_X;
case LIBUSB_ISO_SYNC_TYPE_ADAPTIVE:
switch(bmAttributes & LIBUSB_ISO_USAGE_TYPE_MASK) {
case LIBUSB_ISO_USAGE_TYPE_DATA:
return ISOCHRONOUS_D_D;
case LIBUSB_ISO_USAGE_TYPE_FEEDBACK:
return ISOCHRONOUS_D_F;
case LIBUSB_ISO_USAGE_TYPE_IMPLICIT:
return ISOCHRONOUS_D_I;
}
return ISOCHRONOUS_D_X;
case LIBUSB_ISO_SYNC_TYPE_SYNC:
switch(bmAttributes & LIBUSB_ISO_USAGE_TYPE_MASK) {
case LIBUSB_ISO_USAGE_TYPE_DATA:
return ISOCHRONOUS_S_D;
case LIBUSB_ISO_USAGE_TYPE_FEEDBACK:
return ISOCHRONOUS_S_F;
case LIBUSB_ISO_USAGE_TYPE_IMPLICIT:
return ISOCHRONOUS_S_I;
}
return ISOCHRONOUS_S_X;
}
return ISOCHRONOUS_X;
}
return UNKNOWN;
}
static void append(char **buf, char *append, size_t *off, size_t *len)
{
int new = strlen(append);
if ((new + *off) >= *len)
{
*len *= 2;
*buf = realloc(*buf, *len);
}
strcpy(*buf + *off, append);
*off += new;
}
static bool setgetdes(ssize_t count, libusb_device *dev, struct libusb_device_handle *handle, struct libusb_config_descriptor **config, int cd, char **buf, size_t *off, size_t *len)
{
char tmp[512];
int err;
err = libusb_set_configuration(handle, cd);
if (err) {
sprintf(tmp, EOL " ** dev %d: Failed to set config descriptor to %d, err %d",
(int)count, cd, err);
append(buf, tmp, off, len);
return false;
}
err = libusb_get_active_config_descriptor(dev, config);
if (err) {
sprintf(tmp, EOL " ** dev %d: Failed to get active config descriptor set to %d, err %d",
(int)count, cd, err);
append(buf, tmp, off, len);
return false;
}
sprintf(tmp, EOL " ** dev %d: Set & Got active config descriptor to %d, err %d",
(int)count, cd, err);
append(buf, tmp, off, len);
return true;
}
static void usb_full(ssize_t count, libusb_device *dev, char **buf, size_t *off, size_t *len)
{
struct libusb_device_descriptor desc;
struct libusb_device_handle *handle;
struct libusb_config_descriptor *config;
const struct libusb_interface_descriptor *idesc;
const struct libusb_endpoint_descriptor *epdesc;
unsigned char man[STRBUFLEN+1];
unsigned char prod[STRBUFLEN+1];
unsigned char ser[STRBUFLEN+1];
char tmp[512];
int err, i, j, k;
err = libusb_get_device_descriptor(dev, &desc);
if (err) {
sprintf(tmp, EOL ".USB dev %d: Failed to get descriptor, err %d",
(int)count, err);
append(buf, tmp, off, len);
return;
}
sprintf(tmp, EOL ".USB dev %d: Device Descriptor:" EOL "\tLength: %d" EOL
"\tDescriptor Type: %s" EOL "\tUSB: %04x" EOL "\tDeviceClass: %d" EOL
"\tDeviceSubClass: %d" EOL "\tDeviceProtocol: %d" EOL "\tMaxPacketSize0: %d" EOL
"\tidVendor: %04x" EOL "\tidProduct: %04x" EOL "\tDeviceRelease: %x" EOL
"\tNumConfigurations: %d",
(int)count, (int)(desc.bLength), destype(desc.bDescriptorType),
desc.bcdUSB, (int)(desc.bDeviceClass), (int)(desc.bDeviceSubClass),
(int)(desc.bDeviceProtocol), (int)(desc.bMaxPacketSize0),
desc.idVendor, desc.idProduct, desc.bcdDevice,
(int)(desc.bNumConfigurations));
append(buf, tmp, off, len);
err = libusb_open(dev, &handle);
if (err) {
