/* netscaler.c * * $Id$ * * Wiretap Library * Copyright (c) 2006 by Ravi Kondamuru * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include "wtap-int.h" #include "file_wrappers.h" #include "buffer.h" #include "netscaler.h" /* Defines imported from netscaler code: nsperfrc.h */ #define NSPR_SIGSTR_V10 "NetScaler Performance Data" #define NSPR_SIGSTR_V20 "NetScaler V20 Performance Data" #define NSPR_SIGSTR NSPR_SIGSTR_V20 /* Defined but not used */ #define NSPR_SIGSTR_V21 "NetScaler V21 Performance Data" #define NSPR_SIGSTR_V22 "NetScaler V22 Performance Data" #define NSPR_PAGESIZE 8192 /* The different record types ** NOTE: The Record Type is two byte fields and unused space is recognized by ** either bytes being zero, therefore no record should any byte value as ** zero. ** ** New Performance Record Type is only one byte. */ #define NSPR_UNUSEDSPACE_V10 0x0000 /* rest of the page is unused */ #define NSPR_UNUSEDSPACE_V20 0x00 /* rest of the page is unused */ #define NSPR_SIGNATURE_V10 0x0101 /* signature */ #define NSPR_SIGNATURE_V20 0x01 /* signature */ #define NSPR_ABSTIME_V10 0x0107 /* data capture time in secs from 1970*/ #define NSPR_ABSTIME_V20 0x07 /* data capture time in secs from 1970*/ #define NSPR_RELTIME_V10 0x0108 /* relative time in ms from last time */ #define NSPR_RELTIME_V20 0x08 /* relative time in ms from last time */ #define NSPR_RELTIMEHR_V10 0x0109 /* high resolution relative time */ #define NSPR_RELTIMEHR_V20 0x09 /* high resolution relative time */ #define NSPR_SYSTARTIME_V10 0x010A /* system start time */ #define NSPR_SYSTARTIME_V20 0x0A /* system start time */ #define NSPR_RELTIME2B_V10 0x010B /* relative time in ms from last time */ #define NSPR_RELTIME2B_V20 0x0B /* relative time in ms from last time */ /* The high resolution relative time format. ** The MS 2 bits of the high resoltion time is defined as follows: ** 00 : time value is in second ** 01 : time value is in mili second ** 10 : time value is in micro second ** 11 : time value is in nano second */ #define NSPR_HRTIME_MASKTM 0x3FFFFFFF /* mask to get time value */ #define NSPR_HRTIME_MASKFMT 0xC0000000 /* time value format mask */ #define NSPR_HRTIME_SEC 0x00000000 /* time value in second */ #define NSPR_HRTIME_MSEC 0x40000000 /* time value in mili second */ #define NSPR_HRTIME_USEC 0x80000000 /* time value in micro second */ #define NSPR_HRTIME_NSEC 0xC0000000 /* time value in nano second */ typedef struct nspr_header_v10 { guint8 ph_RecordType[2]; /* Record Type */ guint8 ph_RecordSize[2]; /* Record Size including header */ } nspr_header_v10_t; #define nspr_header_v10_s sizeof(nspr_header_v10_t) /* This is V20 short header (2 bytes long) to be included where needed */ #define NSPR_HEADER_V20(prefix) \ guint8 prefix##_RecordType; /* Record Type */ \ guint8 prefix##_RecordSize /* Record Size including header */ \ /* end of declaration */ /* This is new long header (3 bytes long) to be included where needed */ #define NSPR_HEADER3B_V20(prefix) \ guint8 prefix##_RecordType; /* Record Type */ \ guint8 prefix##_RecordSizeLow; /* Record Size including header */ \ guint8 prefix##_RecordSizeHigh /* Record Size including header */ \ /* end of declaration */ #define NSPR_HEADER3B_V21 NSPR_HEADER3B_V20 #define NSPR_HEADER3B_V22 NSPR_HEADER3B_V20 typedef struct nspr_hd_v20 { NSPR_HEADER3B_V20(phd); /* long performance header */ } nspr_hd_v20_t; #define nspr_hd_v20_s sizeof(nspr_hd_v20_t) /* ** How to know if header size is short or long? ** The short header size can be 0-127 bytes long. If MS Bit of ph_RecordSize ** is set then record size has 2 bytes */ #define NSPR_V20RECORDSIZE_2BYTES 0x80 /* Performance Data Header with device number */ typedef struct nspr_headerdev_v10 { guint8 ph_RecordType[2]; /* Record Type */ guint8 ph_RecordSize[2]; /* Record Size including header */ guint8 ph_DevNo[4]; /* Network Device (NIC/CONN) number */ } nspr_headerdev_v10_t; #define nspr_headerdev_v10_s sizeof(nspr_headerdev_v10_t) typedef struct nspr_hd_v10 { nspr_header_v10_t phd; /* performance header */ } nspr_hd_v10_t; #define nspr_hd_v10_s sizeof(nspr_hd_v10_t) typedef struct nspr_hdev_v10 { nspr_headerdev_v10_t phd; /* performance header */ } nspr_hdev_v10_t; #define nspr_hdev_v10_s sizeof(nspr_hdev_v10_t) /* if structure has defined phd as first field, it can use following names */ #define nsprRecordType phd.ph_RecordType #define nsprRecordSize phd.ph_RecordSize #define nsprReserved phd.ph_Reserved #define nsprRecordTypeOrg phd.ph_Reserved #define nsprDevNo phd.ph_DevNo /* NSPR_SIGNATURE_V10 structure */ #define NSPR_SIGSIZE_V10 56 /* signature value size in bytes */ typedef struct nspr_signature_v10 { nspr_header_v10_t phd; /* performance header */ guint8 sig_EndianType; /* Endian Type for the data */ guint8 sig_Reserved0; guint8 sig_Reserved1[2]; gchar sig_Signature[NSPR_SIGSIZE_V10]; /* Signature value */ } nspr_signature_v10_t; #define nspr_signature_v10_s sizeof(nspr_signature_v10_t) /* NSPR_SIGNATURE_V20 structure */ #define NSPR_SIGSIZE_V20 sizeof(NSPR_SIGSTR_V20) /* signature value size in bytes */ typedef struct nspr_signature_v20 { NSPR_HEADER_V20(sig); /* short performance header */ guint8 sig_EndianType; /* Endian Type for the data */ gchar sig_Signature[NSPR_SIGSIZE_V20]; /* Signature value */ } nspr_signature_v20_t; #define nspr_signature_v20_s sizeof(nspr_signature_v20_t) /* NSPR_ABSTIME_V10 and