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Implement hashfast send header function and add relevant usb op codes to arrays, beginning reset sequence on hashfast detection.

nfactor-troky
Con Kolivas 11 years ago
parent
commit
4b9eb3707b
  1. 88
      driver-hashfast.c
  2. 15
      driver-hashfast.h
  3. 7
      usbutils.h

88
driver-hashfast.c

@ -56,9 +56,11 @@ struct hf_cmd {
enum usb_cmds usb_cmd; enum usb_cmds usb_cmd;
}; };
/* Entries in this array need to align with the actual op values specified
* in hf_protocol.h */
#define C_NULL C_MAX #define C_NULL C_MAX
static const struct hf_cmd hf_cmds[] = { static const struct hf_cmd hf_cmds[] = {
{OP_NULL, "OP_NULL", C_NULL}, {OP_NULL, "OP_NULL", C_NULL}, // 0
{OP_ROOT, "OP_ROOT", C_NULL}, {OP_ROOT, "OP_ROOT", C_NULL},
{OP_RESET, "OP_RESET", C_HF_RESET}, {OP_RESET, "OP_RESET", C_HF_RESET},
{OP_PLL_CONFIG, "OP_PLL_CONFIG", C_HF_PLL_CONFIG}, {OP_PLL_CONFIG, "OP_PLL_CONFIG", C_HF_PLL_CONFIG},
@ -66,7 +68,7 @@ static const struct hf_cmd hf_cmds[] = {
{OP_READDRESS, "OP_READDRESS", C_NULL}, {OP_READDRESS, "OP_READDRESS", C_NULL},
{OP_HIGHEST, "OP_HIGHEST", C_NULL}, {OP_HIGHEST, "OP_HIGHEST", C_NULL},
{OP_BAUD, "OP_BAUD", C_HF_BAUD}, {OP_BAUD, "OP_BAUD", C_HF_BAUD},
{OP_UNROOT, "OP_UNROOT", C_NULL}, {OP_UNROOT, "OP_UNROOT", C_NULL}, // 8
{OP_HASH, "OP_HASH", C_HF_HASH}, {OP_HASH, "OP_HASH", C_HF_HASH},
{OP_NONCE, "OP_NONCE", C_HF_NONCE}, {OP_NONCE, "OP_NONCE", C_HF_NONCE},
{OP_ABORT, "OP_ABORT", C_HF_ABORT}, {OP_ABORT, "OP_ABORT", C_HF_ABORT},
@ -74,10 +76,25 @@ static const struct hf_cmd hf_cmds[] = {
{OP_GPIO, "OP_GPIO", C_NULL}, {OP_GPIO, "OP_GPIO", C_NULL},
{OP_CONFIG, "OP_CONFIG", C_HF_CONFIG}, {OP_CONFIG, "OP_CONFIG", C_HF_CONFIG},
{OP_STATISTICS, "OP_STATISTICS", C_HF_STATISTICS}, {OP_STATISTICS, "OP_STATISTICS", C_HF_STATISTICS},
{OP_GROUP, "OP_GROUP", C_NULL}, {OP_GROUP, "OP_GROUP", C_NULL}, // 16
{OP_CLOCKGATE, "OP_CLOCKGATE", C_HF_CLOCKGATE} {OP_CLOCKGATE, "OP_CLOCKGATE", C_HF_CLOCKGATE},
{OP_USB_INIT, "OP_USB_INIT", C_HF_USB_INIT}, // 18
{OP_GET_TRACE, "OP_GET_TRACE", C_NULL},
{OP_LOOPBACK_USB, "OP_LOOPBACK_USB", C_NULL},
{OP_LOOPBACK_UART, "OP_LOOPBACK_UART", C_NULL},
{OP_DFU, "OP_DFU", C_NULL},
{OP_USB_SHUTDOWN, "OP_USB_SHUTDOWN", C_NULL},
{OP_DIE_STATUS, "OP_DIE_STATUS", C_HF_DIE_STATUS}, // 24
{OP_GWQ_STATUS, "OP_GWQ_STATUS", C_HF_GWQ_STATUS},
{OP_WORK_RESTART, "OP_WORK_RESTART", C_HF_WORK_RESTART},
{OP_USB_STATS1, "OP_USB_STATS1", C_NULL},
{OP_USB_GWQSTATS, "OP_USB_GWQSTATS", C_HF_GWQSTATS}
}; };
#define HF_USB_CMD_OFFSET (128 - 18)
#define HF_USB_CMD(X) (X - HF_USB_CMD_OFFSET)
/* Send an arbitrary frame, consisting of an 8 byte header and an optional /* Send an arbitrary frame, consisting of an 8 byte header and an optional
* packet body. */ * packet body. */
@ -113,13 +130,67 @@ static int __maybe_unused hashfast_send_frame(struct cgpu_info *hashfast, uint8_
return 0; return 0;
} }
static int __maybe_unused hashfast_reset(struct cgpu_info __maybe_unused *hashfast) static bool hashfast_send_header(struct cgpu_info *hashfast, struct hf_header *h,
int cmd)
{ {
return 0; int amount, ret, len;
len = sizeof(*h);
ret = usb_write(hashfast, (char *)h, len, &amount, hf_cmds[cmd].usb_cmd);
if (ret < 0 || amount != len) {
applog(LOG_WARNING, "HFA%d: send_header: USB Send error, ret %d amount %d vs. length %d",
hashfast->device_id, ret, amount, len);
return false;
}
return true;
} }
static bool hashfast_detect_common(struct cgpu_info __maybe_unused *hashfast) static bool hashfast_reset(struct cgpu_info *hashfast, struct hashfast_info *info)
{ {
struct hf_usb_init_header usb_init, *hu = &usb_init;
struct hf_usb_init_base *db;
uint8_t buf[1024];
struct hf_header *h = (struct hf_header *)buf;
uint8_t hcrc;
uint8_t addr;
uint16_t hdata;
info->hash_clock_rate = 550; // Hash clock rate in Mhz
// Assemble the USB_INIT request
memset(hu, 0, sizeof(*hu));
hu->preamble = HF_PREAMBLE;
hu->operation_code = OP_USB_INIT;
hu->protocol = PROTOCOL_GLOBAL_WORK_QUEUE; // Protocol to use
hu->hash_clock = info->hash_clock_rate; // Hash clock rate in Mhz
hu->crc8 = hf_crc8((uint8_t *)hu);
applog(LOG_WARNING, "HFA%d: Sending OP_USB_INIT with GWQ protocol specified",
hashfast->device_id);
if (!hashfast_send_header(hashfast, (struct hf_header *)hu, HF_USB_CMD(OP_USB_INIT)))
return false;
return true;
}
static bool hashfast_detect_common(struct cgpu_info *hashfast)
{
struct hashfast_info *info;
bool ret;
info = calloc(sizeof(struct hashfast_info), 1);
if (!info)
quit(1, "Failed to calloc hashfast_info in hashfast_detect_common");
hashfast->device_data = info;
/* hashfast_reset should fill in details for info */
ret = hashfast_reset(hashfast, info);
if (!ret) {
free(info);
return false;
}
info->works = calloc(sizeof(struct work *), HF_NUM_SEQUENCE);
if (!info->works)
quit(1, "Failed to calloc info works in hashfast_detect_common");
return true; return true;
} }
@ -136,7 +207,7 @@ static bool hashfast_detect_one_usb(libusb_device *dev, struct usb_find_devices
hashfast = usb_alloc_cgpu(&hashfast_drv, HASHFAST_MINER_THREADS); hashfast = usb_alloc_cgpu(&hashfast_drv, HASHFAST_MINER_THREADS);
if (!hashfast) if (!hashfast)
return false; quit(1, "Failed to usb_alloc_cgpu hashfast");
if (!usb_init(hashfast, dev, found)) { if (!usb_init(hashfast, dev, found)) {
free(hashfast->device_data); free(hashfast->device_data);
@ -150,6 +221,7 @@ static bool hashfast_detect_one_usb(libusb_device *dev, struct usb_find_devices
hashfast_usb_initialise(hashfast); hashfast_usb_initialise(hashfast);
add_cgpu(hashfast); add_cgpu(hashfast);
return hashfast_detect_common(hashfast); return hashfast_detect_common(hashfast);
} }

