Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Hiral Patel | 1992 | 52.94% | 2 | 13.33% |
Hiral Shah | 1321 | 35.10% | 3 | 20.00% |
Satish Kharat | 377 | 10.02% | 3 | 20.00% |
Arnd Bergmann | 49 | 1.30% | 1 | 6.67% |
Kees Cook | 13 | 0.35% | 1 | 6.67% |
Deepa Dinamani | 5 | 0.13% | 1 | 6.67% |
Stephen Rothwell | 3 | 0.08% | 1 | 6.67% |
Sabyasachi Gupta | 1 | 0.03% | 1 | 6.67% |
Masanari Iida | 1 | 0.03% | 1 | 6.67% |
Colin Ian King | 1 | 0.03% | 1 | 6.67% |
Total | 3763 | 15 |
/* * Copyright 2012 Cisco Systems, Inc. All rights reserved. * * This program is free software; you may redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include <linux/module.h> #include <linux/mempool.h> #include <linux/errno.h> #include <linux/spinlock.h> #include <linux/kallsyms.h> #include <linux/time.h> #include <linux/vmalloc.h> #include "fnic_io.h" #include "fnic.h" unsigned int trace_max_pages; static int fnic_max_trace_entries; static unsigned long fnic_trace_buf_p; static DEFINE_SPINLOCK(fnic_trace_lock); static fnic_trace_dbg_t fnic_trace_entries; int fnic_tracing_enabled = 1; /* static char *fnic_fc_ctlr_trace_buf_p; */ static int fc_trace_max_entries; static unsigned long fnic_fc_ctlr_trace_buf_p; static fnic_trace_dbg_t fc_trace_entries; int fnic_fc_tracing_enabled = 1; int fnic_fc_trace_cleared = 1; static DEFINE_SPINLOCK(fnic_fc_trace_lock); /* * fnic_trace_get_buf - Give buffer pointer to user to fill up trace information * * Description: * This routine gets next available trace buffer entry location @wr_idx * from allocated trace buffer pages and give that memory location * to user to store the trace information. * * Return Value: * This routine returns pointer to next available trace entry * @fnic_buf_head for user to fill trace information. */ fnic_trace_data_t *fnic_trace_get_buf(void) { unsigned long fnic_buf_head; unsigned long flags; spin_lock_irqsave(&fnic_trace_lock, flags); /* * Get next available memory location for writing trace information * at @wr_idx and increment @wr_idx */ fnic_buf_head = fnic_trace_entries.page_offset[fnic_trace_entries.wr_idx]; fnic_trace_entries.wr_idx++; /* * Verify if trace buffer is full then change wd_idx to * start from zero */ if (fnic_trace_entries.wr_idx >= fnic_max_trace_entries) fnic_trace_entries.wr_idx = 0; /* * Verify if write index @wr_idx and read index @rd_idx are same then * increment @rd_idx to move to next entry in trace buffer */ if (fnic_trace_entries.wr_idx == fnic_trace_entries.rd_idx) { fnic_trace_entries.rd_idx++; if (fnic_trace_entries.rd_idx >= fnic_max_trace_entries) fnic_trace_entries.rd_idx = 0; } spin_unlock_irqrestore(&fnic_trace_lock, flags); return (fnic_trace_data_t *)fnic_buf_head; } /* * fnic_get_trace_data - Copy trace buffer to a memory file * @fnic_dbgfs_t: pointer to debugfs trace buffer * * Description: * This routine gathers the fnic trace debugfs data from the fnic_trace_data_t * buffer and dumps it to fnic_dbgfs_t. It will start at the rd_idx entry in * the log and process the log until the end of the buffer. Then it will gather * from the beginning of the log and process until the current entry @wr_idx. * * Return Value: * This routine returns the amount of bytes that were dumped into fnic_dbgfs_t */ int fnic_get_trace_data(fnic_dbgfs_t *fnic_dbgfs_prt) { int rd_idx; int wr_idx; int