hab_virtio hypervisor 虚拟化

news2024/11/25 3:05:34

 

Linux的 I / O 虚拟化 Virtio 框架

简而言之,virtio是半虚拟化管理程序中设备上的抽象层。virtio由Rusty Russell开发以支持他自己的虚拟化解决方案lguest。本文从准虚拟化和仿真设备的介绍开始,然后探讨的细节virtio。重点是virtio2.6.30内核发行版中的框架。
Linux是虚拟机管理程序平台。正如我在有关Linux作为虚拟机管理程序的文章中所展示的那样,Linux提供了各种具有不同属性和优点的虚拟机管理程序解决方案。
示例包括基于内核的虚拟机(KVM)lguest,和用户模式Linux。在Linux上拥有这些不同的虚拟机管理程序解决方案可以根据操作系统的独立需求来增加操作系统的负担。其中一项税项是设备虚拟化。它没有提供各种设备仿真机制(用于网络,块和其他驱动程序),而是virtio为这些设备仿真提供了一个通用的前端,以标准化接口并提高跨平台代码的重用性。

完全虚拟化与半虚拟化

让我们快速讨论两种不同类型的虚拟化方案:完全虚拟化和半虚拟化。

    1. 在完全虚拟化中,客户操作系统在裸机上的虚拟机管理程序之上运行。来宾不知道已对其进行了虚拟化,因此无需更改即可在此配置中工作。
    1. 在半虚拟化中,来宾操作系统不仅意识到它在虚拟机管理程序上运行,而且还包括使来宾到管理程序之间转换更加有效的代码(请参见图1)。

在完全虚拟化方案中,系统管理程序必须模拟设备硬件,该设备硬件在会话的最低级别上进行模拟(例如,模拟到网络驱动程序)。尽管在此抽象中仿真是干净的,但它也是效率最低且最复杂的。在超虚拟化方案中,来宾和管理程序可以协同工作以使此仿真高效。半虚拟化方法的缺点是,操作系统知道它已被虚拟化,因此需要进行修改才能工作。

 

 Linux虚拟化KVM-Qemu分析(十一)之virtqueue_virtqueue_add_outbuf-CSDN博客

lagvm/LINUX/android/kernel/msm-5.4/drivers/soc/qcom/hab/hab_virtio.c
 static struct virtio_device_tbl {
29          int32_t mmid;
30          __u32 device;
31          struct virtio_device *vdev;
32  } vdev_tbl[] = {
33          { HAB_MMID_ALL_AREA, HAB_VIRTIO_DEVICE_ID_HAB, NULL }, /* hab */
34          { MM_BUFFERQ_1, HAB_VIRTIO_DEVICE_ID_BUFFERQ, NULL },
35          { MM_MISC, HAB_VIRTIO_DEVICE_ID_MISC, NULL },
36          { MM_AUD_1, HAB_VIRTIO_DEVICE_ID_AUDIO, NULL },
37          { MM_CAM_1, HAB_VIRTIO_DEVICE_ID_CAMERA, NULL },
38          { MM_DISP_1, HAB_VIRTIO_DEVICE_ID_DISPLAY, NULL },
39          { MM_GFX, HAB_VIRTIO_DEVICE_ID_GRAPHICS, NULL },
40          { MM_VID, HAB_VIRTIO_DEVICE_ID_VIDEO, NULL },
41  };

static struct virtio_device_id id_table[] = {
851          { HAB_VIRTIO_DEVICE_ID_HAB, VIRTIO_DEV_ANY_ID }, /* virtio hab with all mmids */
852          { HAB_VIRTIO_DEVICE_ID_BUFFERQ, VIRTIO_DEV_ANY_ID }, /* virtio bufferq only */
853          { HAB_VIRTIO_DEVICE_ID_MISC, VIRTIO_DEV_ANY_ID }, /* virtio misc */
854          { HAB_VIRTIO_DEVICE_ID_AUDIO, VIRTIO_DEV_ANY_ID }, /* virtio audio */
855          { HAB_VIRTIO_DEVICE_ID_CAMERA, VIRTIO_DEV_ANY_ID }, /* virtio camera */
856          { HAB_VIRTIO_DEVICE_ID_DISPLAY, VIRTIO_DEV_ANY_ID }, /* virtio display */
857          { HAB_VIRTIO_DEVICE_ID_GRAPHICS, VIRTIO_DEV_ANY_ID }, /* virtio graphics */
858          { HAB_VIRTIO_DEVICE_ID_VIDEO, VIRTIO_DEV_ANY_ID }, /* virtio video */
859          { 0 },
860  };
 static struct virtio_driver virtio_hab_driver = {
863          .driver.name         = KBUILD_MODNAME,
864          .driver.owner        = THIS_MODULE,
865          .feature_table       = features,
866          .feature_table_size  = ARRAY_SIZE(features),
867          .id_table            = id_table,
868          .probe               = virthab_probe,
869          .remove              = virthab_remove,
870  #ifdef CONFIG_PM_SLEEP
871          .freeze              = virthab_freeze,
872          .restore             = virthab_restore,
873  #endif
874  };

lagvm/LINUX/android/kernel/msm-5.4/drivers/soc/qcom/hab/hab.c

/*
23   * The following has to match habmm definitions, order does not matter if
24   * hab config does not care either. When hab config is not present, the default
25   * is as guest VM all pchans are pchan opener (FE)
26   */
27  static struct hab_device hab_devices[] = {
28          HAB_DEVICE_CNSTR(DEVICE_AUD1_NAME, MM_AUD_1, 0),
29          HAB_DEVICE_CNSTR(DEVICE_AUD2_NAME, MM_AUD_2, 1),
30          HAB_DEVICE_CNSTR(DEVICE_AUD3_NAME, MM_AUD_3, 2),
31          HAB_DEVICE_CNSTR(DEVICE_AUD4_NAME, MM_AUD_4, 3),
32          HAB_DEVICE_CNSTR(DEVICE_CAM1_NAME, MM_CAM_1, 4),
33          HAB_DEVICE_CNSTR(DEVICE_CAM2_NAME, MM_CAM_2, 5),
34          HAB_DEVICE_CNSTR(DEVICE_DISP1_NAME, MM_DISP_1, 6),
35          HAB_DEVICE_CNSTR(DEVICE_DISP2_NAME, MM_DISP_2, 7),
36          HAB_DEVICE_CNSTR(DEVICE_DISP3_NAME, MM_DISP_3, 8),
37          HAB_DEVICE_CNSTR(DEVICE_DISP4_NAME, MM_DISP_4, 9),
38          HAB_DEVICE_CNSTR(DEVICE_DISP5_NAME, MM_DISP_5, 10),
39          HAB_DEVICE_CNSTR(DEVICE_GFX_NAME, MM_GFX, 11),
40          HAB_DEVICE_CNSTR(DEVICE_VID_NAME, MM_VID, 12),
41          HAB_DEVICE_CNSTR(DEVICE_VID2_NAME, MM_VID_2, 13),
42          HAB_DEVICE_CNSTR(DEVICE_VID3_NAME, MM_VID_3, 14),
43          HAB_DEVICE_CNSTR(DEVICE_MISC_NAME, MM_MISC, 15),
44          HAB_DEVICE_CNSTR(DEVICE_QCPE1_NAME, MM_QCPE_VM1, 16),
45          HAB_DEVICE_CNSTR(DEVICE_CLK1_NAME, MM_CLK_VM1, 17),
46          HAB_DEVICE_CNSTR(DEVICE_CLK2_NAME, MM_CLK_VM2, 18),
47          HAB_DEVICE_CNSTR(DEVICE_FDE1_NAME, MM_FDE_1, 19),
48          HAB_DEVICE_CNSTR(DEVICE_BUFFERQ1_NAME, MM_BUFFERQ_1, 20),
49          HAB_DEVICE_CNSTR(DEVICE_DATA1_NAME, MM_DATA_NETWORK_1, 21),
50          HAB_DEVICE_CNSTR(DEVICE_DATA2_NAME, MM_DATA_NETWORK_2, 22),
51          HAB_DEVICE_CNSTR(DEVICE_HSI2S1_NAME, MM_HSI2S_1, 23),
52          HAB_DEVICE_CNSTR(DEVICE_XVM1_NAME, MM_XVM_1, 24),
53          HAB_DEVICE_CNSTR(DEVICE_XVM2_NAME, MM_XVM_2, 25),
54          HAB_DEVICE_CNSTR(DEVICE_XVM3_NAME, MM_XVM_3, 26),
55          HAB_DEVICE_CNSTR(DEVICE_VNW1_NAME, MM_VNW_1, 27),
56          HAB_DEVICE_CNSTR(DEVICE_EXT1_NAME, MM_EXT_1, 28),
57  };

