/* Copyright (c) 2012-2014, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "msm_iommu_pagetable.h" /* bitmap of the page sizes currently supported */ #define MSM_IOMMU_PGSIZES (SZ_4K | SZ_64K | SZ_1M | SZ_16M) static DEFINE_MUTEX(msm_iommu_lock); struct dump_regs_tbl dump_regs_tbl[MAX_DUMP_REGS]; static int __enable_regulators(struct msm_iommu_drvdata *drvdata) { int ret = 0; if (drvdata->gdsc) { ret = regulator_enable(drvdata->gdsc); if (ret) goto fail; if (drvdata->alt_gdsc) ret = regulator_enable(drvdata->alt_gdsc); if (ret) regulator_disable(drvdata->gdsc); } fail: return ret; } static void __disable_regulators(struct msm_iommu_drvdata *drvdata) { if (drvdata->alt_gdsc) regulator_disable(drvdata->alt_gdsc); if (drvdata->gdsc) regulator_disable(drvdata->gdsc); } static int apply_bus_vote(struct msm_iommu_drvdata *drvdata, unsigned int vote) { int ret = 0; if (drvdata->bus_client) { ret = msm_bus_scale_client_update_request(drvdata->bus_client, vote); if (ret) pr_err("%s: Failed to vote for bus: %d\n", __func__, vote); } return ret; } static int __enable_clocks(struct msm_iommu_drvdata *drvdata) { int ret; ret = clk_prepare_enable(drvdata->pclk); if (ret) goto fail; ret = clk_prepare_enable(drvdata->clk); if (ret) clk_disable_unprepare(drvdata->pclk); if (drvdata->aclk) { ret = clk_prepare_enable(drvdata->aclk); if (ret) { clk_disable_unprepare(drvdata->clk); clk_disable_unprepare(drvdata->pclk); } } if (drvdata->clk_reg_virt) { unsigned int value; value = readl_relaxed(drvdata->clk_reg_virt); value &= ~0x1; writel_relaxed(value, drvdata->clk_reg_virt); /* Ensure clock is on before continuing */ mb(); } fail: return ret; } static void __disable_clocks(struct msm_iommu_drvdata *drvdata) { if (drvdata->aclk) clk_disable_unprepare(drvdata->aclk); clk_disable_unprepare(drvdata->clk); clk_disable_unprepare(drvdata->pclk); } static void _iommu_lock_acquire(unsigned int need_extra_lock) { mutex_lock(&msm_iommu_lock); } static void _iommu_lock_release(unsigned int need_extra_lock) { mutex_unlock(&msm_iommu_lock); } struct iommu_access_ops iommu_access_ops_v1 = { .iommu_power_on = __enable_regulators, .iommu_power_off = __disable_regulators, .iommu_bus_vote = apply_bus_vote, .iommu_clk_on = __enable_clocks, .iommu_clk_off = __disable_clocks, .iommu_lock_acquire = _iommu_lock_acquire, .iommu_lock_release = _iommu_lock_release, }; #ifdef CONFIG_MSM_IOMMU_VBIF_CHECK #define VBIF_XIN_HALT_CTRL0 0x200 #define VBIF_XIN_HALT_CTRL1 0x204 #define VBIF_AXI_HALT_CTRL0 0x208 #define VBIF_AXI_HALT_CTRL1 0x20C static void __halt_vbif_xin(void __iomem *vbif_base) { pr_err("Halting VBIF_XIN\n"); writel_relaxed(0xFFFFFFFF, vbif_base + VBIF_XIN_HALT_CTRL0); } static void __dump_vbif_state(void __iomem *base, void __iomem *vbif_base) { unsigned int reg_val; reg_val = readl_relaxed(base + MICRO_MMU_CTRL); pr_err("Value of SMMU_IMPLDEF_MICRO_MMU_CTRL = 0x%x\n", reg_val); reg_val = readl_relaxed(vbif_base + VBIF_XIN_HALT_CTRL0); pr_err("Value of VBIF_XIN_HALT_CTRL0 = 0x%x\n", reg_val); reg_val = readl_relaxed(vbif_base + VBIF_XIN_HALT_CTRL1); pr_err("Value of VBIF_XIN_HALT_CTRL1 = 0x%x\n", reg_val); reg_val = readl_relaxed(vbif_base + VBIF_AXI_HALT_CTRL0); pr_err("Value of VBIF_AXI_HALT_CTRL0 = 0x%x\n", reg_val); reg_val = readl_relaxed(vbif_base + VBIF_AXI_HALT_CTRL1); pr_err("Value