Message ID | 20231014074716.1866266-1-arkadiusz.bokowy@gmail.com (mailing list archive) |
---|---|
State | New, archived |
Headers | show |
Series | [BlueZ] btdev: Broadcast EXT_ADV packets every 200 ms | expand |
Context | Check | Description |
---|---|---|
tedd_an/pre-ci_am | success | Success |
tedd_an/CheckPatch | warning | WARNING:LINE_SPACING: Missing a blank line after declarations #192: FILE: emulator/btdev.c:5068: + unsigned int duration_ms = eas->duration * 10; + ext_adv->timeout_id = timeout_add(duration_ms, /github/workspace/src/src/13421935.patch total: 0 errors, 1 warnings, 165 lines checked NOTE: For some of the reported defects, checkpatch may be able to mechanically convert to the typical style using --fix or --fix-inplace. /github/workspace/src/src/13421935.patch has style problems, please review. NOTE: Ignored message types: COMMIT_MESSAGE COMPLEX_MACRO CONST_STRUCT FILE_PATH_CHANGES MISSING_SIGN_OFF PREFER_PACKED SPDX_LICENSE_TAG SPLIT_STRING SSCANF_TO_KSTRTO NOTE: If any of the errors are false positives, please report them to the maintainer, see CHECKPATCH in MAINTAINERS. |
tedd_an/GitLint | success | Gitlint PASS |
tedd_an/BuildEll | success | Build ELL PASS |
tedd_an/BluezMake | success | Bluez Make PASS |
tedd_an/MakeCheck | success | Bluez Make Check PASS |
tedd_an/MakeDistcheck | success | Make Distcheck PASS |
tedd_an/CheckValgrind | success | Check Valgrind PASS |
tedd_an/CheckSmatch | warning | CheckSparse WARNING emulator/btdev.c:421:29: warning: Variable length array is used. |
tedd_an/bluezmakeextell | success | Make External ELL PASS |
tedd_an/IncrementalBuild | success | Incremental Build PASS |
tedd_an/ScanBuild | warning | ScanBuild: emulator/btdev.c:1086:10: warning: Although the value stored to 'conn' is used in the enclosing expression, the value is never actually read from 'conn' while ((conn = queue_find(dev->conns, match_handle, ^ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ emulator/btdev.c:1337:24: warning: Access to field 'link' results in a dereference of a null pointer (loaded from variable 'conn') pending_conn_del(dev, conn->link->dev); ^~~~~~~~~~ emulator/btdev.c:1459:13: warning: Access to field 'dev' results in a dereference of a null pointer (loaded from variable 'conn') send_event(conn->dev, BT_HCI_EVT_AUTH_COMPLETE, &ev, sizeof(ev)); ^~~~~~~~~ 3 warnings generated. |
Dear Arkadiusz, Thank you for your patch. Am 14.10.23 um 09:47 schrieb Arkadiusz Bokowy: > Real BLE devices transmit LE advertisement report packages in given > intervals (typically in range between 20 ms and 10.24 s). With current > kernel module Bluetooth stack implementation it is possible that the > first LE meta packet just after enabling scanning will be lost. It is > not an issue for real devices, because more advertisement reports will > be delivered later (in given interval time). > > This patch changes optimistic implementation of sending only one LE > meta packets just after enabling scanning to sending LE meta packets > in 200 ms intervals. Such behavior will better emulate real HCI and > will workaround the issue of dropping the very first LE meta packet (The verb *work around* is spelled with a space.) > by the kernel. Could you please describe your test setup? I guess you optimized the 200 ms for your setup, and that is the reason you did not choose an even lower value like 100 ms? > --- > emulator/btdev.c | 102 +++++++++++++++++------------------------------ > 1 file changed, 36 insertions(+), 66 deletions(-) > > diff --git a/emulator/btdev.c b/emulator/btdev.c > index 65ad0a40c..3840c6150 100644 > --- a/emulator/btdev.c > +++ b/emulator/btdev.c > @@ -100,7 +100,8 @@ struct le_ext_adv { > uint8_t adv_data_len; > uint8_t scan_data[252]; > uint8_t scan_data_len; > - unsigned int id; > + unsigned int broadcast_id; > + unsigned int timeout_id; > }; > > struct le_cig { > @@ -547,8 +548,10 @@ static void le_ext_adv_free(void *data) > /* Remove to queue */ > queue_remove(ext_adv->dev->le_ext_adv, ext_adv); > > - if (ext_adv->id) > - timeout_remove(ext_adv->id); > + if (ext_adv->broadcast_id) > + timeout_remove(ext_adv->broadcast_id); > + if (ext_adv->timeout_id) > + timeout_remove(ext_adv->timeout_id); > > free(ext_adv); > } > @@ -4682,9 +4685,13 @@ static void ext_adv_disable(void *data, void *user_data) > if (handle && ext_adv->handle != handle) > return; > > - if (ext_adv->id) { > - timeout_remove(ext_adv->id); > - ext_adv->id = 0; > + if (ext_adv->broadcast_id) { > + timeout_remove(ext_adv->broadcast_id); > + ext_adv->broadcast_id = 0; > + } > + if (ext_adv->timeout_id) { > + timeout_remove(ext_adv->timeout_id); > + ext_adv->timeout_id = 0; > } > > ext_adv->enable = 0x00; > @@ -4901,9 +4908,10 @@ static void send_ext_adv(struct btdev *btdev, const struct btdev *remote, > 1 + 24 + meta_event.lear.data_len); > } > > -static void le_set_ext_adv_enable_complete(struct btdev *btdev, > - struct le_ext_adv *ext_adv) > +static bool ext_adv_broadcast(void *user_data) > { > + struct le_ext_adv *ext_adv = user_data; > + struct btdev *btdev = ext_adv->dev; Are these used? Why rename the function? > uint16_t report_type; > int i; > > @@ -4939,7 +4947,10 @@ static void le_set_ext_adv_enable_complete(struct btdev *btdev, > report_type, true); > } > } > + > + return true; > } > + > static void adv_set_terminate(struct btdev *dev, uint8_t status, uint8_t handle, > uint16_t conn_handle, uint8_t num_evts) > { > @@ -4958,7 +4969,7 @@ static bool ext_adv_timeout(void *user_data) > { > struct le_ext_adv *adv = user_data; > > - adv->id = 0; > + adv->timeout_id = 0; > adv_set_terminate(adv->dev, BT_HCI_ERR_ADV_TIMEOUT, adv->handle, > 0x0000, 0x00); > le_ext_adv_free(adv); > @@ -5043,32 +5054,29 @@ static int cmd_set_ext_adv_enable(struct btdev *dev, const void *data, > > if (!cmd->enable) > ext_adv_disable(ext_adv, NULL); > - else if (eas->duration) > - ext_adv->id = timeout_add(eas->duration * 10, > - ext_adv_timeout, > + else { > + /* BLE advertising interval shall be between 20 ms > + * and 10.24 s in 0.625 ms steps. Most devices which > + * require fast advertising use interval between an interval > + * 100 ms and 500 ms. > + */ > + ext_adv->broadcast_id = timeout_add(200 /* 200 ms */, > + ext_adv_broadcast, > ext_adv, NULL); > + if (eas->duration) { > + unsigned int duration_ms = eas->duration * 10; > + ext_adv->timeout_id = timeout_add(duration_ms, > + ext_adv_timeout, > + ext_adv, NULL); > + } > + } > + > } > > exit_complete: > cmd_complete(dev, BT_HCI_CMD_LE_SET_EXT_ADV_ENABLE, &status, > sizeof(status)); > > - if (status == BT_HCI_ERR_SUCCESS && cmd->enable) { > - /* Go through each sets and send adv event to peer device */ > - for (i = 0; i < cmd->num_of_sets; i++) { > - const struct bt_hci_cmd_ext_adv_set *eas; > - struct le_ext_adv *ext_adv; > - > - eas = data + sizeof(*cmd) + (sizeof(*eas) * i); > - > - ext_adv = queue_find(dev->le_ext_adv, > - match_ext_adv_handle, > - UINT_TO_PTR(eas->handle)); > - if (ext_adv) > - le_set_ext_adv_enable_complete(dev, ext_adv); > - } > - } > - > return 0; > } > > @@ -5378,43 +5386,6 @@ done: > return 0; > } > > -static void scan_ext_adv(struct btdev *dev, struct btdev *remote) > -{ > - const struct queue_entry *entry; > - > - for (entry = queue_get_entries(remote->le_ext_adv); entry; > - entry = entry->next) { > - struct le_ext_adv *ext_adv = entry->data; > - uint16_t report_type; > - > - if (!ext_adv->enable) > - continue; > - > - if (!ext_adv_match_addr(dev, ext_adv)) > - continue; > - > - report_type = get_ext_adv_type(ext_adv->type); > - send_ext_adv(dev, remote, ext_adv, report_type, false); > - > - if (dev->le_scan_type != 0x01) > - continue; > - > - /* if scannable bit is set the send scan response */ > - if (ext_adv->type & 0x02) { > - if (ext_adv->type == 0x13) > - report_type = 0x1b; > - else if (ext_adv->type == 0x12) > - report_type = 0x1a; > - else if (!