struct hab_driver hab_driver = {
60          .ndevices = ARRAY_SIZE(hab_devices),
61          .devp = hab_devices,
62          .uctx_list = LIST_HEAD_INIT(hab_driver.uctx_list),
63          .drvlock = __SPIN_LOCK_UNLOCKED(hab_driver.drvlock),
64          .imp_list = LIST_HEAD_INIT(hab_driver.imp_list),
65          .imp_lock = __SPIN_LOCK_UNLOCKED(hab_driver.imp_lock),
66  };

lagvm/LINUX/android/kernel/msm-5.4/drivers/soc/qcom/hab/hab_virtio.c

/* probe is called when GVM detects virtio device from devtree */
669  static int virthab_probe(struct virtio_device *vdev)
670  {
671          struct virtio_hab *vh = NULL;
672          int err = 0, ret = 0;
673          int mmid_range = hab_driver.ndevices; //mnid_range=28
674          uint32_t mmid_start = hab_driver.devp[0].id;//mmid_start=MM_XXX
675  
676          if (!virtio_has_feature(vdev, VIRTIO_F_VERSION_1)) {
677                  pr_info("virtio has feature missing\n");
678                  return -ENODEV;
679          }
680          pr_info("virtio has feature %llX virtio devid %X vid %d empty %d\n",
681                  vdev->features, vdev->id.device, vdev->id.vendor,
682                  list_empty(&vhab_list));
683  
684          /* find out which virtio device is calling us.
685           * if this is hab's own virtio device, all the pchans are available
686           */
687          if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_HAB) {
688                  /* all MMIDs are taken cannot co-exist with others */
689                  mmid_start = hab_driver.devp[0].id;
690                  mmid_range = hab_driver.ndevices;
691                  virthab_store_vdev(HAB_MMID_ALL_AREA, vdev);
692          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_BUFFERQ) {
693                  mmid_start = MM_BUFFERQ_1;
694                  mmid_range = 1;
695                  virthab_store_vdev(MM_BUFFERQ_1, vdev);
696          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_MISC) {
697                  mmid_start = MM_MISC;
698                  mmid_range = 1;
699                  virthab_store_vdev(MM_MISC, vdev);
700          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_AUDIO) {
701                  mmid_start = MM_AUD_1;
702                  mmid_range = 4;
703                  virthab_store_vdev(MM_AUD_1, vdev);
704          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_CAMERA) {
705                  mmid_start = MM_CAM_1;
706                  mmid_range = 2;
707                  virthab_store_vdev(MM_CAM_1, vdev);
708          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_DISPLAY) {
709                  mmid_start = MM_DISP_1;
710                  mmid_range = 5;
711                  virthab_store_vdev(MM_DISP_1, vdev);
712          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_GRAPHICS) {
713                  mmid_start = MM_GFX;
714                  mmid_range = 1;
715                  virthab_store_vdev(MM_GFX, vdev);
716          } else if (vdev->id.device == HAB_VIRTIO_DEVICE_ID_VIDEO) {
717                  mmid_start = MM_VID;
718                  mmid_range = 2;
719                  virthab_store_vdev(MM_VID, vdev);
720          } else {
721                  pr_err("unknown virtio device is detected %d\n",
722                          vdev->id.device);
723                  mmid_start = 0;
724                  mmid_range = 0;
725          }
726          pr_info("virtio device id %d mmid %d range %d\n",
727                          vdev->id.device, mmid_start, mmid_range);
728  
729          if (!virthab_pchan_avail_check(vdev->id.device, mmid_start, mmid_range))
730                  return -EINVAL;
731  
732          ret = virthab_alloc(vdev, &vh, mmid_start, mmid_range);
733          if (!ret)
734                  pr_info("alloc done %d mmid %d range %d\n",
735                          ret, mmid_start, mmid_range);
736          else {
737                  pr_err("probe failed mmid %d range %d\n",
738                          mmid_start, mmid_range);
739                  return ret;
740          }
741  
742          err = virthab_init_vqs(vh);
743          if (err)
744                  goto err_init_vq;
745          //设置vdev 的状态
746          virtio_device_ready(vdev);
747          pr_info("virto device ready\n");
748  
749          vh->ready = true;
750          pr_info("store virto device %pK empty %d\n", vh, list_empty(&vhab_list));
751           //获取数据通知BE qnx
752          ret = virthab_queue_inbufs(vh, 1);
753          if (ret)
754                  return ret;
755  
756          return 0;
757  
758  err_init_vq:
759          kfree(vh);
760          pr_err("virtio input probe failed %d\n", err);
761          return err;
762  }