len = 0; unsigned long flags; char str[KSYM_SYMBOL_LEN]; struct timespec64 val; fnic_trace_data_t *tbp; spin_lock_irqsave(&fnic_trace_lock, flags); rd_idx = fnic_trace_entries.rd_idx; wr_idx = fnic_trace_entries.wr_idx; if (wr_idx < rd_idx) { while (1) { /* Start from read index @rd_idx */ tbp = (fnic_trace_data_t *) fnic_trace_entries.page_offset[rd_idx]; if (!tbp) { spin_unlock_irqrestore(&fnic_trace_lock, flags); return 0; } /* Convert function pointer to function name */ if (sizeof(unsigned long) < 8) { sprint_symbol(str, tbp->fnaddr.low); jiffies_to_timespec64(tbp->timestamp.low, &val); } else { sprint_symbol(str, tbp->fnaddr.val); jiffies_to_timespec64(tbp->timestamp.val, &val); } /* * Dump trace buffer entry to memory file * and increment read index @rd_idx */ len += snprintf(fnic_dbgfs_prt->buffer + len, (trace_max_pages * PAGE_SIZE * 3) - len, "%16llu.%09lu %-50s %8x %8x %16llx %16llx " "%16llx %16llx %16llx\n", (u64)val.tv_sec, val.tv_nsec, str, tbp->host_no, tbp->tag, tbp->data[0], tbp->data[1], tbp->data[2], tbp->data[3], tbp->data[4]); rd_idx++; /* * If rd_idx is reached to maximum trace entries * then move rd_idx to zero */ if (rd_idx > (fnic_max_trace_entries-1)) rd_idx = 0; /* * Continure dumpping trace buffer entries into * memory file till rd_idx reaches write index */ if (rd_idx == wr_idx) break; } } else if (wr_idx > rd_idx) { while (1) { /* Start from read index @rd_idx */ tbp = (fnic_trace_data_t *) fnic_trace_entries.page_offset[rd_idx]; if (!tbp) { spin_unlock_irqrestore(&fnic_trace_lock, flags); return 0; } /* Convert function pointer to function name */ if (sizeof(unsigned long) < 8) { sprint_symbol(str, tbp->fnaddr.low); jiffies_to_timespec64(tbp->timestamp.low, &val); } else { sprint_symbol(str, tbp->fnaddr.val); jiffies_to_timespec64(tbp->timestamp.val, &val); } /* * Dump trace buffer entry to memory file * and increment read index @rd_idx */ len += snprintf(fnic_dbgfs_prt->buffer + len, (trace_max_pages * PAGE_SIZE * 3) - len, "%16llu.%09lu %-50s %8x %8x %16llx %16llx " "%16llx %16llx %16llx\n", (u64)val.tv_sec, val.tv_nsec, str, tbp->host_no, tbp->tag, tbp->data[0], tbp->data[1], tbp->data[2], tbp->data[3], tbp->data[4]); rd_idx++; /* * Continue dumpping trace buffer entries into * memory file till rd_idx reaches write index */ if (rd_idx == wr_idx) break; } } spin_unlock_irqrestore(&fnic_trace_lock, flags); return len; } /* * fnic_get_stats_data - Copy fnic stats buffer to a memory file * @fnic_dbgfs_t: pointer to debugfs fnic stats buffer * * Description: * This routine gathers the fnic stats debugfs data from the fnic_stats struct * and dumps it to stats_debug_info. * * Return Value: * This routine returns the amount of bytes that were dumped into * stats_debug_info */ int fnic_get_stats_data(struct stats_debug_info *debug, struct fnic_stats *stats) { int len = 0; int buf_size = debug->buf_size; struct timespec64 val1, val2; ktime_get_real_ts64(&val1); len = snprintf(debug->debug_buffer + len, buf_size - len, "------------------------------------------\n" "\t\tTime\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Current time : [%lld:%ld]\n" "Last stats reset time: [%lld:%09ld]\n" "Last stats read time: [%lld:%ld]\n" "delta since last reset: [%lld:%ld]\n" "delta since last read: [%lld:%ld]\n", (s64)val1.tv_sec, val1.tv_nsec, (s64)stats->stats_timestamps.last_reset_time.tv_sec, stats->stats_timestamps.last_reset_time.tv_nsec, (s64)stats->stats_timestamps.last_read_time.tv_sec, stats->stats_timestamps.last_read_time.tv_nsec, (s64)timespec64_sub(val1, stats->stats_timestamps.last_reset_time).tv_sec, timespec64_sub(val1, stats->stats_timestamps.last_reset_time).tv_nsec, (s64)timespec64_sub(val1, stats->stats_timestamps.last_read_time).tv_sec, timespec64_sub(val1, stats->stats_timestamps.last_read_time).tv_nsec); stats->stats_timestamps.last_read_time = val1; len += snprintf(debug->debug_buffer + len, buf_size - len, "------------------------------------------\n" "\t\tIO Statistics\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Number of Active IOs: %lld\nMaximum Active IOs: %lld\n" "Number of IOs: %lld\nNumber of IO Completions: %lld\n" "Number of IO Failures: %lld\nNumber of IO NOT Found: %lld\n" "Number of Memory alloc Failures: %lld\n" "Number of IOREQ Null: %lld\n" "Number of SCSI cmd pointer Null: %lld\n" "\nIO completion times: \n" " < 10 ms : %lld\n" " 10 ms - 100 ms : %lld\n" " 100 ms - 500 ms : %lld\n" " 500 ms - 5 sec: %lld\n" " 5 sec - 10 sec: %lld\n" " 10 sec - 30 sec: %lld\n" " > 30 sec: %lld\n", (u64)atomic64_read(&stats->io_stats.active_ios), (u64)atomic64_read(&stats->io_stats.max_active_ios), (u64)atomic64_read(&stats->io_stats.num_ios), (u64)atomic64_read(&stats->io_stats.io_completions), (u64)atomic64_read(&stats->io_stats.io_failures), (u64)atomic64_read(&stats->io_stats.io_not_found), (u64)atomic64_read(&stats->io_stats.alloc_failures), (u64)atomic64_read(&stats->io_stats.ioreq_null), (u64)atomic64_read(&stats->io_stats.sc_null), (u64)atomic64_read(&stats->io_stats.io_btw_0_to_10_msec), (u64)atomic64_read(&stats->io_stats.io_btw_10_to_100_msec), (u64)atomic64_read(&stats->io_stats.io_btw_100_to_500_msec), (u64)atomic64_read(&stats->io_stats.io_btw_500_to_5000_msec), (u64)atomic64_read(&stats->io_stats.io_btw_5000_to_10000_msec), (u64)atomic64_read(&stats->io_stats.io_btw_10000_to_30000_msec), (u64)atomic64_read(&stats->io_stats.io_greater_than_30000_msec)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\nCurrent Max IO time : %lld\n", (u64)atomic64_read(&stats->io_stats.current_max_io_time)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\n------------------------------------------\n" "\t\tAbort Statistics\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Number of Aborts: %lld\n" "Number of Abort Failures: %lld\n" "Number of Abort Driver Timeouts: %lld\n" "Number of Abort FW Timeouts: %lld\n" "Number of Abort IO NOT Found: %lld\n" "Abort issued times: \n" " < 6 sec : %lld\n" " 6 sec - 20 sec : %lld\n" " 20 sec - 30 sec : %lld\n" " 30 sec - 40 sec : %lld\n" " 40 sec - 50 sec : %lld\n" " 50 sec - 60 sec : %lld\n" " > 60 sec: %lld\n", (u64)atomic64_read(&stats->abts_stats.aborts), (u64)atomic64_read(&stats->abts_stats.abort_failures), (u64)atomic64_read(&stats->abts_stats.abort_drv_timeouts), (u64)atomic64_read(&stats->abts_stats.abort_fw_timeouts), (u64)atomic64_read(&stats->abts_stats.abort_io_not_found), (u64)atomic64_read(&stats->abts_stats.abort_issued_btw_0_to_6_sec), (u64)atomic64_read(&stats->abts_stats.abort_issued_btw_6_to_20_sec), (u64)atomic64_read(&stats->abts_stats.abort_issued_btw_20_to_30_sec), (u64)atomic64_read(&stats->abts_stats.abort_issued_btw_30_to_40_sec), (u64)atomic64_read(&stats->abts_stats.abort_issued_btw_40_to_50_sec), (u64)atomic64_read(&stats->abts_stats.abort_issued_btw_50_to_60_sec), (u64)atomic64_read(&stats->abts_stats.abort_issued_greater_than_60_sec)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\n------------------------------------------\n" "\t\tTerminate