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Date: Wed, 13 Mar 2024 02:58:45 +1000 Message-ID: <20240312165851.2240242-35-npiggin@gmail.com> X-Mailer: git-send-email 2.42.0 In-Reply-To: <20240312165851.2240242-1-npiggin@gmail.com> References: <20240312165851.2240242-1-npiggin@gmail.com> MIME-Version: 1.0 Received-SPF: pass client-ip=2607:f8b0:4864:20::42b; envelope-from=npiggin@gmail.com; helo=mail-pf1-x42b.google.com X-Spam_score_int: -20 X-Spam_score: -2.1 X-Spam_bar: -- X-Spam_report: (-2.1 / 5.0 requ) BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, FREEMAIL_FROM=0.001, RCVD_IN_DNSWL_NONE=-0.0001, SPF_HELO_NONE=0.001, SPF_PASS=-0.001, T_SCC_BODY_TEXT_LINE=-0.01 autolearn=ham autolearn_force=no X-Spam_action: no action X-BeenThere: qemu-ppc@nongnu.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: qemu-ppc-bounces+incoming=patchwork.ozlabs.org@nongnu.org Sender: qemu-ppc-bounces+incoming=patchwork.ozlabs.org@nongnu.org From: Harsh Prateek Bora Nested PAPR API provides a standard Guest State Buffer (GSB) format with unique IDs for each guest state element for which get/set state is supported by the API. Some of the elements are read-only and/or guest-wide. Introducing additional required GSB elements and helper routines for state exchange of each of the nested guest state elements for which get/set state should be supported by the API. [amachhiw: set the PCR whenever logical PVR is set] Reviewed-by: Nicholas Piggin Signed-off-by: Michael Neuling Signed-off-by: Shivaprasad G Bhat Signed-off-by: Amit Machhiwal Signed-off-by: Harsh Prateek Bora Signed-off-by: Nicholas Piggin --- hw/ppc/spapr_nested.c | 487 +++++++++++++++++++++++++++++++++- include/hw/ppc/spapr_nested.h | 313 ++++++++++++++++++++++ 2 files changed, 798 insertions(+), 2 deletions(-) diff --git a/hw/ppc/spapr_nested.c b/hw/ppc/spapr_nested.c index 6a2ff963c6..cd7fa90350 100644 --- a/hw/ppc/spapr_nested.c +++ b/hw/ppc/spapr_nested.c @@ -19,6 +19,7 @@ void spapr_nested_reset(SpaprMachineState *spapr) } else { spapr->nested.api = 0; spapr->nested.capabilities_set = false; + spapr_nested_gsb_init(); } } @@ -136,7 +137,6 @@ static void nested_save_state(struct nested_ppc_state *save, PowerPCCPU *cpu) save->ppr = env->spr[SPR_PPR]; if (spapr_nested_api(spapr) == NESTED_API_PAPR) { - save->pvr = env->spr[SPR_PVR]; save->amor = env->spr[SPR_AMOR]; save->dawr0 = env->spr[SPR_DAWR0]; save->dawrx0 = env->spr[SPR_DAWRX0]; @@ -222,7 +222,6 @@ static void nested_load_state(PowerPCCPU *cpu, struct nested_ppc_state *load) env->spr[SPR_PPR] = load->ppr; if (spapr_nested_api(spapr) == NESTED_API_PAPR) { - env->spr[SPR_PVR] = load->pvr; env->spr[SPR_AMOR] = load->amor; env->spr[SPR_DAWR0] = load->dawr0; env->spr[SPR_DAWRX0] = load->dawrx0; @@ -551,6 +550,485 @@ SpaprMachineStateNestedGuest *spapr_get_nested_guest(SpaprMachineState *spapr, return guest; } +static bool spapr_nested_vcpu_check(SpaprMachineStateNestedGuest *guest, + target_ulong vcpuid, bool inoutbuf) +{ + struct SpaprMachineStateNestedGuestVcpu *vcpu; + /* + * Perform sanity checks for the provided vcpuid of a guest. + * For now, ensure its valid, allocated and enabled for use. + */ + + if (vcpuid >= PAPR_NESTED_GUEST_VCPU_MAX) { + return false; + } + + if (!(vcpuid < guest->nr_vcpus)) { + return false; + } + + vcpu = &guest->vcpus[vcpuid]; + if (!vcpu->enabled) { + return false; + } + + if (!inoutbuf) { + return true; + } + + /* Check to see if the in/out buffers are registered */ + if (vcpu->runbufin.addr && vcpu->runbufout.addr) { + return true; + } + + return false; +} + +static void *get_vcpu_state_ptr(SpaprMachineStateNestedGuest *guest, + target_ulong vcpuid) +{ + assert(spapr_nested_vcpu_check(guest, vcpuid, false)); + return &guest->vcpus[vcpuid].state; +} + +static void *get_vcpu_ptr(SpaprMachineStateNestedGuest *guest, + target_ulong vcpuid) +{ + assert(spapr_nested_vcpu_check(guest, vcpuid, false)); + return &guest->vcpus[vcpuid]; +} + +static void *get_guest_ptr(SpaprMachineStateNestedGuest *guest, + target_ulong vcpuid) +{ + return guest; /* for GSBE_NESTED */ +} + +/* + * set=1 means the L1 is trying to set some state + * set=0 means the L1 is trying to get some state + */ +static void copy_state_8to8(void *a, void *b, bool set) +{ + /* set takes from the Big endian element_buf and sets internal buffer */ + + if (set) { + *(uint64_t *)a = be64_to_cpu(*(uint64_t *)b); + } else { + *(uint64_t *)b = cpu_to_be64(*(uint64_t *)a); + } +} + +static void copy_state_4to4(void *a, void *b, bool set) +{ + if (set) { + *(uint32_t *)a = be32_to_cpu(*(uint32_t *)b); + } else { + *(uint32_t *)b = cpu_to_be32(*((uint32_t *)a)); + } +} + +static void copy_state_16to16(void *a, void *b, bool set) +{ + uint64_t *src, *dst; + + if (set) { + src = b; + dst = a; + + dst[1] = be64_to_cpu(src[0]); + dst[0] = be64_to_cpu(src[1]); + } else { + src = a; + dst = b; + + dst[1] = cpu_to_be64(src[0]); + dst[0] = cpu_to_be64(src[1]); + } +} + +static void copy_state_4to8(void *a, void *b, bool set) +{ + if (set) { + *(uint64_t *)a = (uint64_t) be32_to_cpu(*(uint32_t *)b); + } else { + *(uint32_t *)b = cpu_to_be32((uint32_t) (*((uint64_t *)a))); + } +} + +static void copy_state_pagetbl(void *a, void *b, bool set) +{ + uint64_t *pagetbl; + uint64_t *buf; /* 3 double words */ + uint64_t rts; + + assert(set); + + pagetbl = a; + buf = b; + + *pagetbl = be64_to_cpu(buf[0]); + /* as per ISA section 6.7.6.1 */ + *pagetbl |= PATE0_HR; /* Host Radix bit is 1 */ + + /* RTS */ + rts = be64_to_cpu(buf[1]); + assert(rts == 52); + rts = rts - 31; /* since radix tree size = 2^(RTS+31) */ + *pagetbl |= ((rts & 0x7) << 5); /* RTS2 is bit 56:58 */ + *pagetbl |= (((rts >> 3) & 0x3) << 61); /* RTS1 is bit 1:2 */ + + /* RPDS {Size = 2^(RPDS+3) , RPDS >=5} */ + *pagetbl |= 63 - clz64(be64_to_cpu(buf[2])) - 3; +} + +static void copy_state_proctbl(void *a, void *b, bool set) +{ + uint64_t *proctbl; + uint64_t *buf; /* 2 double words */ + + assert(set); + + proctbl = a; + buf = b; + /* PRTB: Process Table Base */ + *proctbl = be64_to_cpu(buf[0]); + /* PRTS: Process Table Size = 2^(12+PRTS) */ + if (be64_to_cpu(buf[1]) == (1ULL << 12)) { + *proctbl |= 0; + } else if (be64_to_cpu(buf[1]) == (1ULL << 24)) { + *proctbl |= 12; + } else { + g_assert_not_reached(); + } +} + +static void copy_state_runbuf(void *a, void *b, bool set) +{ + uint64_t *buf; /* 2 double words */ + struct SpaprMachineStateNestedGuestVcpuRunBuf *runbuf; + + assert(set); + + runbuf = a; + buf = b; + + runbuf->addr = be64_to_cpu(buf[0]); + assert(runbuf->addr); + + /* per spec */ + assert(be64_to_cpu(buf[1]) <= 16384); + + /* + * This will also hit in the input buffer but should be fine for + * now. If not we can split this function. + */ + assert(be64_to_cpu(buf[1]) >= VCPU_OUT_BUF_MIN_SZ); + + runbuf->size = be64_to_cpu(buf[1]); +} + +/* tell the L1 how big we want the output vcpu run buffer */ +static void out_buf_min_size(void *a, void *b, bool set) +{ + uint64_t *buf; /* 1 double word */ + + assert(!set); + + buf = b; + + buf[0] = cpu_to_be64(VCPU_OUT_BUF_MIN_SZ); +} + +static void copy_logical_pvr(void *a, void *b, bool set) +{ + SpaprMachineStateNestedGuest *guest; + uint32_t *buf; /* 1 word */ + uint32_t *pvr_logical_ptr; + uint32_t pvr_logical; + target_ulong pcr = 0; + + pvr_logical_ptr = a; + buf = b; + + if (!set) { + buf[0] = cpu_to_be32(*pvr_logical_ptr); + return; + } + + pvr_logical = be32_to_cpu(buf[0]); + + *pvr_logical_ptr = pvr_logical; + + if (*pvr_logical_ptr) { + switch (*pvr_logical_ptr) { + case CPU_POWERPC_LOGICAL_3_10: + pcr = PCR_COMPAT_3_10 | PCR_COMPAT_3_00; + break; + case CPU_POWERPC_LOGICAL_3_00: + pcr = PCR_COMPAT_3_00; + break; + default: + qemu_log_mask(LOG_GUEST_ERROR, + "Could not set PCR for LPVR=0x%08x\n", + *pvr_logical_ptr); + return; + } + } + + guest = container_of(pvr_logical_ptr, + struct SpaprMachineStateNestedGuest, + pvr_logical); + for (int i = 0; i < guest->nr_vcpus; i++) { + guest->vcpus[i].state.pcr = ~pcr | HVMASK_PCR; + } +} + +static void copy_tb_offset(void *a, void *b, bool set) +{ + SpaprMachineStateNestedGuest *guest; + uint64_t *buf; /* 1 double word */ + uint64_t *tb_offset_ptr; + uint64_t