给vqueue 分配内存空间


567  int virthab_alloc(struct virtio_device *vdev, struct virtio_hab **pvh,
568                                    uint32_t mmid_start, int mmid_range)
569  {
570          struct virtio_hab *vh;
571          int ret;
572          unsigned long flags;
573  
574          vh = kzalloc(sizeof(*vh), GFP_KERNEL);
575          if (!vh)
576                  return -ENOMEM;
577  
578          ret = virthab_alloc_mmid_device(vh, mmid_start, mmid_range);
579  
580          if (!ret)
581                  pr_info("alloc done mmid %d range %d\n",
582                                  mmid_start, mmid_range);
583          else
584                  return ret;
585  
586          vh->vdev = vdev; /* store virtio device locally */
587  
588          *pvh = vh;
589          spin_lock_irqsave(&vh_lock, flags);
590          list_add_tail(&vh->node, &vhab_list);
591          spin_unlock_irqrestore(&vh_lock, flags);
592  
593          spin_lock_init(&vh->mlock);
594          pr_info("start vqs init vh list empty %d\n", list_empty(&vhab_list));
595  
596          return 0;
597  }
598  EXPORT_SYMBOL(virthab_alloc);
static int virthab_alloc_mmid_device(struct virtio_hab *vh,
530                          uint32_t mmid_start, int mmid_range)
531  {
532          int i;
533         //分配虚拟queue 内存空间
534          vh->vqs = kzalloc(sizeof(struct virtqueue *) * mmid_range *
535                                  HAB_PCHAN_VQ_MAX, GFP_KERNEL);
536          if (!vh->vqs)
537                  return -ENOMEM;
538          //分配虚拟queue callback内存空间
539          vh->cbs = kzalloc(sizeof(vq_callback_t *) * mmid_range *
540                                  HAB_PCHAN_VQ_MAX, GFP_KERNEL);
541          if (!vh->vqs)
542                  return -ENOMEM;
543          
544          vh->names = kzalloc(sizeof(char *) * mmid_range *
545                                  HAB_PCHAN_VQ_MAX, GFP_KERNEL);
546          if (!vh->names)
547                  return -ENOMEM;
548          //为每个设备channel分配内存空间
549          vh->vqpchans = kcalloc(hab_driver.ndevices, sizeof(struct vq_pchan),
550                                  GFP_KERNEL);
551          if (!vh->vqpchans)
552                  return -ENOMEM;
553  
554          /* loop through all pchans before vq registration for name creation */
555          for (i = 0; i < mmid_range * HAB_PCHAN_VQ_MAX; i++) {
556                  vh->names[i] = kzalloc(MAX_VMID_NAME_SIZE + 2, GFP_KERNEL);
557                  if (!vh->names[i])
558                          return -ENOMEM;
559          }
560  
561          vh->mmid_start = mmid_start;
562          vh->mmid_range = mmid_range;
563  
564          return 0;
565  }

初始化虚拟的queue

static int virthab_init_vqs(struct virtio_hab *vh)
500  {
501          int ret;
502          vq_callback_t **cbs = vh->cbs;
503          char **names = vh->names;
504          //初始化virtio_hab
505          ret = virthab_init_vqs_pre(vh);
506          if (ret)
507                  return ret;
508  
509          pr_info("mmid %d request %d vqs\n", vh->mmid_start,
510                  vh->mmid_range * HAB_PCHAN_VQ_MAX);
511  
512          ret = virtio_find_vqs(vh->vdev, vh->mmid_range * HAB_PCHAN_VQ_MAX,
513                                  vh->vqs, cbs, (const char * const*)names, NULL);
514          if (ret) {
515                  pr_err("failed to find vqs %d\n", ret);
516                  return ret;
517          }
518  
519          pr_info("find vqs OK %d\n", ret);
520          vh->vqs_offset = 0; /* this virtio device has all the vqs to itself */
521  
522          ret = virthab_init_vqs_post(vh);
523          if (ret)
524                  return ret;
525  
526          return 0;
527  }

struct hab_device解析初始化virtio_hab

 

 int virthab_init_vqs_pre(struct virtio_hab *vh)
387  {
388          struct vq_pchan *vpchans = vh->vqpchans;
389          vq_callback_t **cbs = vh->cbs;
390          char **names = vh->names;
391          char *temp;
392          int i, idx = 0;
393          struct hab_device *habdev = NULL;
394  
395          pr_debug("2 callbacks %pK %pK\n", (void *)virthab_recv_txq,
396                  (void *)virthab_recv_rxq);
397  
398          habdev = find_hab_device(vh->mmid_start);
399          if (!habdev) {
400                  pr_err("failed to locate mmid %d range %d\n",
401                          vh->mmid_start, vh->mmid_range);
402                  return -ENODEV;
403          }
404  
405          /* do sanity check */
406          for (i = 0; i < hab_driver.ndevices; i++)
407                  if (habdev == &hab_driver.devp[i])
408                          break;
409          if (i + vh->mmid_range > hab_driver.ndevices) {
410                  pr_err("invalid mmid %d range %d total %d\n",
411                          vh->mmid_start, vh->mmid_range,
412                          hab_driver.ndevices);
413                  return -EINVAL;
414          }
415  
416          idx = i;
417  
418          for (i = 0; i < vh->mmid_range; i++) {
419                  habdev = &hab_driver.devp[idx + i];
420                   //配置vq callback 函数
421                  /* ToDo: each cb should only apply to one vq */
422                  cbs[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_TX_VQ] = virthab_recv_txq;
423                  cbs[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_RX_VQ] = virthab_recv_rxq_task;
424                 //给vq 配置name
425                  strlcpy(names[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_TX_VQ],
426                                  habdev->name, sizeof(habdev->name));
427                  temp = names[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_TX_VQ];
428                  temp[0] = 't'; temp[1] = 'x'; temp[2] = 'q';
429  
430                  strlcpy(names[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_RX_VQ],
431                                  habdev->name, sizeof(habdev->name));
432                  temp = names[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_RX_VQ];
433                  temp[0] = 'r'; temp[1] = 'x'; temp[2] = 'q';
434                 //指定vpchans mmid
435                  vpchans[i].mmid = habdev->id;
436                  if (list_empty(&habdev->pchannels))
437                          pr_err("pchan is not initialized %s slot %d mmid %d\n",
438                                  habdev->name, i, habdev->id);
439                  else
440                          /* GVM only has one instance of the pchan for each mmid
441                           * (no multi VMs)
442                           */
443                          vpchans[i].pchan = list_first_entry(&habdev->pchannels,
444                                                          struct physical_channel,
445                                                          node);
446  
447                  pr_info("txq %d %s cb %pK\n", i,
448                          names[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_TX_VQ],
449                          (void *)cbs[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_TX_VQ]);
450                  pr_info("rxq %d %s cb %pK\n", i,
451                          names[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_RX_VQ],
452                          (void *)cbs[i * HAB_PCHAN_VQ_MAX + HAB_PCHAN_RX_VQ]);
453          }
454  
455          return 0;
456  }
457  EXPORT_SYMBOL(virthab_init_vqs_pre);

匹配mmid 获取hab_driver.devp配置


247  struct hab_device *find_hab_device(unsigned int mm_id)
248  {
249          int i;
250  
251          for (i = 0; i < hab_driver.ndevices; i++) {
252                  if (hab_driver.devp[i].id == HAB_MMID_GET_MAJOR(mm_id))
253                          return &hab_driver.devp[i];
254          }
255  
256          pr_err("%s: id=%d\n", __func__, mm_id);
257          return NULL;
258  }
 static inline
193  int virtio_find_vqs(struct virtio_device *vdev, unsigned nvqs,
194                          struct virtqueue *vqs[], vq_callback_t *callbacks[],
195                          const char * const names[],
196                          struct irq_affinity *desc)
197  {
             //调用remoteproc_virtio.c 中注册的rproc_virtio_find_vqs
             //同时注册通知BE端的notify函数rproc_virtio_notify 
             //在virthab_queue_inbufs 获取到数据后通知BE qnx 端
198          return vdev->config->find_vqs(vdev, nvqs, vqs, callbacks, names, NULL, desc);
199  }

将vdev 设置成 VIRTIO_CONFIG_S_DRIVER_OK状态

/**
212   * virtio_device_ready - enable vq use in probe function
213   * @vdev: the device
214   *
215   * Driver must call this to use vqs in the probe function.
216   *
217   * Note: vqs are enabled automatically after probe returns.
218   */
219  static inline
220  void virtio_device_ready(struct virtio_device *dev)
221  {
222          unsigned status = dev->config->get_status(dev);
223  
224          BUG_ON(status & VIRTIO_CONFIG_S_DRIVER_OK);
             //调用rproc_virtio_get_status 然后rproc_virtio_set_status
225          dev->config->set_status(dev, status | VIRTIO_CONFIG_S_DRIVER_OK);
226  }

