* Portions based on information retrieved from the RX definitions
* in Arla, the free AFS client at http://www.stacken.kth.se/project/arla/
* Portions based on information/specs retrieved from the OpenAFS sources at
- * www.openafs.org, Copyright IBM.
+ * www.openafs.org, Copyright IBM.
*
- * $Id: packet-afs-macros.h,v 1.16 2002/02/03 20:48:07 guy Exp $
+ * $Id: packet-afs-macros.h,v 1.23 2004/01/19 18:36:32 jmayer Exp $
*
* Ethereal - Network traffic analyzer
* By Gerald Combs <gerald@ethereal.com>
#define OUT_INT(field) \
proto_tree_add_int(tree, field, tvb, offset, sizeof(gint32), tvb_get_ntohl(tvb, offset)); \
offset += 4;
-
+
/* Output a unsigned integer, stored into field 'field'
- Assumes it is in network byte order, converts to host before using,
+ Assumes it is in network byte order, converts to host before using,
Note - does not increment offset, so can be used repeatedly for bitfields */
#define DISP_UINT(field) \
- proto_tree_add_uint(tree,field,tvb,offset,sizeof(guint32),tvb_get_ntohl(tvb, offset));
+ proto_tree_add_uint(tree,field,tvb,offset,sizeof(guint32),tvb_get_ntohl(tvb, offset));
/* Output an IPv4 address, stored into field 'field' */
#define OUT_IP(field) \
tvb_get_letohl(tvb, offset));\
offset += 4;
+/* Output a simple rx array */
+#define OUT_RXArray8(func) \
+ { \
+ unsigned int j,i; \
+ j = tvb_get_guint8(tvb, offset); \
+ offset += 1; \
+ for (i=0; i<j; i++) { \
+ func; \
+ } \
+ }
+
+/* Output a simple rx array */
+#define OUT_RXArray32(func) \
+ { \
+ unsigned int j,i; \
+ j = tvb_get_ntohl(tvb, offset); \
+ offset += sizeof(guint32); \
+ for (i=0; i<j; i++) { \
+ func; \
+ } \
+ }
+
/* Output a UNIX seconds/microseconds timestamp, after converting to an
nstime_t */
#define OUT_TIMESTAMP(field) \
offset += 8; \
}
-/* Output a UNIX seconds-only timestamp, after converting to an nstime_t */
-#define OUT_DATE(field) \
+/* Output a seconds-only time value, after converting to an nstime_t;
+ this can be an absolute time as a UNIX time-since-epoch, or a
+ relative time in seconds */
+#define OUT_TIMESECS(field) \
{ nstime_t ts; \
ts.secs = tvb_get_ntohl(tvb, offset); \
ts.nsecs = 0; \
offset += 4; \
}
+/* Output a rx style string, up to a maximum length first
+ 4 bytes - length, then char data */
+#define OUT_RXString(field) \
+ { guint32 i,len; \
+ char *tmp; \
+ const guint8 *p; \
+ i = tvb_get_ntohl(tvb, offset); \
+ offset += 4; \
+ p = tvb_get_ptr(tvb,offset,i); \
+ len = ((i+4-1)/4)*4; \
+ tmp = g_malloc(i+1); \
+ memcpy(tmp, p, i); \
+ tmp[i] = '\0'; \
+ proto_tree_add_string(tree, field, tvb, offset-4, len+4, \
+ (void *)tmp); \
+ g_free(tmp); \
+ offset += len; \
+ }
+
+/* Output a fixed length vectorized string (each char is a 32 bit int) */
+#define OUT_RXStringV(field, length) \
+ { char tmp[length+1]; \
+ int i,soff; \
+ soff = offset;\
+ for (i=0; i<length; i++)\
+ {\
+ tmp[i] = (char) tvb_get_ntohl(tvb, offset);\
+ offset += sizeof(guint32);\
+ }\
+ tmp[length] = '\0';\
+ proto_tree_add_string(tree, field, tvb, soff, length*sizeof(guint32), tmp);\
+ }
+
+
/* Output a callback */
#define OUT_FS_AFSCallBack() \
{ proto_tree *save, *ti; \
save = tree; \