of VBIF_AXI_HALT_CTRL1 = 0x%x\n", reg_val); } static int __check_vbif_state(struct msm_iommu_drvdata const *drvdata) { phys_addr_t addr = (phys_addr_t) (drvdata->phys_base - (phys_addr_t) 0x4000); void __iomem *base = ioremap(addr, 0x1000); int ret = 0; if (base) { __dump_vbif_state(drvdata->base, base); __halt_vbif_xin(drvdata->base); __dump_vbif_state(drvdata->base, base); iounmap(base); } else { pr_err("%s: Unable to ioremap\n", __func__); ret = -ENOMEM; } return ret; } static void check_halt_state(struct msm_iommu_drvdata const *drvdata) { int res; unsigned int val; void __iomem *base = drvdata->base; char const *name = drvdata->name; pr_err("Timed out waiting for IOMMU halt to complete for %s\n", name); res = __check_vbif_state(drvdata); if (res) BUG(); pr_err("Checking if IOMMU halt completed for %s\n", name); res = readl_tight_poll_timeout( GLB_REG(MICRO_MMU_CTRL, base), val, (val & MMU_CTRL_IDLE) == MMU_CTRL_IDLE, 5000000); if (res) { pr_err("Timed out (again) waiting for IOMMU halt to complete for %s\n", name); } else { pr_err("IOMMU halt completed. VBIF FIFO most likely not getting drained by master\n"); } BUG(); } static void check_tlb_sync_state(struct msm_iommu_drvdata const *drvdata, int ctx) { int res; unsigned int val; void __iomem *base = drvdata->base; char const *name = drvdata->name; pr_err("Timed out waiting for TLB SYNC to complete for %s\n", name); res = __check_vbif_state(drvdata); if (res) BUG(); pr_err("Checking if TLB sync completed for %s\n", name); res = readl_tight_poll_timeout(CTX_REG(CB_TLBSTATUS, base, ctx), val, (val & CB_TLBSTATUS_SACTIVE) == 0, 5000000); if (res) { pr_err("Timed out (again) waiting for TLB SYNC to complete for %s\n", name); } else { pr_err("TLB Sync completed. VBIF FIFO most likely not getting drained by master\n"); } BUG(); } #else /* * For targets without VBIF or for targets with the VBIF check disabled * we directly just crash to capture the issue */ static void check_halt_state(struct msm_iommu_drvdata const *drvdata) { BUG(); } static void check_tlb_sync_state(struct msm_iommu_drvdata const *drvdata, int ctx) { BUG(); } #endif void iommu_halt(struct msm_iommu_drvdata const *iommu_drvdata) { if (iommu_drvdata->halt_enabled) { unsigned int val; void __iomem *base = iommu_drvdata->base; int res; SET_MICRO_MMU_CTRL_HALT_REQ(base, 1); res = readl_tight_poll_timeout( GLB_REG(MICRO_MMU_CTRL, base), val, (val & MMU_CTRL_IDLE) == MMU_CTRL_IDLE, 5000000); if (res) check_halt_state(iommu_drvdata); /* Ensure device is idle before continuing */ mb(); } } void iommu_resume(const struct msm_iommu_drvdata *iommu_drvdata) { if (iommu_drvdata->halt_enabled) { /* * Ensure transactions have completed before releasing * the halt */ mb(); SET_MICRO_MMU_CTRL_HALT_REQ(iommu_drvdata->base, 0); /* * Ensure write is complete before continuing to ensure * we don't turn off clocks while transaction is still * pending. */ mb(); } } static void __sync_tlb(struct msm_iommu_drvdata *iommu_drvdata, int ctx) { unsigned int val; unsigned int res; void __iomem *base = iommu_drvdata->base; SET_TLBSYNC(base, ctx, 0); /* No barrier needed due to read dependency */ res = readl_tight_poll_timeout(CTX_REG(CB_TLBSTATUS, base, ctx), val, (val & CB_TLBSTATUS_SACTIVE) == 0, 5000000); if (res) check_tlb_sync_state(iommu_drvdata, ctx); } static