sprintf(tmp, EOL " ** dev %d: Failed to open, err %d", (int)count, err);
append(buf, tmp, off, len);
return;
}
if (libusb_kernel_driver_active(handle, 0) == 1) {
sprintf(tmp, EOL " * dev %d: kernel attached", (int)count);
append(buf, tmp, off, len);
}
err = libusb_get_active_config_descriptor(dev, &config);
if (err) {
if (!setgetdes(count, dev, handle, &config, 1, buf, off, len)
&& !setgetdes(count, dev, handle, &config, 0, buf, off, len)) {
libusb_close(handle);
sprintf(tmp, EOL " ** dev %d: Failed to set config descriptor to %d or %d",
(int)count, 1, 0);
append(buf, tmp, off, len);
return;
}
}
sprintf(tmp, EOL " dev %d: Active Config:" EOL "\tDescriptorType: %s" EOL
"\tNumInterfaces: %d" EOL "\tConfigurationValue: %d" EOL
"\tAttributes: %d" EOL "\tMaxPower: %d",
(int)count, destype(config->bDescriptorType),
(int)(config->bNumInterfaces), (int)(config->iConfiguration),
(int)(config->bmAttributes), (int)(config->MaxPower));
append(buf, tmp, off, len);
for (i = 0; i < (int)(config->bNumInterfaces); i++) {
for (j = 0; j < config->interface[i].num_altsetting; j++) {
idesc = &(config->interface[i].altsetting[j]);
sprintf(tmp, EOL " _dev %d: Interface Descriptor %d:" EOL
"\tDescriptorType: %s" EOL "\tInterfaceNumber: %d" EOL
"\tNumEndpoints: %d" EOL "\tInterfaceClass: %d" EOL
"\tInterfaceSubClass: %d" EOL "\tInterfaceProtocol: %d",
(int)count, j, destype(idesc->bDescriptorType),
(int)(idesc->bInterfaceNumber),
(int)(idesc->bNumEndpoints),
(int)(idesc->bInterfaceClass),
(int)(idesc->bInterfaceSubClass),
(int)(idesc->bInterfaceProtocol));
append(buf, tmp, off, len);
for (k = 0; k < (int)(idesc->bNumEndpoints); k++) {
epdesc = &(idesc->endpoint[k]);
sprintf(tmp, EOL " __dev %d: Interface %d Endpoint %d:" EOL
"\tDescriptorType: %s" EOL
"\tEndpointAddress: %s0x%x" EOL
"\tAttributes: %s" EOL "\tMaxPacketSize: %d" EOL
"\tInterval: %d" EOL "\tRefresh: %d",
(int)count, (int)(idesc->bInterfaceNumber), k,
destype(epdesc->bDescriptorType),
epdir(epdesc->bEndpointAddress),
(int)(epdesc->bEndpointAddress),
epatt(epdesc->bmAttributes),
epdesc->wMaxPacketSize,
(int)(epdesc->bInterval),
(int)(epdesc->bRefresh));
append(buf, tmp, off, len);
}
}
}
libusb_free_config_descriptor(config);
config = NULL;
err = libusb_get_string_descriptor_ascii(handle, desc.iManufacturer, man, STRBUFLEN);
if (err < 0)
sprintf((char *)man, "** err(%d)", err);
err = libusb_get_string_descriptor_ascii(handle, desc.iProduct, prod, STRBUFLEN);
if (err < 0)
sprintf((char *)prod, "** err(%d)", err);
err = libusb_get_string_descriptor_ascii(handle, desc.iSerialNumber, ser, STRBUFLEN);
if (err < 0)
sprintf((char *)ser, "** err(%d)", err);
sprintf(tmp, EOL " dev %d: More Info:" EOL "\tManufacturer: '%s'" EOL
"\tProduct: '%s'" EOL "\tSerial '%s'",
(int)count, man, prod, ser);
append(buf, tmp, off, len);
libusb_close(handle);
}
// Function to dump all USB devices
static void usb_all()
{
libusb_device **list;
ssize_t count, i;