tree = proto_item_add_subtree(ti, ett_afs_callback); \
OUT_UINT(hf_afs_fs_callback_version); \
- OUT_DATE(hf_afs_fs_callback_expires); \
+ OUT_TIMESECS(hf_afs_fs_callback_expires); \
OUT_UINT(hf_afs_fs_callback_type); \
tree = save; \
}
save = tree; \
tree = proto_item_add_subtree(ti, ett_afs_callback); \
OUT_UINT(hf_afs_cb_callback_version); \
- OUT_DATE(hf_afs_cb_callback_expires); \
+ OUT_TIMESECS(hf_afs_cb_callback_expires); \
OUT_UINT(hf_afs_cb_callback_type); \
tree = save; \
}
-
/* Output a File ID */
#define OUT_FS_AFSFid(label) \
{ proto_tree *save, *ti; \
sizeof(guint32), mask); \
save = tree; \
tree = proto_item_add_subtree(ti, ett_afs_status_mask); \
- proto_tree_add_uint(tree, hf_afs_fs_status_mask_setmodtime, \
+ proto_tree_add_boolean(tree, hf_afs_fs_status_mask_setmodtime, \
tvb,offset,sizeof(guint32), mask); \
- proto_tree_add_uint(tree, hf_afs_fs_status_mask_setowner, \
+ proto_tree_add_boolean(tree, hf_afs_fs_status_mask_setowner, \
tvb,offset,sizeof(guint32), mask); \
- proto_tree_add_uint(tree, hf_afs_fs_status_mask_setgroup, \
+ proto_tree_add_boolean(tree, hf_afs_fs_status_mask_setgroup, \
tvb,offset,sizeof(guint32), mask); \
- proto_tree_add_uint(tree, hf_afs_fs_status_mask_setmode, \
+ proto_tree_add_boolean(tree, hf_afs_fs_status_mask_setmode, \
tvb,offset,sizeof(guint32), mask); \
- proto_tree_add_uint(tree, hf_afs_fs_status_mask_setsegsize, \
+ proto_tree_add_boolean(tree, hf_afs_fs_status_mask_setsegsize, \
tvb,offset,sizeof(guint32), mask); \
- proto_tree_add_uint(tree, hf_afs_fs_status_mask_fsync, \
+ proto_tree_add_boolean(tree, hf_afs_fs_status_mask_fsync, \
tvb,offset,sizeof(guint32), mask); \
offset += 4; \
tree = save; \
sizeof(guint32), flags); \
save = tree; \
tree = proto_item_add_subtree(ti, ett_afs_vldb_flags); \
- proto_tree_add_uint(tree, hf_afs_vldb_flags_rwexists, \
+ proto_tree_add_boolean(tree, hf_afs_vldb_flags_rwexists, \
tvb,offset,sizeof(guint32), flags); \
- proto_tree_add_uint(tree, hf_afs_vldb_flags_roexists, \
+ proto_tree_add_boolean(tree, hf_afs_vldb_flags_roexists, \
tvb,offset,sizeof(guint32), flags); \
- proto_tree_add_uint(tree, hf_afs_vldb_flags_bkexists, \
+ proto_tree_add_boolean(tree, hf_afs_vldb_flags_bkexists, \
tvb,offset,sizeof(guint32), flags); \
- proto_tree_add_uint(tree, hf_afs_vldb_flags_dfsfileset, \
+ proto_tree_add_boolean(tree, hf_afs_vldb_flags_dfsfileset, \
tvb,offset,sizeof(guint32), flags); \
offset += 4; \
tree = save; \
OUT_UINT(hf_afs_cb_fid_uniqifier); \
tree = save; \
}
-
+
/* Output a StoreStatus */
#define OUT_FS_AFSStoreStatus(label) \
{ proto_tree *save, *ti; \
save = tree; \
tree = proto_item_add_subtree(ti, ett_afs_status); \
OUT_FS_STATUSMASK(); \
- OUT_DATE(hf_afs_fs_status_clientmodtime); \
+ OUT_TIMESECS(hf_afs_fs_status_clientmodtime); \
OUT_UINT(hf_afs_fs_status_owner); \
OUT_UINT(hf_afs_fs_status_group); \
OUT_UINT(hf_afs_fs_status_mode); \
OUT_UINT(hf_afs_fs_status_parentvnode); \
OUT_UINT(hf_afs_fs_status_parentunique); \
OUT_UINT(hf_afs_fs_status_segsize); \
- OUT_DATE(hf_afs_fs_status_clientmodtime); \
- OUT_DATE(hf_afs_fs_status_servermodtime); \
+ OUT_TIMESECS(hf_afs_fs_status_clientmodtime); \
