Message ID | 20210719145317.79692-5-stephan@gerhold.net (mailing list archive) |
---|---|
State | RFC |
Delegated to: | Netdev Maintainers |
Headers | show |
Series | net: wwan: Add Qualcomm BAM-DMUX WWAN network driver | expand |
Context | Check | Description |
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netdev/cover_letter | success | Link |
netdev/fixes_present | success | Link |
netdev/patch_count | success | Link |
netdev/tree_selection | success | Clearly marked for net-next |
netdev/subject_prefix | success | Link |
netdev/cc_maintainers | success | CCed 9 of 9 maintainers |
netdev/source_inline | success | Was 0 now: 0 |
netdev/verify_signedoff | success | Link |
netdev/module_param | success | Was 0 now: 0 |
netdev/build_32bit | success | Errors and warnings before: 0 this patch: 0 |
netdev/kdoc | success | Errors and warnings before: 0 this patch: 0 |
netdev/verify_fixes | success | Link |
netdev/checkpatch | warning | WARNING: line length of 81 exceeds 80 columns WARNING: line length of 82 exceeds 80 columns WARNING: line length of 83 exceeds 80 columns WARNING: line length of 84 exceeds 80 columns WARNING: line length of 88 exceeds 80 columns WARNING: line length of 90 exceeds 80 columns |
netdev/build_allmodconfig_warn | success | Errors and warnings before: 0 this patch: 0 |
netdev/header_inline | success | Link |
Hi Stephan, On Mon, 19 Jul 2021 at 17:01, Stephan Gerhold <stephan@gerhold.net> wrote: > > I'm not sure how to integrate the driver with the WWAN subsystem yet. > At the moment the driver creates network interfaces for all channels > announced by the modem, it does not make use of the WWAN link management > yet. Unfortunately, this is a bit complicated: > > Both QMAP and the built-in multiplexing layer might be needed at some point. > There are firmware versions that do not support QMAP and the other way around > (the built-in multiplexing was disabled on very recent firmware versions). > Only userspace can check if QMAP is supported in the firmware (via QMI). > > I could ignore QMAP completely for now but I think someone will show up > who will need this eventually. And if there is going to be common code for > QMAP/rmnet link management it would be nice if BAM-DMUX could also make > use of it. I have this on my TODO list for mhi-net QMAP. > But the question is, how could this look like? How do we know if we should > create a link for QMAP or a BAM-DMUX channel? Does it even make sense > to manage the 1-8 channels via the WWAN link management? Couldn't it be specified via dts (property or different compatible string)? would it make sense to have two drivers (with common core) to manage either the multi-bam channel or newer QMAP based single bam-channel modems. > > Another problem is that the WWAN subsystem currently creates all network > interfaces below the common WWAN device. This means that userspace like > ModemManager has no way to check which driver provides them. This is > necessary though to decide how to set it up via QMI (ModemManager uses it). Well, I have quite a similar concern since I'm currently porting mhi-net mbim to wwan framework, and I was thinking about not making wwan device parent of the network link/netdev (in the same way as wlan0 is not child of ieee80211 device), but not sure if it's a good idea or not since we can not really consider driver name part of the uapi. The way links are created is normally abstracted, so if you know which bam variant you have from wwan network driver side (e.g. via dts), you should have nothing to check on the user side, except the session id. Regards, Loic
Hello Stephan, On Mon, Jul 19, 2021 at 6:01 PM Stephan Gerhold <stephan@gerhold.net> wrote: > The BAM Data Multiplexer provides access to the network data channels of > modems integrated into many older Qualcomm SoCs, e.g. Qualcomm MSM8916 or > MSM8974. It is built using a simple protocol layer on top of a DMA engine > (Qualcomm BAM) and bidirectional interrupts to coordinate power control. > > The modem announces a fixed set of channels by sending an OPEN command. > The driver exports each channel as separate network interface so that > a connection can be established via QMI from userspace. The network > interface can work either in Ethernet or Raw-IP mode (configurable via > QMI). However, Ethernet mode seems to be broken with most firmwares > (network packets are actually received as Raw-IP), therefore the driver > only supports Raw-IP mode. > > The driver uses runtime PM to coordinate power control with the modem. > TX/RX buffers are put in a kind of "ring queue" and submitted via > the bam_dma driver of the DMAEngine subsystem. > > The basic architecture looks roughly like this: > > +------------+ +-------+ > [IPv4/6] | BAM-DMUX | | | > [Data...] | | | | > ---------->|rmnet0 | [DMUX chan: x] | | > [IPv4/6] | (chan: 0) | [IPv4/6] | | > [Data...] | | [Data...] | | > ---------->|rmnet1 |--------------->| Modem | > | (chan: 1) | BAM | | > [IPv4/6] | ... | (DMA Engine) | | > [Data...] | | | | > ---------->|rmnet7 | | | > | (chan: 7) | | | > +------------+ +-------+ > > However, on newer SoCs/firmware versions Qualcomm began gradually moving > to QMAP (rmnet driver) as backend-independent protocol for multiplexing > and data aggegration. Some firmware versions allow using QMAP on top of > BAM-DMUX (effectively resulting in a second multiplexing layer plus data > aggregation). The architecture with QMAP would look roughly like this: > > +-------------+ +------------+ +-------+ > [IPv4/6] | RMNET | | BAM-DMUX | | | > [Data...] | | | | [DMUX chan: 0] | | > ---------->|rmnet_data1 | ----->|rmnet0 | [QMAP mux-id: x] | | > | (mux-id: 1) | | | (chan: 0) | [IPv4/6] | | > | | | | | [Data...] | | > [IPv4/6] | ... |------ | |----------------->| Modem | > [Data...] | | | | BAM | | > ---------->|rmnet_data42 | [QMAP: x] |[rmnet1] | (DMA Engine) | | > | (mux-id: 42)| [IPv4/6] |... unused! | | | > | | [Data...] |[rmnet7] | | | > | | | | | | > +-------------+ +------------+ +-------+ > > In this case, rmnet1-7 would remain unused. The firmware used on the most > recent SoCs with BAM-DMUX even seems to announce only a single BAM-DMUX > channel (rmnet0), which makes QMAP the only option for multiplexing there. > > So far the driver is mainly tested on various smartphones/tablets based on > Qualcomm MSM8916/MSM8974 without QMAP. It looks like QMAP depends on a MTU > negotiation feature in BAM-DMUX which is not yet supported by the driver. > > Signed-off-by: Stephan Gerhold <stephan@gerhold.net> > --- > Note that this is my first network driver, so I apologize in advance > if I made some obvious mistakes. :) > > I'm not sure how to integrate the driver with the WWAN subsystem yet. > At the moment the driver creates network interfaces for all channels > announced by the modem, it does not make use of the WWAN link management > yet. Unfortunately, this is a bit complicated: > > Both QMAP and the built-in multiplexing layer might be needed at some point. > There are firmware versions that do not support QMAP and the other way around > (the built-in multiplexing was disabled on very recent firmware versions). > Only userspace can check if QMAP is supported in the firmware (via QMI). I am not very familiar with the Qualcomm protocols and am just curious whether BAM-DMUX has any control (management) channels or only IPv4/v6 data channels? The WWAN subsystem began as a framework for exporting management interfaces (MBIM, AT, etc.) to user space. And then the network interfaces (data channels) management interface was added to facilitate management of devices with multiple data channels. That is why I am curious about the BAM-DMUX device management interface or in other words, how a user space application could control the modem work? > I could ignore QMAP completely for now but I think someone will show up > who will need this eventually. And if there is going to be common code for > QMAP/rmnet link management it would be nice if BAM-DMUX could also make > use of it. > > But the question is, how could this look like? How do we know if we should > create a link for QMAP or a BAM-DMUX channel? Does it even make sense > to manage the 1-8 channels via the WWAN link management? > > Another problem is that the WWAN subsystem currently creates all network > interfaces below the common WWAN device. This means that userspace like > ModemManager has no way to check which driver provides them. This is > necessary though to decide how to set it up via QMI (ModemManager uses it). > > For reference, example of the channels announced by firmwares on various SoCs: > - Qualcomm MSM8974: channel 0-7, QMAP not supported > - Qualcomm MSM8916: channel 0-7, QMAP usually supported, but not always > (depends on firmware version) > - Qualcomm MSM8937: channel 0 only, QMAP required for multiplexing(?) > (Note: This one is theoretic based on logs, this was not tested so far...)
Hi Sergey, On Tue, Jul 20, 2021 at 12:10:42PM +0300, Sergey Ryazanov wrote: > On Mon, Jul 19, 2021 at 6:01 PM Stephan Gerhold <stephan@gerhold.net> wrote: > > The BAM Data Multiplexer provides access to the network data channels of > > modems integrated into many older Qualcomm SoCs, e.g. Qualcomm MSM8916 or > > MSM8974. It is built using a simple protocol layer on top of a DMA engine > > (Qualcomm BAM) and bidirectional interrupts to coordinate power control. > > > > The modem announces a fixed set of channels by sending an OPEN command. > > The driver exports each channel as separate network interface so that > > a connection can be established via QMI from userspace. The network > > interface can work either in Ethernet or Raw-IP mode (configurable via > > QMI). However, Ethernet mode seems to be broken with most firmwares > > (network packets are actually received as Raw-IP), therefore the driver > > only supports Raw-IP mode. > > > > The driver uses runtime PM to coordinate power control with the modem. > > TX/RX buffers are put in a kind of "ring queue" and submitted via > > the bam_dma driver of the DMAEngine subsystem. > > > > The basic architecture looks roughly like this: > > > > +------------+ +-------+ > > [IPv4/6] | BAM-DMUX | | | > > [Data...] | | | | > > ---------->|rmnet0 | [DMUX chan: x] | | > > [IPv4/6] | (chan: 0) | [IPv4/6] | | > > [Data...] | | [Data...] | | > > ---------->|rmnet1 |--------------->| Modem | > > | (chan: 1) | BAM | | > > [IPv4/6] | ... | (DMA Engine) | | > > [Data...] | | | | > > ---------->|rmnet7 | | | > > | (chan: 7) | | | > > +------------+ +-------+ > > > > However, on newer SoCs/firmware versions Qualcomm began gradually moving > > to QMAP (rmnet driver) as backend-independent protocol for multiplexing > > and data aggegration. Some firmware versions allow using QMAP on top of > > BAM-DMUX (effectively resulting in a second multiplexing layer plus data > > aggregation). The architecture with QMAP would look roughly like this: > > > > +-------------+ +------------+ +-------+ > > [IPv4/6] | RMNET | | BAM-DMUX | | | > > [Data...] | | | | [DMUX chan: 0] | | > > ---------->|rmnet_data1 | ----->|rmnet0 | [QMAP mux-id: x] | | > > | (mux-id: 1) | | | (chan: 0) | [IPv4/6] | | > > | | | | | [Data...] | | > > [IPv4/6] | ... |------ | |----------------->| Modem | > > [Data...] | | | | BAM | | > > ---------->|rmnet_data42 | [QMAP: x] |[rmnet1] | (DMA Engine) | | > > | (mux-id: 42)| [IPv4/6] |... unused! | | | > > | | [Data...] |[rmnet7] | | | > > | | | | | | > > +-------------+ +------------+ +-------+ > > > > In this case, rmnet1-7 would remain unused. The firmware used on the most > > recent SoCs with BAM-DMUX even seems to announce only a single BAM-DMUX > > channel (rmnet0), which makes QMAP the only option for multiplexing there. > > > > So far the driver is mainly tested on various smartphones/tablets based on > > Qualcomm MSM8916/MSM8974 without QMAP. It looks like QMAP depends on a MTU > > negotiation feature in BAM-DMUX which is not yet supported by the driver. > > > > Signed-off-by: Stephan Gerhold <stephan@gerhold.net> > > --- > > Note that this is my first network driver, so I apologize in advance > > if I made some obvious mistakes. :) > > > > I'm not sure how to integrate the driver with the WWAN subsystem yet. > > At the moment the driver creates network interfaces for all channels > > announced by the modem, it does not make use of the WWAN link management > > yet. Unfortunately, this is a bit complicated: > > > > Both QMAP and the built-in multiplexing layer might be needed at some point. > > There are firmware versions that do not support QMAP and the other way around > > (the built-in multiplexing was disabled on very recent firmware versions). > > Only userspace can check if QMAP is supported in the firmware (via QMI). > > I am not very familiar with the Qualcomm protocols and am just curious > whether BAM-DMUX has any control (management) channels or only IPv4/v6 > data channels? > > The WWAN subsystem began as a framework for exporting management > interfaces (MBIM, AT, etc.) to user space. And then the network > interfaces (data channels) management interface was added to > facilitate management of devices with multiple data channels. That is > why I am curious about the BAM-DMUX device management interface or in > other words, how a user space application could control the modem > work? > Sorry for the confusion! It's briefly mentioned in the Kconfig option but I should have made this more clear in the commit message. It was so long already that I wasn't sure where to put it. :) BAM-DMUX does not have any control channels. Instead I use it together with the rpmsg_wwan_ctrl driver [1] that I already submitted for 5.14. The control/data channels are pretty much separate in this setup and don't have much to do with each other. I also had a short overview of some of the many different modem protocols Qualcomm has come up with in a related RFC for that driver, see [2] if you are curious. I hope that clarifies some things, please let me know if I should explain something better! :) Thanks! Stephan [1]: https://lore.kernel.org/netdev/20210618173611.134685-3-stephan@gerhold.net/ [2]: https://lore.kernel.org/netdev/YLfL9Q+4860uqS8f@gerhold.net/
Hi Loic, On Mon, Jul 19, 2021 at 06:01:33PM +0200, Loic Poulain wrote: > On Mon, 19 Jul 2021 at 17:01, Stephan Gerhold <stephan@gerhold.net> wrote: > > > > I'm not sure how to integrate the driver with the WWAN subsystem yet. > > At the moment the driver creates network interfaces for all channels > > announced by the modem, it does not make use of the WWAN link management > > yet. Unfortunately, this is a bit complicated: > > > > Both QMAP and the built-in multiplexing layer might be needed at some point. > > There are firmware versions that do not support QMAP and the other way around > > (the built-in multiplexing was disabled on very recent firmware versions). > > Only userspace can check if QMAP is supported in the firmware (via QMI). > > > > I could ignore QMAP completely for now but I think someone will show up > > who will need this eventually. And if there is going to be common code for > > QMAP/rmnet link management it would be nice if BAM-DMUX could also make > > use of it. > > I have this on my TODO list for mhi-net QMAP. > Great, thanks! > > But the question is, how could this look like? How do we know if we should > > create a link for QMAP or a BAM-DMUX channel? Does it even make sense > > to manage the 1-8 channels via the WWAN link management? > > Couldn't it be specified via dts (property or different compatible > string)? It would probably work in most cases, but I have to admit that I would prefer to avoid this for the following reason: This driver is used on some smartphones that have different variants for different parts of the world. As far as Linux is concerned the hardware is pretty much identical, but the modem firmware is often somewhat device-specific. This means that the same device tree is often used with different firmware versions. Perhaps we are lucky enough that the firmware versions have the same capabilities, but I'm not fully sure about that. I think at the end the situation is fairly similar to qmi_wwan/USB. There the kernel also does not know if the modem supports QMAP or not. The way it's solved there at the moment is that ModemManager tries to enable it from user space and then the mode of the network interface can be switched through a sysfs file ("qmi/pass_through"). Something like this should probably also work in my case. This should also allow me to ignore QMAP for now and deal with it if someone really needs it at some point since it's quite complicated for BAM-DMUX. (I tried QMAP again today and listed the problems in [1] for reference, but it's all BAM-DMUX specific...) [1] https://lore.kernel.org/netdev/YPmF8bzevuabO2K9@gerhold.net/ > > would it make sense to have two drivers (with common core) to > manage either the multi-bam channel or newer QMAP