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Release 4.7 drivers/iommu/ipmmu-vmsa.c

Directory: drivers/iommu
/*
 * IPMMU VMSA
 *
 * Copyright (C) 2014 Renesas Electronics Corporation
 *
 * 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; version 2 of the License.
 */

#include <linux/delay.h>
#include <linux/dma-mapping.h>
#include <linux/err.h>
#include <linux/export.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/iommu.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/platform_device.h>
#include <linux/sizes.h>
#include <linux/slab.h>

#include <asm/dma-iommu.h>
#include <asm/pgalloc.h>

#include "io-pgtable.h"


struct ipmmu_vmsa_device {
	
struct device *dev;
	
void __iomem *base;
	
struct list_head list;

	
unsigned int num_utlbs;

	
struct dma_iommu_mapping *mapping;
};


struct ipmmu_vmsa_domain {
	
struct ipmmu_vmsa_device *mmu;
	
struct iommu_domain io_domain;

	
struct io_pgtable_cfg cfg;
	
struct io_pgtable_ops *iop;

	
unsigned int context_id;
	
spinlock_t lock;			/* Protects mappings */
};


struct ipmmu_vmsa_archdata {
	
struct ipmmu_vmsa_device *mmu;
	
unsigned int *utlbs;
	
unsigned int num_utlbs;
};

static DEFINE_SPINLOCK(ipmmu_devices_lock);
static LIST_HEAD(ipmmu_devices);


static struct ipmmu_vmsa_domain *to_vmsa_domain(struct iommu_domain *dom) { return container_of(dom, struct ipmmu_vmsa_domain, io_domain); }