NSPR_SYSTARTIME_V10 structure */ typedef struct nspr_abstime_v10 { nspr_header_v10_t phd; /* performance header */ guint8 abs_RelTime[4]; /* relative time is ms from last time */ guint8 abs_Time[4]; /* absolute time in seconds from 1970 */ } nspr_abstime_v10_t; #define nspr_abstime_v10_s sizeof(nspr_abstime_v10_t) /* NSPR_ABSTIME_V20 and NSPR_SYSTARTIME_V20 structure */ typedef struct nspr_abstime_v20 { NSPR_HEADER_V20(abs); /* short performance header */ guint8 abs_RelTime[2]; /* relative time is ms from last time */ guint8 abs_Time[4]; /* absolute time in seconds from 1970 */ } nspr_abstime_v20_t; #define nspr_abstime_v20_s sizeof(nspr_abstime_v20_t) /* full packet trace structure */ typedef struct nspr_pktracefull_v10 { nspr_headerdev_v10_t phd; /* performance header */ guint8 fp_RelTimeHr[4]; /* High resolution relative time */ guint8 fp_Data[1]; /* packet data starts here */ } nspr_pktracefull_v10_t; #define nspr_pktracefull_v10_s (nspr_hdev_v10_s + 4) /* new full packet trace structure v20 */ typedef struct nspr_pktracefull_v20 { NSPR_HEADER3B_V20(fp); /* long performance header */ guint8 fp_DevNo; /* Network Device (NIC) number */ guint8 fp_RelTimeHr[4]; /* High resolution relative time */ guint8 fp_Data[4]; /* packet data starts here */ } nspr_pktracefull_v20_t; #define nspr_pktracefull_v20_s (sizeof(nspr_pktracefull_v20_t) - 4) /* new full packet trace structure v21 */ typedef struct nspr_pktracefull_v21 { NSPR_HEADER3B_V21(fp); /* long performance header */ guint8 fp_DevNo; /* Network Device (NIC) number */ guint8 fp_RelTimeHr[4]; /* High resolution relative time */ guint8 fp_PcbDevNo[4]; /* PCB devno */ guint8 fp_lPcbDevNo[4]; /* link PCB devno */ guint8 fp_Data[4]; /* packet data starts here */ } nspr_pktracefull_v21_t; #define nspr_pktracefull_v21_s (sizeof(nspr_pktracefull_v21_t) - 4) /* new full packet trace structure v22 */ typedef struct nspr_pktracefull_v22 { NSPR_HEADER3B_V22(fp); /* long performance header */ guint8 fp_DevNo; /* Network Device (NIC) number */ guint8 fp_RelTimeHr[4]; /* High resolution relative time */ guint8 fp_PcbDevNo[4]; /* PCB devno */ guint8 fp_lPcbDevNo[4]; /* link PCB devno */ guint8 fp_VlanTag[2]; /* vlan tag */ guint8 fp_Data[2]; /* packet data starts here */ } nspr_pktracefull_v22_t; #define nspr_pktracefull_v22_s (sizeof(nspr_pktracefull_v22_t) - 2) typedef struct nspr_pktracefull_v23 { NSPR_HEADER3B_V22(fp); /* long performance header */ guint8 fp_DevNo; /* Network Device (NIC) number */ guint8 fp_AbsTimeHr[8]; /* High resolution absolute time */ guint8 fp_PcbDevNo[4]; /* PCB devno */ guint8 fp_lPcbDevNo[4]; /* link PCB devno */ guint8 fp_VlanTag[2]; /* vlan tag */ guint8 fp_Coreid[2]; /* coreid of the packet */ guint8 fp_Data[2]; /* packet data starts here */ } nspr_pktracefull_v23_t; #define nspr_pktracefull_v23_s (sizeof(nspr_pktracefull_v23_t) - 2) /* New full packet trace structure v24 for cluster tracing */ typedef struct nspr_pktracefull_v24 { NSPR_HEADER3B_V22(fp); /* long performance header */ guint8 fp_DevNo; /* Network Device (NIC) number */ guint8 fp_AbsTimeHr[8]; /*High resolution absolute time in nanosec*/ guint8 fp_PcbDevNo[4]; /* PCB devno */ guint8 fp_lPcbDevNo[4]; /* link PCB devno */ guint8 fp_VlanTag[2]; /* vlan tag */ guint8 fp_Coreid[2]; /* coreid of the packet */ guint8 fp_srcNodeId[2]; /* source node # */ guint8 fp_destNodeId[2]; /* destination node # */ guint8 fp_clFlags; /* cluster flags */ guint8 fp_Data[2]; /* packet data starts here */ } nspr_pktracefull_v24_t; #define nspr_pktracefull_v24_s (sizeof(nspr_pktracefull_v24_t) - 4) /* partial packet trace structure */ typedef struct nspr_pktracepart_v10 { nspr_headerdev_v10_t phd; /* performance header */ guint8 pp_RelTimeHr[4]; /* High resolution relative time */ guint8 pp_PktSizeOrg[2]; /* Original packet size */ guint8 pp_PktOffset[2]; /* starting offset in packet */ guint8 pp_Data[1]; /* packet data starts here */ } nspr_pktracepart_v10_t; #define nspr_pktracepart_v10_s (nspr_pktracefull_v10_s + 4) /* new partial packet trace structure */ typedef struct nspr_pktracepart_v20 { NSPR_HEADER3B_V20(pp); /* long performance header */ guint8 pp_DevNo; /* Network Device (NIC) number */ guint8 pp_RelTimeHr[4]; /* High resolution relative time */ guint8 pp_PktSizeOrg[2]; /* Original packet size */ guint8 pp_PktOffset[2]; /* starting offset in packet */ guint8 pp_Data[4]; /* packet data starts here */ } nspr_pktracepart_v20_t; #define nspr_pktracepart_v20_s (sizeof(nspr_pktracepart_v20_t) -4) /* new partial packet trace structure */ typedef struct nspr_pktracepart_v21 { NSPR_HEADER3B_V21(pp); /* long performance header */ guint8 pp_DevNo; /* Network Device (NIC) number */ guint8 pp_RelTimeHr[4]; /* High resolution relative time */ guint8 pp_PktSizeOrg[2]; /* Original packet size */ guint8 pp_PktOffset[2]; /* starting offset in packet */ guint8 pp_PcbDevNo[4]; /* PCB devno */ guint8 pp_lPcbDevNo[4]; /* link PCB devno */ guint8 pp_Data[4]; /* packet data starts here */ } nspr_pktracepart_v21_t; #define nspr_pktracepart_v21_s (sizeof(nspr_pktracepart_v21_t) -4) /* new partial packet trace structure v22 */ typedef struct nspr_pktracepart_v22 { NSPR_HEADER3B_V22(pp); /* long performance header */ guint8 pp_DevNo; /* Network Device (NIC) number */ guint8 pp_RelTimeHr[4]; /* High resolution relative time */ guint8 pp_PktSizeOrg[2]; /* Original packet size */ guint8 pp_PktOffset[2]; /* starting