based single > bam-channel modems. > There should be fairly little difference between those two usage modes, so I don't think it's worth splitting the driver for this. Actually right now (ignoring the link management of the WWAN subsystem), it's already possible to use both. I can use the network interfaces as-is in Raw-IP mode or I do "sudo ip link add link rmnet0 name rmnet0_qmap type rmnet mux_id 1" on top and use QMAP. The BAM-DMUX driver does not care, because it just hands over sent/received packets as-is and the modem data format must be always configured via QMI from user space. > > > > Another problem is that the WWAN subsystem currently creates all network > > interfaces below the common WWAN device. This means that userspace like > > ModemManager has no way to check which driver provides them. This is > > necessary though to decide how to set it up via QMI (ModemManager uses it). > > Well, I have quite a similar concern since I'm currently porting > mhi-net mbim to wwan framework, and I was thinking about not making > wwan device parent of the network link/netdev (in the same way as > wlan0 is not child of ieee80211 device), but not sure if it's a good > idea or not since we can not really consider driver name part of the > uapi. > Hm, I think the main disadvantage of that would be that the network interface is no longer directly related to the WWAN device, right? Userspace would then need some special matching to find the network interfaces that belong to a certain control port. With the current setup, e.g. ModemManager can simply match the WWAN device and then look at its children and find the control port and network interfaces. How would it find the network interfaces if they are no longer below the WWAN device? > The way links are created is normally abstracted, so if you know which > bam variant you have from wwan network driver side (e.g. via dts), you > should have nothing to check on the user side, except the session id. In a perfect world it would probably be like this, but I'm afraid the Qualcomm firmware situation isn't as simple. User space needs to know which setup it is dealing with because all the setup happens via QMI. Let's take the BAM-DMUX channels vs QMAP mux-IDs for example: First, user space needs to configure the data format. This happens with the QMI WDA (Wireless Data Administrative Service) "Set Data Format" message. Parameter would be link layer format (Raw-IP in both cases) but also the uplink/downlink data aggregation protocol. This is either one of many QMAP versions (qmap|qmapv2|qmapv3|qmapv4|qmapv5), or simply "none" when using BAM-DMUX without QMAP. Then, the "session ID" (= BAM-DMUX channel or QMAP mux-ID) must be bound to a WDS (Wireless Data Service) session. The QMI message for that is different for BAM-DMUX and QMAP: - BAM-DMUX: WDS "Bind Data Port" (Parameter: SIO port number, can be derived from channel ID) - QMAP: WDS "Bind MUX Data Port" (note the "MUX", different message!) (Parameter: MUX ID, port type (USB/embedded/...), port number) My point here: Since userspace is responsible for QMI at the moment we will definitely need to make it aware of the setup that it needs to apply. Just having an abstract "session ID" won't be enough to set up the connection properly. :/ Thanks! Stephan
Hello Stephan, On Wed, Jul 21, 2021 at 3:17 PM Stephan Gerhold <stephan@gerhold.net> wrote: > On Tue, Jul 20, 2021 at 12:10:42PM +0300, Sergey Ryazanov wrote: >> On Mon, Jul 19, 2021 at 6:01 PM Stephan Gerhold <stephan@gerhold.net> wrote: >>> The BAM Data Multiplexer provides access to the network data channels of >>> modems integrated into many older Qualcomm SoCs, e.g. Qualcomm MSM8916 or >>> MSM8974. It is built using a simple protocol layer on top of a DMA engine >>> (Qualcomm BAM) and bidirectional interrupts to coordinate power control. >>> >>> The modem announces a fixed set of channels by sending an OPEN command. >>> The driver exports each channel as separate network interface so that >>> a connection can be established via QMI from userspace. The network >>> interface can work either in Ethernet or Raw-IP mode (configurable via >>> QMI). However, Ethernet mode seems to be broken with most firmwares >>> (network packets are actually received as Raw-IP), therefore the driver >>> only supports Raw-IP mode. >>> >>> The driver uses runtime PM to coordinate power control with the modem. >>> TX/RX buffers are put in a kind of "ring queue" and submitted via >>> the bam_dma driver of the DMAEngine subsystem. >>> >>> The basic architecture looks roughly like this: >>> >>> +------------+ +-------+ >>> [IPv4/6] | BAM-DMUX | | | >>> [Data...] | | | | >>> ---------->|rmnet0 | [DMUX chan: x] | | >>> [IPv4/6] | (chan: 0) | [IPv4/6] | | >>> [Data...] | | [Data...] | | >>> ---------->|rmnet1 |--------------->| Modem | >>> | (chan: 1) | BAM | | >>> [IPv4/6] | ... | (DMA Engine) | | >>> [Data...] | | | | >>> ---------->|rmnet7 | | | >>> | (chan: 7) | | | >>> +------------+ +-------+ >>> >>> However, on newer SoCs/firmware versions Qualcomm began gradually moving >>> to QMAP (rmnet driver) as backend-independent protocol for multiplexing >>> and data aggegration. Some firmware versions allow using QMAP on top of >>> BAM-DMUX (effectively resulting in a second multiplexing layer plus data >>> aggregation). The architecture with QMAP would look roughly like this: >>> >>> +-------------+ +------------+ +-------+ >>> [IPv4/6] | RMNET | | BAM-DMUX | | | >>> [Data...] | | | | [DMUX chan: 0] | | >>> ---------->|rmnet_data1 | ----->|rmnet0 | [QMAP mux-id: x] | | >>> | (mux-id: 1) | | | (chan: 0) | [IPv4/6] | | >>> | | | | | [Data...] | | >>> [IPv4/6] | ... |------ | |----------------->| Modem | >>> [Data...] | | | | BAM | | >>> ---------->|rmnet_data42 | [QMAP: x] |[rmnet1] | (DMA Engine) | | >>> | (mux-id: 42)| [IPv4/6] |... unused! | | | >>> | | [Data...] |[rmnet7] | | | >>> | | | | | | >>> +-------------+ +------------+ +-------+ >>> >>> In this case, rmnet1-7 would remain unused. The firmware used on the most >>> recent SoCs with BAM-DMUX even seems to announce only a single BAM-DMUX >>> channel (rmnet0), which makes QMAP the only option for multiplexing there. >>> >>> So far the driver is mainly tested on various smartphones/tablets based on >>> Qualcomm MSM8916/MSM8974 without QMAP. It looks like QMAP depends on a MTU >>> negotiation feature in BAM-DMUX which is not yet supported by the driver. >>> >>> Signed-off-by: Stephan Gerhold <stephan@gerhold.net> >>> --- >>> Note that this is my first network driver, so I apologize in advance >>> if I made some obvious mistakes. :) >>> >>> I'm not sure how to integrate the driver with the WWAN subsystem yet. >>> At the moment the driver creates network interfaces for all channels >>> announced by the modem, it does not make use of the WWAN link management >>> yet. Unfortunately, this is a bit complicated: >>> >>> Both QMAP and the built-in multiplexing layer might be needed at some point. >>> There are firmware versions that do not support QMAP and the other way around >>> (the built-in multiplexing was disabled on very recent firmware versions). >>> Only userspace can check if QMAP is supported in the firmware (via QMI). >> >> I am not very familiar with the Qualcomm protocols and am just curious >> whether BAM-DMUX has any control (management) channels or only IPv4/v6 >> data channels? >> >> The WWAN subsystem began as a framework for exporting management >> interfaces (MBIM, AT, etc.) to user space. And then the network >> interfaces (data channels) management interface was added to >> facilitate management of devices with multiple data channels. That is >> why I am curious about the BAM-DMUX device management interface or in >> other words, how a user space application could control the modem >> work? > > Sorry for the confusion! It's briefly mentioned in the Kconfig option > but I should have made this more clear in the commit message. It was so > long already that I wasn't sure where to put it. :) > > BAM-DMUX does not have any control channels. Instead I use it together > with the rpmsg_wwan_ctrl driver [1] that I already submitted for 5.14. > The control/data channels are pretty much separate in this setup and > don't have much to do with each other. > > I also had a short overview of some of the many different modem > protocols Qualcomm has come up with in a related RFC for that driver, > see [2] if you are curious. > > I hope that clarifies some things, please let me know if I should > explain something better! :) > > [1]: https://lore.kernel.org/netdev/20210618173611.134685-3-stephan@gerhold.net/ > [2]: https://lore.kernel.org/netdev/YLfL9Q+4860uqS8f@gerhold.net/ Many thanks for such informative clarification, especially for pointing me to the rpmsg_wwan_ctrl driver. I saw it, but by a some reason I did not link it to BAM-DMUX. Reading these links in conjunction with your parallel talks make the situation much more clear. I could not say that "I know kung fu", but I can say that now I know how complex kung fu is. -- Sergey
On Thu, Jul 22, 2021 at 6:40 PM Stephan Gerhold <stephan@gerhold.net> wrote: > On Mon, Jul 19, 2021 at 06:01:33PM +0200, Loic Poulain wrote: >> On Mon, 19 Jul 2021 at 17:01, Stephan Gerhold <stephan@gerhold.net> wrote: >>> I'm not sure how to integrate the driver with the WWAN subsystem yet. >>> At the moment the driver creates network interfaces for all channels >>> announced by the modem, it does not make use of the WWAN link management >>> yet. Unfortunately, this is a bit complicated: >>> >>> Both QMAP and the built-in multiplexing layer might be needed at some point. >>> There are firmware versions that do not support QMAP and the other way around >>> (the built-in multiplexing was disabled on very recent firmware versions). >>> Only userspace can check if QMAP is supported in the firmware (via QMI). >>> >>> I could ignore QMAP completely for now but I think someone will show up >>> who will need this eventually. And if there is going to be common code for >>> QMAP/rmnet link management it would be nice if BAM-DMUX could also make >>> use of it. >> >> I have this on my TODO list for mhi-net QMAP. > > Great, thanks! > >>> But the question is, how could this look like? How do we know if we should >>> create a link for QMAP or a BAM-DMUX channel? Does it even make sense >>> to manage the 1-8 channels via the WWAN link management? >> >> Couldn't it be specified via dts (property or different compatible >> string)? > > It would probably work in most cases, but I have to admit that I would > prefer to avoid this for the following reason: This driver is used on > some smartphones that have different variants for different parts of the > world. As far as Linux is concerned the hardware is pretty much > identical, but the modem firmware is often somewhat device-specific. > > This means that the same device tree is often used with different > firmware versions. Perhaps we are lucky enough that the firmware > versions have the same capabilities, but I'm not fully sure about that. > > I think at the end the situation is fairly similar to qmi_wwan/USB. > There the kernel also does not know if the modem supports QMAP or not. > The way it's solved there at the moment is that ModemManager tries to > enable it from