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#define TLB_LOOP_TIMEOUT 100 /* 100us */ /* ----------------------------------------------------------------------------- * Registers Definition */ #define IM_NS_ALIAS_OFFSET 0x800 #define IM_CTX_SIZE 0x40 #define IMCTR 0x0000 #define IMCTR_TRE (1 << 17) #define IMCTR_AFE (1 << 16) #define IMCTR_RTSEL_MASK (3 << 4) #define IMCTR_RTSEL_SHIFT 4 #define IMCTR_TREN (1 << 3) #define IMCTR_INTEN (1 << 2) #define IMCTR_FLUSH (1 << 1) #define IMCTR_MMUEN (1 << 0) #define IMCAAR 0x0004 #define IMTTBCR 0x0008 #define IMTTBCR_EAE (1 << 31) #define IMTTBCR_PMB (1 << 30) #define IMTTBCR_SH1_NON_SHAREABLE (0 << 28) #define IMTTBCR_SH1_OUTER_SHAREABLE (2 << 28) #define IMTTBCR_SH1_INNER_SHAREABLE (3 << 28) #define IMTTBCR_SH1_MASK (3 << 28) #define IMTTBCR_ORGN1_NC (0 << 26) #define IMTTBCR_ORGN1_WB_WA (1 << 26) #define IMTTBCR_ORGN1_WT (2 << 26) #define IMTTBCR_ORGN1_WB (3 << 26) #define IMTTBCR_ORGN1_MASK (3 << 26) #define IMTTBCR_IRGN1_NC (0 << 24) #define IMTTBCR_IRGN1_WB_WA (1 << 24) #define IMTTBCR_IRGN1_WT (2 << 24) #define IMTTBCR_IRGN1_WB (3 << 24) #define IMTTBCR_IRGN1_MASK (3 << 24) #define IMTTBCR_TSZ1_MASK (7 << 16) #define IMTTBCR_TSZ1_SHIFT 16 #define IMTTBCR_SH0_NON_SHAREABLE (0 << 12) #define IMTTBCR_SH0_OUTER_SHAREABLE (2 << 12) #define IMTTBCR_SH0_INNER_SHAREABLE (3 << 12) #define IMTTBCR_SH0_MASK (3 << 12) #define IMTTBCR_ORGN0_NC (0 << 10) #define IMTTBCR_ORGN0_WB_WA (1 << 10) #define IMTTBCR_ORGN0_WT (2 << 10) #define IMTTBCR_ORGN0_WB (3 << 10) #define IMTTBCR_ORGN0_MASK (3 << 10) #define IMTTBCR_IRGN0_NC (0 << 8) #define IMTTBCR_IRGN0_WB_WA (1 << 8) #define IMTTBCR_IRGN0_WT (2 << 8) #define IMTTBCR_IRGN0_WB (3 << 8) #define IMTTBCR_IRGN0_MASK (3 << 8) #define IMTTBCR_SL0_LVL_2 (0 << 4) #define IMTTBCR_SL0_LVL_1 (1 << 4) #define IMTTBCR_TSZ0_MASK (7 << 0) #define IMTTBCR_TSZ0_SHIFT O #define IMBUSCR 0x000c #define IMBUSCR_DVM (1 << 2) #define IMBUSCR_BUSSEL_SYS (0 << 0) #define IMBUSCR_BUSSEL_CCI (1 << 0) #define IMBUSCR_BUSSEL_IMCAAR (2 << 0) #define IMBUSCR_BUSSEL_CCI_IMCAAR (3 << 0) #define IMBUSCR_BUSSEL_MASK (3 << 0) #define IMTTLBR0 0x0010 #define IMTTUBR0 0x0014 #define IMTTLBR1 0x0018 #define IMTTUBR1 0x001c #define IMSTR 0x0020 #define IMSTR_ERRLVL_MASK (3 << 12) #define IMSTR_ERRLVL_SHIFT 12 #define IMSTR_ERRCODE_TLB_FORMAT (1 << 8) #define IMSTR_ERRCODE_ACCESS_PERM (4 << 8) #define IMSTR_ERRCODE_SECURE_ACCESS (5 << 8) #define IMSTR_ERRCODE_MASK (7 << 8) #define IMSTR_MHIT (1 << 4) #define IMSTR_ABORT (1 << 2) #define IMSTR_PF (1 << 1) #define IMSTR_TF (1 << 0) #define IMMAIR0 0x0028 #define IMMAIR1 0x002c #define IMMAIR_ATTR_MASK 0xff #define IMMAIR_ATTR_DEVICE 0x04 #define IMMAIR_ATTR_NC 0x44 #define IMMAIR_ATTR_WBRWA 0xff #define IMMAIR_ATTR_SHIFT(n) ((n) << 3) #define IMMAIR_ATTR_IDX_NC 0 #define IMMAIR_ATTR_IDX_WBRWA 1 #define IMMAIR_ATTR_IDX_DEV 2 #define IMEAR 0x0030 #define IMPCTR 0x0200 #define IMPSTR 0x0208 #define IMPEAR 0x020c #define IMPMBA(n) (0x0280 + ((n) * 4)) #define IMPMBD(n) (0x02c0 + ((n) * 4)) #define IMUCTR(n) (0x0300 + ((n) * 16)) #define IMUCTR_FIXADDEN (1 << 31) #define IMUCTR_FIXADD_MASK (0xff << 16) #define IMUCTR_FIXADD_SHIFT 16 #define IMUCTR_TTSEL_MMU(n) ((n) << 4) #define IMUCTR_TTSEL_PMB (8 << 4) #define IMUCTR_TTSEL_MASK (15 << 4) #define IMUCTR_FLUSH (1 << 1) #define IMUCTR_MMUEN (1 << 0) #define IMUASID(n) (0x0308 + ((n) * 16)) #define IMUASID_ASID8_MASK (0xff << 8) #define IMUASID_ASID8_SHIFT 8 #define IMUASID_ASID0_MASK (0xff << 0) #define IMUASID_ASID0_SHIFT 0 /* ----------------------------------------------------------------------------- * Read/Write Access */
static u32 ipmmu_read(struct ipmmu_vmsa_device *mmu, unsigned int offset) { return ioread32(mmu->base + offset); }

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static void ipmmu_write(struct ipmmu_vmsa_device *mmu, unsigned int offset, u32 data) { iowrite32(data, mmu->base + offset); }

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static u32 ipmmu_ctx_read(struct ipmmu_vmsa_domain *domain, unsigned int reg) { return ipmmu_read(domain->mmu, domain->context_id * IM_CTX_SIZE + reg); }

