/* ppc64le (ELFv2) is not currently supported */ #define LIBCO_C #include "libco.h" #include "settings.h" #include #include #include #if LIBCO_MPROTECT #include #include #endif /* state format (offsets in 32-bit words) +0 pointer to swap code rest of function descriptor for entry function +8 PC +10 SP special registers GPRs FPRs VRs stack */ enum { state_size = 1024 }; enum { above_stack = 2048 }; enum { stack_align = 256 }; static thread_local cothread_t co_active_handle = 0; /* determine environment */ #define LIBCO_PPC64 (_ARCH_PPC64 || __PPC64__ || __ppc64__ || __powerpc64__) /* whether function calls are indirect through a descriptor, or are directly to function */ #ifndef LIBCO_PPCDESC #if !_CALL_SYSV && (_CALL_AIX || _CALL_AIXDESC || (LIBCO_PPC64 && (!defined(_CALL_ELF) || _CALL_ELF == 1))) #define LIBCO_PPCDESC 1 #endif #endif #ifdef LIBCO_MPROTECT alignas(4096) #else section(text) #endif static const uint32_t libco_ppc_code[1024] = { #if LIBCO_PPC64 0x7d000026, /* mfcr r8 */ 0xf8240028, /* std r1,40(r4) */ 0x7d2802a6, /* mflr r9 */ 0xf9c40048, /* std r14,72(r4) */ 0xf9e40050, /* std r15,80(r4) */ 0xfa040058, /* std r16,88(r4) */ 0xfa240060, /* std r17,96(r4) */ 0xfa440068, /* std r18,104(r4) */ 0xfa640070, /* std r19,112(r4) */ 0xfa840078, /* std r20,120(r4) */ 0xfaa40080, /* std r21,128(r4) */ 0xfac40088, /* std r22,136(r4) */ 0xfae40090, /* std r23,144(r4) */ 0xfb040098, /* std r24,152(r4) */ 0xfb2400a0, /* std r25,160(r4) */ 0xfb4400a8, /* std r26,168(r4) */ 0xfb6400b0, /* std r27,176(r4) */ 0xfb8400b8, /* std r28,184(r4) */ 0xfba400c0, /* std r29,192(r4) */ 0xfbc400c8, /* std r30,200(r4) */ 0xfbe400d0, /* std r31,208(r4) */ 0xf9240020, /* std r9,32(r4) */ 0xe8e30020, /* ld r7,32(r3) */ 0xe8230028, /* ld r1,40(r3) */ 0x48000009, /* bl 1 */ 0x7fe00008, /* trap */ 0x91040030, /*1:stw r8,48(r4) */ 0x80c30030, /* lwz r6,48(r3) */ 0x7ce903a6, /* mtctr r7 */ 0xe9c30048, /* ld r14,72(r3) */ 0xe9e30050, /* ld r15,80(r3) */ 0xea030058, /* ld r16,88(r3) */ 0xea230060, /* ld r17,96(r3) */ 0xea430068, /* ld r18,104(r3) */ 0xea630070, /* ld r19,112(r3) */ 0xea830078, /* ld r20,120(r3) */ 0xeaa30080, /* ld r21,128(r3) */ 0xeac30088, /* ld r22,136(r3) */ 0xeae30090, /* ld r23,144(r3) */ 0xeb030098, /* ld r24,152(r3) */ 0xeb2300a0, /* ld r25,160(r3) */ 0xeb4300a8, /* ld r26,168(r3) */ 0xeb6300b0, /* ld r27,176(r3) */ 0xeb8300b8, /* ld r28,184(r3) */ 0xeba300c0, /* ld r29,192(r3) */ 0xebc300c8, /* ld r30,200(r3) */ 0xebe300d0, /* ld r31,208(r3) */ 0x7ccff120, /* mtcr r6 */ #else 0x7d000026, /* mfcr r8 */ 0x90240028, /* stw r1,40(r4) */ 0x7d2802a6, /* mflr r9 */ 0x91a4003c, /* stw r13,60(r4) */ 0x91c40040, /* stw r14,64(r4) */ 0x91e40044, /* stw r15,68(r4) */ 0x92040048, /* stw r16,72(r4) */ 0x9224004c, /* stw r17,76(r4) */ 0x92440050, /* stw r18,80(r4) */ 0x92640054, /* stw r19,84(r4) */ 0x92840058, /* stw r20,88(r4) */ 0x92a4005c, /* stw r21,92(r4) */ 0x92c40060, /* stw r22,96(r4) */ 