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/*
* IOMMU API for ARM architected SMMU implementations .
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License 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 .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 59 Temple Place - Suite 330 , Boston , MA 02111 - 1307 , USA .
*
* Copyright ( C ) 2013 ARM Limited
*
* Author : Will Deacon < will . deacon @ arm . com >
*
* This driver currently supports :
* - SMMUv1 and v2 implementations
* - Stream - matching and stream - indexing
* - v7 / v8 long - descriptor format
* - Non - secure access to the SMMU
* - 4 k and 64 k pages , with contiguous pte hints .
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* - Up to 48 - bit addressing ( dependent on VA_BITS )
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* - Context fault reporting
*/
# define pr_fmt(fmt) "arm-smmu: " fmt
# include <linux/delay.h>
# include <linux/dma-mapping.h>
# include <linux/err.h>
# include <linux/interrupt.h>
# include <linux/io.h>
# include <linux/iommu.h>
# include <linux/mm.h>
# include <linux/module.h>
# include <linux/of.h>
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# include <linux/pci.h>
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# include <linux/platform_device.h>
# include <linux/slab.h>
# include <linux/spinlock.h>
# include <linux/amba/bus.h>
# include <asm/pgalloc.h>
/* Maximum number of stream IDs assigned to a single device */
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# define MAX_MASTER_STREAMIDS MAX_PHANDLE_ARGS
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/* Maximum number of context banks per SMMU */
# define ARM_SMMU_MAX_CBS 128
/* Maximum number of mapping groups per SMMU */
# define ARM_SMMU_MAX_SMRS 128
/* SMMU global address space */
# define ARM_SMMU_GR0(smmu) ((smmu)->base)
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# define ARM_SMMU_GR1(smmu) ((smmu)->base + (1 << (smmu)->pgshift))
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/*
* SMMU global address space with conditional offset to access secure
* aliases of non - secure registers ( e . g . nsCR0 : 0x400 , nsGFSR : 0x448 ,
* nsGFSYNR0 : 0x450 )
*/
# define ARM_SMMU_GR0_NS(smmu) \
( ( smmu ) - > base + \
( ( smmu - > options & ARM_SMMU_OPT_SECURE_CFG_ACCESS ) \
? 0x400 : 0 ) )
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/* Page table bits */
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# define ARM_SMMU_PTE_XN (((pteval_t)3) << 53)
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# define ARM_SMMU_PTE_CONT (((pteval_t)1) << 52)
# define ARM_SMMU_PTE_AF (((pteval_t)1) << 10)
# define ARM_SMMU_PTE_SH_NS (((pteval_t)0) << 8)
# define ARM_SMMU_PTE_SH_OS (((pteval_t)2) << 8)
# define ARM_SMMU_PTE_SH_IS (((pteval_t)3) << 8)
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# define ARM_SMMU_PTE_PAGE (((pteval_t)3) << 0)
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# if PAGE_SIZE == SZ_4K
# define ARM_SMMU_PTE_CONT_ENTRIES 16
# elif PAGE_SIZE == SZ_64K
# define ARM_SMMU_PTE_CONT_ENTRIES 32
# else
# define ARM_SMMU_PTE_CONT_ENTRIES 1
# endif
# define ARM_SMMU_PTE_CONT_SIZE (PAGE_SIZE * ARM_SMMU_PTE_CONT_ENTRIES)
# define ARM_SMMU_PTE_CONT_MASK (~(ARM_SMMU_PTE_CONT_SIZE - 1))
/* Stage-1 PTE */
# define ARM_SMMU_PTE_AP_UNPRIV (((pteval_t)1) << 6)
# define ARM_SMMU_PTE_AP_RDONLY (((pteval_t)2) << 6)
# define ARM_SMMU_PTE_ATTRINDX_SHIFT 2
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# define ARM_SMMU_PTE_nG (((pteval_t)1) << 11)
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/* Stage-2 PTE */
# define ARM_SMMU_PTE_HAP_FAULT (((pteval_t)0) << 6)
# define ARM_SMMU_PTE_HAP_READ (((pteval_t)1) << 6)
# define ARM_SMMU_PTE_HAP_WRITE (((pteval_t)2) << 6)
# define ARM_SMMU_PTE_MEMATTR_OIWB (((pteval_t)0xf) << 2)
# define ARM_SMMU_PTE_MEMATTR_NC (((pteval_t)0x5) << 2)
# define ARM_SMMU_PTE_MEMATTR_DEV (((pteval_t)0x1) << 2)
/* Configuration registers */
# define ARM_SMMU_GR0_sCR0 0x0
# define sCR0_CLIENTPD (1 << 0)
# define sCR0_GFRE (1 << 1)
# define sCR0_GFIE (1 << 2)
# define sCR0_GCFGFRE (1 << 4)
# define sCR0_GCFGFIE (1 << 5)
# define sCR0_USFCFG (1 << 10)
# define sCR0_VMIDPNE (1 << 11)
# define sCR0_PTM (1 << 12)
# define sCR0_FB (1 << 13)
# define sCR0_BSU_SHIFT 14
# define sCR0_BSU_MASK 0x3
/* Identification registers */
# define ARM_SMMU_GR0_ID0 0x20
# define ARM_SMMU_GR0_ID1 0x24
# define ARM_SMMU_GR0_ID2 0x28
# define ARM_SMMU_GR0_ID3 0x2c
# define ARM_SMMU_GR0_ID4 0x30
# define ARM_SMMU_GR0_ID5 0x34
# define ARM_SMMU_GR0_ID6 0x38
# define ARM_SMMU_GR0_ID7 0x3c
# define ARM_SMMU_GR0_sGFSR 0x48
# define ARM_SMMU_GR0_sGFSYNR0 0x50
# define ARM_SMMU_GR0_sGFSYNR1 0x54
# define ARM_SMMU_GR0_sGFSYNR2 0x58
# define ARM_SMMU_GR0_PIDR0 0xfe0
# define ARM_SMMU_GR0_PIDR1 0xfe4
# define ARM_SMMU_GR0_PIDR2 0xfe8
# define ID0_S1TS (1 << 30)
# define ID0_S2TS (1 << 29)
# define ID0_NTS (1 << 28)
# define ID0_SMS (1 << 27)
# define ID0_PTFS_SHIFT 24
# define ID0_PTFS_MASK 0x2
# define ID0_PTFS_V8_ONLY 0x2
# define ID0_CTTW (1 << 14)
# define ID0_NUMIRPT_SHIFT 16
# define ID0_NUMIRPT_MASK 0xff
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# define ID0_NUMSIDB_SHIFT 9
# define ID0_NUMSIDB_MASK 0xf
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# define ID0_NUMSMRG_SHIFT 0
# define ID0_NUMSMRG_MASK 0xff
# define ID1_PAGESIZE (1 << 31)
# define ID1_NUMPAGENDXB_SHIFT 28
# define ID1_NUMPAGENDXB_MASK 7
# define ID1_NUMS2CB_SHIFT 16
# define ID1_NUMS2CB_MASK 0xff
# define ID1_NUMCB_SHIFT 0
# define ID1_NUMCB_MASK 0xff
# define ID2_OAS_SHIFT 4
# define ID2_OAS_MASK 0xf
# define ID2_IAS_SHIFT 0
# define ID2_IAS_MASK 0xf
# define ID2_UBS_SHIFT 8
# define ID2_UBS_MASK 0xf
# define ID2_PTFS_4K (1 << 12)
# define ID2_PTFS_16K (1 << 13)
# define ID2_PTFS_64K (1 << 14)
# define PIDR2_ARCH_SHIFT 4
# define PIDR2_ARCH_MASK 0xf
/* Global TLB invalidation */
# define ARM_SMMU_GR0_STLBIALL 0x60
# define ARM_SMMU_GR0_TLBIVMID 0x64
# define ARM_SMMU_GR0_TLBIALLNSNH 0x68
# define ARM_SMMU_GR0_TLBIALLH 0x6c
# define ARM_SMMU_GR0_sTLBGSYNC 0x70
# define ARM_SMMU_GR0_sTLBGSTATUS 0x74
# define sTLBGSTATUS_GSACTIVE (1 << 0)
# define TLB_LOOP_TIMEOUT 1000000 /* 1s! */
/* Stream mapping registers */
# define ARM_SMMU_GR0_SMR(n) (0x800 + ((n) << 2))
# define SMR_VALID (1 << 31)
# define SMR_MASK_SHIFT 16
# define SMR_MASK_MASK 0x7fff
# define SMR_ID_SHIFT 0
# define SMR_ID_MASK 0x7fff
# define ARM_SMMU_GR0_S2CR(n) (0xc00 + ((n) << 2))
# define S2CR_CBNDX_SHIFT 0
# define S2CR_CBNDX_MASK 0xff
# define S2CR_TYPE_SHIFT 16
# define S2CR_TYPE_MASK 0x3
# define S2CR_TYPE_TRANS (0 << S2CR_TYPE_SHIFT)
# define S2CR_TYPE_BYPASS (1 << S2CR_TYPE_SHIFT)
# define S2CR_TYPE_FAULT (2 << S2CR_TYPE_SHIFT)
/* Context bank attribute registers */
# define ARM_SMMU_GR1_CBAR(n) (0x0 + ((n) << 2))
# define CBAR_VMID_SHIFT 0
# define CBAR_VMID_MASK 0xff
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# define CBAR_S1_BPSHCFG_SHIFT 8
# define CBAR_S1_BPSHCFG_MASK 3
# define CBAR_S1_BPSHCFG_NSH 3
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# define CBAR_S1_MEMATTR_SHIFT 12
# define CBAR_S1_MEMATTR_MASK 0xf
# define CBAR_S1_MEMATTR_WB 0xf
# define CBAR_TYPE_SHIFT 16
# define CBAR_TYPE_MASK 0x3
# define CBAR_TYPE_S2_TRANS (0 << CBAR_TYPE_SHIFT)
# define CBAR_TYPE_S1_TRANS_S2_BYPASS (1 << CBAR_TYPE_SHIFT)
# define CBAR_TYPE_S1_TRANS_S2_FAULT (2 << CBAR_TYPE_SHIFT)
# define CBAR_TYPE_S1_TRANS_S2_TRANS (3 << CBAR_TYPE_SHIFT)
# define CBAR_IRPTNDX_SHIFT 24
# define CBAR_IRPTNDX_MASK 0xff
# define ARM_SMMU_GR1_CBA2R(n) (0x800 + ((n) << 2))
# define CBA2R_RW64_32BIT (0 << 0)
# define CBA2R_RW64_64BIT (1 << 0)
/* Translation context bank */
# define ARM_SMMU_CB_BASE(smmu) ((smmu)->base + ((smmu)->size >> 1))
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# define ARM_SMMU_CB(smmu, n) ((n) * (1 << (smmu)->pgshift))
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# define ARM_SMMU_CB_SCTLR 0x0
# define ARM_SMMU_CB_RESUME 0x8
# define ARM_SMMU_CB_TTBCR2 0x10
# define ARM_SMMU_CB_TTBR0_LO 0x20
# define ARM_SMMU_CB_TTBR0_HI 0x24
# define ARM_SMMU_CB_TTBCR 0x30
# define ARM_SMMU_CB_S1_MAIR0 0x38
# define ARM_SMMU_CB_FSR 0x58
# define ARM_SMMU_CB_FAR_LO 0x60
# define ARM_SMMU_CB_FAR_HI 0x64
# define ARM_SMMU_CB_FSYNR0 0x68
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# define ARM_SMMU_CB_S1_TLBIASID 0x610
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# define SCTLR_S1_ASIDPNE (1 << 12)
# define SCTLR_CFCFG (1 << 7)
# define SCTLR_CFIE (1 << 6)
# define SCTLR_CFRE (1 << 5)
# define SCTLR_E (1 << 4)
# define SCTLR_AFE (1 << 2)
# define SCTLR_TRE (1 << 1)
# define SCTLR_M (1 << 0)
# define SCTLR_EAE_SBOP (SCTLR_AFE | SCTLR_TRE)
# define RESUME_RETRY (0 << 0)
# define RESUME_TERMINATE (1 << 0)
# define TTBCR_EAE (1 << 31)
# define TTBCR_PASIZE_SHIFT 16
# define TTBCR_PASIZE_MASK 0x7
# define TTBCR_TG0_4K (0 << 14)
# define TTBCR_TG0_64K (1 << 14)
# define TTBCR_SH0_SHIFT 12
# define TTBCR_SH0_MASK 0x3
# define TTBCR_SH_NS 0
# define TTBCR_SH_OS 2
# define TTBCR_SH_IS 3
# define TTBCR_ORGN0_SHIFT 10
# define TTBCR_IRGN0_SHIFT 8
# define TTBCR_RGN_MASK 0x3
# define TTBCR_RGN_NC 0
# define TTBCR_RGN_WBWA 1
# define TTBCR_RGN_WT 2
# define TTBCR_RGN_WB 3
# define TTBCR_SL0_SHIFT 6
# define TTBCR_SL0_MASK 0x3
# define TTBCR_SL0_LVL_2 0
# define TTBCR_SL0_LVL_1 1
# define TTBCR_T1SZ_SHIFT 16
# define TTBCR_T0SZ_SHIFT 0
# define TTBCR_SZ_MASK 0xf
# define TTBCR2_SEP_SHIFT 15
# define TTBCR2_SEP_MASK 0x7
# define TTBCR2_PASIZE_SHIFT 0
# define TTBCR2_PASIZE_MASK 0x7
/* Common definitions for PASize and SEP fields */
# define TTBCR2_ADDR_32 0
# define TTBCR2_ADDR_36 1
# define TTBCR2_ADDR_40 2
# define TTBCR2_ADDR_42 3
# define TTBCR2_ADDR_44 4
# define TTBCR2_ADDR_48 5
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# define TTBRn_HI_ASID_SHIFT 16
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# define MAIR_ATTR_SHIFT(n) ((n) << 3)