char *buf;
size_t len, off;
count = libusb_get_device_list(NULL, &list);
if (count < 0) {
applog(LOG_ERR, "USB all: failed, err %d", (int)count);
return;
}
if (count == 0)
applog(LOG_WARNING, "USB all: found no devices");
else
{
len = 10000;
buf = malloc(len+1);
sprintf(buf, "USB all: found %d devices", (int)count);
off = strlen(buf);
for (i = 0; i < count; i++)
usb_full(i, list[i], &buf, &off, &len);
applog(LOG_WARNING, "%s", buf);
free(buf);
}
libusb_free_device_list(list, 1);
}
static void cgusb_check_init()
{
mutex_lock(&cgusb_lock);
if (list_lock == NULL) {
list_lock = calloc(1, sizeof(*list_lock));
mutex_init(list_lock);
if (opt_usbdump >= 0) {
libusb_set_debug(NULL, opt_usbdump);
usb_all();
}
usb_commands = malloc(sizeof(*usb_commands) * C_MAX);
// use constants so the stat generation is very quick
// and the association between number and name can't
// be missalined easily
usb_commands[C_PING] = C_PING_S;
usb_commands[C_CLEAR] = C_CLEAR_S;
usb_commands[C_REQUESTVERSION] = C_REQUESTVERSION_S;
usb_commands[C_GETVERSION] = C_GETVERSION_S;
usb_commands[C_REQUESTFPGACOUNT] = C_REQUESTFPGACOUNT_S;
usb_commands[C_GETFPGACOUNT] = C_GETFPGACOUNT_S;
usb_commands[C_STARTPROGRAM] = C_STARTPROGRAM_S;
usb_commands[C_STARTPROGRAMSTATUS] = C_STARTPROGRAMSTATUS_S;
usb_commands[C_PROGRAM] = C_PROGRAM_S;
usb_commands[C_PROGRAMSTATUS] = C_PROGRAMSTATUS_S;
usb_commands[C_PROGRAMSTATUS2] = C_PROGRAMSTATUS2_S;
usb_commands[C_FINALPROGRAMSTATUS] = C_FINALPROGRAMSTATUS_S;
usb_commands[C_SETCLOCK] = C_SETCLOCK_S;
usb_commands[C_REPLYSETCLOCK] = C_REPLYSETCLOCK_S;
usb_commands[C_REQUESTUSERCODE] = C_REQUESTUSERCODE_S;
usb_commands[C_GETUSERCODE] = C_GETUSERCODE_S;
usb_commands[C_REQUESTTEMPERATURE] = C_REQUESTTEMPERATURE_S;
usb_commands[C_GETTEMPERATURE] = C_GETTEMPERATURE_S;
usb_commands[C_SENDWORK] = C_SENDWORK_S;
usb_commands[C_SENDWORKSTATUS] = C_SENDWORKSTATUS_S;
usb_commands[C_REQUESTWORKSTATUS] = C_REQUESTWORKSTATUS_S;
usb_commands[C_GETWORKSTATUS] = C_GETWORKSTATUS_S;
}
mutex_unlock(&cgusb_lock);
}
static bool in_use(libusb_device *dev, bool lock)
{
struct usb_list *usb_tmp;
bool used = false;
uint8_t bus_number;
uint8_t device_address;
bus_number = libusb_get_bus_number(dev);
device_address = libusb_get_device_address(dev);
if (lock)
mutex_lock(list_lock);
if ((usb_tmp = usb_head))
do {
if (bus_number == usb_tmp->bus_number
&& device_address == usb_tmp->device_address) {
used = true;
break;
}
usb_tmp = usb_tmp->next;
} while (usb_tmp != usb_head);
if (lock)
mutex_unlock(list_lock);
return used;
}
static void add_used(libusb_device *dev, bool lock)
{
struct usb_list *usb_tmp;
char buf[128];
uint8_t bus_number;
uint8_t device_address;
bus_number = libusb_get_bus_number(dev);
device_address = libusb_get_device_address(dev);
if (lock)
mutex_lock(list_lock);
if (in_use(dev, false)) {
if (lock)
mutex_unlock(list_lock);
sprintf(buf, "add_used() duplicate bus_number %d device_address %d",