(ext_adv->type & 0x10)) > - report_type &= 0x08; > - else > - continue; > - > - send_ext_adv(dev, remote, ext_adv, report_type, true); > - } > - } > -} > - > static void scan_pa(struct btdev *dev, struct btdev *remote) > { > if (dev->le_pa_sync_handle != INV_HANDLE || !remote->le_pa_enable) > @@ -5440,7 +5411,6 @@ static int cmd_set_ext_scan_enable_complete(struct btdev *dev, const void *data, > if (!btdev_list[i] || btdev_list[i] == dev) > continue; > > - scan_ext_adv(dev, btdev_list[i]); > scan_pa(dev, btdev_list[i]); > } Excuse my ignorance, but the remove code is really not necessary anymore? Kind regards, Paul
This is automated email and please do not reply to this email! Dear submitter, Thank you for submitting the patches to the linux bluetooth mailing list. This is a CI test results with your patch series: PW Link:https://patchwork.kernel.org/project/bluetooth/list/?series=793193 ---Test result--- Test Summary: CheckPatch FAIL 0.65 seconds GitLint PASS 0.28 seconds BuildEll PASS 28.00 seconds BluezMake PASS 811.79 seconds MakeCheck PASS 11.86 seconds MakeDistcheck PASS 175.90 seconds CheckValgrind PASS 270.00 seconds CheckSmatch WARNING 363.05 seconds bluezmakeextell PASS 116.87 seconds IncrementalBuild PASS 706.09 seconds ScanBuild WARNING 1076.17 seconds Details ############################## Test: CheckPatch - FAIL Desc: Run checkpatch.pl script Output: [BlueZ] btdev: Broadcast EXT_ADV packets every 200 ms WARNING:LINE_SPACING: Missing a blank line after declarations #192: FILE: emulator/btdev.c:5068: + unsigned int duration_ms = eas->duration * 10; + ext_adv->timeout_id = timeout_add(duration_ms, /github/workspace/src/src/13421935.patch total: 0 errors, 1 warnings, 165 lines checked NOTE: For some of the reported defects, checkpatch may be able to mechanically convert to the typical style using --fix or --fix-inplace. /github/workspace/src/src/13421935.patch has style problems, please review. NOTE: Ignored message types: COMMIT_MESSAGE COMPLEX_MACRO CONST_STRUCT FILE_PATH_CHANGES MISSING_SIGN_OFF PREFER_PACKED SPDX_LICENSE_TAG SPLIT_STRING SSCANF_TO_KSTRTO NOTE: If any of the errors are false positives, please report them to the maintainer, see CHECKPATCH in MAINTAINERS. ############################## Test: CheckSmatch - WARNING Desc: Run smatch tool with source Output: emulator/btdev.c:421:29: warning: Variable length array is used. ############################## Test: ScanBuild - WARNING Desc: Run Scan Build Output: emulator/btdev.c:1086:10: warning: Although the value stored to 'conn' is used in the enclosing expression, the value is never actually read from 'conn' while ((conn = queue_find(dev->conns, match_handle, ^ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ emulator/btdev.c:1337:24: warning: Access to field 'link' results in a dereference of a null pointer (loaded from variable 'conn') pending_conn_del(dev, conn->link->dev); ^~~~~~~~~~ emulator/btdev.c:1459:13: warning: Access to field 'dev' results in a dereference of a null pointer (loaded from variable 'conn') send_event(conn->dev, BT_HCI_EVT_AUTH_COMPLETE, &ev, sizeof(ev)); ^~~~~~~~~ 3 warnings generated. --- Regards, Linux Bluetooth
Hi Paul, > > Real BLE devices transmit LE advertisement report packages in given > > intervals (typically in range between 20 ms and 10.24 s). With current > > kernel module Bluetooth stack implementation it is possible that the > > first LE meta packet just after enabling scanning will be lost. It is > > not an issue for real devices, because more advertisement reports will > > be delivered later (in given interval time). > > > > This patch changes optimistic implementation of sending only one LE > > meta packets just after enabling scanning to sending LE meta packets > > in 200 ms intervals. Such behavior will better emulate real HCI and > > will workaround the issue of dropping the very first LE meta packet > > by the kernel. > > Could you