# define MAIR_ATTR_MASK 0xff
# define MAIR_ATTR_DEVICE 0x04
# define MAIR_ATTR_NC 0x44
# define MAIR_ATTR_WBRWA 0xff
# define MAIR_ATTR_IDX_NC 0
# define MAIR_ATTR_IDX_CACHE 1
# define MAIR_ATTR_IDX_DEV 2
# define FSR_MULTI (1 << 31)
# define FSR_SS (1 << 30)
# define FSR_UUT (1 << 8)
# define FSR_ASF (1 << 7)
# define FSR_TLBLKF (1 << 6)
# define FSR_TLBMCF (1 << 5)
# define FSR_EF (1 << 4)
# define FSR_PF (1 << 3)
# define FSR_AFF (1 << 2)
# define FSR_TF (1 << 1)
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# define FSR_IGN (FSR_AFF | FSR_ASF | \
FSR_TLBMCF | FSR_TLBLKF )
# define FSR_FAULT (FSR_MULTI | FSR_SS | FSR_UUT | \
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FSR_EF | FSR_PF | FSR_TF | FSR_IGN )
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# define FSYNR0_WNR (1 << 4)
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static int force_stage ;
module_param_named ( force_stage , force_stage , int , S_IRUGO | S_IWUSR ) ;
MODULE_PARM_DESC ( force_stage ,
" Force SMMU mappings to be installed at a particular stage of translation. A value of '1' or '2' forces the corresponding stage. All other values are ignored (i.e. no stage is forced). Note that selecting a specific stage will disable support for nested translation. " ) ;
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enum arm_smmu_arch_version {
ARM_SMMU_V1 = 1 ,
ARM_SMMU_V2 ,
} ;
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struct arm_smmu_smr {
u8 idx ;
u16 mask ;
u16 id ;
} ;
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struct arm_smmu_master_cfg {
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int num_streamids ;
u16 streamids [ MAX_MASTER_STREAMIDS ] ;
struct arm_smmu_smr * smrs ;
} ;
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struct arm_smmu_master {
struct device_node * of_node ;
struct rb_node node ;
struct arm_smmu_master_cfg cfg ;
} ;
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struct arm_smmu_device {
struct device * dev ;
void __iomem * base ;
unsigned long size ;
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unsigned long pgshift ;
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# define ARM_SMMU_FEAT_COHERENT_WALK (1 << 0)
# define ARM_SMMU_FEAT_STREAM_MATCH (1 << 1)
# define ARM_SMMU_FEAT_TRANS_S1 (1 << 2)
# define ARM_SMMU_FEAT_TRANS_S2 (1 << 3)
# define ARM_SMMU_FEAT_TRANS_NESTED (1 << 4)
u32 features ;
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# define ARM_SMMU_OPT_SECURE_CFG_ACCESS (1 << 0)
u32 options ;
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enum arm_smmu_arch_version version ;
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u32 num_context_banks ;
u32 num_s2_context_banks ;
DECLARE_BITMAP ( context_map , ARM_SMMU_MAX_CBS ) ;
atomic_t irptndx ;
u32 num_mapping_groups ;
DECLARE_BITMAP ( smr_map , ARM_SMMU_MAX_SMRS ) ;
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unsigned long s1_input_size ;
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unsigned long s1_output_size ;
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unsigned long s2_input_size ;
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unsigned long s2_output_size ;
u32 num_global_irqs ;
u32 num_context_irqs ;
unsigned int * irqs ;
struct list_head list ;
struct rb_root masters ;
} ;
struct arm_smmu_cfg {
u8 cbndx ;
u8 irptndx ;
u32 cbar ;
pgd_t * pgd ;
} ;
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# define INVALID_IRPTNDX 0xff
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# define ARM_SMMU_CB_ASID(cfg) ((cfg)->cbndx)
# define ARM_SMMU_CB_VMID(cfg) ((cfg)->cbndx + 1)
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struct arm_smmu_domain {
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struct arm_smmu_device * smmu ;
struct arm_smmu_cfg cfg ;
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spinlock_t lock ;
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} ;
static DEFINE_SPINLOCK ( arm_smmu_devices_lock ) ;
static LIST_HEAD ( arm_smmu_devices ) ;
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struct arm_smmu_option_prop {
u32 opt ;
const char * prop ;
} ;
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static struct arm_smmu_option_prop arm_smmu_options [ ] = {
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{ ARM_SMMU_OPT_SECURE_CFG_ACCESS , " calxeda,smmu-secure-config-access " } ,
{ 0 , NULL } ,
} ;
static void parse_driver_options ( struct arm_smmu_device * smmu )
{
int i = 0 ;
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do {
if ( of_property_read_bool ( smmu - > dev - > of_node ,
arm_smmu_options [ i ] . prop ) ) {
smmu - > options | = arm_smmu_options [ i ] . opt ;
dev_notice ( smmu - > dev , " option %s \n " ,
arm_smmu_options [ i ] . prop ) ;
}
} while ( arm_smmu_options [ + + i ] . opt ) ;
}
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static struct device_node * dev_get_dev_node ( struct device * dev )
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{
if ( dev_is_pci ( dev ) ) {
struct pci_bus * bus = to_pci_dev ( dev ) - > bus ;
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while ( ! pci_is_root_bus ( bus ) )
bus = bus - > parent ;
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return bus - > bridge - > parent - > of_node ;
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}
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return dev - > of_node ;
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}
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static struct arm_smmu_master * find_smmu_master ( struct arm_smmu_device * smmu ,
struct device_node * dev_node )
{
struct rb_node * node = smmu - > masters . rb_node ;
while ( node ) {
struct arm_smmu_master * master ;
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master = container_of ( node , struct arm_smmu_master , node ) ;
if ( dev_node < master - > of_node )
node = node - > rb_left ;
else if ( dev_node > master - > of_node )
node = node - > rb_right ;
else
return master ;
}
return NULL ;
}
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static struct arm_smmu_master_cfg *
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find_smmu_master_cfg ( struct device * dev )
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{
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struct arm_smmu_master_cfg * cfg = NULL ;
struct iommu_group * group = iommu_group_get ( dev ) ;
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if ( group ) {
cfg = iommu_group_get_iommudata ( group ) ;
iommu_group_put ( group ) ;
}
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return cfg ;
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}
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static int insert_smmu_master ( struct arm_smmu_device * smmu ,
struct arm_smmu_master * master )
{
struct rb_node * * new , * parent ;
new = & smmu - > masters . rb_node ;
parent = NULL ;
while ( * new ) {
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struct arm_smmu_master * this
= container_of ( * new , struct arm_smmu_master , node ) ;
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parent = * new ;
if ( master - > of_node < this - > of_node )
new = & ( ( * new ) - > rb_left ) ;
else if ( master - > of_node > this - > of_node )
new = & ( ( * new ) - > rb_right ) ;
else
return - EEXIST ;
}
rb_link_node ( & master - > node , parent , new ) ;
rb_insert_color ( & master - > node , & smmu - > masters ) ;
return 0 ;
}
static int register_smmu_master ( struct arm_smmu_device * smmu ,
struct device * dev ,
struct of_phandle_args * masterspec )
{
int i ;
struct arm_smmu_master * master ;
master = find_smmu_master ( smmu , masterspec - > np ) ;
if ( master ) {
dev_err ( dev ,
" rejecting multiple registrations for master device %s \n " ,
masterspec - > np - > name ) ;
return - EBUSY ;
}
if ( masterspec - > args_count > MAX_MASTER_STREAMIDS ) {
dev_err ( dev ,
" reached maximum number (%d) of stream IDs for master device %s \n " ,
MAX_MASTER_STREAMIDS , masterspec - > np - > name ) ;
return - ENOSPC ;
}
master = devm_kzalloc ( dev , sizeof ( * master ) , GFP_KERNEL ) ;
if ( ! master )
return - ENOMEM ;
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master - > of_node = masterspec - > np ;
master - > cfg . num_streamids = masterspec - > args_count ;
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for ( i = 0 ; i < master - > cfg . num_streamids ; + + i ) {
u16 streamid = masterspec - > args [ i ] ;
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if ( ! ( smmu - > features & ARM_SMMU_FEAT_STREAM_MATCH ) & &
( streamid > = smmu - > num_mapping_groups ) ) {
dev_err ( dev ,
" stream ID for master device %s greater than maximum allowed (%d) \n " ,
masterspec - > np - > name , smmu - > num_mapping_groups ) ;
return - ERANGE ;
}
master - > cfg . streamids [ i ] = streamid ;
}
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return insert_smmu_master ( smmu , master ) ;
}
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static struct arm_smmu_device * find_smmu_for_device ( struct device * dev )
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{
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struct arm_smmu_device * smmu ;
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struct arm_smmu_master * master = NULL ;
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struct device_node * dev_node = dev_get_dev_node ( dev ) ;
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spin_lock ( & arm_smmu_devices_lock ) ;
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list_for_each_entry ( smmu , & arm_smmu_devices , list ) {
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master = find_smmu_master ( smmu , dev_node ) ;
if ( master )
break ;
}
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spin_unlock ( & arm_smmu_devices_lock ) ;
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return master ? smmu : NULL ;
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}
static int __arm_smmu_alloc_bitmap ( unsigned long * map , int start , int end )
