From patchwork Thu Jun 8 07:58:20 2023 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Nicholas Piggin X-Patchwork-Id: 13271722 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org Received: from vger.kernel.org (vger.kernel.org [23.128.96.18]) by smtp.lore.kernel.org (Postfix) with ESMTP id C9CFEC7EE23 for ; Thu, 8 Jun 2023 07:59:12 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S233944AbjFHH7L (ORCPT ); Thu, 8 Jun 2023 03:59:11 -0400 Received: from lindbergh.monkeyblade.net ([23.128.96.19]:48410 "EHLO lindbergh.monkeyblade.net" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S233983AbjFHH7H (ORCPT ); Thu, 8 Jun 2023 03:59:07 -0400 Received: from mail-pf1-x430.google.com (mail-pf1-x430.google.com [IPv6:2607:f8b0:4864:20::430]) by lindbergh.monkeyblade.net (Postfix) with ESMTPS id 1378E2121 for ; Thu, 8 Jun 2023 00:59:01 -0700 (PDT) Received: by mail-pf1-x430.google.com with SMTP id d2e1a72fcca58-650c89c7e4fso251225b3a.0 for ; Thu, 08 Jun 2023 00:59:01 -0700 (PDT) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20221208; t=1686211140; x=1688803140; h=content-transfer-encoding:mime-version:references:in-reply-to :message-id:date:subject:cc:to:from:from:to:cc:subject:date :message-id:reply-to; bh=7xisvX/DmFOQUxrwL1WZUKlI/wdWYY4iCpYlEn5Fxpo=; b=OTvmtPL7F+FL1dPlWY9z8O8A907biWw6pI2onaYJivwje66jSrgNxWKRblZqkySfpi inf1sp5OvML1VJLu9lw4vJFt3u3AhWQrp696bCzRLfAc78w7vQe7xFEqpUahJjraGQo2 JZwIafb9w274D2jsvb2L2lhCzVzYATm4gAl8UicFpQlqwKaaf+hEKWhEh1mGG07Ft4Ra hwA8RwXEI73VzIIvfOeRvUyblemR/dS6v8hh2tsDizAhXA22uF/llw4psQwihCAuU7gE EWq66bsgnpVr4imxqUL+925+eggrzCpQ39ehBFfGyXBWOxWT+AzgNIBNY2O0bUCKM3lA hIGw== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20221208; t=1686211140; x=1688803140; h=content-transfer-encoding:mime-version:references:in-reply-to :message-id:date:subject:cc:to:from:x-gm-message-state:from:to:cc :subject:date:message-id:reply-to; bh=7xisvX/DmFOQUxrwL1WZUKlI/wdWYY4iCpYlEn5Fxpo=; b=EYJTKPRCCBp2JQl3wTXOthoPexLfwFcrU5PZ3qO+vbQfjq5/RLfOQ9+lu/I+sMEsqa hfBE/8UXm1Hib5XS4nVv3NpT1mhYhdawB26xL7hSDvrxUYnpuLWB5nq4HxUwoUIE9mxw 3IXbE07DUxmuXL9kGIw4DC9X6+zXBB1bbifynZc1mlXfeMU4xllofPskNKQdSipM2PSV ZKpAMkFebH97KnN4Y70wQJuDtbggOUUbrziXnpaHQ6RcZoTz7ydIlWkYamz+RIrKeQnz pKk3CwwYmzPjhS7A6QMcoalsp9JXOr6RWhZSwD+HGrS4YIM0KEp6OL4ad0CWF/XJVkjS Qwbg== X-Gm-Message-State: AC+VfDyVrDVMe4O49jZgA3pg7rrll6cag+PG51DiwuEzABQG6UQcQx4H mPr9bnmv2GMsWt7FkpDDEmRn/fOWOMg= X-Google-Smtp-Source: ACHHUZ4lSjDIqdh0oDPXf6VzZz4nEojvtEuKs366phbnxT+zu1RBoCKmccM+3upTc428aos/TFpF3w== X-Received: by 2002:a05:6a00:238c:b0:65b:38b2:8d4b with SMTP id f12-20020a056a00238c00b0065b38b28d4bmr9436578pfc.29.1686211139520; Thu, 08 Jun 2023 00:58:59 -0700 (PDT) Received: from wheely.local0.net ([1.146.34.117]) by smtp.gmail.com with ESMTPSA id 17-20020a630011000000b00542d7720a6fsm673182pga.88.2023.06.08.00.58.55 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Thu, 08 Jun 2023 00:58:59 -0700 (PDT) From: Nicholas Piggin To: kvm@vger.kernel.org Cc: Nicholas Piggin , linuxppc-dev@lists.ozlabs.org, Laurent Vivier , Thomas Huth Subject: [kvm-unit-tests v4 06/12] powerpc/sprs: Specify SPRs with data rather than code Date: Thu, 8 Jun 2023 17:58:20 +1000 Message-Id: <20230608075826.86217-7-npiggin@gmail.com> X-Mailer: git-send-email 2.40.1 In-Reply-To: <20230608075826.86217-1-npiggin@gmail.com> References: <20230608075826.86217-1-npiggin@gmail.com> MIME-Version: 1.0 Precedence: bulk List-ID: X-Mailing-List: kvm@vger.kernel.org A significant rework that builds an array of 'struct spr', where each element describes an SPR. This makes various metadata about the SPR like name and access type easier to carry and use. Hypervisor privileged registers are described despite not being used at the moment for completeness, but also the code might one day be reused for a hypervisor-privileged test. Acked-by: Thomas Huth Signed-off-by: Nicholas Piggin --- This ended up a little over-engineered perhaps, but there are lots of SPRs, lots of access types, lots of changes between processor and ISA versions, and lots of places they are implemented and used, so lots of room for mistakes. There is not a good system in place to easily see that userspace, supervisor, etc., switches perform all the right SPR context switching so this is a nice test case to have. The sprs test quickly caught a few QEMU TCG SPR bugs which really motivated me to improve the SPR coverage. --- powerpc/sprs.c | 643 ++++++++++++++++++++++++++++++++++--------------- 1 file changed, 450 insertions(+), 193 deletions(-) diff --git a/powerpc/sprs.c b/powerpc/sprs.c index 57e487ce..d5664201 100644 --- a/powerpc/sprs.c +++ b/powerpc/sprs.c @@ -28,231 +28,465 @@ #include #include -uint64_t before[1024], after[1024]; - -/* Common SPRs for all PowerPC CPUs */ -static void set_sprs_common(uint64_t val) +/* "Indirect" mfspr/mtspr which accept a non-constant spr number */ +static uint64_t __mfspr(unsigned spr) { - mtspr(9, val); /* CTR */ - // mtspr(273, val); /* SPRG1 */ /* Used by our exception handler */ - mtspr(274, val); /* SPRG2 */ - mtspr(275, val); /* SPRG3 */ + uint64_t tmp; + uint64_t ret; + + asm volatile( +" bcl 20, 31, 1f \n" +"1: mflr %0 \n" +" addi %0, %0, (2f-1b) \n" +" add %0, %0, %2 \n" +" mtctr %0 \n" +" bctr \n" +"2: \n" +".LSPR=0 \n" +".rept 1024 \n" +" mfspr %1, .LSPR \n" +" b 3f \n" +" .LSPR=.LSPR+1 \n" +".endr \n" +"3: \n" + : "=&r"(tmp), + "=r"(ret) + : "r"(spr*8) /* 8 bytes per 'mfspr ; b' block */ + : "lr", "ctr"); + + return ret; } -/* SPRs from PowerPC Operating Environment Architecture, Book III, Vers. 2.01 */ -static void set_sprs_book3s_201(uint64_t val) +static void __mtspr(unsigned spr, uint64_t val) { - mtspr(18, val); /* DSISR */ - mtspr(19, val); /* DAR */ - mtspr(152, val); /* CTRL */ - mtspr(256, val); /* VRSAVE */ - mtspr(786, val); /* MMCRA */ - mtspr(795, val); /* MMCR0 */ - mtspr(798, val); /* MMCR1 */ + uint64_t tmp; + + asm volatile( +" bcl 20, 31, 1f \n" +"1: mflr %0 \n" +" addi %0, %0, (2f-1b) \n" +" add %0, %0, %2 \n" +" mtctr %0 \n" +" bctr \n" +"2: \n" +".LSPR=0 \n" +".rept 1024 \n" +" mtspr .LSPR, %1 \n" +" b 3f \n" +" .LSPR=.LSPR+1 \n" +".endr \n" +"3: \n" + : "=&r"(tmp) + : "r"(val), + "r"(spr*8) /* 8 bytes per 'mfspr ; b' block */ + : "lr", "ctr", "xer"); } +static uint64_t before[1024], after[1024]; + +#define SPR_PR_READ 0x0001 +#define SPR_PR_WRITE 0x0002 +#define SPR_OS_READ 0x0010 +#define SPR_OS_WRITE 0x0020 +#define SPR_HV_READ 0x0100 +#define SPR_HV_WRITE 0x0200 + +#define RW 0x333 +#define RO 0x111 +#define WO 0x222 +#define OS_RW 0x330 +#define OS_RO 0x110 +#define OS_WO 0x220 +#define HV_RW 0x300 +#define HV_RO 0x100 +#define HV_WO 0x200 + +#define SPR_ASYNC 0x1000 /* May be updated asynchronously */ +#define SPR_INT 0x2000 /* May be updated by synchronous interrupt */ +#define SPR_HARNESS 0x4000 /* Test harness uses the register */ + +struct spr { + const char *name; + uint8_t width; + uint16_t access; + uint16_t type; +}; + +/* SPRs common denominator back to PowerPC Operating Environment Architecture */ +static const struct spr sprs_common[1024] = { + [1] = {"XER", 64, RW, SPR_HARNESS, }, /* Compiler */ + [8] = {"LR", 64, RW, SPR_HARNESS, }, /* Compiler, mfspr/mtspr */ + [9] = {"CTR", 64, RW, SPR_HARNESS, }, /* Compiler, mfspr/mtspr */ + [18] = {"DSISR", 32, OS_RW, SPR_INT, }, + [19] = {"DAR", 64, OS_RW, SPR_INT, }, + [26] = {"SRR0", 64, OS_RW, SPR_INT, }, + [27] = {"SRR1", 64, OS_RW, SPR_INT, }, +[268] = {"TB", 64, RO , SPR_ASYNC, }, +[269] = {"TBU", 32, RO, SPR_ASYNC, }, +[272] = {"SPRG0", 64, OS_RW, SPR_HARNESS, }, /* Int stack */ +[273] = {"SPRG1", 64, OS_RW, SPR_HARNESS, }, /* Scratch */ +[274] = {"SPRG2", 64, OS_RW, }, +[275] = {"SPRG3", 64, OS_RW, }, +[287] = {"PVR", 32, OS_RO, }, +}; + +/* SPRs from PowerPC Operating Environment Architecture, Book III, Vers. 2.01 */ +static const struct spr sprs_201[1024] = { + [22] = {"DEC", 32, OS_RW, SPR_ASYNC, }, + [25] = {"SDR1", 64, HV_RW | OS_RO, }, + [29] = {"ACCR", 64, OS_RW, }, +[136] = {"CTRL", 32, RO, }, +[152] = {"CTRL", 32, OS_WO, }, +[259] = {"SPRG3", 64, RO, }, +/* ASR, EAR omitted */ +[268] = {"TB", 64, RO, }, +[269] = {"TBU", 32, RO, }, +[284] = {"TBL", 32, HV_WO, }, +[285] = {"TBU", 32, HV_WO, }, +[310] = {"HDEC", 32, HV_RW, }, +[1013]= {"DABR", 64, HV_RW | OS_RO, }, +[1023]= {"PIR", 32, OS_RO, }, +}; + +static const struct spr sprs_970_pmu[1024] = { +/* POWER4+ PMU, should find PPC970 and confirm */ +[770] = {"MMCRA", 64, RO, }, +[771] = {"PMC1", 32, RO, }, +[772] = {"PMC2", 32, RO, }, +[773] = {"PMC3", 32, RO, }, +[774] = {"PMC4", 32, RO, }, +[775] = {"PMC5", 32, RO, }, +[776] = {"PMC6", 32, RO, }, +[777] = {"PMC7", 32, RO, }, +[778] = {"PMC8", 32, RO, }, +[779] = {"MMCR0", 64, RO, }, +[780] = {"SIAR", 64, RO, }, +[781] = {"SDAR", 64, RO, }, +[782] = {"MMCR1", 64, RO, }, +[786] = {"MMCRA", 64, OS_RW, }, +[787] = {"PMC1", 32, OS_RW, }, +[788] = {"PMC2", 32, OS_RW, }, +[789] = {"PMC3", 32, OS_RW, }, +[790] = {"PMC4", 32, OS_RW, }, +[791] = {"PMC5", 32, OS_RW, }, +[792] = {"PMC6", 32, OS_RW, }, +[793] = {"PMC7", 