Statistics\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Number of Terminates: %lld\n" "Maximum Terminates: %lld\n" "Number of Terminate Driver Timeouts: %lld\n" "Number of Terminate FW Timeouts: %lld\n" "Number of Terminate IO NOT Found: %lld\n" "Number of Terminate Failures: %lld\n", (u64)atomic64_read(&stats->term_stats.terminates), (u64)atomic64_read(&stats->term_stats.max_terminates), (u64)atomic64_read(&stats->term_stats.terminate_drv_timeouts), (u64)atomic64_read(&stats->term_stats.terminate_fw_timeouts), (u64)atomic64_read(&stats->term_stats.terminate_io_not_found), (u64)atomic64_read(&stats->term_stats.terminate_failures)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\n------------------------------------------\n" "\t\tReset Statistics\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Number of Device Resets: %lld\n" "Number of Device Reset Failures: %lld\n" "Number of Device Reset Aborts: %lld\n" "Number of Device Reset Timeouts: %lld\n" "Number of Device Reset Terminates: %lld\n" "Number of FW Resets: %lld\n" "Number of FW Reset Completions: %lld\n" "Number of FW Reset Failures: %lld\n" "Number of Fnic Reset: %lld\n" "Number of Fnic Reset Completions: %lld\n" "Number of Fnic Reset Failures: %lld\n", (u64)atomic64_read(&stats->reset_stats.device_resets), (u64)atomic64_read(&stats->reset_stats.device_reset_failures), (u64)atomic64_read(&stats->reset_stats.device_reset_aborts), (u64)atomic64_read(&stats->reset_stats.device_reset_timeouts), (u64)atomic64_read( &stats->reset_stats.device_reset_terminates), (u64)atomic64_read(&stats->reset_stats.fw_resets), (u64)atomic64_read(&stats->reset_stats.fw_reset_completions), (u64)atomic64_read(&stats->reset_stats.fw_reset_failures), (u64)atomic64_read(&stats->reset_stats.fnic_resets), (u64)atomic64_read( &stats->reset_stats.fnic_reset_completions), (u64)atomic64_read(&stats->reset_stats.fnic_reset_failures)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\n------------------------------------------\n" "\t\tFirmware Statistics\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Number of Active FW Requests %lld\n" "Maximum FW Requests: %lld\n" "Number of FW out of resources: %lld\n" "Number of FW IO errors: %lld\n", (u64)atomic64_read(&stats->fw_stats.active_fw_reqs), (u64)atomic64_read(&stats->fw_stats.max_fw_reqs), (u64)atomic64_read(&stats->fw_stats.fw_out_of_resources), (u64)atomic64_read(&stats->fw_stats.io_fw_errs)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\n------------------------------------------\n" "\t\tVlan Discovery Statistics\n" "------------------------------------------\n"); len += snprintf(debug->debug_buffer + len, buf_size - len, "Number of Vlan Discovery Requests Sent %lld\n" "Vlan Response Received with no FCF VLAN ID: %lld\n" "No solicitations recvd after vlan set, expiry count: %lld\n" "Flogi rejects count: %lld\n", (u64)atomic64_read(&stats->vlan_stats.vlan_disc_reqs), (u64)atomic64_read(&stats->vlan_stats.resp_withno_vlanID), (u64)atomic64_read(&stats->vlan_stats.sol_expiry_count), (u64)atomic64_read(&stats->vlan_stats.flogi_rejects)); len += snprintf(debug->debug_buffer + len, buf_size - len, "\n------------------------------------------\n" "\t\tOther Important Statistics\n" "------------------------------------------\n"); jiffies_to_timespec64(stats->misc_stats.last_isr_time, &val1); jiffies_to_timespec64(stats->misc_stats.last_ack_time, &val2); len += snprintf(debug->debug_buffer + len, buf_size - len, "Last ISR time: %llu (%8llu.%09lu)\n" "Last ACK time: %llu (%8llu.%09lu)\n" "Number of ISRs: %lld\n" "Maximum CQ Entries: %lld\n" "Number of ACK index out of range: %lld\n" "Number of data count mismatch: %lld\n" "Number of FCPIO Timeouts: %lld\n" "Number of FCPIO Aborted: %lld\n" "Number of SGL Invalid: %lld\n" "Number of Copy WQ Alloc Failures for ABTs: %lld\n" "Number of Copy WQ Alloc Failures for Device Reset: %lld\n" "Number of Copy WQ Alloc Failures for IOs: %lld\n" "Number of no icmnd itmf Completions: %lld\n" "Number of Check Conditions encountered: %lld\n" "Number of QUEUE Fulls: %lld\n" "Number of rport not ready: %lld\n" "Number of receive frame errors: %lld\n", (u64)stats->misc_stats.last_isr_time, (s64)val1.tv_sec, val1.tv_nsec, (u64)stats->misc_stats.last_ack_time, (s64)val2.tv_sec, val2.tv_nsec, (u64)atomic64_read(&stats->misc_stats.isr_count), (u64)atomic64_read(&stats->misc_stats.max_cq_entries), (u64)atomic64_read(&stats->misc_stats.ack_index_out_of_range), (u64)atomic64_read(&stats->misc_stats.data_count_mismatch), (u64)atomic64_read(&stats->misc_stats.fcpio_timeout), (u64)atomic64_read(&stats->misc_stats.fcpio_aborted), (u64)atomic64_read(&stats->misc_stats.sgl_invalid), (u64)atomic64_read( &stats->misc_stats.abts_cpwq_alloc_failures), (u64)atomic64_read( &stats->misc_stats.devrst_cpwq_alloc_failures), (u64)atomic64_read(&stats->misc_stats.io_cpwq_alloc_failures), (u64)atomic64_read(&stats->misc_stats.no_icmnd_itmf_cmpls), (u64)atomic64_read(&stats->misc_stats.check_condition), (u64)atomic64_read(&stats->misc_stats.queue_fulls), (u64)atomic64_read(&stats->misc_stats.rport_not_ready), (u64)atomic64_read(&stats->misc_stats.frame_errors)); return len; } /* * fnic_trace_buf_init - Initialize fnic trace buffer logging facility * * Description: * Initialize trace buffer data structure by allocating required memory and * setting page_offset information for every trace entry by adding trace entry * length to previous page_offset value. */ int fnic_trace_buf_init(void) { unsigned long fnic_buf_head; int i; int err = 0; trace_max_pages = fnic_trace_max_pages; fnic_max_trace_entries = (trace_max_pages * PAGE_SIZE)/ FNIC_ENTRY_SIZE_BYTES; fnic_trace_buf_p = (unsigned long)vzalloc(trace_max_pages * PAGE_SIZE); if (!fnic_trace_buf_p) { printk(KERN_ERR PFX "Failed to allocate memory " "for fnic_trace_buf_p\n"); err = -ENOMEM; goto err_fnic_trace_buf_init; } fnic_trace_entries.page_offset = vmalloc(array_size(fnic_max_trace_entries, sizeof(unsigned long))); if (!fnic_trace_entries.page_offset) { printk(KERN_ERR PFX "Failed to allocate memory for" " page_offset\n"); if (fnic_trace_buf_p) { vfree((void *)fnic_trace_buf_p); fnic_trace_buf_p = 0; } err = -ENOMEM; goto err_fnic_trace_buf_init; } memset((void *)fnic_trace_entries.page_offset, 0, (fnic_max_trace_entries * sizeof(unsigned