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static void ipmmu_ctx_write(struct ipmmu_vmsa_domain *domain, unsigned int reg, u32 data) { ipmmu_write(domain->mmu, domain->context_id * IM_CTX_SIZE + reg, data); }

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/* ----------------------------------------------------------------------------- * TLB and microTLB Management */ /* Wait for any pending TLB invalidations to complete */
static void ipmmu_tlb_sync(struct ipmmu_vmsa_domain *domain) { unsigned int count = 0; while (ipmmu_ctx_read(domain, IMCTR) & IMCTR_FLUSH) { cpu_relax(); if (++count == TLB_LOOP_TIMEOUT) { dev_err_ratelimited(domain->mmu->dev, "TLB sync timed out -- MMU may be deadlocked\n"); return; } udelay(1); } }

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static void ipmmu_tlb_invalidate(struct ipmmu_vmsa_domain *domain) { u32 reg; reg = ipmmu_ctx_read(domain, IMCTR); reg |= IMCTR_FLUSH; ipmmu_ctx_write(domain, IMCTR, reg); ipmmu_tlb_sync(domain); }

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/* * Enable MMU translation for the microTLB. */
static void ipmmu_utlb_enable(struct ipmmu_vmsa_domain *domain, unsigned int utlb) { struct ipmmu_vmsa_device *mmu = domain->mmu; /* * TODO: Reference-count the microTLB as several bus masters can be * connected to the same microTLB. */ /* TODO: What should we set the ASID to ? */ ipmmu_write(mmu, IMUASID(utlb), 0); /* TODO: Do we need to flush the microTLB ? */ ipmmu_write(mmu, IMUCTR(utlb), IMUCTR_TTSEL_MMU(domain->context_id) | IMUCTR_FLUSH | IMUCTR_MMUEN); }

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/* * Disable MMU translation for the microTLB. */
static void ipmmu_utlb_disable(struct ipmmu_vmsa_domain *domain, unsigned int utlb) { struct ipmmu_vmsa_device *mmu = domain->mmu; ipmmu_write(mmu, IMUCTR(utlb), 0); }

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static void ipmmu_tlb_flush_all(void *cookie) { struct ipmmu_vmsa_domain *domain = cookie; ipmmu_tlb_invalidate(domain); }

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static void ipmmu_tlb_add_flush(unsigned long iova, size_t size, size_t granule, bool leaf, void *cookie) { /* The hardware doesn't support selective TLB flush. */ }

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static struct iommu_gather_ops ipmmu_gather_ops = { .tlb_flush_all = ipmmu_tlb_flush_all, .tlb_add_flush = ipmmu_tlb_add_flush, .tlb_sync = ipmmu_tlb_flush_all, }; /* ----------------------------------------------------------------------------- * Domain/Context Management */
static int ipmmu_domain_init_context(struct ipmmu_vmsa_domain *domain) { u64 ttbr; /* * Allocate the page table operations. * * VMSA states in section B3.6.3 "Control of Secure or Non-secure memory * access, Long-descriptor format" that the NStable bit being set in a * table descriptor will result in the NStable and NS bits of all child * entries being ignored and considered as being set. The IPMMU seems * not to comply with this, as it generates a secure access page fault * if any of the NStable and NS bits isn't set when running in * non-secure mode. */ domain->cfg.quirks = IO_PGTABLE_QUIRK_ARM_NS; domain->cfg.pgsize_bitmap = SZ_1G | SZ_2M | SZ_4K, domain->cfg.ias = 32; domain->cfg.oas = 40; domain->cfg.tlb = &ipmmu_gather_ops; /* * TODO: Add support for coherent walk through CCI with DVM and remove * cache handling. For now, delegate it to the io-pgtable code. */ domain->cfg.iommu_dev = domain->mmu->dev; domain->iop = alloc_io_pgtable_ops(ARM_32_LPAE_S1, &domain->cfg, domain); if (!domain->iop) return -EINVAL; /* * TODO: When adding support for multiple contexts, find an unused * context. */ domain->context_id = 0; /* TTBR0 */ ttbr = domain->cfg.arm_lpae_s1_cfg.ttbr[0]; ipmmu_ctx_write(domain, IMTTLBR0, ttbr); ipmmu_ctx_write(domain, IMTTUBR0, ttbr >> 32); /* * TTBCR * We use long descriptors with inner-shareable WBWA tables and allocate * the whole 32-bit VA space to TTBR0. */ ipmmu_ctx_write(domain, IMTTBCR, IMTTBCR_EAE | IMTTBCR_SH0_INNER_SHAREABLE | IMTTBCR_ORGN0_WB_WA | IMTTBCR_IRGN0_WB_WA | IMTTBCR_SL0_LVL_1); /* MAIR0 */ ipmmu_ctx_write(domain, IMMAIR0, domain->cfg.arm_lpae_s1_cfg.mair[0]); /* IMBUSCR */ ipmmu_ctx_write(domain, IMBUSCR, ipmmu_ctx_read(domain, IMBUSCR) & ~(IMBUSCR_DVM | IMBUSCR_BUSSEL_MASK)); /* * IMSTR * Clear all interrupt flags. */ ipmmu_ctx_write(domain, IMSTR, ipmmu_ctx_read(domain, IMSTR)); /* * IMCTR * Enable the MMU and interrupt generation. The long-descriptor * translation table format doesn't use TEX remapping. Don't enable AF * software management as we have no use for it. Flush the TLB as * required when modifying the context registers. */ ipmmu_ctx_write(domain, IMCTR, IMCTR_INTEN | IMCTR_FLUSH | IMCTR_MMUEN); return 0; }