{
int idx ;
do {
idx = find_next_zero_bit ( map , end , start ) ;
if ( idx = = end )
return - ENOSPC ;
} while ( test_and_set_bit ( idx , map ) ) ;
return idx ;
}
static void __arm_smmu_free_bitmap ( unsigned long * map , int idx )
{
clear_bit ( idx , map ) ;
}
/* Wait for any pending TLB invalidations to complete */
static void arm_smmu_tlb_sync ( struct arm_smmu_device * smmu )
{
int count = 0 ;
void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
writel_relaxed ( 0 , gr0_base + ARM_SMMU_GR0_sTLBGSYNC ) ;
while ( readl_relaxed ( gr0_base + ARM_SMMU_GR0_sTLBGSTATUS )
& sTLBGSTATUS_GSACTIVE ) {
cpu_relax ( ) ;
if ( + + count = = TLB_LOOP_TIMEOUT ) {
dev_err_ratelimited ( smmu - > dev ,
" TLB sync timed out -- SMMU may be deadlocked \n " ) ;
return ;
}
udelay ( 1 ) ;
}
}
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static void arm_smmu_tlb_inv_context ( struct arm_smmu_domain * smmu_domain )
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{
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struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
struct arm_smmu_device * smmu = smmu_domain - > smmu ;
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void __iomem * base = ARM_SMMU_GR0 ( smmu ) ;
bool stage1 = cfg - > cbar ! = CBAR_TYPE_S2_TRANS ;
if ( stage1 ) {
base = ARM_SMMU_CB_BASE ( smmu ) + ARM_SMMU_CB ( smmu , cfg - > cbndx ) ;
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writel_relaxed ( ARM_SMMU_CB_ASID ( cfg ) ,
base + ARM_SMMU_CB_S1_TLBIASID ) ;
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} else {
base = ARM_SMMU_GR0 ( smmu ) ;
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writel_relaxed ( ARM_SMMU_CB_VMID ( cfg ) ,
base + ARM_SMMU_GR0_TLBIVMID ) ;
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}
arm_smmu_tlb_sync ( smmu ) ;
}
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static irqreturn_t arm_smmu_context_fault ( int irq , void * dev )
{
int flags , ret ;
u32 fsr , far , fsynr , resume ;
unsigned long iova ;
struct iommu_domain * domain = dev ;
struct arm_smmu_domain * smmu_domain = domain - > priv ;
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struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
struct arm_smmu_device * smmu = smmu_domain - > smmu ;
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void __iomem * cb_base ;
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cb_base = ARM_SMMU_CB_BASE ( smmu ) + ARM_SMMU_CB ( smmu , cfg - > cbndx ) ;
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fsr = readl_relaxed ( cb_base + ARM_SMMU_CB_FSR ) ;
if ( ! ( fsr & FSR_FAULT ) )
return IRQ_NONE ;
if ( fsr & FSR_IGN )
dev_err_ratelimited ( smmu - > dev ,
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" Unexpected context fault (fsr 0x%x) \n " ,
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fsr ) ;
fsynr = readl_relaxed ( cb_base + ARM_SMMU_CB_FSYNR0 ) ;
flags = fsynr & FSYNR0_WNR ? IOMMU_FAULT_WRITE : IOMMU_FAULT_READ ;
far = readl_relaxed ( cb_base + ARM_SMMU_CB_FAR_LO ) ;
iova = far ;
# ifdef CONFIG_64BIT
far = readl_relaxed ( cb_base + ARM_SMMU_CB_FAR_HI ) ;
iova | = ( ( unsigned long ) far < < 32 ) ;
# endif
if ( ! report_iommu_fault ( domain , smmu - > dev , iova , flags ) ) {
ret = IRQ_HANDLED ;
resume = RESUME_RETRY ;
} else {
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dev_err_ratelimited ( smmu - > dev ,
" Unhandled context fault: iova=0x%08lx, fsynr=0x%x, cb=%d \n " ,
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iova , fsynr , cfg - > cbndx ) ;
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ret = IRQ_NONE ;
resume = RESUME_TERMINATE ;
}
/* Clear the faulting FSR */
writel ( fsr , cb_base + ARM_SMMU_CB_FSR ) ;
/* Retry or terminate any stalled transactions */
if ( fsr & FSR_SS )
writel_relaxed ( resume , cb_base + ARM_SMMU_CB_RESUME ) ;
return ret ;
}
static irqreturn_t arm_smmu_global_fault ( int irq , void * dev )
{
u32 gfsr , gfsynr0 , gfsynr1 , gfsynr2 ;
struct arm_smmu_device * smmu = dev ;
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void __iomem * gr0_base = ARM_SMMU_GR0_NS ( smmu ) ;
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gfsr = readl_relaxed ( gr0_base + ARM_SMMU_GR0_sGFSR ) ;
gfsynr0 = readl_relaxed ( gr0_base + ARM_SMMU_GR0_sGFSYNR0 ) ;
gfsynr1 = readl_relaxed ( gr0_base + ARM_SMMU_GR0_sGFSYNR1 ) ;
gfsynr2 = readl_relaxed ( gr0_base + ARM_SMMU_GR0_sGFSYNR2 ) ;
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if ( ! gfsr )
return IRQ_NONE ;
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dev_err_ratelimited ( smmu - > dev ,
" Unexpected global fault, this could be serious \n " ) ;
dev_err_ratelimited ( smmu - > dev ,
" \t GFSR 0x%08x, GFSYNR0 0x%08x, GFSYNR1 0x%08x, GFSYNR2 0x%08x \n " ,
gfsr , gfsynr0 , gfsynr1 , gfsynr2 ) ;
writel ( gfsr , gr0_base + ARM_SMMU_GR0_sGFSR ) ;
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return IRQ_HANDLED ;
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}
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static void arm_smmu_flush_pgtable ( struct arm_smmu_device * smmu , void * addr ,
size_t size )
{
unsigned long offset = ( unsigned long ) addr & ~ PAGE_MASK ;
/* Ensure new page tables are visible to the hardware walker */
if ( smmu - > features & ARM_SMMU_FEAT_COHERENT_WALK ) {
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dsb ( ishst ) ;
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} else {
/*
* If the SMMU can ' t walk tables in the CPU caches , treat them
* like non - coherent DMA since we need to flush the new entries
* all the way out to memory . There ' s no possibility of
* recursion here as the SMMU table walker will not be wired
* through another SMMU .
*/
dma_map_page ( smmu - > dev , virt_to_page ( addr ) , offset , size ,
DMA_TO_DEVICE ) ;
}
}
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static void arm_smmu_init_context_bank ( struct arm_smmu_domain * smmu_domain )
{
u32 reg ;
bool stage1 ;
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struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
struct arm_smmu_device * smmu = smmu_domain - > smmu ;
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void __iomem * cb_base , * gr0_base , * gr1_base ;
gr0_base = ARM_SMMU_GR0 ( smmu ) ;
gr1_base = ARM_SMMU_GR1 ( smmu ) ;
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stage1 = cfg - > cbar ! = CBAR_TYPE_S2_TRANS ;
cb_base = ARM_SMMU_CB_BASE ( smmu ) + ARM_SMMU_CB ( smmu , cfg - > cbndx ) ;
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/* CBAR */
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reg = cfg - > cbar ;
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if ( smmu - > version = = ARM_SMMU_V1 )
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reg | = cfg - > irptndx < < CBAR_IRPTNDX_SHIFT ;
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/*
* Use the weakest shareability / memory types , so they are
* overridden by the ttbcr / pte .
*/
if ( stage1 ) {
reg | = ( CBAR_S1_BPSHCFG_NSH < < CBAR_S1_BPSHCFG_SHIFT ) |
( CBAR_S1_MEMATTR_WB < < CBAR_S1_MEMATTR_SHIFT ) ;
} else {
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reg | = ARM_SMMU_CB_VMID ( cfg ) < < CBAR_VMID_SHIFT ;
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}
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writel_relaxed ( reg , gr1_base + ARM_SMMU_GR1_CBAR ( cfg - > cbndx ) ) ;
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if ( smmu - > version > ARM_SMMU_V1 ) {
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/* CBA2R */
# ifdef CONFIG_64BIT
reg = CBA2R_RW64_64BIT ;
# else
reg = CBA2R_RW64_32BIT ;
# endif
writel_relaxed ( reg ,
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gr1_base + ARM_SMMU_GR1_CBA2R ( cfg - > cbndx ) ) ;
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/* TTBCR2 */
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switch ( smmu - > s1_input_size ) {
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case 32 :
reg = ( TTBCR2_ADDR_32 < < TTBCR2_SEP_SHIFT ) ;
break ;
case 36 :
reg = ( TTBCR2_ADDR_36 < < TTBCR2_SEP_SHIFT ) ;
break ;
case 39 :
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case 40 :
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reg = ( TTBCR2_ADDR_40 < < TTBCR2_SEP_SHIFT ) ;
break ;
case 42 :
reg = ( TTBCR2_ADDR_42 < < TTBCR2_SEP_SHIFT ) ;
break ;
case 44 :
reg = ( TTBCR2_ADDR_44 < < TTBCR2_SEP_SHIFT ) ;
break ;
case 48 :
reg = ( TTBCR2_ADDR_48 < < TTBCR2_SEP_SHIFT ) ;
break ;
}
switch ( smmu - > s1_output_size ) {
case 32 :
reg | = ( TTBCR2_ADDR_32 < < TTBCR2_PASIZE_SHIFT ) ;
break ;
case 36 :
reg | = ( TTBCR2_ADDR_36 < < TTBCR2_PASIZE_SHIFT ) ;
break ;
case 39 :
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case 40 :
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reg | = ( TTBCR2_ADDR_40 < < TTBCR2_PASIZE_SHIFT ) ;
break ;
case 42 :
reg | = ( TTBCR2_ADDR_42 < < TTBCR2_PASIZE_SHIFT ) ;
break ;
case 44 :
reg | = ( TTBCR2_ADDR_44 < < TTBCR2_PASIZE_SHIFT ) ;
break ;
case 48 :
reg | = ( TTBCR2_ADDR_48 < < TTBCR2_PASIZE_SHIFT ) ;
break ;
}
if ( stage1 )
writel_relaxed ( reg , cb_base + ARM_SMMU_CB_TTBCR2 ) ;
}
/* TTBR0 */
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arm_smmu_flush_pgtable ( smmu , cfg - > pgd ,
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PTRS_PER_PGD * sizeof ( pgd_t ) ) ;
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reg = __pa ( cfg - > pgd ) ;
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writel_relaxed ( reg , cb_base + ARM_SMMU_CB_TTBR0_LO ) ;
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reg = ( phys_addr_t ) __pa ( cfg - > pgd ) > > 32 ;
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if ( stage1 )
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reg | = ARM_SMMU_CB_ASID ( cfg ) < < TTBRn_HI_ASID_SHIFT ;
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writel_relaxed ( reg , cb_base + ARM_SMMU_CB_TTBR0_HI ) ;
/*
* TTBCR
* We use long descriptor , with inner - shareable WBWA tables in TTBR0 .