0x92e40064, /* stw r23,100(r4) */ 0x93040068, /* stw r24,104(r4) */ 0x9324006c, /* stw r25,108(r4) */ 0x93440070, /* stw r26,112(r4) */ 0x93640074, /* stw r27,116(r4) */ 0x93840078, /* stw r28,120(r4) */ 0x93a4007c, /* stw r29,124(r4) */ 0x93c40080, /* stw r30,128(r4) */ 0x93e40084, /* stw r31,132(r4) */ 0x91240020, /* stw r9,32(r4) */ 0x80e30020, /* lwz r7,32(r3) */ 0x80230028, /* lwz r1,40(r3) */ 0x48000009, /* bl 1 */ 0x7fe00008, /* trap */ 0x91040030, /*1:stw r8,48(r4) */ 0x80c30030, /* lwz r6,48(r3) */ 0x7ce903a6, /* mtctr r7 */ 0x81a3003c, /* lwz r13,60(r3) */ 0x81c30040, /* lwz r14,64(r3) */ 0x81e30044, /* lwz r15,68(r3) */ 0x82030048, /* lwz r16,72(r3) */ 0x8223004c, /* lwz r17,76(r3) */ 0x82430050, /* lwz r18,80(r3) */ 0x82630054, /* lwz r19,84(r3) */ 0x82830058, /* lwz r20,88(r3) */ 0x82a3005c, /* lwz r21,92(r3) */ 0x82c30060, /* lwz r22,96(r3) */ 0x82e30064, /* lwz r23,100(r3) */ 0x83030068, /* lwz r24,104(r3) */ 0x8323006c, /* lwz r25,108(r3) */ 0x83430070, /* lwz r26,112(r3) */ 0x83630074, /* lwz r27,116(r3) */ 0x83830078, /* lwz r28,120(r3) */ 0x83a3007c, /* lwz r29,124(r3) */ 0x83c30080, /* lwz r30,128(r3) */ 0x83e30084, /* lwz r31,132(r3) */ 0x7ccff120, /* mtcr r6 */ #endif #ifndef LIBCO_PPC_NOFP 0xd9c400e0, /* stfd f14,224(r4) */ 0xd9e400e8, /* stfd f15,232(r4) */ 0xda0400f0, /* stfd f16,240(r4) */ 0xda2400f8, /* stfd f17,248(r4) */ 0xda440100, /* stfd f18,256(r4) */ 0xda640108, /* stfd f19,264(r4) */ 0xda840110, /* stfd f20,272(r4) */ 0xdaa40118, /* stfd f21,280(r4) */ 0xdac40120, /* stfd f22,288(r4) */ 0xdae40128, /* stfd f23,296(r4) */ 0xdb040130, /* stfd f24,304(r4) */ 0xdb240138, /* stfd f25,312(r4) */ 0xdb440140, /* stfd f26,320(r4) */ 0xdb640148, /* stfd f27,328(r4) */ 0xdb840150, /* stfd f28,336(r4) */ 0xdba40158, /* stfd f29,344(r4) */ 0xdbc40160, /* stfd f30,352(r4) */ 0xdbe40168, /* stfd f31,360(r4) */ 0xc9c300e0, /* lfd f14,224(r3) */ 0xc9e300e8, /* lfd f15,232(r3) */ 0xca0300f0, /* lfd f16,240(r3) */ 0xca2300f8, /* lfd f17,248(r3) */ 0xca430100, /* lfd f18,256(r3) */ 0xca630108, /* lfd f19,264(r3) */ 0xca830110, /* lfd f20,272(r3) */ 0xcaa30118, /* lfd f21,280(r3) */ 0xcac30120, /* lfd f22,288(r3) */ 0xcae30128, /* lfd f23,296(r3) */ 0xcb030130, /* lfd f24,304(r3) */ 0xcb230138, /* lfd f25,312(r3) */ 0xcb430140, /* lfd f26,320(r3) */ 0xcb630148, /* lfd f27,328(r3) */ 0xcb830150, /* lfd f28,336(r3) */ 0xcba30158, /* lfd f29,344(r3) */ 0xcbc30160, /* lfd f30,352(r3) */ 0xcbe30168, /* lfd f31,360(r3) */ #endif #ifdef __ALTIVEC__ 0x7ca042a6, /* mfvrsave r5 */ 0x39040180, /* addi r8,r4,384 */ 0x39240190, /* addi r9,r4,400 */ 0x70a00fff, /* andi. r0,r5,4095 */ 0x90a40034, /* stw r5,52(r4) */ 0x4182005c, /* beq- 2 */ 0x7e8041ce, /* stvx v20,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7ea049ce, /* stvx v21,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7ec041ce, /* stvx v22,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7ee049ce, /* stvx