+ OUT_TIMESECS(hf_afs_fs_status_servermodtime); \
OUT_UINT(hf_afs_fs_status_group); \
OUT_UINT(hf_afs_fs_status_synccounter); \
OUT_UINT(hf_afs_fs_status_dataversionhigh); \
"VolSync"); \
save = tree; \
tree = proto_item_add_subtree(ti, ett_afs_volsync); \
- OUT_DATE(hf_afs_fs_volsync_spare1); \
+ OUT_TIMESECS(hf_afs_fs_volsync_spare1); \
OUT_UINT(hf_afs_fs_volsync_spare2); \
OUT_UINT(hf_afs_fs_volsync_spare3); \
OUT_UINT(hf_afs_fs_volsync_spare4); \
/* Output a AFSCBFids */
#define OUT_FS_AFSCBFids() \
- { \
- guint32 j,i; \
- j = tvb_get_ntohl(tvb, offset); \
- offset += 4; \
- for (i=0; i<j; i++) { \
- OUT_FS_AFSFid("Target"); \
- } \
- }
+ OUT_RXArray32(OUT_FS_AFSFid("Target"));
/* Output a ViceIds */
#define OUT_FS_ViceIds() \
- { \
- unsigned int j,i; \
- j = tvb_get_guint8(tvb,offset); \
- offset += 1; \
- for (i=0; i<j; i++) { \
- OUT_UINT(hf_afs_fs_viceid); \
- } \
- }
+ OUT_RXArray8(OUT_UINT(hf_afs_fs_viceid));
/* Output a IPAddrs */
#define OUT_FS_IPAddrs() \
- { \
- unsigned int j,i; \
- j = tvb_get_guint8(tvb, offset); \
- offset += 1; \
- for (i=0; i<j; i++) { \
- OUT_IP(hf_afs_fs_ipaddr); \
- } \
- }
+ OUT_RXArray8(OUT_IP(hf_afs_fs_ipaddr));
/* Output a AFSCBs */
#define OUT_FS_AFSCBs() \
- { \
- guint32 j,i; \
- j = tvb_get_ntohl(tvb,offset); \
- offset += 4; \
- for (i=0; i<j; i++) { \
- OUT_FS_AFSCallBack(); \
- } \
- }
-
+ OUT_RXArray32(OUT_FS_AFSCallBack());
/* Output a AFSBulkStats */
#define OUT_FS_AFSBulkStats() \
- { \
- guint32 j,i; \
- j = tvb_get_ntohl(tvb,offset); \
- offset += 4; \
- for (i=0; i<j; i++) { \
- OUT_FS_AFSFetchStatus("Status"); \
- } \
- }
+ OUT_RXArray32(OUT_FS_AFSFetchStatus("Status"));
/* Output a AFSFetchVolumeStatus */
#define OUT_FS_AFSFetchVolumeStatus()
#define OUT_FS_VolumeInfo()
/* Output an AFS Token - might just be bytes though */
-#define OUT_FS_AFSTOKEN() VECOUT(hf_afs_fs_token, 1024)
+#define OUT_FS_AFSTOKEN() OUT_RXStringV(hf_afs_fs_token, 1024)
/* Output a AFS acl */
#define ACLOUT(who, positive, acl, bytes) \
proto_tree_add_string(tree,hf_afs_fs_acl_entity, tvb,offset,strlen(who), who);\
tmpoffset = offset + strlen(who) + 1; \
acllen = bytes - strlen(who) - 1; \
- proto_tree_add_uint(tree,hf_afs_fs_acl_r, tvb,tmpoffset,acllen,acl);\
- proto_tree_add_uint(tree,hf_afs_fs_acl_l, tvb,tmpoffset,acllen,acl);\
- proto_tree_add_uint(tree,hf_afs_fs_acl_i, tvb,tmpoffset,acllen,acl);\
- proto_tree_add_uint(tree,hf_afs_fs_acl_d, tvb,tmpoffset,acllen,acl);\
- proto_tree_add_uint(tree,hf_afs_fs_acl_w, tvb,tmpoffset,acllen,acl);\
- proto_tree_add_uint(tree,hf_afs_fs_acl_k, tvb,tmpoffset,acllen,acl);\
- proto_tree_add_uint(tree,hf_afs_fs_acl_a, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_r, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_l, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_i, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_d, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_w, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_k, tvb,tmpoffset,acllen,acl);\
+ proto_tree_add_boolean(tree,hf_afs_fs_acl_a, tvb,tmpoffset,acllen,acl);\
tree = save; \
}
+/* Output a UUID */
+#define OUT_UUID(x) \
+ OUT_BYTES(x, 11*sizeof(guint32));
+#define SKIP_UUID() \