long))); fnic_trace_entries.wr_idx = fnic_trace_entries.rd_idx = 0; fnic_buf_head = fnic_trace_buf_p; /* * Set page_offset field of fnic_trace_entries struct by * calculating memory location for every trace entry using * length of each trace entry */ for (i = 0; i < fnic_max_trace_entries; i++) { fnic_trace_entries.page_offset[i] = fnic_buf_head; fnic_buf_head += FNIC_ENTRY_SIZE_BYTES; } err = fnic_trace_debugfs_init(); if (err < 0) { pr_err("fnic: Failed to initialize debugfs for tracing\n"); goto err_fnic_trace_debugfs_init; } pr_info("fnic: Successfully Initialized Trace Buffer\n"); return err; err_fnic_trace_debugfs_init: fnic_trace_free(); err_fnic_trace_buf_init: return err; } /* * fnic_trace_free - Free memory of fnic trace data structures. */ void fnic_trace_free(void) { fnic_tracing_enabled = 0; fnic_trace_debugfs_terminate(); if (fnic_trace_entries.page_offset) { vfree((void *)fnic_trace_entries.page_offset); fnic_trace_entries.page_offset = NULL; } if (fnic_trace_buf_p) { vfree((void *)fnic_trace_buf_p); fnic_trace_buf_p = 0; } printk(KERN_INFO PFX "Successfully Freed Trace Buffer\n"); } /* * fnic_fc_ctlr_trace_buf_init - * Initialize trace buffer to log fnic control frames * Description: * Initialize trace buffer data structure by allocating * required memory for trace data as well as for Indexes. * Frame size is 256 bytes and * memory is allocated for 1024 entries of 256 bytes. * Page_offset(Index) is set to the address of trace entry * and page_offset is initialized by adding frame size * to the previous page_offset entry. */ int fnic_fc_trace_init(void) { unsigned long fc_trace_buf_head; int err = 0; int i; fc_trace_max_entries = (fnic_fc_trace_max_pages * PAGE_SIZE)/ FC_TRC_SIZE_BYTES; fnic_fc_ctlr_trace_buf_p = (unsigned long)vmalloc(array_size(PAGE_SIZE, fnic_fc_trace_max_pages)); if (!fnic_fc_ctlr_trace_buf_p) { pr_err("fnic: Failed to allocate memory for " "FC Control Trace Buf\n"); err = -ENOMEM; goto err_fnic_fc_ctlr_trace_buf_init; } memset((void *)fnic_fc_ctlr_trace_buf_p, 0, fnic_fc_trace_max_pages * PAGE_SIZE); /* Allocate memory for page offset */ fc_trace_entries.page_offset = vmalloc(array_size(fc_trace_max_entries, sizeof(unsigned long))); if (!fc_trace_entries.page_offset) { pr_err("fnic:Failed to allocate memory for page_offset\n"); if (fnic_fc_ctlr_trace_buf_p) { pr_err("fnic: Freeing FC Control Trace Buf\n"); vfree((void *)fnic_fc_ctlr_trace_buf_p); fnic_fc_ctlr_trace_buf_p = 0; } err = -ENOMEM; goto err_fnic_fc_ctlr_trace_buf_init; } memset((void *)fc_trace_entries.page_offset, 0, (fc_trace_max_entries * sizeof(unsigned long))); fc_trace_entries.rd_idx = fc_trace_entries.wr_idx = 0; fc_trace_buf_head = fnic_fc_ctlr_trace_buf_p; /* * Set up fc_trace_entries.page_offset field with memory location * for every trace entry */ for (i = 0; i < fc_trace_max_entries; i++) { fc_trace_entries.page_offset[i] = fc_trace_buf_head; fc_trace_buf_head += FC_TRC_SIZE_BYTES; } err = fnic_fc_trace_debugfs_init(); if (err < 0) { pr_err("fnic: Failed to initialize FC_CTLR tracing.