- Explicitly load an empty initial state into FP registers when taking
the fault on the first FP instruction in a thread. Setting
SSTATE.FS to INITIAL is just a marker to let context switch restore
code know that it can load FP registers with zeroes instead of
memory loads. It does not imply that the hardware will reset all
registers to zero on first access. In addition, set the state to
CLEAN instead of INITIAL after the first FP instruction.
cpu_switch() doesn't do anything for INITIAL and only restores from
the pcb if the state is CLEAN. We could perhaps change cpu_switch
to call fpe_state_clear if the state was INITIAL and leave SSTATE.FS
set to INITIAL instead of CLEAN after the first FP instruction.
However, adding this complexity to cpu_switch() doesn't seem worth
the supposed gain.
- Only save the current FPU registers in fill_fpregs() if the request
is made to save the current thread's registers. Previously if a
debugger requested FP registers via ptrace() it was getting a copy
of the debugger's FP registers rather than the debugee's.
- Zero the entire FP register set structure returned for ptrace() if a
thread hasn't used FP registers rather than leaking garbage in the
fp_fcsr field.
- If a debugger writes FP registers via ptrace(), always mark the pcb
as having valid FP registers and set SSTATUS.FS_MASK to CLEAN so
that the registers will be restored when the debugged thread
resumes.
- Be more explicit about clearing the SSTATUS.FS field before setting
it to CLEAN on the first FP instruction trap.
Submitted by: br, markj
Approved by: re (rgrimes)
Sponsored by: DARPA
Differential Revision: https://reviews.freebsd.org/D17141
c3454df6bb