Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/umodem/@/dev/twa/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/umodem/@/dev/twa/tw_cl_misc.c |
/* * Copyright (c) 2004-07 Applied Micro Circuits Corporation. * Copyright (c) 2004-05 Vinod Kashyap * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: release/9.1.0/sys/dev/twa/tw_cl_misc.c 212008 2010-08-30 19:15:04Z delphij $ */ /* * AMCC'S 3ware driver for 9000 series storage controllers. * * Author: Vinod Kashyap * Modifications by: Adam Radford * Modifications by: Manjunath Ranganathaiah */ /* * Common Layer miscellaneous functions. */ #include "tw_osl_share.h" #include "tw_cl_share.h" #include "tw_cl_fwif.h" #include "tw_cl_ioctl.h" #include "tw_cl.h" #include "tw_cl_externs.h" #include "tw_osl_ioctl.h" /* AEN severity table. */ TW_INT8 *tw_cli_severity_string_table[] = { "None", TW_CL_SEVERITY_ERROR_STRING, TW_CL_SEVERITY_WARNING_STRING, TW_CL_SEVERITY_INFO_STRING, TW_CL_SEVERITY_DEBUG_STRING, "" }; /* * Function name: tw_cli_drain_complete_queue * Description: This function gets called during a controller reset. * It errors back to the OS Layer, all those requests that * are in the complete queue, at the time of the reset. * Any CL internal requests will be simply freed. * * Input: ctlr -- ptr to CL internal ctlr context * Output: None * Return value: None */ TW_VOID tw_cli_drain_complete_queue(struct tw_cli_ctlr_context *ctlr) { struct tw_cli_req_context *req; struct tw_cl_req_packet *req_pkt; tw_cli_dbg_printf(3, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); /* Walk the busy queue. */ while ((req = tw_cli_req_q_remove_head(ctlr, TW_CLI_COMPLETE_Q)) != TW_CL_NULL) { if (req->flags & TW_CLI_REQ_FLAGS_INTERNAL) { /* * It's an internal request. Set the appropriate * error and call the CL internal callback if there's * one. If the request originator is polling for * completion, he should be checking req->error to * determine that the request did not go through. * The request originators are responsible for the * clean-up. */ req->error_code = TW_CL_ERR_REQ_BUS_RESET; if (req->tw_cli_callback) req->tw_cli_callback(req); } else if (req->flags & TW_CLI_REQ_FLAGS_PASSTHRU) { /* It's a passthru request. Complete it. */ if ((req_pkt = req->orig_req) != TW_CL_NULL) { req_pkt->status = TW_CL_ERR_REQ_BUS_RESET; if (req_pkt->tw_osl_callback) req_pkt->tw_osl_callback(req->req_handle); } tw_cli_req_q_insert_tail(req, TW_CLI_FREE_Q); } else { /* It's an external (SCSI) request. Add it to the reset queue. */ tw_osl_untimeout(req->req_handle); tw_cli_req_q_insert_tail(req, TW_CLI_RESET_Q); } } /* End of while loop */ } /* * Function name: tw_cli_drain_busy_queue * Description: This function gets called during a controller reset. * It errors back to the OS Layer, all those requests that * were pending with the firmware, at the time of the * reset. * * Input: ctlr -- ptr to CL internal ctlr context * Output: None * Return value: None */ TW_VOID tw_cli_drain_busy_queue(struct tw_cli_ctlr_context *ctlr) { struct tw_cli_req_context *req; struct tw_cl_req_packet *req_pkt; tw_cli_dbg_printf(3, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); /* Walk the busy queue. */ while ((req = tw_cli_req_q_remove_head(ctlr, TW_CLI_BUSY_Q)) != TW_CL_NULL) { if (req->flags & TW_CLI_REQ_FLAGS_INTERNAL) { /* * It's an internal request. Set the appropriate * error and call the CL internal callback if there's * one. If the request originator is