offset in packet */ guint8 pp_PcbDevNo[4]; /* PCB devno */ guint8 pp_lPcbDevNo[4]; /* link PCB devno */ guint8 pp_VlanTag[2]; /* Vlan Tag */ guint8 pp_Data[2]; /* packet data starts here */ } nspr_pktracepart_v22_t; #define nspr_pktracepart_v22_s (sizeof(nspr_pktracepart_v22_t) -2) typedef struct nspr_pktracepart_v23 { NSPR_HEADER3B_V22(pp); /* long performance header */ guint8 pp_DevNo; /* Network Device (NIC) number */ guint8 pp_AbsTimeHr[8]; /* High resolution absolute time */ guint8 pp_PktSizeOrg[2]; /* Original packet size */ guint8 pp_PktOffset[2]; /* starting offset in packet */ guint8 pp_PcbDevNo[4]; /* PCB devno */ guint8 pp_lPcbDevNo[4]; /* link PCB devno */ guint8 pp_VlanTag[2]; /* vlan tag */ guint8 pp_Coreid[2]; /* Coreid of the packet */ guint8 pp_Data[4]; /* packet data starts here */ } nspr_pktracepart_v23_t; #define nspr_pktracepart_v23_s (sizeof(nspr_pktracepart_v23_t) -4) /* New partial packet trace structure v24 for cluster tracing */ typedef struct nspr_pktracepart_v24 { NSPR_HEADER3B_V22(pp); /* long performance header */ guint8 pp_DevNo; /* Network Device (NIC) number */ guint8 pp_AbsTimeHr[8]; /*High resolution absolute time in nanosec*/ guint8 pp_PktSizeOrg[2]; /* Original packet size */ guint8 pp_PktOffset[2]; /* starting offset in packet */ guint8 pp_PcbDevNo[4]; /* PCB devno */ guint8 pp_lPcbDevNo[4]; /* link PCB devno */ guint8 pp_VlanTag[2]; /* vlan tag */ guint8 pp_Coreid[2]; /* Coreid of the packet */ guint8 pp_srcNodeId[2]; /* source node # */ guint8 pp_destNodeId[2]; /* destination node # */ guint8 pp_clFlags; /* cluster flags */ guint8 pp_Data[4]; /* packet data starts here */ } nspr_pktracepart_v24_t; #define nspr_pktracepart_v24_s (sizeof(nspr_pktracepart_v24_t) -4) #define myoffsetof(type,fieldname) (&(((type*)0)->fieldname)) #define __TNO(enumprefix,structprefix,structname,hdrname,structfieldname) \ guint8 enumprefix##_##hdrname##_offset = (guint8)GPOINTER_TO_INT(myoffsetof(nspr_##structname##_t,structprefix##_##structfieldname)); #define __TNL(enumprefix,structprefix,structname,hdrname,structfieldname) \ guint8 enumprefix##_##hdrname##_len = (guint8)sizeof(((nspr_##structname##_t*)0)->structprefix##_##structfieldname); #define __TNV1O(enumprefix,structprefix,structname,hdrname,structfieldname) \ guint8 enumprefix##_##hdrname##_offset = (guint8)GPOINTER_TO_INT(myoffsetof(nspr_##structname##_t,structfieldname)); #define __TNV1L(enumprefix,structprefix,structname,hdrname,structfieldname) \ guint8 enumprefix##_##hdrname##_len = (guint8)sizeof(((nspr_##structname##_t*)0)->structfieldname); #define TRACE_V10_REC_LEN_OFF(enumprefix,structprefix,structname) \ __TNV1O(enumprefix,structprefix,structname,dir,phd.ph_RecordType)\ __TNV1L(enumprefix,structprefix,structname,dir,phd.ph_RecordType)\ __TNV1O(enumprefix,structprefix,structname,nicno,phd.ph_DevNo)\ __TNV1L(enumprefix,structprefix,structname,nicno,phd.ph_DevNo)\ __TNO(enumprefix,structprefix,structname,eth,Data) #define TRACE_V20_REC_LEN_OFF(enumprefix,structprefix,structname) \ __TNO(enumprefix,structprefix,structname,dir,RecordType)\ __TNL(enumprefix,structprefix,structname,dir,RecordType)\ __TNO(enumprefix,structprefix,structname,nicno,DevNo)\ __TNL(enumprefix,structprefix,structname,nicno,DevNo)\ __TNO(enumprefix,structprefix,structname,eth,Data) #define TRACE_V21_REC_LEN_OFF(enumprefix,structprefix,structname) \ TRACE_V20_REC_LEN_OFF(enumprefix,structprefix,structname)\ __TNO(enumprefix,structprefix,structname,pcb,PcbDevNo)\ __TNO(enumprefix,structprefix,structname,l_pcb,lPcbDevNo) #define TRACE_V22_REC_LEN_OFF(enumprefix,structprefix,structname) \ TRACE_V21_REC_LEN_OFF(enumprefix,structprefix,structname)\ __TNO(enumprefix,structprefix,structname,vlantag,VlanTag) #define TRACE_V23_REC_LEN_OFF(enumprefix,structprefix,structname) \ TRACE_V22_REC_LEN_OFF(enumprefix,structprefix,structname)\ __TNO(enumprefix,structprefix,structname,coreid,Coreid) #define TRACE_V24_REC_LEN_OFF(enumprefix,structprefix,structname) \ TRACE_V23_REC_LEN_OFF(enumprefix,structprefix,structname)\ __TNO(enumprefix,structprefix,structname,srcnodeid,srcNodeId)\ __TNO(enumprefix,structprefix,structname,destnodeid,destNodeId)\ __TNO(enumprefix,structprefix,structname,clflags,clFlags) TRACE_V10_REC_LEN_OFF(v10_part,pp,pktracepart_v10) TRACE_V10_REC_LEN_OFF(v10_full,fp,pktracefull_v10) TRACE_V20_REC_LEN_OFF(v20_part,pp,pktracepart_v20) TRACE_V20_REC_LEN_OFF(v20_full,fp,pktracefull_v20) TRACE_V21_REC_LEN_OFF(v21_part,pp,pktracepart_v21) TRACE_V21_REC_LEN_OFF(v21_full,fp,pktracefull_v21) TRACE_V22_REC_LEN_OFF(v22_part,pp,pktracepart_v22) TRACE_V22_REC_LEN_OFF(v22_full,fp,pktracefull_v22) TRACE_V23_REC_LEN_OFF(v23_part,pp,pktracepart_v23) TRACE_V23_REC_LEN_OFF(v23_full,fp,pktracefull_v23) TRACE_V24_REC_LEN_OFF(v24_part,pp,pktracepart_v24) TRACE_V24_REC_LEN_OFF(v24_full,fp,pktracefull_v24) #undef __TNV1O #undef __TNV1L #undef __TNO #undef __TNL #define ns_setabstime(nstrace, AbsoluteTime, RelativeTimems) \ do { \ (nstrace)->nspm_curtime = AbsoluteTime; \ (nstrace)->nspm_curtimemsec += RelativeTimems; \ (nstrace)->nspm_curtimelastmsec = nstrace->nspm_curtimemsec; \ } while(0) #define ns_setrelativetime(nstrace, RelativeTimems) \ do { \ guint32 rsec; \ (nstrace)->nspm_curtimemsec += RelativeTimems; \ rsec = (guint32)((nstrace)->nspm_curtimemsec - (nstrace)->nspm_curtimelastmsec)/1000; \ (nstrace)->nspm_curtime += rsec; \ (nstrace)->nspm_curtimelastmsec += rsec * 1000; \ } while (0) typedef struct { gchar *pnstrace_buf; gint32 nstrace_buf_offset; gint32 nstrace_buflen; /* Performance Monitor Time variables */ guint32 nspm_curtime; /* current time since 1970 */ guint64 nspm_curtimemsec; /* current time in mili second */ guint64 nspm_curtimelastmsec; /* nspm_curtime last update time in milisec */ guint64 nsg_creltime; guint64 file_size; } nstrace_t; guint32 nspm_signature_version(wtap*, gchar*, gint32); gboolean nstrace_read(wtap *wth, int *err, gchar **err_info, gint64 *data_offset); gboolean nstrace_read_v10(wtap *wth, int *err, gchar **err_info, gint64 *data_offset); gboolean nstrace_read_v20(wtap *wth, int *err, gchar **err_info, gint64 *data_offset); gboolean nstrace_seek_read(wtap *wth, gint64 seek_off, union wtap_pseudo_header *pseudo_header, guint8 *pd, int length, int *err, gchar **err_info); void nstrace_close(wtap *wth); void nstrace_sequential_close(wtap *wth); gboolean nstrace_set_start_time_v10(wtap *wth); gboolean nstrace_set_start_time_v20(wtap *wth); gboolean nstrace_set_start_time(wtap *wth); guint64 ns_hrtime2nsec(guint32 tm); static gboolean nstrace_dump(wtap_dumper *wdh, const struct wtap_pkthdr *phdr, const union wtap_pseudo_header *pseudo_header, const guint8 *pd, int *err); #define GET_READ_PAGE_SIZE(remaining_file_size) ((gint32)((remaining_file_size>NSPR_PAGESIZE)?NSPR_PAGESIZE:remaining_file_size)) guint64 ns_hrtime2nsec(guint32 tm) { guint32 val = tm & NSPR_HRTIME_MASKTM; switch(tm & NSPR_HRTIME_MASKFMT) { case NSPR_HRTIME_SEC: return (guint64)val*1000000000; case NSPR_HRTIME_MSEC: return (guint64)val*1000000; case NSPR_HRTIME_USEC: return (guint32)val*1000; case NSPR_HRTIME_NSEC: return val; } return tm; } /* ** Netscaler trace format open routines */ int nstrace_open(wtap *wth, int *err, gchar **err_info) { gchar *nstrace_buf; gint64 file_size; gint32 page_size; nstrace_t *nstrace; int bytes_read; errno = WTAP_ERR_CANT_READ; if ((file_size = wtap_file_size(wth, err)) == -1) return 0; nstrace_buf = g_malloc(NSPR_PAGESIZE); page_size = GET_READ_PAGE_SIZE(file_size); switch ((wth->file_type = nspm_signature_version(wth, nstrace_buf, page_size))) { case WTAP_FILE_NETSCALER_1_0: wth->file_encap = WTAP_ENCAP_NSTRACE_1_0; break; case WTAP_FILE_NETSCALER_2_0: wth->file_encap = WTAP_ENCAP_NSTRACE_2_0; break; default: *err = WTAP_ERR_UNSUPPORTED; *err_info = g_strdup_printf("nstrace: file type %d unsupported", wth->file_type); g_free(nstrace_buf); return 0; } if ((file_seek(wth->fh, 0, SEEK_SET, err)) == -1) { *err = file_error(wth->fh, err_info); g_free(nstrace_buf); return 0; } bytes_read = file_read(nstrace_buf, page_size, wth->fh); if (bytes_read != page_size) { *err = file_error(wth->fh, err_info); g_free(nstrace_buf); return 0; } wth->subtype_read = nstrace_read; wth->subtype_seek_read = nstrace_seek_read; wth->subtype_close = nstrace_close; nstrace = (nstrace_t *)g_malloc(sizeof(nstrace_t)); wth->priv = (void *)nstrace; nstrace->pnstrace_buf = nstrace_buf; nstrace->nstrace_buflen = page_size; nstrace->nstrace_buf_offset = 0; nstrace->nspm_curtime = 0; nstrace->nspm_curtimemsec = 0; nstrace->nspm_curtimelastmsec = 0; nstrace->nsg_creltime = 0; nstrace->file_size = file_size; /* Set the start time by looking for the abstime record */ if ((nstrace_set_start_time(wth)) == FALSE) { /* Reset the read pointer to start of the file. */ if ((file_seek(wth->fh, 0, SEEK_SET, err)) == -1) { *err = file_error(wth->fh, err_info); g_free(nstrace->pnstrace_buf); g_free(nstrace); return 0; } /* Read the first page of data */ bytes_read = file_read(nstrace_buf, page_size, wth->fh); if (bytes_read != page_size) { *err = file_error(wth->fh, err_info); g_free(nstrace->pnstrace_buf); g_free(nstrace); return 0; } /* reset the buffer offset */ nstrace->nstrace_buf_offset = 0; } wth->tsprecision = WTAP_FILE_TSPREC_NSEC; wth->phdr.ts.secs = nstrace->nspm_curtime; wth->phdr.ts.nsecs = 0; *err = 0; return 1; } #define nspm_signature_func(ver) \ static guint32 nspm_signature_isv##ver(gchar *sigp) {\ return strncmp(sigp,NSPR_SIGSTR_V##ver,(sizeof(NSPR_SIGSTR_V##ver)-1));\ } nspm_signature_func(10) nspm_signature_func(20) /* ** Check signature and return the version number of the signature. ** If not found, it returns 0. At the time of return from this function ** we might not be at the first page. So after a call to this function, there ** has to be a file seek to return to the start of the first page. */ guint32 nspm_signature_version(wtap *wth, gchar *nstrace_buf, gint32 len) { gchar *dp = nstrace_buf; int bytes_read; bytes_read = file_read(dp, len, wth->fh); if (bytes_read == len) { for ( ; len > (gint32)(MIN(sizeof(NSPR_SIGSTR_V10), sizeof(NSPR_SIGSTR_V20))); dp++, len--) { #define sigv10p ((nspr_signature_v10_t*)dp) if ((pletohs(&sigv10p->nsprRecordType) == NSPR_SIGNATURE_V10) && (pletohs(&sigv10p->nsprRecordSize) <= len) && ((gint32)sizeof(NSPR_SIGSTR_V10) <= len) && (!nspm_signature_isv10(sigv10p->sig_Signature))) return WTAP_FILE_NETSCALER_1_0; #undef sigv10p #define sigv20p ((nspr_signature_v20_t*)dp) if ((sigv20p->sig_RecordType == NSPR_SIGNATURE_V20) && (sigv20p->sig_RecordSize <= len) && ((gint32)sizeof(NSPR_SIGSTR_V20) <= len) && (!nspm_signature_isv20(sigv20p->sig_Signature))) return WTAP_FILE_NETSCALER_2_0; #undef sigv20p } } return 0; /* no version found */ } #define