/* Copyright (C) 2008 Google, Inc. * Copyright (C) 2008 HTC Corporation * Copyright (c) 2009-2015, The Linux Foundation. All rights reserved. * * This software is licensed under the terms of the GNU General Public * License version 2, as published by the Free Software Foundation, and * may be copied, distributed, and modified under those terms. * * 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "audio_utils_aio.h" #ifdef CONFIG_USE_DEV_CTRL_VOLUME #include #endif /*CONFIG_USE_DEV_CTRL_VOLUME*/ #ifdef CONFIG_DEBUG_FS int audio_aio_debug_open(struct inode *inode, struct file *file) { file->private_data = inode->i_private; return 0; } ssize_t audio_aio_debug_read(struct file *file, char __user *buf, size_t count, loff_t *ppos) { const int debug_bufmax = 4096; static char buffer[4096]; int n = 0; struct q6audio_aio *audio = file->private_data; mutex_lock(&audio->lock); n = scnprintf(buffer, debug_bufmax, "opened %d\n", audio->opened); n += scnprintf(buffer + n, debug_bufmax - n, "enabled %d\n", audio->enabled); n += scnprintf(buffer + n, debug_bufmax - n, "stopped %d\n", audio->stopped); n += scnprintf(buffer + n, debug_bufmax - n, "feedback %d\n", audio->feedback); mutex_unlock(&audio->lock); /* Following variables are only useful for debugging when * when playback halts unexpectedly. Thus, no mutual exclusion * enforced */ n += scnprintf(buffer + n, debug_bufmax - n, "wflush %d\n", audio->wflush); n += scnprintf(buffer + n, debug_bufmax - n, "rflush %d\n", audio->rflush); n += scnprintf(buffer + n, debug_bufmax - n, "inqueue empty %d\n", list_empty(&audio->in_queue)); n += scnprintf(buffer + n, debug_bufmax - n, "outqueue empty %d\n", list_empty(&audio->out_queue)); buffer[n] = 0; return simple_read_from_buffer(buf, count, ppos, buffer, n); } #endif static long audio_aio_ioctl(struct file *file, unsigned int cmd, unsigned long arg); #ifdef CONFIG_COMPAT static long audio_aio_compat_ioctl(struct file *file, unsigned int cmd, unsigned long arg); #else #define audio_aio_compat_ioctl NULL #endif int insert_eos_buf(struct q6audio_aio *audio, struct audio_aio_buffer_node *buf_node) { struct dec_meta_out *eos_buf = buf_node->kvaddr; pr_debug("%s[%p]:insert_eos_buf\n", __func__, audio); eos_buf->num_of_frames = 0xFFFFFFFF; eos_buf->meta_out_dsp[0].offset_to_frame = 0x0; eos_buf->meta_out_dsp[0].nflags = AUDIO_DEC_EOS_SET; return sizeof(struct dec_meta_out) + sizeof(eos_buf->meta_out_dsp[0]); } /* Routine which updates read buffers of driver/dsp, for flush operation as DSP output might not have proper value set */ static int insert_meta_data_flush(struct q6audio_aio *audio, struct audio_aio_buffer_node *buf_node) { struct dec_meta_out *meta_data = buf_node->kvaddr; meta_data->num_of_frames = 0x0; meta_data->meta_out_dsp[0].offset_to_frame = 0x0; meta_data->meta_out_dsp[0].nflags = 0x0; return sizeof(struct dec_meta_out) + sizeof(meta_data->meta_out_dsp[0]); } static int audio_aio_ion_lookup_vaddr(struct q6audio_aio *audio, void *addr, unsigned long len, struct audio_aio_ion_region **region) { struct audio_aio_ion_region *region_elt; int match_count = 0; *region = NULL; /* returns physical address or zero */ list_for_each_entry(region_elt, &audio->ion_region_queue, list) { if (addr >= region_elt->vaddr && addr < region_elt->vaddr + region_elt->len && addr + len <= region_elt->vaddr + region_elt->len) { /* offset since we could pass vaddr inside a registerd * ion buffer */ match_count++; if (!*region) *region = region_elt; } } if (match_count > 1) { pr_err("%s[%p]:multiple hits for vaddr %p, len %ld\n", __func__, audio, addr, len); list_for_each_entry(region_elt, &audio->ion_region_queue, list) { if (addr >= region_elt->vaddr && addr < region_elt->vaddr + region_elt->len && addr + len <= region_elt->vaddr + region_elt->len) pr_err("\t%s[%p]:%p, %ld --> %pa\n", __func__, audio, region_elt->vaddr, region_elt->len, ®ion_elt->paddr); } } return *region ? 0 : -1; } static phys_addr_t audio_aio_ion_fixup(struct q6audio_aio *audio, void *addr, unsigned long len, int ref_up, void **kvaddr) { struct audio_aio_ion_region *region; phys_addr_t paddr; int ret; ret = audio_aio_ion_lookup_vaddr(audio, addr, len, ®ion); if (ret) { pr_err("%s[%p]:lookup (%p, %ld) failed\n", __func__, audio, addr, len); return 0; } if (ref_up) region->ref_cnt++; else region->ref_cnt--; pr_debug("%s[%p]:found region %p ref_cnt %d\n", __func__, audio, region, region->ref_cnt); paddr = region->paddr + (addr - region->vaddr); /* provide kernel virtual address for accessing meta information */ if (kvaddr) *kvaddr = (void *) (region->kvaddr + (addr - region->vaddr)); return paddr; } static int audio_aio_pause(struct q6audio_aio *audio) { int rc = -EINVAL; pr_debug("%s[%p], enabled = %d\n", __func__, audio, audio->enabled); if (audio->enabled) { rc = q6asm_cmd(audio->ac, CMD_PAUSE); if (rc < 0) pr_err("%s[%p]: pause cmd failed rc=%d\n", __func__, audio, rc); if (rc == 0) { /* Send suspend only if pause was successful */ rc = q6asm_cmd(audio->ac, CMD_SUSPEND); if (rc < 0) pr_err("%s[%p]: suspend cmd failed rc=%d\n", __func__, audio, rc); } else pr_err("%s[%p]: not sending suspend since pause failed\n", __func__, audio); } else pr_err("%s[%p]: Driver not enabled\n", __func__, audio); return rc; } static int audio_aio_flush(struct q6audio_aio *audio) { int rc; if (audio->enabled) { /* Implicitly issue a pause to the decoder before flushing if it is not in pause state */ if (!(audio->drv_status & ADRV_STATUS_PAUSE)) { rc = audio_aio_pause(audio); if (rc < 0) pr_err("%s[%p}: pause cmd failed rc=%d\n", __func__, audio, rc); else audio->drv_status |= ADRV_STATUS_PAUSE; } rc = q6asm_cmd(audio->ac, CMD_FLUSH); if (rc < 0) pr_err("%s[%p]: flush cmd failed rc=%d\n", __func__, audio, rc); /* Not in stop state, reenable the stream */ if (audio->stopped == 0) { rc = audio_aio_enable(audio); if (rc) pr_err("%s[%p]:audio re-enable failed\n", __func__, audio); else { audio->enabled = 1; if (audio->drv_status & ADRV_STATUS_PAUSE) audio->drv_status &= ~ADRV_STATUS_PAUSE; } } } pr_debug("%s[%p]:in_bytes %d\n", __func__, audio, atomic_read(&audio->in_bytes)); pr_debug("%s[%p]:in_samples %d\n", __func__, audio, atomic_read(&audio->in_samples)); atomic_set(&audio->in_bytes, 0); atomic_set(&audio->in_samples, 0); return 0; } static int audio_aio_outport_flush(struct q6audio_aio *audio) { int rc; rc = q6asm_cmd(audio->ac, CMD_OUT_FLUSH); if (rc < 0) pr_err("%s[%p}: output port flush cmd failed rc=%d\n", __func__, audio, rc); return rc; } /* Write buffer to DSP / Handle Ack from DSP */ void audio_aio_async_write_ack(struct q6audio_aio *audio, uint32_t token, uint32_t *payload) { unsigned long flags; union msm_audio_event_payload event_payload; struct