tb_offset; + + tb_offset_ptr = a; + buf = b; + + if (!set) { + buf[0] = cpu_to_be64(*tb_offset_ptr); + return; + } + + tb_offset = be64_to_cpu(buf[0]); + /* need to copy this to the individual tb_offset for each vcpu */ + guest = container_of(tb_offset_ptr, + struct SpaprMachineStateNestedGuest, + tb_offset); + for (int i = 0; i < guest->nr_vcpus; i++) { + guest->vcpus[i].tb_offset = tb_offset; + } +} + +static void copy_state_hdecr(void *a, void *b, bool set) +{ + uint64_t *buf; /* 1 double word */ + uint64_t *hdecr_expiry_tb; + + hdecr_expiry_tb = a; + buf = b; + + if (!set) { + buf[0] = cpu_to_be64(*hdecr_expiry_tb); + return; + } + + *hdecr_expiry_tb = be64_to_cpu(buf[0]); +} + +struct guest_state_element_type guest_state_element_types[] = { + GUEST_STATE_ELEMENT_NOP(GSB_HV_VCPU_IGNORED_ID, 0), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR0, gpr[0]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR1, gpr[1]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR2, gpr[2]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR3, gpr[3]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR4, gpr[4]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR5, gpr[5]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR6, gpr[6]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR7, gpr[7]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR8, gpr[8]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR9, gpr[9]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR10, gpr[10]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR11, gpr[11]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR12, gpr[12]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR13, gpr[13]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR14, gpr[14]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR15, gpr[15]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR16, gpr[16]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR17, gpr[17]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR18, gpr[18]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR19, gpr[19]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR20, gpr[20]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR21, gpr[21]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR22, gpr[22]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR23, gpr[23]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR24, gpr[24]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR25, gpr[25]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR26, gpr[26]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR27, gpr[27]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR28, gpr[28]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR29, gpr[29]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR30, gpr[30]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_GPR31, gpr[31]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_NIA, nip), + GSE_ENV_DWM(GSB_VCPU_SPR_MSR, msr, HVMASK_MSR), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_CTR, ctr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_LR, lr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_XER, xer), + GUEST_STATE_ELEMENT_ENV_WW(GSB_VCPU_SPR_CR, cr), + GUEST_STATE_ELEMENT_NOP_DW(GSB_VCPU_SPR_MMCR3), + GUEST_STATE_ELEMENT_NOP_DW(GSB_VCPU_SPR_SIER2), + GUEST_STATE_ELEMENT_NOP_DW(GSB_VCPU_SPR_SIER3), + GUEST_STATE_ELEMENT_NOP_W(GSB_VCPU_SPR_WORT), + GSE_ENV_DWM(GSB_VCPU_SPR_LPCR, lpcr, HVMASK_LPCR), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_AMOR, amor), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_HFSCR, hfscr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_DAWR0, dawr0), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_DAWRX0, dawrx0), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_CIABR, ciabr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_PURR, purr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SPURR, spurr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_IC, ic), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_VTB, vtb), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