user space and then the mode of the network interface > can be switched through a sysfs file ("qmi/pass_through"). > > Something like this should probably also work in my case. This should > also allow me to ignore QMAP for now and deal with it if someone really > needs it at some point since it's quite complicated for BAM-DMUX. > (I tried QMAP again today and listed the problems in [1] for reference, > but it's all BAM-DMUX specific...) > > [1] https://lore.kernel.org/netdev/YPmF8bzevuabO2K9@gerhold.net/ > >> would it make sense to have two drivers (with common core) to >> manage either the multi-bam channel or newer QMAP based single >> bam-channel modems. > > There should be fairly little difference between those two usage modes, > so I don't think it's worth splitting the driver for this. Actually > right now (ignoring the link management of the WWAN subsystem), > it's already possible to use both. > > I can use the network interfaces as-is in Raw-IP mode or I do > "sudo ip link add link rmnet0 name rmnet0_qmap type rmnet mux_id 1" > on top and use QMAP. The BAM-DMUX driver does not care, because it > just hands over sent/received packets as-is and the modem data format > must be always configured via QMI from user space. > >>> Another problem is that the WWAN subsystem currently creates all network >>> interfaces below the common WWAN device. This means that userspace like >>> ModemManager has no way to check which driver provides them. This is >>> necessary though to decide how to set it up via QMI (ModemManager uses it). >> >> Well, I have quite a similar concern since I'm currently porting >> mhi-net mbim to wwan framework, and I was thinking about not making >> wwan device parent of the network link/netdev (in the same way as >> wlan0 is not child of ieee80211 device), but not sure if it's a good >> idea or not since we can not really consider driver name part of the >> uapi. > > Hm, I think the main disadvantage of that would be that the network > interface is no longer directly related to the WWAN device, right? > Userspace would then need some special matching to find the network > interfaces that belong to a certain control port. > > With the current setup, e.g. ModemManager can simply match the WWAN > device and then look at its children and find the control port and > network interfaces. How would it find the network interfaces if they are > no longer below the WWAN device? > > > The way links are created is normally abstracted, so if you know which > > bam variant you have from wwan network driver side (e.g. via dts), you > > should have nothing to check on the user side, except the session id. > > In a perfect world it would probably be like this, but I'm afraid the > Qualcomm firmware situation isn't as simple. User space needs to know > which setup it is dealing with because all the setup happens via QMI. > > Let's take the BAM-DMUX channels vs QMAP mux-IDs for example: > > First, user space needs to configure the data format. This happens with > the QMI WDA (Wireless Data Administrative Service) "Set Data Format" > message. Parameter would be link layer format (Raw-IP in both cases) > but also the uplink/downlink data aggregation protocol. This is either > one of many QMAP versions (qmap|qmapv2|qmapv3|qmapv4|qmapv5), or simply > "none" when using BAM-DMUX without QMAP. > > Then, the "session ID" (= BAM-DMUX channel or QMAP mux-ID) must be bound > to a WDS (Wireless Data Service) session. The QMI message for that is > different for BAM-DMUX and QMAP: > > - BAM-DMUX: WDS "Bind Data Port" > (Parameter: SIO port number, can be derived from channel ID) > > - QMAP: WDS "Bind MUX Data Port" (note the "MUX", different message!) > (Parameter: MUX ID, port type (USB/embedded/...), port number) > > My point here: Since userspace is responsible for QMI at the moment > we will definitely need to make it aware of the setup that it needs to > apply. Just having an abstract "session ID" won't be enough to set up > the connection properly. :/ Stephan, Loic, I have a polemic question related to a drivers model that we should build to smoothly support qualcomm hardware by the kernel. I would depict the situation as I see it and then ask the question. Please correct me if I am misunderstanding something or simply wrong. Or maybe you will be gracious once more and point me to earlier discussions :) We always talk that a userspace software should take care of multiplexing configuration to make data communication possible at all. The motivation here is simple - management protocol (QMI) is complex, userspace software must implement it anyway to manage network connectivity, so why not implement the multiplexing management there too? This way the userspace software that should simply command a "modem" to establish a data connection and poll a "modem" for a signal level became a self contained device manager that knows all modem-to-host interconnection details and even must to perform an initial modem-to-host interfaces negotiation and configuration. The last task is what userspace software usually expects to be performed by an OS kernel. But what if we implement the QMI multiplexing management part in the kernel? This way the kernel will take care about modem-to-host communication protocols and interfaces, and provides userspace with a single WWAN device (possibly with multiple network and network management interfaces). I do not propose to fully implement QMI protocol inside the kernel, but implement only a mux management part, while passing all other messages between a "modem" and a userspace software as-is. What pros and cons of such a design do you see?