polling for * completion, he should be checking req->error to * determine that the request did not go through. * The request originators are responsible for the * clean-up. */ req->error_code = TW_CL_ERR_REQ_BUS_RESET; if (req->tw_cli_callback) req->tw_cli_callback(req); } else if (req->flags & TW_CLI_REQ_FLAGS_PASSTHRU) { /* It's a passthru request. Complete it. */ if ((req_pkt = req->orig_req) != TW_CL_NULL) { req_pkt->status = TW_CL_ERR_REQ_BUS_RESET; if (req_pkt->tw_osl_callback) req_pkt->tw_osl_callback(req->req_handle); } tw_cli_req_q_insert_tail(req, TW_CLI_FREE_Q); } else { /* It's an external (SCSI) request. Add it to the reset queue. */ tw_osl_untimeout(req->req_handle); tw_cli_req_q_insert_tail(req, TW_CLI_RESET_Q); } } /* End of while loop */ } /* * Function name: tw_cli_drain_pending_queue * Description: This function gets called during a controller reset. * It errors back to the OS Layer, all those requests that * were in the pending queue, at the time of the reset. * * Input: ctlr -- ptr to CL internal ctlr context * Output: None * Return value: None */ TW_VOID tw_cli_drain_pending_queue(struct tw_cli_ctlr_context *ctlr) { struct tw_cli_req_context *req; struct tw_cl_req_packet *req_pkt; tw_cli_dbg_printf(3, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); /* * Pull requests off the pending queue, and complete them. */ while ((req = tw_cli_req_q_remove_head(ctlr, TW_CLI_PENDING_Q)) != TW_CL_NULL) { if (req->flags & TW_CLI_REQ_FLAGS_INTERNAL) { /* * It's an internal request. Set the appropriate * error and call the CL internal callback if there's * one. If the request originator is polling for * completion, he should be checking req->error to * determine that the request did not go through. * The request originators are responsible for the * clean-up. */ req->error_code = TW_CL_ERR_REQ_BUS_RESET; if (req->tw_cli_callback) req->tw_cli_callback(req); } else if (req->flags & TW_CLI_REQ_FLAGS_PASSTHRU) { /* It's a passthru request. Complete it. */ if ((req_pkt = req->orig_req) != TW_CL_NULL) { req_pkt->status = TW_CL_ERR_REQ_BUS_RESET; if (req_pkt->tw_osl_callback) req_pkt->tw_osl_callback(req->req_handle); } tw_cli_req_q_insert_tail(req, TW_CLI_FREE_Q); } else { /* It's an external (SCSI) request. Add it to the reset queue. */ tw_osl_untimeout(req->req_handle); tw_cli_req_q_insert_tail(req, TW_CLI_RESET_Q); } } /* End of while loop */ } /* * Function name: tw_cli_drain_response_queue * Description: Drain the controller response queue. * * Input: ctlr -- ptr to per ctlr structure * Output: None * Return value: 0 -- success * non-zero-- failure */ TW_INT32 tw_cli_drain_response_queue(struct tw_cli_ctlr_context *ctlr) { TW_UINT32 resp; TW_UINT32 status_reg; tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); for (;;) { status_reg = TW_CLI_READ_STATUS_REGISTER(ctlr->ctlr_handle); if (status_reg & TWA_STATUS_RESPONSE_QUEUE_EMPTY) return(TW_OSL_ESUCCESS); /* no more response queue entries */ resp = TW_CLI_READ_RESPONSE_QUEUE(ctlr->ctlr_handle); } } /* * Function name: tw_cli_find_response * Description: Find a particular response in the ctlr response queue. * * Input: ctlr -- ptr to per ctlr structure * req_id -- request id of the response to look for * Output: None * Return value: 0 -- success * non-zero-- failure */ TW_INT32 tw_cli_find_response(struct tw_cli_ctlr_context *ctlr, TW_INT32 req_id) { TW_UINT32 resp; TW_INT32 resp_id; TW_UINT32 