_HDAR, hdar), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_HDSISR, hdsisr), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_HEIR, heir), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_ASDR, asdr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SRR0, srr0), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SRR1, srr1), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SPRG0, sprg0), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SPRG1, sprg1), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SPRG2, sprg2), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SPRG3, sprg3), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PIDR, pidr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_CFAR, cfar), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_PPR, ppr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_DAWR1, dawr1), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_DAWRX1, dawrx1), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_DEXCR, dexcr), + GSE_ENV_DWM(GSB_VCPU_SPR_HDEXCR, hdexcr, HVMASK_HDEXCR), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_HASHKEYR, hashkeyr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_HASHPKEYR, hashpkeyr), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR0, vsr[0]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR1, vsr[1]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR2, vsr[2]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR3, vsr[3]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR4, vsr[4]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR5, vsr[5]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR6, vsr[6]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR7, vsr[7]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR8, vsr[8]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR9, vsr[9]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR10, vsr[10]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR11, vsr[11]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR12, vsr[12]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR13, vsr[13]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR14, vsr[14]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR15, vsr[15]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR16, vsr[16]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR17, vsr[17]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR18, vsr[18]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR19, vsr[19]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR20, vsr[20]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR21, vsr[21]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR22, vsr[22]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR23, vsr[23]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR24, vsr[24]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR25, vsr[25]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR26, vsr[26]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR27, vsr[27]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR28, vsr[28]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR29, vsr[29]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR30, vsr[30]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR31, vsr[31]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR32, vsr[32]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR33, vsr[33]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR34, vsr[34]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR35, vsr[35]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR36, vsr[36]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR37, vsr[37]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR38, vsr[38]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR39, vsr[39]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR40, vsr[40]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR41, vsr[41]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR42, vsr[42]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR43, vsr[43]