 将数据发送到qnx 

/* queue all the inbufs on all pchans/vqs */
298  int virthab_queue_inbufs(struct virtio_hab *vh, int alloc)
299  {
300          int ret, size;
301          int i;
302          struct scatterlist sg[1];
303          struct vh_buf_header *hd, *hd_tmp;
304  
305          for (i = 0; i < vh->mmid_range; i++) {
                    //获取vpchan 读写通道
306                  struct vq_pchan *vpc = &vh->vqpchans[i];
307  
308                  if (alloc) {
309                          vpc->in_cnt = 0;
310                          vpc->s_cnt = 0;
311                          vpc->m_cnt = 0;
312                          vpc->l_cnt = 0;
313  
314                          vpc->in_pool = kmalloc(IN_POOL_SIZE, GFP_KERNEL);
315                          vpc->s_pool = kmalloc(OUT_SMALL_POOL_SIZE, GFP_KERNEL);
316                          vpc->m_pool = kmalloc(OUT_MEDIUM_POOL_SIZE, GFP_KERNEL);
317                          vpc->l_pool = kmalloc(OUT_LARGE_POOL_SIZE, GFP_KERNEL);
318                          if (!vpc->in_pool || !vpc->s_pool || !vpc->m_pool ||
319                                  !vpc->l_pool) {
320                                  pr_err("failed to alloc buf %d %pK %d %pK %d %pK %d %pK\n",
321                                          IN_POOL_SIZE, vpc->in_pool,
322                                          OUT_SMALL_POOL_SIZE, vpc->s_pool,
323                                          OUT_MEDIUM_POOL_SIZE, vpc->m_pool,
324                                          OUT_LARGE_POOL_SIZE, vpc->l_pool);
325                                  return -ENOMEM;
326                          }
327  
328                          init_waitqueue_head(&vpc->out_wq);
329                          init_pool_list(vpc->in_pool, IN_BUF_SIZE,
330                                          IN_BUF_NUM, PT_IN,
331                                          &vpc->in_list, NULL,
332                                          &vpc->in_cnt);
333                          init_pool_list(vpc->s_pool, OUT_SMALL_BUF_SIZE,
334                                          OUT_SMALL_BUF_NUM, PT_OUT_SMALL,
335                                          &vpc->s_list,  NULL,
336                                          &vpc->s_cnt);
337                          init_pool_list(vpc->m_pool, OUT_MEDIUM_BUF_SIZE,
338                                          OUT_MEDIUM_BUF_NUM, PT_OUT_MEDIUM,
339                                          &vpc->m_list, NULL,
340                                          &vpc->m_cnt);
341                          init_pool_list(vpc->l_pool, OUT_LARGE_BUF_SIZE,
342                                          OUT_LARGE_BUF_NUM, PT_OUT_LARGE,
343                                          &vpc->l_list, NULL,
344                                          &vpc->l_cnt);
345  
346                          pr_debug("VQ buf allocated %s %d %d %d %d %d %d %d %d %pK %pK %pK %pK\n",
347                                  vpc->vq[HAB_PCHAN_RX_VQ]->name,
348                                  IN_POOL_SIZE, OUT_SMALL_POOL_SIZE,
349                                  OUT_MEDIUM_POOL_SIZE, OUT_LARGE_POOL_SIZE,
350                                  vpc->in_cnt, vpc->s_cnt, vpc->m_cnt,
351                                  vpc->l_cnt, vpc->in_list, vpc->s_list,
352                                  vpc->m_list, vpc->l_list);
353                  }
354  
355                  spin_lock(&vpc->lock[HAB_PCHAN_RX_VQ]);
356                  size = virtqueue_get_vring_size(vpc->vq[HAB_PCHAN_RX_VQ]);
357                  pr_info("vq %s vring index %d num %d pchan %s\n",
358                          vpc->vq[HAB_PCHAN_RX_VQ]->name,
359                          vpc->vq[HAB_PCHAN_RX_VQ]->index, size,
360                          vpc->pchan->name);
361  
362                  list_for_each_entry_safe(hd, hd_tmp, &vpc->in_list, node) {
363                          list_del(&hd->node);
364                          sg_init_one(sg, hd->buf, IN_BUF_SIZE);
                             //将virtioqueue添加到sg中
365                          ret = virtqueue_add_inbuf(vpc->vq[HAB_PCHAN_RX_VQ], sg,
366                                                          1, hd, GFP_ATOMIC);
367                          if (ret) {
368                                  pr_err("failed to queue %s inbuf %d to PVM %d\n",
369                                          vpc->vq[HAB_PCHAN_RX_VQ]->name,
370                                          vpc->in_cnt, ret);
371                          }
372                          vpc->in_cnt--;
373                  }
374                  //通知后端RX vqueue
375                  ret = virtqueue_kick(vpc->vq[HAB_PCHAN_RX_VQ]);
376                  if (!ret)
377                          pr_err("failed to kick %d %s ret %d cnt %d\n", i,
378                                  vpc->vq[HAB_PCHAN_RX_VQ]->name, ret,
379                                  vpc->in_cnt);
380                  spin_unlock(&vpc->lock[HAB_PCHAN_RX_VQ]);
381          }
382          return 0;
383  }
384  EXPORT_SYMBOL(virthab_queue_inbufs);

lagvm/LINUX/android/kernel/msm-5.4/drivers/remoteproc/remoteproc_virtio.c

 static const struct virtio_config_ops rproc_virtio_config_ops = {
288          .get_features        = rproc_virtio_get_features,
289          .finalize_features = rproc_virtio_finalize_features,
290          .find_vqs        = rproc_virtio_find_vqs,
291          .del_vqs        = rproc_virtio_del_vqs,
292          .reset                = rproc_virtio_reset,
293          .set_status        = rproc_virtio_set_status,
294          .get_status        = rproc_virtio_get_status,
295          .get                = rproc_virtio_get,
296          .set                = rproc_virtio_set,
297  };

lagvm/LINUX/android/kernel/msm-5.4/drivers/remoteproc/remoteproc_virtio.c

static struct virtqueue *rp_find_vq(struct virtio_device *vdev,
66                                      unsigned int id,
67                                      void (*callback)(struct virtqueue *vq),
68                                      const char *name, bool ctx)
69  {
70          struct rproc_vdev *rvdev = vdev_to_rvdev(vdev);
71          struct rproc *rproc = vdev_to_rproc(vdev);
72          struct device *dev = &rproc->dev;
73          struct rproc_mem_entry *mem;
74          struct rproc_vring *rvring;
75          struct fw_rsc_vdev *rsc;
76          struct virtqueue *vq;
77          void *addr;
78          int len, size;
79  
80          /* we're temporarily limited to two virtqueues per rvdev */
81          if (id >= ARRAY_SIZE(rvdev->vring))
82                  return ERR_PTR(-EINVAL);
83  
84          if (!name)
85                  return NULL;
86  
87          /* Search allocated memory region by name */
88          mem = rproc_find_carveout_by_name(rproc, "vdev%dvring%d", rvdev->index,
89                                            id);
90          if (!mem || !mem->va)
91                  return ERR_PTR(-ENOMEM);
92  
93          rvring = &rvdev->vring[id];
94          addr = mem->va;
95          len = rvring->len;
96  
97          /* zero vring */
98          size = vring_size(len, rvring->align);
99          memset(addr, 0, size);
100  
101          dev_dbg(dev, "vring%d: va %pK qsz %d notifyid %d\n",
102                  id, addr, len, rvring->notifyid);
103  
104          /*
105           * Create the new vq, and tell virtio we're not interested in
106           * the 'weak' smp barriers, since we're talking with a real device.
107           */
108          vq = vring_new_virtqueue(id, len, rvring->align, vdev, false, ctx,
109                                   addr, rproc_virtio_notify, callback, name);
110          if (!vq) {
111                  dev_err(dev, "vring_new_virtqueue %s failed\n", name);
112                  rproc_free_vring(rvring);
113                  return ERR_PTR(-ENOMEM);
114          }
115  
116          rvring->vq = vq;
117          vq->priv = rvring;
118  
119          /* Update vring in resource table */
120          rsc = (void *)rproc->table_ptr + rvdev->rsc_offset;
121          rsc->vring[id].da = mem->da;
122  
123          return vq;
124  }