status_reg; tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); for (;;) { status_reg = TW_CLI_READ_STATUS_REGISTER(ctlr->ctlr_handle); if (status_reg & TWA_STATUS_RESPONSE_QUEUE_EMPTY) return(TW_OSL_ENOTTY); /* no more response queue entries */ if (ctlr->device_id == TW_CL_DEVICE_ID_9K) { resp = TW_CLI_READ_RESPONSE_QUEUE(ctlr->ctlr_handle); resp_id = GET_RESP_ID(resp); } else { resp = TW_CLI_READ_LARGE_RESPONSE_QUEUE( ctlr->ctlr_handle); resp_id = GET_LARGE_RESP_ID(resp); } if (resp_id == req_id) return(TW_OSL_ESUCCESS); /* found the req_id */ } } /* * Function name: tw_cli_drain_aen_queue * Description: Fetches all un-retrieved AEN's posted by fw. * * Input: ctlr -- ptr to CL internal ctlr context * Output: None * Return value: 0 -- success * non-zero-- failure */ TW_INT32 tw_cli_drain_aen_queue(struct tw_cli_ctlr_context *ctlr) { struct tw_cli_req_context *req; struct tw_cl_command_header *cmd_hdr; TW_TIME end_time; TW_UINT16 aen_code; TW_INT32 error; tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); for (;;) { if ((req = tw_cli_get_request(ctlr )) == TW_CL_NULL) { error = TW_OSL_EBUSY; break; } req->flags |= TW_CLI_REQ_FLAGS_INTERNAL; req->tw_cli_callback = TW_CL_NULL; if ((error = tw_cli_send_scsi_cmd(req, 0x03 /* REQUEST_SENSE */))) { tw_cli_dbg_printf(1, ctlr->ctlr_handle, tw_osl_cur_func(), "Cannot send command to fetch aen"); break; } end_time = tw_osl_get_local_time() + TW_CLI_REQUEST_TIMEOUT_PERIOD; do { if ((error = req->error_code)) /* * This will take care of completion due to * a reset, or a failure in * tw_cli_submit_pending_queue. */ goto out; tw_cli_process_resp_intr(req->ctlr); if ((req->state != TW_CLI_REQ_STATE_BUSY) && (req->state != TW_CLI_REQ_STATE_PENDING)) break; } while (tw_osl_get_local_time() <= end_time); if (req->state != TW_CLI_REQ_STATE_COMPLETE) { error = TW_OSL_ETIMEDOUT; break; } if ((error = req->cmd_pkt->command.cmd_pkt_9k.status)) { cmd_hdr = &req->cmd_pkt->cmd_hdr; #if 0 tw_cli_create_ctlr_event(ctlr, TW_CL_MESSAGE_SOURCE_CONTROLLER_ERROR, cmd_hdr); #endif // 0 break; } aen_code = tw_cli_manage_aen(ctlr, req); if (aen_code == TWA_AEN_QUEUE_EMPTY) break; if (aen_code == TWA_AEN_SYNC_TIME_WITH_HOST) continue; ctlr->internal_req_busy = TW_CL_FALSE; tw_cli_req_q_insert_tail(req, TW_CLI_FREE_Q); } out: if (req) { if (req->data) ctlr->internal_req_busy = TW_CL_FALSE; tw_cli_req_q_insert_tail(req, TW_CLI_FREE_Q); } return(error); } /* * Function name: tw_cli_find_aen * Description: Reports whether a given AEN ever occurred. * * Input: ctlr -- ptr to CL internal ctlr context * aen_code-- AEN to look for * Output: None * Return value: 0 -- success * non-zero-- failure */ TW_INT32 tw_cli_find_aen(struct tw_cli_ctlr_context *ctlr, TW_UINT16 aen_code) { TW_UINT32 last_index; TW_INT32 i; tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); if (ctlr->aen_q_wrapped) last_index = ctlr->aen_head; else last_index = 0; i = ctlr->aen_head; do { i = (i + ctlr->max_aens_supported - 1) % ctlr->max_aens_supported; if (ctlr->aen_queue[i].aen_code == aen_code) return(TW_OSL_ESUCCESS); } while (i != last_index); return(TW_OSL_EGENFAILURE); } /* * Function name: tw_cli_poll_status * Description: Poll for a given status to show up in the firmware * status register. * * Input: ctlr -- ptr to CL internal ctlr context * status -- status to look for * timeout -- max # of seconds to wait before giving up * Output: None * Return value: 0 -- success * non-zero-- failure */ TW_INT32 