32, OS_RW, }, +[794] = {"PMC8", 32, OS_RW, }, +[795] = {"MMCR0", 64, OS_RW, }, +[796] = {"SIAR", 64, OS_RW, }, +[797] = {"SDAR", 64, OS_RW, }, +[798] = {"MMCR1", 64, OS_RW, }, +}; + +/* These are common SPRs from 2.07S onward (POWER CPUs that support KVM HV) */ +static const struct spr sprs_power_common[1024] = { + [3] = {"DSCR", 64, RW, }, + [13] = {"AMR", 64, RW, }, + [17] = {"DSCR", 64, OS_RW, }, + [28] = {"CFAR", 64, OS_RW, SPR_ASYNC, }, /* Effectively async */ + [29] = {"AMR", 64, OS_RW, }, + [61] = {"IAMR", 64, OS_RW, }, +[136] = {"CTRL", 32, RO, }, +[152] = {"CTRL", 32, OS_WO, }, +[153] = {"FSCR", 64, OS_RW, }, +[157] = {"UAMOR", 64, OS_RW, }, +[159] = {"PSPB", 32, OS_RW, }, +[176] = {"DPDES", 64, HV_RW | OS_RO, }, +[180] = {"DAWR0", 64, HV_RW, }, +[186] = {"RPR", 64, HV_RW, }, +[187] = {"CIABR", 64, HV_RW, }, +[188] = {"DAWRX0", 32, HV_RW, }, +[190] = {"HFSCR", 64, HV_RW, }, +[256] = {"VRSAVE", 32, RW, }, +[259] = {"SPRG3", 64, RO, }, +[284] = {"TBL", 32, HV_WO, }, +[285] = {"TBU", 32, HV_WO, }, +[286] = {"TBU40", 64, HV_WO, }, +[304] = {"HSPRG0", 64, HV_RW, }, +[305] = {"HSPRG1", 64, HV_RW, }, +[306] = {"HDSISR", 32, HV_RW, SPR_INT, }, +[307] = {"HDAR", 64, HV_RW, SPR_INT, }, +[308] = {"SPURR", 64, HV_RW | OS_RO, SPR_ASYNC, }, +[309] = {"PURR", 64, HV_RW | OS_RO, SPR_ASYNC, }, +[313] = {"HRMOR", 64, HV_RW, }, +[314] = {"HSRR0", 64, HV_RW, SPR_INT, }, +[315] = {"HSRR1", 64, HV_RW, SPR_INT, }, +[318] = {"LPCR", 64, HV_RW, }, +[319] = {"LPIDR", 32, HV_RW, }, +[336] = {"HMER", 64, HV_RW, }, +[337] = {"HMEER", 64, HV_RW, }, +[338] = {"PCR", 64, HV_RW, }, +[349] = {"AMOR", 64, HV_RW, }, +[446] = {"TIR", 64, OS_RO, }, +[800] = {"BESCRS", 64, RW, }, +[801] = {"BESCRSU", 32, RW, }, +[802] = {"BESCRR", 64, RW, }, +[803] = {"BESCRRU", 32, RW, }, +[804] = {"EBBHR", 64, RW, }, +[805] = {"EBBRR", 64, RW, }, +[806] = {"BESCR", 64, RW, }, +[815] = {"TAR", 64, RW, }, +[848] = {"IC", 64, HV_RW | OS_RO, SPR_ASYNC, }, +[849] = {"VTB", 64, HV_RW | OS_RO, SPR_ASYNC, }, +[896] = {"PPR", 64, RW, }, +[898] = {"PPR32", 32, RW, }, +[1023]= {"PIR", 32, OS_RO, }, +}; + +static const struct spr sprs_tm[1024] = { +#if 0 + /* XXX: leave these out until enabling TM facility (and more testing) */ +[128] = {"TFHAR", 64, RW, }, +[129] = {"TFIAR", 64, RW, }, +[130] = {"TEXASR", 64, RW, }, +[131] = {"TEXASRU", 32, RW, }, +#endif +}; + /* SPRs from PowerISA 2.07 Book III-S */ -static void set_sprs_book3s_207(uint64_t val) -{ - mtspr(3, val); /* DSCR */ - mtspr(13, val); /* AMR */ - mtspr(17, val); /* DSCR */ - mtspr(18, val); /* DSISR */ - mtspr(19, val); /* DAR */ - mtspr(29, val); /* AMR */ - mtspr(61, val); /* IAMR */ - // mtspr(152, val); /* CTRL */ /* TODO: Needs a fix in KVM */ - mtspr(153, val); /* FSCR */ - mtspr(157, val); /* UAMOR */ - mtspr(159, val); /* PSPB */ - mtspr(256, val); /* VRSAVE */ - // mtspr(272, val); /* SPRG0 */ /* Used by our exception handler */ - mtspr(769, val); /* MMCR2 */ - mtspr(770, val); /* MMCRA */ - mtspr(771, val); /* PMC1 */ - mtspr(772, val); /* PMC2 */ - mtspr(773, val); /* PMC3 */ - mtspr(774, val); /* PMC4 */ - mtspr(775, val); /* PMC5 */ - mtspr(776, val); /* PMC6 */ - mtspr(779, (val & 0xfffffffffbab3fffULL) | 0xfa0b2070); /* MMCR0 */ - mtspr(784, val); /* SIER */ - mtspr(785, val); /* MMCR2 */ - mtspr(786, val); /* MMCRA */ - mtspr(787, val); /* PMC1 */ - mtspr(788, val); /* PMC2 */ - mtspr(789, val); /* PMC3 */ - mtspr(790, val); /* PMC4 */ - mtspr(791, val); /* PMC5 */ - mtspr(792, val); /* PMC6 */ - mtspr(795, (val & 0xfffffffffbab3fffULL) | 0xfa0b2070); /* MMCR0 */ - mtspr(796, val); /* SIAR */ - mtspr(797, val); /* SDAR */ - mtspr(798, val); /* MMCR1 */ - mtspr(800, val); /* BESCRS */ - mtspr(801, val); /* BESCCRSU */ - mtspr(802, val); /* BESCRR */ - mtspr(803, val); /* BESCRRU */ - mtspr(804, val); /* EBBHR */ - mtspr(805, val); /* EBBRR */ - mtspr(806, val); /* BESCR */ - mtspr(815, val); /* TAR */ -} +static const struct spr sprs_207[1024] = { + [22] = {"DEC", 32, OS_RW, SPR_ASYNC, }, + [25] = {"SDR1", 64, HV_RW, }, +[177] = {"DHDES", 64, HV_RW, }, +[283] = {"CIR", 32, OS_RO, }, +[310] = {"HDEC", 32, HV_RW, SPR_ASYNC, }, +[312] = {"RMOR", 64, HV_RW, }, +[339] = {"HEIR", 32, HV_RW, }, +}; /* SPRs from PowerISA 3.00 Book III */ -static void set_sprs_book3s_300(uint64_t val) -{ - set_sprs_book3s_207(val); - mtspr(48, val); /* PIDR */ - mtspr(144, val); /* TIDR */ - mtspr(823, val); /* PSSCR */ -} +static const struct spr sprs_300[1024] = { + [22] = {"DEC", 64, OS_RW, SPR_ASYNC, }, + [48] = {"PIDR", 32, OS_RW, }, +[144] = {"TIDR", 64, OS_RW, }, +[283] = {"CIR", 32, OS_RO, }, +[310] = {"HDEC", 64, HV_RW, SPR_ASYNC, }, +[339] = {"HEIR", 32, HV_RW, }, +[464] = {"PTCR", 64, HV_RW, }, +[816] = {"ASDR", 64, HV_RW, SPR_INT}, +[823] = {"PSSCR", 64, OS_RW, }, +[855] = {"PSSCR", 64, HV_RW, }, +}; -/* SPRs from Power ISA Version 3.1B */ -static void set_sprs_book3s_31(uint64_t val) -{ - set_sprs_book3s_207(val); - mtspr(48, val); /* PIDR */ - /* 3.1 removes TIDR */ - mtspr(823, val); /* PSSCR */ -} +/* SPRs from PowerISA 3.1B Book III */ +static const struct spr sprs_31[1024] = { + [22] = {"DEC", 64, OS_RW, SPR_ASYNC, }, + [48] = {"PIDR", 32, OS_RW, }, +[181] = {"DAWR1", 64, HV_RW, }, +[189] = {"DAWRX1", 32, HV_RW, }, +[310] = {"HDEC", 64, HV_RW, SPR_ASYNC, }, +[339] = {"HEIR", 64, HV_RW, }, +[455] = {"HDEXCR", 32, RO, }, +[464] = {"PTCR", 64, HV_RW, }, +[468] = {"HASHKEYR", 64, OS_RW, }, +[469] = {"HASHPKEYR", 64, HV_RW, }, +[471] = {"HDEXCR", 64, HV_RW, }, +[812] = {"DEXCR", 32, RO, }, +[816] = {"ASDR", 64, HV_RW, SPR_INT, }, +[823] = {"PSSCR", 64, OS_RW, }, +[828] = {"DEXCR", 64, OS_RW, }, +[855] = {"PSSCR", 64, HV_RW, }, +}; -static void set_sprs(uint64_t val) +/* SPRs POWER9, POWER10 User Manual */ +static const struct spr sprs_power9_10[1024] = { +[276] = {"SPRC", 64, HV_RW, }, +[266] = {"SPRD", 64, HV_RW, }, +[317] = {"TFMR", 64, HV_RW, }, +[799] = {"IMC", 64, HV_RW, }, +[850] = {"LDBAR", 64, HV_RO, }, +[851] = {"MMCRC", 32, HV_RW, }, +[853] = {"PMSR", 