 Khab 提供给其他模块的创建hab channel 的接口 habmm_socket_xxx=hab_vchan_xxxx

hab open

int hab_vchan_open(struct uhab_context *ctx,
689                  unsigned int mmid,
690                  int32_t *vcid,
691                  int32_t timeout,
692                  uint32_t flags)
693  {
694          struct virtual_channel *vchan = NULL;
695          struct hab_device *dev;
696  
697          pr_debug("Open mmid=%d, loopback mode=%d, loopback be ctx %d\n",
698                  mmid, hab_driver.b_loopback, ctx->lb_be);
699  
700          if (!vcid)
701                  return -EINVAL;
702  
703          if (hab_is_loopback()) {
704                  if (ctx->lb_be)
705                          vchan = backend_listen(ctx, mmid, timeout);
706                  else
707                          vchan = frontend_open(ctx, mmid, LOOPBACK_DOM);
708          } else {
709                  dev = find_hab_device(mmid);
710 
711                  if (dev) {
712                          struct physical_channel *pchan =
713                                  hab_pchan_find_domid(dev,
714                                          HABCFG_VMID_DONT_CARE);
715                          if (pchan) {
716                                  if (pchan->is_be)
717                                          vchan = backend_listen(ctx, mmid,
718                                                          timeout);
719                                  else
720                                          vchan = frontend_open(ctx, mmid,
721                                                          HABCFG_VMID_DONT_CARE);
722                          } else {
723                                  pr_err("open on nonexistent pchan (mmid %x)\n",
724                                          mmid);
725                                  return -ENODEV;
726                          }
727                  } else {
728                          pr_err("failed to find device, mmid %d\n", mmid);
729                          return -ENODEV;
730                  }
731          }
732  
733          if (IS_ERR(vchan)) {
734                  if (-ETIMEDOUT != PTR_ERR(vchan) && -EAGAIN != PTR_ERR(vchan))
735                          pr_err("vchan open failed mmid=%d\n", mmid);
736                  return PTR_ERR(vchan);
737          }
738  
739          pr_debug("vchan id %x remote id %x session %d\n", vchan->id,
740                          vchan->otherend_id, vchan->session_id);
741  
742          write_lock(&ctx->ctx_lock);
743          list_add_tail(&vchan->node, &ctx->vchannels);
744          ctx->vcnt++;
745          write_unlock(&ctx->ctx_lock);
746  
747          *vcid = vchan->id;
748  
749          return 0;
750  }

 Hab send

long hab_vchan_send(struct uhab_context *ctx,
548                  int vcid,
549                  size_t sizebytes,
550                  void *data,
551                  unsigned int flags)
552  {
553          struct virtual_channel *vchan;
554          int ret;
555          struct hab_header header = HAB_HEADER_INITIALIZER;
556          int nonblocking_flag = flags & HABMM_SOCKET_SEND_FLAGS_NON_BLOCKING;
557  
558          if (sizebytes > (size_t)HAB_HEADER_SIZE_MAX) {
559                  pr_err("Message too large, %lu bytes, max is %d\n",
560                          sizebytes, HAB_HEADER_SIZE_MAX);
561                  return -EINVAL;
562          }
563  
564          vchan = hab_get_vchan_fromvcid(vcid, ctx, 0);
565          if (!vchan || vchan->otherend_closed) {
566                  ret = -ENODEV;
567                  goto err;
568          }
569  
570          /* log msg send timestamp: enter hab_vchan_send */
571          trace_hab_vchan_send_start(vchan);
572  
573          HAB_HEADER_SET_SIZE(header, sizebytes);
574          if (flags & HABMM_SOCKET_SEND_FLAGS_XING_VM_STAT) {
575                  HAB_HEADER_SET_TYPE(header, HAB_PAYLOAD_TYPE_PROFILE);
576                  if (sizebytes < sizeof(struct habmm_xing_vm_stat)) {
577                          pr_err("wrong profiling buffer size %zd, expect %zd\n",
578                                  sizebytes,
579                                  sizeof(struct habmm_xing_vm_stat));
580                          return -EINVAL;
581                  }
582          } else if (flags & HABMM_SOCKET_XVM_SCHE_TEST) {
583                  HAB_HEADER_SET_TYPE(header, HAB_PAYLOAD_TYPE_SCHE_MSG);
584          } else if (flags & HABMM_SOCKET_XVM_SCHE_TEST_ACK) {
585                  HAB_HEADER_SET_TYPE(header, HAB_PAYLOAD_TYPE_SCHE_MSG_ACK);
586          } else if (flags & HABMM_SOCKET_XVM_SCHE_RESULT_REQ) {
587                  if (sizebytes < sizeof(unsigned long long)) {
588                          pr_err("Message buffer too small, %lu bytes, expect %d\n",
589                                  sizebytes,
590                                  sizeof(unsigned long long));
591                          return -EINVAL;
592                  }
593                  HAB_HEADER_SET_TYPE(header, HAB_PAYLOAD_TYPE_SCHE_RESULT_REQ);
594          } else if (flags & HABMM_SOCKET_XVM_SCHE_RESULT_RSP) {
595                  if (sizebytes < 3 * sizeof(unsigned long long)) {
596                          pr_err("Message buffer too small, %lu bytes, expect %d\n",
597                                  sizebytes,
598                                  3 * sizeof(unsigned long long));
599                          return -EINVAL;
600                  }
601                  HAB_HEADER_SET_TYPE(header, HAB_PAYLOAD_TYPE_SCHE_RESULT_RSP);
602          } else {
603                  HAB_HEADER_SET_TYPE(header, HAB_PAYLOAD_TYPE_MSG);
604          }
605          HAB_HEADER_SET_ID(header, vchan->otherend_id);
606          HAB_HEADER_SET_SESSION_ID(header, vchan->session_id);
607  
608          while (1) {
                     //FE  发送数据
609                  ret = physical_channel_send(vchan->pchan, &header, data);
610  
611                  if (vchan->otherend_closed || nonblocking_flag ||
612                          ret != -EAGAIN)
613                          break;
614  
615                  schedule();
616          }
617  
618          /*
619           * The ret here as 0 indicates the message was already sent out
620           * from the hab_vchan_send()'s perspective.
621           */
622          if (!ret)
623                  vchan->tx_cnt++;
624  err:
625  
626          /* log msg send timestamp: exit hab_vchan_send */
627          trace_hab_vchan_send_done(vchan);
628  
629          if (vchan)
630                  hab_vchan_put(vchan);
631  
632          return ret;
633  }