tw_cli_poll_status(struct tw_cli_ctlr_context *ctlr, TW_UINT32 status, TW_UINT32 timeout) { TW_TIME end_time; TW_UINT32 status_reg; tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); end_time = tw_osl_get_local_time() + timeout; do { status_reg = TW_CLI_READ_STATUS_REGISTER(ctlr->ctlr_handle); if ((status_reg & status) == status) /* got the required bit(s) */ return(TW_OSL_ESUCCESS); tw_osl_delay(1000); } while (tw_osl_get_local_time() <= end_time); return(TW_OSL_ETIMEDOUT); } /* * Function name: tw_cl_create_event * Description: Creates and queues ctlr/CL/OSL AEN's to be * supplied to user-space tools on request. * Also notifies OS Layer. * Input: ctlr -- ptr to CL internal ctlr context * queue_event-- TW_CL_TRUE --> queue event; * TW_CL_FALSE--> don't queue event * (simply notify OSL) * event_src -- source of event * event_code -- AEN/error code * severity -- severity of event * severity_str--Text description of severity * event_desc -- standard string related to the event/error * event_specific_desc -- format string for additional * info about the event * ... -- additional arguments conforming to the format * specified by event_specific_desc * Output: None * Return value: None */ TW_VOID tw_cl_create_event(struct tw_cl_ctlr_handle *ctlr_handle, TW_UINT8 queue_event, TW_UINT8 event_src, TW_UINT16 event_code, TW_UINT8 severity, TW_UINT8 *severity_str, TW_UINT8 *event_desc, TW_UINT8 *event_specific_desc, ...) { struct tw_cli_ctlr_context *ctlr = ctlr_handle->cl_ctlr_ctxt; struct tw_cl_event_packet event_pkt; struct tw_cl_event_packet *event; TW_UINT32 aen_head; va_list ap; tw_cli_dbg_printf(8, ctlr_handle, tw_osl_cur_func(), "entered"); if ((ctlr) && (queue_event)) { /* Protect access to ctlr->aen_head. */ tw_osl_get_lock(ctlr_handle, ctlr->gen_lock); aen_head = ctlr->aen_head; ctlr->aen_head = (aen_head + 1) % ctlr->max_aens_supported; /* Queue the event. */ event = &(ctlr->aen_queue[aen_head]); tw_osl_memzero(event->parameter_data, sizeof(event->parameter_data)); if (event->retrieved == TW_CL_AEN_NOT_RETRIEVED) ctlr->aen_q_overflow = TW_CL_TRUE; event->sequence_id = ++(ctlr->aen_cur_seq_id); if ((aen_head + 1) == ctlr->max_aens_supported) { tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "AEN queue wrapped"); ctlr->aen_q_wrapped = TW_CL_TRUE; } /* Free access to ctlr->aen_head. */ tw_osl_free_lock(ctlr_handle, ctlr->gen_lock); } else { event = &event_pkt; tw_osl_memzero(event, sizeof(struct tw_cl_event_packet)); } event->event_src = event_src; event->time_stamp_sec = (TW_UINT32)tw_osl_get_local_time(); event->aen_code = event_code; event->severity = severity; tw_osl_strcpy(event->severity_str, severity_str); event->retrieved = TW_CL_AEN_NOT_RETRIEVED; va_start(ap, event_specific_desc); tw_osl_vsprintf(event->parameter_data, event_specific_desc, ap); va_end(ap); event->parameter_len = (TW_UINT8)(tw_osl_strlen(event->parameter_data)); tw_osl_strcpy(event->parameter_data + event->parameter_len + 1, event_desc); event->parameter_len += (1 + tw_osl_strlen(event_desc)); tw_cli_dbg_printf(4, ctlr_handle, tw_osl_cur_func(), "event = %x %x %x %x %x %x %x\n %s", event->sequence_id, event->time_stamp_sec, event->aen_code, event->severity, event->retrieved, event->repeat_count, event->parameter_len, event->parameter_data); tw_osl_notify_event(ctlr_handle, event); } /* * Function name: tw_cli_get_request * Description: Gets a request pkt from the free queue. * * Input: ctlr -- ptr to CL