\n"); goto err_fnic_fc_ctlr_trace_debugfs_init; } pr_info("fnic: Successfully Initialized FC_CTLR Trace Buffer\n"); return err; err_fnic_fc_ctlr_trace_debugfs_init: fnic_fc_trace_free(); err_fnic_fc_ctlr_trace_buf_init: return err; } /* * Fnic_fc_ctlr_trace_free - Free memory of fnic_fc_ctlr trace data structures. */ void fnic_fc_trace_free(void) { fnic_fc_tracing_enabled = 0; fnic_fc_trace_debugfs_terminate(); if (fc_trace_entries.page_offset) { vfree((void *)fc_trace_entries.page_offset); fc_trace_entries.page_offset = NULL; } if (fnic_fc_ctlr_trace_buf_p) { vfree((void *)fnic_fc_ctlr_trace_buf_p); fnic_fc_ctlr_trace_buf_p = 0; } pr_info("fnic:Successfully FC_CTLR Freed Trace Buffer\n"); } /* * fnic_fc_ctlr_set_trace_data: * Maintain rd & wr idx accordingly and set data * Passed parameters: * host_no: host number accociated with fnic * frame_type: send_frame, rece_frame or link event * fc_frame: pointer to fc_frame * frame_len: Length of the fc_frame * Description: * This routine will get next available wr_idx and * copy all passed trace data to the buffer pointed by wr_idx * and increment wr_idx. It will also make sure that we dont * overwrite the entry which we are reading and also * wrap around if we reach the maximum entries. * Returned Value: * It will return 0 for success or -1 for failure */ int fnic_fc_trace_set_data(u32 host_no, u8 frame_type, char *frame, u32 fc_trc_frame_len) { unsigned long flags; struct fc_trace_hdr *fc_buf; unsigned long eth_fcoe_hdr_len; char *fc_trace; if (fnic_fc_tracing_enabled == 0) return 0; spin_lock_irqsave(&fnic_fc_trace_lock, flags); if (fnic_fc_trace_cleared == 1) { fc_trace_entries.rd_idx = fc_trace_entries.wr_idx = 0; pr_info("fnic: Resetting the read idx\n"); memset((void *)fnic_fc_ctlr_trace_buf_p, 0, fnic_fc_trace_max_pages * PAGE_SIZE); fnic_fc_trace_cleared = 0; } fc_buf = (struct fc_trace_hdr *) fc_trace_entries.page_offset[fc_trace_entries.wr_idx]; fc_trace_entries.wr_idx++; if (fc_trace_entries.wr_idx >= fc_trace_max_entries) fc_trace_entries.wr_idx = 0; if (fc_trace_entries.wr_idx == fc_trace_entries.rd_idx) { fc_trace_entries.rd_idx++; if (fc_trace_entries.rd_idx >= fc_trace_max_entries) fc_trace_entries.rd_idx = 0; } ktime_get_real_ts64(&fc_buf->time_stamp); fc_buf->host_no = host_no; fc_buf->frame_type = frame_type; fc_trace = (char *)FC_TRACE_ADDRESS(fc_buf); /* During the receive path, we do not have eth hdr as well as fcoe hdr * at trace entry point so we will stuff 0xff just to make it generic. */ if (frame_type == FNIC_FC_RECV) { eth_fcoe_hdr_len = sizeof(struct ethhdr) + sizeof(struct fcoe_hdr); memset((char *)fc_trace, 0xff, eth_fcoe_hdr_len); /* Copy the rest of data frame */ memcpy((char *)(fc_trace + eth_fcoe_hdr_len), (void *)frame, min_t(u8, fc_trc_frame_len, (u8)(FC_TRC_SIZE_BYTES - FC_TRC_HEADER_SIZE - eth_fcoe_hdr_len))); } else { memcpy((char *)fc_trace, (void *)frame, min_t(u8, fc_trc_frame_len, (u8)(FC_TRC_SIZE_BYTES - FC_TRC_HEADER_SIZE))); } /* Store the actual received length */ fc_buf->frame_len = fc_trc_frame_len; spin_unlock_irqrestore(&fnic_fc_trace_lock, flags); return 0; } /* * fnic_fc_ctlr_get_trace_data: Copy trace buffer to a memory file * Passed parameter: * @fnic_dbgfs_t: pointer to debugfs trace buffer * rdata_flag: 1 => Unformated file * 0 => formated file * Description: * This routine will copy the trace data to memory file with * proper formatting and also copy to another memory * file without formatting for further procesing. * Retrun Value: * Number of bytes that were dumped into fnic_dbgfs_t */ int fnic_fc_trace_get_data(fnic_dbgfs_t *fnic_dbgfs_prt, u8 