nspr_getv10recordtype(hdp) (pletohs(&hdp->nsprRecordType)) #define nspr_getv10recordsize(hdp) (pletohs(&hdp->nsprRecordSize)) #define nspr_getv20recordtype(hdp) (hdp->phd_RecordType) #define nspr_getv20recordsize(hdp) \ (((hdp)->phd_RecordSizeLow & NSPR_V20RECORDSIZE_2BYTES)? \ (((hdp)->phd_RecordSizeHigh * NSPR_V20RECORDSIZE_2BYTES)+ \ ((hdp)->phd_RecordSizeLow & ~NSPR_V20RECORDSIZE_2BYTES)) : \ (hdp)->phd_RecordSizeLow) #define nstrace_set_start_time_ver(ver) \ gboolean nstrace_set_start_time_v##ver(wtap *wth) \ {\ nstrace_t *nstrace = (nstrace_t *)wth->priv;\ gchar* nstrace_buf = nstrace->pnstrace_buf;\ gint32 nstrace_buf_offset = nstrace->nstrace_buf_offset;\ gint32 nstrace_buflen = nstrace->nstrace_buflen;\ int bytes_read;\ do\ {\ while (nstrace_buf_offset < nstrace_buflen)\ {\ nspr_hd_v##ver##_t *fp = (nspr_hd_v##ver##_t *) &nstrace_buf[nstrace_buf_offset];\ switch (nspr_getv##ver##recordtype(fp))\ {\ case NSPR_ABSTIME_V##ver:\ ns_setabstime(nstrace, pletohl(&((nspr_abstime_v##ver##_t *) fp)->abs_Time), pletohs(&((nspr_abstime_v##ver##_t *) fp)->abs_RelTime));\ nstrace->nstrace_buf_offset = nstrace_buf_offset + nspr_getv##ver##recordsize(fp);\ nstrace->nstrace_buflen = nstrace_buflen;\ return TRUE;\ case NSPR_UNUSEDSPACE_V10:\ nstrace_buf_offset = nstrace_buflen;\ break;\ default:\ nstrace_buf_offset += nspr_getv##ver##recordsize(fp);\ }\ }\ nstrace_buf_offset = 0;\ wth->data_offset += nstrace_buflen;\ nstrace_buflen = GET_READ_PAGE_SIZE((nstrace->file_size - wth->data_offset));\ }while((nstrace_buflen > 0) && (bytes_read = file_read(nstrace_buf, nstrace_buflen, wth->fh)) && bytes_read == nstrace_buflen); \ return FALSE;\ } nstrace_set_start_time_ver(10) nstrace_set_start_time_ver(20) #undef nspr_getv10recordtype #undef nspr_getv20recordtype #undef nspr_getv10recordsize /* ** Set the start time of the trace file. We look for the first ABSTIME record. We use that ** to set the start time. Apart from that we also make sure that we remember the position of ** the next record after the ABSTIME record. Inorder to report correct time values, all trace ** records before the ABSTIME record are ignored. */ gboolean nstrace_set_start_time(wtap *wth) { if (wth->file_type == WTAP_FILE_NETSCALER_1_0) return nstrace_set_start_time_v10(wth); else if (wth->file_type == WTAP_FILE_NETSCALER_2_0) return nstrace_set_start_time_v20(wth); return FALSE; } #define __TNO(enumprefix,structprefix,structname,hdrname,structfieldname) \ wth->pseudo_header.nstr.hdrname##_offset = enumprefix##_##hdrname##_offset; #define __TNL(enumprefix,structprefix,structname,hdrname,structfieldname) \ wth->pseudo_header.nstr.hdrname##_len = enumprefix##_##hdrname##_len; #define __TNV1O(enumprefix,structprefix,structname,hdrname,structfieldname) \ __TNO(enumprefix,structprefix,structname,hdrname,structfieldname) #define __TNV1L(enumprefix,structprefix,structname,hdrname,structfieldname) \ __TNL(enumprefix,structprefix,structname,hdrname,structfieldname) /* ** Netscaler trace format read routines. */ gboolean nstrace_read_v10(wtap *wth, int *err, gchar **err_info, gint64 *data_offset) { nstrace_t *nstrace = (nstrace_t *)wth->priv; guint64 nsg_creltime = nstrace->nsg_creltime; gchar *nstrace_buf = nstrace->pnstrace_buf; gint32 nstrace_buf_offset = nstrace->nstrace_buf_offset; gint32 nstrace_buflen = nstrace->nstrace_buflen; nspr_pktracefull_v10_t *fp; nspr_pktracepart_v10_t *pp; int bytes_read; *err = 0; *err_info = NULL; do { while ((nstrace_buf_offset < nstrace_buflen) && ((nstrace_buflen - nstrace_buf_offset) >= ((gint32)sizeof(fp->nsprRecordType)))) { fp = (nspr_pktracefull_v10_t *) &nstrace_buf[nstrace_buf_offset]; pp = (nspr_pktracepart_v10_t *) fp; switch (pletohs(&fp->nsprRecordType)) { case NSPR_PDPKTRACEFULLTX_V10: case NSPR_PDPKTRACEFULLTXB_V10: case NSPR_PDPKTRACEFULLRX_V10: wth->phdr.presence_flags = WTAP_HAS_TS; nsg_creltime += ns_hrtime2nsec(pletohl(&fp->fp_RelTimeHr)); wth->phdr.ts.secs = nstrace->nspm_curtime + (guint32) (nsg_creltime / 1000000000); wth->phdr.ts.nsecs = (guint32) (nsg_creltime % 1000000000); wth->phdr.len = pletohs(&fp->nsprRecordSize); wth->phdr.caplen = wth->phdr.len; TRACE_V10_REC_LEN_OFF(v10_full,fp,pktracefull_v10); buffer_assure_space(wth->frame_buffer, wth->phdr.caplen); memcpy(buffer_start_ptr(wth->frame_buffer), fp, wth->phdr.caplen); *data_offset = wth->data_offset + nstrace_buf_offset; nstrace->nstrace_buf_offset = nstrace_buf_offset + wth->phdr.len; nstrace->nstrace_buflen = nstrace_buflen; nstrace->nsg_creltime = nsg_creltime; return TRUE; case NSPR_PDPKTRACEPARTTX_V10: case NSPR_PDPKTRACEPARTTXB_V10: case NSPR_PDPKTRACEPARTRX_V10: wth->phdr.presence_flags = WTAP_HAS_TS|WTAP_HAS_CAP_LEN; nsg_creltime += ns_hrtime2nsec(pletohl(&pp->pp_RelTimeHr)); wth->phdr.ts.secs = nstrace->nspm_curtime + (guint32) (nsg_creltime / 1000000000); wth->phdr.ts.nsecs = (guint32) (nsg_creltime % 1000000000); wth->phdr.len = pletohs(&pp->pp_PktSizeOrg) + nspr_pktracepart_v10_s; wth->phdr.caplen = pletohs(&pp->nsprRecordSize); TRACE_V10_REC_LEN_OFF(v10_part,pp,pktracepart_v10); buffer_assure_space(wth->frame_buffer, wth->phdr.caplen); memcpy(buffer_start_ptr(wth->frame_buffer), pp, wth->phdr.caplen); *data_offset = wth->data_offset + nstrace_buf_offset; nstrace->nstrace_buf_offset = nstrace_buf_offset + wth->phdr.caplen; nstrace->nsg_creltime = nsg_creltime; nstrace->nstrace_buflen = nstrace_buflen; return TRUE; case NSPR_ABSTIME_V10: ns_setabstime(nstrace, pletohl(((nspr_abstime_v10_t *) fp)->abs_Time), pletohl(&((nspr_abstime_v10_t *) fp)->abs_RelTime)); nstrace_buf_offset += pletohs(&fp->nsprRecordSize); break; case NSPR_RELTIME_V10: ns_setrelativetime(nstrace, pletohl(((nspr_abstime_v10_t *) fp)->abs_RelTime)); nstrace_buf_offset += pletohs(&fp->nsprRecordSize); break; case NSPR_UNUSEDSPACE_V10: nstrace_buf_offset = nstrace_buflen; break; default: nstrace_buf_offset += pletohs(&fp->nsprRecordSize); break; } } nstrace_buf_offset = 0; wth->data_offset += nstrace_buflen; nstrace_buflen = GET_READ_PAGE_SIZE((nstrace->file_size - wth->data_offset)); }while((nstrace_buflen > 0) && (bytes_read = file_read(nstrace_buf, nstrace_buflen, wth->fh)) && (bytes_read == nstrace_buflen)); return FALSE; } #define TIMEDEFV20(fp,type) \ do {\ wth->phdr.presence_flags |= WTAP_HAS_TS;\ nsg_creltime += ns_hrtime2nsec(pletohl(fp->type##_RelTimeHr));\ wth->phdr.ts.secs = nstrace->nspm_curtime + (guint32) (nsg_creltime / 1000000000);\ wth->phdr.ts.nsecs = (guint32) (nsg_creltime % 1000000000);\ }while(0) #define TIMEDEFV23(fp,type) \ do {\ wth->phdr.presence_flags |= WTAP_HAS_TS;\ /* access _AbsTimeHr as a 64bit value */\ nsg_creltime = pletohll(fp->type##_AbsTimeHr);\ wth->phdr.ts.secs = (guint32) (nsg_creltime / 1000000000);\ wth->phdr.ts.nsecs = (guint32) (nsg_creltime % 1000000000);\ }while(0) #define TIMEDEFV21(fp,type) TIMEDEFV20(fp,type) #define TIMEDEFV22(fp,type) TIMEDEFV20(fp,type) #define TIMEDEFV24(fp,type) TIMEDEFV23(fp,type) #define PPSIZEDEFV20(pp,ver) \ do {\ wth->phdr.presence_flags |= WTAP_HAS_CAP_LEN;\ wth->phdr.len = pletohs(&pp->pp_PktSizeOrg) + nspr_pktracepart_v##ver##_s;\ wth->phdr.caplen = nspr_getv20recordsize((nspr_hd_v20_t *)pp);\ }while(0) #define PPSIZEDEFV21(pp,ver) PPSIZEDEFV20(pp,ver) #define PPSIZEDEFV22(pp,ver) PPSIZEDEFV20(pp,ver) #define PPSIZEDEFV23(pp,ver) PPSIZEDEFV20(pp,ver) #define PPSIZEDEFV24(pp,ver) PPSIZEDEFV20(pp,ver) #define FPSIZEDEFV20(fp,ver)\ do {\ wth->phdr.len = nspr_getv20recordsize((nspr_hd_v20_t *)fp);\ wth->phdr.caplen = wth->phdr.len;\ }while(0) #define FPSIZEDEFV21(pp,ver) FPSIZEDEFV20(fp,ver) #define FPSIZEDEFV22(pp,ver) FPSIZEDEFV20(fp,ver) #define FPSIZEDEFV23(pp,ver) FPSIZEDEFV20(fp,ver) #define FPSIZEDEFV24(pp,ver) FPSIZEDEFV20(fp,ver) #define PACKET_DESCRIBE(FPTIMEDEF,SIZEDEF,ver,enumprefix,type,structname,TYPE)\ do {\ nspr_##structname##_t *fp= (nspr_##structname##_t*)&nstrace_buf[nstrace_buf_offset];\ TIMEDEFV##ver(fp,type);\ SIZEDEF##ver(fp,ver);\ TRACE_V##ver##_REC_LEN_OFF(enumprefix,type,structname);\ buffer_assure_space(wth->frame_buffer, wth->phdr.caplen);\ memcpy(buffer_start_ptr(wth->frame_buffer), fp, wth->phdr.caplen);\ *data_offset = wth->data_offset + nstrace_buf_offset;\ nstrace->nstrace_buf_offset = nstrace_buf_offset + nspr_getv20recordsize((nspr_hd_v20_t *)fp);\ nstrace->nstrace_buflen = nstrace_buflen;\ nstrace->nsg_creltime = nsg_creltime;\ wth->pseudo_header.nstr.rec_type = NSPR_HEADER_VERSION##TYPE;\ return TRUE;\ }while(0) gboolean nstrace_read_v20(wtap *wth, int *err, gchar **err_info, gint64 *data_offset) { nstrace_t *nstrace = (nstrace_t *)wth->priv; guint64 nsg_creltime = nstrace->nsg_creltime; gchar *nstrace_buf = nstrace->pnstrace_buf; gint32 nstrace_buf_offset = nstrace->nstrace_buf_offset; gint32 nstrace_buflen = nstrace->nstrace_buflen; nspr_pktracefull_v20_t *fp20; nspr_pktracefull_v21_t *fp21; int bytes_read; *err = 0; *err_info = NULL; do { while ((nstrace_buf_offset < nstrace_buflen) && ((nstrace_buflen - nstrace_buf_offset) >= ((gint32)sizeof(fp21->fp_RecordType)))) { fp21 = (nspr_pktracefull_v21_t *) &nstrace_buf[nstrace_buf_offset]; switch (fp21->fp_RecordType) { #define GENERATE_CASE(type,acttype) \ case NSPR_PDPKTRACEFULLTX_V##type:\ case NSPR_PDPKTRACEFULLTXB_V##type:\ case NSPR_PDPKTRACEFULLRX_V##type:\ PACKET_DESCRIBE(TIMEDEF,FPSIZEDEFV,type,v##type##_full,fp,pktracefull_v##type,acttype); #define GENERATE_CASE_V24(type,acttype) \ case NSPR_PDPKTRACEFULLTX_V##type:\ case NSPR_PDPKTRACEFULLTXB_V##type:\ case NSPR_PDPKTRACEFULLRX_V##type:\ case NSPR_PDPKTRACEFULLNEWRX_V##type:\ PACKET_DESCRIBE(TIMEDEF,FPSIZEDEFV,type,v##type##_full,fp,pktracefull_v##type,acttype); GENERATE_CASE_V24(24,204); GENERATE_CASE(23,203); GENERATE_CASE(22,202); GENERATE_CASE(21,201); GENERATE_CASE(20,200); #undef GENERATE_CASE #undef GENERATE_CASE_V24 #define GENERATE_CASE(type,acttype) \ case NSPR_PDPKTRACEPARTTX_V##type:\ case NSPR_PDPKTRACEPARTTXB_V##type:\ case NSPR_PDPKTRACEPARTRX_V##type:\ PACKET_DESCRIBE(TIMEDEF,PPSIZEDEFV,type,v##type##_part,pp,pktracepart_v##type,acttype); #define GENERATE_CASE_V24(type,acttype) \ case NSPR_PDPKTRACEPARTTX_V##type:\ case NSPR_PDPKTRACEPARTTXB_V##type:\ case NSPR_PDPKTRACEPARTRX_V##type:\ case NSPR_PDPKTRACEPARTNEWRX_V##type:\ PACKET_DESCRIBE(TIMEDEF,PPSIZEDEFV,type,v##type##_part,pp,pktracepart_v##type,acttype); GENERATE_CASE_V24(24,204); GENERATE_CASE(23,203); GENERATE_CASE(22,202); GENERATE_CASE(21,201); GENERATE_CASE(20,200); #undef GENERATE_CASE #undef GENERATE_CASE_V24 case NSPR_ABSTIME_V20: { fp20 = (nspr_pktracefull_v20_t *) &nstrace_buf[nstrace_buf_offset]; nstrace_buf_offset += nspr_getv20recordsize((nspr_hd_v20_t *)fp20); ns_setabstime(nstrace, pletohl(&((nspr_abstime_v20_t *) fp20)->abs_Time), pletohs(&((nspr_abstime_v20_t *) fp20)->abs_RelTime)); break; } case NSPR_RELTIME_V20: { fp20 = (nspr_pktracefull_v20_t *) &nstrace_buf[nstrace_buf_offset]; ns_setrelativetime(nstrace, pletohs(&((nspr_abstime_v20_t *) fp20)->abs_RelTime)); nstrace_buf_offset += nspr_getv20recordsize((nspr_hd_v20_t *)fp20); break; } case NSPR_UNUSEDSPACE_V20: { if (nstrace_buf_offset >= NSPR_PAGESIZE/2) nstrace_buf_offset = nstrace_buflen; else nstrace_buf_offset = NSPR_PAGESIZE/2; break; } default: { fp20 = (nspr_pktracefull_v20_t *) &nstrace_buf[nstrace_buf_offset]; nstrace_buf_offset += nspr_getv20recordsize((nspr_hd_v20_t *)fp20); break; } } } nstrace_buf_offset = 0; wth->data_offset += nstrace_buflen; nstrace_buflen = GET_READ_PAGE_SIZE((nstrace->file_size - wth->data_offset)); }while((nstrace_buflen > 0) && (bytes_read = file_read(nstrace_buf, nstrace_buflen, wth->fh)) && (bytes_read == nstrace_buflen)); return FALSE; } #undef __TNO #undef __TNL #undef __TNV1O #undef __TNV1L gboolean nstrace_read(wtap *wth, int *err, gchar **err_info, gint64 *data_offset) { if (wth->file_type == WTAP_FILE_NETSCALER_1_0) return nstrace_read_v10(wth, err, err_info, data_offset); else if (wth->file_type == WTAP_FILE_NETSCALER_2_0) return nstrace_read_v20(wth, err, err_info, data_offset); return FALSE; } #define __TNO(enumprefix,structprefix,structname,hdrname,structfieldname) \ pseudo_header->nstr.hdrname##_offset = (guint8) enumprefix##_##hdrname##_offset; #define __TNL(enumprefix,structprefix,structname,hdrname,structfieldname) \ pseudo_header->nstr.hdrname##_len = (guint8) enumprefix##_##hdrname##_len; #define __TNV1O(enumprefix,structprefix,structname,hdrname,structfieldname) \ __TNO(enumprefix,structprefix,structname,hdrname,structfieldname) #define __TNV1L(enumprefix,structprefix,structname,hdrname,structfieldname) \ __TNL(enumprefix,structprefix,structname,hdrname,structfieldname) gboolean nstrace_seek_read(wtap *wth, gint64 seek_off, union wtap_pseudo_header *pseudo_header, guint8 *pd, int length, int *err, gchar **err_info) { int bytes_read; *err = 0; if (file_seek(wth->random_fh, seek_off, SEEK_SET, err) == -1) return FALSE; /* ** Read the packet data. */ bytes_read = file_read(pd, length, wth->random_fh); if (bytes_read != length) { *err = file_error(wth->random_fh, err_info); if (*err == 0) *err = WTAP_ERR_SHORT_READ; return FALSE; } if (wth->file_type == WTAP_FILE_NETSCALER_1_0) { #define GENERATE_CASE_FULL(type,acttype) \ case NSPR_PDPKTRACEFULLTX_V##type:\ case NSPR_PDPKTRACEFULLTXB_V##type:\ case NSPR_PDPKTRACEFULLRX_V##type:\ TRACE_V##type##_REC_LEN_OFF(v##type##_full,fp,pktracefull_v##type);\ pseudo_header->nstr.rec_type = NSPR_HEADER_VERSION##acttype;\ break;\ #define GENERATE_CASE_PART(type,acttype) \ case NSPR_PDPKTRACEPARTTX_V##type:\ case NSPR_PDPKTRACEPARTTXB_V##type:\ case NSPR_PDPKTRACEPARTRX_V##type:\ TRACE_V##type##_REC_LEN_OFF(v##type##_part,pp,pktracepart_v##type);\ pseudo_header->nstr.rec_type = NSPR_HEADER_VERSION##acttype;\ break;\ switch (pletohs(&(( nspr_header_v10_t*)pd)->ph_RecordType)) { GENERATE_CASE_FULL(10,100) GENERATE_CASE_PART(10,100) } } else if (wth->file_type == WTAP_FILE_NETSCALER_2_0) { #define GENERATE_CASE_FULL_V24(type,acttype) \ case NSPR_PDPKTRACEFULLTX_V##type:\ case NSPR_PDPKTRACEFULLTXB_V##type:\ case NSPR_PDPKTRACEFULLRX_V##type:\ case NSPR_PDPKTRACEFULLNEWRX_V##type:\ TRACE_V##type##_REC_LEN_OFF(v##type##_full,fp,pktracefull_v##type);\ pseudo_header->nstr.rec_type = NSPR_HEADER_VERSION##acttype;\ break;\ #define GENERATE_CASE_PART_V24(type,acttype) \ case NSPR_PDPKTRACEPARTTX_V##type:\ case NSPR_PDPKTRACEPARTTXB_V##type:\ case NSPR_PDPKTRACEPARTRX_V##type:\ case NSPR_PDPKTRACEPARTNEWRX_V##type:\ TRACE_V##type##_REC_LEN_OFF(v##type##_part,pp,pktracepart_v##type);\ pseudo_header->nstr.rec_type = NSPR_HEADER_VERSION##acttype;\ break;\ switch ((( nspr_hd_v20_t*)pd)->phd_RecordType) { GENERATE_CASE_FULL(20,200) GENERATE_CASE_PART(20,200) GENERATE_CASE_FULL(21,201) GENERATE_CASE_PART(21,201) GENERATE_CASE_FULL(22,202) GENERATE_CASE_PART(22,202) GENERATE_CASE_FULL(23,203) GENERATE_CASE_PART(23,203) GENERATE_CASE_FULL_V24(24,204) GENERATE_CASE_PART_V24(24,204) } } return TRUE; } #undef __TNL #undef __TNO #undef __TNV1L #undef __TNV1O /* ** Netscaler trace format close routines. */ void nstrace_close(wtap *wth) { nstrace_t *nstrace = (nstrace_t *)wth->priv; g_free(nstrace->pnstrace_buf); } typedef struct { guint16 page_offset; guint16 page_len; guint32 absrec_time; } nstrace_dump_t; /* Returns 0 if we could write the specified encapsulation type, ** an error indication otherwise. */ int nstrace_10_dump_can_write_encap(int encap) { if (encap == WTAP_ENCAP_NSTRACE_1_0) return 0; return WTAP_ERR_UNSUPPORTED_ENCAP; } /* Returns 0 if we could write the specified encapsulation type, ** an error indication otherwise. */ int nstrace_20_dump_can_write_encap(int encap) { if (encap == WTAP_ENCAP_NSTRACE_2_0) return 0; return WTAP_ERR_UNSUPPORTED_ENCAP; } /* Returns TRUE on success, FALSE on failure; sets "*err" to an error code on ** failure */ gboolean nstrace_dump_open(wtap_dumper *wdh, int *err _U_) { nstrace_dump_t *nstrace; wdh->subtype_write = nstrace_dump; nstrace = (nstrace_dump_t *)g_malloc(sizeof(nstrace_dump_t)); wdh->priv = (void *)nstrace; nstrace->page_offset = 0; nstrace->page_len = NSPR_PAGESIZE; nstrace->absrec_time = 0; return TRUE; } static gboolean nstrace_add_signature(wtap_dumper *wdh, int *err) { nstrace_dump_t *nstrace = (nstrace_dump_t *)wdh->priv; if (wdh->file_type == WTAP_FILE_NETSCALER_1_0) { guint16 val16b; nspr_signature_v10_t sig10; /* populate the record */ val16b = htoles(NSPR_SIGNATURE_V10); memcpy(sig10.phd.ph_RecordType, &val16b, sizeof sig10.phd.ph_RecordType); val16b = htoles(nspr_signature_v10_s); memcpy(sig10.phd.ph_RecordSize, &val16b, sizeof sig10.phd.ph_RecordSize); memset(sig10.sig_Signature, 0, NSPR_SIGSIZE_V10); g_strlcpy(sig10.sig_Signature, NSPR_SIGSTR_V10, NSPR_SIGSIZE_V10); /* Write the record into the file */ if (!wtap_dump_file_write(wdh, &sig10, nspr_signature_v10_s, err)) return FALSE; /* Move forward the page offset */ nstrace->page_offset += (guint16) nspr_signature_v10_s; } else if (wdh->file_type == WTAP_FILE_NETSCALER_2_0) { nspr_signature_v20_t sig20; sig20.sig_RecordType = NSPR_SIGNATURE_V20; sig20.sig_RecordSize = nspr_signature_v20_s; memcpy(sig20.sig_Signature, NSPR_SIGSTR_V20, sizeof(NSPR_SIGSTR_V20)); /* Write the record into the file */ if (!wtap_dump_file_write(wdh, &sig20, sig20.sig_RecordSize, err)) return FALSE; /* Move forward the page offset */ nstrace->page_offset += (guint16) sig20.sig_RecordSize; } else { g_assert_not_reached(); return FALSE; } return TRUE; } static gboolean nstrace_add_abstime(wtap_dumper *wdh, const struct wtap_pkthdr *phdr, const guint8 *pd, int *err) { nstrace_dump_t *nstrace = (nstrace_dump_t *)wdh->priv; guint64 nsg_creltime; if (wdh->file_type == WTAP_FILE_NETSCALER_1_0) { guint16 val16; guint32 reltime; guint64 abstime; nspr_abstime_v10_t abs10; /* populate the record */ val16 = htoles(NSPR_ABSTIME_V10); memcpy(abs10.phd.ph_RecordType, &val16, sizeof abs10.phd.ph_RecordType); val16 = htoles(nspr_abstime_v10_s); memcpy(abs10.phd.ph_RecordSize, &val16, sizeof abs10.phd.ph_RecordSize); memcpy(&reltime, ((const nspr_pktracefull_v10_t *)pd)->fp_RelTimeHr, sizeof reltime); nsg_creltime = ns_hrtime2nsec(reltime); memset(abs10.abs_RelTime, 0, sizeof abs10.abs_RelTime); abstime = htolel((guint32)phdr->ts.secs - (guint32)(nsg_creltime/1000000000)); memcpy(abs10.abs_Time, &abstime, sizeof abs10.abs_Time); /* Write the record into the file */ if (!wtap_dump_file_write(wdh, &abs10, nspr_abstime_v10_s, err)) return FALSE; /* Move forward the page offset */ nstrace->page_offset += nspr_abstime_v10_s; } else if (wdh->file_type == WTAP_FILE_NETSCALER_2_0) { guint32 reltime; guint64 abstime; nspr_abstime_v20_t abs20; abs20.abs_RecordType = NSPR_ABSTIME_V20; abs20.abs_RecordSize = nspr_abstime_v20_s; memcpy(&reltime, ((const nspr_pktracefull_v20_t *)pd)->fp_RelTimeHr, sizeof reltime); nsg_creltime = ns_hrtime2nsec(reltime); memset(abs20.abs_RelTime, 0, sizeof abs20.abs_RelTime); abstime = htolel((guint32)phdr->ts.secs - (guint32)(nsg_creltime/1000000000)); memcpy(abs20.abs_RelTime, &abstime, sizeof abs20.abs_RelTime); /* Write the record into the file */ if (!wtap_dump_file_write(wdh, &abs20, nspr_abstime_v20_s, err)) return FALSE; /* Move forward the page offset */ nstrace->page_offset += nspr_abstime_v20_s; } else { g_assert_not_reached(); return FALSE; } return TRUE; } /* Write a record for a packet to a dump file. Returns TRUE on success, FALSE on failure. */ static gboolean nstrace_dump(wtap_dumper *wdh, const struct wtap_pkthdr *phdr, const union wtap_pseudo_header *pseudo_header, const guint8 *pd, int *err) { nstrace_dump_t *nstrace = (nstrace_dump_t *)wdh->priv; if (nstrace->page_offset == 0) { /* Add the signature record and abs time record */ if (wdh->file_type == WTAP_FILE_NETSCALER_1_0) { if (!nstrace_add_signature(wdh, err) || !nstrace_add_abstime(wdh, phdr, pd, err)) return FALSE; } else if (wdh->file_type == WTAP_FILE_NETSCALER_2_0) { if (!nstrace_add_signature(wdh, err) || !nstrace_add_abstime(wdh, phdr, pd, err)) return FALSE; } else { g_assert_not_reached(); return FALSE; } } switch (pseudo_header->nstr.rec_type) { case NSPR_HEADER_VERSION100: if (wdh->file_type == WTAP_FILE_NETSCALER_1_0) { if (nstrace->page_offset + phdr->caplen >= nstrace->page_len) { /* Start on the next page */ if (fseek(wdh->fh, (nstrace->page_len - nstrace->page_offset), SEEK_CUR) == -1) { *err = errno; return FALSE; } nstrace->page_offset = 0; /* Possibly add signature and abstime records and increment offset */ if (!nstrace_add_signature(wdh, err)) return FALSE; } /* Write the actual record as is */ if (!wtap_dump_file_write(wdh, pd, phdr->caplen, err)) return FALSE; nstrace->page_offset += (guint16) phdr->caplen; } else if (wdh->file_type == WTAP_FILE_NETSCALER_2_0) { *err = WTAP_ERR_UNSUPPORTED_FILE_TYPE; return FALSE; } break; case NSPR_HEADER_VERSION200: case NSPR_HEADER_VERSION201: case NSPR_HEADER_VERSION202: case NSPR_HEADER_VERSION203: case NSPR_HEADER_VERSION204: if (wdh->file_type == WTAP_FILE_NETSCALER_1_0) { *err = WTAP_ERR_UNSUPPORTED_FILE_TYPE; return FALSE; } else if (wdh->file_type == WTAP_FILE_NETSCALER_2_0) { if (nstrace->page_offset + phdr->caplen >= nstrace->page_len) { /* Start on the next page */ if (fseek(wdh->fh, (nstrace->page_len - nstrace->page_offset), SEEK_CUR) == -1) { *err = errno; return FALSE; } nstrace->page_offset = 0; /* Possibly add signature and abstime records and increment offset */ if (!nstrace_add_signature(wdh, err)) return FALSE; } /* Write the actual record as is */ if (!wtap_dump_file_write(wdh, pd, phdr->caplen, err)) return FALSE; nstrace->page_offset += (guint16) phdr->caplen; } break; default: g_assert_not_reached(); return FALSE; } return TRUE; }