+ SKIP(11*sizeof(guint32));
+
+
+/* Output a bulkaddr */
+#define OUT_VLDB_BulkAddr() \
+ OUT_RXArray32(OUT_IP(hf_afs_vldb_serverip));
+
/* output a bozo_key */
#define OUT_BOS_KEY() \
OUT_BYTES(hf_afs_bos_key, 8);
#define OUT_UBIK_DebugOld() \
{ \
- OUT_DATE(hf_afs_ubik_now); \
- OUT_DATE(hf_afs_ubik_lastyestime); \
+ OUT_TIMESECS(hf_afs_ubik_now); \
+ OUT_TIMESECS(hf_afs_ubik_lastyestime); \
OUT_IP(hf_afs_ubik_lastyeshost); \
OUT_UINT(hf_afs_ubik_lastyesstate); \
- OUT_DATE(hf_afs_ubik_lastyesclaim); \
+ OUT_TIMESECS(hf_afs_ubik_lastyesclaim); \
OUT_IP(hf_afs_ubik_lowesthost); \
- OUT_DATE(hf_afs_ubik_lowesttime); \
+ OUT_TIMESECS(hf_afs_ubik_lowesttime); \
OUT_IP(hf_afs_ubik_synchost); \
- OUT_DATE(hf_afs_ubik_synctime); \
+ OUT_TIMESECS(hf_afs_ubik_synctime); \
OUT_UBIKVERSION("Sync Version"); \
OUT_UBIKVERSION("Sync TID"); \
OUT_UINT(hf_afs_ubik_amsyncsite); \
- OUT_DATE(hf_afs_ubik_syncsiteuntil); \
+ OUT_TIMESECS(hf_afs_ubik_syncsiteuntil); \
OUT_UINT(hf_afs_ubik_nservers); \
OUT_UINT(hf_afs_ubik_lockedpages); \
OUT_UINT(hf_afs_ubik_writelockedpages); \
OUT_UINT(hf_afs_ubik_recoverystate); \
OUT_UINT(hf_afs_ubik_currenttrans); \
OUT_UINT(hf_afs_ubik_writetrans); \
- OUT_DATE(hf_afs_ubik_epochtime); \
+ OUT_TIMESECS(hf_afs_ubik_epochtime); \
}
#define OUT_UBIK_SDebugOld() \
{ \
OUT_IP(hf_afs_ubik_addr); \
- OUT_DATE(hf_afs_ubik_lastvotetime); \
- OUT_DATE(hf_afs_ubik_lastbeaconsent); \
+ OUT_TIMESECS(hf_afs_ubik_lastvotetime); \
+ OUT_TIMESECS(hf_afs_ubik_lastbeaconsent); \
OUT_UINT(hf_afs_ubik_lastvote); \
OUT_UBIKVERSION("Remote Version"); \
OUT_UINT(hf_afs_ubik_currentdb); \
/* Skip a certain number of bytes */
#define SKIP(bytes) \
offset += bytes;
-
+
/* Raw data - to end of frame */
#define OUT_BYTES_ALL(field) OUT_BYTES(field, tvb_length_remaining(tvb,offset))
proto_tree_add_item(tree, field, tvb, offset, bytes, FALSE);\
offset += bytes;
-/* Output a rx style string, up to a maximum length first
- 4 bytes - length, then char data */
-#define OUT_STRING(field) \
- { int i,len; \
- char *tmp; \
- i = tvb_get_ntohl(tvb, offset); \
- offset += 4; \
- len = ((i+4-1)/4)*4; \
- tmp = g_malloc(i+1); \
- memcpy(tmp, tvb_get_ptr(tvb,offset,i), i); \
- tmp[i] = '\0'; \
- proto_tree_add_string(tree, field, tvb, offset-4, len+4, \
- (void *)tmp); \
- g_free(tmp); \
- offset += len; \
- }
-/* Output a fixed length vectorized string (each char is a 32 bit int) */
-#define VECOUT(field, length) \
- { char tmp[length+1]; \
- int i,soff; \
- soff = offset;\
- for (i=0; i<length; i++)\
- {\
- tmp[i] = (char) tvb_get_ntohl(tvb, offset);\
- offset += sizeof(guint32);\
- }\
- tmp[length] = '\0';\
- proto_tree_add_string(tree, field, tvb, soff, length*sizeof(guint32), tmp);\
- }
/* Skip the opcode */
#define SKIP_OPCODE() \
sizeof(guint32),counter); \
tree = save; \
}
+
+/* Output a kauth getticket request */
+#define OUT_KAUTH_GetTicket() \
+ { \
+ int len = 0; \
+ OUT_UINT(hf_afs_kauth_kvno); \
+ OUT_RXString(hf_afs_kauth_domain); \
+ len = tvb_get_ntohl(tvb, offset); \
+ offset += 4; \
+ OUT_BYTES(hf_afs_kauth_data, len); \
+ OUT_RXString(hf_afs_kauth_princ); \
+ OUT_RXString(hf_afs_kauth_realm); \
+ }
+