bus_number, device_address);
quit(1, buf);
}
usb_tmp = malloc(sizeof(*usb_tmp));
usb_tmp->bus_number = bus_number;
usb_tmp->device_address = device_address;
if (usb_head) {
// add to end
usb_tmp->prev = usb_head->prev;
usb_tmp->next = usb_head;
usb_head->prev = usb_tmp;
usb_tmp->prev->next = usb_tmp;
} else {
usb_tmp->prev = usb_tmp;
usb_tmp->next = usb_tmp;
usb_head = usb_tmp;
}
if (lock)
mutex_unlock(list_lock);
}
static void release(uint8_t bus_number, uint8_t device_address, bool lock)
{
struct usb_list *usb_tmp;
bool found = false;
char buf[128];
if (lock)
mutex_lock(list_lock);
usb_tmp = usb_head;
if (usb_tmp)
do {
if (bus_number == usb_tmp->bus_number
&& device_address == usb_tmp->device_address) {
found = true;
break;
}
usb_tmp = usb_tmp->next;
} while (usb_tmp != usb_head);
if (!found) {
if (lock)
mutex_unlock(list_lock);
sprintf(buf, "release() unknown: bus_number %d device_address %d",
bus_number, device_address);
quit(1, buf);
}
if (usb_tmp->next == usb_tmp) {
usb_head = NULL;
} else {
usb_tmp->next->prev = usb_tmp->prev;
usb_tmp->prev->next = usb_tmp->next;
}
if (lock)
mutex_unlock(list_lock);
free(usb_tmp);
}
static void release_dev(libusb_device *dev, bool lock)
{
uint8_t bus_number;
uint8_t device_address;
bus_number = libusb_get_bus_number(dev);
device_address = libusb_get_device_address(dev);
release(bus_number, device_address, lock);
}
#if 0
static void release_cgusb(struct cg_usb_device *cgusb, bool lock)
{
release(cgusb->bus_number, cgusb->device_address, lock);
}
#endif
static struct cg_usb_device *free_cgusb(struct cg_usb_device *cgusb)
{
if (cgusb->serial_string && cgusb->serial_string != BLANK)
free(cgusb->serial_string);
if (cgusb->manuf_string && cgusb->manuf_string != BLANK)
free(cgusb->manuf_string);
if (cgusb->prod_string && cgusb->prod_string != BLANK)
free(cgusb->prod_string);
free(cgusb->descriptor);
free(cgusb);
return NULL;
}
void usb_uninit(struct cgpu_info *cgpu)
{
libusb_release_interface(cgpu->usbdev->handle, cgpu->usbdev->found->interface);
libusb_close(cgpu->usbdev->handle);
cgpu->usbdev = free_cgusb(cgpu->usbdev);
}
bool usb_init(struct cgpu_info *cgpu, struct libusb_device *dev, struct usb_find_devices *found)
{
struct cg_usb_device *cgusb = NULL;
struct libusb_config_descriptor *config = NULL;
const struct libusb_interface_descriptor *idesc;
const struct libusb_endpoint_descriptor *epdesc;
unsigned char strbuf[STRBUFLEN+1];
int err, i, j, k;
cgusb = calloc(1, sizeof(*cgusb));
cgusb->found = found;
cgusb->bus_number = libusb_get_bus_number(dev);
cgusb->device_address = libusb_get_device_address(dev);
cgusb->descriptor = calloc(1, sizeof(*(cgusb->descriptor)));
err = libusb_get_device_descriptor(dev, cgusb->descriptor);
if (err) {
applog(LOG_ERR, "USB init failed to get descriptor, err %d", err);
goto dame;
}
err = libusb_open(dev, &(cgusb->handle));
if (err) {
switch (err) {
case LIBUSB_ERROR_ACCESS:
applog(LOG_ERR, "USB init open device failed, err %d, you dont have priviledge to access the device", err);
break;
#ifdef WIN32
// Windows specific message
case LIBUSB_ERROR_NOT_SUPPORTED:
applog(LOG_ERR, "USB init, open device failed, err %d, you need to install a Windows USB driver for the device", err);
break;
#endif
default:
applog(LOG_ERR, "USB init, open device failed, err %d", err);
}
goto dame;
}
if (libusb_kernel_driver_active(cgusb->handle, 0) == 1) {
applog(LOG_WARNING, "USB init, kernel attached ...");
if (libusb_detach_kernel_driver(cgusb->handle, 0) == 0)
applog(LOG_WARNING, "USB init, kernel detached successfully");
else
applog(LOG_WARNING, "USB init, kernel detach failed :(");
}
err = libusb_set_configuration(cgusb->handle, found->config);
if (err) {
switch(err) {
case LIBUSB_ERROR_BUSY:
applog(LOG_WARNING, "USB init, %s device %d:%d in use",
found->name, cgusb->bus_number, cgusb->device_address);
break;
default:
applog(LOG_DEBUG, "USB init, failed to set config to %d, err %d",
found->config, err);
}
goto cldame;
}
err = libusb_get_active_config_descriptor(dev, &config);
if (err) {
applog(LOG_DEBUG, "USB init, failed to get config descriptor %d, err %d",
found->config, err);
goto cldame;
}
if ((int)(config->bNumInterfaces) < found->interface)
goto cldame;
for (i = 0; i < found->epcount; i++)
found->eps[i].found = false;
for (i = 0; i < config->interface[found->interface].num_altsetting; i++) {
idesc = &(config->interface[found->interface].altsetting[i]);
for (j = 0; j < (int)(idesc->bNumEndpoints); j++) {
epdesc = &(idesc->endpoint[j]);
for (k = 0; k < found->epcount; k++) {
if (!found->eps[k].found) {
if (epdesc->bmAttributes == found->eps[k].att
&& epdesc->wMaxPacketSize >= found->eps[k].size
&& epdesc->bEndpointAddress == found->eps[k].ep) {
found->eps[k].found = true;
break;
}
}
}
}
}
for (i = 0; i < found->epcount; i++)
if (found->eps[i].found == false)
goto cldame;
err = libusb_claim_interface(cgusb->handle, found->interface);
if (err) {
applog(LOG_DEBUG, "USB init, claim interface %d failed, err %d",
found->interface, err);
goto cldame;
}
cgusb->usbver = cgusb->descriptor->bcdUSB;
// TODO: allow this with the right version of the libusb include and running library
// cgusb->speed = libusb_get_device_speed(dev);
err = libusb_get_string_descriptor_ascii(cgusb->handle,
cgusb->descriptor->iProduct, strbuf, STRBUFLEN);
if (err > 0)
cgusb->prod_string = strdup((char *)strbuf);
else
cgusb->prod_string = (char *)BLANK;
err = libusb_get_string_descriptor_ascii(cgusb->handle,
cgusb->descriptor->iManufacturer, strbuf, STRBUFLEN);
if (err > 0)
cgusb->manuf_string = strdup((char *)strbuf);
else
cgusb->manuf_string = (char *)BLANK;
err = libusb_get_string_descriptor_ascii(cgusb->handle,
cgusb->descriptor->iSerialNumber, strbuf, STRBUFLEN);
if (err > 0)
cgusb->serial_string = strdup((char *)strbuf);
else
cgusb->serial_string = (char *)BLANK;
// TODO: ?
