esp-open-rtos/core/exception_unaligned_load.S.inc
Angus Gratton c7a7dfdf82 Remove the unaligned load handler to its own source file as it was getting quite complex
The downside here is needing to use #include so the 'beq' in the
exception vector can land on it directly, save an instruction.

There might be a better way to do this, but it seems hard to "curate"
the order that symbols appear in each section.
2015-09-15 11:34:21 +10:00

191 lines
5.2 KiB
PHP

/* Xtensa Exception unaligned load handler
Completes l8/l16 load instructions from Instruction address space,
that the architecture require to be 4 byte aligned word reads.
Called from either UserExceptionVector or DoubleExceptionVector
depending on where the exception happened.
Fast path (no branches) is for l8ui.
Part of esp-open-rtos
Copyright (C) Angus Gratton
BSD Licensed as described in the file LICENSE
*/
.text
.section .vecbase.text, "x"
.literal_position
/* "Fix" LoadStoreException exceptions that are l8/l16 from an Instruction region,
normal exception variant. */
UserExceptionLoadStoreHandler:
addi sp, sp, -0x18
s32i a2, sp, 0x08
rsr.epc1 a2
/* Inner UserLoadStoreExceptionHandler handlers. Works for both level1 & level 2 interrupt level.
*
* Called from level-specific handler above which sets up stack and loads epcX into a2.
*/
InnerLoadStoreExceptionHandler:
s32i a3, sp, 0x0c
s32i a4, sp, 0x10
s32i a5, sp, 0x14
rsr.sar a0 // save sar in a0
/* Examine the instruction we failed to execute (in a2) */
ssa8l a2 // sar is now correct shift for aligned read
movi a3, ~3
and a2, a2, a3 // a2 now 4-byte aligned address of instruction
l32i a3, a2, 0
l32i a4, a2, 4
src a2, a4, a3 // a2 now instruction that failed
/* Check if a2 matches l16ui, l16si or l8ui opcode */
movi a3, 0x00700F /* opcode mask */
and a3, a2, a3
movi a4, 0x001002 /* l16si or l16ui opcode after masking */
beq a3, a4, .Lcan_fix_16bit
bnei a3, 0x000002, .Lcant_fix /* no l8ui opcode, then can't fix */
movi a5, 0xFF
.Lcan_fix:
/* verified an 8- or 16-bit read
a2 holds instruction, a5 holds mask to apply to read value
*/
rsr.excvaddr a3 // read faulting address
ssa8l a3 /* sar is now shift to extract a3's byte */
movi a4, ~3
and a3, a3, a4 /* a3 now word aligned read address */
l32i a3, a3, 0 /* perform the actual read */
srl a3, a3 /* shift right correct distance */
and a4, a3, a5 /* mask off bits we need for an l8/l16 */
bbsi a5, 14, .Lmaybe_extend_sign
.Lafter_extend_sign:
/* a2 holds instruction, a4 holds the correctly read value */
extui a2, a2, 4, 4 /* a2 now destination register 0-15 */
/* test if a4 needs to be written directly to a register (ie not a working register) */
bgei a2, 6, .Lwrite_value_direct_reg
/* test if a4 needs to be written to a0 */
beqz a2, .Lwrite_value_a0_reg
/* otherwise, a4 can be written to a saved working register 'slot' on the stack */
addx4 a5, a2, sp
s32i a4, a5, 0
.Lafter_write_value:
/* test PS.INTLEVEL (1=User, 2=Double) to see which interrupt level we restore from
*/
rsr.ps a2
bbsi a2, 1, .Lincrement_PC_intlevel2
.Lincrement_PC_intlevel1:
rsr.epc1 a2
addi a3, a2, 0x3
wsr.epc1 a3
wsr.sar a0 // restore saved sar
rsr.excsave1 a0 // restore a0 saved in exception vector
.Lafter_increment_PC:
// Restore registers
l32i a2, sp, 0x08
l32i a3, sp, 0x0c
l32i a4, sp, 0x10
l32i a5, sp, 0x14
addi sp, sp, 0x18
rfe
.literal_position
/* "Fix" LoadStoreException exceptions that are l8/l16 from an Instruction region,
DoubleException exception variant (ie load happened in a level1 exception handler). */
DoubleExceptionLoadStoreHandler:
addi sp, sp, -0x18
s32i a2, sp, 0x08
rsr.epc2 a2
j InnerLoadStoreExceptionHandler
/* Load mask for an l16si/16ui instruction that needs loading
First test for a signed vs unsigned load.
a2 is the instruction, need to load a5 with the mask to use */
.Lcan_fix_16bit:
bbsi a2, 15, .Lcan_fix_16bit_signed
movi a5, 0xFFFF
j .Lcan_fix
.Lcan_fix_16bit_signed:
movi a5, 0x7FFF
j .Lcan_fix
/* not an opcode we can try to fix, so bomb out
TODO: the exception dump will have some wrong values in it */
.Lcant_fix:
call0 sdk_user_fatal_exception_handler
/* increment PC for a DoubleException */
.Lincrement_PC_intlevel2:
rsr.epc2 a2
addi a3, a2, 0x3
wsr.epc2 a3
wsr.sar a0 // restore saved sar
rsr.excsave2 a0 // restore a0 saved in exception vector
j .Lafter_increment_PC
.Lmaybe_extend_sign: /* apply 16-bit sign extension if necessary
a3 holds raw value, a4 holds masked */
bbsi a5, 15, .Lafter_extend_sign /* 16-bit unsigned, no sign extension */
bbci a3, 15, .Lafter_extend_sign /* sign bit not set, no sign extension */
movi a3, 0xFFFF0000
or a4, a3, a4 /* set 32-bit sign bits */
j .Lafter_extend_sign
.Lwrite_value_direct_reg:
/* Directly update register index a2, in range 6-15, using value in a4 */
addi a2, a2, -6
slli a2, a2, 3 /* offset from a6, x8 */
movi a3, .Ldirect_reg_jumptable
add a2, a2, a3
jx a2
.align 8
.Ldirect_reg_jumptable:
mov a6, a4
j .Lafter_write_value
.align 8
mov a7, a4
j .Lafter_write_value
.align 8
mov a8, a4
j .Lafter_write_value
.align 8
mov a9, a4
j .Lafter_write_value
.align 8
mov a10, a4
j .Lafter_write_value
.align 8
mov a11, a4
j .Lafter_write_value
.align 8
mov a12, a4
j .Lafter_write_value
.align 8
mov a13, a4
j .Lafter_write_value
.align 8
mov a14, a4
j .Lafter_write_value
.align 8
mov a15, a4
j .Lafter_write_value
.Lwrite_value_a0_reg:
/* a0 is saved in excsave1,so just update this with value
TODO: This won't work with interrupt level 2
*/
wsr.excsave1 a4
j .Lafter_write_value
/* End of InnerUserLoadStoreExceptionHandler */