32, HV_RO, }, +[861] = {"L2QOSR", 64, HV_WO, }, +[881] = {"TRIG1", 64, OS_WO, }, +[882] = {"TRIG2", 64, OS_WO, }, +[884] = {"PMCR", 64, HV_RW, }, +[885] = {"RWMR", 64, HV_RW, }, +[895] = {"WORT", 64, OS_RW, }, /* UM says 18-bits! */ +[921] = {"TSCR", 32, HV_RW, }, +[922] = {"TTR", 64, HV_RW, }, +[1006]= {"TRACE", 64, WO, }, +[1008]= {"HID", 64, HV_RW, }, +}; + +/* This covers POWER8 and POWER9 PMUs */ +static const struct spr sprs_power_common_pmu[1024] = { +[768] = {"SIER", 64, RO, }, +[769] = {"MMCR2", 64, RW, }, +[770] = {"MMCRA", 64, RW, }, +[771] = {"PMC1", 32, RW, }, +[772] = {"PMC2", 32, RW, }, +[773] = {"PMC3", 32, RW, }, +[774] = {"PMC4", 32, RW, }, +[775] = {"PMC5", 32, RW, }, +[776] = {"PMC6", 32, RW, }, +[779] = {"MMCR0", 64, RW, }, +[780] = {"SIAR", 64, RO, }, +[781] = {"SDAR", 64, RO, }, +[782] = {"MMCR1", 64, RO, }, +[784] = {"SIER", 64, OS_RW, }, +[785] = {"MMCR2", 64, OS_RW, }, +[786] = {"MMCRA", 64, OS_RW, }, +[787] = {"PMC1", 32, OS_RW, }, +[788] = {"PMC2", 32, OS_RW, }, +[789] = {"PMC3", 32, OS_RW, }, +[790] = {"PMC4", 32, OS_RW, }, +[791] = {"PMC5", 32, OS_RW, }, +[792] = {"PMC6", 32, OS_RW, }, +[795] = {"MMCR0", 64, OS_RW, }, +[796] = {"SIAR", 64, OS_RW, }, +[797] = {"SDAR", 64, OS_RW, }, +[798] = {"MMCR1", 64, OS_RW, }, +}; + +static const struct spr sprs_power10_pmu[1024] = { +[736] = {"SEIR2", 64, RO, }, +[737] = {"SEIR3", 64, RO, }, +[738] = {"MMCR3", 64, RO, }, +[752] = {"SEIR2", 64, OS_RW, }, +[753] = {"SEIR3", 64, OS_RW, }, +[754] = {"MMCR3", 64, OS_RW, }, +}; + +static struct spr sprs[1024]; + +static void setup_sprs(void) { uint32_t pvr = mfspr(287); /* Processor Version Register */ + int i; - set_sprs_common(val); + for (i = 0; i < 1024; i++) { + if (sprs_common[i].name) { + memcpy(&sprs[i], &sprs_common[i], sizeof(struct spr)); + } + } switch (pvr >> 16) { case 0x39: /* PPC970 */ case 0x3C: /* PPC970FX */ case 0x44: /* PPC970MP */ - set_sprs_book3s_201(val); + for (i = 0; i < 1024; i++) { + if (sprs_power_common[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr)); + } + if (sprs_201[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_201[i], sizeof(struct spr)); + } + if (sprs_970_pmu[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr)); + } + } break; + case 0x4b: /* POWER8E */ case 0x4c: /* POWER8NVL */ case 0x4d: /* POWER8 */ - set_sprs_book3s_207(val); + for (i = 0; i < 1024; i++) { + if (sprs_power_common[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr)); + } + if (sprs_207[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_207[i], sizeof(struct spr)); + } + if (sprs_tm[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_tm[i], sizeof(struct spr)); + } + if (sprs_power_common_pmu[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr)); + } + } break; + case 0x4e: /* POWER9 */ - set_sprs_book3s_300(val); + for (i = 0; i < 1024; i++) { + if (sprs_power_common[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr)); + } + if (sprs_300[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_300[i], sizeof(struct