internal ctlr context * req_pkt -- ptr to OSL built req_pkt, if there's one * Output: None * Return value: ptr to request pkt -- success * TW_CL_NULL -- failure */ struct tw_cli_req_context * tw_cli_get_request(struct tw_cli_ctlr_context *ctlr ) { struct tw_cli_req_context *req; tw_cli_dbg_printf(4, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); { /* Get a free request packet. */ req = tw_cli_req_q_remove_head(ctlr, TW_CLI_FREE_Q); } /* Initialize some fields to their defaults. */ if (req) { req->req_handle = TW_CL_NULL; req->data = TW_CL_NULL; req->length = 0; req->data_phys = 0; req->state = TW_CLI_REQ_STATE_INIT; /* req being initialized */ req->flags = 0; req->error_code = 0; req->orig_req = TW_CL_NULL; req->tw_cli_callback = TW_CL_NULL; /* * Look at the status field in the command packet to see how * it completed the last time it was used, and zero out only * the portions that might have changed. Note that we don't * care to zero out the sglist. */ if (req->cmd_pkt->command.cmd_pkt_9k.status) tw_osl_memzero(req->cmd_pkt, sizeof(struct tw_cl_command_header) + 28 /* max bytes before sglist */); else tw_osl_memzero(&(req->cmd_pkt->command), 28 /* max bytes before sglist */); } return(req); } /* * Function name: tw_cli_dbg_printf * Description: Calls OSL print function if dbg_level is appropriate * * Input: dbg_level -- Determines whether or not to print * ctlr_handle -- controller handle * cur_func -- text name of calling function * fmt -- format string for the arguments to follow * ... -- variable number of arguments, to be printed * based on the fmt string * Output: None * Return value: None */ TW_VOID tw_cli_dbg_printf(TW_UINT8 dbg_level, struct tw_cl_ctlr_handle *ctlr_handle, const TW_INT8 *cur_func, TW_INT8 *fmt, ...) { #ifdef TW_OSL_DEBUG TW_INT8 print_str[256]; va_list ap; tw_osl_memzero(print_str, 256); if (dbg_level <= TW_OSL_DEBUG_LEVEL_FOR_CL) { tw_osl_sprintf(print_str, "%s: ", cur_func); va_start(ap, fmt); tw_osl_vsprintf(print_str + tw_osl_strlen(print_str), fmt, ap); va_end(ap); tw_osl_strcpy(print_str + tw_osl_strlen(print_str), "\n"); tw_osl_dbg_printf(ctlr_handle, print_str); } #endif /* TW_OSL_DEBUG */ } /* * Function name: tw_cli_notify_ctlr_info * Description: Notify OSL of controller info (fw/BIOS versions, etc.). * * Input: ctlr -- ptr to CL internal ctlr context * Output: None * Return value: None */ TW_VOID tw_cli_notify_ctlr_info(struct tw_cli_ctlr_context *ctlr) { TW_INT8 fw_ver[16]; TW_INT8 bios_ver[16]; TW_INT8 ctlr_model[16]; TW_INT32 error[3]; TW_UINT8 num_ports = 0; tw_cli_dbg_printf(5, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); /* Get the port count. */ error[0] = tw_cli_get_param(ctlr, TWA_PARAM_CONTROLLER_TABLE, TWA_PARAM_CONTROLLER_PORT_COUNT, &num_ports, 1, TW_CL_NULL); /* Get the firmware and BIOS versions. */ error[0] = tw_cli_get_param(ctlr, TWA_PARAM_VERSION_TABLE, TWA_PARAM_VERSION_FW, fw_ver, 16, TW_CL_NULL); error[1] = tw_cli_get_param(ctlr, TWA_PARAM_VERSION_TABLE, TWA_PARAM_VERSION_BIOS, bios_ver, 16, TW_CL_NULL); error[2] = tw_cli_get_param(ctlr, TWA_PARAM_VERSION_TABLE, TWA_PARAM_CTLR_MODEL, ctlr_model, 16, TW_CL_NULL); tw_cl_create_event(ctlr->ctlr_handle, TW_CL_FALSE, TW_CL_MESSAGE_SOURCE_COMMON_LAYER_ERROR, 0x1300, 0x3, TW_CL_SEVERITY_INFO_STRING, "Controller details:", "Model %.16s, %d ports, Firmware %.16s, BIOS %.16s", error[2]?(TW_INT8 *)TW_CL_NULL:ctlr_model, num_ports, error[0]?(TW_INT8 *)TW_CL_NULL:fw_ver, error[1]?