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static void ipmmu_domain_destroy_context(struct ipmmu_vmsa_domain *domain) { /* * Disable the context. Flush the TLB as required when modifying the * context registers. * * TODO: Is TLB flush really needed ? */ ipmmu_ctx_write(domain, IMCTR, IMCTR_FLUSH); ipmmu_tlb_sync(domain); }

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/* ----------------------------------------------------------------------------- * Fault Handling */
static irqreturn_t ipmmu_domain_irq(struct ipmmu_vmsa_domain *domain) { const u32 err_mask = IMSTR_MHIT | IMSTR_ABORT | IMSTR_PF | IMSTR_TF; struct ipmmu_vmsa_device *mmu = domain->mmu; u32 status; u32 iova; status = ipmmu_ctx_read(domain, IMSTR); if (!(status & err_mask)) return IRQ_NONE; iova = ipmmu_ctx_read(domain, IMEAR); /* * Clear the error status flags. Unlike traditional interrupt flag * registers that must be cleared by writing 1, this status register * seems to require 0. The error address register must be read before, * otherwise its value will be 0. */ ipmmu_ctx_write(domain, IMSTR, 0); /* Log fatal errors. */ if (status & IMSTR_MHIT) dev_err_ratelimited(mmu->dev, "Multiple TLB hits @0x%08x\n", iova); if (status & IMSTR_ABORT) dev_err_ratelimited(mmu->dev, "Page Table Walk Abort @0x%08x\n", iova); if (!(status & (IMSTR_PF | IMSTR_TF))) return IRQ_NONE; /* * Try to handle page faults and translation faults. * * TODO: We need to look up the faulty device based on the I/O VA. Use * the IOMMU device for now. */ if (!report_iommu_fault(&domain->io_domain, mmu->dev, iova, 0)) return IRQ_HANDLED; dev_err_ratelimited(mmu->dev, "Unhandled fault: status 0x%08x iova 0x%08x\n", status, iova); return IRQ_HANDLED; }

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static irqreturn_t ipmmu_irq(int irq, void *dev) { struct ipmmu_vmsa_device *mmu = dev; struct iommu_domain *io_domain; struct ipmmu_vmsa_domain *domain; if (!mmu->mapping) return IRQ_NONE; io_domain = mmu->mapping->domain; domain = to_vmsa_domain(io_domain); return ipmmu_domain_irq(domain); }