v23,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7f0041ce, /* stvx v24,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7f2049ce, /* stvx v25,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7f4041ce, /* stvx v26,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7f6049ce, /* stvx v27,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7f8041ce, /* stvx v28,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7fa049ce, /* stvx v29,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7fc041ce, /* stvx v30,r0,r8 */ 0x7fe049ce, /* stvx v31,r0,r9 */ 0x80a30034, /*2:lwz r5,52(r3) */ 0x39030180, /* addi r8,r3,384 */ 0x39230190, /* addi r9,r3,400 */ 0x70a00fff, /* andi. r0,r5,4095 */ 0x7ca043a6, /* mtvrsave r5 */ 0x4d820420, /* beqctr */ 0x7e8040ce, /* lvx v20,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7ea048ce, /* lvx v21,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7ec040ce, /* lvx v22,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7ee048ce, /* lvx v23,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7f0040ce, /* lvx v24,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7f2048ce, /* lvx v25,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7f4040ce, /* lvx v26,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7f6048ce, /* lvx v27,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7f8040ce, /* lvx v28,r0,r8 */ 0x39080020, /* addi r8,r8,32 */ 0x7fa048ce, /* lvx v29,r0,r9 */ 0x39290020, /* addi r9,r9,32 */ 0x7fc040ce, /* lvx v30,r0,r8 */ 0x7fe048ce, /* lvx v31,r0,r9 */ #endif 0x4e800420, /* bctr */ }; #if LIBCO_PPCDESC /* function call goes through indirect descriptor */ #define CO_SWAP_ASM(x, y) ((void (*)(cothread_t, cothread_t))(uintptr_t)x)(x, y) #else /* function call goes directly to code */ #define CO_SWAP_ASM(x, y) ((void (*)(cothread_t, cothread_t))(uintptr_t)libco_ppc_code)(x, y) #endif static uint32_t* co_derive_(void* memory, unsigned size, uintptr_t entry) { (void)entry; uint32_t* t = (uint32_t*)memory; #if LIBCO_PPCDESC if(t) { memcpy(t, (void*)entry, sizeof(void*) * 3); /* copy entry's descriptor */ *(const void**)t = libco_ppc_code; /* set function pointer to swap routine */ } #endif return t; } cothread_t co_derive(void* memory, unsigned int size, void (*entry_)(void)) { uintptr_t entry = (uintptr_t)entry_; uint32_t* t = 0; /* be sure main thread was successfully allocated */ if(co_active()) { t = co_derive_(memory, size, entry); } if(t) { uintptr_t sp; int shift; /* save current registers into new thread, so that any special ones will have proper values when thread is begun */ CO_SWAP_ASM(t, t); #if LIBCO_PPCDESC entry = (uintptr_t)*(void**)entry; /* get real address */ #endif /* put stack near end of block, and align */ sp = (uintptr_t)t + size - above_stack; sp -= sp % stack_align; /* on PPC32, we save and restore GPRs as 32 bits. for PPC64, we save and restore them as 64 bits, regardless of the