// cgusb->fwVersion <- for temp1/temp2 decision? or serial? (driver-modminer.c)
// cgusb->interfaceVersion
applog(LOG_DEBUG, "USB init device bus_number=%d device_address=%d usbver=%04x prod='%s' manuf='%s' serial='%s'", (int)(cgusb->bus_number), (int)(cgusb->device_address), cgusb->usbver, cgusb->prod_string, cgusb->manuf_string, cgusb->serial_string);
cgpu->usbdev = cgusb;
libusb_free_config_descriptor(config);
return true;
cldame:
libusb_close(cgusb->handle);
dame:
if (config)
libusb_free_config_descriptor(config);
cgusb = free_cgusb(cgusb);
return false;
}
static bool usb_check_device(struct device_api *api, struct libusb_device *dev, struct usb_find_devices *look)
{
struct libusb_device_descriptor desc;
int err;
err = libusb_get_device_descriptor(dev, &desc);
if (err) {
applog(LOG_DEBUG, "USB check device: Failed to get descriptor, err %d", err);
return false;
}
if (desc.idVendor != look->idVendor || desc.idProduct != look->idProduct) {
applog(LOG_DEBUG, "%s looking for %04x:%04x but found %04x:%04x instead",
api->name, look->idVendor, look->idProduct, desc.idVendor, desc.idProduct);
return false;
}
applog(LOG_DEBUG, "%s looking for and found %04x:%04x",
api->name, look->idVendor, look->idProduct);
return true;
}
static struct usb_find_devices *usb_check_each(int drv, struct device_api *api, struct libusb_device *dev)
{
struct usb_find_devices *found;
int i;
for (i = 0; find_dev[i].drv != DRV_LAST; i++)
if (find_dev[i].drv == drv) {
if (usb_check_device(api, dev, &(find_dev[i]))) {
found = malloc(sizeof(*found));
memcpy(found, &(find_dev[i]), sizeof(*found));
return found;
}
}
return NULL;
}
static struct usb_find_devices *usb_check(__maybe_unused struct device_api *api, __maybe_unused struct libusb_device *dev)
{
#ifdef USE_BITFORCE
if (api == &bitforce_api)
return usb_check_each(DRV_BITFORCE, api, dev);
#endif
#ifdef USE_ICARUS
if (api == &icarus_api)
return usb_check_each(DRV_ICARUS, api, dev);
#endif
#ifdef USE_MODMINER
if (api == &modminer_api)
return usb_check_each(DRV_MODMINER, api, dev);
#endif
return NULL;
}
void usb_detect(struct device_api *api, bool (*device_detect)(struct libusb_device *, struct usb_find_devices *))
{
libusb_device **list;
ssize_t count, i;
struct usb_find_devices *found;
cgusb_check_init();
count = libusb_get_device_list(NULL, &list);
if (count < 0) {
applog(LOG_DEBUG, "USB scan devices: failed, err %d", count);
return;
}
if (count == 0)
applog(LOG_DEBUG, "USB scan devices: found no devices");
for (i = 0; i < count; i++) {
mutex_lock(list_lock);
if (in_use(list[i], false))
mutex_unlock(list_lock);
else {
add_used(list[i], false);
mutex_unlock(list_lock);
found = usb_check(api, list[i]);
if (!found)
release_dev(list[i], true);
else
if (!device_detect(list[i], found))
release_dev(list[i], true);
}
}
libusb_free_device_list(list, 1);
}
// Set this to 0 to remove stats processing
#define DO_USB_STATS 1
#if DO_USB_STATS
#define USB_STATS(sgpu, sta, fin, err, cmd, seq) stats(cgpu, sta, fin, err, cmd, seq)
#define STATS_TIMEVAL(tv) gettimeofday(tv, NULL)
#else