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/* ----------------------------------------------------------------------------- * IOMMU Operations */
static struct iommu_domain *ipmmu_domain_alloc(unsigned type) { struct ipmmu_vmsa_domain *domain; if (type != IOMMU_DOMAIN_UNMANAGED) return NULL; domain = kzalloc(sizeof(*domain), GFP_KERNEL); if (!domain) return NULL; spin_lock_init(&domain->lock); return &domain->io_domain; }

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static void ipmmu_domain_free(struct iommu_domain *io_domain) { struct ipmmu_vmsa_domain *domain = to_vmsa_domain(io_domain); /* * Free the domain resources. We assume that all devices have already * been detached. */ ipmmu_domain_destroy_context(domain); free_io_pgtable_ops(domain->iop); kfree(domain); }

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static int ipmmu_attach_device(struct iommu_domain *io_domain, struct device *dev) { struct ipmmu_vmsa_archdata *archdata = dev->archdata.iommu; struct ipmmu_vmsa_device *mmu = archdata->mmu; struct ipmmu_vmsa_domain *domain = to_vmsa_domain(io_domain); unsigned long flags; unsigned int i; int ret = 0; if (!mmu) { dev_err(dev, "Cannot attach to IPMMU\n"); return -ENXIO; } spin_lock_irqsave(&domain->lock, flags); if (!domain->mmu) { /* The domain hasn't been used yet, initialize it. */ domain->mmu = mmu; ret = ipmmu_domain_init_context(domain); } else if (domain->mmu != mmu) { /* * Something is wrong, we can't attach two devices using * different IOMMUs to the same domain. */ dev_err(dev, "Can't attach IPMMU %s to domain on IPMMU %s\n", dev_name(mmu->dev), dev_name(domain->mmu->dev)); ret = -EINVAL; } spin_unlock_irqrestore(&domain->lock, flags); if (ret < 0) return ret; for (i = 0; i < archdata->num_utlbs; ++i) ipmmu_utlb_enable(domain, archdata->utlbs[i]); return 0; }

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static void ipmmu_detach_device(struct iommu_domain *io_domain, struct device *dev) { struct ipmmu_vmsa_archdata *archdata = dev->archdata.iommu; struct ipmmu_vmsa_domain *domain = to_vmsa_domain(io_domain); unsigned int i; for (i = 0; i < archdata->num_utlbs; ++i) ipmmu_utlb_disable(domain, archdata->utlbs[i]); /* * TODO: Optimize by disabling the context when no device is attached. */ }

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static int ipmmu_map(struct iommu_domain *io_domain, unsigned long iova, phys_addr_t paddr, size_t size, int prot) { struct ipmmu_vmsa_domain *domain = to_vmsa_domain(io_domain); if (!domain) return -ENODEV; return domain->iop->map(domain->iop, iova, paddr, size, prot); }

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static size_t ipmmu_unmap(struct iommu_domain *io_domain, unsigned long iova, size_t size) { struct ipmmu_vmsa_domain *domain = to_vmsa_domain(io_domain); return domain->iop->unmap(domain->iop, iova, size); }

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static phys_addr_t ipmmu_iova_to_phys(struct iommu_domain *io_domain, dma_addr_t iova) { struct ipmmu_vmsa_domain *domain = to_vmsa_domain(io_domain); /* TODO: Is locking needed ? */ return domain->iop->iova_to_phys(domain->iop, iova); }

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static int ipmmu_find_utlbs(struct ipmmu_vmsa_device *mmu, struct device *dev, unsigned int *utlbs, unsigned int num_utlbs) { unsigned int i; for (i = 0; i < num_utlbs; ++i) { struct of_phandle_args args; int ret; ret = of_parse_phandle_with_args(dev->of_node, "iommus", "#iommu-cells", i, &args); if (ret < 0) return ret; of_node_put(args.np); if (args.np != mmu->dev->of_node || args.args_count != 1) return -EINVAL; utlbs[i] = args.args[0]; } return 0; }