int __flush_iotlb_va(struct iommu_domain *domain, unsigned int va) { struct msm_iommu_priv *priv = domain->priv; struct msm_iommu_drvdata *iommu_drvdata; struct msm_iommu_ctx_drvdata *ctx_drvdata; int ret = 0; list_for_each_entry(ctx_drvdata, &priv->list_attached, attached_elm) { BUG_ON(!ctx_drvdata->pdev || !ctx_drvdata->pdev->dev.parent); iommu_drvdata = dev_get_drvdata(ctx_drvdata->pdev->dev.parent); BUG_ON(!iommu_drvdata); ret = __enable_clocks(iommu_drvdata); if (ret) goto fail; SET_TLBIVA(iommu_drvdata->base, ctx_drvdata->num, ctx_drvdata->asid | (va & CB_TLBIVA_VA)); mb(); __sync_tlb(iommu_drvdata, ctx_drvdata->num); __disable_clocks(iommu_drvdata); } fail: return ret; } static int __flush_iotlb(struct iommu_domain *domain) { struct msm_iommu_priv *priv = domain->priv; struct msm_iommu_drvdata *iommu_drvdata; struct msm_iommu_ctx_drvdata *ctx_drvdata; int ret = 0; list_for_each_entry(ctx_drvdata, &priv->list_attached, attached_elm) { BUG_ON(!ctx_drvdata->pdev || !ctx_drvdata->pdev->dev.parent); iommu_drvdata = dev_get_drvdata(ctx_drvdata->pdev->dev.parent); BUG_ON(!iommu_drvdata); ret = __enable_clocks(iommu_drvdata); if (ret) goto fail; SET_TLBIASID(iommu_drvdata->base, ctx_drvdata->num, ctx_drvdata->asid); mb(); __sync_tlb(iommu_drvdata, ctx_drvdata->num); __disable_clocks(iommu_drvdata); } fail: return ret; } /* * May only be called for non-secure iommus */ static void __reset_iommu(void __iomem *base) { int i, smt_size; SET_ACR(base, 0); SET_CR2(base, 0); SET_GFAR(base, 0); SET_GFSRRESTORE(base, 0); SET_TLBIALLNSNH(base, 0); smt_size = GET_IDR0_NUMSMRG(base); for (i = 0; i < smt_size; i++) SET_SMR_VALID(base, i, 0); mb(); } #ifdef CONFIG_IOMMU_NON_SECURE static void __reset_iommu_secure(void __iomem *base) { SET_NSACR(base, 0); SET_NSCR2(base, 0); SET_NSGFAR(base, 0); SET_NSGFSRRESTORE(base, 0); mb(); } static void __program_iommu_secure(void __iomem *base) { SET_NSCR0_SMCFCFG(base, 1); SET_NSCR0_USFCFG(base, 1); SET_NSCR0_STALLD(base, 1); SET_NSCR0_GCFGFIE(base, 1); SET_NSCR0_GCFGFRE(base, 1); SET_NSCR0_GFIE(base, 1); SET_NSCR0_GFRE(base, 1); SET_NSCR0_CLIENTPD(base, 0); } #else static inline void __reset_iommu_secure(void __iomem *base) { } static inline void __program_iommu_secure(void __iomem *base) { } #endif /* * May only be called for non-secure iommus */ static void __program_iommu(void __iomem *base) { __reset_iommu(base); __reset_iommu_secure(base); SET_CR0_SMCFCFG(base, 1); SET_CR0_USFCFG(base, 1); SET_CR0_STALLD(base, 1); SET_CR0_GCFGFIE(base, 1); SET_CR0_GCFGFRE(base, 1); SET_CR0_GFIE(base, 1); SET_CR0_GFRE(base, 1); SET_CR0_CLIENTPD(base, 0); __program_iommu_secure(base); mb(); /* Make sure writes complete before returning */ } void program_iommu_bfb_settings(void __iomem *base, const struct msm_iommu_bfb_settings *bfb_settings) { unsigned int i; if (bfb_settings) for (i = 0; i < bfb_settings->length; i++) SET_GLOBAL_REG(base, bfb_settings->regs[i], bfb_settings->data[i]); mb(); /* Make sure writes complete before returning */ } static void __reset_context(void __iomem *base, int ctx) { SET_ACTLR(base, ctx, 0); SET_FAR(base, ctx, 0); SET_FSRRESTORE(base, ctx, 0); SET_NMRR(base, ctx, 0); SET_PAR(base, ctx, 0); SET_PRRR(base, ctx, 0); SET_SCTLR(base, ctx, 0); SET_TLBIALL(base, ctx, 0); SET_TTBCR(base, ctx, 0); SET_TTBR0(base, ctx, 