/* * Written by Oron Peled * Copyright (C) 2008, Xorcom * * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include #include #include #include #include #include "hexfile.h" #include "astribank_usb.h" #include "mpp.h" #include "mpptalk.h" #include #include #include static const char rcsid[] = "$Id$"; #define DBG_MASK 0x02 const char *ack_status_msg(uint8_t status) { const static char *msgs[] = { [STAT_OK] = "Acknowledges previous command", [STAT_FAIL] = "Last command failed", [STAT_RESET_FAIL] = "Reset failed", [STAT_NODEST] = "No destination is selected", [STAT_MISMATCH] = "Data mismatch", [STAT_NOACCESS] = "No access", [STAT_BAD_CMD] = "Bad command", [STAT_TOO_SHORT] = "Packet is too short", [STAT_ERROFFS] = "Offset error", [STAT_NOCODE] = "Source was not burned before", [STAT_NO_LEEPROM] = "Large EEPROM was not found", [STAT_NO_EEPROM] = "No EEPROM was found", [STAT_WRITE_FAIL] = "Writing to device failed", [STAT_FPGA_ERR] = "FPGA error", [STAT_KEY_ERR] = "Bad Capabilities Key", [STAT_NOCAPS_ERR] = "No matching capability", [STAT_NOPWR_ERR] = "No power on USB connector", [STAT_CAPS_FPGA_ERR] = "Setting of the capabilities while FPGA is loaded", }; if(status > sizeof(msgs)/sizeof(msgs[0])) return "ERROR CODE TOO LARGE"; if(!msgs[status]) return "MISSING ERROR CODE"; return msgs[status]; } const char *eeprom_type2str(int et) { const static char *msgs[] = { [EEPROM_TYPE_NONE] = "NONE", [EEPROM_TYPE_SMALL] = "SMALL", [EEPROM_TYPE_LARGE] = "LARGE", [EEPROM_TYPE_UNUSED] = "UNUSED", }; if(et > sizeof(msgs)/sizeof(msgs[0])) return NULL; return msgs[et]; }; const char *dev_dest2str(int dest) { const static char *msgs[] = { [DEST_NONE] = "NONE", [DEST_FPGA] = "FPGA", [DEST_EEPROM] = "EEPROM", }; if(dest > sizeof(msgs)/sizeof(msgs[0])) return NULL; return msgs[dest]; }; union XTALK_PDATA(MPP) { MEMBER(MPP, STATUS_GET); MEMBER(MPP, STATUS_GET_REPLY); MEMBER(MPP, EEPROM_SET); MEMBER(MPP, CAPS_GET); MEMBER(MPP, CAPS_GET_REPLY); MEMBER(MPP, CAPS_SET); MEMBER(MPP, EXTRAINFO_GET); MEMBER(MPP, EXTRAINFO_GET_REPLY); MEMBER(MPP, EXTRAINFO_SET); MEMBER(MPP, RENUM); MEMBER(MPP, EEPROM_BLK_RD); MEMBER(MPP, EEPROM_BLK_RD_REPLY); MEMBER(MPP, DEV_SEND_SEG); MEMBER(MPP, DEV_SEND_START); MEMBER(MPP, DEV_SEND_END); MEMBER(MPP, RESET); MEMBER(MPP, HALF_RESET); MEMBER(MPP, SER_SEND); MEMBER(MPP, SER_RECV); /* Twinstar */ MEMBER(MPP, TWS_WD_MODE_SET); MEMBER(MPP, TWS_WD_MODE_GET); MEMBER(MPP, TWS_WD_MODE_GET_REPLY); MEMBER(MPP, TWS_PORT_SET); MEMBER(MPP, TWS_PORT_GET); MEMBER(MPP, TWS_PORT_GET_REPLY); MEMBER(MPP, TWS_PWR_GET); MEMBER(MPP, TWS_PWR_GET_REPLY); } PACKED members; struct xtalk_protocol astribank_proto = { .name = "ABNK", .proto_version = 0x14, .commands = { CMD_SEND(MPP, STATUS_GET), CMD_RECV(MPP, STATUS_GET_REPLY, NULL), CMD_SEND(MPP, EEPROM_SET), CMD_SEND(MPP, CAPS_GET), CMD_RECV(MPP, CAPS_GET_REPLY, NULL), CMD_SEND(MPP, CAPS_SET), CMD_SEND(MPP, EXTRAINFO_GET), CMD_RECV(MPP, EXTRAINFO_GET_REPLY, NULL), CMD_SEND(MPP, EXTRAINFO_SET), CMD_SEND(MPP, RENUM), CMD_SEND(MPP, EEPROM_BLK_RD), CMD_RECV(MPP, EEPROM_BLK_RD_REPLY, NULL), CMD_SEND(MPP, DEV_SEND_SEG), CMD_SEND(MPP, DEV_SEND_START), CMD_SEND(MPP, DEV_SEND_END), CMD_SEND(MPP, RESET), CMD_SEND(MPP, HALF_RESET), CMD_SEND(MPP, SER_SEND), CMD_SEND(MPP, SER_RECV), /* Twinstar */ CMD_SEND(MPP, TWS_WD_MODE_SET), CMD_SEND(MPP, TWS_WD_MODE_GET), CMD_RECV(MPP, TWS_WD_MODE_GET_REPLY, NULL), CMD_SEND(MPP, TWS_PORT_SET), CMD_SEND(MPP, TWS_PORT_GET), CMD_RECV(MPP, TWS_PORT_GET_REPLY, NULL), CMD_SEND(MPP, TWS_PWR_GET), CMD_RECV(MPP, TWS_PWR_GET_REPLY, NULL), }, .ack_statuses = { } }; struct cmd_queue { struct cmd_queue *next; struct cmd_queue *prev; struct xtalk_command *cmd; }; static struct cmd_queue output_queue = { .next = &output_queue, .prev = &output_queue, .cmd = NULL }; void dump_command(struct xtalk_command *cmd) { uint16_t len; int i; len = cmd->header.len; if(len < sizeof(struct mpp_header)) { ERR("Command too short (%d)\n", len); return; } INFO("DUMP: OP=0x%X len=%d seq=%d\n", cmd->header.op, cmd->header.len, cmd->header.seq); for(i = 0; i < len - sizeof(struct mpp_header); i++) { INFO(" %2d. 0x%X\n", i, cmd->alt.raw_data[i]); } } static int set_ihex_version(char *dst, const char *src) { memcpy(dst, src, VERSION_LEN); return 0; } /* * Protocol Commands */ int mpp_status_query(struct astribank_device *astribank) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_STATUS_GET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } astribank->eeprom_type = 0x3 & (CMD_FIELD(reply, MPP, STATUS_GET_REPLY, i2cs_data) >> 3); astribank->status = CMD_FIELD(reply, MPP, STATUS_GET_REPLY, status); astribank->fw_versions = CMD_FIELD(reply, MPP, STATUS_GET_REPLY, fw_versions); DBG("EEPROM TYPE: %02x\n", astribank->eeprom_type); DBG("FPGA Firmware: %s\n", (astribank->status & 0x1) ? "Loaded" : "Empty"); DBG("Firmware Versions: USB='%s' FPGA='%s' EEPROM='%s'\n", astribank->fw_versions.usb, astribank->fw_versions.fpga, astribank->fw_versions.eeprom); free_command(reply); return ret; } int mpp_eeprom_set(struct astribank_device *astribank, const struct eeprom_table *et) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_EEPROM_SET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } memcpy(&CMD_FIELD(cmd, MPP, EEPROM_SET, data), et, sizeof(*et)); ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } free_command(reply); return 0; } int mpp_renumerate(struct astribank_device *astribank) { struct xtalk_command *cmd; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_RENUM, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, NULL); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } return 0; } int mpp_caps_get(struct astribank_device *astribank, struct eeprom_table *eeprom_table, struct capabilities *capabilities, struct capkey *key) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_CAPS_GET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } assert(reply->header.op == MPP_CAPS_GET_REPLY); if(eeprom_table) { memcpy(eeprom_table, (void *)&CMD_FIELD(reply, MPP, CAPS_GET_REPLY, data), sizeof(*eeprom_table)); } if(capabilities) { const struct capabilities *cap = &CMD_FIELD(reply, MPP, CAPS_GET_REPLY, capabilities); memcpy(capabilities, cap, sizeof(*capabilities)); } if(key) { const struct capkey *k = &CMD_FIELD(reply, MPP, CAPS_GET_REPLY, key); memcpy(key, k, sizeof(*key)); } free_command(reply); return 0; } int mpp_caps_set(struct astribank_device *astribank, const struct eeprom_table *eeprom_table, const struct capabilities *capabilities, const struct capkey *key) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_CAPS_SET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } memcpy(&CMD_FIELD(cmd, MPP, CAPS_SET, data), eeprom_table, sizeof(*eeprom_table)); memcpy(&CMD_FIELD(cmd, MPP, CAPS_SET, capabilities), capabilities, sizeof(*capabilities)); memcpy(&CMD_FIELD(cmd, MPP, CAPS_SET, key), key, sizeof(*key)); ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } free_command(reply); return 0; } int mpp_extrainfo_get(struct astribank_device *astribank, struct extrainfo *info) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_EXTRAINFO_GET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } assert(reply->header.op == MPP_EXTRAINFO_GET_REPLY); if(info) { memcpy(info, (void *)&CMD_FIELD(reply, MPP, EXTRAINFO_GET_REPLY, info), sizeof(*info)); } free_command(reply); return 0; } int mpp_extrainfo_set(struct astribank_device *astribank, const struct extrainfo *info) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_EXTRAINFO_SET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } memcpy(&CMD_FIELD(cmd, MPP, EXTRAINFO_SET, info), info, sizeof(*info)); ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } free_command(reply); return 