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static int ipmmu_add_device(struct device *dev) { struct ipmmu_vmsa_archdata *archdata; struct ipmmu_vmsa_device *mmu; struct iommu_group *group = NULL; unsigned int *utlbs; unsigned int i; int num_utlbs; int ret = -ENODEV; if (dev->archdata.iommu) { dev_warn(dev, "IOMMU driver already assigned to device %s\n", dev_name(dev)); return -EINVAL; } /* Find the master corresponding to the device. */ num_utlbs = of_count_phandle_with_args(dev->of_node, "iommus", "#iommu-cells"); if (num_utlbs < 0) return -ENODEV; utlbs = kcalloc(num_utlbs, sizeof(*utlbs), GFP_KERNEL); if (!utlbs) return -ENOMEM; spin_lock(&ipmmu_devices_lock); list_for_each_entry(mmu, &ipmmu_devices, list) { ret = ipmmu_find_utlbs(mmu, dev, utlbs, num_utlbs); if (!ret) { /* * TODO Take a reference to the MMU to protect * against device removal. */ break; } } spin_unlock(&ipmmu_devices_lock); if (ret < 0) return -ENODEV; for (i = 0; i < num_utlbs; ++i) { if (utlbs[i] >= mmu->num_utlbs) { ret = -EINVAL; goto error; } } /* Create a device group and add the device to it. */ group = iommu_group_alloc(); if (IS_ERR(group)) { dev_err(dev, "Failed to allocate IOMMU group\n"); ret = PTR_ERR(group); goto error; } ret = iommu_group_add_device(group, dev); iommu_group_put(group); if (ret < 0) { dev_err(dev, "Failed to add device to IPMMU group\n"); group = NULL; goto error; } archdata = kzalloc(sizeof(*archdata), GFP_KERNEL); if (!archdata) { ret = -ENOMEM; goto error; } archdata->mmu = mmu; archdata->utlbs = utlbs; archdata->num_utlbs = num_utlbs; dev->archdata.iommu = archdata; /* * Create the ARM mapping, used by the ARM DMA mapping core to allocate * VAs. This will allocate a corresponding IOMMU domain. * * TODO: * - Create one mapping per context (TLB). * - Make the mapping size configurable ? We currently use a 2GB mapping * at a 1GB offset to ensure that NULL VAs will fault. */ if (!mmu->mapping) { struct dma_iommu_mapping *mapping; mapping = arm_iommu_create_mapping(&platform_bus_type, SZ_1G, SZ_2G); if (IS_ERR(mapping)) { dev_err(mmu->dev, "failed to create ARM IOMMU mapping\n"); ret = PTR_ERR(mapping); goto error; } mmu->mapping = mapping; } /* Attach the ARM VA mapping to the device. */ ret = arm_iommu_attach_device(dev, mmu->mapping); if (ret < 0) { dev_err(dev, "Failed to attach device to VA mapping\n"); goto error; } return 0; error: arm_iommu_release_mapping(mmu->mapping); kfree(dev->archdata.iommu); kfree(utlbs); dev->archdata.iommu = NULL; if (!IS_ERR_OR_NULL(group)) iommu_group_remove_device(dev); return ret; }

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static void ipmmu_remove_device(struct device *dev) { struct ipmmu_vmsa_archdata *archdata = dev->archdata.iommu; arm_iommu_detach_device(dev); iommu_group_remove_device(dev); kfree(archdata->utlbs); kfree(archdata); dev->archdata.iommu = NULL; }

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static const struct iommu_ops ipmmu_ops = { .domain_alloc = ipmmu_domain_alloc, .domain_free = ipmmu_domain_free, .attach_dev = ipmmu_attach_device, .detach_dev = ipmmu_detach_device, .map = ipmmu_map, .unmap = ipmmu_unmap, .map_sg = default_iommu_map_sg, .iova_to_phys = ipmmu_iova_to_phys, .add_device = ipmmu_add_device, .remove_device = ipmmu_remove_device, .pgsize_bitmap = SZ_1G | SZ_2M | SZ_4K, }; /* ----------------------------------------------------------------------------- * Probe/remove and init */
static void ipmmu_device_reset(struct ipmmu_vmsa_device *mmu) { unsigned int i; /* Disable all contexts. */ for (i = 0; i < 4; ++i) ipmmu_write(mmu, i * IM_CTX_SIZE + IMCTR, 0); }