*/
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if ( smmu - > version > ARM_SMMU_V1 ) {
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if ( PAGE_SIZE = = SZ_4K )
reg = TTBCR_TG0_4K ;
else
reg = TTBCR_TG0_64K ;
if ( ! stage1 ) {
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reg | = ( 64 - smmu - > s2_input_size ) < < TTBCR_T0SZ_SHIFT ;
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switch ( smmu - > s2_output_size ) {
case 32 :
reg | = ( TTBCR2_ADDR_32 < < TTBCR_PASIZE_SHIFT ) ;
break ;
case 36 :
reg | = ( TTBCR2_ADDR_36 < < TTBCR_PASIZE_SHIFT ) ;
break ;
case 40 :
reg | = ( TTBCR2_ADDR_40 < < TTBCR_PASIZE_SHIFT ) ;
break ;
case 42 :
reg | = ( TTBCR2_ADDR_42 < < TTBCR_PASIZE_SHIFT ) ;
break ;
case 44 :
reg | = ( TTBCR2_ADDR_44 < < TTBCR_PASIZE_SHIFT ) ;
break ;
case 48 :
reg | = ( TTBCR2_ADDR_48 < < TTBCR_PASIZE_SHIFT ) ;
break ;
}
} else {
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reg | = ( 64 - smmu - > s1_input_size ) < < TTBCR_T0SZ_SHIFT ;
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}
} else {
reg = 0 ;
}
reg | = TTBCR_EAE |
( TTBCR_SH_IS < < TTBCR_SH0_SHIFT ) |
( TTBCR_RGN_WBWA < < TTBCR_ORGN0_SHIFT ) |
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( TTBCR_RGN_WBWA < < TTBCR_IRGN0_SHIFT ) ;
if ( ! stage1 )
reg | = ( TTBCR_SL0_LVL_1 < < TTBCR_SL0_SHIFT ) ;
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writel_relaxed ( reg , cb_base + ARM_SMMU_CB_TTBCR ) ;
/* MAIR0 (stage-1 only) */
if ( stage1 ) {
reg = ( MAIR_ATTR_NC < < MAIR_ATTR_SHIFT ( MAIR_ATTR_IDX_NC ) ) |
( MAIR_ATTR_WBRWA < < MAIR_ATTR_SHIFT ( MAIR_ATTR_IDX_CACHE ) ) |
( MAIR_ATTR_DEVICE < < MAIR_ATTR_SHIFT ( MAIR_ATTR_IDX_DEV ) ) ;
writel_relaxed ( reg , cb_base + ARM_SMMU_CB_S1_MAIR0 ) ;
}
/* SCTLR */
reg = SCTLR_CFCFG | SCTLR_CFIE | SCTLR_CFRE | SCTLR_M | SCTLR_EAE_SBOP ;
if ( stage1 )
reg | = SCTLR_S1_ASIDPNE ;
# ifdef __BIG_ENDIAN
reg | = SCTLR_E ;
# endif
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writel_relaxed ( reg , cb_base + ARM_SMMU_CB_SCTLR ) ;
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}
static int arm_smmu_init_domain_context ( struct iommu_domain * domain ,
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struct arm_smmu_device * smmu )
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{
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int irq , start , ret = 0 ;
unsigned long flags ;
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struct arm_smmu_domain * smmu_domain = domain - > priv ;
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struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
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spin_lock_irqsave ( & smmu_domain - > lock , flags ) ;
if ( smmu_domain - > smmu )
goto out_unlock ;
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if ( smmu - > features & ARM_SMMU_FEAT_TRANS_NESTED ) {
/*
* We will likely want to change this if / when KVM gets
* involved .
*/
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cfg - > cbar = CBAR_TYPE_S1_TRANS_S2_BYPASS ;
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start = smmu - > num_s2_context_banks ;
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} else if ( smmu - > features & ARM_SMMU_FEAT_TRANS_S1 ) {
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cfg - > cbar = CBAR_TYPE_S1_TRANS_S2_BYPASS ;
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start = smmu - > num_s2_context_banks ;
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} else {
cfg - > cbar = CBAR_TYPE_S2_TRANS ;
start = 0 ;
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}
ret = __arm_smmu_alloc_bitmap ( smmu - > context_map , start ,
smmu - > num_context_banks ) ;
if ( IS_ERR_VALUE ( ret ) )
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goto out_unlock ;
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cfg - > cbndx = ret ;
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if ( smmu - > version = = ARM_SMMU_V1 ) {
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cfg - > irptndx = atomic_inc_return ( & smmu - > irptndx ) ;
cfg - > irptndx % = smmu - > num_context_irqs ;
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} else {
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cfg - > irptndx = cfg - > cbndx ;
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}
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ACCESS_ONCE ( smmu_domain - > smmu ) = smmu ;
arm_smmu_init_context_bank ( smmu_domain ) ;
spin_unlock_irqrestore ( & smmu_domain - > lock , flags ) ;
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irq = smmu - > irqs [ smmu - > num_global_irqs + cfg - > irptndx ] ;
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ret = request_irq ( irq , arm_smmu_context_fault , IRQF_SHARED ,
" arm-smmu-context-fault " , domain ) ;
if ( IS_ERR_VALUE ( ret ) ) {
dev_err ( smmu - > dev , " failed to request context IRQ %d (%u) \n " ,
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cfg - > irptndx , irq ) ;
cfg - > irptndx = INVALID_IRPTNDX ;
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}
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return 0 ;
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out_unlock :
spin_unlock_irqrestore ( & smmu_domain - > lock , flags ) ;
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return ret ;
}
static void arm_smmu_destroy_domain_context ( struct iommu_domain * domain )
{
struct arm_smmu_domain * smmu_domain = domain - > priv ;
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struct arm_smmu_device * smmu = smmu_domain - > smmu ;
struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
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void __iomem * cb_base ;
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int irq ;
if ( ! smmu )
return ;
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/* Disable the context bank and nuke the TLB before freeing it. */
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cb_base = ARM_SMMU_CB_BASE ( smmu ) + ARM_SMMU_CB ( smmu , cfg - > cbndx ) ;
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writel_relaxed ( 0 , cb_base + ARM_SMMU_CB_SCTLR ) ;
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arm_smmu_tlb_inv_context ( smmu_domain ) ;
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if ( cfg - > irptndx ! = INVALID_IRPTNDX ) {
irq = smmu - > irqs [ smmu - > num_global_irqs + cfg - > irptndx ] ;
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free_irq ( irq , domain ) ;
}
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__arm_smmu_free_bitmap ( smmu - > context_map , cfg - > cbndx ) ;
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}
static int arm_smmu_domain_init ( struct iommu_domain * domain )
{
struct arm_smmu_domain * smmu_domain ;
pgd_t * pgd ;
/*
* Allocate the domain and initialise some of its data structures .
* We can ' t really do anything meaningful until we ' ve added a
* master .
*/
smmu_domain = kzalloc ( sizeof ( * smmu_domain ) , GFP_KERNEL ) ;
if ( ! smmu_domain )
return - ENOMEM ;
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pgd = kcalloc ( PTRS_PER_PGD , sizeof ( pgd_t ) , GFP_KERNEL ) ;
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if ( ! pgd )
goto out_free_domain ;
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smmu_domain - > cfg . pgd = pgd ;
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spin_lock_init ( & smmu_domain - > lock ) ;
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domain - > priv = smmu_domain ;
return 0 ;
out_free_domain :
kfree ( smmu_domain ) ;
return - ENOMEM ;
}
static void arm_smmu_free_ptes ( pmd_t * pmd )
{
pgtable_t table = pmd_pgtable ( * pmd ) ;
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__free_page ( table ) ;
}
static void arm_smmu_free_pmds ( pud_t * pud )
{
int i ;
pmd_t * pmd , * pmd_base = pmd_offset ( pud , 0 ) ;
pmd = pmd_base ;
for ( i = 0 ; i < PTRS_PER_PMD ; + + i ) {
if ( pmd_none ( * pmd ) )
continue ;
arm_smmu_free_ptes ( pmd ) ;
pmd + + ;
}
pmd_free ( NULL , pmd_base ) ;
}
static void arm_smmu_free_puds ( pgd_t * pgd )
{
int i ;
pud_t * pud , * pud_base = pud_offset ( pgd , 0 ) ;
pud = pud_base ;
for ( i = 0 ; i < PTRS_PER_PUD ; + + i ) {
if ( pud_none ( * pud ) )
continue ;
arm_smmu_free_pmds ( pud ) ;
pud + + ;
}
pud_free ( NULL , pud_base ) ;
}
static void arm_smmu_free_pgtables ( struct arm_smmu_domain * smmu_domain )
{
int i ;
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struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
pgd_t * pgd , * pgd_base = cfg - > pgd ;
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/*
* Recursively free the page tables for this domain . We don ' t
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* care about speculative TLB filling because the tables should
* not be active in any context bank at this point ( SCTLR . M is 0 ) .
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*/
pgd = pgd_base ;
for ( i = 0 ; i < PTRS_PER_PGD ; + + i ) {
if ( pgd_none ( * pgd ) )
continue ;
arm_smmu_free_puds ( pgd ) ;
pgd + + ;
}
kfree ( pgd_base ) ;
}
static void arm_smmu_domain_destroy ( struct iommu_domain * domain )
{
struct arm_smmu_domain * smmu_domain = domain - > priv ;
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/*
* Free the domain resources . We assume that all devices have
* already been detached .
