OpenCL GPU miner
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/*
* Copyright 2012-2013 Andrew Smith
* Copyright 2013 Con Kolivas <kernel@kolivas.org>
*
* 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.
*/
#ifndef USBUTILS_H
#define USBUTILS_H
#include <libusb.h>
#include "util.h"
#define EPI(x) (LIBUSB_ENDPOINT_IN | (unsigned char)(x))
#define EPO(x) (LIBUSB_ENDPOINT_OUT | (unsigned char)(x))
// For 0x0403:0x6014/0x6001 FT232H (and possibly others?) - BFL, BAS, BLT, LLT, AVA
#define FTDI_TYPE_OUT (LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_RECIPIENT_DEVICE | LIBUSB_ENDPOINT_OUT)
#define FTDI_TYPE_IN (LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_RECIPIENT_DEVICE | LIBUSB_ENDPOINT_IN)
#define FTDI_REQUEST_RESET ((uint8_t)0)
#define FTDI_REQUEST_MODEM ((uint8_t)1)
#define FTDI_REQUEST_FLOW ((uint8_t)2)
#define FTDI_REQUEST_BAUD ((uint8_t)3)
#define FTDI_REQUEST_DATA ((uint8_t)4)
#define FTDI_REQUEST_LATENCY ((uint8_t)9)
#define FTDI_VALUE_RESET 0
#define FTDI_VALUE_PURGE_RX 1
#define FTDI_VALUE_PURGE_TX 2
#define FTDI_VALUE_LATENCY 1
// Baud
#define FTDI_VALUE_BAUD_BFL 0xc068
#define FTDI_INDEX_BAUD_BFL 0x0200
#define FTDI_VALUE_BAUD_BAS FTDI_VALUE_BAUD_BFL
#define FTDI_INDEX_BAUD_BAS FTDI_INDEX_BAUD_BFL
// LLT = BLT (same code)
#define FTDI_VALUE_BAUD_BLT 0x001a
#define FTDI_INDEX_BAUD_BLT 0x0000
// Avalon
#define FTDI_VALUE_BAUD_AVA 0x001A
#define FTDI_INDEX_BAUD_AVA 0x0000
#define FTDI_VALUE_DATA_AVA 8
// BitBurner
#define BITBURNER_REQUEST ((uint8_t)0x42)
#define BITBURNER_VALUE 0x4242
#define BITBURNER_INDEX_SET_VOLTAGE 1
#define BITBURNER_INDEX_GET_VOLTAGE 2
#define BITBURNER_INDEX_GET_VERSION 4
// CMR = 115200 & 57600
#define FTDI_VALUE_BAUD_CMR_115 0xc068
#define FTDI_INDEX_BAUD_CMR_115 0x0200
#define FTDI_VALUE_BAUD_CMR_57 0x80d0
#define FTDI_INDEX_BAUD_CMR_57 0x0200
// Data control
#define FTDI_VALUE_DATA_BFL 0
#define FTDI_VALUE_DATA_BAS FTDI_VALUE_DATA_BFL
// LLT = BLT (same code)
#define FTDI_VALUE_DATA_BLT 8
#define FTDI_VALUE_FLOW 0
#define FTDI_VALUE_MODEM 0x0303
// For 0x10c4:0xea60 USB cp210x chip - AMU
#define CP210X_TYPE_OUT 0x41
#define CP210X_REQUEST_IFC_ENABLE 0x00
#define CP210X_REQUEST_DATA 0x07
#define CP210X_REQUEST_BAUD 0x1e
#define CP210X_VALUE_UART_ENABLE 0x0001
#define CP210X_VALUE_DATA 0x0303
#define CP210X_DATA_BAUD 0x0001c200
// For 0x067b:0x2303 Prolific PL2303 - ICA
#define PL2303_CTRL_DTR 0x01
#define PL2303_CTRL_RTS 0x02
#define PL2303_CTRL_OUT 0x21
#define PL2303_VENDOR_OUT 0x40
#define PL2303_REQUEST_CTRL 0x22
#define PL2303_REQUEST_LINE 0x20
#define PL2303_REQUEST_VENDOR 0x01
#define PL2303_REPLY_CTRL 0x21
#define PL2303_VALUE_CTRL (PL2303_CTRL_DTR | PL2303_CTRL_RTS)
#define PL2303_VALUE_LINE 0
#define PL2303_VALUE_LINE0 0x0001c200
#define PL2303_VALUE_LINE1 0x080000
#define PL2303_VALUE_LINE_SIZE 7
#define PL2303_VALUE_VENDOR 0
