Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/fxp/@/contrib/octeon-sdk/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/fxp/@/contrib/octeon-sdk/cvmx-shmem.c |
/***********************license start*************** * Copyright (c) 2003-2010 Cavium Networks (support@cavium.com). All rights * reserved. * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of Cavium Networks nor the names of * its contributors may be used to endorse or promote products * derived from this software without specific prior written * permission. * This Software, including technical data, may be subject to U.S. export control * laws, including the U.S. Export Administration Act and its associated * regulations, and may be subject to export or import regulations in other * countries. * TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS" * AND WITH ALL FAULTS AND CAVIUM NETWORKS MAKES NO PROMISES, REPRESENTATIONS OR * WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH RESPECT TO * THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY REPRESENTATION OR * DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT DEFECTS, AND CAVIUM * SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES OF TITLE, * MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR PURPOSE, LACK OF * VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET POSSESSION OR * CORRESPONDENCE TO DESCRIPTION. THE ENTIRE RISK ARISING OUT OF USE OR * PERFORMANCE OF THE SOFTWARE LIES WITH YOU. ***********************license end**************************************/ /** * @file * cvmx-shmem supplies the cross application shared memory implementation * * <hr>$Revision: 41586 $<hr> */ #include "cvmx.h" #include "cvmx-bootmem.h" #include "cvmx-tlb.h" #include "cvmx-shmem.h" //#define DEBUG struct cvmx_shmem_smdr *__smdr = NULL; #ifdef CVMX_BUILD_FOR_LINUX_USER static int __cvmx_shmem_devmemfd = 0; /* fd for /dev/mem */ #endif #define __CHECK_APP_SMDR do { \ if (__smdr == NULL) { \ cvmx_dprintf("cvmx_shmem: %s is not set up, Quit line %d \n", \ CVMX_SHMEM_DSCPTR_NAME, __LINE__ ); \ exit(-1); \ } \ }while(0) /** * @INTERNAL * Virtual sbrk, assigning virtual address in a global virtual address space. * * @param alignment alignment requirement in bytes * @param size size in bytes */ static inline void *__cvmx_shmem_vsbrk_64(uint64_t alignment, uint64_t size) { uint64_t nbase_64 = CAST64(__smdr->break64); void *nbase = NULL; /* Skip unaligned bytes */ if (nbase_64 & alignment) nbase_64 += ~(nbase_64 & alignment) + 1; if (nbase_64 + size < CVMX_SHMEM_VADDR64_END) { nbase = CASTPTR(void *, nbase_64); __smdr->break64 = nbase + size; } return nbase; } /** * @INTERNAL * Initialize all SMDR entries, only need to be called once * * @param smdr pointer to the SMDR */ static inline void __smdr_new(struct cvmx_shmem_smdr *smdr) { if (smdr != NULL) { int i; cvmx_spinlock_init (&smdr->lock); cvmx_spinlock_lock (&smdr->lock); for ( i = 0; i < CVMX_SHMEM_NUM_DSCPTR; i++ ) { smdr -> shmd[i].owner = CVMX_SHMEM_OWNER_NONE; smdr -> shmd[i].is_named_block = 0; smdr -> shmd[i].use_count = 0; smdr -> shmd[i].name = NULL; smdr -> shmd[i].vaddr = NULL; smdr -> shmd[i].paddr = 0; smdr -> shmd[i].size = 0; smdr -> shmd[i].alignment = 0; }; /* Init vaddr */ smdr->break64 = (void *)CVMX_SHMEM_VADDR64_START; cvmx_spinlock_unlock (&smdr->lock); } /* Make sure the shmem descriptor region is created */ __CHECK_APP_SMDR; }; /** * @INTERNAL * Initialize __smdr pointer, if SMDR exits already. If not, create a new * one. Once SMDR is created (as a bootmem named block), it is persistent. */ static inline struct cvmx_shmem_smdr *__smdr_init() { const cvmx_bootmem_named_block_desc_t *smdr_nblk = NULL; size_t smdr_size = sizeof(*__smdr); char *smdr_name = CVMX_SHMEM_DSCPTR_NAME; __smdr = (struct cvmx_shmem_smdr *) cvmx_bootmem_alloc_named(smdr_size, 0x10000, smdr_name); if (__smdr) __smdr_new (__smdr); else { /* Check if SMDR exists already */ smdr_nblk = cvmx_bootmem_find_named_block(smdr_name); if (smdr_nblk) { __smdr = (struct cvmx_shmem_smdr *) (cvmx_phys_to_ptr(smdr_nblk->base_addr)); cvmx_spinlock_lock (&__smdr->lock); if (smdr_nblk->size != smdr_size) { cvmx_dprintf("SMDR named block is created by another " "application with different size %lu, " "expecting %lu \n", (long unsigned int)smdr_nblk->size, (long unsigned int)smdr_size); __smdr = NULL; } cvmx_spinlock_unlock (&__smdr->lock); } } if (!__smdr) cvmx_dprintf("cvmx_shmem: Failed to allocate or find SMDR from bootmem \n"); return __smdr; }; /** * @INTERNAL * Generic Iterator function for all SMDR entries * * @param void(*f)(dscptr) the function to be invoked for every descriptor * @param param * * @return the descriptor iterator stopped at. */ static struct cvmx_shmem_dscptr *__smdr_iterator(struct cvmx_shmem_dscptr *(*f)(struct cvmx_shmem_dscptr *dscptr, void *p), void *param ) { struct cvmx_shmem_dscptr *d, *dscptr = NULL; int i; __CHECK_APP_SMDR; for (i = 0; i < CVMX_SHMEM_NUM_DSCPTR; i++) { d = &__smdr->shmd[i]; if ((dscptr = (*f)(d, param)) != NULL) break; /* stop iteration */ } return dscptr; } /** * @INTERNAL * SMDR name match functor. to be used for iterator. * * @param dscptr descriptor passed in by the iterator * @param name string to match against * * @return !NULL descriptor matched * NULL not match */ static struct cvmx_shmem_dscptr *__cvmx_shmem_smdr_match_name(struct cvmx_shmem_dscptr *dscptr, void *name) { char *name_to_match = (char *) name; struct cvmx_shmem_dscptr *ret = NULL; if (dscptr->owner == CVMX_SHMEM_OWNER_NONE) return NULL; if (strcmp(dscptr->name, name_to_match) == 0) ret = dscptr; return ret; } /** * @INTERNAL * Find by name * * @param name string to match against * * @return !NULL descriptor matched * NULL not match */ static struct cvmx_shmem_dscptr *__cvmx_shmem_smdr_find_by_name(char *name) { return __smdr_iterator( __cvmx_shmem_smdr_match_name, name); } /** * @INTERNAL * SMDR is free functor. to be used for iterator. * * @param dscptr descriptor passed in by the iterator * @param nouse * * @return !NULL descriptor is free * NULL descriptor is not free */ static struct cvmx_shmem_dscptr *__cvmx_shmem_smdr_is_free(struct cvmx_shmem_dscptr* dscptr, void *nouse) { if (dscptr->owner == CVMX_SHMEM_OWNER_NONE) return dscptr; else return NULL; } /** * @INTERNAL * Search SMDR to find the first free descriptor * * @return !NULL free descriptor found * NULL nothing found */ struct cvmx_shmem_dscptr *__cvmx_shmem_smdr_find_free_dscptr(void) { return __smdr_iterator(__cvmx_shmem_smdr_is_free, NULL); } /** * @INTERNAL * free a descriptor * * @param