0); SET_TTBR1(base, ctx, 0); mb(); } static void __release_smg(void __iomem *base) { int i, smt_size; smt_size = GET_IDR0_NUMSMRG(base); /* Invalidate all SMGs */ for (i = 0; i < smt_size; i++) if (GET_SMR_VALID(base, i)) SET_SMR_VALID(base, i, 0); } static void msm_iommu_assign_ASID(const struct msm_iommu_drvdata *iommu_drvdata, struct msm_iommu_ctx_drvdata *curr_ctx, struct msm_iommu_priv *priv) { unsigned int found = 0; void __iomem *base = iommu_drvdata->base; unsigned int i; unsigned int ncb = iommu_drvdata->ncb; struct msm_iommu_ctx_drvdata *tmp_drvdata; /* Find if this page table is used elsewhere, and re-use ASID */ if (!list_empty(&priv->list_attached)) { tmp_drvdata = list_first_entry(&priv->list_attached, struct msm_iommu_ctx_drvdata, attached_elm); ++iommu_drvdata->asid[tmp_drvdata->asid - 1]; curr_ctx->asid = tmp_drvdata->asid; SET_CB_CONTEXTIDR_ASID(base, curr_ctx->num, curr_ctx->asid); found = 1; } /* If page table is new, find an unused ASID */ if (!found) { for (i = 0; i < ncb; ++i) { if (iommu_drvdata->asid[i] == 0) { ++iommu_drvdata->asid[i]; curr_ctx->asid = i + 1; SET_CB_CONTEXTIDR_ASID(base, curr_ctx->num, curr_ctx->asid); found = 1; break; } } BUG_ON(!found); } } static int program_m2v_table(struct device *dev, void __iomem *base) { struct msm_iommu_ctx_drvdata *ctx_drvdata = dev_get_drvdata(dev); u32 *sids = ctx_drvdata->sids; unsigned int ctx = ctx_drvdata->num; int num = 0, i, smt_size; int len = ctx_drvdata->nsid; smt_size = GET_IDR0_NUMSMRG(base); /* Program the M2V tables for this context */ for (i = 0; i < len / sizeof(*sids); i++) { for (; num < smt_size; num++) if (GET_SMR_VALID(base, num) == 0) break; BUG_ON(num >= smt_size); SET_SMR_VALID(base, num, 1); SET_SMR_MASK(base, num, 0); SET_SMR_ID(base, num, sids[i]); SET_S2CR_N(base, num, 0); SET_S2CR_CBNDX(base, num, ctx); SET_S2CR_MEMATTR(base, num, 0x0A); /* Set security bit override to be Non-secure */ SET_S2CR_NSCFG(base, num, 3); } return 0; } static void program_all_m2v_tables(struct msm_iommu_drvdata *iommu_drvdata) { device_for_each_child(iommu_drvdata->dev, iommu_drvdata->base, program_m2v_table); } static void __program_context(struct msm_iommu_drvdata *iommu_drvdata, struct msm_iommu_ctx_drvdata *ctx_drvdata, struct msm_iommu_priv *priv, bool is_secure, bool program_m2v) { unsigned int prrr, nmrr; phys_addr_t pn; void __iomem *base = iommu_drvdata->base; unsigned int ctx = ctx_drvdata->num; phys_addr_t pgtable = __pa(priv->pt.fl_table); __reset_context(base, ctx); pn = pgtable >> CB_TTBR0_ADDR_SHIFT; SET_TTBCR(base, ctx, 0); SET_CB_TTBR0_ADDR(base, ctx, pn); /* Enable context fault interrupt */ SET_CB_SCTLR_CFIE(base, ctx, 1); /* Redirect all cacheable requests to L2 slave port. */ SET_CB_ACTLR_BPRCISH(base, ctx, 1); SET_CB_ACTLR_BPRCOSH(base, ctx, 1); SET_CB_ACTLR_BPRCNSH(base, ctx, 1); /* Turn on TEX Remap */ SET_CB_SCTLR_TRE(base, ctx, 1); /* Enable private ASID namespace */ SET_CB_SCTLR_ASIDPNE(base, ctx, 1); /* Set TEX remap attributes */ RCP15_PRRR(prrr); RCP15_NMRR(nmrr); SET_PRRR(base, ctx, prrr); SET_NMRR(base, ctx, nmrr); /* Configure page tables as inner-cacheable and shareable to reduce * the TLB miss penalty. */ if (priv->pt.redirect) { SET_CB_TTBR0_S(base, ctx, 1); SET_CB_TTBR0_NOS(base, ctx, 1); SET_CB_TTBR0_IRGN1(base, ctx, 0); /* WB, WA */ SET_CB_TTBR0_IRGN0(base, ctx, 1); SET_CB_TTBR0_RGN(base, ctx, 1); /* WB, WA */ } if (!is_secure) { if (program_m2v) program_all_m2v_tables(iommu_drvdata); SET_CBAR_N(base, ctx, 0); /* Stage 1 Context with Stage 2 bypass */ SET_CBAR_TYPE(base, ctx, 1); /* Route page faults to the non-secure interrupt */ SET_CBAR_IRPTNDX(base, ctx, 1); /* Set VMID to non-secure HLOS */ SET_CBAR_VMID(base, ctx, 3); /* Bypass is treated as inner-shareable */ SET_CBAR_BPSHCFG(base, ctx, 2); /* Do not downgrade memory attributes */ SET_CBAR_MEMATTR(base, ctx, 0x0A); } msm_iommu_assign_ASID(iommu_drvdata, ctx_drvdata, priv); /* Enable the MMU */ SET_CB_SCTLR_M(base, ctx, 1); mb(); } static int msm_iommu_domain_init(struct iommu_domain *domain, int flags) { struct msm_iommu_priv *priv; priv = kzalloc(sizeof(*priv), GFP_KERNEL); if (!priv) goto fail_nomem; #ifdef CONFIG_IOMMU_PGTABLES_L2 priv->pt.redirect = flags & MSM_IOMMU_DOMAIN_PT_CACHEABLE; #endif INIT_LIST_HEAD(&priv->list_attached); if (msm_iommu_pagetable_alloc(&priv->pt)) goto fail_nomem; domain->priv = priv; return 0; fail_nomem: kfree(priv); return -ENOMEM; } static void msm_iommu_domain_destroy(struct iommu_domain *domain) { struct msm_iommu_priv *priv; mutex_lock(&msm_iommu_lock); priv = domain->priv; domain->priv = NULL; if (priv) msm_iommu_pagetable_free(&priv->pt); kfree(priv); mutex_unlock(&msm_iommu_lock); } static int msm_iommu_attach_dev(struct iommu_domain *domain, struct device *dev) { struct msm_iommu_priv *priv; struct msm_iommu_drvdata *iommu_drvdata; struct msm_iommu_ctx_drvdata *ctx_drvdata; struct msm_iommu_ctx_drvdata *tmp_drvdata; int ret = 0; int is_secure; bool set_m2v = false; mutex_lock(&msm_iommu_lock); priv = domain->priv; if (!priv || !dev) { ret = -EINVAL; goto unlock; } iommu_drvdata = dev_get_drvdata(dev->parent); ctx_drvdata = dev_get_drvdata(dev); if (!iommu_drvdata || !ctx_drvdata) { ret = -EINVAL; goto unlock; } ++ctx_drvdata->attach_count; if (ctx_drvdata->attach_count > 1) goto already_attached; if (!list_empty(&ctx_drvdata->attached_elm)) { ret = -EBUSY; goto unlock; } list_for_each_entry(tmp_drvdata, &priv->list_attached, attached_elm) if (tmp_drvdata == ctx_drvdata) { ret = -EBUSY; goto unlock; } is_secure = iommu_drvdata->sec_id != -1; ret = __enable_regulators(iommu_drvdata); if (ret) goto unlock; ret = apply_bus_vote(iommu_drvdata, 1); if (ret) goto unlock; ret = __enable_clocks(iommu_drvdata); if (ret) { __disable_regulators(iommu_drvdata); goto unlock; } /* We can only do this once */ if (!iommu_drvdata->ctx_attach_count) { if (!is_secure) { iommu_halt(iommu_drvdata); __program_iommu(iommu_drvdata->base); iommu_resume(iommu_drvdata); } else { ret = msm_iommu_sec_program_iommu( iommu_drvdata->sec_id); if (ret) { __disable_regulators(iommu_drvdata); __disable_clocks(iommu_drvdata); goto unlock; } } program_iommu_bfb_settings(iommu_drvdata->base, iommu_drvdata->bfb_settings); set_m2v = true; } iommu_halt(iommu_drvdata); __program_context(iommu_drvdata, ctx_drvdata, priv, is_secure, set_m2v); iommu_resume(iommu_drvdata); __disable_clocks(iommu_drvdata); list_add(&(ctx_drvdata->attached_elm), &priv->list_attached); ctx_drvdata->attached_domain = domain; ++iommu_drvdata->ctx_attach_count; already_attached: mutex_unlock(&msm_iommu_lock); msm_iommu_attached(dev->parent); return ret; unlock: mutex_unlock(&msm_iommu_lock); return ret; } static void msm_iommu_detach_dev(struct iommu_domain *domain, struct device *dev) { struct msm_iommu_priv *priv; struct msm_iommu_drvdata *iommu_drvdata; struct msm_iommu_ctx_drvdata *ctx_drvdata; int ret; int is_secure; msm_iommu_detached(dev->parent); mutex_lock(&msm_iommu_lock); priv = domain->priv; if (!priv || !dev) goto unlock; iommu_drvdata = dev_get_drvdata(dev->parent); ctx_drvdata = dev_get_drvdata(dev); if (!iommu_drvdata || !ctx_drvdata || !ctx_drvdata->attached_domain) goto unlock; --ctx_drvdata->attach_count; BUG_ON(ctx_drvdata->attach_count < 0); if (ctx_drvdata->attach_count > 0) goto unlock; ret = __enable_clocks(iommu_drvdata); if (ret) goto unlock; is_secure = iommu_drvdata->sec_id != -1; SET_TLBIASID(iommu_drvdata->base, ctx_drvdata->num, ctx_drvdata->asid); BUG_ON(iommu_drvdata->asid[ctx_drvdata->asid - 1] == 0); iommu_drvdata->asid[ctx_drvdata->asid - 1]--; ctx_drvdata->asid = -1; __reset_context(iommu_drvdata->base, ctx_drvdata->num); /* * Only reset the M2V tables on the very last detach */ if (!is_secure && iommu_drvdata->ctx_attach_count == 1) { iommu_halt(iommu_drvdata); __release_smg(iommu_drvdata->base); iommu_resume(iommu_drvdata); } __disable_clocks(iommu_drvdata); apply_bus_vote(iommu_drvdata, 0); __disable_regulators(iommu_drvdata); list_del_init(&ctx_drvdata->attached_elm); ctx_drvdata->attached_domain = NULL; BUG_ON(iommu_drvdata->ctx_attach_count == 0); --iommu_drvdata->ctx_attach_count; unlock: mutex_unlock(&msm_iommu_lock); } static int msm_iommu_map(struct iommu_domain *domain, unsigned long va, phys_addr_t pa, size_t len, int prot) { struct msm_iommu_priv *priv; int ret = 0; mutex_lock(&msm_iommu_lock); priv = domain->priv; if (!priv) { ret = -EINVAL; goto fail; } ret = msm_iommu_pagetable_map(&priv->pt, va, pa, len, prot); if (ret) goto fail; ret = __flush_iotlb_va(domain, va); fail: mutex_unlock(&msm_iommu_lock); return ret; } static size_t msm_iommu_unmap(struct iommu_domain *domain, unsigned long va, size_t len) { struct msm_iommu_priv *priv; int ret = -ENODEV; mutex_lock(&msm_iommu_lock); priv = domain->priv; if (!priv) goto fail; ret = msm_iommu_pagetable_unmap(&priv->pt, va, len); if (ret < 0) goto fail; ret = __flush_iotlb_va(domain, va); fail: mutex_unlock(&msm_iommu_lock); /* the IOMMU API requires us to return how many bytes were unmapped */ len = ret ? 0 : len; return len; } static int msm_iommu_map_range(struct iommu_domain *domain, unsigned int va, struct scatterlist *sg, unsigned int len, int prot) { int ret; struct msm_iommu_priv *priv; mutex_lock(&msm_iommu_lock); priv = domain->priv; if (!priv) { ret = -EINVAL; goto fail; } ret = msm_iommu_pagetable_map_range(&priv->pt, va, sg, len, prot); if (ret) goto fail; __flush_iotlb(domain); fail: mutex_unlock(&msm_iommu_lock); return ret; } static int msm_iommu_unmap_range(struct iommu_domain *domain, unsigned int va, unsigned int len) { struct msm_iommu_priv *priv; mutex_lock(&msm_iommu_lock); priv = domain->priv; msm_iommu_pagetable_unmap_range(&priv->pt, va, len); __flush_iotlb(domain); mutex_unlock(&msm_iommu_lock); return 0; } static phys_addr_t msm_iommu_iova_to_phys(struct iommu_domain *domain, unsigned long va) { struct msm_iommu_priv *priv; struct msm_iommu_drvdata *iommu_drvdata; struct msm_iommu_ctx_drvdata *ctx_drvdata; u64 par; void __iomem *base; phys_addr_t ret = 0; int ctx; mutex_lock(&msm_iommu_lock); priv = domain->priv; if (list_empty(&priv->list_attached)) goto fail; ctx_drvdata = list_entry(priv->list_attached.next, struct msm_iommu_ctx_drvdata, attached_elm); iommu_drvdata = dev_get_drvdata(ctx_drvdata->pdev->dev.parent); base = iommu_drvdata->base; ctx = ctx_drvdata->num; ret = __enable_clocks(iommu_drvdata); if (ret) { ret = 0; /* 0 indicates translation failed */ goto fail; } SET_ATS1PR(base, ctx, va & CB_ATS1PR_ADDR); mb(); while (GET_CB_ATSR_ACTIVE(base, ctx)) cpu_relax(); par = GET_PAR(base, ctx); __disable_clocks(iommu_drvdata); if (par & CB_PAR_F) { unsigned int level = (par & CB_PAR_PLVL) >> CB_PAR_PLVL_SHIFT; pr_err("IOMMU translation fault!\n"); pr_err("name = %s\n", iommu_drvdata->name); pr_err("context = %s (%d)\n", ctx_drvdata->name, ctx_drvdata->num); pr_err("Interesting registers:\n"); pr_err("PAR = %16llx [%s%s%s%s%s%s%s%sPLVL%u %s]\n", par, (par & CB_PAR_F) ? "F " : "", (par & CB_PAR_TF) ? "TF " : "", (par & CB_PAR_AFF) ? "AFF " : "", (par & CB_PAR_PF) ? "PF " : "", (par & CB_PAR_EF) ? "EF " : "", (par & CB_PAR_TLBMCF) ? "TLBMCF " : "", (par & CB_PAR_TLBLKF) ? "TLBLKF " : "", (par & CB_PAR_ATOT) ? "ATOT " : "", level, (par & CB_PAR_STAGE) ? "S2 " : "S1 "); ret = 0; } else { /* We are dealing with a supersection */ if (ret & CB_PAR_SS) ret = (par & 0xFF000000) | (va & 0x00FFFFFF); else /* Upper 20 bits from PAR, lower 12 from VA */ ret = (par & 0xFFFFF000) | (va & 0x00000FFF); } fail: mutex_unlock(&msm_iommu_lock); return ret; } static int msm_iommu_domain_has_cap(struct iommu_domain *domain, unsigned long cap) { return 0; } void print_ctx_regs(struct msm_iommu_context_reg regs[]) { uint32_t fsr = regs[DUMP_REG_FSR].val; u64 ttbr; pr_err("FAR = %016llx\n", COMBINE_DUMP_REG( regs[DUMP_REG_FAR1].val, regs[DUMP_REG_FAR0].val)); pr_err("PAR = %016llx\n", COMBINE_DUMP_REG( regs[DUMP_REG_PAR1].val, regs[DUMP_REG_PAR0].val)); pr_err("FSR = %08x [%s%s%s%s%s%s%s%s%s]\n", fsr, (fsr & 0x02) ? "TF " : "", (fsr & 0x04) ? "AFF " : "", (fsr & 0x08) ? "PF " : "", (fsr & 0x10) ? "EF " : "", (fsr & 0x20) ? "TLBMCF " : "", (fsr & 0x40) ? "TLBLKF " : "", (fsr & 0x80) ? "MHF " : "", (fsr & 0x40000000) ? "SS " : "", (fsr & 0x80000000) ? "MULTI " : ""); pr_err("FSYNR0 = %08x FSYNR1 = %08x\n", regs[DUMP_REG_FSYNR0].val, regs[DUMP_REG_FSYNR1].val); ttbr = COMBINE_DUMP_REG(regs[DUMP_REG_TTBR0_1].val, regs[DUMP_REG_TTBR0_0].val); if (regs[DUMP_REG_TTBR0_1].valid) pr_err("TTBR0 = %016llx\n", ttbr); else pr_err("TTBR0 = %016llx (32b)\n", ttbr); ttbr = COMBINE_DUMP_REG(regs[DUMP_REG_TTBR1_1].val, regs[DUMP_REG_TTBR1_0].val); if (regs[DUMP_REG_TTBR1_1].valid) pr_err("TTBR1 = %016llx\n", ttbr); else pr_err("TTBR1 = %016llx (32b)\n", ttbr); pr_err("SCTLR = %08x ACTLR = %08x\n", regs[DUMP_REG_SCTLR].val, regs[DUMP_REG_ACTLR].val); pr_err("PRRR = %08x NMRR = %08x\n", regs[DUMP_REG_PRRR].val, regs[DUMP_REG_NMRR].val); } static void __print_ctx_regs(void __iomem *base, int ctx, unsigned int fsr) { struct msm_iommu_context_reg regs[MAX_DUMP_REGS]; unsigned int i; for (i = DUMP_REG_FIRST; i < MAX_DUMP_REGS; ++i) { regs[i].val = GET_CTX_REG(dump_regs_tbl[i].key, base, ctx); regs[i].valid = 1; } print_ctx_regs(regs); } irqreturn_t msm_iommu_fault_handler_v2(int irq, void *dev_id) { struct platform_device *pdev = dev_id; struct msm_iommu_drvdata *drvdata; struct msm_iommu_ctx_drvdata *ctx_drvdata; unsigned int fsr; int ret; mutex_lock(&msm_iommu_lock); BUG_ON(!pdev); drvdata = dev_get_drvdata(pdev->dev.parent); BUG_ON(!drvdata); ctx_drvdata = dev_get_drvdata(&pdev->dev); BUG_ON(!ctx_drvdata); if (!drvdata->ctx_attach_count) { pr_err("Unexpected IOMMU page fault!