0; } int mpp_eeprom_blk_rd(struct astribank_device *astribank, uint8_t *buf, uint16_t offset, uint16_t len) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; int size; DBG("len = %d, offset = %d\n", len, offset); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_EEPROM_BLK_RD, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } CMD_FIELD(cmd, MPP, EEPROM_BLK_RD, len) = len; CMD_FIELD(cmd, MPP, EEPROM_BLK_RD, offset) = offset; ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); size = ret; goto out; } size = reply->header.len - sizeof(struct mpp_header) - sizeof(XTALK_STRUCT(MPP, EEPROM_BLK_RD_REPLY)); INFO("size=%d offset=0x%X\n", size, CMD_FIELD(reply, MPP, EEPROM_BLK_RD_REPLY, offset)); dump_packet(LOG_DEBUG, DBG_MASK, "BLK_RD", (char *)reply, ret); if(size > len) { ERR("Truncating reply (was %d, now %d)\n", size, len); size = len; } memcpy(buf, CMD_FIELD(reply, MPP, EEPROM_BLK_RD_REPLY, data), size); out: free_command(reply); return size; } int mpp_send_start(struct astribank_device *astribank, int dest, const char *ihex_version) { struct xtalk_command *cmd; struct xtalk_command *reply = NULL; struct xtalk_device *xtalk_dev; int ret = 0; DBG("dest = %s ihex_version = '%s'\n", dev_dest2str(dest), ihex_version); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_DEV_SEND_START, 0)) == NULL) { ERR("new_command failed\n"); ret = -ENOMEM; goto out; } CMD_FIELD(cmd, MPP, DEV_SEND_START, dest) = dest; set_ihex_version(CMD_FIELD(cmd, MPP, DEV_SEND_START, ihex_version), ihex_version); ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); goto out; } out: if(reply) free_command(reply); astribank->burn_state = (ret == 0) ? BURN_STATE_STARTED : BURN_STATE_FAILED; return ret; } int mpp_send_end(struct astribank_device *astribank) { struct xtalk_command *cmd; struct xtalk_command *reply = NULL; struct xtalk_device *xtalk_dev; int ret = 0; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_DEV_SEND_END, 0)) == NULL) { ERR("new_command failed\n"); ret = -ENOMEM; goto out; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); goto out; } out: if(reply) free_command(reply); astribank->burn_state = (ret == 0) ? BURN_STATE_ENDED : BURN_STATE_FAILED; return ret; } int mpp_send_seg(struct astribank_device *astribank, const uint8_t *data, uint16_t offset, uint16_t len) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if(!astribank->burn_state == BURN_STATE_STARTED) { ERR("Tried to send a segment while burn_state=%d\n", astribank->burn_state); return -EINVAL; } DBG("len = %d, offset = %d (0x%02X, 0x%02X)\n", len, offset, *data, *(data + 1)); if((cmd = new_command(xtalk_dev, MPP_DEV_SEND_SEG, len)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } CMD_FIELD(cmd, MPP, DEV_SEND_SEG, offset) = offset; memcpy(CMD_FIELD(cmd, MPP, DEV_SEND_SEG, data), data, len); #if 0 { FILE *fp; if((fp = fopen("seg_data.bin", "a")) == NULL) { perror("seg_data.bin"); exit(1); } if(fwrite(CMD_FIELD(cmd, MPP, DEV_SEND_SEG, data), len, 1, fp) != 1) { perror("fwrite"); exit(1); } fclose(fp); } #endif ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } free_command(reply); return 0; } int mpp_reset(struct astribank_device *astribank, int full_reset) { struct xtalk_command *cmd; struct xtalk_device *xtalk_dev; int ret; int op = (full_reset) ? MPP_RESET: MPP_HALF_RESET; DBG("full = %s\n", (full_reset) ? "YES" : "NO"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, op, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, NULL); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } return 0; } int mpp_serial_cmd(struct astribank_device *astribank, const uint8_t *in, uint8_t *out, uint16_t len) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; uint8_t *data; DBG("len=%d\n", len); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_SER_SEND, len)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } data = CMD_FIELD(cmd, MPP, SER_SEND, data); memcpy(data, in, len); ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } assert(reply->header.op == MPP_SER_RECV); data = CMD_FIELD(reply, MPP, SER_RECV, data); memcpy(out, data, len); free_command(reply); return 0; } int mpps_card_info(struct astribank_device *astribank, int unit, uint8_t *card_type, uint8_t *card_status) { struct card_info_send { uint8_t ser_op; uint8_t addr; } *card_info_send; struct card_info_recv { uint8_t ser_op_undef; /* invalid data */ uint8_t addr; uint8_t card_full_type; /* (type << 4 | subtype) */ uint8_t card_status; /* BIT(0) - PIC burned */ } *card_info_recv; uint8_t in[sizeof(struct card_info_recv)]; uint8_t out[sizeof(struct card_info_recv)]; int len; int ret; len = sizeof(struct card_info_recv); memset(in, 0, len); memset(out, 0, len); card_info_send = (struct card_info_send *)∈ card_info_recv = (struct card_info_recv *)&out; card_info_send->ser_op = SER_CARD_INFO_GET; card_info_send->addr = (unit << 4); /* low nibble is subunit */ ret = mpp_serial_cmd(astribank, in, out, len); if(ret < 0) return ret; *card_type = card_info_recv->card_full_type; *card_status = card_info_recv->card_status; return 0; } int mpp_tws_watchdog(struct astribank_device *astribank) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_TWS_WD_MODE_GET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } ret = CMD_FIELD(reply, MPP, TWS_WD_MODE_GET_REPLY, wd_active); DBG("wd_active=0x%X\n", ret); free_command(reply); return ret == 1; } int mpp_tws_setwatchdog(struct astribank_device *astribank, int yes) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("%s\n", (yes) ? "YES" : "NO"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_TWS_WD_MODE_SET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } CMD_FIELD(cmd, MPP, TWS_WD_MODE_SET, wd_active) = (yes) ? 1 : 0; ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } free_command(reply); return 0; } int mpp_tws_powerstate(struct astribank_device *astribank) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_TWS_PWR_GET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } ret = CMD_FIELD(reply, MPP, TWS_PWR_GET_REPLY, power); DBG("power=0x%X\n", ret); free_command(reply); return ret; } int mpp_tws_portnum(struct astribank_device *astribank) { struct xtalk_command *cmd; struct xtalk_command *reply; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if((cmd = new_command(xtalk_dev, MPP_TWS_PORT_GET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } ret = process_command(xtalk_dev, cmd, &reply); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } ret = CMD_FIELD(reply, MPP, TWS_PORT_GET_REPLY, portnum); DBG("portnum=0x%X\n", ret); free_command(reply); return ret; } int mpp_tws_setportnum(struct astribank_device *astribank, uint8_t portnum) { struct xtalk_command *cmd; struct xtalk_device *xtalk_dev; int ret; DBG("\n"); assert(astribank != NULL); xtalk_dev = astribank->xtalk_dev; if(portnum >= 2) { ERR("Invalid portnum (%d)\n", portnum); return -EINVAL; } if((cmd = new_command(xtalk_dev, MPP_TWS_PORT_SET, 0)) == NULL) { ERR("new_command failed\n"); return -ENOMEM; } CMD_FIELD(cmd, MPP, TWS_PORT_SET, portnum) = portnum; ret = process_command(xtalk_dev, cmd, NULL); if(ret < 0) { ERR("process_command failed: %d\n", ret); return ret; } return 0; } /* Adapters for xusb ops */ static inline int xusb_close_func(void *priv) { return xusb_close((struct xusb *)priv); } static inline int xusb_send_func(void *priv, void *data, size_t len, int timeout) { return xusb_send((struct xusb *)priv, data, len, timeout); } static inline int xusb_recv_func(void *priv, void *data, size_t maxlen, int timeout) { return xusb_recv((struct xusb *)priv, data, maxlen, timeout); } static struct xtalk_ops xusb_ops = { .send_func = xusb_send_func, .recv_func = xusb_recv_func, .close_func = xusb_close_func, }; /* * Wrappers */ struct astribank_device *mpp_init(const char devpath[], int iface_num) { struct astribank_device *astribank = NULL; struct xtalk_device *xtalk_dev = NULL; struct xusb *xusb = NULL; int packet_size; int ret; DBG("devpath='%s' iface_num=%d\n", devpath, iface_num); if((astribank = astribank_open(devpath, iface_num)) == NULL) { ERR("Opening astribank failed\n"); goto err; } xusb = astribank->xusb; packet_size = xusb_packet_size(xusb); if((xtalk_dev = xtalk_new(&xusb_ops, packet_size, xusb)) == NULL) { ERR("Allocating new XTALK device failed\n"); goto err; } astribank->xtalk_dev = xtalk_dev; ret = xtalk_set_protocol(xtalk_dev, &astribank_proto); if(ret < 0) { ERR("MPP Protocol registration failed: %d\n", ret); goto err; } ret = xtalk_proto_query(xtalk_dev); if(ret < 0) { ERR("Protocol handshake failed: %d\n", ret); goto err; } ret = mpp_status_query(astribank); if(ret < 0) { ERR("Status query failed: %d\n", ret); goto err; } return astribank; err: if (astribank) { astribank_close(astribank, 0); astribank = NULL; } if(xtalk_dev) { xtalk_delete(xtalk_dev); xtalk_dev = NULL; } return NULL; } void mpp_exit(struct astribank_device *astribank) { DBG("\n"); astribank_close(astribank, 0); } /* * data structures */ void show_eeprom(const struct eeprom_table *eprm, FILE *fp) { int rmajor = (eprm->release >> 8) & 0xFF; int rminor = eprm->release & 0xFF;; char buf[BUFSIZ]; memset(buf, 0, LABEL_SIZE + 1); memcpy(buf, eprm->label, LABEL_SIZE); fprintf(fp, "EEPROM: %-15s: 0x%02X\n", "Source", eprm->source); fprintf(fp, "EEPROM: %-15s: 0x%04X\n", "Vendor", eprm->vendor); fprintf(fp, "EEPROM: %-15s: 0x%04X\n", "Product", eprm->product); fprintf(fp, "EEPROM: %-15s: %d.%d\n", "Release", rmajor, rminor); fprintf(fp, "EEPROM: %-15s: 0x%02X\n", "Config", eprm->config_byte); fprintf(fp, "EEPROM: %-15s: '%s'\n", "Label", buf); } void show_capabilities(const struct capabilities *capabilities, FILE *fp) { fprintf(fp, "Capabilities: FXS ports: %2d\n", capabilities->ports_fxs); fprintf(fp, "Capabilities: FXO ports: %2d\n", capabilities->ports_fxo); fprintf(fp, "Capabilities: BRI ports: %2d\n", capabilities->ports_bri); fprintf(fp, "Capabilities: PRI ports: %2d\n", capabilities->ports_pri); fprintf(fp, "Capabilities: ECHO ports: %2d\n", capabilities->ports_echo); fprintf(fp, "Capabilities: TwinStar : %s\n", (CAP_EXTRA_TWINSTAR(capabilities)) ? "Yes" : "No"); } void show_astribank_status(struct astribank_device *astribank, FILE *fp) { char version_buf[BUFSIZ]; int is_loaded = STATUS_FPGA_LOADED(astribank->status); fprintf(fp, "Astribank: EEPROM : %s\n", eeprom_type2str(astribank->eeprom_type)); fprintf(fp, "Astribank: FPGA status : %s\n", is_loaded ? "Loaded" : "Empty"); if(is_loaded) { memset(version_buf, 0, sizeof(version_buf)); memcpy(version_buf, astribank->fw_versions.fpga, VERSION_LEN); fprintf(fp, "Astribank: FPGA version: %s\n", version_buf); } } void show_extrainfo(const struct extrainfo *extrainfo, FILE *fp) { fprintf(fp, "Extrainfo: : %s\n", (const char *)(extrainfo->text)); } int twinstar_show(struct astribank_device *astribank, FILE *fp) { int watchdog; int powerstate; int portnum; int i; if(!astribank_has_twinstar(astribank)) { fprintf(fp, "TwinStar: NO\n"); return 0; } if((watchdog = mpp_tws_watchdog(astribank)) < 0) { ERR("Failed getting TwinStar information\n"); return watchdog; } if((powerstate = mpp_tws_powerstate(astribank)) < 0) { ERR("Failed getting TwinStar powerstate\n"); return powerstate; } if((portnum = mpp_tws_portnum(astribank)) < 0) { ERR("Failed getting TwinStar portnum\n"); return portnum; } fprintf(fp, "TwinStar: Connected to : USB-%1d\n", portnum); fprintf(fp, "TwinStar: Watchdog : %s\n", (watchdog) ? "on-guard" : "off-guard"); for(i = 0; i < 2; i++) { int pw = (1 << i) & powerstate; fprintf(fp, "TwinStar: USB-%1d POWER : %s\n", i, (pw) ? "ON" : "OFF"); } return 0; }