forked from Minki/linux
CIFS: Expand CurrentMid field
While in CIFS/SMB we have 16 bit mid, in SMB2 it is 64 bit. Convert the existing field to 64 bit and mask off higher bits for CIFS/SMB. Signed-off-by: Pavel Shilovsky <piastry@etersoft.ru>
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@ -282,7 +282,7 @@ struct TCP_Server_Info {
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vcnumbers */
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int capabilities; /* allow selective disabling of caps by smb sess */
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int timeAdj; /* Adjust for difference in server time zone in sec */
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__u16 CurrentMid; /* multiplex id - rotating counter */
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__u64 CurrentMid; /* multiplex id - rotating counter */
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char cryptkey[CIFS_CRYPTO_KEY_SIZE]; /* used by ntlm, ntlmv2 etc */
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/* 16th byte of RFC1001 workstation name is always null */
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char workstation_RFC1001_name[RFC1001_NAME_LEN_WITH_NULL];
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@ -115,7 +115,7 @@ extern int small_smb_init_no_tc(const int smb_cmd, const int wct,
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void **request_buf);
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extern int CIFS_SessSetup(unsigned int xid, struct cifs_ses *ses,
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const struct nls_table *nls_cp);
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extern __u16 GetNextMid(struct TCP_Server_Info *server);
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extern __u64 GetNextMid(struct TCP_Server_Info *server);
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extern struct timespec cifs_NTtimeToUnix(__le64 utc_nanoseconds_since_1601);
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extern u64 cifs_UnixTimeToNT(struct timespec);
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extern struct timespec cnvrtDosUnixTm(__le16 le_date, __le16 le_time,
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@ -213,54 +213,61 @@ cifs_small_buf_release(void *buf_to_free)
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}
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/*
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Find a free multiplex id (SMB mid). Otherwise there could be
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mid collisions which might cause problems, demultiplexing the
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wrong response to this request. Multiplex ids could collide if
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one of a series requests takes much longer than the others, or
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if a very large number of long lived requests (byte range
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locks or FindNotify requests) are pending. No more than
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64K-1 requests can be outstanding at one time. If no
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mids are available, return zero. A future optimization
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could make the combination of mids and uid the key we use
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to demultiplex on (rather than mid alone).
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In addition to the above check, the cifs demultiplex
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code already used the command code as a secondary
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check of the frame and if signing is negotiated the
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response would be discarded if the mid were the same
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but the signature was wrong. Since the mid is not put in the
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pending queue until later (when it is about to be dispatched)
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we do have to limit the number of outstanding requests
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to somewhat less than 64K-1 although it is hard to imagine
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so many threads being in the vfs at one time.
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*/
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__u16 GetNextMid(struct TCP_Server_Info *server)
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* Find a free multiplex id (SMB mid). Otherwise there could be
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* mid collisions which might cause problems, demultiplexing the
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* wrong response to this request. Multiplex ids could collide if
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* one of a series requests takes much longer than the others, or
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* if a very large number of long lived requests (byte range
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* locks or FindNotify requests) are pending. No more than
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* 64K-1 requests can be outstanding at one time. If no
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* mids are available, return zero. A future optimization
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* could make the combination of mids and uid the key we use
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* to demultiplex on (rather than mid alone).
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* In addition to the above check, the cifs demultiplex
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* code already used the command code as a secondary
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* check of the frame and if signing is negotiated the
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* response would be discarded if the mid were the same
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* but the signature was wrong. Since the mid is not put in the
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* pending queue until later (when it is about to be dispatched)
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* we do have to limit the number of outstanding requests
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* to somewhat less than 64K-1 although it is hard to imagine
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* so many threads being in the vfs at one time.
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*/
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__u64 GetNextMid(struct TCP_Server_Info *server)
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{
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__u16 mid = 0;
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__u16 last_mid;
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__u64 mid = 0;
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__u16 last_mid, cur_mid;
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bool collision;
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spin_lock(&GlobalMid_Lock);
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last_mid = server->CurrentMid; /* we do not want to loop forever */
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server->CurrentMid++;
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/* This nested loop looks more expensive than it is.
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In practice the list of pending requests is short,
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fewer than 50, and the mids are likely to be unique
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on the first pass through the loop unless some request
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takes longer than the 64 thousand requests before it
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(and it would also have to have been a request that
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did not time out) */
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while (server->CurrentMid != last_mid) {
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/* mid is 16 bit only for CIFS/SMB */
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cur_mid = (__u16)((server->CurrentMid) & 0xffff);
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/* we do not want to loop forever */
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last_mid = cur_mid;
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cur_mid++;
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/*
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* This nested loop looks more expensive than it is.
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* In practice the list of pending requests is short,
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* fewer than 50, and the mids are likely to be unique
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* on the first pass through the loop unless some request
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* takes longer than the 64 thousand requests before it
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* (and it would also have to have been a request that
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* did not time out).
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*/
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while (cur_mid != last_mid) {
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struct mid_q_entry *mid_entry;
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unsigned int num_mids;
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collision = false;
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if (server->CurrentMid == 0)
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server->CurrentMid++;
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if (cur_mid == 0)
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cur_mid++;
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num_mids = 0;
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list_for_each_entry(mid_entry, &server->pending_mid_q, qhead) {
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++num_mids;
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if (mid_entry->mid == server->CurrentMid &&
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if (mid_entry->mid == cur_mid &&
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mid_entry->midState == MID_REQUEST_SUBMITTED) {
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/* This mid is in use, try a different one */
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collision = true;
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@ -282,10 +289,11 @@ __u16 GetNextMid(struct TCP_Server_Info *server)
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server->tcpStatus = CifsNeedReconnect;
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if (!collision) {
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mid = server->CurrentMid;
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mid = (__u64)cur_mid;
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server->CurrentMid = mid;
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break;
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}
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server->CurrentMid++;
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cur_mid++;
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}
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spin_unlock(&GlobalMid_Lock);
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return mid;
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