#define USB_STATS(sgpu, sta, fin, err, cmd, seq)
#define STATS_TIMEVAL(tv)
#endif
// The stat data can be spurious due to not locking it before copying it -
// however that would require the stat() function to also lock and release
// a mutex every time a usb read or write is called which would slow
// things down more
struct api_data *api_usb_stats(__maybe_unused int *count)
{
#if DO_USB_STATS
struct cg_usb_stats_details *details;
struct cg_usb_stats *sta;
struct api_data *root = NULL;
int device;
int cmdseq;
cgusb_check_init();
if (next_stat == 0)
return NULL;
while (*count < next_stat * C_MAX * 2) {
device = *count / (C_MAX * 2);
cmdseq = *count % (C_MAX * 2);
(*count)++;
sta = &(usb_stats[device]);
details = &(sta->details[cmdseq]);
// Only show stats that have results
if (details->item[CMD_CMD].count == 0 &&
details->item[CMD_TIMEOUT].count == 0 &&
details->item[CMD_ERROR].count == 0)
continue;
root = api_add_string(root, "Name", sta->name, false);
root = api_add_int(root, "ID", &(sta->device_id), false);
root = api_add_const(root, "Stat", usb_commands[cmdseq/2], false);
root = api_add_int(root, "Seq", &(details->seq), true);
root = api_add_uint64(root, "Count",
&(details->item[CMD_CMD].count), true);
root = api_add_double(root, "Total Delay",
&(details->item[CMD_CMD].total_delay), true);
root = api_add_double(root, "Min Delay",
&(details->item[CMD_CMD].min_delay), true);
root = api_add_double(root, "Max Delay",
&(details->item[CMD_CMD].max_delay), true);
root = api_add_uint64(root, "Timeout Count",
&(details->item[CMD_TIMEOUT].count), true);
root = api_add_double(root, "Timeout Total Delay",
&(details->item[CMD_TIMEOUT].total_delay), true);
root = api_add_double(root, "Timeout Min Delay",
&(details->item[CMD_TIMEOUT].min_delay), true);
root = api_add_double(root, "Timeout Max Delay",
&(details->item[CMD_TIMEOUT].max_delay), true);
root = api_add_uint64(root, "Error Count",
&(details->item[CMD_ERROR].count), true);
root = api_add_double(root, "Error Total Delay",
&(details->item[CMD_ERROR].total_delay), true);
root = api_add_double(root, "Error Min Delay",
&(details->item[CMD_ERROR].min_delay), true);
root = api_add_double(root, "Error Max Delay",
&(details->item[CMD_ERROR].max_delay), true);
root = api_add_timeval(root, "First Command",
&(details->item[CMD_CMD].first), true);
root = api_add_timeval(root, "Last Command",
&(details->item[CMD_CMD].last), true);
root = api_add_timeval(root, "First Timeout",
&(details->item[CMD_TIMEOUT].first), true);
root = api_add_timeval(root, "Last Timeout",
&(details->item[CMD_TIMEOUT].last), true);
root = api_add_timeval(root, "First Error",
&(details->item[CMD_ERROR].first), true);
root = api_add_timeval(root, "Last Error",
&(details->item[CMD_ERROR].last), true);
return root;
}
#endif
return NULL;
}
#if DO_USB_STATS
static void newstats(struct cgpu_info *cgpu)
{
int i;
cgpu->usbstat = ++next_stat;
usb_stats = realloc(usb_stats, sizeof(*usb_stats) * next_stat);
usb_stats[next_stat-1].name = cgpu->api->name;
usb_stats[next_stat-1].device_id = -1;