// Use the device defined timeout
#define DEVTIMEOUT 0
// For endpoints defined in usb_find_devices.intinfos.epinfos,
// the first two must be the default IN and OUT and both must always exist
#define DEFAULT_EP_IN 0
#define DEFAULT_EP_OUT 1
struct usb_epinfo {
uint8_t att;
uint16_t size;
unsigned char ep;
bool found;
};
struct usb_intinfo {
int interface;
int epinfo_count;
struct usb_epinfo *epinfos;
};
enum sub_ident {
IDENT_UNK = 0,
IDENT_BAJ,
IDENT_BAL,
IDENT_BAS,
IDENT_BAM,
IDENT_BFL,
IDENT_MMQ,
IDENT_AVA,
IDENT_BTB,
IDENT_ICA,
IDENT_AMU,
IDENT_BLT,
IDENT_LLT,
IDENT_CMR1,
IDENT_CMR2,
IDENT_ZTX
};
struct usb_find_devices {
int drv;
const char *name;
enum sub_ident ident;
uint16_t idVendor;
uint16_t idProduct;
char *iManufacturer;
char *iProduct;
int kernel;
int config;
unsigned int timeout;
uint16_t wMaxPacketSize;
uint16_t latency;
int which_intinfo;
int intinfo_count;
struct usb_intinfo *intinfos;
};
/* Latency is set to 32ms to prevent a transfer ever being more than 512 bytes
* +2 bytes of status such as the ftdi chip, when the chips emulate a 115200
* baud rate, to avoid status bytes being interleaved in larger transfers. */
#define LATENCY_UNUSED 0
#define LATENCY_STD 32
enum usb_types {
USB_TYPE_STD = 0,
USB_TYPE_FTDI
};
struct cg_usb_device {
struct usb_find_devices *found;
libusb_device_handle *handle;
int claimed;
pthread_mutex_t *mutex;
struct libusb_device_descriptor *descriptor;
enum usb_types usb_type;
enum sub_ident ident;
uint16_t usbver;
int cps;
bool usecps;
char *prod_string;
char *manuf_string;
char *serial_string;
unsigned char fwVersion; // ??
unsigned char interfaceVersion; // ??
char *buffer;
uint32_t bufsiz;
uint32_t bufamt;
uint16_t PrefPacketSize;
cgtimer_t cgt_last_write;
size_t last_write_siz;
};
#define USB_NOSTAT 0
#define USB_MAX_READ 8192
#define USB_TMO_0 50
#define USB_TMO_1 100
#define USB_TMO_2 500
#define USB_TMOS 3
struct cg_usb_tmo {
uint32_t count;
uint32_t min_tmo;
uint32_t max_tmo;
uint64_t total_over;
uint64_t total_tmo;
};
struct cg_usb_info {
uint8_t bus_number;
uint8_t device_address;
int usbstat;
bool nodev;
int nodev_count;
struct timeval last_nodev;
uint32_t ioerr_count;
uint32_t continuous_ioerr_count;
/*
* for nodev and cgusb access (read and write)
* it's a pointer so MMQ can have it in multiple devices
*
* N.B. general mining code doesn't need to use the read
* lock for 'nodev' if it calls a usb_read/write/etc function
* that uses the lock - however, all usbutils code MUST use it
* to avoid devices disappearing while in use by multiple threads
*/
pthread_rwlock_t *devlock;
time_t last_pipe;
uint64_t pipe_count;
uint64_t clear_err_count;
uint64_t retry_err_count;
uint64_t clear_fail_count;
uint64_t read_delay_count;
double total_read_delay;
uint64_t write_delay_count;
double total_write_delay;
/*
* We add 4: 1 for null, 2 for FTDI status and 1 to round to 4 bytes
