#mach: crisv10 crisv32 #sim(crisv10): --hw-device "/rv/trace? true" #sim(crisv32): --hw-device "/rv/trace? true" #output: /rv: WD\n #output: /rv: REG R 0xd0000032\n #output: /rv: := 0xabcdef01\n #output: /rv: IRQ 0x4\n #output: /rv: REG R 0xd0000036\n #output: /rv: := 0x76543210\n #output: /rv: REG R 0xd0000030\n #output: /rv: IRQ 0x0\n #output: /rv: IRQ 0x8\n #output: /rv: := 0xeeff4455\n #output: /rv: REG R 0xd0000034\n #output: /rv: := 0xdd001122\n #output: /rv: REG R 0xd0000038\n #output: /rv: := 0xaaeeff44\n #output: /rv: REG R 0xd000003c\n #output: /rv: := 0xff445511\n #output: pass\n # Test two successive ints; that flags are disabled when an interrupt # is taken, and then automatically (or by register restore) enabled at # return. #r W, #r r,a8832,abcdef01 #r I,4 #r r,a8836,76543210 #r I,0 #r I,8 #r r,a8830,eeff4455 #r r,a8834,dd001122 #r r,a8838,aaeeff44 #r r,a883c,ff445511 .lcomm dummy,4 .include "testutils.inc" start test_h_mem 0xabcdef01 0xd0000032 moveq -1,$r4 .if ..asm.arch.cris.v32 move irqvec1,$ebp .else move irqvec1,$ibr .endif ei test_h_mem 0,dummy ; Here after the first interrupt, or perhaps the second interrupt is ; taken directly; leave it optional. Anyway, the second interrupt ; should be taken no later than this branch. test_h_mem 0,dummy killme: fail irq0x33: .if ..asm.arch.cris.v32 ; Nothing needed to save flags - "shift" should happen, and back at rfe. .else ; The missing sim support for interrupt-excluding instructions is matched ; by the flaw that sim doesn't service interrupts in straight code. ; So, we can use a sequence that would work on actual hardware. move $dccr,$r5 di .endif test_h_mem 0x76543210 0xd0000036 test_h_mem 0xeeff4455 0xd0000030 test_h_mem 0xdd001122 0xd0000034 moveq -22,$r4 .if ..asm.arch.cris.v32 move irqvec2,$ebp rete rfe .else move irqvec2,$ibr reti move $r5,$dccr .endif pass irq0x34: test_h_mem 0xaaeeff44 0xd0000038 test_h_mem 0xff445511 0xd000003c cmpq -22,$r4 bne killme nop pass singlevec irqvec1,0x33,irq0x33 singlevec irqvec2,0x34,irq0x34