On 2019-10-29 4:17 a.m., Damien Le Moal wrote:
Bart,
On 2019/10/28 21:38, Bart Van Assche wrote:
On 10/28/19 3:57 AM, Damien Le Moal wrote:
struct scsi_cmnd cmd->req.resid_len which is returned and set
respectively by the helper functions scsi_get_resid() and
scsi_set_resid() is an unsigned int. Reflect this fact in the interface
of these helper functions.
[ ... ]
-static inline void scsi_set_resid(struct scsi_cmnd *cmd, int resid)
+static inline void scsi_set_resid(struct scsi_cmnd *cmd, unsigned int resid)
{
cmd->req.resid_len = resid;
}
-static inline int scsi_get_resid(struct scsi_cmnd *cmd)
+static inline unsigned int scsi_get_resid(struct scsi_cmnd *cmd)
{
return cmd->req.resid_len;
}
From the iSCSI RFC:
SCSI-Presented Data Transfer Length (SPDTL) is the term this document
uses (see Section 1.1 for definition) to represent the aggregate data
length that the target SCSI layer attempts to transfer using the
local iSCSI layer for a task. Expected Data Transfer Length (EDTL)
is the iSCSI term that represents the length of data that the iSCSI
layer expects to transfer for a task. EDTL is specified in the SCSI
Command PDU.
When SPDTL = EDTL for a task, the target iSCSI layer completes the
task with no residuals. Whenever SPDTL differs from EDTL for a task,
that task is said to have a residual.
If SPDTL > EDTL for a task, iSCSI Overflow MUST be signaled in the
SCSI Response PDU as specified in [RFC3720]. The Residual Count MUST
be set to the numerical value of (SPDTL - EDTL).
If SPDTL < EDTL for a task, iSCSI Underflow MUST be signaled in the
SCSI Response PDU as specified in [RFC3720]. The Residual Count MUST
be set to the numerical value of (EDTL - SPDTL).
Note that the Overflow and Underflow scenarios are independent of
Data-In and Data-Out. Either scenario is logically possible in
either direction of data transfer.
If the residual is changed from signed into unsigned, how is a SCSI LLD
expected to report the difference between residual overflow and residual
underflow to the SCSI core?
As mentioned in the commit message, cmd->req.resid_len where the resid
is stored is an unsigned int. And it has been an unsigned int forever as
far as I know.
If my memory serves, I put it in over 20 years ago, about the same time
as the sg v2 interface (struct sg_io_hdr) was implemented. And when I
put it in it was a (signed) int and this is why:
struct ccb_accept_targ3 {
.....
CAM_I32 cam_resid; /* Transfer residual length: 2's comp */
.....
};
[from cam3r03.pdf]
So it coped with both underflow and the less likely case of overflow.
Notice in:
struct sg_io_hdr {
.....
int resid; /* [o] dxfer_len - actual_transferred */
...
};
At the time the SCSI mid-level and the block layer didn't bother about
resid, only some LLDs which is where the sg driver picked it up from.
So some ignoramus changed it to unsigned since then, probably before
git strangled the kernel source tree.
So I think changing the interface to unsigned int makes sense in that
context. Also, unless I am reading this wrong, the above definition you
quote always lead to resid >= 0, so I do not see what problem you are
worried about. Could you elaborate your concerns please ?
Linux's internal representation is wrong and should be fixed to match
its exposed interface (struct sg_io_hdr) which predates the breakage.
Doug Gilbert