spr)); + } + if (sprs_tm[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_tm[i], sizeof(struct spr)); + } + if (sprs_power9_10[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power9_10[i], sizeof(struct spr)); + } + if (sprs_power_common_pmu[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr)); + } + } break; - case 0x80: /* POWER10 */ - set_sprs_book3s_31(val); + + case 0x80: /* POWER10 */ + for (i = 0; i < 1024; i++) { + if (sprs_power_common[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr)); + } + if (sprs_31[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_31[i], sizeof(struct spr)); + } + if (sprs_power9_10[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power9_10[i], sizeof(struct spr)); + } + if (sprs_power_common_pmu[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr)); + } + if (sprs_power10_pmu[i].name) { + assert(!sprs[i].name); + memcpy(&sprs[i], &sprs_power10_pmu[i], sizeof(struct spr)); + } + } break; + default: - puts("Warning: Unknown processor version!\n"); + memcpy(sprs, sprs_common, sizeof(sprs)); + puts("Warning: Unknown processor version, falling back to common SPRs!\n"); + break; } } -static void get_sprs_common(uint64_t *v) -{ - v[9] = mfspr(9); /* CTR */ - // v[273] = mfspr(273); /* SPRG1 */ /* Used by our exception handler */ - v[274] = mfspr(274); /* SPRG2 */ - v[275] = mfspr(275); /* SPRG3 */ -} - -static void get_sprs_book3s_201(uint64_t *v) -{ - v[18] = mfspr(18); /* DSISR */ - v[19] = mfspr(19); /* DAR */ - v[136] = mfspr(136); /* CTRL */ - v[256] = mfspr(256); /* VRSAVE */ - v[786] = mfspr(786); /* MMCRA */ - v[795] = mfspr(795); /* MMCR0 */ - v[798] = mfspr(798); /* MMCR1 */ -} - -static void get_sprs_book3s_207(uint64_t *v) -{ - v[3] = mfspr(3); /* DSCR */ - v[13] = mfspr(13); /* AMR */ - v[17] = mfspr(17); /* DSCR */ - v[18] = mfspr(18); /* DSISR */ - v[19] = mfspr(19); /* DAR */ - v[29] = mfspr(29); /* AMR */ - v[61] = mfspr(61); /* IAMR */ - // v[136] = mfspr(136); /* CTRL */ /* TODO: Needs a fix in KVM */ - v[153] = mfspr(153); /* FSCR */ - v[157] = mfspr(157); /* UAMOR */ - v[159] = mfspr(159); /* PSPB */ - v[256] = mfspr(256); /* VRSAVE */ - v[259] = mfspr(259); /* SPRG3 (read only) */ - // v[272] = mfspr(272); /* SPRG0 */ /* Used by our exception handler */ - v[769] = mfspr(769); /* MMCR2 */ - v[770] = mfspr(770); /* MMCRA */ - v[771] = mfspr(771); /* PMC1 */ - v[772] = mfspr(772); /* PMC2 */ - v[773] = mfspr(773); /* PMC3 */ - v[774] = mfspr(774); /* PMC4 */ - v[775] = mfspr(775); /* PMC5 */ - v[776] = mfspr(776); /* PMC6 */ - v[779] = mfspr(779); /* MMCR0 */ - v[780] = mfspr(780); /* SIAR (read only) */ - v[781] = mfspr(781); /* SDAR (read only) */ - v[782] = mfspr(782); /* MMCR1 (read only) */ - v[784] = mfspr(784); /* SIER */ - v[785] = mfspr(785); /* MMCR2 */ - v[786] = mfspr(786); /* MMCRA */ - v[787] = mfspr(787); /* PMC1 */ - v[788] = mfspr(788); /* PMC2 */ - v[789] = mfspr(789); /* PMC3 */ - v[790] = mfspr(790); /* PMC4 */ - v[791] = mfspr(791); /* PMC5 */ - v[792] = mfspr(792); /* PMC6 */ - v[795] = mfspr(795); /* MMCR0 */ - v[796] = mfspr(796); /* SIAR */ - v[797] = mfspr(797); /* SDAR */ - v[798] = mfspr(798); /* MMCR1 */ - v[800] = mfspr(800); /* BESCRS */ - v[801] = mfspr(801); /* BESCCRSU */ - v[802] = mfspr(802); /* BESCRR */ - v[803] = mfspr(803); /* BESCRRU */ - v[804] = mfspr(804); /* EBBHR */ - v[805] = mfspr(805); /* EBBRR */ - v[806] = mfspr(806); /* BESCR */ - v[815] = mfspr(815); /* TAR */ -} - -static void get_sprs_book3s_300(uint64_t *v) +static void get_sprs(uint64_t *v) { - get_sprs_book3s_207(v); - v[48] = mfspr(48); /* PIDR */ - v[144] = mfspr(144); /* TIDR */ - v[823] = mfspr(823); /* PSSCR */ -} + int i; -static void get_sprs_book3s_31(uint64_t *v) -{ - get_sprs_book3s_207(v); - v[48] = mfspr(48); /* PIDR */ - v[823] = mfspr(823); /* PSSCR */ + for (i = 0; i < 1024; i++) { + if (!(sprs[i].access & SPR_OS_READ)) + continue; + v[i] = __mfspr(i); + } } -static void get_sprs(uint64_t *v) +static void set_sprs(uint64_t val) { - uint32_t pvr = mfspr(287); /* Processor Version Register */ - - get_sprs_common(v); + int i; - switch (pvr >> 16) { - case 0x39: /* PPC970 */ - case 0x3C: /* PPC970FX */ - case 0x44: /* PPC970MP */ - get_sprs_book3s_201(v); - break; - case 0x4b: /* POWER8E */ - case 0x4c: /* POWER8NVL */ - case 0x4d: /* POWER8 */ - get_sprs_book3s_207(v); - break; - case 0x4e: /* POWER9 */ - get_sprs_book3s_300(v); - break; - case 0x80: /* POWER10 */ - get_sprs_book3s_31(v); - break; + for (i = 0; i < 1024; i++) { + if (!(sprs[i].access & SPR_OS_WRITE)) + continue; + if (sprs[i].type & SPR_HARNESS) + continue; + if (!strcmp(sprs[i].name, "MMCR0")) { + /* XXX: could use a comment or better abstraction! */ + __mtspr(i, (val & 0xfffffffffbab3fffULL) | 0xfa0b2070); + } else { + __mtspr(i, val); + } } } @@ -289,7 +523,9 @@ int main(int argc, char **argv) } } - printf("Settings SPRs to %#lx...\n", pat); + setup_sprs(); + + printf("Setting SPRs to 0x%lx...\n", pat); set_sprs(pat); memset(before, 0, sizeof(before)); @@ -301,16 +537,37 @@ int main(int argc, char **argv) migrate_once(); } else { msleep(2000); + + /* Taking a dec updates SRR0, SRR1, SPRG1, so don't fail. */ + sprs[26].type |= SPR_ASYNC; + sprs[27].type |= SPR_ASYNC; + sprs[273].type |= SPR_ASYNC; } get_sprs(after); puts("Checking SPRs...\n"); for (i = 0; i < 1024; i++) { - if (before[i] != 0 || after[i] != 0) - report(before[i] == after[i], - "SPR %d:\t%#018lx <==> %#018lx", i, before[i], - after[i]); + bool pass = true; + + if (!(sprs[i].access & SPR_OS_READ)) + continue; + + if (sprs[i].width == 32) { + if (before[i] >> 32) + pass = false; + } + if (!(sprs[i].type & SPR_ASYNC) && (before[i] != after[i])) + pass = false; + + if (sprs[i].width == 32 && !(before[i] >> 32) && !(after[i] >> 32)) + report(pass, "%-10s(%4d):\t 0x%08lx <==> 0x%08lx", + sprs[i].name, i, + before[i], after[i]); + else + report(pass, "%-10s(%4d):\t0x%016lx <==> 0x%016lx", + sprs[i].name, i, + before[i], after[i]); } return report_summary();