*/
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arm_smmu_destroy_domain_context ( domain ) ;
arm_smmu_free_pgtables ( smmu_domain ) ;
kfree ( smmu_domain ) ;
}
static int arm_smmu_master_configure_smrs ( struct arm_smmu_device * smmu ,
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struct arm_smmu_master_cfg * cfg )
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{
int i ;
struct arm_smmu_smr * smrs ;
void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
if ( ! ( smmu - > features & ARM_SMMU_FEAT_STREAM_MATCH ) )
return 0 ;
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if ( cfg - > smrs )
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return - EEXIST ;
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smrs = kmalloc_array ( cfg - > num_streamids , sizeof ( * smrs ) , GFP_KERNEL ) ;
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if ( ! smrs ) {
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dev_err ( smmu - > dev , " failed to allocate %d SMRs \n " ,
cfg - > num_streamids ) ;
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return - ENOMEM ;
}
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/* Allocate the SMRs on the SMMU */
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for ( i = 0 ; i < cfg - > num_streamids ; + + i ) {
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int idx = __arm_smmu_alloc_bitmap ( smmu - > smr_map , 0 ,
smmu - > num_mapping_groups ) ;
if ( IS_ERR_VALUE ( idx ) ) {
dev_err ( smmu - > dev , " failed to allocate free SMR \n " ) ;
goto err_free_smrs ;
}
smrs [ i ] = ( struct arm_smmu_smr ) {
. idx = idx ,
. mask = 0 , /* We don't currently share SMRs */
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. id = cfg - > streamids [ i ] ,
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} ;
}
/* It worked! Now, poke the actual hardware */
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for ( i = 0 ; i < cfg - > num_streamids ; + + i ) {
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u32 reg = SMR_VALID | smrs [ i ] . id < < SMR_ID_SHIFT |
smrs [ i ] . mask < < SMR_MASK_SHIFT ;
writel_relaxed ( reg , gr0_base + ARM_SMMU_GR0_SMR ( smrs [ i ] . idx ) ) ;
}
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cfg - > smrs = smrs ;
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return 0 ;
err_free_smrs :
while ( - - i > = 0 )
__arm_smmu_free_bitmap ( smmu - > smr_map , smrs [ i ] . idx ) ;
kfree ( smrs ) ;
return - ENOSPC ;
}
static void arm_smmu_master_free_smrs ( struct arm_smmu_device * smmu ,
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struct arm_smmu_master_cfg * cfg )
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{
int i ;
void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
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struct arm_smmu_smr * smrs = cfg - > smrs ;
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if ( ! smrs )
return ;
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/* Invalidate the SMRs before freeing back to the allocator */
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for ( i = 0 ; i < cfg - > num_streamids ; + + i ) {
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u8 idx = smrs [ i ] . idx ;
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writel_relaxed ( ~ SMR_VALID , gr0_base + ARM_SMMU_GR0_SMR ( idx ) ) ;
__arm_smmu_free_bitmap ( smmu - > smr_map , idx ) ;
}
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cfg - > smrs = NULL ;
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kfree ( smrs ) ;
}
static int arm_smmu_domain_add_master ( struct arm_smmu_domain * smmu_domain ,
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struct arm_smmu_master_cfg * cfg )
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{
int i , ret ;
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struct arm_smmu_device * smmu = smmu_domain - > smmu ;
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void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
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/* Devices in an IOMMU group may already be configured */
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ret = arm_smmu_master_configure_smrs ( smmu , cfg ) ;
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if ( ret )
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return ret = = - EEXIST ? 0 : ret ;
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for ( i = 0 ; i < cfg - > num_streamids ; + + i ) {
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u32 idx , s2cr ;
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idx = cfg - > smrs ? cfg - > smrs [ i ] . idx : cfg - > streamids [ i ] ;
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s2cr = S2CR_TYPE_TRANS |
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( smmu_domain - > cfg . cbndx < < S2CR_CBNDX_SHIFT ) ;
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writel_relaxed ( s2cr , gr0_base + ARM_SMMU_GR0_S2CR ( idx ) ) ;
}
return 0 ;
}
static void arm_smmu_domain_remove_master ( struct arm_smmu_domain * smmu_domain ,
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struct arm_smmu_master_cfg * cfg )
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{
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int i ;
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struct arm_smmu_device * smmu = smmu_domain - > smmu ;
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void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
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2014-07-15 18:27:08 +08:00
/* An IOMMU group is torn down by the first device to be removed */
if ( ( smmu - > features & ARM_SMMU_FEAT_STREAM_MATCH ) & & ! cfg - > smrs )
return ;
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/*
* We * must * clear the S2CR first , because freeing the SMR means
* that it can be re - allocated immediately .
*/
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for ( i = 0 ; i < cfg - > num_streamids ; + + i ) {
u32 idx = cfg - > smrs ? cfg - > smrs [ i ] . idx : cfg - > streamids [ i ] ;
writel_relaxed ( S2CR_TYPE_BYPASS ,
gr0_base + ARM_SMMU_GR0_S2CR ( idx ) ) ;
}
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arm_smmu_master_free_smrs ( smmu , cfg ) ;
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}
static int arm_smmu_attach_dev ( struct iommu_domain * domain , struct device * dev )
{
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int ret ;
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struct arm_smmu_domain * smmu_domain = domain - > priv ;
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struct arm_smmu_device * smmu , * dom_smmu ;
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struct arm_smmu_master_cfg * cfg ;
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2014-07-15 18:27:08 +08:00
smmu = find_smmu_for_device ( dev ) ;
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if ( ! smmu ) {
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dev_err ( dev , " cannot attach to SMMU, is it on the same bus? \n " ) ;
return - ENXIO ;
}
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if ( dev - > archdata . iommu ) {
dev_err ( dev , " already attached to IOMMU domain \n " ) ;
return - EEXIST ;
}
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/*
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* Sanity check the domain . We don ' t support domains across
* different SMMUs .
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*/
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dom_smmu = ACCESS_ONCE ( smmu_domain - > smmu ) ;
if ( ! dom_smmu ) {
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/* Now that we have a master, we can finalise the domain */
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ret = arm_smmu_init_domain_context ( domain , smmu ) ;
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if ( IS_ERR_VALUE ( ret ) )
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return ret ;
dom_smmu = smmu_domain - > smmu ;
}
if ( dom_smmu ! = smmu ) {
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dev_err ( dev ,
" cannot attach to SMMU %s whilst already attached to domain on SMMU %s \n " ,
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dev_name ( smmu_domain - > smmu - > dev ) , dev_name ( smmu - > dev ) ) ;
return - EINVAL ;
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}
/* Looks ok, so add the device to the domain */
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cfg = find_smmu_master_cfg ( dev ) ;
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if ( ! cfg )
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return - ENODEV ;
2014-07-17 18:23:51 +08:00
ret = arm_smmu_domain_add_master ( smmu_domain , cfg ) ;
if ( ! ret )
dev - > archdata . iommu = domain ;
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return ret ;
}
static void arm_smmu_detach_dev ( struct iommu_domain * domain , struct device * dev )
{
struct arm_smmu_domain * smmu_domain = domain - > priv ;
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struct arm_smmu_master_cfg * cfg ;
2013-06-25 01:31:25 +08:00
2014-07-15 18:27:08 +08:00
cfg = find_smmu_master_cfg ( dev ) ;
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if ( ! cfg )
return ;
dev - > archdata . iommu = NULL ;
arm_smmu_domain_remove_master ( smmu_domain , cfg ) ;
2013-06-25 01:31:25 +08:00
}
static bool arm_smmu_pte_is_contiguous_range ( unsigned long addr ,
unsigned long end )
{
return ! ( addr & ~ ARM_SMMU_PTE_CONT_MASK ) & &
( addr + ARM_SMMU_PTE_CONT_SIZE < = end ) ;
}
static int arm_smmu_alloc_init_pte ( struct arm_smmu_device * smmu , pmd_t * pmd ,
unsigned long addr , unsigned long end ,
2014-02-21 00:31:06 +08:00
unsigned long pfn , int prot , int stage )
2013-06-25 01:31:25 +08:00
{
pte_t * pte , * start ;
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pteval_t pteval = ARM_SMMU_PTE_PAGE | ARM_SMMU_PTE_AF ;
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if ( pmd_none ( * pmd ) ) {
/* Allocate a new set of tables */
2014-02-05 06:12:42 +08:00
pgtable_t table = alloc_page ( GFP_ATOMIC | __GFP_ZERO ) ;
2014-07-09 00:52:18 +08:00
2013-06-25 01:31:25 +08:00
if ( ! table )
return - ENOMEM ;
2014-02-06 01:49:34 +08:00
arm_smmu_flush_pgtable ( smmu , page_address ( table ) , PAGE_SIZE ) ;
2013-06-25 01:31:25 +08:00
pmd_populate ( NULL , pmd , table ) ;
arm_smmu_flush_pgtable ( smmu , pmd , sizeof ( * pmd ) ) ;
}
if ( stage = = 1 ) {
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pteval | = ARM_SMMU_PTE_AP_UNPRIV | ARM_SMMU_PTE_nG ;
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if ( ! ( prot & IOMMU_WRITE ) & & ( prot & IOMMU_READ ) )
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pteval | = ARM_SMMU_PTE_AP_RDONLY ;
2014-02-21 00:31:06 +08:00
if ( prot & IOMMU_CACHE )
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pteval | = ( MAIR_ATTR_IDX_CACHE < <
ARM_SMMU_PTE_ATTRINDX_SHIFT ) ;
} else {
pteval | = ARM_SMMU_PTE_HAP_FAULT ;
2014-02-21 00:31:06 +08:00
if ( prot & IOMMU_READ )
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pteval | = ARM_SMMU_PTE_HAP_READ ;
2014-02-21 00:31:06 +08:00
if ( prot & IOMMU_WRITE )
2013-06-25 01:31:25 +08:00
pteval | = ARM_SMMU_PTE_HAP_WRITE ;
2014-02-21 00:31:06 +08:00
if ( prot & IOMMU_CACHE )
2013-06-25 01:31:25 +08:00
pteval | = ARM_SMMU_PTE_MEMATTR_OIWB ;
else
pteval | = ARM_SMMU_PTE_MEMATTR_NC ;
}
2014-10-13 21:06:16 +08:00
if ( prot & IOMMU_NOEXEC )
pteval | = ARM_SMMU_PTE_XN ;
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/* If no access, create a faulting entry to avoid TLB fills */
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if ( ! ( prot & ( IOMMU_READ | IOMMU_WRITE ) ) )
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pteval & = ~ ARM_SMMU_PTE_PAGE ;
pteval | = ARM_SMMU_PTE_SH_IS ;
start = pmd_page_vaddr ( * pmd ) + pte_index ( addr ) ;
pte = start ;
/*
* Install the page table entries . This is fairly complicated
* since we attempt to make use of the contiguous hint in the
* ptes where possible . The contiguous hint indicates a series
* of ARM_SMMU_PTE_CONT_ENTRIES ptes mapping a physically
* contiguous region with the following constraints :
*
* - The region start is aligned to ARM_SMMU_PTE_CONT_SIZE
* - Each pte in the region has the contiguous hint bit set
*
* This complicates unmapping ( also handled by this code , when
* neither IOMMU_READ or IOMMU_WRITE are set ) because it is
* possible , yet highly unlikely , that a client may unmap only
* part of a contiguous range . This requires clearing of the
* contiguous hint bits in the range before installing the new
* faulting entries .