usb_stats[next_stat-1].details = calloc(1, sizeof(struct cg_usb_stats_details) * C_MAX * 2);
for (i = 1; i < C_MAX * 2; i += 2)
usb_stats[next_stat-1].details[i].seq = 1;
}
#endif
void update_usb_stats(__maybe_unused struct cgpu_info *cgpu)
{
#if DO_USB_STATS
if (cgpu->usbstat < 1)
newstats(cgpu);
// we don't know the device_id until after add_cgpu()
usb_stats[cgpu->usbstat - 1].device_id = cgpu->device_id;
#endif
}
#if DO_USB_STATS
static void stats(struct cgpu_info *cgpu, struct timeval *tv_start, struct timeval *tv_finish, int err, enum usb_cmds cmd, int seq)
{
struct cg_usb_stats_details *details;
double diff;
int item;
if (cgpu->usbstat < 1)
newstats(cgpu);
details = &(usb_stats[cgpu->usbstat - 1].details[cmd * 2 + seq]);
diff = tdiff(tv_finish, tv_start);
switch (err) {
case LIBUSB_SUCCESS:
item = CMD_CMD;
break;
case LIBUSB_ERROR_TIMEOUT:
item = CMD_TIMEOUT;
break;
default:
item = CMD_ERROR;
break;
}
if (details->item[item].count == 0) {
details->item[item].min_delay = diff;
memcpy(&(details->item[item].first), tv_start, sizeof(*tv_start));
} else if (diff < details->item[item].min_delay)
details->item[item].min_delay = diff;
if (diff > details->item[item].max_delay)
details->item[item].max_delay = diff;
details->item[item].total_delay += diff;
memcpy(&(details->item[item].last), tv_start, sizeof(tv_start));
details->item[item].count++;
}
#endif
int _usb_read(struct cgpu_info *cgpu, int ep, char *buf, size_t bufsiz, int *processed, unsigned int timeout, int eol, enum usb_cmds cmd)
{
struct cg_usb_device *usbdev = cgpu->usbdev;
#if DO_USB_STATS
struct timeval tv_start, tv_finish;
#endif
int err, got, tot;
bool first = true;
if (eol == -1) {
got = 0;
STATS_TIMEVAL(&tv_start);
err = libusb_bulk_transfer(usbdev->handle,
usbdev->found->eps[ep].ep,
(unsigned char *)buf,
bufsiz, &got,
timeout == DEVTIMEOUT ? usbdev->found->timeout : timeout);
STATS_TIMEVAL(&tv_finish);
USB_STATS(cgpu, &tv_start, &tv_finish, err, cmd, SEQ0);
*processed = got;
return err;
}
tot = 0;
err = LIBUSB_SUCCESS;
while (bufsiz) {
got = 0;
STATS_TIMEVAL(&tv_start);
err = libusb_bulk_transfer(usbdev->handle,
usbdev->found->eps[ep].ep,
(unsigned char *)buf,
1, &got,
timeout == DEVTIMEOUT ? usbdev->found->timeout : timeout);
STATS_TIMEVAL(&tv_finish);
USB_STATS(cgpu, &tv_start, &tv_finish, err, cmd, first ? SEQ0 : SEQ1);
tot += got;
if (err)
break;
if (eol == buf[0])
break;
buf += got;
bufsiz -= got;
first = false;
}
*processed = tot;
return err;
}
int _usb_write(struct cgpu_info *cgpu, int ep, char *buf, size_t bufsiz, int *processed, unsigned int timeout, enum usb_cmds cmd)
{
struct cg_usb_device *usbdev = cgpu->usbdev;
#if DO_USB_STATS
struct timeval tv_start, tv_finish;
#endif
int err, sent;
sent = 0;
STATS_TIMEVAL(&tv_start);
err = libusb_bulk_transfer(usbdev->handle,
usbdev->found->eps[ep].ep,
(unsigned char *)buf,
bufsiz, &sent,
timeout == DEVTIMEOUT ? usbdev->found->timeout : timeout);
STATS_TIMEVAL(&tv_finish);
USB_STATS(cgpu, &tv_start, &tv_finish, err, cmd, SEQ0);
*processed = sent;
return err;
}
void usb_cleanup()
{
// TODO:
}