dscptr descriptor to be freed */ static void __cvmx_shmem_smdr_free(struct cvmx_shmem_dscptr *dscptr) { dscptr->owner = CVMX_SHMEM_OWNER_NONE; } /** * Per core shmem init function * * @return cvmx_shmem_smdr* pointer to __smdr */ struct cvmx_shmem_smdr *cvmx_shmem_init() { return __smdr_init(); } /** * Open shared memory based on named block * * @return dscptr descriptor of the opened named block */ struct cvmx_shmem_dscptr *cvmx_shmem_named_block_open(char *name, uint32_t size, int oflag) { const cvmx_bootmem_named_block_desc_t *shmem_nblk = NULL; struct cvmx_shmem_dscptr *dscptr = NULL; int nblk_allocated = 0; /* Assume we don't need to allocate a new bootmem block */ void *vaddr = NULL; const uint64_t size_4k = 4*1024, size_512mb = 512*1024*1024; __CHECK_APP_SMDR; /* Check size, Make sure it is minimal 4K, no bigger than 512MB */ if (size > size_512mb) { cvmx_dprintf("Shared memory size can not be bigger than 512MB \n"); return NULL; } if (size < size_4k) size = size_4k; size = __upper_power_of_two(size); cvmx_spinlock_lock(&__smdr->lock); shmem_nblk = cvmx_bootmem_find_named_block(name); if ((shmem_nblk == NULL) && (oflag & CVMX_SHMEM_O_CREAT)) { void *p; /* The named block does not exist, create it if caller specifies the O_CREAT flag */ nblk_allocated = 1; p = cvmx_bootmem_alloc_named(size, size, name); if (p) shmem_nblk = cvmx_bootmem_find_named_block(name); #ifdef DEBUG cvmx_dprintf("cvmx-shmem-dbg:" "creating a new block %s: blk %p, shmem_nblk %p \n", name, p, shmem_nblk); #endif } if (shmem_nblk == NULL) goto err; /* We are now holding a valid named block */ dscptr = __cvmx_shmem_smdr_find_by_name(name); if (dscptr) { if (nblk_allocated) { /* name conflict between bootmem name space and SMDR name space */ cvmx_dprintf("cvmx-shmem: SMDR descriptor name conflict, %s \n", name); goto err; } /* Make sure size and alignment matches with existing descriptor */ if ((size != dscptr->size) || (size != dscptr -> alignment)) goto err; } else { /* Create a new descriptor */ dscptr = __cvmx_shmem_smdr_find_free_dscptr(); if (dscptr) goto init; else { cvmx_dprintf("cvmx-shmem: SMDR out of descriptors \n"); goto err; } } /* Maintain the reference count */ if (dscptr != NULL) dscptr->use_count += 1; cvmx_spinlock_unlock(&__smdr->lock); return dscptr; err: #ifdef DEBUG cvmx_dprintf("cvmx-shmem-dbg: named block open failed \n"); #endif if (dscptr) __cvmx_shmem_smdr_free(dscptr); if (shmem_nblk && nblk_allocated) cvmx_bootmem_free_named(name); cvmx_spinlock_unlock(&__smdr->lock); return NULL; init: #ifdef DEBUG cvmx_dprintf("cvmx-shmem-dbg: init SMDR descriptor %p \n", dscptr); #endif /* Assign vaddr for single address space mapping */ vaddr = __cvmx_shmem_vsbrk_64(size, size); if (vaddr == NULL) { /* Failed to allocate virtual address, clean up */ goto err; } #ifdef DEBUG cvmx_dprintf("cmvx-shmem-dbg: allocated vaddr %p \n", vaddr); #endif dscptr->vaddr = vaddr; /* Store descriptor information, name, alignment,size... */ dscptr->owner = cvmx_get_core_num(); dscptr->is_named_block = 1; dscptr->use_count = 1; dscptr->name =shmem_nblk->name ; dscptr->paddr = shmem_nblk->base_addr; dscptr->size = size; dscptr->alignment = size; /* Store permission bits */ if (oflag & CVMX_SHMEM_O_WRONLY) dscptr->p_wronly = 1; if (oflag & CVMX_SHMEM_O_RDWR) dscptr->p_rdwr = 1; cvmx_spinlock_unlock(&__smdr->lock); return dscptr; } /** * @INTERNAL * * For stand along SE application only. * * Add TLB mapping to map the shared memory * * @param dscptr shared memory descriptor * @param pflag protection flags * * @return vaddr the virtual address mapped for the shared memory */ #ifndef CVMX_BUILD_FOR_LINUX_USER void *__cvmx_shmem_map_standalone(struct cvmx_shmem_dscptr *dscptr, int pflag) { int free_index; /* Find a free tlb entry */ free_index = cvmx_tlb_allocate_runtime_entry(); if (free_index < 0 ) { cvmx_dprintf("cvmx-shmem: shmem_map failed, out TLB entries \n"); return NULL; } #ifdef DEBUG cvmx_dprintf("cmvx-shmem-dbg:" "shmem_map TLB %d: vaddr %p paddr %lx, size %x \n", free_index, dscptr->vaddr, dscptr->paddr, dscptr->size ); #endif cvmx_tlb_write_runtime_entry(free_index, CAST64(dscptr->vaddr), dscptr->paddr, dscptr->size, TLB_DIRTY | TLB_VALID | TLB_GLOBAL); return dscptr -> vaddr; } #endif /** * @INTERNAL * * For Linux user application only * * Add mmap the shared memory * * @param dscptr shared memory descriptor * @param pflag protection flags * * @return vaddr the virtual address mapped for the shared memory */ #ifdef CVMX_BUILD_FOR_LINUX_USER static inline void *__cvmx_shmem_map_linux(struct cvmx_shmem_dscptr *dscptr, int pflag) { void *vaddr = NULL; if(__cvmx_shmem_devmemfd == 0) { __cvmx_shmem_devmemfd = open("/dev/mem", O_RDWR); if (__cvmx_shmem_devmemfd < 0) { cvmx_dprintf("Failed to open /dev/mem\n"); exit(-1); } } vaddr = mmap(dscptr->vaddr, dscptr->size, PROT_READ|PROT_WRITE, MAP_SHARED, __cvmx_shmem_devmemfd, 0); /* Make sure the mmap maps to the same virtual address specified in * descriptor */ if ((vaddr!=NULL) && (vaddr != dscptr->vaddr)) { munmap(vaddr, dscptr->size); vaddr = NULL; } return vaddr; } #endif /** * cvmx_shmem API * * Add mapping for the shared memory * * @param dscptr shared memory descriptor * @param pflag protection flags * * @return vaddr the virtual address mapped for the shared memory */ void *cvmx_shmem_map(struct cvmx_shmem_dscptr *dscptr, int pflag) { void *vaddr = NULL; #ifdef CVMX_BUILD_FOR_LINUX_USER vaddr = __cvmx_shmem_map_linux(dscptr, pflag); #else vaddr = __cvmx_shmem_map_standalone(dscptr, pflag); #endif return vaddr; } /** * @INTERNAL * * For Linux user application only * * ummap the shared memory * * @param dscptr shared memory descriptor * */ #ifdef CVMX_BUILD_FOR_LINUX_USER static inline void __cvmx_shmem_unmap_linux(struct cvmx_shmem_dscptr* dscptr) { if (__cvmx_shmem_devmemfd && dscptr) munmap(dscptr->vaddr, dscptr->size); } #endif /** * @INTERNAL * * For stand along SE application only. * * ummap the shared memory * * @param dscptr shared memory descriptor * */ #ifndef CVMX_BUILD_FOR_LINUX_USER static inline void __cvmx_shmem_unmap_standalone(struct cvmx_shmem_dscptr *dscptr) { int index; index = cvmx_tlb_lookup(CAST64(dscptr->vaddr)); #ifdef DEBUG cvmx_dprintf("cmvx-shmem-dbg:" "shmem_unmap TLB %d \n", index); #endif cvmx_tlb_free_runtime_entry(index); } #endif /** * ummap the shared memory * * @param dscptr shared memory descriptor * */ void cvmx_shmem_unmap(struct cvmx_shmem_dscptr *dscptr) { #ifdef CVMX_BUILD_FOR_LINUX_USER __cvmx_shmem_unmap_linux(dscptr); #else __cvmx_shmem_unmap_standalone(dscptr); #endif } /** * @INTERNAL * * Common implementation of closing a descriptor. * * @param dscptr shared memory descriptor * @param remove 1: remove the descriptor and named block if this * this is the last user of the descriptor * 0: do not remove * @return 0: Success * !0: Failed * */ static inline int __cvmx_shmem_close_dscptr(struct cvmx_shmem_dscptr *dscptr, int remove) { cvmx_spinlock_lock(&dscptr->lock); if (dscptr->use_count >0) dscptr->use_count-= 1; if ((dscptr->use_count == 0) && remove) { /* Free this descriptor */ __cvmx_shmem_smdr_free(dscptr); /* Free named block if this is the last user, and the block is created by the application */ if (dscptr->is_named_block) { #ifdef DEBUG cvmx_dprintf("cvmx-shmem-dbg: remove named block %s \n", dscptr->name); #endif cvmx_bootmem_phy_named_block_free(dscptr->name, 0); } } cvmx_spinlock_unlock(&dscptr->lock); return 0; } /** * @INTERNAL * * For stand along SE application only. * * close a descriptor. * * @param dscptr shared memory descriptor * @param remove 1: remove the descriptor and named block if this * this is the last user of the descriptor * 0: do not remove * @return 0: Success * !0: Failed * */ #ifndef CVMX_BUILD_FOR_LINUX_USER static inline int __cvmx_shmem_close_standalone(struct cvmx_shmem_dscptr *dscptr, int remove) { return __cvmx_shmem_close_dscptr(dscptr, remove); } #endif /** * @INTERNAL * * For Linux user application only. * * close a descriptor. * * @param dscptr shared memory descriptor * @param remove 1: remove the descriptor and named block if this * this is the last user of the descriptor * 0: do not remove * @return 0: Success * !0: Failed * */ #ifdef CVMX_BUILD_FOR_LINUX_USER int __cvmx_shmem_close_linux(struct cvmx_shmem_dscptr *dscptr, int remove) { int ret; ret = __cvmx_shmem_close_dscptr(dscptr, remove); if (ret && __cvmx_shmem_devmemfd) { close(__cvmx_shmem_devmemfd); __cvmx_shmem_devmemfd=0; } return ret; } #endif /** * * close a descriptor. * * @param dscptr shared memory descriptor * @param remove 1: remove the descriptor and named block if this * this is the last user of the descriptor * 0: do not remove * @return 0: Success * !0: Failed * */ int cvmx_shmem_close(struct cvmx_shmem_dscptr *dscptr, int remove) { int ret; #ifdef CVMX_BUILD_FOR_LINUX_USER ret = __cvmx_shmem_close_linux(dscptr, remove); #else ret = __cvmx_shmem_close_standalone(dscptr, remove); #endif return ret; } #ifdef DEBUG /** * @INTERNAL * SMDR non-free descriptor dump functor. to be used for iterator. * * @param dscptr descriptor passed in by the iterator * * @return NULL always */ static struct cvmx_shmem_dscptr *__cvmx_shmem_smdr_display_dscptr(struct cvmx_shmem_dscptr *dscptr, void *nouse) { if ((dscptr != NULL ) && (dscptr -> owner != CVMX_SHMEM_OWNER_NONE)) { cvmx_dprintf(" %s: phy: %lx, size %d, alignment %lx, virt %p use_count %d\n", dscptr->name, dscptr-> paddr, dscptr->size, dscptr-> alignment, dscptr->vaddr, dscptr->use_count); } return NULL; } #endif /** * SMDR descriptor show * * list all non-free descriptors */ void cvmx_shmem_show(void) { __CHECK_APP_SMDR; #ifdef DEBUG cvmx_dprintf("SMDR descriptor list: \n"); cvmx_spinlock_lock(&__smdr->lock); __smdr_iterator(__cvmx_shmem_smdr_display_dscptr, NULL); cvmx_spinlock_unlock(&__smdr->lock); cvmx_dprintf("\n\n"); #endif }