/* * This file contains the generic code to perform a call to the * pSeries LPAR hypervisor. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. */ #include #include #include #include #define STK_PARM(i) (48 + ((i)-3)*8) #ifdef CONFIG_HCALL_STATS /* * precall must preserve all registers. use unused STK_PARM() * areas to save snapshots and opcode. */ #define HCALL_INST_PRECALL \ std r3,STK_PARM(r3)(r1); /* save opcode */ \ mftb r0; /* get timebase and */ \ std r0,STK_PARM(r5)(r1); /* save for later */ \ BEGIN_FTR_SECTION; \ mfspr r0,SPRN_PURR; /* get PURR and */ \ std r0,STK_PARM(r6)(r1); /* save for later */ \ END_FTR_SECTION_IFSET(CPU_FTR_PURR); /* * postcall is performed immediately before function return which * allows liberal use of volatile registers. We branch around this * in early init (eg when populating the MMU hashtable) by using an * unconditional cpu feature. */ #define HCALL_INST_POSTCALL \ BEGIN_FTR_SECTION; \ b 1f; \ END_FTR_SECTION(0, 1); \ ld r4,STK_PARM(r3)(r1); /* validate opcode */ \ cmpldi cr7,r4,MAX_HCALL_OPCODE; \ bgt- cr7,1f; \ \ /* get time and PURR snapshots after hcall */ \ mftb r7; /* timebase after */ \ BEGIN_FTR_SECTION; \ mfspr r8,SPRN_PURR; /* PURR after */ \ ld r6,STK_PARM(r6)(r1); /* PURR before */ \ subf r6,r6,r8; /* delta */ \ END_FTR_SECTION_IFSET(CPU_FTR_PURR); \ ld r5,STK_PARM(r5)(r1); /* timebase before */ \ subf r5,r5,r7; /* time delta */ \ \ /* calculate address of stat structure r4 = opcode */ \ srdi r4,r4,2; /* index into array */ \ mulli r4,r4,HCALL_STAT_SIZE; \ LOAD_REG_ADDR(r7, per_cpu__hcall_stats); \ add r4,r4,r7; \ ld r7,PACA_DATA_OFFSET(r13); /* per cpu offset */ \ add r4,r4,r7; \ \ /* update stats */ \ ld r7,HCALL_STAT_CALLS(r4); /* count */ \ addi r7,r7,1; \ std r7,HCALL_STAT_CALLS(r4); \ ld r7,HCALL_STAT_TB(r4); /* timebase */ \ add r7,r7,r5; \ std r7,HCALL_STAT_TB(r4); \ BEGIN_FTR_SECTION; \ ld r7,HCALL_STAT_PURR(r4); /* PURR */ \ add r7,r7,r6; \ std r7,HCALL_STAT_PURR(r4); \ END_FTR_SECTION_IFSET(CPU_FTR_PURR); \ 1: #else #define HCALL_INST_PRECALL #define HCALL_INST_POSTCALL #endif .text _GLOBAL(plpar_hcall_norets) HMT_MEDIUM mfcr r0 stw r0,8(r1) HCALL_INST_PRECALL HVSC /* invoke the hypervisor */ HCALL_INST_POSTCALL lwz r0,8(r1) mtcrf 0xff,r0 blr /* return r3 = status */ _GLOBAL(plpar_hcall) HMT_MEDIUM mfcr r0 stw r0,8(r1) HCALL_INST_PRECALL std r4,STK_PARM(r4)(r1) /* Save ret buffer */ mr r4,r5 mr r5,r6 mr r6,r7 mr r7,r8 mr r8,r9 mr r9,r10 HVSC /* invoke the hypervisor */ ld r12,STK_PARM(r4)(r1) std r4, 0(r12) std r5, 8(r12) std r6, 16(r12) std r7, 24(r12) HCALL_INST_POSTCALL lwz r0,8(r1) mtcrf 0xff,r0 blr /* return r3 = status */ /* * plpar_hcall_raw can be called in real mode. kexec/kdump need some * hypervisor calls to be executed in real mode. So plpar_hcall_raw * does not access the per cpu hypervisor call statistics variables, * since these variables may not be present in the RMO region. */ _GLOBAL(plpar_hcall_raw) HMT_MEDIUM mfcr r0 stw r0,8(r1) std r4,STK_PARM(r4)(r1) /* Save ret buffer */ mr r4,r5 mr r5,r6 mr r6,r7 mr r7,r8 mr r8,r9 mr r9,r10 HVSC /* invoke the hypervisor */ ld r12,STK_PARM(r4)(r1) std r4, 0(r12) std r5, 8(r12) std r6, 16(r12) std r7, 24(r12) lwz r0,8(r1) mtcrf 0xff,r0 blr /* return r3 = status */ _GLOBAL(plpar_hcall9) HMT_MEDIUM mfcr r0 stw r0,8(r1) HCALL_INST_PRECALL std r4,STK_PARM(r4)(r1) /* Save ret buffer */ mr r4,r5 mr r5,r6 mr r6,r7 mr r7,r8 mr r8,r9 mr r9,r10 ld r10,STK_PARM(r11)(r1) /* put arg7 in R10 */ ld r11,STK_PARM(r12)(r1) /* put arg8 in R11 */ ld r12,STK_PARM(r13)(r1) /* put arg9 in R12 */ HVSC /* invoke the hypervisor */ mr r0,r12 ld r12,STK_PARM(r4)(r1) std r4, 0(r12) std r5, 8(r12) std r6, 16(r12) std r7, 24(r12) std r8, 32(r12) std r9, 40(r12) std r10,48(r12) std r11,56(r12) std r0, 64(r12) HCALL_INST_POSTCALL lwz r0,8(r1) mtcrf 0xff,r0 blr /* return r3 = status */