(TW_INT8 *)TW_CL_NULL:bios_ver); } /* * Function name: tw_cli_check_ctlr_state * Description: Makes sure that the fw status register reports a * proper status. * * Input: ctlr -- ptr to CL internal ctlr context * status_reg-- value in the status register * Output: None * Return value: 0 -- no errors * non-zero-- errors */ TW_INT32 tw_cli_check_ctlr_state(struct tw_cli_ctlr_context *ctlr, TW_UINT32 status_reg) { struct tw_cl_ctlr_handle *ctlr_handle = ctlr->ctlr_handle; TW_INT32 error = TW_OSL_ESUCCESS; tw_cli_dbg_printf(8, ctlr->ctlr_handle, tw_osl_cur_func(), "entered"); /* Check if the 'micro-controller ready' bit is not set. */ if (!(status_reg & TWA_STATUS_MICROCONTROLLER_READY)) { TW_INT8 desc[200]; tw_osl_memzero(desc, 200); if (!(ctlr->reset_phase1_in_progress)) { tw_cl_create_event(ctlr_handle, TW_CL_FALSE, TW_CL_MESSAGE_SOURCE_COMMON_LAYER_EVENT, 0x1301, 0x1, TW_CL_SEVERITY_ERROR_STRING, "Missing expected status bit(s)", "status reg = 0x%x; Missing bits: %s", status_reg, tw_cli_describe_bits( TWA_STATUS_MICROCONTROLLER_READY, desc)); error = TW_OSL_EGENFAILURE; } } /* Check if any error bits are set. */ if ((status_reg & TWA_STATUS_UNEXPECTED_BITS) != 0) { TW_INT8 desc[200]; tw_osl_memzero(desc, 200); /* Skip queue error msgs during 9650SE/9690SA reset */ if (((ctlr->device_id != TW_CL_DEVICE_ID_9K_E) && (ctlr->device_id != TW_CL_DEVICE_ID_9K_SA)) || (!(ctlr->reset_in_progress)) || ((status_reg & TWA_STATUS_QUEUE_ERROR_INTERRUPT) == 0)) tw_cl_create_event(ctlr_handle, TW_CL_FALSE, TW_CL_MESSAGE_SOURCE_COMMON_LAYER_EVENT, 0x1302, 0x1, TW_CL_SEVERITY_ERROR_STRING, "Unexpected status bit(s)", "status reg = 0x%x Unexpected bits: %s", status_reg & TWA_STATUS_UNEXPECTED_BITS, tw_cli_describe_bits(status_reg & TWA_STATUS_UNEXPECTED_BITS, desc)); if (status_reg & TWA_STATUS_PCI_PARITY_ERROR_INTERRUPT) { tw_cl_create_event(ctlr_handle, TW_CL_FALSE, TW_CL_MESSAGE_SOURCE_COMMON_LAYER_EVENT, 0x1303, 0x1, TW_CL_SEVERITY_ERROR_STRING, "PCI parity error: clearing... " "Re-seat/move/replace card", "status reg = 0x%x %s", status_reg, tw_cli_describe_bits(status_reg, desc)); TW_CLI_WRITE_CONTROL_REGISTER(ctlr->ctlr_handle, TWA_CONTROL_CLEAR_PARITY_ERROR); #ifdef TW_OSL_PCI_CONFIG_ACCESSIBLE tw_osl_write_pci_config(ctlr->ctlr_handle, TW_CLI_PCI_CONFIG_STATUS_OFFSET, TWA_PCI_CONFIG_CLEAR_PARITY_ERROR, 2); #endif /* TW_OSL_PCI_CONFIG_ACCESSIBLE */ } if (status_reg & TWA_STATUS_PCI_ABORT_INTERRUPT) { tw_cl_create_event(ctlr_handle, TW_CL_FALSE, TW_CL_MESSAGE_SOURCE_COMMON_LAYER_EVENT, 0x1304, 0x1, TW_CL_SEVERITY_ERROR_STRING, "PCI abort: clearing... ", "status reg = 0x%x %s", status_reg, tw_cli_describe_bits(status_reg, desc)); TW_CLI_WRITE_CONTROL_REGISTER(ctlr->ctlr_handle, TWA_CONTROL_CLEAR_PCI_ABORT); #ifdef TW_OSL_PCI_CONFIG_ACCESSIBLE tw_osl_write_pci_config(ctlr->ctlr_handle, TW_CLI_PCI_CONFIG_STATUS_OFFSET, TWA_PCI_CONFIG_CLEAR_PCI_ABORT, 2); #endif /* TW_OSL_PCI_CONFIG_ACCESSIBLE */ } if (status_reg & TWA_STATUS_QUEUE_ERROR_INTERRUPT) { /* Skip queue error msgs during 9650SE/9690SA reset */ if (((ctlr->device_id != TW_CL_DEVICE_ID_9K_E) && (ctlr->device_id != TW_CL_DEVICE_ID_9K_SA)) || (!