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR44, vsr[44]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR45, vsr[45]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR46, vsr[46]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR47, vsr[47]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR48, vsr[48]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR49, vsr[49]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR50, vsr[50]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR51, vsr[51]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR52, vsr[52]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR53, vsr[53]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR54, vsr[54]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR55, vsr[55]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR56, vsr[56]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR57, vsr[57]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR58, vsr[58]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR59, vsr[59]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR60, vsr[60]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR61, vsr[61]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR62, vsr[62]), + GUEST_STATE_ELEMENT_ENV_QW(GSB_VCPU_SPR_VSR63, vsr[63]), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_EBBHR, ebbhr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_TAR, tar), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_EBBRR, ebbrr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_BESCR, bescr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_IAMR, iamr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_AMR, amr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_UAMOR, uamor), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_DSCR, dscr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_FSCR, fscr), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PSPB, pspb), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_CTRL, ctrl), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_VRSAVE, vrsave), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_DAR, dar), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_DSISR, dsisr), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PMC1, pmc1), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PMC2, pmc2), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PMC3, pmc3), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PMC4, pmc4), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PMC5, pmc5), + GUEST_STATE_ELEMENT_ENV_W(GSB_VCPU_SPR_PMC6, pmc6), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_MMCR0, mmcr0), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_MMCR1, mmcr1), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_MMCR2, mmcr2), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_MMCRA, mmcra), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SDAR , sdar), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SIAR , siar), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_SIER , sier), + GUEST_STATE_ELEMENT_ENV_WW(GSB_VCPU_SPR_VSCR, vscr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_SPR_FPSCR, fpscr), + GUEST_STATE_ELEMENT_ENV_DW(GSB_VCPU_DEC_EXPIRE_TB, dec_expiry_tb), + GSBE_NESTED(GSB_PART_SCOPED_PAGETBL, 0x18, parttbl[0], copy_state_pagetbl), + GSBE_NESTED(GSB_PROCESS_TBL, 0x10, parttbl[1], copy_state_proctbl), + GSBE_NESTED(GSB_VCPU_LPVR, 0x4, pvr_logical, copy_logical_pvr), + GSBE_NESTED_MSK(GSB_TB_OFFSET, 0x8, tb_offset, copy_tb_offset, + HVMASK_TB_OFFSET), + GSBE_NESTED_VCPU(GSB_VCPU_IN_BUFFER, 0x10, runbufin, copy_state_runbuf), + GSBE_NESTED_VCPU(GSB_VCPU_OUT_BUFFER, 0x10, runbufout, copy_state_runbuf), + GSBE_NESTED_VCPU(GSB_VCPU_OUT_BUF_MIN_SZ, 0x8, runbufout, out_buf_min_size), + GSBE_NESTED_VCPU(GSB_VCPU_HDEC_EXPIRY_TB, 0x8, hdecr_expiry_tb, + copy_state_hdecr) +}; + +void spapr_nested_gsb_init(void) +{ + struct guest_state_element_type *type; + + /* Init the guest state elements lookup table, flags for now */ + for (int i = 0; i < ARRAY_SIZE(guest_state_element_types); i++) { + type = &guest_state_element_types[i]; + + assert(type->id <= GSB_LAST); + if (type->id >= GSB_VCPU_SPR_HDAR) + /* 0xf000 - 0xf005 Thread + RO */ + type->flags = GUEST_STATE_ELEMENT_TYPE_FLAG_READ_ONLY; + else if (type->id >= GSB_VCPU_IN_BUFFER) + /* 0x0c00 - 0xf000 Thread + RW */ + type->flags = 0; + else if (type->id >= GSB_VCPU_LPVR) + /* 0x0003 - 0x0bff Guest + RW */ + type->flags = GUEST_STATE_ELEMENT_TYPE_FLAG_GUEST_WIDE; + else if (type->id >= GSB_HV_VCPU_STATE_SIZE) + /* 0x0001 - 0x0002 Guest + RO */ + type->flags = GUEST_STATE_ELEMENT_TYPE_FLAG_READ_ONLY | + GUEST_STATE_ELEMENT_TYPE_FLAG_GUEST_WIDE; + } +} + static target_ulong h_guest_get_capabilities(PowerPCCPU *cpu, SpaprMachineState *spapr, target_ulong opcode, @@ -854,4 +1332,9 @@ void spapr_unregister_nested_papr(void) /* DO NOTHING */ } +void spapr_nested_gsb_init(void) +{ + /* DO NOTHING */ +} + #endif diff --git a/include/hw/ppc/spapr_nested.h b/include/hw/ppc/spapr_nested.h index d232014ccb..3da02df7bb 100644 --- a/include/hw/ppc/spapr_nested.h +++ b/include/hw/ppc/spapr_nested.h @@ -3,6 +3,191 @@ #include "target/ppc/cpu.h" +/* Guest State Buffer Element IDs */ +#define GSB_HV_VCPU_IGNORED_ID 0x0000 /* An element whose value is ignored */ +#define GSB_HV_VCPU_STATE_SIZE 0x0001 /* HV internal format VCPU state size */ +#define GSB_VCPU_OUT_BUF_MIN_SZ 0x0002 /* Min size of the Run VCPU o/p buffer */ +#define GSB_VCPU_LPVR 0x0003 /* Logical PVR */ +#define GSB_TB_OFFSET 0x0004 /* Timebase Offset */ +#define GSB_PART_SCOPED_PAGETBL 0x0005 /* Partition Scoped Page Table */ +#define GSB_PROCESS_TBL 0x0006 /* Process Table */ + /* RESERVED 0x0007 - 0x0BFF */ +#define GSB_VCPU_IN_BUFFER 0x0C00 /* Run VCPU Input Buffer */ +#define GSB_VCPU_OUT_BUFFER 0x0C01 /* Run VCPU Out Buffer */ +#define GSB_VCPU_VPA 0x0C02 /* HRA to Guest VCPU VPA */ + /* RESERVED 0x0C03 - 0x0FFF */ +#define GSB_VCPU_GPR0 0x1000 +#define GSB_VCPU_GPR1 0x1001 +#define GSB_VCPU_GPR2 0x1002 +#define GSB_VCPU_GPR3 0x1003 +#define GSB_VCPU_GPR4 0x1004 +#define GSB_VCPU_GPR5 0x1005 +#define GSB_VCPU_GPR6 0x1006 +#define GSB_VCPU_GPR7 0x1007 +#define GSB_VCPU_GPR8 0x1008 +#define GSB_VCPU_GPR9 0x1009 +#define GSB_VCPU_GPR10 0x100A +#define GSB_VCPU_GPR11 0x100B +#define GSB_VCPU_GPR12 0x100C +#define GSB_VCPU_GPR13 0x100D +#define GSB_VCPU_GPR14 0x100E +#define GSB_VCPU_GPR15 0x100F +#define GSB_VCPU_GPR16 0x1010 +#define GSB_VCPU_GPR17 0x1011 +#define GSB_VCPU_GPR18 0x1012 +#define GSB_VCPU_GPR19 0x1013 +#define GSB_VCPU_GPR20 0x1014 +#define GSB_VCPU_GPR21 0x1015 +#define GSB_VCPU_GPR22 0x1016 +#define GSB_VCPU_GPR23 0x1017 +#define GSB_VCPU_GPR24 0x1018 +#define GSB_VCPU_GPR25 0x1019 +#define GSB_VCPU_GPR26 0x101A +#define GSB_VCPU_GPR27 0x101B +#define GSB_VCPU_GPR28 0x101C +#define GSB_VCPU_GPR29 0x101D +#define GSB_VCPU_GPR30 0x101E +#define GSB_VCPU_GPR31 0x101F +#define GSB_VCPU_HDEC_EXPIRY_TB 0x1020 +#define GSB_VCPU_SPR_NIA 0x1021 +#define GSB_VCPU_SPR_MSR 0x1022 +#define GSB_VCPU_SPR_LR 0x1023 +#define GSB_VCPU_SPR_XER 0x1024 +#define GSB_VCPU_SPR_CTR 0x1025 +#define GSB_VCPU_SPR_CFAR 0x1026 +#define GSB_VCPU_SPR_SRR0 0x1027 +#define GSB_VCPU_SPR_SRR1 0x1028 +#define GSB_VCPU_SPR_DAR 0x1029 +#define GSB_VCPU_DEC_EXPIRE_TB 0x102A +#define GSB_VCPU_SPR_VTB 0x102B +#define GSB_VCPU_SPR_LPCR 0x102C +#define GSB_VCPU_SPR_HFSCR 0x102D +#define GSB_VCPU_SPR_FSCR 0x102E +#define GSB_VCPU_SPR_FPSCR 0x102F +#define GSB_VCPU_SPR_DAWR0 0x1030 +#define GSB_VCPU_SPR_DAWR1 0x1031 +#define GSB_VCPU_SPR_CIABR 0x1032 +#define GSB_VCPU_SPR_PURR 0x1033 +#define GSB_VCPU_SPR_SPURR 0x1034 +#define GSB_VCPU_SPR_IC 0x1035 +#define GSB_VCPU_SPR_SPRG0 0x1036 +#define GSB_VCPU_SPR_SPRG1 0x1037 +#define GSB_VCPU_SPR_SPRG2 0x1038 +#define GSB_VCPU_SPR_SPRG3 0x1039 +#define GSB_VCPU_SPR_PPR 0x103A +#define GSB_VCPU_SPR_MMCR0 0x103B +#define GSB_VCPU_SPR_MMCR1 0x103C +#define GSB_VCPU_SPR_MMCR2 0x103D +#define GSB_VCPU_SPR_MMCR3 0x103E +#define GSB_VCPU_SPR_MMCRA 0x103F +#define GSB_VCPU_SPR_SIER 0x1040 +#define GSB_VCPU_SPR_SIER2 0x1041 +#define GSB_VCPU_SPR_SIER3 0x1042 +#define GSB_VCPU_SPR_BESCR 