please describe your test setup? I guess you optimized the 200 > ms for your setup, and that is the reason you did not choose an even > lower value like 100 ms? No, it's not an optimization for my particular setup, but more generally for CPU load. I thought that it might be better not to run advertisement code too frequently. But I guess that lower values should also be OK, e.g. 100 ms or 50 ms. There is one "issue" with that, though.... Now, the advertisement packet will be sent one interval after the advertisement was enabled. If that's indeed an issue, it can be fixed by calling the callback function in the moment when the timer is armed. > > -static void le_set_ext_adv_enable_complete(struct btdev *btdev, > > - struct le_ext_adv *ext_adv) > > +static bool ext_adv_broadcast(void *user_data) > > { > > + struct le_ext_adv *ext_adv = user_data; > > + struct btdev *btdev = ext_adv->dev; > > Are these used? > > Why rename the function? In the previous implementation, the le_set_ext_adv_enable_complete() function was called after advertisement was enabled in order to send LE meta packages to devices which have enabled scanning. But this code was run only once. I thought that we can reuse this logic to send LE meta packages every interval time. That's why I've renamed this function, so the name will be more descriptive (it's not enable complete callback anymore). And in order to provide compatibility with new sygnature, I've added ext_adv and btdev variables. > > static void scan_pa(struct btdev *dev, struct btdev *remote) > > { > > if (dev->le_pa_sync_handle != INV_HANDLE || !remote->le_pa_enable) > > @@ -5440,7 +5411,6 @@ static int cmd_set_ext_scan_enable_complete(struct btdev *dev, const void *data, > > if (!btdev_list[i] || btdev_list[i] == dev) > > continue; > > > > - scan_ext_adv(dev, btdev_list[i]); > > scan_pa(dev, btdev_list[i]); > > } > > Excuse my ignorance, but the remove code is really not necessary anymore? Maybe I will briefly describe the previous implementation. There are two possible cases for sending and receiving advertisements: a) device A (B, C, ...) enables advertisement and then device Z enables scanning; b) device Z enables scanning and then other devices enable advertisement. So, in previous implementation, the LE meta packets have been sent to devices with enabled scanning from devices which have enabled advertisement either when the scan was enabled (in device Z) or when the advertisement was enabled (in device A, B, C ...). The removed code corresponds to the case of enabling scanning. It's not required any more, because now advertising is governed by the devices A, B, C by running advertisement logic every interval time (in the original patch, every 200 ms, but that can be changed to lover values). To be honest I'm not sure what about scan_pa(). Maybe that logic should also be moved to some timer callback and should be governed by the A, C, B, ... devices? I would have to read more about sync in the BLE spec. Regards, Arek
Hi Arkadiusz, On Sat, Oct 14, 2023 at 11:58 AM Arkadiusz Bokowy <arkadiusz.bokowy@gmail.com> wrote: > > Hi Paul, > > > > Real BLE devices transmit LE advertisement report packages in given > > > intervals (typically in range between 20 ms and 10.24 s). With current > > > kernel module Bluetooth stack implementation it is possible that the > > > first LE meta packet just after enabling scanning will be lost. It is > > > not an issue for real devices, because more advertisement reports will > > > be delivered later (in given interval time). > > > > > > This patch changes optimistic implementation of sending only one LE > > > meta packets just after enabling scanning to sending LE meta packets > > > in 200 ms intervals. Such behavior will better emulate real HCI and > > > will workaround the issue of dropping the very first LE meta packet > > > by the kernel. > > > > Could you please describe your test setup? I guess