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static int ipmmu_probe(struct platform_device *pdev) { struct ipmmu_vmsa_device *mmu; struct resource *res; int irq; int ret; if (!IS_ENABLED(CONFIG_OF) && !pdev->dev.platform_data) { dev_err(&pdev->dev, "missing platform data\n"); return -EINVAL; } mmu = devm_kzalloc(&pdev->dev, sizeof(*mmu), GFP_KERNEL); if (!mmu) { dev_err(&pdev->dev, "cannot allocate device data\n"); return -ENOMEM; } mmu->dev = &pdev->dev; mmu->num_utlbs = 32; /* Map I/O memory and request IRQ. */ res = platform_get_resource(pdev, IORESOURCE_MEM, 0); mmu->base = devm_ioremap_resource(&pdev->dev, res); if (IS_ERR(mmu->base)) return PTR_ERR(mmu->base); /* * The IPMMU has two register banks, for secure and non-secure modes. * The bank mapped at the beginning of the IPMMU address space * corresponds to the running mode of the CPU. When running in secure * mode the non-secure register bank is also available at an offset. * * Secure mode operation isn't clearly documented and is thus currently * not implemented in the driver. Furthermore, preliminary tests of * non-secure operation with the main register bank were not successful. * Offset the registers base unconditionally to point to the non-secure * alias space for now. */ mmu->base += IM_NS_ALIAS_OFFSET; irq = platform_get_irq(pdev, 0); if (irq < 0) { dev_err(&pdev->dev, "no IRQ found\n"); return irq; } ret = devm_request_irq(&pdev->dev, irq, ipmmu_irq, 0, dev_name(&pdev->dev), mmu); if (ret < 0) { dev_err(&pdev->dev, "failed to request IRQ %d\n", irq); return ret; } ipmmu_device_reset(mmu); /* * We can't create the ARM mapping here as it requires the bus to have * an IOMMU, which only happens when bus_set_iommu() is called in * ipmmu_init() after the probe function returns. */ spin_lock(&ipmmu_devices_lock); list_add(&mmu->list, &ipmmu_devices); spin_unlock(&ipmmu_devices_lock); platform_set_drvdata(pdev, mmu); return 0; }

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static int ipmmu_remove(struct platform_device *pdev) { struct ipmmu_vmsa_device *mmu = platform_get_drvdata(pdev); spin_lock(&ipmmu_devices_lock); list_del(&mmu->list); spin_unlock(&ipmmu_devices_lock); arm_iommu_release_mapping(mmu->mapping); ipmmu_device_reset(mmu); return 0; }

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static const struct of_device_id ipmmu_of_ids[] = { { .compatible = "renesas,ipmmu-vmsa", }, { } }; static struct platform_driver ipmmu_driver = { .driver = { .name = "ipmmu-vmsa", .of_match_table = of_match_ptr(ipmmu_of_ids), }, .probe = ipmmu_probe, .remove = ipmmu_remove, };
static int __init ipmmu_init(void) { int ret; ret = platform_driver_register(&ipmmu_driver); if (ret < 0) return ret; if (!iommu_present(&platform_bus_type)) bus_set_iommu(&platform_bus_type, &ipmmu_ops); return 0; }

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static void __exit ipmmu_exit(void) { return platform_driver_unregister(&ipmmu_driver); }

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subsys_initcall(ipmmu_init); module_exit(ipmmu_exit); MODULE_DESCRIPTION("IOMMU API for Renesas VMSA-compatible IPMMU"); MODULE_AUTHOR("Laurent Pinchart <laurent.pinchart@ideasonboard.com>"); MODULE_LICENSE("GPL v2");

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laurent pinchartlaurent pinchart312397.08%952.94%
joerg roedeljoerg roedel672.08%15.88%
robin murphyrobin murphy160.50%211.76%
olav hauganolav haugan50.16%15.88%
axel linaxel lin40.12%211.76%
thierry redingthierry reding10.03%15.88%
geert uytterhoevengeert uytterhoeven10.03%15.88%
Total3217100.00%17100.00%
Directory: drivers/iommu
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