* If a single device ever has multiple end points then it will need
* multiple of these
*/
unsigned char bulkbuf[USB_MAX_READ+4];
uint64_t tmo_count;
struct cg_usb_tmo usb_tmo[USB_TMOS];
};
enum usb_cmds {
C_REJECTED = 0,
C_PING,
C_CLEAR,
C_REQUESTVERSION,
C_GETVERSION,
C_REQUESTFPGACOUNT,
C_GETFPGACOUNT,
C_STARTPROGRAM,
C_STARTPROGRAMSTATUS,
C_PROGRAM,
C_PROGRAMSTATUS,
C_PROGRAMSTATUS2,
C_FINALPROGRAMSTATUS,
C_SETCLOCK,
C_REPLYSETCLOCK,
C_REQUESTUSERCODE,
C_GETUSERCODE,
C_REQUESTTEMPERATURE,
C_GETTEMPERATURE,
C_SENDWORK,
C_SENDWORKSTATUS,
C_REQUESTWORKSTATUS,
C_GETWORKSTATUS,
C_REQUESTIDENTIFY,
C_GETIDENTIFY,
C_REQUESTFLASH,
C_REQUESTSENDWORK,
C_REQUESTSENDWORKSTATUS,
C_RESET,
C_SETBAUD,
C_SETDATA,
C_SETFLOW,
C_SETMODEM,
C_PURGERX,
C_PURGETX,
C_FLASHREPLY,
C_REQUESTDETAILS,
C_GETDETAILS,
C_REQUESTRESULTS,
C_GETRESULTS,
C_REQUESTQUEJOB,
C_REQUESTQUEJOBSTATUS,
C_QUEJOB,
C_QUEJOBSTATUS,
C_QUEFLUSH,
C_QUEFLUSHREPLY,
C_REQUESTVOLTS,
C_GETVOLTS,
C_SENDTESTWORK,
C_LATENCY,
C_SETLINE,
C_VENDOR,
C_SETFAN,
C_FANREPLY,
C_AVALON_TASK,
C_AVALON_READ,
C_GET_AVALON_READY,
C_AVALON_RESET,
C_GET_AVALON_RESET,
C_FTDI_STATUS,
C_ENABLE_UART,
C_BB_SET_VOLTAGE,
C_BB_GET_VOLTAGE,
C_MAX
};
struct device_drv;
struct cgpu_info;
void usb_all(int level);
const char *usb_cmdname(enum usb_cmds cmd);
void usb_applog(struct cgpu_info *bflsc, enum usb_cmds cmd, char *msg, int amount, int err);
struct cgpu_info *usb_copy_cgpu(struct cgpu_info *orig);
struct cgpu_info *usb_alloc_cgpu(struct device_drv *drv, int threads);
struct cgpu_info *usb_free_cgpu_devlock(struct cgpu_info *cgpu, bool free_devlock);
#define usb_free_cgpu(cgpu) usb_free_cgpu_devlock(cgpu, true)
void usb_uninit(struct cgpu_info *cgpu);
bool usb_init(struct cgpu_info *cgpu, struct libusb_device *dev, struct usb_find_devices *found);
void usb_detect(struct device_drv *drv, bool (*device_detect)(struct libusb_device *, struct usb_find_devices *));
struct api_data *api_usb_stats(int *count);
void update_usb_stats(struct cgpu_info *cgpu);
int _usb_read(struct cgpu_info *cgpu, int ep, char *buf, size_t bufsiz, int *processed, unsigned int timeout, const char *end, enum usb_cmds cmd, bool readonce);
int _usb_write(struct cgpu_info *cgpu, int ep, char *buf, size_t bufsiz, int *processed, unsigned int timeout, enum usb_cmds);
int _usb_transfer(struct cgpu_info *cgpu, uint8_t request_type, uint8_t bRequest, uint16_t wValue, uint16_t wIndex, uint32_t *data, int siz, unsigned int timeout, enum usb_cmds cmd);
int _usb_transfer_read(struct cgpu_info *cgpu, uint8_t request_type, uint8_t bRequest, uint16_t wValue, uint16_t wIndex, char *buf, int bufsiz, int *amount, unsigned int timeout, enum usb_cmds cmd);
int usb_ftdi_cts(struct cgpu_info *cgpu);
int usb_ftdi_set_latency(struct cgpu_info *cgpu);
void usb_buffer_enable(struct cgpu_info *cgpu);