you optimized the 200 > > ms for your setup, and that is the reason you did not choose an even > > lower value like 100 ms? > > No, it's not an optimization for my particular setup, but more > generally for CPU load. I thought that it might be better not to run > advertisement code too frequently. But I guess that lower values > should also be OK, e.g. 100 ms or 50 ms. There is one "issue" with > that, though.... Now, the advertisement packet will be sent one > interval after the advertisement was enabled. If that's indeed an > issue, it can be fixed by calling the callback function in the moment > when the timer is armed. I'd keep the initial logic of sending the advertisement immediately since the likes of mgmt-tester, and other testers, do have a number of tests that connect so adding a delay can probably cause us to spend more time waiting. > > > -static void le_set_ext_adv_enable_complete(struct btdev *btdev, > > > - struct le_ext_adv *ext_adv) > > > +static bool ext_adv_broadcast(void *user_data) > > > { > > > + struct le_ext_adv *ext_adv = user_data; > > > + struct btdev *btdev = ext_adv->dev; > > > > Are these used? > > > > Why rename the function? > > In the previous implementation, the le_set_ext_adv_enable_complete() > function was called after advertisement was enabled in order to send > LE meta packages to devices which have enabled scanning. But this code > was run only once. I thought that we can reuse this logic to send LE > meta packages every interval time. That's why I've renamed this > function, so the name will be more descriptive (it's not enable > complete callback anymore). And in order to provide compatibility with > new sygnature, I've added ext_adv and btdev variables. > > > > static void scan_pa(struct btdev *dev, struct btdev *remote) > > > { > > > if (dev->le_pa_sync_handle != INV_HANDLE || !remote->le_pa_enable) > > > @@ -5440,7 +5411,6 @@ static int cmd_set_ext_scan_enable_complete(struct btdev *dev, const void *data, > > > if (!btdev_list[i] || btdev_list[i] == dev) > > > continue; > > > > > > - scan_ext_adv(dev, btdev_list[i]); > > > scan_pa(dev, btdev_list[i]); > > > } > > > > Excuse my ignorance, but the remove code is really not necessary anymore? > > Maybe I will briefly describe the previous implementation. There are > two possible cases for sending and receiving advertisements: a) device > A (B, C, ...) enables advertisement and then device Z enables > scanning; b) device Z enables scanning and then other devices enable > advertisement. So, in previous implementation, the LE meta packets > have been sent to devices with enabled scanning from devices which > have enabled advertisement either when the scan was enabled (in device > Z) or when the advertisement was enabled (in device A, B, C ...). The > removed code corresponds to the case of enabling scanning. It's not > required any more, because now advertising is governed by the devices > A, B, C by running advertisement logic every interval time (in the > original patch, every 200 ms, but that can be changed to lover > values). > > To be honest I'm not sure what about scan_pa(). Maybe that logic > should also be moved to some timer callback and should be governed by > the A, C, B, ... devices? I would have to read more about sync in the > BLE spec. Btw, make sure you run the testers to confirm you are not breaking any kernel testers.