Hab recv

int hab_vchan_recv(struct uhab_context *ctx,
636                                  struct hab_message **message,
637                                  int vcid,
638                                  int *rsize,
639                                  unsigned int timeout,
640                                  unsigned int flags)
641  {
642          struct virtual_channel *vchan;
643          int ret = 0;
             //flags=0
644          int nonblocking_flag = flags & HABMM_SOCKET_RECV_FLAGS_NON_BLOCKING;
645  
646          vchan = hab_get_vchan_fromvcid(vcid, ctx, 1);
647          if (!vchan) {
648                  pr_err("vcid %X vchan 0x%pK ctx %pK\n", vcid, vchan, ctx);
649                  *message = NULL;
650                  return -ENODEV;
651          }
652  
653          vchan->rx_inflight = 1;
654  
655          if (nonblocking_flag) {
656                  /* 
657                   * Try to pull data from the ring in this context instead of
658                   * IRQ handler. Any available messages will be copied and queued
659                   * internally, then fetched by hab_msg_dequeue()
660                   */
                      //hab_msg_enqueue
661                  physical_channel_rx_dispatch((unsigned long) vchan->pchan);
662          }
663  
664          ret = hab_msg_dequeue(vchan, message, rsize, timeout, flags);
665          if (!ret && *message) {
666                  /* log msg recv timestamp: exit hab_vchan_recv */667                  trace_hab_vchan_recv_done(vchan, *message);
668  
669                  /*
670                   * Here, it is for sure that a message was received from the
671                   * hab_vchan_recv()'s view w/ the ret as 0 and *message as
672                   * non-zero.
673                   */674                  vchan->rx_cnt++;
675          }
676  
677          vchan->rx_inflight = 0;
678  
679          hab_vchan_put(vchan);
680          return ret;
681  }

 由于flag 都配置为0 不会调用physical_channel_rx_dispatch进行enqueue 操作

physical_channel_rx_dispatch((unsigned long) vchan->pchan);
/* called by hab recv() to act like ISR to poll msg from remote VM */
/* ToDo: need to change the callback to here */
void physical_channel_rx_dispatch(unsigned long data)
{
        struct physical_channel *pchan = (struct physical_channel *)data;
        struct virtio_pchan_link *link =
                                (struct virtio_pchan_link *)pchan->hyp_data;
        struct vq_pchan *vpc = link->vpc;

        if (link->vpc == NULL) {
                pr_info("%s: %s link->vpc not ready\n", __func__, pchan->name);
                return;
        }

        virthab_recv_rxq_task(vpc->vq[HAB_PCHAN_RX_VQ]);
}
static void virthab_recv_rxq_task(struct virtqueue *vq)
{
        struct virtio_hab *vh = get_vh(vq->vdev);
        struct vq_pchan *vpc = get_virtio_pchan(vh, vq);

        tasklet_schedule(&vpc->task);
}

Tasklet 调用栈从BE qnx获取数据

virthab_recv_rxq

hab_msg_recv

    ->hab_msg_queue

    ->hab_open_request_add

        - -> physical_channel_read

我们继续分析enqueue的调用时机

static void hab_msg_queue(struct virtual_channel *vchan,
                                        struct hab_message *message)
{
        int irqs_disabled = irqs_disabled();

        hab_spin_lock(&vchan->rx_lock, irqs_disabled);
        list_add_tail(&message->node, &vchan->rx_list);
        hab_spin_unlock(&vchan->rx_lock, irqs_disabled);

        wake_up(&vchan->rx_queue);
}

hab_init

static int __init hab_init(void)
321  {
322          int result;
323          dev_t dev;
324  
325          result = alloc_chrdev_region(&hab_driver.major, 0, 1, "hab");
326  
327          if (result < 0) {
328                  pr_err("alloc_chrdev_region failed: %d\n", result);
329                  return result;
330          }
331  
332          cdev_init(&hab_driver.cdev, &hab_fops);
333          hab_driver.cdev.owner = THIS_MODULE;
334          hab_driver.cdev.ops = &hab_fops;
335          dev = MKDEV(MAJOR(hab_driver.major), 0);
336  
337          result = cdev_add(&hab_driver.cdev, dev, 1);
338  
339          if (result < 0) {
340                  unregister_chrdev_region(dev, 1);
341                  pr_err("cdev_add failed: %d\n", result);
342                  return result;
343          }
344  
345          hab_driver.class = class_create(THIS_MODULE, "hab");
346  
347          if (IS_ERR(hab_driver.class)) {
348                  result = PTR_ERR(hab_driver.class);
349                  pr_err("class_create failed: %d\n", result);
350                  goto err;
351          }
352  
353          hab_driver.dev = device_create(hab_driver.class, NULL,
354                                          dev, &hab_driver, "hab");
355  
356          if (IS_ERR(hab_driver.dev)) {
357                  result = PTR_ERR(hab_driver.dev);
358                  pr_err("device_create failed: %d\n", result);
359                  goto err;
360          }
361  
362          result = register_reboot_notifier(&hab_reboot_notifier);
363          if (result)
364                  pr_err("failed to register reboot notifier %d\n", result);
365  
366          /* read in hab config, then configure pchans */
367          result = do_hab_parse();
368  
369          if (!result) {
370                  hab_driver.kctx = hab_ctx_alloc(1);
371                  if (!hab_driver.kctx) {
372                          pr_err("hab_ctx_alloc failed\n");
373                          result = -ENOMEM;
374                          hab_hypervisor_unregister();
375                          goto err;
376                  } else {
377                          /* First, try to configure system dma_ops */
378                          result = dma_coerce_mask_and_coherent(
379                                          hab_driver.dev,
380                                          DMA_BIT_MASK(64));
381  
382                          /* System dma_ops failed, fallback to dma_ops of hab */
383                          if (result) {
384                                  pr_warn("config system dma_ops failed %d, fallback to hab\n",
385                                                  result);
386                                  hab_driver.dev->bus = NULL;
387                                  set_dma_ops(hab_driver.dev, &hab_dma_ops);
388                          }
389                  }
390          }
391          hab_stat_init(&hab_driver);
392          return result;
393  
394  err:
395          if (!IS_ERR_OR_NULL(hab_driver.dev))
396                  device_destroy(hab_driver.class, dev);
397          if (!IS_ERR_OR_NULL(hab_driver.class))
398                  class_destroy(hab_driver.class);
399          cdev_del(&hab_driver.cdev);
400          unregister_chrdev_region(dev, 1);
401  
402          pr_err("Error in hab init, result %d\n", result);
403          return result;
404  }
405  