\n"); pr_err("name = %s\n", drvdata->name); pr_err("Power is OFF. Unable to read page fault information\n"); /* * We cannot determine which context bank caused the issue so * we just return handled here to ensure IRQ handler code is * happy */ ret = IRQ_HANDLED; goto fail; } ret = __enable_clocks(drvdata); if (ret) { ret = IRQ_NONE; goto fail; } fsr = GET_FSR(drvdata->base, ctx_drvdata->num); if (fsr) { if (!ctx_drvdata->attached_domain) { pr_err("Bad domain in interrupt handler\n"); ret = -ENOSYS; } else ret = report_iommu_fault(ctx_drvdata->attached_domain, &ctx_drvdata->pdev->dev, GET_FAR(drvdata->base, ctx_drvdata->num), 0); if (ret == -ENOSYS) { pr_err("Unexpected IOMMU page fault!\n"); pr_err("name = %s\n", drvdata->name); pr_err("context = %s (%d)\n", ctx_drvdata->name, ctx_drvdata->num); pr_err("Interesting registers:\n"); __print_ctx_regs(drvdata->base, ctx_drvdata->num, fsr); } if (ret != -EBUSY) SET_FSR(drvdata->base, ctx_drvdata->num, fsr); ret = IRQ_HANDLED; } else ret = IRQ_NONE; __disable_clocks(drvdata); fail: mutex_unlock(&msm_iommu_lock); return ret; } static phys_addr_t msm_iommu_get_pt_base_addr(struct iommu_domain *domain) { struct msm_iommu_priv *priv = domain->priv; return __pa(priv->pt.fl_table); } #define DUMP_REG_INIT(dump_reg, cb_reg, mbp) \ do { \ dump_regs_tbl[dump_reg].key = cb_reg; \ dump_regs_tbl[dump_reg].name = #cb_reg; \ dump_regs_tbl[dump_reg].must_be_present = mbp; \ } while (0) static void msm_iommu_build_dump_regs_table(void) { DUMP_REG_INIT(DUMP_REG_FAR0, CB_FAR, 1); DUMP_REG_INIT(DUMP_REG_FAR1, CB_FAR + 4, 1); DUMP_REG_INIT(DUMP_REG_PAR0, CB_PAR, 1); DUMP_REG_INIT(DUMP_REG_PAR1, CB_PAR + 4, 1); DUMP_REG_INIT(DUMP_REG_FSR, CB_FSR, 1); DUMP_REG_INIT(DUMP_REG_FSYNR0, CB_FSYNR0, 1); DUMP_REG_INIT(DUMP_REG_FSYNR1, CB_FSYNR1, 1); DUMP_REG_INIT(DUMP_REG_TTBR0_0, CB_TTBR0, 1); DUMP_REG_INIT(DUMP_REG_TTBR0_1, CB_TTBR0 + 4, 0); DUMP_REG_INIT(DUMP_REG_TTBR1_0, CB_TTBR1, 1); DUMP_REG_INIT(DUMP_REG_TTBR1_1, CB_TTBR1 + 4, 0); DUMP_REG_INIT(DUMP_REG_SCTLR, CB_SCTLR, 1); DUMP_REG_INIT(DUMP_REG_ACTLR, CB_ACTLR, 1); DUMP_REG_INIT(DUMP_REG_PRRR, CB_PRRR, 1); DUMP_REG_INIT(DUMP_REG_NMRR, CB_NMRR, 1); } static struct iommu_ops msm_iommu_ops = { .domain_init = msm_iommu_domain_init, .domain_destroy = msm_iommu_domain_destroy, .attach_dev = msm_iommu_attach_dev, .detach_dev = msm_iommu_detach_dev, .map = msm_iommu_map, .unmap = msm_iommu_unmap, .map_range = msm_iommu_map_range, .unmap_range = msm_iommu_unmap_range, .iova_to_phys = msm_iommu_iova_to_phys, .domain_has_cap = msm_iommu_domain_has_cap, .get_pt_base_addr = msm_iommu_get_pt_base_addr, .pgsize_bitmap = MSM_IOMMU_PGSIZES, }; static int __init msm_iommu_init(void) { msm_iommu_pagetable_init(); bus_set_iommu(&platform_bus_type, &msm_iommu_ops); msm_iommu_build_dump_regs_table(); return 0; } subsys_initcall(msm_iommu_init); MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("MSM SMMU v2 Driver");