void usb_buffer_disable(struct cgpu_info *cgpu);
void usb_buffer_clear(struct cgpu_info *cgpu);
uint32_t usb_buffer_size(struct cgpu_info *cgpu);
void usb_set_cps(struct cgpu_info *cgpu, int cps);
void usb_enable_cps(struct cgpu_info *cgpu);
void usb_disable_cps(struct cgpu_info *cgpu);
int usb_interface(struct cgpu_info *cgpu);
enum sub_ident usb_ident(struct cgpu_info *cgpu);
void usb_set_pps(struct cgpu_info *cgpu, uint16_t PrefPacketSize);
void usb_set_dev_start(struct cgpu_info *cgpu);
void usb_cleanup();
void usb_initialise();
void *usb_resource_thread(void *userdata);
#define usb_read(cgpu, buf, bufsiz, read, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, DEVTIMEOUT, NULL, cmd, false)
#define usb_read_once(cgpu, buf, bufsiz, read, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, DEVTIMEOUT, NULL, cmd, true)
#define usb_read_once_timeout(cgpu, buf, bufsiz, read, timeout, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, timeout, NULL, cmd, true)
#define usb_read_nl(cgpu, buf, bufsiz, read, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, DEVTIMEOUT, "\n", cmd, false)
#define usb_read_nl_timeout(cgpu, buf, bufsiz, read, timeout, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, timeout, "\n", cmd, false)
#define usb_read_ok(cgpu, buf, bufsiz, read, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, DEVTIMEOUT, "OK\n", cmd, false)
#define usb_read_ok_timeout(cgpu, buf, bufsiz, read, timeout, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, timeout, "OK\n", cmd, false)
#define usb_read_ep(cgpu, ep, buf, bufsiz, read, cmd) \
_usb_read(cgpu, ep, buf, bufsiz, read, DEVTIMEOUT, NULL, cmd, false)
#define usb_read_timeout(cgpu, buf, bufsiz, read, timeout, cmd) \
_usb_read(cgpu, DEFAULT_EP_IN, buf, bufsiz, read, timeout, NULL, cmd, false)
#define usb_read_ep_timeout(cgpu, ep, buf, bufsiz, read, timeout, cmd) \
_usb_read(cgpu, ep, buf, bufsiz, read, timeout, NULL, cmd, false)
#define usb_write(cgpu, buf, bufsiz, wrote, cmd) \
_usb_write(cgpu, DEFAULT_EP_OUT, buf, bufsiz, wrote, DEVTIMEOUT, cmd)
#define usb_write_ep(cgpu, ep, buf, bufsiz, wrote, cmd) \
_usb_write(cgpu, ep, buf, bufsiz, wrote, DEVTIMEOUT, cmd)
#define usb_write_timeout(cgpu, buf, bufsiz, wrote, timeout, cmd) \
_usb_write(cgpu, DEFAULT_EP_OUT, buf, bufsiz, wrote, timeout, cmd)
#define usb_write_ep_timeout(cgpu, ep, buf, bufsiz, wrote, timeout, cmd) \
_usb_write(cgpu, ep, buf, bufsiz, wrote, timeout, cmd)
#define usb_transfer(cgpu, typ, req, val, idx, cmd) \
_usb_transfer(cgpu, typ, req, val, idx, NULL, 0, DEVTIMEOUT, cmd)
#define usb_transfer_data(cgpu, typ, req, val, idx, data, len, cmd) \
_usb_transfer(cgpu, typ, req, val, idx, data, len, DEVTIMEOUT, cmd)
#define usb_transfer_read(cgpu, typ, req, val, idx, buf, bufsiz, read, cmd) \
_usb_transfer_read(cgpu, typ, req, val, idx, buf, bufsiz, read, DEVTIMEOUT, cmd)
#endif