0x1043 +#define GSB_VCPU_SPR_EBBHR 0x1044 +#define GSB_VCPU_SPR_EBBRR 0x1045 +#define GSB_VCPU_SPR_AMR 0x1046 +#define GSB_VCPU_SPR_IAMR 0x1047 +#define GSB_VCPU_SPR_AMOR 0x1048 +#define GSB_VCPU_SPR_UAMOR 0x1049 +#define GSB_VCPU_SPR_SDAR 0x104A +#define GSB_VCPU_SPR_SIAR 0x104B +#define GSB_VCPU_SPR_DSCR 0x104C +#define GSB_VCPU_SPR_TAR 0x104D +#define GSB_VCPU_SPR_DEXCR 0x104E +#define GSB_VCPU_SPR_HDEXCR 0x104F +#define GSB_VCPU_SPR_HASHKEYR 0x1050 +#define GSB_VCPU_SPR_HASHPKEYR 0x1051 +#define GSB_VCPU_SPR_CTRL 0x1052 + /* RESERVED 0x1053 - 0x1FFF */ +#define GSB_VCPU_SPR_CR 0x2000 +#define GSB_VCPU_SPR_PIDR 0x2001 +#define GSB_VCPU_SPR_DSISR 0x2002 +#define GSB_VCPU_SPR_VSCR 0x2003 +#define GSB_VCPU_SPR_VRSAVE 0x2004 +#define GSB_VCPU_SPR_DAWRX0 0x2005 +#define GSB_VCPU_SPR_DAWRX1 0x2006 +#define GSB_VCPU_SPR_PMC1 0x2007 +#define GSB_VCPU_SPR_PMC2 0x2008 +#define GSB_VCPU_SPR_PMC3 0x2009 +#define GSB_VCPU_SPR_PMC4 0x200A +#define GSB_VCPU_SPR_PMC5 0x200B +#define GSB_VCPU_SPR_PMC6 0x200C +#define GSB_VCPU_SPR_WORT 0x200D +#define GSB_VCPU_SPR_PSPB 0x200E + /* RESERVED 0x200F - 0x2FFF */ +#define GSB_VCPU_SPR_VSR0 0x3000 +#define GSB_VCPU_SPR_VSR1 0x3001 +#define GSB_VCPU_SPR_VSR2 0x3002 +#define GSB_VCPU_SPR_VSR3 0x3003 +#define GSB_VCPU_SPR_VSR4 0x3004 +#define GSB_VCPU_SPR_VSR5 0x3005 +#define GSB_VCPU_SPR_VSR6 0x3006 +#define GSB_VCPU_SPR_VSR7 0x3007 +#define GSB_VCPU_SPR_VSR8 0x3008 +#define GSB_VCPU_SPR_VSR9 0x3009 +#define GSB_VCPU_SPR_VSR10 0x300A +#define GSB_VCPU_SPR_VSR11 0x300B +#define GSB_VCPU_SPR_VSR12 0x300C +#define GSB_VCPU_SPR_VSR13 0x300D +#define GSB_VCPU_SPR_VSR14 0x300E +#define GSB_VCPU_SPR_VSR15 0x300F +#define GSB_VCPU_SPR_VSR16 0x3010 +#define GSB_VCPU_SPR_VSR17 0x3011 +#define GSB_VCPU_SPR_VSR18 0x3012 +#define GSB_VCPU_SPR_VSR19 0x3013 +#define GSB_VCPU_SPR_VSR20 0x3014 +#define GSB_VCPU_SPR_VSR21 0x3015 +#define GSB_VCPU_SPR_VSR22 0x3016 +#define GSB_VCPU_SPR_VSR23 0x3017 +#define GSB_VCPU_SPR_VSR24 0x3018 +#define GSB_VCPU_SPR_VSR25 0x3019 +#define GSB_VCPU_SPR_VSR26 0x301A +#define GSB_VCPU_SPR_VSR27 0x301B +#define GSB_VCPU_SPR_VSR28 0x301C +#define GSB_VCPU_SPR_VSR29 0x301D +#define GSB_VCPU_SPR_VSR30 0x301E +#define GSB_VCPU_SPR_VSR31 0x301F +#define GSB_VCPU_SPR_VSR32 0x3020 +#define GSB_VCPU_SPR_VSR33 0x3021 +#define GSB_VCPU_SPR_VSR34 0x3022 +#define GSB_VCPU_SPR_VSR35 0x3023 +#define GSB_VCPU_SPR_VSR36 0x3024 +#define GSB_VCPU_SPR_VSR37 0x3025 +#define GSB_VCPU_SPR_VSR38 0x3026 +#define GSB_VCPU_SPR_VSR39 0x3027 +#define GSB_VCPU_SPR_VSR40 0x3028 +#define GSB_VCPU_SPR_VSR41 0x3029 +#define GSB_VCPU_SPR_VSR42 0x302A +#define GSB_VCPU_SPR_VSR43 0x302B +#define GSB_VCPU_SPR_VSR44 0x302C +#define GSB_VCPU_SPR_VSR45 0x302D +#define GSB_VCPU_SPR_VSR46 0x302E +#define GSB_VCPU_SPR_VSR47 0x302F +#define GSB_VCPU_SPR_VSR48 0x3030 +#define GSB_VCPU_SPR_VSR49 0x3031 +#define GSB_VCPU_SPR_VSR50 0x3032 +#define GSB_VCPU_SPR_VSR51 0x3033 +#define GSB_VCPU_SPR_VSR52 0x3034 +#define GSB_VCPU_SPR_VSR53 0x3035 +#define GSB_VCPU_SPR_VSR54 0x3036 +#define GSB_VCPU_SPR_VSR55 0x3037 +#define GSB_VCPU_SPR_VSR56 0x3038 +#define GSB_VCPU_SPR_VSR57 0x3039 +#define GSB_VCPU_SPR_VSR58 0x303A +#define GSB_VCPU_SPR_VSR59 0x303B +#define GSB_VCPU_SPR_VSR60 0x303C +#define GSB_VCPU_SPR_VSR61 0x303D +#define GSB_VCPU_SPR_VSR62 0x303E +#define GSB_VCPU_SPR_VSR63 0x303F + /* RESERVED 0x3040 - 0xEFFF */ +#define GSB_VCPU_SPR_HDAR 0xF000 +#define GSB_VCPU_SPR_HDSISR 0xF001 +#define GSB_VCPU_SPR_HEIR 0xF002 +#define GSB_VCPU_SPR_ASDR 0xF003 +/* End of list of Guest State Buffer Element IDs */ +#define GSB_LAST GSB_VCPU_SPR_ASDR + typedef struct SpaprMachineStateNested { uint64_t ptcr; uint8_t api; @@ -16,6 +201,8 @@ typedef struct SpaprMachineStateNested { typedef struct SpaprMachineStateNestedGuest { uint32_t pvr_logical; unsigned long nr_vcpus; + uint64_t parttbl[2]; + uint64_t tb_offset; struct SpaprMachineStateNestedGuestVcpu *vcpus; } SpaprMachineStateNestedGuest; @@ -31,6 +218,109 @@ typedef struct SpaprMachineStateNestedGuest { #define PAPR_NESTED_GUEST_MAX 4096 #define H_GUEST_DELETE_ALL_FLAG 