*
* Note that re - mapping an address range without first unmapping
* it is not supported , so TLB invalidation is not required here
* and is instead performed at unmap and domain - init time .
*/
do {
int i = 1 ;
2014-07-09 00:52:18 +08:00
2013-06-25 01:31:25 +08:00
pteval & = ~ ARM_SMMU_PTE_CONT ;
if ( arm_smmu_pte_is_contiguous_range ( addr , end ) ) {
i = ARM_SMMU_PTE_CONT_ENTRIES ;
pteval | = ARM_SMMU_PTE_CONT ;
} else if ( pte_val ( * pte ) &
( ARM_SMMU_PTE_CONT | ARM_SMMU_PTE_PAGE ) ) {
int j ;
pte_t * cont_start ;
unsigned long idx = pte_index ( addr ) ;
idx & = ~ ( ARM_SMMU_PTE_CONT_ENTRIES - 1 ) ;
cont_start = pmd_page_vaddr ( * pmd ) + idx ;
for ( j = 0 ; j < ARM_SMMU_PTE_CONT_ENTRIES ; + + j )
2014-07-09 00:52:18 +08:00
pte_val ( * ( cont_start + j ) ) & =
~ ARM_SMMU_PTE_CONT ;
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arm_smmu_flush_pgtable ( smmu , cont_start ,
sizeof ( * pte ) *
ARM_SMMU_PTE_CONT_ENTRIES ) ;
}
do {
* pte = pfn_pte ( pfn , __pgprot ( pteval ) ) ;
} while ( pte + + , pfn + + , addr + = PAGE_SIZE , - - i ) ;
} while ( addr ! = end ) ;
arm_smmu_flush_pgtable ( smmu , start , sizeof ( * pte ) * ( pte - start ) ) ;
return 0 ;
}
static int arm_smmu_alloc_init_pmd ( struct arm_smmu_device * smmu , pud_t * pud ,
unsigned long addr , unsigned long end ,
2014-02-21 00:31:06 +08:00
phys_addr_t phys , int prot , int stage )
2013-06-25 01:31:25 +08:00
{
int ret ;
pmd_t * pmd ;
unsigned long next , pfn = __phys_to_pfn ( phys ) ;
# ifndef __PAGETABLE_PMD_FOLDED
if ( pud_none ( * pud ) ) {
2014-02-05 06:12:42 +08:00
pmd = ( pmd_t * ) get_zeroed_page ( GFP_ATOMIC ) ;
2013-06-25 01:31:25 +08:00
if ( ! pmd )
return - ENOMEM ;
2014-01-03 20:01:26 +08:00
2014-02-06 01:49:34 +08:00
arm_smmu_flush_pgtable ( smmu , pmd , PAGE_SIZE ) ;
2014-01-03 20:01:26 +08:00
pud_populate ( NULL , pud , pmd ) ;
arm_smmu_flush_pgtable ( smmu , pud , sizeof ( * pud ) ) ;
pmd + = pmd_index ( addr ) ;
2013-06-25 01:31:25 +08:00
} else
# endif
pmd = pmd_offset ( pud , addr ) ;
do {
next = pmd_addr_end ( addr , end ) ;
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ret = arm_smmu_alloc_init_pte ( smmu , pmd , addr , next , pfn ,
2014-02-21 00:31:06 +08:00
prot , stage ) ;
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phys + = next - addr ;
2014-09-20 05:58:42 +08:00
pfn = __phys_to_pfn ( phys ) ;
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} while ( pmd + + , addr = next , addr < end ) ;
return ret ;
}
static int arm_smmu_alloc_init_pud ( struct arm_smmu_device * smmu , pgd_t * pgd ,
unsigned long addr , unsigned long end ,
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phys_addr_t phys , int prot , int stage )
2013-06-25 01:31:25 +08:00
{
int ret = 0 ;
pud_t * pud ;
unsigned long next ;
# ifndef __PAGETABLE_PUD_FOLDED
if ( pgd_none ( * pgd ) ) {
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pud = ( pud_t * ) get_zeroed_page ( GFP_ATOMIC ) ;
2013-06-25 01:31:25 +08:00
if ( ! pud )
return - ENOMEM ;
2014-01-03 20:01:26 +08:00
2014-02-06 01:49:34 +08:00
arm_smmu_flush_pgtable ( smmu , pud , PAGE_SIZE ) ;
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pgd_populate ( NULL , pgd , pud ) ;
arm_smmu_flush_pgtable ( smmu , pgd , sizeof ( * pgd ) ) ;
pud + = pud_index ( addr ) ;
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} else
# endif
pud = pud_offset ( pgd , addr ) ;
do {
next = pud_addr_end ( addr , end ) ;
ret = arm_smmu_alloc_init_pmd ( smmu , pud , addr , next , phys ,
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prot , stage ) ;
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phys + = next - addr ;
} while ( pud + + , addr = next , addr < end ) ;
return ret ;
}
static int arm_smmu_handle_mapping ( struct arm_smmu_domain * smmu_domain ,
unsigned long iova , phys_addr_t paddr ,
2014-02-21 00:31:06 +08:00
size_t size , int prot )
2013-06-25 01:31:25 +08:00
{
int ret , stage ;
unsigned long end ;
phys_addr_t input_mask , output_mask ;
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struct arm_smmu_device * smmu = smmu_domain - > smmu ;
struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
pgd_t * pgd = cfg - > pgd ;
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unsigned long flags ;
2013-06-25 01:31:25 +08:00
2014-06-25 18:29:12 +08:00
if ( cfg - > cbar = = CBAR_TYPE_S2_TRANS ) {
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stage = 2 ;
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input_mask = ( 1ULL < < smmu - > s2_input_size ) - 1 ;
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output_mask = ( 1ULL < < smmu - > s2_output_size ) - 1 ;
} else {
stage = 1 ;
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input_mask = ( 1ULL < < smmu - > s1_input_size ) - 1 ;
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output_mask = ( 1ULL < < smmu - > s1_output_size ) - 1 ;
}
if ( ! pgd )
return - EINVAL ;
if ( size & ~ PAGE_MASK )
return - EINVAL ;
if ( ( phys_addr_t ) iova & ~ input_mask )
return - ERANGE ;
if ( paddr & ~ output_mask )
return - ERANGE ;
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spin_lock_irqsave ( & smmu_domain - > lock , flags ) ;
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pgd + = pgd_index ( iova ) ;
end = iova + size ;
do {
unsigned long next = pgd_addr_end ( iova , end ) ;
ret = arm_smmu_alloc_init_pud ( smmu , pgd , iova , next , paddr ,
2014-02-21 00:31:06 +08:00
prot , stage ) ;
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if ( ret )
goto out_unlock ;
paddr + = next - iova ;
iova = next ;
} while ( pgd + + , iova ! = end ) ;
out_unlock :
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spin_unlock_irqrestore ( & smmu_domain - > lock , flags ) ;
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return ret ;
}
static int arm_smmu_map ( struct iommu_domain * domain , unsigned long iova ,
2014-02-21 00:31:06 +08:00
phys_addr_t paddr , size_t size , int prot )
2013-06-25 01:31:25 +08:00
{
struct arm_smmu_domain * smmu_domain = domain - > priv ;
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if ( ! smmu_domain )
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return - ENODEV ;
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return arm_smmu_handle_mapping ( smmu_domain , iova , paddr , size , prot ) ;
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}
static size_t arm_smmu_unmap ( struct iommu_domain * domain , unsigned long iova ,
size_t size )
{
int ret ;
struct arm_smmu_domain * smmu_domain = domain - > priv ;
ret = arm_smmu_handle_mapping ( smmu_domain , iova , 0 , size , 0 ) ;
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arm_smmu_tlb_inv_context ( smmu_domain ) ;
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return ret ? 0 : size ;
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}
static phys_addr_t arm_smmu_iova_to_phys ( struct iommu_domain * domain ,
dma_addr_t iova )
{
2013-11-08 02:47:50 +08:00
pgd_t * pgdp , pgd ;
pud_t pud ;
pmd_t pmd ;
pte_t pte ;
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struct arm_smmu_domain * smmu_domain = domain - > priv ;
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struct arm_smmu_cfg * cfg = & smmu_domain - > cfg ;
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pgdp = cfg - > pgd ;
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if ( ! pgdp )
return 0 ;
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pgd = * ( pgdp + pgd_index ( iova ) ) ;
if ( pgd_none ( pgd ) )
return 0 ;
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pud = * pud_offset ( & pgd , iova ) ;
if ( pud_none ( pud ) )
return 0 ;
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pmd = * pmd_offset ( & pud , iova ) ;
if ( pmd_none ( pmd ) )
return 0 ;
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pte = * ( pmd_page_vaddr ( pmd ) + pte_index ( iova ) ) ;
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if ( pte_none ( pte ) )
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return 0 ;
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return __pfn_to_phys ( pte_pfn ( pte ) ) | ( iova & ~ PAGE_MASK ) ;
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}
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static bool arm_smmu_capable ( enum iommu_cap cap )
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{
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switch ( cap ) {
case IOMMU_CAP_CACHE_COHERENCY :
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/*
* Return true here as the SMMU can always send out coherent
* requests .
*/
return true ;
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case IOMMU_CAP_INTR_REMAP :
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return true ; /* MSIs are just memory writes */
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case IOMMU_CAP_NOEXEC :
return true ;
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default :
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return false ;
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}
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}
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static int __arm_smmu_get_pci_sid ( struct pci_dev * pdev , u16 alias , void * data )
{
* ( ( u16 * ) data ) = alias ;
return 0 ; /* Continue walking */
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}
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static void __arm_smmu_release_pci_iommudata ( void * data )
{
kfree ( data ) ;
}
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static int arm_smmu_add_device ( struct device * dev )
{
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struct arm_smmu_device * smmu ;
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struct arm_smmu_master_cfg * cfg ;
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struct iommu_group * group ;
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void ( * releasefn ) ( void * ) = NULL ;
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int ret ;
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smmu = find_smmu_for_device ( dev ) ;
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if ( ! smmu )
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return - ENODEV ;
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group = iommu_group_alloc ( ) ;
if ( IS_ERR ( group ) ) {
dev_err ( dev , " Failed to allocate IOMMU group \n " ) ;
return PTR_ERR ( group ) ;
}
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if ( dev_is_pci ( dev ) ) {
struct pci_dev * pdev = to_pci_dev ( dev ) ;
cfg = kzalloc ( sizeof ( * cfg ) , GFP_KERNEL ) ;
if ( ! cfg ) {
ret = - ENOMEM ;
goto out_put_group ;
}
cfg - > num_streamids = 1 ;
/*
* Assume Stream ID = = Requester ID for now .