rdata_flag) { int rd_idx, wr_idx; unsigned long flags; int len = 0, j; struct fc_trace_hdr *tdata; char *fc_trace; spin_lock_irqsave(&fnic_fc_trace_lock, flags); if (fc_trace_entries.wr_idx == fc_trace_entries.rd_idx) { spin_unlock_irqrestore(&fnic_fc_trace_lock, flags); pr_info("fnic: Buffer is empty\n"); return 0; } rd_idx = fc_trace_entries.rd_idx; wr_idx = fc_trace_entries.wr_idx; if (rdata_flag == 0) { len += snprintf(fnic_dbgfs_prt->buffer + len, (fnic_fc_trace_max_pages * PAGE_SIZE * 3) - len, "Time Stamp (UTC)\t\t" "Host No: F Type: len: FCoE_FRAME:\n"); } while (rd_idx != wr_idx) { tdata = (struct fc_trace_hdr *) fc_trace_entries.page_offset[rd_idx]; if (!tdata) { pr_info("fnic: Rd data is NULL\n"); spin_unlock_irqrestore(&fnic_fc_trace_lock, flags); return 0; } if (rdata_flag == 0) { copy_and_format_trace_data(tdata, fnic_dbgfs_prt, &len, rdata_flag); } else { fc_trace = (char *)tdata; for (j = 0; j < FC_TRC_SIZE_BYTES; j++) { len += snprintf(fnic_dbgfs_prt->buffer + len, (fnic_fc_trace_max_pages * PAGE_SIZE * 3) - len, "%02x", fc_trace[j] & 0xff); } /* for loop */ len += snprintf(fnic_dbgfs_prt->buffer + len, (fnic_fc_trace_max_pages * PAGE_SIZE * 3) - len, "\n"); } rd_idx++; if (rd_idx > (fc_trace_max_entries - 1)) rd_idx = 0; } spin_unlock_irqrestore(&fnic_fc_trace_lock, flags); return len; } /* * copy_and_format_trace_data: Copy formatted data to char * buffer * Passed Parameter: * @fc_trace_hdr_t: pointer to trace data * @fnic_dbgfs_t: pointer to debugfs trace buffer * @orig_len: pointer to len * rdata_flag: 0 => Formated file, 1 => Unformated file * Description: * This routine will format and copy the passed trace data * for formated file or unformated file accordingly. */ void copy_and_format_trace_data(struct fc_trace_hdr *tdata, fnic_dbgfs_t *fnic_dbgfs_prt, int *orig_len, u8 rdata_flag) { struct tm tm; int j, i = 1, len; char *fc_trace, *fmt; int ethhdr_len = sizeof(struct ethhdr) - 1; int fcoehdr_len = sizeof(struct fcoe_hdr); int fchdr_len = sizeof(struct fc_frame_header); int max_size = fnic_fc_trace_max_pages * PAGE_SIZE * 3; tdata->frame_type = tdata->frame_type & 0x7F; len = *orig_len; time64_to_tm(tdata->time_stamp.tv_sec, 0, &tm); fmt = "%02d:%02d:%04ld %02d:%02d:%02d.%09lu ns%8x %c%8x\t"; len += snprintf(fnic_dbgfs_prt->buffer + len, max_size - len, fmt, tm.tm_mon + 1, tm.tm_mday, tm.tm_year + 1900, tm.tm_hour, tm.tm_min, tm.tm_sec, tdata->time_stamp.tv_nsec, tdata->host_no, tdata->frame_type, tdata->frame_len); fc_trace = (char *)FC_TRACE_ADDRESS(tdata); for (j = 0; j < min_t(u8, tdata->frame_len, (u8)(FC_TRC_SIZE_BYTES - FC_TRC_HEADER_SIZE)); j++) { if (tdata->frame_type == FNIC_FC_LE) { len += snprintf(fnic_dbgfs_prt->buffer + len, max_size - len, "%c", fc_trace[j]); } else { len += snprintf(fnic_dbgfs_prt->buffer + len, max_size - len, "%02x", fc_trace[j] & 0xff); len += snprintf(fnic_dbgfs_prt->buffer + len, max_size - len, " "); if (j == ethhdr_len || j == ethhdr_len + fcoehdr_len || j == ethhdr_len + fcoehdr_len + fchdr_len || (i > 3 && j%fchdr_len == 0)) { len += snprintf(fnic_dbgfs_prt->buffer + len, max_size - len, "\n\t\t\t\t\t\t\t\t"); i++; } } /* end of else*/ } /* End of for loop*/ len += snprintf(fnic_dbgfs_prt->buffer + len, max_size - len, "\n"); *orig_len = len; }
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