Hey! > > But what if we implement the QMI multiplexing management part in the > kernel? This way the kernel will take care about modem-to-host > communication protocols and interfaces, and provides userspace with a > single WWAN device (possibly with multiple network and network > management interfaces). > > I do not propose to fully implement QMI protocol inside the kernel, > but implement only a mux management part, while passing all other > messages between a "modem" and a userspace software as-is. > > What pros and cons of such a design do you see? > The original GobiNet driver already provided some QMI protocol implementation in the driver itself. In addition to initial device setup as you suggest, it also allowed userspace applications to allocate and release QMI clients for the different services that could be used independently by different processes. Not going to say that was the wrong way to do it, but the implementation is definitely not simple. The decision taken in qmi_wwan to make the driver as simple as possible and leave all the QMI management to userspace was quite an important one; it made the driver extremely simple, leaving all the complexity of managing the protocol to userspace, and while it had some initial drawbacks (e.g. only one process could talk QMI at a time) the userspace tools have evolved to avoid them (e.g. the qmi-proxy). I wrote some time ago about this, maybe it's still relevant today: Blogpost https://sigquit.wordpress.com/2014/06/11/qmiwwan-or-gobinet/, Article in PDF https://aleksander.es/data/Qualcomm%20Gobi%20devices%20on%20Linux.pdf Making the driver talk QMI just for device setup would require the kernel to know how the QMI protocol works, how QMI client allocations and releases are done, how errors are reported, how is the format of the requests and responses involved; it would require the kernel to wait until the QMI protocol endpoint in the modem is capable of returning QMI responses (this could be up to 20 or 30 secs after the device is available in the bus), it would require to have possibly some specific rules on how the QMI clients are managed after a suspend/resume operation. It would also require to sync the access to the CTL service, which is the one running QMI service allocations and releases, so that both kernel and userspace can perform operations with that service at the same time. It would need to know how different QMI capable devices behave, because not all devices support the same services, and some don't even support the WDA service that would be the one needed to setup data aggregation. There is definitely some overlap on what the kernel could do and what userspace could do, and I'd say that we have much more flexibility in userspace to do all this leaving all the complexity out of the kernel driver. ModemManager already provides a unified API to e.g. setup multiplexed data sessions, regardless of what the underlying kernel implementation is (qmi_wwan only, qmi_wwan+rmnet, ipa+rmnet, bam-dmux, cdc_mbim...) . The logic doing all that is extremely complex and possibly full of errors, I would definitely not want to have all that logic in the kernel itself, let the errors be in userspace! Unifying stuff in the kernel is a good idea, but if you ask me, it should be done in a way that is as simple as possible, leaving complexity to userspace, even if that means that userspace still needs to know what type of device we have behind the wwan subsystem, because userspace will anyway need to know all that.
Hello Aleksander, On Mon, Jul 26, 2021 at 11:11 AM Aleksander Morgado <aleksander@aleksander.es> wrote: >> But what if we implement the QMI multiplexing management part in the >> kernel? This way the kernel will take care about modem-to-host >> communication protocols and interfaces, and provides userspace with a >> single WWAN device (possibly with multiple network and network >> management interfaces). >> >> I do not propose to fully implement QMI protocol inside the kernel, >> but implement only a mux management part, while passing all other >> messages between a "modem" and a userspace software as-is. >> >> What pros and cons of such a design do you see? > > The original GobiNet driver already provided some QMI protocol > implementation in the driver itself. In addition to initial device > setup as you suggest, it also allowed userspace applications to > allocate and release QMI clients for the different services that could > be used independently by different processes. Not going to say that > was the wrong way to do it, but the implementation is definitely not > simple. The decision taken in qmi_wwan to make the driver as simple as > possible and leave all the QMI management to userspace was quite an > important one; it made the driver extremely simple, leaving all the > complexity of managing the protocol to userspace, and while it had > some initial drawbacks (e.g. only one process could talk QMI at a > time) the userspace tools have evolved to avoid them (e.g. the > qmi-proxy). > > I wrote some time ago about this, maybe it's still relevant today: > Blogpost https://sigquit.wordpress.com/2014/06/11/qmiwwan-or-gobinet/, > Article in PDF https://aleksander.es/data/Qualcomm%20Gobi%20devices%20on%20Linux.pdf > > Making the driver talk