15
driver-hashfast.h

@ -17,6 +17,21 @@
#include "hf_protocol.h" #include "hf_protocol.h"
#define HASHFAST_MINER_THREADS 1 #define HASHFAST_MINER_THREADS 1
#define HF_NUM_SEQUENCE 256
struct hashfast_info {
int asic_count; // # of chips in the chain
struct hf_g1_die_data *die_status; // Array of per-die voltage, current, temperature sensor data
struct hf_long_statistics *die_statistics; // Array of per-die error counters
int hash_clock_rate; // Hash clock rate to use, in Mhz
struct hf_usb_init_base usb_init_base; // USB Base information from USB_INIT
struct hf_config_data config_data; // Configuration data used from USB_INIT
struct work **works;
uint16_t device_sequence_head; // The most recent sequence number the device dispatched
uint16_t device_sequence_tail; // The most recently completed job in the device
uint16_t hash_sequence_tail; // Follows device_sequence_tail around to free work
};
#endif /* USE_HASHFAST */ #endif /* USE_HASHFAST */
#endif /* HASHFAST_H */ #endif /* HASHFAST_H */

7
usbutils.h

@ -354,7 +354,12 @@ struct cg_usb_info {
USB_ADD_COMMAND(C_HF_STATUS, "HFStatus") \ USB_ADD_COMMAND(C_HF_STATUS, "HFStatus") \
USB_ADD_COMMAND(C_HF_CONFIG, "HFConfig") \ USB_ADD_COMMAND(C_HF_CONFIG, "HFConfig") \
USB_ADD_COMMAND(C_HF_STATISTICS, "HFStatistics") \ USB_ADD_COMMAND(C_HF_STATISTICS, "HFStatistics") \
USB_ADD_COMMAND(C_HF_CLOCKGATE, "HFClockGate") USB_ADD_COMMAND(C_HF_CLOCKGATE, "HFClockGate") \
USB_ADD_COMMAND(C_HF_USB_INIT, "HFUSBInit") \
USB_ADD_COMMAND(C_HF_DIE_STATUS, "HFDieStatus") \
USB_ADD_COMMAND(C_HF_GWQ_STATUS, "HFGWQStatus") \
USB_ADD_COMMAND(C_HF_WORK_RESTART, "HFWorkRestart") \
USB_ADD_COMMAND(C_HF_GWQSTATS, "HFGWQStats")
/* Create usb_cmds enum from USB_PARSE_COMMANDS macro */ /* Create usb_cmds enum from USB_PARSE_COMMANDS macro */
enum usb_cmds { enum usb_cmds {

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