(ctlr->reset_in_progress))) tw_cl_create_event(ctlr_handle, TW_CL_FALSE, TW_CL_MESSAGE_SOURCE_COMMON_LAYER_EVENT, 0x1305, 0x1, TW_CL_SEVERITY_ERROR_STRING, "Controller queue error: clearing... ", "status reg = 0x%x %s", status_reg, tw_cli_describe_bits(status_reg, desc)); TW_CLI_WRITE_CONTROL_REGISTER(ctlr->ctlr_handle, TWA_CONTROL_CLEAR_QUEUE_ERROR); } } return(error); } /* * Function name: tw_cli_describe_bits * Description: Given the value of the status register, returns a * string describing the meaning of each set bit. * * Input: reg -- status register value * Output: Pointer to a string describing each set bit * Return value: Pointer to the string describing each set bit */ TW_INT8 * tw_cli_describe_bits(TW_UINT32 reg, TW_INT8 *str) { tw_osl_strcpy(str, "["); if (reg & TWA_STATUS_COMMAND_QUEUE_EMPTY) tw_osl_strcpy(&str[tw_osl_strlen(str)], "CMD_Q_EMPTY,"); if (reg & TWA_STATUS_MICROCONTROLLER_READY) tw_osl_strcpy(&str[tw_osl_strlen(str)], "MC_RDY,"); if (reg & TWA_STATUS_RESPONSE_QUEUE_EMPTY) tw_osl_strcpy(&str[tw_osl_strlen(str)], "RESP_Q_EMPTY,"); if (reg & TWA_STATUS_COMMAND_QUEUE_FULL) tw_osl_strcpy(&str[tw_osl_strlen(str)], "CMD_Q_FULL,"); if (reg & TWA_STATUS_RESPONSE_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "RESP_INTR,"); if (reg & TWA_STATUS_COMMAND_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "CMD_INTR,"); if (reg & TWA_STATUS_ATTENTION_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "ATTN_INTR,"); if (reg & TWA_STATUS_HOST_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "HOST_INTR,"); if (reg & TWA_STATUS_PCI_ABORT_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "PCI_ABRT,"); if (reg & TWA_STATUS_QUEUE_ERROR_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "Q_ERR,"); if (reg & TWA_STATUS_PCI_PARITY_ERROR_INTERRUPT) tw_osl_strcpy(&str[tw_osl_strlen(str)], "PCI_PERR"); tw_osl_strcpy(&str[tw_osl_strlen(str)], "]"); return(str); } #ifdef TW_OSL_DEBUG /* * Function name: tw_cl_print_ctlr_stats * Description: Prints the current status of the controller. * * Input: ctlr_handle-- controller handle * Output: None * Return value: None */ TW_VOID tw_cl_print_ctlr_stats(struct tw_cl_ctlr_handle *ctlr_handle) { struct tw_cli_ctlr_context *ctlr = (struct tw_cli_ctlr_context *)(ctlr_handle->cl_ctlr_ctxt); TW_UINT32 status_reg; TW_INT8 desc[200]; tw_cli_dbg_printf(7, ctlr->ctlr_handle, "", "entered"); /* Print current controller details. */ tw_cli_dbg_printf(0, ctlr_handle, "", "cl_ctlr_ctxt = %p", ctlr); tw_osl_memzero(desc, 200); status_reg = TW_CLI_READ_STATUS_REGISTER(ctlr_handle); tw_cli_dbg_printf(0, ctlr_handle, "", "status reg = 0x%x %s", status_reg, tw_cli_describe_bits(status_reg, desc)); tw_cli_dbg_printf(0, ctlr_handle, "", "CLq type current max"); tw_cli_dbg_printf(0, ctlr_handle, "", "free %04d %04d", ctlr->q_stats[TW_CLI_FREE_Q].cur_len, ctlr->q_stats[TW_CLI_FREE_Q].max_len); tw_cli_dbg_printf(0, ctlr_handle, "", "busy %04d %04d", ctlr->q_stats[TW_CLI_BUSY_Q].cur_len, ctlr->q_stats[TW_CLI_BUSY_Q].max_len); tw_cli_dbg_printf(0, ctlr_handle, "", "pending %04d %04d", ctlr->q_stats[TW_CLI_PENDING_Q].cur_len, ctlr->q_stats[TW_CLI_PENDING_Q].max_len); tw_cli_dbg_printf(0, ctlr_handle, "", "complete %04d %04d", ctlr->q_stats[TW_CLI_COMPLETE_Q].cur_len, ctlr->q_stats[TW_CLI_COMPLETE_Q].max_len); tw_cli_dbg_printf(0, ctlr_handle, "", "AEN queue head %d tail %d", ctlr->aen_head, ctlr->aen_tail); } /* * Function name: tw_cl_reset_stats * Description: Resets CL maintained statistics for the controller. * * Input: ctlr_handle-- controller handle * Output: None * Return value: None */ TW_VOID tw_cl_reset_stats(struct tw_cl_ctlr_handle *ctlr_handle) { struct tw_cli_ctlr_context *ctlr = (struct tw_cli_ctlr_context *)(ctlr_handle->cl_ctlr_ctxt); tw_cli_dbg_printf(7, ctlr_handle, tw_osl_cur_func(), "entered"); ctlr->q_stats[TW_CLI_FREE_Q].max_len = 0; ctlr->q_stats[TW_CLI_BUSY_Q].max_len = 0; ctlr->q_stats[TW_CLI_PENDING_Q].max_len = 0; ctlr->q_stats[TW_CLI_COMPLETE_Q].max_len = 0; } /* * Function name: tw_cli_print_req_info * Description: Prints CL internal details of a given request. * * Input: req -- ptr to CL internal request context * Output: None * Return value: None */ TW_VOID tw_cl_print_req_info(struct tw_cl_req_handle *req_handle) { struct tw_cli_req_context *req = req_handle->cl_req_ctxt; struct tw_cli_ctlr_context *ctlr = req->ctlr; struct tw_cl_ctlr_handle *ctlr_handle = ctlr->ctlr_handle; struct tw_cl_command_packet *cmd_pkt = req->cmd_pkt; struct tw_cl_command_9k *cmd9k; union tw_cl_command_7k *cmd7k; TW_UINT8 *cdb; TW_VOID *sgl; TW_UINT32 sgl_entries; TW_UINT32 i; tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "CL details for request:"); tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "req_handle = %p, ctlr = %p,\n" "cmd_pkt = %p, cmd_pkt_phys = 0x%llx,\n" "data = %p, length = 0x%x, data_phys = 0x%llx,\n" "state = 0x%x, flags = 0x%x, error = 0x%x,\n" "orig_req = %p, callback = %p, req_id = 0x%x,\n" "next_req = %p, prev_req = %p", req_handle, ctlr, cmd_pkt, req->cmd_pkt_phys, req->data, req->length, req->data_phys, req->state, req->flags, req->error_code, req->orig_req, req->tw_cli_callback, req->request_id, req->link.next, req->link.prev); if (req->flags & TW_CLI_REQ_FLAGS_9K) { cmd9k = &(cmd_pkt->command.cmd_pkt_9k); sgl = cmd9k->sg_list; sgl_entries = TW_CL_SWAP16( GET_SGL_ENTRIES(cmd9k->lun_h4__sgl_entries)); tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "9K cmd: opcode = 0x%x, unit = 0x%x, req_id = 0x%x,\n" "status = 0x%x, sgl_offset = 0x%x, sgl_entries = 0x%x", GET_OPCODE(cmd9k->res__opcode), cmd9k->unit, TW_CL_SWAP16(GET_REQ_ID(cmd9k->lun_l4__req_id)), cmd9k->status, cmd9k->sgl_offset, sgl_entries); cdb = (TW_UINT8 *)(cmd9k->cdb); tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "CDB: %x %x %x %x %x %x %x %x" "%x %x %x %x %x %x %x %x", cdb[0], cdb[1], cdb[2], cdb[3], cdb[4], cdb[5], cdb[6], cdb[7], cdb[8], cdb[9], cdb[10], cdb[11], cdb[12], cdb[13], cdb[14], cdb[15]); } else { cmd7k = &(cmd_pkt->command.cmd_pkt_7k); sgl = cmd7k->param.sgl; sgl_entries = (cmd7k->generic.size - GET_SGL_OFF(cmd7k->generic.sgl_off__opcode)) / ((ctlr->flags & TW_CL_64BIT_ADDRESSES) ? 3 : 2); tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "7K cmd: opcode = 0x%x, sgl_offset = 0x%x,\n" "size = 0x%x, req_id = 0x%x, unit = 0x%x,\n" "status = 0x%x, flags = 0x%x, count = 0x%x", GET_OPCODE(cmd7k->generic.sgl_off__opcode), GET_SGL_OFF(cmd7k->generic.sgl_off__opcode), cmd7k->generic.size, TW_CL_SWAP16(cmd7k->generic.request_id), GET_UNIT(cmd7k->generic.host_id__unit), cmd7k->generic.status, cmd7k->generic.flags, TW_CL_SWAP16(cmd7k->generic.count)); } tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "SG entries:"); if (ctlr->flags & TW_CL_64BIT_ADDRESSES) { struct tw_cl_sg_desc64 *sgl64 = (struct tw_cl_sg_desc64 *)sgl; for (i = 0; i < sgl_entries; i++) { tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "0x%llx 0x%x", sgl64[i].address, sgl64[i].length); } } else { struct tw_cl_sg_desc32 *sgl32 = (struct tw_cl_sg_desc32 *)sgl; for (i = 0; i < sgl_entries; i++) { tw_cli_dbg_printf(0, ctlr_handle, tw_osl_cur_func(), "0x%x 0x%x", sgl32[i].address, sgl32[i].length); } } } #endif /* TW_OSL_DEBUG */