解析dist quin-vm-common.dtsi 获取vmmid 配置

 quin-vm-common.dtsi
  hab: qcom,hab {
                compatible = "qcom,hab";
                vmid = <2>;

                mmidgrp100: mmidgrp100 {
                        grp-start-id = <100>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp200: mmidgrp200 {
                        grp-start-id = <200>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp300: mmidgrp300 {
                        grp-start-id = <300>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp400: mmidgrp400 {
                        grp-start-id = <400>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp500: mmidgrp500 {
                        grp-start-id = <500>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp600: mmidgrp600 {
                        grp-start-id = <600>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp700: mmidgrp700 {
                        grp-start-id = <700>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp900: mmidgrp900 {
                        grp-start-id = <900>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp1000: mmidgrp1000 {
                        grp-start-id = <1000>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp1100: mmidgrp1100 {
                        grp-start-id = <1100>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp1200: mmidgrp1200 {
                        grp-start-id = <1200>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp1400: mmidgrp1400 {
                        grp-start-id = <1400>;
                        role = "fe";
                        remote-vmids = <0>;
                };

                mmidgrp1500: mmidgrp1500 {
                        grp-start-id = <1500>;
                        role = "fe";
                        remote-vmids = <0>;
                };
        };
int do_hab_parse(void)
972  {
973          int result;
974          int i;
975          struct hab_device *device;
976  
977          /* single GVM is 2, multigvm is 2 or 3. GHS LV-GVM 2, LA-GVM 3 */
978          int default_gvmid = DEFAULT_GVMID; //DEFAULT_GVMID=2
979  
980          pr_debug("hab parse starts for %s\n", hab_info_str);
981  
982          /* first check if hypervisor plug-in is ready */
983          result = hab_hypervisor_register();
984          if (result) {
985                  pr_err("register HYP plug-in failed, ret %d\n", result);
986                  return result;
987          }
988  
989          /*
990           * Initialize open Q before first pchan starts.
991           * Each is for one pchan list
992           */
993          for (i = 0; i < hab_driver.ndevices; i++) {
994                  device = &hab_driver.devp[i];
995                  init_waitqueue_head(&device->openq);
996          }
997  
998          /* read in hab config and create pchans*/
999          memset(&hab_driver.settings, HABCFG_VMID_INVALID,
1000                                  sizeof(hab_driver.settings));
              //解析dtsi 获取vmid=2 
              //初始化settings)->vmid_mmid_list[_vmid_].vmid
1001          result = hab_parse(&hab_driver.settings);
1002          if (result) {
1003                  pr_err("hab config open failed, prepare default gvm %d settings\n",
1004                             default_gvmid);
1005                  fill_default_gvm_settings(&hab_driver.settings, default_gvmid,
1006                                                  MM_AUD_START, MM_ID_MAX);
1007          }
1008  
1009          /* now generate hab pchan list */
1010          result  = hab_generate_pchan_list(&hab_driver.settings);
1011          if (result) {
1012                  pr_err("generate pchan list failed, ret %d\n", result);
1013          } else {
1014                  int pchan_total = 0;
1015  
1016                  for (i = 0; i < hab_driver.ndevices; i++) {
1017                          device = &hab_driver.devp[i];
1018                          pchan_total += device->pchan_cnt;
1019                  }
1020                  pr_debug("ret %d, total %d pchans added, ndevices %d\n",
1021                                   result, pchan_total, hab_driver.ndevices);
1022          }
1023  
1024          return result;
1025  }

 Check mmid

/*
936   * generate pchan list based on hab settings table.
937   * return status 0: success, otherwise failure
938   */
939  static int hab_generate_pchan_list(struct local_vmid *settings)
940  {
941          int i, j, ret = 0;
942  
943          /* scan by valid VMs, then mmid */
944          pr_debug("self vmid is %d\n", settings->self);
945          for (i = 0; i < HABCFG_VMID_MAX; i++) {
946                  if (HABCFG_GET_VMID(settings, i) != HABCFG_VMID_INVALID &&
947                          HABCFG_GET_VMID(settings, i) != settings->self) {
948                          pr_debug("create pchans for vm %d\n", i);
949  
950                          for (j = 1; j <= HABCFG_MMID_AREA_MAX; j++) {
951                                  if (HABCFG_GET_MMID(settings, i, j)
952                                                  != HABCFG_VMID_INVALID)
953                                          ret = hab_generate_pchan(settings,
954                                                                  i, j);
955                          }
956                  }
957          }
958          return ret;
959  }

创建pchan

/*
870   * generate pchan list based on hab settings table.
871   * return status 0: success, otherwise failure
872   */
873  static int hab_generate_pchan(struct local_vmid *settings, int i, int j)
874  {
875          int ret = 0;
876  
877          pr_debug("%d as mmid %d in vmid %d\n",
878                          HABCFG_GET_MMID(settings, i, j), j, i);
879  
880          switch (HABCFG_GET_MMID(settings, i, j)) {
881          case MM_AUD_START/100:
882                  ret = hab_generate_pchan_group(settings, i, j, MM_AUD_START, MM_AUD_END);
883                  break;
884          case MM_CAM_START/100:
885                  ret = hab_generate_pchan_group(settings, i, j, MM_CAM_START, MM_CAM_END);
886                  break;
887          case MM_DISP_START/100:
888                  ret = hab_generate_pchan_group(settings, i, j, MM_DISP_START, MM_DISP_END);
889                  break;
890          case MM_GFX_START/100:
891                  ret = hab_generate_pchan_group(settings, i, j, MM_GFX_START, MM_GFX_END);
892                  break;
893          case MM_VID_START/100:
894                  ret = hab_generate_pchan_group(settings, i, j, MM_VID_START, MM_VID_END);
895                  break;
896          case MM_MISC_START/100:
897                  ret = hab_generate_pchan_group(settings, i, j, MM_MISC_START, MM_MISC_END);
898                  break;
899          case MM_QCPE_START/100:
900                  ret = hab_generate_pchan_group(settings, i, j, MM_QCPE_START, MM_QCPE_END);
901                  break;
902          case MM_CLK_START/100:
903                  ret = hab_generate_pchan_group(settings, i, j, MM_CLK_START, MM_CLK_END);
904                  break;
905          case MM_FDE_START/100:
906                  ret = hab_generate_pchan_group(settings, i, j, MM_FDE_START, MM_FDE_END);
907                  break;
908          case MM_BUFFERQ_START/100:
909                  ret = hab_generate_pchan_group(settings, i, j, MM_BUFFERQ_START, MM_BUFFERQ_END);
910                  break;
911          case MM_DATA_START/100:
912                  ret = hab_generate_pchan_group(settings, i, j, MM_DATA_START, MM_DATA_END);
913                  break;
914          case MM_HSI2S_START/100:
915                  ret = hab_generate_pchan_group(settings, i, j, MM_HSI2S_START, MM_HSI2S_END);
916                  break;
917          case MM_XVM_START/100:
918                  ret = hab_generate_pchan_group(settings, i, j, MM_XVM_START, MM_XVM_END);
919                  break;
920          case MM_VNW_START/100:
921                  ret = hab_generate_pchan_group(settings, i, j, MM_VNW_START, MM_VNW_END);
922                  break;
923          case MM_EXT_START/100:
924                  ret = hab_generate_pchan_group(settings, i, j, MM_EXT_START, MM_EXT_END);
925                  break;
926          default:
927                  pr_err("failed to find mmid %d, i %d, j %d\n",
928                          HABCFG_GET_MMID(settings, i, j), i, j);
929  
930                  break;
931          }
932          return ret;
933  }

依次初始化hab 虚拟设备

static int hab_generate_pchan_group(struct local_vmid *settings,
849                             int i, int j, int start, int end)
850  {
851          int k, ret = 0;
852  
853          for (k = start + 1; k < end; k++) {
854                  /*
855                   * if this local pchan end is BE, then use
856                   * remote FE's vmid. If local end is FE, then
857                   * use self vmid
858                   */
859                  ret += hab_initialize_pchan_entry(
860                                  find_hab_device(k),
861                                  settings->self,
862                                  HABCFG_GET_VMID(settings, i),
863                                  HABCFG_GET_BE(settings, i, j));
864          }
865  
866          return ret;
867  }