audio_aio_buffer_node *used_buf; /* No active flush in progress */ if (audio->wflush) return; spin_lock_irqsave(&audio->dsp_lock, flags); if (list_empty(&audio->out_queue)) { pr_warning("%s: ingore unexpected event from dsp\n", __func__); spin_unlock_irqrestore(&audio->dsp_lock, flags); return; } used_buf = list_first_entry(&audio->out_queue, struct audio_aio_buffer_node, list); if (token == used_buf->token) { list_del(&used_buf->list); spin_unlock_irqrestore(&audio->dsp_lock, flags); pr_debug("%s[%p]:consumed buffer\n", __func__, audio); event_payload.aio_buf = used_buf->buf; audio_aio_post_event(audio, AUDIO_EVENT_WRITE_DONE, event_payload); kfree(used_buf); if (list_empty(&audio->out_queue) && (audio->drv_status & ADRV_STATUS_FSYNC)) { pr_debug("%s[%p]: list is empty, reached EOS in Tunnel\n", __func__, audio); wake_up(&audio->write_wait); } } else { pr_err("%s[%p]:expected=%x ret=%x\n", __func__, audio, used_buf->token, token); spin_unlock_irqrestore(&audio->dsp_lock, flags); } } /* ------------------- device --------------------- */ void audio_aio_async_out_flush(struct q6audio_aio *audio) { struct audio_aio_buffer_node *buf_node; struct list_head *ptr, *next; union msm_audio_event_payload payload; unsigned long flags; pr_debug("%s[%p}\n", __func__, audio); /* EOS followed by flush, EOS response not guranteed, free EOS i/p buffer */ spin_lock_irqsave(&audio->dsp_lock, flags); if (audio->eos_flag && (audio->eos_write_payload.aio_buf.buf_addr)) { pr_debug("%s[%p]: EOS followed by flush received,acknowledge"\ " eos i/p buffer immediately\n", __func__, audio); audio_aio_post_event(audio, AUDIO_EVENT_WRITE_DONE, audio->eos_write_payload); memset(&audio->eos_write_payload , 0, sizeof(union msm_audio_event_payload)); } spin_unlock_irqrestore(&audio->dsp_lock, flags); list_for_each_safe(ptr, next, &audio->out_queue) { buf_node = list_entry(ptr, struct audio_aio_buffer_node, list); list_del(&buf_node->list); payload.aio_buf = buf_node->buf; audio_aio_post_event(audio, AUDIO_EVENT_WRITE_DONE, payload); kfree(buf_node); pr_debug("%s[%p]: Propagate WRITE_DONE during flush\n", __func__, audio); } } void audio_aio_async_in_flush(struct q6audio_aio *audio) { struct audio_aio_buffer_node *buf_node; struct list_head *ptr, *next; union msm_audio_event_payload payload; pr_debug("%s[%p]\n", __func__, audio); list_for_each_safe(ptr, next, &audio->in_queue) { buf_node = list_entry(ptr, struct audio_aio_buffer_node, list); list_del(&buf_node->list); /* Forcefull send o/p eos buffer after flush, if no eos response * received by dsp even after sending eos command */ if ((audio->eos_rsp != 1) && audio->eos_flag) { pr_debug("%s[%p]: send eos on o/p buffer during flush\n", __func__, audio); payload.aio_buf = buf_node->buf; payload.aio_buf.data_len = insert_eos_buf(audio, buf_node); audio->eos_flag = 0; } else { payload.aio_buf = buf_node->buf; payload.aio_buf.data_len = insert_meta_data_flush(audio, buf_node); } audio_aio_post_event(audio, AUDIO_EVENT_READ_DONE, payload); kfree(buf_node); pr_debug("%s[%p]: Propagate READ_DONE during flush\n", __func__, audio); } } int audio_aio_enable(struct q6audio_aio *audio) { /* 2nd arg: 0 -> run immediately 3rd arg: 0 -> msw_ts, 4th arg: 0 ->lsw_ts */ return q6asm_run(audio->ac, 0x00, 0x00, 0x00); } int audio_aio_disable(struct q6audio_aio *audio) { int rc = 0; if (audio->opened) { audio->enabled = 0; audio->opened = 0; pr_debug("%s[%p]: inbytes[%d] insamples[%d]\n", __func__, audio, atomic_read(&audio->in_bytes), atomic_read(&audio->in_samples)); /* Close the session */ rc = q6asm_cmd(audio->ac, CMD_CLOSE); if (rc < 0) pr_err("%s[%p]:Failed to close the session rc=%d\n", __func__, audio, rc); audio->stopped = 1; wake_up(&audio->write_wait); wake_up(&audio->cmd_wait); } pr_debug("%s[%p]:enabled[%d]\n", __func__, audio, audio->enabled); return rc; } void audio_aio_reset_ion_region(struct q6audio_aio *audio) { struct audio_aio_ion_region *region; struct list_head *ptr, *next; list_for_each_safe(ptr, next, &audio->ion_region_queue) { region = list_entry(ptr, struct audio_aio_ion_region, list); list_del(®ion->list); msm_audio_ion_free_legacy(audio->client, region->handle); kfree(region); } return; } void audio_aio_reset_event_queue(struct q6audio_aio *audio) { unsigned long flags; struct audio_aio_event *drv_evt; struct list_head *ptr, *next; spin_lock_irqsave(&audio->event_queue_lock, flags); list_for_each_safe(ptr, next, &audio->event_queue) { drv_evt = list_first_entry(&audio->event_queue, struct audio_aio_event, list); list_del(&drv_evt->list); kfree(drv_evt); } list_for_each_safe(ptr, next, &audio->free_event_queue) { drv_evt = list_first_entry(&audio->free_event_queue, struct audio_aio_event, list); list_del(&drv_evt->list); kfree(drv_evt); } spin_unlock_irqrestore(&audio->event_queue_lock, flags); return; } static void audio_aio_unmap_ion_region(struct q6audio_aio *audio) { struct audio_aio_ion_region *region; struct list_head *ptr, *next; int rc = -EINVAL; pr_debug("%s[%p]:\n", __func__, audio); list_for_each_safe(ptr, next, &audio->ion_region_queue) { region = list_entry(ptr, struct audio_aio_ion_region, list); if (region != NULL) { pr_debug("%s[%p]: phy_address = 0x%pa\n", __func__, audio, ®ion->paddr); rc = q6asm_memory_unmap(audio->ac, region->paddr, IN); if (rc < 0) pr_err("%s[%p]: memory unmap failed\n", __func__, audio); } } } #ifdef CONFIG_USE_DEV_CTRL_VOLUME static void audio_aio_listner(u32 evt_id, union auddev_evt_data *evt_payload, void *private_data) { struct q6audio_aio *audio = (struct q6audio_aio *) private_data; int rc = 0; switch (evt_id) { case AUDDEV_EVT_STREAM_VOL_CHG: audio->volume = evt_payload->session_vol; pr_debug("%s[%p]: AUDDEV_EVT_STREAM_VOL_CHG, stream vol %d, enabled = %d\n", __func__, audio, audio->volume, audio->enabled); if (audio->enabled == 1) { if (audio->ac) { rc = q6asm_set_volume(audio->ac, audio->volume); if (rc < 0) { pr_err("%s[%p]: Send Volume command failed rc=%d\n", __func__, audio, rc); } } } break; default: pr_err("%s[%p]:ERROR:wrong event\n", __func__, audio); break; } } int register_volume_listener(struct q6audio_aio *audio) { int rc = 0; audio->device_events = AUDDEV_EVT_STREAM_VOL_CHG; audio->drv_status &= ~ADRV_STATUS_PAUSE; rc = auddev_register_evt_listner(audio->device_events, AUDDEV_CLNT_DEC, audio->ac->session, audio_aio_listner, (void *)audio); if (rc < 0) { pr_err("%s[%p]: Event listener failed\n", __func__, audio); rc = -EACCES; } return rc; } void unregister_volume_listener(struct q6audio_aio *audio) { auddev_unregister_evt_listner(AUDDEV_CLNT_DEC, audio->ac->session); } int enable_volume_ramp(struct q6audio_aio *audio) { int rc = 0; struct asm_softpause_params softpause; struct asm_softvolume_params softvol; if (audio->ac == NULL) return -EINVAL; pr_debug("%s[%p]\n", __func__, audio); softpause.enable = SOFT_PAUSE_ENABLE; softpause.period = SOFT_PAUSE_PERIOD; softpause.step = SOFT_PAUSE_STEP; softpause.rampingcurve = SOFT_PAUSE_CURVE_LINEAR; softvol.period = SOFT_VOLUME_PERIOD; softvol.step = SOFT_VOLUME_STEP; softvol.rampingcurve = SOFT_VOLUME_CURVE_LINEAR; if (softpause.rampingcurve == SOFT_PAUSE_CURVE_LINEAR) softpause.step = SOFT_PAUSE_STEP_LINEAR; if (softvol.rampingcurve == SOFT_VOLUME_CURVE_LINEAR) softvol.step = SOFT_VOLUME_STEP_LINEAR; rc = q6asm_set_volume(audio->ac, audio->volume); if (rc < 0) { pr_err("%s: Send Volume command failed rc=%d\n", __func__, rc); return rc; } rc = q6asm_set_softpause(audio->ac, &softpause); if (rc < 0) { pr_err("%s: Send SoftPause Param failed rc=%d\n", __func__, rc); return rc; } rc = q6asm_set_softvolume(audio->ac, &softvol); if (rc < 0) { pr_err("%s: Send SoftVolume Param failed rc=%d\n", __func__, rc); return rc; } /* disable mute by default */ rc = q6asm_set_mute(audio->ac, 0); if (rc < 0) { pr_err("%s: Send mute command failed rc=%d\n", __func__, rc); return rc; } return rc; } #else /*CONFIG_USE_DEV_CTRL_VOLUME*/ int register_volume_listener(struct q6audio_aio *audio) { return 0;/* do nothing */ } void unregister_volume_listener(struct q6audio_aio *audio) { return;/* do nothing */ } int enable_volume_ramp(struct q6audio_aio *audio) { return 0; /* do nothing */ } #endif /*CONFIG_USE_DEV_CTRL_VOLUME*/ int audio_aio_release(struct inode *inode, struct file *file) { struct q6audio_aio *audio = file->private_data; pr_debug("%s[%p]\n", __func__, audio); mutex_lock(&audio->lock); audio->wflush = 1; if (audio->wakelock_voted && (audio->audio_ws_mgr != NULL) && (audio->miscdevice != NULL)) { audio->wakelock_voted = false; mutex_lock(&audio->audio_ws_mgr->ws_lock); if ((audio->audio_ws_mgr->ref_cnt > 0) && (--audio->audio_ws_mgr->ref_cnt == 0)) { pm_relax(audio->miscdevice->this_device); } mutex_unlock(&audio->audio_ws_mgr->ws_lock); } if (audio->enabled) audio_aio_flush(audio); audio->wflush = 0; audio->drv_ops.out_flush(audio); audio->drv_ops.in_flush(audio); audio_aio_disable(audio); audio_aio_unmap_ion_region(audio); audio_aio_reset_ion_region(audio); msm_audio_ion_client_destroy(audio->client); audio->event_abort = 1; wake_up(&audio->event_wait); audio_aio_reset_event_queue(audio); q6asm_audio_client_free(audio->ac); mutex_unlock(&audio->lock); mutex_destroy(&audio->lock); mutex_destroy(&audio->read_lock); mutex_destroy(&audio->write_lock); mutex_destroy(&audio->get_event_lock); unregister_volume_listener(audio); #ifdef CONFIG_DEBUG_FS if (audio->dentry) debugfs_remove(audio->dentry); #endif kfree(audio->codec_cfg); kfree(audio); return 0; } int audio_aio_fsync(struct file *file, loff_t start, loff_t end, int datasync) { int rc = 0; struct q6audio_aio *audio = file->private_data; if (!audio->enabled || audio->feedback) return -EINVAL; /* Blocking client sends more data */ mutex_lock(&audio->lock); audio->drv_status |= ADRV_STATUS_FSYNC; mutex_unlock(&audio->lock); pr_debug("%s[%p]:\n", __func__, audio); audio->eos_rsp = 0; pr_debug("%s[%p]Wait for write done from DSP\n", __func__, audio); rc = wait_event_interruptible(audio->write_wait, (list_empty(&audio->out_queue)) || audio->wflush || audio->stopped); if (audio->stopped || audio->wflush) { pr_debug("%s[%p]: Audio Flushed or Stopped,this is not EOS\n" , __func__, audio); audio->wflush = 0; rc = -EBUSY; } if (rc < 0) { pr_err("%s[%p]: wait event for list_empty failed, rc = %d\n", __func__, audio, rc); goto done; } rc = q6asm_cmd(audio->ac, CMD_EOS); pr_debug("%s[%p]: EOS cmd sent to DSP\n", __func__, audio); if (rc < 0) pr_err("%s[%p]: q6asm_cmd failed, rc = %d", __func__, audio, rc); pr_debug("%s[%p]: wait for RENDERED_EOS from DSP\n" , __func__, audio); rc = wait_event_interruptible(audio->write_wait, (audio->eos_rsp || audio->wflush || audio->stopped)); if (rc < 0) { pr_err("%s[%p]: wait event for eos_rsp failed, rc = %d\n", __func__, audio, rc); goto done; } if (audio->stopped || audio->wflush) { audio->wflush = 0; pr_debug("%s[%p]: Audio Flushed or Stopped,this is not EOS\n" , __func__, audio); rc = -EBUSY; } if (audio->eos_rsp == 1) pr_debug("%s[%p]: EOS\n", __func__, audio); done: mutex_lock(&audio->lock); audio->drv_status &= ~ADRV_STATUS_FSYNC; mutex_unlock(&audio->lock); return rc; } static int audio_aio_events_pending(struct q6audio_aio *audio) { unsigned long flags; int empty; spin_lock_irqsave(&audio->event_queue_lock, flags); empty = !list_empty(&audio->event_queue); spin_unlock_irqrestore(&audio->event_queue_lock, flags); return empty || audio->event_abort; } static long audio_aio_process_event_req_common(struct q6audio_aio *audio, struct msm_audio_event *usr_evt) { long rc; struct audio_aio_event *drv_evt = NULL; int timeout; unsigned long flags; timeout = usr_evt->timeout_ms; if (timeout > 0) { rc = wait_event_interruptible_timeout(audio->event_wait, audio_aio_events_pending (audio), msecs_to_jiffies (timeout)); if (rc == 0) return -ETIMEDOUT; } else { rc = wait_event_interruptible(audio->event_wait, audio_aio_events_pending(audio)); } if (rc < 0) return rc; if (audio->event_abort) { audio->event_abort = 0; return -ENODEV; } rc = 0; spin_lock_irqsave(&audio->event_queue_lock, flags); if (!list_empty(&audio->event_queue)) { drv_evt = list_first_entry(&audio->event_queue, struct audio_aio_event, list); list_del(&drv_evt->list); } if (drv_evt) { usr_evt->event_type = drv_evt->event_type; usr_evt->event_payload = drv_evt->payload; list_add_tail(&drv_evt->list, &audio->free_event_queue); } else { pr_err("%s[%p]:Unexpected path\n", __func__, audio); spin_unlock_irqrestore(&audio->event_queue_lock, flags); return -EPERM; } spin_unlock_irqrestore(&audio->event_queue_lock, flags); if (drv_evt->event_type == AUDIO_EVENT_WRITE_DONE) { pr_debug("%s[%p]:posted AUDIO_EVENT_WRITE_DONE to user\n", __func__, audio); mutex_lock(&audio->write_lock); audio_aio_ion_fixup(audio, drv_evt->payload.aio_buf.buf_addr, drv_evt->payload.aio_buf.buf_len, 0, 0); mutex_unlock(&audio->write_lock); } else if (drv_evt->event_type == AUDIO_EVENT_READ_DONE) { pr_debug("%s[%p]:posted AUDIO_EVENT_READ_DONE to user\n", __func__, audio); mutex_lock(&audio->read_lock); audio_aio_ion_fixup(audio, drv_evt->payload.aio_buf.buf_addr, drv_evt->payload.aio_buf.buf_len, 0, 0); mutex_unlock(&audio->read_lock); } /* Some read buffer might be held up in DSP,release all * Once EOS indicated */ if (audio->eos_rsp && !list_empty(&audio->in_queue)) { pr_debug("%s[%p]:Send flush command to release read buffers"\ " held up in DSP\n", __func__, audio); mutex_lock(&audio->lock); audio_aio_flush(audio); mutex_unlock(&audio->lock); } return rc; } static