0x8000000000000000ULL #define PAPR_NESTED_GUEST_VCPU_MAX 2048 +#define VCPU_OUT_BUF_MIN_SZ 0x80ULL +#define HVMASK_DEFAULT 0xffffffffffffffff +#define HVMASK_LPCR 0x0070000003820800 +#define HVMASK_MSR 0xEBFFFFFFFFBFEFFF +#define HVMASK_HDEXCR 0x00000000FFFFFFFF +#define HVMASK_TB_OFFSET 0x000000FFFFFFFFFF + +/* + * As per ISA v3.1B, following bits are reserved: + * 0:2 + * 4:57 (ISA mentions bit 58 as well but it should be used for P10) + * 61:63 (hence, haven't included PCR bits for v2.06 and v2.05 + * in LOW BITS) + */ +#define PCR_LOW_BITS (PCR_COMPAT_3_10 | PCR_COMPAT_3_00) +#define HVMASK_PCR (~PCR_LOW_BITS) + +#define GUEST_STATE_ELEMENT(i, sz, s, f, ptr, c) { \ + .id = (i), \ + .size = (sz), \ + .location = ptr, \ + .offset = offsetof(struct s, f), \ + .copy = (c) \ +} + +#define GSBE_NESTED(i, sz, f, c) { \ + .id = (i), \ + .size = (sz), \ + .location = get_guest_ptr, \ + .offset = offsetof(struct SpaprMachineStateNestedGuest, f),\ + .copy = (c), \ + .mask = HVMASK_DEFAULT \ +} + +#define GSBE_NESTED_MSK(i, sz, f, c, m) { \ + .id = (i), \ + .size = (sz), \ + .location = get_guest_ptr, \ + .offset = offsetof(struct SpaprMachineStateNestedGuest, f),\ + .copy = (c), \ + .mask = (m) \ +} + +#define GSBE_NESTED_VCPU(i, sz, f, c) { \ + .id = (i), \ + .size = (sz), \ + .location = get_vcpu_ptr, \ + .offset = offsetof(struct SpaprMachineStateNestedGuestVcpu, f),\ + .copy = (c), \ + .mask = HVMASK_DEFAULT \ +} + +#define GUEST_STATE_ELEMENT_NOP(i, sz) { \ + .id = (i), \ + .size = (sz), \ + .location = NULL, \ + .offset = 0, \ + .copy = NULL, \ + .mask = HVMASK_DEFAULT \ +} + +#define GUEST_STATE_ELEMENT_NOP_DW(i) \ + GUEST_STATE_ELEMENT_NOP(i, 8) +#define GUEST_STATE_ELEMENT_NOP_W(i) \ + GUEST_STATE_ELEMENT_NOP(i, 4) + +#define GUEST_STATE_ELEMENT_BASE(i, s, c) { \ + .id = (i), \ + .size = (s), \ + .location = get_vcpu_state_ptr, \ + .offset = 0, \ + .copy = (c), \ + .mask = HVMASK_DEFAULT \ + } + +#define GUEST_STATE_ELEMENT_OFF(i, s, f, c) { \ + .id = (i), \ + .size = (s), \ + .location = get_vcpu_state_ptr, \ + .offset = offsetof(struct nested_ppc_state, f), \ + .copy = (c), \ + .mask = HVMASK_DEFAULT \ + } + +#define GUEST_STATE_ELEMENT_MSK(i, s, f, c, m) { \ + .id = (i), \ + .size = (s), \ + .location = get_vcpu_state_ptr, \ + .offset = offsetof(struct nested_ppc_state, f), \ + .copy = (c), \ + .mask = (m) \ + } + +#define GUEST_STATE_ELEMENT_ENV_QW(i, f) \ + GUEST_STATE_ELEMENT_OFF(i, 16, f, copy_state_16to16) +#define GUEST_STATE_ELEMENT_ENV_DW(i, f) \ + GUEST_STATE_ELEMENT_OFF(i, 8, f, copy_state_8to8) +#define GUEST_STATE_ELEMENT_ENV_W(i, f) \ + GUEST_STATE_ELEMENT_OFF(i, 4, f, copy_state_4to8) +#define GUEST_STATE_ELEMENT_ENV_WW(i, f) \ + GUEST_STATE_ELEMENT_OFF(i, 4, f, copy_state_4to4) +#define GSE_ENV_DWM(i, f, m) \ + GUEST_STATE_ELEMENT_MSK(i, 8, f, copy_state_8to8, m) /* * Register state for entering a nested guest with H_ENTER_NESTED. @@ -171,16 +461,39 @@ struct nested_ppc_state { uint64_t sier; uint32_t vscr; uint64_t fpscr; + int64_t dec_expiry_tb; +}; + +struct SpaprMachineStateNestedGuestVcpuRunBuf { + uint64_t addr; + uint64_t size; }; typedef struct SpaprMachineStateNestedGuestVcpu { bool enabled; struct nested_ppc_state state; + struct SpaprMachineStateNestedGuestVcpuRunBuf runbufin; + struct SpaprMachineStateNestedGuestVcpuRunBuf runbufout; + int64_t tb_offset; + uint64_t hdecr_expiry_tb; } SpaprMachineStateNestedGuestVcpu; +struct guest_state_element_type { + uint16_t id; + int size; +#define GUEST_STATE_ELEMENT_TYPE_FLAG_GUEST_WIDE 0x1 +#define GUEST_STATE_ELEMENT_TYPE_FLAG_READ_ONLY 0x2 + uint16_t flags; + void *(*location)(SpaprMachineStateNestedGuest *, target_ulong); + size_t offset; + void (*copy)(void *, void *, bool); + uint64_t mask; +}; + void spapr_exit_nested(PowerPCCPU *cpu, int excp); typedef struct SpaprMachineState SpaprMachineState; bool spapr_get_pate_nested_hv(SpaprMachineState *spapr, PowerPCCPU *cpu, target_ulong lpid, ppc_v3_pate_t *entry); uint8_t spapr_nested_api(SpaprMachineState *spapr); +void spapr_nested_gsb_init(void); #endif /* HW_SPAPR_NESTED_H */