diff --git a/emulator/btdev.c b/emulator/btdev.c index 65ad0a40c..3840c6150 100644 --- a/emulator/btdev.c +++ b/emulator/btdev.c @@ -100,7 +100,8 @@ struct le_ext_adv { uint8_t adv_data_len; uint8_t scan_data[252]; uint8_t scan_data_len; - unsigned int id; + unsigned int broadcast_id; + unsigned int timeout_id; }; struct le_cig { @@ -547,8 +548,10 @@ static void le_ext_adv_free(void *data) /* Remove to queue */ queue_remove(ext_adv->dev->le_ext_adv, ext_adv); - if (ext_adv->id) - timeout_remove(ext_adv->id); + if (ext_adv->broadcast_id) + timeout_remove(ext_adv->broadcast_id); + if (ext_adv->timeout_id) + timeout_remove(ext_adv->timeout_id); free(ext_adv); } @@ -4682,9 +4685,13 @@ static void ext_adv_disable(void *data, void *user_data) if (handle && ext_adv->handle != handle) return; - if (ext_adv->id) { - timeout_remove(ext_adv->id); - ext_adv->id = 0; + if (ext_adv->broadcast_id) { + timeout_remove(ext_adv->broadcast_id); + ext_adv->broadcast_id = 0; + } + if (ext_adv->timeout_id) { + timeout_remove(ext_adv->timeout_id); + ext_adv->timeout_id = 0; } ext_adv->enable = 0x00; @@ -4901,9 +4908,10 @@ static void send_ext_adv(struct btdev *btdev, const struct btdev *remote, 1 + 24 + meta_event.lear.data_len); } -static void le_set_ext_adv_enable_complete(struct btdev *btdev, - struct le_ext_adv *ext_adv) +static bool ext_adv_broadcast(void *user_data) { + struct le_ext_adv *ext_adv = user_data; + struct btdev *btdev = ext_adv->dev; uint16_t report_type; int i; @@ -4939,7 +4947,10 @@ static void le_set_ext_adv_enable_complete(struct btdev *btdev, report_type, true); } } + + return true; } + static void adv_set_terminate(struct btdev *dev, uint8_t status, uint8_t handle, uint16_t conn_handle, uint8_t num_evts) { @@ -4958,7 +4969,7 @@ static bool ext_adv_timeout(void *user_data) { struct le_ext_adv *adv = user_data; - adv->id = 0; + adv->timeout_id = 0; adv_set_terminate(adv->dev, BT_HCI_ERR_ADV_TIMEOUT, adv->handle, 0x0000, 0x00); le_ext_adv_free(adv); @@ -5043,32 +5054,29 @@ static int cmd_set_ext_adv_enable(struct btdev *dev, const void *data, if (!cmd->enable) ext_adv_disable(ext_adv, NULL); - else if (eas->duration) - ext_adv->id = timeout_add(eas->duration * 10, - ext_adv_timeout, + else { + /* BLE advertising interval shall be between 20 ms + * and 10.24 s in 0.625 ms steps. Most devices which + * require fast advertising use interval between + * 100 ms and 500 ms. + */ + ext_adv->broadcast_id = timeout_add(200 /* 200 ms */, + ext_adv_broadcast, ext_adv, NULL); + if (eas->duration) { + unsigned int duration_ms = eas->duration * 10; + ext_adv->timeout_id = timeout_add(duration_ms, + ext_adv_timeout, + ext_adv, NULL); + } + } + } exit_complete: cmd_complete(dev, BT_HCI_CMD_LE_SET_EXT_ADV_ENABLE, &status, sizeof(status)); - if (status == BT_HCI_ERR_SUCCESS && cmd->enable) { - /* Go through each sets and send adv event to peer device */ - for (i = 0; i < cmd->num_of_sets; i++) { - const struct bt_hci_cmd_ext_adv_set *eas; - struct le_ext_adv *ext_adv; - - eas = data + sizeof(*cmd) + (sizeof(*eas) * i); - - ext_adv = queue_find(dev->le_ext_adv, - match_ext_adv_handle, - UINT_TO_PTR(eas->handle)); - if (ext_adv) - le_set_ext_adv_enable_complete(dev, ext_adv); - } - } - return 0; } @@ -5378,43 +5386,6 @@ done: return 0; } -static void scan_ext_adv(struct btdev *dev, struct btdev *remote) -{ - const struct queue_entry *entry; - - for (entry = queue_get_entries(remote->le_ext_adv); entry; - entry = entry->next) { - struct le_ext_adv *ext_adv = entry->data; - uint16_t report_type; - - if (!ext_adv->enable) - continue; - - if (!ext_adv_match_addr(dev, ext_adv)) - continue; - - report_type = get_ext_adv_type(ext_adv->type); - send_ext_adv(dev, remote, ext_adv, report_type, false); - - if (dev->le_scan_type != 0x01) - continue; - - /* if scannable bit is set the send scan response */ - if (ext_adv->type & 0x02) { - if (ext_adv->type == 0x13) - report_type = 0x1b; - else if (ext_adv->type == 0x12) - report_type = 0x1a; - else if (!(ext_adv->type & 0x10)) - report_type &= 0x08; - else - continue; - - send_ext_adv(dev, remote, ext_adv, report_type, true); - } - } -} - static void scan_pa(struct btdev *dev, struct btdev *remote) { if (dev->le_pa_sync_handle != INV_HANDLE || !remote->le_pa_enable) @@ -5440,7 +5411,6 @@ static int cmd_set_ext_scan_enable_complete(struct btdev *dev, const void *data, if (!btdev_list[i] || btdev_list[i] == dev) continue; - scan_ext_adv(dev, btdev_list[i]); scan_pa(dev, btdev_list[i]); }