Dtsi 解析的role都是fe is_be=0 vmid_local=2

/*
806   * To name the pchan - the pchan has two ends, either FE or BE locally.
807   * if is_be is true, then this is listener for BE. pchane name use remote
808   * FF's vmid from the table.
809   * if is_be is false, then local is FE as opener. pchan name use local FE's
810   * vmid (self)
811   */
812  static int hab_initialize_pchan_entry(struct hab_device *mmid_device,
813                                  int vmid_local, int vmid_remote, int is_be)
814  {
815          char pchan_name[MAX_VMID_NAME_SIZE];
816          struct physical_channel *pchan = NULL;
817          int ret;
818          int vmid = is_be ? vmid_remote : vmid_local; /* used for naming only */
819  
820          if (!mmid_device) {
821                  pr_err("habdev %pK, vmid local %d, remote %d, is be %d\n",
822                                  mmid_device, vmid_local, vmid_remote, is_be);
823                  return -EINVAL;
824          }
825  
826          snprintf(pchan_name, MAX_VMID_NAME_SIZE, "vm%d-", vmid);
827          strlcat(pchan_name, mmid_device->name, MAX_VMID_NAME_SIZE);
828          //vmid_remote= grp-start-id/100 
829          ret = habhyp_commdev_alloc((void **)&pchan, is_be, pchan_name,
830                                          vmid_remote, mmid_device);
831          if (ret) {
832                  pr_err("failed %d to allocate pchan %s, vmid local %d, remote %d, is_be %d, total %d\n",
833                                  ret, pchan_name, vmid_local, vmid_remote,
834                                  is_be, mmid_device->pchan_cnt);
835          } else {
836                  /* local/remote id setting should be kept in lower level */
837                  pchan->vmid_local = vmid_local;
838                  pchan->vmid_remote = vmid_remote;
839                  pr_debug("pchan %s mmid %s local %d remote %d role %d\n",
840                                  pchan_name, mmid_device->name,
841                                  pchan->vmid_local, pchan->vmid_remote,
842                                  pchan->dom_id);
843          }
844  
845          return ret;
846  }
847  

初始化looppack device 和pchan

int habhyp_commdev_alloc(void **commdev, int is_be, char *name,
201                          int vmid_remote, struct hab_device *mmid_device)
202  {
203          struct physical_channel *pchan;
204          //创建虚拟的//创建recv enqueue 线程接收qnx 的消息 device mmid_device name=mmid
205          int ret = loopback_pchan_create(mmid_device, name);
206  
207          if (ret) {
208                  pr_err("failed to create %s pchan in mmid device %s, ret %d, pchan cnt %d\n",
209                          name, mmid_device->name, ret, mmid_device->pchan_cnt);
210                  *commdev = NULL;
211          } else {
212                  pr_debug("loopback physical channel on %s return %d, loopback mode(%d), total pchan %d\n",
213                          name, ret, hab_driver.b_loopback,
214                          mmid_device->pchan_cnt);
215                  pchan = hab_pchan_find_domid(mmid_device,
216                                  HABCFG_VMID_DONT_CARE);
217                  *commdev = pchan;
218                  hab_pchan_put(pchan);
219  
220                  pr_debug("pchan %s vchans %d refcnt %d\n",
221                          pchan->name, pchan->vcnt, get_refcnt(pchan->refcount));
222          }
223  
224          return ret;
225  }

创建recv enqueue 线程接收qnx 的消息

/* pchan is directly added into the hab_device */
150  int loopback_pchan_create(struct hab_device *dev, char *pchan_name)
151  {
152          int result;
153          struct physical_channel *pchan = NULL;
154          struct loopback_dev *lb_dev = NULL;
155  
156          pchan = hab_pchan_alloc(dev, LOOPBACK_DOM);
157          if (!pchan) {
158                  result = -ENOMEM;
159                  goto err;
160          }
161  
162          pchan->closed = 0;
163          strlcpy(pchan->name, pchan_name, sizeof(pchan->name));
164  
165          lb_dev = kzalloc(sizeof(*lb_dev), GFP_KERNEL);
166          if (!lb_dev) {
167                  result = -ENOMEM;
168                  goto err;
169          }
170  
171          spin_lock_init(&lb_dev->io_lock);
172          INIT_LIST_HEAD(&lb_dev->msg_list);
173  
174          init_waitqueue_head(&lb_dev->thread_queue);
175          
              //创建recv enqueue 线程接收qnx 的消息
176          lb_dev->thread_data.data = pchan;
177          lb_dev->kthread = kthread_run(lb_kthread, &lb_dev->thread_data,
178                                  pchan->name);
179          if (IS_ERR(lb_dev->kthread)) {
180                  result = PTR_ERR(lb_dev->kthread);
181                  pr_err("failed to create kthread for %s, ret %d\n",
182                             pchan->name, result);
183                  goto err;
184          }
185  
186          pchan->hyp_data = lb_dev;
187  
188          return 0;
189  err:
190          kfree(lb_dev);
191          kfree(pchan);
192  
193          return result;
194  }

接收qnx 消息hab_msg_queue enqueue rt_list ,最后等待hab_msg_dequeue 获取数据给LA 进行处理完成

int lb_kthread(void *d) 
42  {
43          struct lb_thread_struct *p = (struct lb_thread_struct *)d;
44          struct physical_channel *pchan = (struct physical_channel *)p->data;
45          struct loopback_dev *dev = pchan->hyp_data;
46          int ret = 0;
47  
48          while (!p->stop) {
49                  schedule();
                     //等到msg_list不为空 表示qnx 有消息发送到LA侧
50                  ret = wait_event_interruptible(dev->thread_queue,
51                                     !lb_thread_queue_empty(dev) ||
52                                     p->stop);
53  
54                  spin_lock_bh(&dev->io_lock);
55  
56                  while (!list_empty(&dev->msg_list)) {
57                          struct loopback_msg *msg = NULL;
58  
59                          msg = list_first_entry(&dev->msg_list,
60                                          struct loopback_msg, node);
61                          dev->current_msg = msg;
62                          list_del(&msg->node);
63                          dev->msg_cnt--;
64                         //调用hab_msg_recv接收消息将msg 挂到rx_list
                           //list_add_tail(&message->node, &vchan->rx_list);
65                          ret = hab_msg_recv(pchan, &msg->header);
66                          if (ret) {
67                                  pr_err("failed %d msg handling sz %d header %d %d %d, %d %X %d, total %d\n",
68                                          ret, msg->payload_size,
69                                          HAB_HEADER_GET_ID(msg->header),
70                                          HAB_HEADER_GET_TYPE(msg->header),
71                                          HAB_HEADER_GET_SIZE(msg->header),
72                                          msg->header.session_id,
73                                          msg->header.signature,
74                                          msg->header.sequence, dev->msg_cnt);
75                          }
76  
77                          kfree(msg);
78                          dev->current_msg = NULL;
79                  }
80  
81                  spin_unlock_bh(&dev->io_lock);
82          }
83          p->bexited = 1;
84          pr_debug("exit kthread\n");
85          return 0;
86  }

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