* We need a way to describe the ID mappings in FDT .
*/
pci_for_each_dma_alias ( pdev , __arm_smmu_get_pci_sid ,
& cfg - > streamids [ 0 ] ) ;
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releasefn = __arm_smmu_release_pci_iommudata ;
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} else {
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struct arm_smmu_master * master ;
master = find_smmu_master ( smmu , dev - > of_node ) ;
if ( ! master ) {
ret = - ENODEV ;
goto out_put_group ;
}
cfg = & master - > cfg ;
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}
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iommu_group_set_iommudata ( group , cfg , releasefn ) ;
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ret = iommu_group_add_device ( group , dev ) ;
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out_put_group :
iommu_group_put ( group ) ;
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return ret ;
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}
static void arm_smmu_remove_device ( struct device * dev )
{
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iommu_group_remove_device ( dev ) ;
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}
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static const struct iommu_ops arm_smmu_ops = {
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. capable = arm_smmu_capable ,
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. domain_init = arm_smmu_domain_init ,
. domain_destroy = arm_smmu_domain_destroy ,
. attach_dev = arm_smmu_attach_dev ,
. detach_dev = arm_smmu_detach_dev ,
. map = arm_smmu_map ,
. unmap = arm_smmu_unmap ,
. iova_to_phys = arm_smmu_iova_to_phys ,
. add_device = arm_smmu_add_device ,
. remove_device = arm_smmu_remove_device ,
. pgsize_bitmap = ( SECTION_SIZE |
ARM_SMMU_PTE_CONT_SIZE |
PAGE_SIZE ) ,
} ;
static void arm_smmu_device_reset ( struct arm_smmu_device * smmu )
{
void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
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void __iomem * cb_base ;
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int i = 0 ;
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u32 reg ;
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/* clear global FSR */
reg = readl_relaxed ( ARM_SMMU_GR0_NS ( smmu ) + ARM_SMMU_GR0_sGFSR ) ;
writel ( reg , ARM_SMMU_GR0_NS ( smmu ) + ARM_SMMU_GR0_sGFSR ) ;
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/* Mark all SMRn as invalid and all S2CRn as bypass */
for ( i = 0 ; i < smmu - > num_mapping_groups ; + + i ) {
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writel_relaxed ( 0 , gr0_base + ARM_SMMU_GR0_SMR ( i ) ) ;
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writel_relaxed ( S2CR_TYPE_BYPASS ,
gr0_base + ARM_SMMU_GR0_S2CR ( i ) ) ;
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}
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/* Make sure all context banks are disabled and clear CB_FSR */
for ( i = 0 ; i < smmu - > num_context_banks ; + + i ) {
cb_base = ARM_SMMU_CB_BASE ( smmu ) + ARM_SMMU_CB ( smmu , i ) ;
writel_relaxed ( 0 , cb_base + ARM_SMMU_CB_SCTLR ) ;
writel_relaxed ( FSR_FAULT , cb_base + ARM_SMMU_CB_FSR ) ;
}
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/* Invalidate the TLB, just in case */
writel_relaxed ( 0 , gr0_base + ARM_SMMU_GR0_STLBIALL ) ;
writel_relaxed ( 0 , gr0_base + ARM_SMMU_GR0_TLBIALLH ) ;
writel_relaxed ( 0 , gr0_base + ARM_SMMU_GR0_TLBIALLNSNH ) ;
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reg = readl_relaxed ( ARM_SMMU_GR0_NS ( smmu ) + ARM_SMMU_GR0_sCR0 ) ;
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/* Enable fault reporting */
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reg | = ( sCR0_GFRE | sCR0_GFIE | sCR0_GCFGFRE | sCR0_GCFGFIE ) ;
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/* Disable TLB broadcasting. */
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reg | = ( sCR0_VMIDPNE | sCR0_PTM ) ;
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/* Enable client access, but bypass when no mapping is found */
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reg & = ~ ( sCR0_CLIENTPD | sCR0_USFCFG ) ;
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/* Disable forced broadcasting */
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reg & = ~ sCR0_FB ;
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/* Don't upgrade barriers */
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reg & = ~ ( sCR0_BSU_MASK < < sCR0_BSU_SHIFT ) ;
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/* Push the button */
arm_smmu_tlb_sync ( smmu ) ;
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writel ( reg , ARM_SMMU_GR0_NS ( smmu ) + ARM_SMMU_GR0_sCR0 ) ;
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}
static int arm_smmu_id_size_to_bits ( int size )
{
switch ( size ) {
case 0 :
return 32 ;
case 1 :
return 36 ;
case 2 :
return 40 ;
case 3 :
return 42 ;
case 4 :
return 44 ;
case 5 :
default :
return 48 ;
}
}
static int arm_smmu_device_cfg_probe ( struct arm_smmu_device * smmu )
{
unsigned long size ;
void __iomem * gr0_base = ARM_SMMU_GR0 ( smmu ) ;
u32 id ;
dev_notice ( smmu - > dev , " probing hardware configuration... \n " ) ;
dev_notice ( smmu - > dev , " SMMUv%d with: \n " , smmu - > version ) ;
/* ID0 */
id = readl_relaxed ( gr0_base + ARM_SMMU_GR0_ID0 ) ;
# ifndef CONFIG_64BIT
if ( ( ( id > > ID0_PTFS_SHIFT ) & ID0_PTFS_MASK ) = = ID0_PTFS_V8_ONLY ) {
dev_err ( smmu - > dev , " \t no v7 descriptor support! \n " ) ;
return - ENODEV ;
}
# endif
2014-07-15 02:47:39 +08:00
/* Restrict available stages based on module parameter */
if ( force_stage = = 1 )
id & = ~ ( ID0_S2TS | ID0_NTS ) ;
else if ( force_stage = = 2 )
id & = ~ ( ID0_S1TS | ID0_NTS ) ;
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if ( id & ID0_S1TS ) {
smmu - > features | = ARM_SMMU_FEAT_TRANS_S1 ;
dev_notice ( smmu - > dev , " \t stage 1 translation \n " ) ;
}
if ( id & ID0_S2TS ) {
smmu - > features | = ARM_SMMU_FEAT_TRANS_S2 ;
dev_notice ( smmu - > dev , " \t stage 2 translation \n " ) ;
}
if ( id & ID0_NTS ) {
smmu - > features | = ARM_SMMU_FEAT_TRANS_NESTED ;
dev_notice ( smmu - > dev , " \t nested translation \n " ) ;
}
if ( ! ( smmu - > features &
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( ARM_SMMU_FEAT_TRANS_S1 | ARM_SMMU_FEAT_TRANS_S2 ) ) ) {
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dev_err ( smmu - > dev , " \t no translation support! \n " ) ;
return - ENODEV ;
}
if ( id & ID0_CTTW ) {
smmu - > features | = ARM_SMMU_FEAT_COHERENT_WALK ;
dev_notice ( smmu - > dev , " \t coherent table walk \n " ) ;
}
if ( id & ID0_SMS ) {
u32 smr , sid , mask ;
smmu - > features | = ARM_SMMU_FEAT_STREAM_MATCH ;
smmu - > num_mapping_groups = ( id > > ID0_NUMSMRG_SHIFT ) &
ID0_NUMSMRG_MASK ;
if ( smmu - > num_mapping_groups = = 0 ) {
dev_err ( smmu - > dev ,
" stream-matching supported, but no SMRs present! \n " ) ;
return - ENODEV ;
}
smr = SMR_MASK_MASK < < SMR_MASK_SHIFT ;
smr | = ( SMR_ID_MASK < < SMR_ID_SHIFT ) ;
writel_relaxed ( smr , gr0_base + ARM_SMMU_GR0_SMR ( 0 ) ) ;
smr = readl_relaxed ( gr0_base + ARM_SMMU_GR0_SMR ( 0 ) ) ;
mask = ( smr > > SMR_MASK_SHIFT ) & SMR_MASK_MASK ;
sid = ( smr > > SMR_ID_SHIFT ) & SMR_ID_MASK ;
if ( ( mask & sid ) ! = sid ) {
dev_err ( smmu - > dev ,
" SMR mask bits (0x%x) insufficient for ID field (0x%x) \n " ,
mask , sid ) ;
return - ENODEV ;
}
dev_notice ( smmu - > dev ,
" \t stream matching with %u register groups, mask 0x%x " ,
smmu - > num_mapping_groups , mask ) ;
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} else {
smmu - > num_mapping_groups = ( id > > ID0_NUMSIDB_SHIFT ) &
ID0_NUMSIDB_MASK ;
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}
/* ID1 */
id = readl_relaxed ( gr0_base + ARM_SMMU_GR0_ID1 ) ;
2014-07-30 18:33:25 +08:00
smmu - > pgshift = ( id & ID1_PAGESIZE ) ? 16 : 12 ;
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2013-10-01 20:39:06 +08:00
/* Check for size mismatch of SMMU address space from mapped region */
2014-07-09 00:52:18 +08:00
size = 1 < <
( ( ( id > > ID1_NUMPAGENDXB_SHIFT ) & ID1_NUMPAGENDXB_MASK ) + 1 ) ;
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size * = 2 < < smmu - > pgshift ;
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if ( smmu - > size ! = size )
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dev_warn ( smmu - > dev ,
" SMMU address space size (0x%lx) differs from mapped region size (0x%lx)! \n " ,
size , smmu - > size ) ;
2013-06-25 01:31:25 +08:00
smmu - > num_s2_context_banks = ( id > > ID1_NUMS2CB_SHIFT ) &
ID1_NUMS2CB_MASK ;
smmu - > num_context_banks = ( id > > ID1_NUMCB_SHIFT ) & ID1_NUMCB_MASK ;
if ( smmu - > num_s2_context_banks > smmu - > num_context_banks ) {
dev_err ( smmu - > dev , " impossible number of S2 context banks! \n " ) ;
return - ENODEV ;
}
dev_notice ( smmu - > dev , " \t %u context banks (%u stage-2 only) \n " ,
smmu - > num_context_banks , smmu - > num_s2_context_banks ) ;
/* ID2 */
id = readl_relaxed ( gr0_base + ARM_SMMU_GR0_ID2 ) ;
size = arm_smmu_id_size_to_bits ( ( id > > ID2_IAS_SHIFT ) & ID2_IAS_MASK ) ;
2014-09-01 23:24:48 +08:00
smmu - > s1_output_size = min_t ( unsigned long , PHYS_MASK_SHIFT , size ) ;
2013-06-25 01:31:25 +08:00
2014-09-01 23:24:48 +08:00
/* Stage-2 input size limited due to pgd allocation (PTRS_PER_PGD) */
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# ifdef CONFIG_64BIT
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smmu - > s2_input_size = min_t ( unsigned long , VA_BITS , size ) ;
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# else