size the ABI uses. so, we manually write pointers at the proper size. we always save and restore at the same address, and since PPC is big-endian, we must put the low byte first on PPC32. */ /* if uintptr_t is 32 bits, >>32 is undefined behavior, so we do two shifts and don't have to care how many bits uintptr_t is. */ #if LIBCO_PPC64 shift = 16; #else shift = 0; #endif /* set up so entry will be called on next swap */ t[ 8] = (uint32_t)(entry >> shift >> shift); t[ 9] = (uint32_t)entry; t[10] = (uint32_t)(sp >> shift >> shift); t[11] = (uint32_t)sp; } return t; } static uint32_t* co_create_(unsigned size, uintptr_t entry) { (void)entry; uint32_t* t = (uint32_t*)malloc(size); #if LIBCO_PPCDESC if(t) { memcpy(t, (void*)entry, sizeof(void*) * 3); /* copy entry's descriptor */ *(const void**)t = libco_ppc_code; /* set function pointer to swap routine */ } #endif return t; } cothread_t co_create(unsigned int size, void (*entry_)(void)) { uintptr_t entry = (uintptr_t)entry_; uint32_t* t = 0; /* be sure main thread was successfully allocated */ if(co_active()) { size += state_size + above_stack + stack_align; t = co_create_(size, entry); } if(t) { uintptr_t sp; int shift; /* save current registers into new thread, so that any special ones will have proper values when thread is begun */ CO_SWAP_ASM(t, t); #if LIBCO_PPCDESC entry = (uintptr_t)*(void**)entry; /* get real address */ #endif /* put stack near end of block, and align */ sp = (uintptr_t)t + size - above_stack; sp -= sp % stack_align; /* on PPC32, we save and restore GPRs as 32 bits. for PPC64, we save and restore them as 64 bits, regardless of the size the ABI uses. so, we manually write pointers at the proper size. we always save and restore at the same address, and since PPC is big-endian, we must put the low byte first on PPC32. */ /* if uintptr_t is 32 bits, >>32 is undefined behavior, so we do two shifts and don't have to care how many bits uintptr_t is. */ #if LIBCO_PPC64 shift = 16; #else shift = 0; #endif /* set up so entry will be called on next swap */ t[ 8] = (uint32_t)(entry >> shift >> shift); t[ 9] = (uint32_t)entry; t[10] = (uint32_t)(sp >> shift >> shift); t[11] = (uint32_t)sp; } return t; } void co_delete(cothread_t t) { free(t); } static void co_init_(void) { #if LIBCO_MPROTECT long page_size = sysconf(_SC_PAGESIZE); if(page_size > 0) { uintptr_t align = page_size; uintptr_t begin = (uintptr_t)libco_ppc_code; uintptr_t end = begin + sizeof libco_ppc_code; /* align beginning and end */ end += align - 1; end -= end % align; begin -= begin % align; mprotect((void*)begin, end - begin, PROT_READ | PROT_EXEC); } #endif co_active_handle = co_create_(state_size, (uintptr_t)&co_switch); } cothread_t co_active() { if(!co_active_handle) co_init_(); return co_active_handle; } void co_switch(cothread_t t) { cothread_t old = co_active_handle; co_active_handle = t; CO_SWAP_ASM(t, old); } int co_serializable() { return 0; }