long audio_aio_process_event_req(struct q6audio_aio *audio, void __user *arg) { long rc; struct msm_audio_event usr_evt; if (copy_from_user(&usr_evt, arg, sizeof(struct msm_audio_event))) { pr_err("%s: copy_from_user failed\n", __func__); return -EFAULT; } rc = audio_aio_process_event_req_common(audio, &usr_evt); if (copy_to_user(arg, &usr_evt, sizeof(usr_evt))) { pr_err("%s: copy_to_user failed\n", __func__); rc = -EFAULT; } return rc; } #ifdef CONFIG_COMPAT struct msm_audio_aio_buf32 { compat_uptr_t buf_addr; u32 buf_len; u32 data_len; compat_uptr_t private_data; u16 mfield_sz; /*only useful for data has meta field */ }; struct msm_audio_bitstream_info32 { u32 codec_type; u32 chan_info; u32 sample_rate; u32 bit_stream_info; u32 bit_rate; u32 unused[3]; }; struct msm_audio_bitstream_error_info32 { u32 dec_id; u32 err_msg_indicator; u32 err_type; }; union msm_audio_event_payload32 { struct msm_audio_aio_buf32 aio_buf; struct msm_audio_bitstream_info32 stream_info; struct msm_audio_bitstream_error_info32 error_info; s32 reserved; }; struct msm_audio_event32 { s32 event_type; s32 timeout_ms; union msm_audio_event_payload32 event_payload; }; static long audio_aio_process_event_req_compat(struct q6audio_aio *audio, void __user *arg) { long rc; struct msm_audio_event32 usr_evt_32; struct msm_audio_event usr_evt; if (copy_from_user(&usr_evt_32, arg, sizeof(struct msm_audio_event32))) { pr_err("%s: copy_from_user failed\n", __func__); return -EFAULT; } usr_evt.timeout_ms = usr_evt_32.timeout_ms; rc = audio_aio_process_event_req_common(audio, &usr_evt); usr_evt_32.event_type = usr_evt.event_type; switch (usr_evt_32.event_type) { case AUDIO_EVENT_SUSPEND: case AUDIO_EVENT_RESUME: case AUDIO_EVENT_WRITE_DONE: case AUDIO_EVENT_READ_DONE: usr_evt_32.event_payload.aio_buf.buf_addr = ptr_to_compat(usr_evt.event_payload.aio_buf.buf_addr); usr_evt_32.event_payload.aio_buf.buf_len = usr_evt.event_payload.aio_buf.buf_len; usr_evt_32.event_payload.aio_buf.data_len = usr_evt.event_payload.aio_buf.data_len; usr_evt_32.event_payload.aio_buf.private_data = ptr_to_compat(usr_evt.event_payload.aio_buf.private_data); usr_evt_32.event_payload.aio_buf.mfield_sz = usr_evt.event_payload.aio_buf.mfield_sz; break; case AUDIO_EVENT_STREAM_INFO: usr_evt_32.event_payload.stream_info.codec_type = usr_evt.event_payload.stream_info.codec_type; usr_evt_32.event_payload.stream_info.chan_info = usr_evt.event_payload.stream_info.chan_info; usr_evt_32.event_payload.stream_info.sample_rate = usr_evt.event_payload.stream_info.sample_rate; usr_evt_32.event_payload.stream_info.bit_stream_info = usr_evt.event_payload.stream_info.bit_stream_info; usr_evt_32.event_payload.stream_info.bit_rate = usr_evt.event_payload.stream_info.bit_rate; break; case AUDIO_EVENT_BITSTREAM_ERROR_INFO: usr_evt_32.event_payload.error_info.dec_id = usr_evt.event_payload.error_info.dec_id; usr_evt_32.event_payload.error_info.err_msg_indicator = usr_evt.event_payload.error_info.err_msg_indicator; usr_evt_32.event_payload.error_info.err_type = usr_evt.event_payload.error_info.err_type; break; default: pr_debug("%s: unknown audio event type = %d rc = %ld", __func__, usr_evt_32.event_type, rc); return rc; } if (copy_to_user(arg, &usr_evt_32, sizeof(usr_evt_32))) { pr_err("%s: copy_to_user failed\n", __func__); rc = -EFAULT; } return rc; } #endif static int audio_aio_ion_check(struct q6audio_aio *audio, void *vaddr, unsigned long len) { struct audio_aio_ion_region *region_elt; struct audio_aio_ion_region t = {.vaddr = vaddr, .len = len }; list_for_each_entry(region_elt, &audio->ion_region_queue, list) { if (CONTAINS(region_elt, &t) || CONTAINS(&t, region_elt) || OVERLAPS(region_elt, &t)) { pr_err("%s[%p]:region (vaddr %p len %ld) clashes with registered region (vaddr %p paddr %pa len %ld)\n", __func__, audio, vaddr, len, region_elt->vaddr, ®ion_elt->paddr, region_elt->len); return -EINVAL; } } return 0; } static int audio_aio_ion_add(struct q6audio_aio *audio, struct msm_audio_ion_info *info) { ion_phys_addr_t paddr = 0; size_t len = 0; struct audio_aio_ion_region *region; int rc = -EINVAL; struct ion_handle *handle = NULL; unsigned long ionflag; void *kvaddr = NULL; pr_debug("%s[%p]:\n", __func__, audio); region = kmalloc(sizeof(*region), GFP_KERNEL); if (!region) { rc = -ENOMEM; goto end; } rc = msm_audio_ion_import_legacy("Audio_Dec_Client", audio->client, &handle, info->fd, &ionflag, 0, &paddr, &len, &kvaddr); if (rc) { pr_err("%s: msm audio ion alloc failed\n", __func__); goto import_error; } rc = audio_aio_ion_check(audio, info->vaddr, len); if (rc < 0) { pr_err("%s: audio_aio_ion_check failed\n", __func__); goto ion_error; } region->handle = handle; region->vaddr = info->vaddr; region->fd = info->fd; region->paddr = paddr; region->kvaddr = kvaddr; region->len = len; region->ref_cnt = 0; pr_debug("%s[%p]:add region paddr %pa vaddr %p, len %lu kvaddr %p\n", __func__, audio, ®ion->paddr, region->vaddr, region->len, region->kvaddr); list_add_tail(®ion->list, &audio->ion_region_queue); rc = q6asm_memory_map(audio->ac, paddr, IN, len, 1); if (rc < 0) { pr_err("%s[%p]: memory map failed\n", __func__, audio); goto mmap_error; } else { goto end; } mmap_error: list_del(®ion->list); ion_error: msm_audio_ion_free_legacy(audio->client, handle); import_error: kfree(region); end: return rc; } static int audio_aio_ion_remove(struct q6audio_aio *audio, struct msm_audio_ion_info *info) { struct audio_aio_ion_region *region; struct list_head *ptr, *next; int rc = -EINVAL; pr_debug("%s[%p]:info fd %d vaddr %p\n", __func__, audio, info->fd, info->vaddr); list_for_each_safe(ptr, next, &audio->ion_region_queue) { region = list_entry(ptr, struct audio_aio_ion_region, list); if ((region->fd == info->fd) && (region->vaddr == info->vaddr)) { if (region->ref_cnt) { pr_debug("%s[%p]:region %p in use ref_cnt %d\n", __func__, audio, region, region->ref_cnt); break; } pr_debug("%s[%p]:remove region fd %d vaddr %p\n", __func__, audio, info->fd, info->vaddr); rc = q6asm_memory_unmap(audio->ac, region->paddr, IN); if (rc < 0) pr_err("%s[%p]: memory unmap failed\n", __func__, audio); list_del(®ion->list); msm_audio_ion_free_legacy(audio->client, region->handle); kfree(region); rc = 0; break; } } return rc; } static int audio_aio_async_write(struct q6audio_aio *audio, struct audio_aio_buffer_node *buf_node) { int rc; struct audio_client *ac; struct audio_aio_write_param param; if (!audio || !buf_node) { pr_err("%s NULL pointer audio=[0x%p], buf_node=[0x%p]\n", __func__, audio, buf_node); return -EINVAL; } pr_debug("%s[%p]: Send write buff %p phy %pa len %d meta_enable = %d\n", __func__, audio, buf_node, &buf_node->paddr, buf_node->buf.data_len, audio->buf_cfg.meta_info_enable); pr_debug("%s[%p]: flags = 0x%x\n", __func__, audio, buf_node->meta_info.meta_in.nflags); ac = audio->ac; /* Offset with appropriate meta */ if (audio->feedback) { /* Non Tunnel mode */ param.paddr = buf_node->paddr + sizeof(struct dec_meta_in); param.len = buf_node->buf.data_len - sizeof(struct dec_meta_in); } else { /* Tunnel mode */ param.paddr = buf_node->paddr; param.len = buf_node->buf.data_len; } param.msw_ts = buf_node->meta_info.meta_in.ntimestamp.highpart; param.lsw_ts = buf_node->meta_info.meta_in.ntimestamp.lowpart; param.flags = buf_node->meta_info.meta_in.nflags; /* If no meta_info enaled, indicate no time stamp valid */ if (!audio->buf_cfg.meta_info_enable) param.flags = 0xFF00; if (buf_node->meta_info.meta_in.nflags & AUDIO_DEC_EOF_SET) param.flags |= AUDIO_DEC_EOF_SET; param.uid = ac->session; /* Read command will populate paddr as token */ buf_node->token = ac->session; rc = q6asm_async_write(ac, ¶m); if (rc < 0) pr_err("%s[%p]:failed\n", __func__, audio); return rc; } void audio_aio_post_event(struct q6audio_aio *audio, int type, union msm_audio_event_payload payload) { struct audio_aio_event *e_node = NULL; unsigned long flags; spin_lock_irqsave(&audio->event_queue_lock, flags); if (!list_empty(&audio->free_event_queue)) { e_node = list_first_entry(&audio->free_event_queue, struct audio_aio_event, list); list_del(&e_node->list); } else { e_node = kmalloc(sizeof(struct audio_aio_event), GFP_ATOMIC); if (!e_node) { pr_err("%s[%p]:No mem to post event %d\n", __func__, audio, type); spin_unlock_irqrestore(&audio->event_queue_lock, flags); return; } } e_node->event_type = type; e_node->payload = payload; list_add_tail(&e_node->list, &audio->event_queue); spin_unlock_irqrestore(&audio->event_queue_lock, flags); wake_up(&audio->event_wait); } static int audio_aio_async_read(struct q6audio_aio *audio, struct audio_aio_buffer_node *buf_node) { struct audio_client *ac; struct audio_aio_read_param param; int rc; pr_debug("%s[%p]: Send read buff %p phy %pa len %d\n", __func__, audio, buf_node, &buf_node->paddr, buf_node->buf.buf_len); ac = audio->ac; /* Provide address so driver can append nr frames information */ param.paddr = buf_node->paddr + sizeof(struct dec_meta_out); param.len = buf_node->buf.buf_len - sizeof(struct dec_meta_out); param.uid = param.paddr; /* Write command will populate paddr as token */ buf_node->token = param.paddr; rc = q6asm_async_read(ac, ¶m); if (rc < 0) pr_err("%s[%p]:failed\n", __func__, audio); return rc; } static int audio_aio_buf_add_shared(struct q6audio_aio *audio, u32 dir, struct audio_aio_buffer_node *buf_node) { unsigned long flags; int ret = 0; pr_debug("%s[%p]:node %p dir %x buf_addr %p buf_len %d data_len %d\n", __func__, audio, buf_node, dir, buf_node->buf.buf_addr, buf_node->buf.buf_len, buf_node->buf.data_len); buf_node->paddr = audio_aio_ion_fixup(audio, buf_node->buf.buf_addr, buf_node->buf.buf_len, 1, &buf_node->kvaddr); if (dir) { /* write */ if (!buf_node->paddr || (buf_node->paddr & 0x1) || (!audio->feedback && !buf_node->buf.data_len)) { kfree(buf_node); return -EINVAL; } extract_meta_out_info(audio, buf_node, 1); /* Not a EOS buffer */ if (!(buf_node->meta_info.meta_in.nflags & AUDIO_DEC_EOS_SET)) { spin_lock_irqsave(&audio->dsp_lock, flags); ret = audio_aio_async_write(audio, buf_node); /* EOS buffer handled in driver */ list_add_tail(&buf_node->list, &audio->out_queue); spin_unlock_irqrestore(&audio->dsp_lock, flags); } else if (buf_node->meta_info.meta_in.nflags & AUDIO_DEC_EOS_SET) { if (!audio->wflush) { pr_debug("%s[%p]:Send EOS cmd at i/p\n", __func__, audio); /* Driver will forcefully post writedone event * once eos ack recived from DSP */ audio->eos_write_payload.aio_buf =\ buf_node->buf; audio->eos_flag = 1; audio->eos_rsp = 0; q6asm_cmd(audio->ac, CMD_EOS); kfree(buf_node); } else { /* Flush in progress, send back i/p * EOS buffer as is */ union msm_audio_event_payload event_payload; event_payload.aio_buf = buf_node->buf; audio_aio_post_event(audio, AUDIO_EVENT_WRITE_DONE, event_payload); kfree(buf_node); } } } else { /* read */ if (!buf_node->paddr || (buf_node->paddr & 0x1) || (buf_node->buf.buf_len < PCM_BUFSZ_MIN)) { kfree(buf_node); return -EINVAL; } /* No EOS reached */ if (!audio->eos_rsp) { spin_lock_irqsave(&audio->dsp_lock, flags); ret = audio_aio_async_read(audio, buf_node); /* EOS buffer handled in driver */ list_add_tail(&buf_node->list, &audio->in_queue); spin_unlock_irqrestore(&audio->dsp_lock, flags); } /* EOS reached at input side fake all upcoming read buffer to * indicate the same */ else { union msm_audio_event_payload event_payload; event_payload.aio_buf = buf_node->buf; event_payload.aio_buf.data_len = insert_eos_buf(audio, buf_node); pr_debug("%s[%p]: propagate READ_DONE as EOS done\n",\ __func__, audio); audio_aio_post_event(audio, AUDIO_EVENT_READ_DONE, event_payload); kfree(buf_node); } } return ret; } #ifdef CONFIG_COMPAT static int audio_aio_buf_add_compat(struct q6audio_aio *audio, u32 dir, void __user *arg) { struct audio_aio_buffer_node *buf_node; struct msm_audio_aio_buf32 aio_buf_32; buf_node = kzalloc(sizeof(*buf_node), GFP_KERNEL); if (!buf_node) { pr_err("%s: Buffer node alloc failed\n", __func__); return -ENOMEM; } if (copy_from_user(&aio_buf_32, arg, sizeof(aio_buf_32))) { kfree(buf_node); pr_err("%s: copy_from_user failed\n", __func__); return -EFAULT; } buf_node->buf.buf_addr = compat_ptr(aio_buf_32.buf_addr); buf_node->buf.buf_len = aio_buf_32.buf_len; buf_node->buf.data_len = aio_buf_32.data_len; buf_node->buf.private_data = compat_ptr(aio_buf_32.private_data); buf_node->buf.mfield_sz = aio_buf_32.mfield_sz; return audio_aio_buf_add_shared(audio, dir, buf_node); } #endif static int audio_aio_buf_add(struct q6audio_aio *audio, u32 dir, void __user *arg) { struct audio_aio_buffer_node *buf_node; buf_node = kzalloc(sizeof(*buf_node), GFP_KERNEL); if (!buf_node) { pr_err("%s: Buffer node alloc failed\n", __func__); return -ENOMEM; } if (copy_from_user(&buf_node->buf, arg, sizeof(buf_node->buf))) { kfree(buf_node); pr_err("%s: copy_from_user failed\n", __func__); return -EFAULT; } return audio_aio_buf_add_shared(audio, dir, buf_node); } void audio_aio_ioport_reset(struct q6audio_aio *audio) { if (audio->drv_status & ADRV_STATUS_AIO_INTF) { /* If fsync is in progress, make sure * return value of fsync indicates * abort due to flush */ if (audio->drv_status & ADRV_STATUS_FSYNC) { pr_debug("%s[%p]:fsync in progress\n", __func__, audio); audio->drv_ops.out_flush(audio); } else audio->drv_ops.out_flush(audio); if (audio->feedback == NON_TUNNEL_MODE) audio->drv_ops.in_flush(audio); } } int audio_aio_open(struct q6audio_aio *audio, struct file *file) { int rc = 0; int i; struct audio_aio_event *e_node = NULL; struct list_head *ptr, *next; /* Settings will be re-config at AUDIO_SET_CONFIG, * but at least we need to have initial config */ audio->str_cfg.buffer_size = FRAME_SIZE; audio->str_cfg.buffer_count = FRAME_NUM; audio->pcm_cfg.buffer_count = PCM_BUF_COUNT; audio->pcm_cfg.sample_rate = 48000; audio->pcm_cfg.channel_count = 2; /* Only AIO interface */ if (file->f_flags & O_NONBLOCK) { pr_debug("%s[%p]:set to aio interface\n", __func__, audio); audio->drv_status |= ADRV_STATUS_AIO_INTF; audio->drv_ops.out_flush = audio_aio_async_out_flush; audio->drv_ops.in_flush = audio_aio_async_in_flush; q6asm_set_io_mode(audio->ac, ASYNC_IO_MODE); } else { pr_err("%s[%p]:SIO interface not supported\n", __func__, audio); rc = -EACCES; goto fail; } /* Initialize all locks of audio instance */ mutex_init(&audio->lock); mutex_init(&audio->read_lock); mutex_init(&audio->write_lock); mutex_init(&audio->get_event_lock); spin_lock_init(&audio->dsp_lock); spin_lock_init(&audio->event_queue_lock); init_waitqueue_head(&audio->cmd_wait); init_waitqueue_head(&audio->write_wait); init_waitqueue_head(&audio->event_wait); INIT_LIST_HEAD(&audio->out_queue); INIT_LIST_HEAD(&audio->in_queue); INIT_LIST_HEAD(&audio->ion_region_queue); INIT_LIST_HEAD(&audio->free_event_queue); INIT_LIST_HEAD(&audio->event_queue); audio->drv_ops.out_flush(audio); audio->opened = 1; file->private_data = audio; audio->codec_ioctl = audio_aio_ioctl; audio->codec_compat_ioctl = audio_aio_compat_ioctl; for (i = 0; i < AUDIO_EVENT_NUM; i++) { e_node = kmalloc(sizeof(struct audio_aio_event), GFP_KERNEL); if (e_node) list_add_tail(&e_node->list, &audio->free_event_queue); else { pr_err("%s[%p]:event pkt alloc failed\n", __func__, audio); rc = -ENOMEM; goto cleanup; } } audio->client = msm_audio_ion_client_create("Audio_Dec_Client"); if (IS_ERR_OR_NULL(audio->client)) { pr_err("Unable to create ION client\n"); rc = -ENOMEM; goto cleanup; } pr_debug("Ion client create in audio_aio_open %p", audio->client); rc = register_volume_listener(audio); if (rc < 0) goto ion_cleanup; return 0; ion_cleanup: msm_audio_ion_client_destroy(audio->client); audio->client = NULL; cleanup: list_for_each_safe(ptr, next, &audio->free_event_queue) { e_node = list_first_entry(&audio->free_event_queue, struct audio_aio_event, list); list_del(&e_node->list); kfree(e_node); } fail: return rc; } static long audio_aio_shared_ioctl(struct file *file, unsigned int cmd, unsigned long arg) { struct q6audio_aio *audio = file->private_data; int rc = 0; switch (cmd) { case AUDIO_ABORT_GET_EVENT: { audio->event_abort = 1; wake_up(&audio->event_wait); break; } case AUDIO_OUTPORT_FLUSH: { pr_debug("%s[%p]:AUDIO_OUTPORT_FLUSH\n", __func__, audio); mutex_lock(&audio->read_lock); rc = audio_aio_outport_flush(audio); if (rc < 0) { pr_err("%s[%p]: AUDIO_OUTPORT_FLUSH failed\n", __func__, audio); rc = -EINTR; } mutex_unlock(&audio->read_lock); break; } case AUDIO_STOP: { pr_debug("%s[%p]: AUDIO_STOP session_id[%d]\n", __func__, audio, audio->ac->session); mutex_lock(&audio->lock); audio->stopped = 1; rc = audio_aio_flush(audio); if (rc < 0) { pr_err("%s[%p]:Audio Stop procedure failed rc=%d\n", __func__, audio, rc); mutex_unlock(&audio->lock); break; } audio->enabled = 0; audio->drv_status &= ~ADRV_STATUS_PAUSE; if (audio->drv_status & ADRV_STATUS_FSYNC) { pr_debug("%s[%p] Waking up the audio_aio_fsync\n", __func__, audio); wake_up(&audio->write_wait); } mutex_unlock(&audio->lock); break; } case AUDIO_PAUSE: { pr_debug("%s[%p]:AUDIO_PAUSE %ld\n", __func__, audio, arg); mutex_lock(&audio->lock); if (arg == 1) { rc = audio_aio_pause(audio); if (rc < 0) { pr_err("%s[%p]: pause FAILED rc=%d\n", __func__, audio, rc); mutex_unlock(&audio->lock); break; } audio->drv_status |= ADRV_STATUS_PAUSE; } else if (arg == 0) { if (audio->drv_status & ADRV_STATUS_PAUSE) { rc = audio_aio_enable(audio); if (rc) pr_err("%s[%p]: audio enable failed\n", __func__, audio); else { audio->drv_status &= ~ADRV_STATUS_PAUSE; audio->enabled = 1; } } } mutex_unlock(&audio->lock); break; } case AUDIO_FLUSH: { pr_debug("%s[%p]: AUDIO_FLUSH sessionid[%d]\n", __func__, audio, audio->ac->session); mutex_lock(&audio->lock); audio->rflush = 1; audio->wflush = 1; if (audio->drv_status & ADRV_STATUS_FSYNC) { pr_debug("%s[%p] Waking up the audio_aio_fsync\n", __func__, audio); wake_up(&audio->write_wait); } /* Flush DSP */ rc = audio_aio_flush(audio); /* Flush input / Output buffer in software*/ audio_aio_ioport_reset(audio); if (rc < 0) { pr_err("%s[%p]:AUDIO_FLUSH interrupted\n", __func__, audio); rc = -EINTR; } else { audio->rflush = 0; if (audio->drv_status & ADRV_STATUS_FSYNC) wake_up(&audio->write_wait); else audio->wflush = 0; } audio->eos_flag = 0; audio->eos_rsp = 0; mutex_unlock(&audio->lock); break; } case AUDIO_GET_SESSION_ID: { mutex_lock(&audio->lock); if (copy_to_user((void *)arg, &audio->ac->session, sizeof(u16))) { pr_err("%s: copy_to_user for AUDIO_GET_SESSION_ID failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_PM_AWAKE: { if ((audio->audio_ws_mgr == NULL) || (audio->miscdevice == NULL)) { pr_err("%s[%p]: invalid ws_mgr or miscdevice", __func__, audio); rc = -EACCES; break; } pr_debug("%s[%p]:AUDIO_PM_AWAKE\n", __func__, audio); mutex_lock(&audio->lock); if (!audio->wakelock_voted) { audio->wakelock_voted = true; mutex_lock(&audio->audio_ws_mgr->ws_lock); if (audio->audio_ws_mgr->ref_cnt++ == 0) pm_stay_awake(audio->miscdevice->this_device); mutex_unlock(&audio->audio_ws_mgr->ws_lock); } mutex_unlock(&audio->lock); break; } case AUDIO_PM_RELAX: { if ((audio->audio_ws_mgr == NULL) || (audio->miscdevice == NULL)) { pr_err("%s[%p]: invalid ws_mgr or miscdevice", __func__, audio); rc = -EACCES; break; } pr_debug("%s[%p]:AUDIO_PM_RELAX\n", __func__, audio); mutex_lock(&audio->lock); if (audio->wakelock_voted) { audio->wakelock_voted = false; mutex_lock(&audio->audio_ws_mgr->ws_lock); if ((audio->audio_ws_mgr->ref_cnt > 0) && (--audio->audio_ws_mgr->ref_cnt == 0)) { pm_relax(audio->miscdevice->this_device); } mutex_unlock(&audio->audio_ws_mgr->ws_lock); } mutex_unlock(&audio->lock); break; } default: pr_err("%s: Unknown ioctl cmd = %d", __func__, cmd); rc = -EINVAL; } return rc; } static long audio_aio_ioctl(struct file *file, unsigned int cmd, unsigned long arg) { struct q6audio_aio *audio = file->private_data; int rc = 0; switch (cmd) { case AUDIO_ABORT_GET_EVENT: case AUDIO_OUTPORT_FLUSH: case AUDIO_STOP: case AUDIO_PAUSE: case AUDIO_FLUSH: case AUDIO_GET_SESSION_ID: case AUDIO_PM_AWAKE: case AUDIO_PM_RELAX: rc = audio_aio_shared_ioctl(file, cmd, arg); break; case AUDIO_GET_STATS: { struct msm_audio_stats stats; uint64_t timestamp; memset(&stats, 0, sizeof(struct msm_audio_stats)); stats.byte_count = atomic_read(&audio->in_bytes); stats.sample_count = atomic_read(&audio->in_samples); rc = q6asm_get_session_time(audio->ac, ×tamp); if (rc >= 0) memcpy(&stats.unused[0], ×tamp, sizeof(timestamp)); else pr_debug("Error while getting timestamp\n"); if (copy_to_user((void *)arg, &stats, sizeof(stats))) { pr_err("%s: copy_frm_user for AUDIO_GET_STATS failed\n", __func__); rc = -EFAULT; } break; } case AUDIO_GET_EVENT: { pr_debug("%s[%p]:AUDIO_GET_EVENT\n", __func__, audio); if (mutex_trylock(&audio->get_event_lock)) { rc = audio_aio_process_event_req(audio, (void __user *)arg); mutex_unlock(&audio->get_event_lock); } else rc = -EBUSY; break; } case AUDIO_ASYNC_WRITE: { mutex_lock(&audio->write_lock); if (audio->drv_status & ADRV_STATUS_FSYNC) rc = -EBUSY; else { if (audio->enabled) rc = audio_aio_buf_add(audio, 1, (void __user *)arg); else rc = -EPERM; } mutex_unlock(&audio->write_lock); break; } case AUDIO_ASYNC_READ: { mutex_lock(&audio->read_lock); if (audio->feedback) rc = audio_aio_buf_add(audio, 0, (void __user *)arg); else rc = -EPERM; mutex_unlock(&audio->read_lock); break; } case AUDIO_GET_STREAM_CONFIG: { struct msm_audio_stream_config cfg; mutex_lock(&audio->lock); memset(&cfg, 0, sizeof(cfg)); cfg.buffer_size = audio->str_cfg.buffer_size; cfg.buffer_count = audio->str_cfg.buffer_count; pr_debug("%s[%p]:GET STREAM CFG %d %d\n", __func__, audio, cfg.buffer_size, cfg.buffer_count); if (copy_to_user((void *)arg, &cfg, sizeof(cfg))) { pr_err( "%s: copy_to_user for AUDIO_GET_STREAM_CONFIG failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_SET_STREAM_CONFIG: { struct msm_audio_stream_config cfg; pr_debug("%s[%p]:SET STREAM CONFIG\n", __func__, audio); mutex_lock(&audio->lock); if (copy_from_user(&cfg, (void *)arg, sizeof(cfg))) { pr_err( "%s: copy_from_user for AUDIO_SET_STREAM_CONFIG failed\n", __func__); rc = -EFAULT; mutex_unlock(&audio->lock); break; } audio->str_cfg.buffer_size = FRAME_SIZE; audio->str_cfg.buffer_count = FRAME_NUM; rc = 0; mutex_unlock(&audio->lock); break; } case AUDIO_GET_CONFIG: { struct msm_audio_config cfg; mutex_lock(&audio->lock); if (copy_to_user((void *)arg, &audio->pcm_cfg, sizeof(cfg))) { pr_err( "%s: copy_to_user for AUDIO_GET_CONFIG failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_SET_CONFIG: { struct msm_audio_config config; pr_err("%s[%p]:AUDIO_SET_CONFIG\n", __func__, audio); mutex_lock(&audio->lock); if (copy_from_user(&config, (void *)arg, sizeof(config))) { pr_err( "%s: copy_from_user for AUDIO_SET_CONFIG failed\n", __func__); rc = -EFAULT; mutex_unlock(&audio->lock); break; } if (audio->feedback != NON_TUNNEL_MODE) { pr_err("%s[%p]:Not sufficient permission to change the playback mode\n", __func__, audio); rc = -EACCES; mutex_unlock(&audio->lock); break; } if ((config.buffer_count > PCM_BUF_COUNT) || (config.buffer_count == 1)) config.buffer_count = PCM_BUF_COUNT; if (config.buffer_size < PCM_BUFSZ_MIN) config.buffer_size = PCM_BUFSZ_MIN; audio->pcm_cfg.buffer_count = config.buffer_count; audio->pcm_cfg.buffer_size = config.buffer_size; audio->pcm_cfg.channel_count = config.channel_count; audio->pcm_cfg.sample_rate = config.sample_rate; rc = 0; mutex_unlock(&audio->lock); break; } case AUDIO_SET_BUF_CFG: { struct msm_audio_buf_cfg cfg; mutex_lock(&audio->lock); if (copy_from_user(&cfg, (void *)arg, sizeof(cfg))) { pr_err( "%s: copy_from_user for AUDIO_GET_BUF CONFIG failed\n", __func__); rc = -EFAULT; mutex_unlock(&audio->lock); break; } if ((audio->feedback == NON_TUNNEL_MODE) && !cfg.meta_info_enable) { rc = -EFAULT; mutex_unlock(&audio->lock); break; } audio->buf_cfg.meta_info_enable = cfg.meta_info_enable; pr_debug("%s[%p]:session id %d: Set-buf-cfg: meta[%d]", __func__, audio, audio->ac->session, cfg.meta_info_enable); mutex_unlock(&audio->lock); break; } case AUDIO_GET_BUF_CFG: { pr_debug("%s[%p]:session id %d: Get-buf-cfg: meta[%d] framesperbuf[%d]\n", __func__, audio, audio->ac->session, audio->buf_cfg.meta_info_enable, audio->buf_cfg.frames_per_buf); mutex_lock(&audio->lock); if (copy_to_user((void *)arg, &audio->buf_cfg, sizeof(struct msm_audio_buf_cfg))) { pr_err( "%s: copy_to_user for AUDIO_GET_BUF_CONFIG failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_REGISTER_ION: { struct msm_audio_ion_info info; pr_debug("%s[%p]:AUDIO_REGISTER_ION\n", __func__, audio); mutex_lock(&audio->lock); if (copy_from_user(&info, (void *)arg, sizeof(info))) { pr_err( "%s: copy_from_user for AUDIO_REGISTER_ION failed\n", __func__); rc = -EFAULT; } else { rc = audio_aio_ion_add(audio, &info); } mutex_unlock(&audio->lock); break; } case AUDIO_DEREGISTER_ION: { struct msm_audio_ion_info info; mutex_lock(&audio->lock); pr_debug("%s[%p]:AUDIO_DEREGISTER_ION\n", __func__, audio); if (copy_from_user(&info, (void *)arg, sizeof(info))) { pr_err( "%s: copy_from_user for AUDIO_DEREGISTER_ION failed\n", __func__); rc = -EFAULT; } else { rc = audio_aio_ion_remove(audio, &info); } mutex_unlock(&audio->lock); break; } default: pr_err("%s: Unknown ioctl cmd = %d", __func__, cmd); rc = -EINVAL; } return rc; } #ifdef CONFIG_COMPAT struct msm_audio_stream_config32 { u32 buffer_size; u32 buffer_count; }; struct msm_audio_stats32 { u32 byte_count; u32 sample_count; u32 unused[2]; }; struct msm_audio_config32 { u32 buffer_size; u32 buffer_count; u32 channel_count; u32 sample_rate; u32 type; u32 meta_field; u32 bits; u32 unused[3]; }; struct msm_audio_buf_cfg32 { u32 meta_info_enable; u32 frames_per_buf; }; struct msm_audio_ion_info32 { int fd; compat_uptr_t vaddr; }; enum { AUDIO_GET_CONFIG_32 = _IOR(AUDIO_IOCTL_MAGIC, 3, struct msm_audio_config32), AUDIO_SET_CONFIG_32 = _IOW(AUDIO_IOCTL_MAGIC, 4, struct msm_audio_config32), AUDIO_GET_STATS_32 = _IOR(AUDIO_IOCTL_MAGIC, 5, struct msm_audio_stats32), AUDIO_GET_EVENT_32 = _IOR(AUDIO_IOCTL_MAGIC, 13, struct msm_audio_event32), AUDIO_ASYNC_WRITE_32 = _IOW(AUDIO_IOCTL_MAGIC, 17, struct msm_audio_aio_buf32), AUDIO_ASYNC_READ_32 = _IOW(AUDIO_IOCTL_MAGIC, 18, struct msm_audio_aio_buf32), AUDIO_SET_STREAM_CONFIG_32 = _IOW(AUDIO_IOCTL_MAGIC, 80, struct msm_audio_stream_config32), AUDIO_GET_STREAM_CONFIG_32 = _IOR(AUDIO_IOCTL_MAGIC, 81, struct msm_audio_stream_config32), AUDIO_GET_BUF_CFG_32 = _IOW(AUDIO_IOCTL_MAGIC, 93, struct msm_audio_buf_cfg32), AUDIO_SET_BUF_CFG_32 = _IOW(AUDIO_IOCTL_MAGIC, 94, struct msm_audio_buf_cfg32), AUDIO_REGISTER_ION_32 = _IOW(AUDIO_IOCTL_MAGIC, 97, struct msm_audio_ion_info32), AUDIO_DEREGISTER_ION_32 = _IOW(AUDIO_IOCTL_MAGIC, 98, struct msm_audio_ion_info32), }; static long audio_aio_compat_ioctl(struct file *file, unsigned int cmd, unsigned long arg) { struct q6audio_aio *audio = file->private_data; int rc = 0; switch (cmd) { case AUDIO_ABORT_GET_EVENT: case AUDIO_OUTPORT_FLUSH: case AUDIO_STOP: case AUDIO_PAUSE: case AUDIO_FLUSH: case AUDIO_GET_SESSION_ID: case AUDIO_PM_AWAKE: case AUDIO_PM_RELAX: rc = audio_aio_shared_ioctl(file, cmd, arg); break; case AUDIO_GET_STATS_32: { struct msm_audio_stats32 stats; uint64_t timestamp; memset(&stats, 0, sizeof(struct msm_audio_stats32)); stats.byte_count = atomic_read(&audio->in_bytes); stats.sample_count = atomic_read(&audio->in_samples); rc = q6asm_get_session_time(audio->ac, ×tamp); if (rc >= 0) memcpy(&stats.unused[0], ×tamp, sizeof(timestamp)); else pr_debug("Error while getting timestamp\n"); if (copy_to_user((void *)arg, &stats, sizeof(stats))) { pr_err( "%s: copy_to_user for AUDIO_GET_STATS_32 failed\n", __func__); rc = -EFAULT; } break; } case AUDIO_GET_EVENT_32: { pr_debug("%s[%p]:AUDIO_GET_EVENT\n", __func__, audio); if (mutex_trylock(&audio->get_event_lock)) { rc = audio_aio_process_event_req_compat(audio, (void __user *)arg); mutex_unlock(&audio->get_event_lock); } else rc = -EBUSY; break; } case AUDIO_ASYNC_WRITE_32: { mutex_lock(&audio->write_lock); if (audio->drv_status & ADRV_STATUS_FSYNC) rc = -EBUSY; else { if (audio->enabled) rc = audio_aio_buf_add_compat(audio, 1, (void __user *)arg); else rc = -EPERM; } mutex_unlock(&audio->write_lock); break; } case AUDIO_ASYNC_READ_32: { mutex_lock(&audio->read_lock); if (audio->feedback) rc = audio_aio_buf_add_compat(audio, 0, (void __user *)arg); else rc = -EPERM; mutex_unlock(&audio->read_lock); break; } case AUDIO_GET_STREAM_CONFIG_32: { struct msm_audio_stream_config32 cfg; mutex_lock(&audio->lock); memset(&cfg, 0, sizeof(cfg)); cfg.buffer_size = audio->str_cfg.buffer_size; cfg.buffer_count = audio->str_cfg.buffer_count; pr_debug("%s[%p]:GET STREAM CFG %d %d\n", __func__, audio, cfg.buffer_size, cfg.buffer_count); if (copy_to_user((void *)arg, &cfg, sizeof(cfg))) { pr_err("%s: copy_to_user for AUDIO_GET_STREAM_CONFIG_32 failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_SET_STREAM_CONFIG_32: { struct msm_audio_stream_config32 cfg_32; struct msm_audio_stream_config cfg; pr_debug("%s[%p]:SET STREAM CONFIG\n", __func__, audio); mutex_lock(&audio->lock); if (copy_from_user(&cfg_32, (void *)arg, sizeof(cfg_32))) { pr_err("%s: copy_from_user for AUDIO_SET_STREAM_CONFIG_32 failed\n", __func__); rc = -EFAULT; mutex_unlock(&audio->lock); break; } cfg.buffer_size = cfg_32.buffer_size; cfg.buffer_count = cfg_32.buffer_count; audio->str_cfg.buffer_size = FRAME_SIZE; audio->str_cfg.buffer_count = FRAME_NUM; rc = 0; mutex_unlock(&audio->lock); break; } case AUDIO_GET_CONFIG_32: { struct msm_audio_config32 cfg_32; mutex_lock(&audio->lock); cfg_32.buffer_size = audio->pcm_cfg.buffer_size; cfg_32.buffer_count = audio->pcm_cfg.buffer_count; cfg_32.channel_count = audio->pcm_cfg.channel_count; cfg_32.sample_rate = audio->pcm_cfg.sample_rate; cfg_32.type = audio->pcm_cfg.type; cfg_32.meta_field = audio->pcm_cfg.meta_field; cfg_32.bits = audio->pcm_cfg.bits; if (copy_to_user((void *)arg, &cfg_32, sizeof(cfg_32))) { pr_err("%s: copy_to_user for AUDIO_GET_CONFIG_32 failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_SET_CONFIG_32: { struct msm_audio_config config; struct msm_audio_config32 config_32; mutex_lock(&audio->lock); if (audio->feedback != NON_TUNNEL_MODE) { pr_err("%s[%p]:Not sufficient permission to change the playback mode\n", __func__, audio); rc = -EACCES; mutex_unlock(&audio->lock); break; } pr_err("%s[%p]:AUDIO_SET_CONFIG\n", __func__, audio); if (copy_from_user(&config_32, (void *)arg, sizeof(config_32))) { pr_err("%s: copy_from_user for AUDIO_SET_CONFIG_32 failed\n", __func__); rc = -EFAULT; mutex_unlock(&audio->lock); break; } config.buffer_size = config_32.buffer_size; config.buffer_count = config_32.buffer_count; config.channel_count = config_32.channel_count; config.sample_rate = config_32.sample_rate; config.type = config_32.type; config.meta_field = config_32.meta_field; config.bits = config_32.bits; if ((config.buffer_count > PCM_BUF_COUNT) || (config.buffer_count == 1)) config.buffer_count = PCM_BUF_COUNT; if (config.buffer_size < PCM_BUFSZ_MIN) config.buffer_size = PCM_BUFSZ_MIN; audio->pcm_cfg.buffer_count = config.buffer_count; audio->pcm_cfg.buffer_size = config.buffer_size; audio->pcm_cfg.channel_count = config.channel_count; audio->pcm_cfg.sample_rate = config.sample_rate; rc = 0; mutex_unlock(&audio->lock); break; } case AUDIO_SET_BUF_CFG_32: { struct msm_audio_buf_cfg cfg; struct msm_audio_buf_cfg32 cfg_32; mutex_lock(&audio->lock); if (copy_from_user(&cfg_32, (void *)arg, sizeof(cfg_32))) { pr_err("%s: copy_from_user for AUDIO_SET_CONFIG_32 failed\n", __func__); rc = -EFAULT; mutex_unlock(&audio->lock); break; } cfg.meta_info_enable = cfg_32.meta_info_enable; cfg.frames_per_buf = cfg_32.frames_per_buf; if ((audio->feedback == NON_TUNNEL_MODE) && !cfg.meta_info_enable) { rc = -EFAULT; mutex_unlock(&audio->lock); break; } audio->buf_cfg.meta_info_enable = cfg.meta_info_enable; pr_debug("%s[%p]:session id %d: Set-buf-cfg: meta[%d]", __func__, audio, audio->ac->session, cfg.meta_info_enable); mutex_unlock(&audio->lock); break; } case AUDIO_GET_BUF_CFG_32: { struct msm_audio_buf_cfg32 cfg_32; pr_debug("%s[%p]:session id %d: Get-buf-cfg: meta[%d] framesperbuf[%d]\n", __func__, audio, audio->ac->session, audio->buf_cfg.meta_info_enable, audio->buf_cfg.frames_per_buf); mutex_lock(&audio->lock); cfg_32.meta_info_enable = audio->buf_cfg.meta_info_enable; cfg_32.frames_per_buf = audio->buf_cfg.frames_per_buf; if (copy_to_user((void *)arg, &cfg_32, sizeof(struct msm_audio_buf_cfg32))) { pr_err("%s: copy_to_user for AUDIO_GET_BUF_CFG_32 failed\n", __func__); rc = -EFAULT; } mutex_unlock(&audio->lock); break; } case AUDIO_REGISTER_ION_32: { struct msm_audio_ion_info32 info_32; struct msm_audio_ion_info info; pr_debug("%s[%p]:AUDIO_REGISTER_ION\n", __func__, audio); mutex_lock(&audio->lock); if (copy_from_user(&info_32, (void *)arg, sizeof(info_32))) { pr_err("%s: copy_from_user for AUDIO_REGISTER_ION_32 failed\n", __func__); rc = -EFAULT; } else { info.fd = info_32.fd; info.vaddr = compat_ptr(info_32.vaddr); rc = audio_aio_ion_add(audio, &info); } mutex_unlock(&audio->lock); break; } case AUDIO_DEREGISTER_ION_32: { struct msm_audio_ion_info32 info_32; struct msm_audio_ion_info info; mutex_lock(&audio->lock); pr_debug("%s[%p]:AUDIO_DEREGISTER_ION\n", __func__, audio); if (copy_from_user(&info_32, (void *)arg, sizeof(info_32))) { pr_err("%s: copy_from_user for AUDIO_DEREGISTER_ION_32 failed\n", __func__); rc = -EFAULT; } else { info.fd = info_32.fd; info.vaddr = compat_ptr(info_32.vaddr); rc = audio_aio_ion_remove(audio, &info); } mutex_unlock(&audio->lock); break; } default: pr_err("%s: Unknown ioctl cmd = %d", __func__, cmd); rc = -EINVAL; } return rc; } #endif