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smmu - > s2_input_size = min ( 32UL , size ) ;
2013-06-25 01:31:25 +08:00
# endif
/* The stage-2 output mask is also applied for bypass */
size = arm_smmu_id_size_to_bits ( ( id > > ID2_OAS_SHIFT ) & ID2_OAS_MASK ) ;
2014-07-09 00:52:18 +08:00
smmu - > s2_output_size = min_t ( unsigned long , PHYS_MASK_SHIFT , size ) ;
2013-06-25 01:31:25 +08:00
2014-08-29 00:51:59 +08:00
if ( smmu - > version = = ARM_SMMU_V1 ) {
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smmu - > s1_input_size = 32 ;
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} else {
# ifdef CONFIG_64BIT
size = ( id > > ID2_UBS_SHIFT ) & ID2_UBS_MASK ;
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size = min ( VA_BITS , arm_smmu_id_size_to_bits ( size ) ) ;
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# else
size = 32 ;
# endif
2014-09-01 23:24:48 +08:00
smmu - > s1_input_size = size ;
2013-06-25 01:31:25 +08:00
if ( ( PAGE_SIZE = = SZ_4K & & ! ( id & ID2_PTFS_4K ) ) | |
( PAGE_SIZE = = SZ_64K & & ! ( id & ID2_PTFS_64K ) ) | |
( PAGE_SIZE ! = SZ_4K & & PAGE_SIZE ! = SZ_64K ) ) {
dev_err ( smmu - > dev , " CPU page size 0x%lx unsupported \n " ,
PAGE_SIZE ) ;
return - ENODEV ;
}
}
2014-09-01 23:24:48 +08:00
if ( smmu - > features & ARM_SMMU_FEAT_TRANS_S1 )
dev_notice ( smmu - > dev , " \t Stage-1: %lu-bit VA -> %lu-bit IPA \n " ,
smmu - > s1_input_size , smmu - > s1_output_size ) ;
if ( smmu - > features & ARM_SMMU_FEAT_TRANS_S2 )
dev_notice ( smmu - > dev , " \t Stage-2: %lu-bit IPA -> %lu-bit PA \n " ,
smmu - > s2_input_size , smmu - > s2_output_size ) ;
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return 0 ;
}
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static const struct of_device_id arm_smmu_of_match [ ] = {
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{ . compatible = " arm,smmu-v1 " , . data = ( void * ) ARM_SMMU_V1 } ,
{ . compatible = " arm,smmu-v2 " , . data = ( void * ) ARM_SMMU_V2 } ,
{ . compatible = " arm,mmu-400 " , . data = ( void * ) ARM_SMMU_V1 } ,
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{ . compatible = " arm,mmu-401 " , . data = ( void * ) ARM_SMMU_V1 } ,
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{ . compatible = " arm,mmu-500 " , . data = ( void * ) ARM_SMMU_V2 } ,
{ } ,
} ;
MODULE_DEVICE_TABLE ( of , arm_smmu_of_match ) ;
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static int arm_smmu_device_dt_probe ( struct platform_device * pdev )
{
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const struct of_device_id * of_id ;
2013-06-25 01:31:25 +08:00
struct resource * res ;
struct arm_smmu_device * smmu ;
struct device * dev = & pdev - > dev ;
struct rb_node * node ;
struct of_phandle_args masterspec ;
int num_irqs , i , err ;
smmu = devm_kzalloc ( dev , sizeof ( * smmu ) , GFP_KERNEL ) ;
if ( ! smmu ) {
dev_err ( dev , " failed to allocate arm_smmu_device \n " ) ;
return - ENOMEM ;
}
smmu - > dev = dev ;
2014-08-29 00:51:59 +08:00
of_id = of_match_node ( arm_smmu_of_match , dev - > of_node ) ;
smmu - > version = ( enum arm_smmu_arch_version ) of_id - > data ;
2013-06-25 01:31:25 +08:00
res = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ;
2013-08-19 19:20:37 +08:00
smmu - > base = devm_ioremap_resource ( dev , res ) ;
if ( IS_ERR ( smmu - > base ) )
return PTR_ERR ( smmu - > base ) ;
2013-06-25 01:31:25 +08:00
smmu - > size = resource_size ( res ) ;
if ( of_property_read_u32 ( dev - > of_node , " #global-interrupts " ,
& smmu - > num_global_irqs ) ) {
dev_err ( dev , " missing #global-interrupts property \n " ) ;
return - ENODEV ;
}
num_irqs = 0 ;
while ( ( res = platform_get_resource ( pdev , IORESOURCE_IRQ , num_irqs ) ) ) {
num_irqs + + ;
if ( num_irqs > smmu - > num_global_irqs )
smmu - > num_context_irqs + + ;
}
2013-10-01 20:39:07 +08:00
if ( ! smmu - > num_context_irqs ) {
dev_err ( dev , " found %d interrupts but expected at least %d \n " ,
num_irqs , smmu - > num_global_irqs + 1 ) ;
return - ENODEV ;
2013-06-25 01:31:25 +08:00
}
smmu - > irqs = devm_kzalloc ( dev , sizeof ( * smmu - > irqs ) * num_irqs ,
GFP_KERNEL ) ;
if ( ! smmu - > irqs ) {
dev_err ( dev , " failed to allocate %d irqs \n " , num_irqs ) ;
return - ENOMEM ;
}
for ( i = 0 ; i < num_irqs ; + + i ) {
int irq = platform_get_irq ( pdev , i ) ;
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2013-06-25 01:31:25 +08:00
if ( irq < 0 ) {
dev_err ( dev , " failed to get irq index %d \n " , i ) ;
return - ENODEV ;
}
smmu - > irqs [ i ] = irq ;
}
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err = arm_smmu_device_cfg_probe ( smmu ) ;
if ( err )
return err ;
2013-06-25 01:31:25 +08:00
i = 0 ;
smmu - > masters = RB_ROOT ;
while ( ! of_parse_phandle_with_args ( dev - > of_node , " mmu-masters " ,
" #stream-id-cells " , i ,
& masterspec ) ) {
err = register_smmu_master ( smmu , dev , & masterspec ) ;
if ( err ) {
dev_err ( dev , " failed to add master %s \n " ,
masterspec . np - > name ) ;
goto out_put_masters ;
}
i + + ;
}
dev_notice ( dev , " registered %d master devices \n " , i ) ;
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parse_driver_options ( smmu ) ;
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if ( smmu - > version > ARM_SMMU_V1 & &
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smmu - > num_context_banks ! = smmu - > num_context_irqs ) {
dev_err ( dev ,
" found only %d context interrupt(s) but %d required \n " ,
smmu - > num_context_irqs , smmu - > num_context_banks ) ;
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err = - ENODEV ;
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goto out_put_masters ;
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}
for ( i = 0 ; i < smmu - > num_global_irqs ; + + i ) {
err = request_irq ( smmu - > irqs [ i ] ,
arm_smmu_global_fault ,
IRQF_SHARED ,
" arm-smmu global fault " ,
smmu ) ;
if ( err ) {
dev_err ( dev , " failed to request global IRQ %d (%u) \n " ,
i , smmu - > irqs [ i ] ) ;
goto out_free_irqs ;
}
}
INIT_LIST_HEAD ( & smmu - > list ) ;
spin_lock ( & arm_smmu_devices_lock ) ;
list_add ( & smmu - > list , & arm_smmu_devices ) ;
spin_unlock ( & arm_smmu_devices_lock ) ;
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arm_smmu_device_reset ( smmu ) ;
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return 0 ;
out_free_irqs :
while ( i - - )
free_irq ( smmu - > irqs [ i ] , smmu ) ;
out_put_masters :
for ( node = rb_first ( & smmu - > masters ) ; node ; node = rb_next ( node ) ) {
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struct arm_smmu_master * master
= container_of ( node , struct arm_smmu_master , node ) ;
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of_node_put ( master - > of_node ) ;
}
return err ;
}
static int arm_smmu_device_remove ( struct platform_device * pdev )
{
int i ;
struct device * dev = & pdev - > dev ;
struct arm_smmu_device * curr , * smmu = NULL ;
struct rb_node * node ;
spin_lock ( & arm_smmu_devices_lock ) ;
list_for_each_entry ( curr , & arm_smmu_devices , list ) {
if ( curr - > dev = = dev ) {
smmu = curr ;
list_del ( & smmu - > list ) ;
break ;
}
}
spin_unlock ( & arm_smmu_devices_lock ) ;
if ( ! smmu )
return - ENODEV ;
for ( node = rb_first ( & smmu - > masters ) ; node ; node = rb_next ( node ) ) {
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struct arm_smmu_master * master
= container_of ( node , struct arm_smmu_master , node ) ;
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of_node_put ( master - > of_node ) ;
}
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if ( ! bitmap_empty ( smmu - > context_map , ARM_SMMU_MAX_CBS ) )
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dev_err ( dev , " removing device with active domains! \n " ) ;
for ( i = 0 ; i < smmu - > num_global_irqs ; + + i )
free_irq ( smmu - > irqs [ i ] , smmu ) ;
/* Turn the thing off */
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writel ( sCR0_CLIENTPD , ARM_SMMU_GR0_NS ( smmu ) + ARM_SMMU_GR0_sCR0 ) ;
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return 0 ;
}
static struct platform_driver arm_smmu_driver = {
. driver = {
. owner = THIS_MODULE ,
. name = " arm-smmu " ,
. of_match_table = of_match_ptr ( arm_smmu_of_match ) ,
} ,
. probe = arm_smmu_device_dt_probe ,
. remove = arm_smmu_device_remove ,
} ;
static int __init arm_smmu_init ( void )
{
int ret ;
ret = platform_driver_register ( & arm_smmu_driver ) ;
if ( ret )
return ret ;
/* Oh, for a proper bus abstraction */
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if ( ! iommu_present ( & platform_bus_type ) )
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bus_set_iommu ( & platform_bus_type , & arm_smmu_ops ) ;
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# ifdef CONFIG_ARM_AMBA
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if ( ! iommu_present ( & amba_bustype ) )
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bus_set_iommu ( & amba_bustype , & arm_smmu_ops ) ;
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# endif
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# ifdef CONFIG_PCI
if ( ! iommu_present ( & pci_bus_type ) )
bus_set_iommu ( & pci_bus_type , & arm_smmu_ops ) ;
# endif
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return 0 ;
}
static void __exit arm_smmu_exit ( void )
{
return platform_driver_unregister ( & arm_smmu_driver ) ;
}
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subsys_initcall ( arm_smmu_init ) ;
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module_exit ( arm_smmu_exit ) ;
MODULE_DESCRIPTION ( " IOMMU API for ARM architected SMMU implementations " ) ;
MODULE_AUTHOR ( " Will Deacon <will.deacon@arm.com> " ) ;
MODULE_LICENSE ( " GPL v2 " ) ;