QMI just for device setup would require the > kernel to know how the QMI protocol works, how QMI client allocations > and releases are done, how errors are reported, how is the format of > the requests and responses involved; it would require the kernel to > wait until the QMI protocol endpoint in the modem is capable of > returning QMI responses (this could be up to 20 or 30 secs after the > device is available in the bus), it would require to have possibly > some specific rules on how the QMI clients are managed after a > suspend/resume operation. It would also require to sync the access to > the CTL service, which is the one running QMI service allocations and > releases, so that both kernel and userspace can perform operations > with that service at the same time. It would need to know how > different QMI capable devices behave, because not all devices support > the same services, and some don't even support the WDA service that > would be the one needed to setup data aggregation. There is definitely > some overlap on what the kernel could do and what userspace could do, > and I'd say that we have much more flexibility in userspace to do all > this leaving all the complexity out of the kernel driver. > > ModemManager already provides a unified API to e.g. setup multiplexed > data sessions, regardless of what the underlying kernel implementation > is (qmi_wwan only, qmi_wwan+rmnet, ipa+rmnet, bam-dmux, cdc_mbim...) . > The logic doing all that is extremely complex and possibly full of > errors, I would definitely not want to have all that logic in the > kernel itself, let the errors be in userspace! Unifying stuff in the > kernel is a good idea, but if you ask me, it should be done in a way > that is as simple as possible, leaving complexity to userspace, even > if that means that userspace still needs to know what type of device > we have behind the wwan subsystem, because userspace will anyway need > to know all that. Ouch! All these QMI internals are like a can of worms. Each time I start thinking that I learned something I face another complexity. Many thanks for your detailed reply and for your blogpost, for me it was quite helpful for understanding to see a side by side comparison of approaches! The argument for keeping drivers minimalistic to keep the system stable sounds reasonable. But I am still feeling uncomfortable when a userspace software manages a device at such a low level. Maybe it is a matter of taste, or maybe I still do not realize the whole complexity. Anyway, in the context of your clarification, I should be more careful in the future with calls to implement QMI in the kernel :) -- Sergey
diff --git a/MAINTAINERS b/MAINTAINERS index e09c3944240c..0d7d2fbadfb2 100644 --- a/MAINTAINERS +++ b/MAINTAINERS @@ -15304,6 +15304,14 @@ S: Supported W: https://wireless.wiki.kernel.org/en/users/Drivers/ath9k F: drivers/net/wireless/ath/ath9k/ +QUALCOMM BAM-DMUX WWAN NETWORK DRIVER +M: Stephan Gerhold <stephan@gerhold.net> +L: netdev@vger.kernel.org +L: linux-arm-msm@vger.kernel.org +S: Maintained +F: Documentation/devicetree/bindings/net/qcom,bam-dmux.yaml +F: drivers/net/wwan/bam_dmux.c + QUALCOMM CAMERA SUBSYSTEM DRIVER M: Robert Foss <robert.foss@linaro.org> M: Todor Tomov <todor.too@gmail.com> diff --git a/drivers/net/wwan/Kconfig b/drivers/net/wwan/Kconfig index de9384326bc8..efb2b859ab55 100644 --- a/drivers/net/wwan/Kconfig +++ b/drivers/net/wwan/Kconfig @@ -38,6 +38,19 @@ config MHI_WWAN_CTRL To compile this driver as a module, choose M here: the module will be called mhi_wwan_ctrl. +config QCOM_BAM_DMUX + tristate "Qualcomm BAM-DMUX WWAN network driver" + depends on (DMA_ENGINE && PM && QCOM_SMEM_STATE) || COMPILE_TEST + help + The BAM Data Multiplexer provides access to the network data channels + of modems integrated into many older Qualcomm SoCs, e.g. Qualcomm + MSM8916 or MSM8974. The connection can be established via QMI/AT from + userspace with control ports available through the WWAN subsystem + (CONFIG_RPMSG_WWAN_CTRL) or QRTR network sockets (CONFIG_QRTR). + + To compile this driver as a module, choose M here: the module will be + called qcom_bam_dmux. + config RPMSG_WWAN_CTRL tristate "RPMSG WWAN control driver" depends on RPMSG diff --git a/drivers/net/wwan/Makefile b/drivers/net/wwan/Makefile index d90ac33abaef..a804f6d9637e 100644 --- a/drivers/net/wwan/Makefile +++ b/drivers/net/wwan/Makefile @@ -9,5 +9,6 @@ wwan-objs += wwan_core.o obj-$(CONFIG_WWAN_HWSIM) += wwan_hwsim.o obj-$(CONFIG_MHI_WWAN_CTRL) += mhi_wwan_ctrl.o +obj-$(CONFIG_QCOM_BAM_DMUX) += qcom_bam_dmux.o obj-$(CONFIG_RPMSG_WWAN_CTRL) += rpmsg_wwan_ctrl.o obj-$(CONFIG_IOSM) += iosm/ diff --git a/drivers/net/wwan/qcom_bam_dmux.c b/drivers/net/wwan/qcom_bam_dmux.c new file mode 100644 index 000000000000..b1e69f5263ac --- /dev/null +++ b/drivers/net/wwan/qcom_bam_dmux.c @@ -0,0 +1,907 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Qualcomm BAM-DMUX WWAN network driver + * Copyright (c) 2020, Stephan Gerhold <stephan@gerhold.net> + */ + +#include <linux/atomic.h> +#include <linux/bitops.h> +#include <linux/completion.h> +#include <linux/dma-mapping.h> +#include <linux/dmaengine.h> +#include <linux/if_arp.h> +#include <linux/interrupt.h> +#include <linux/mod_devicetable.h> +#include <linux/module.h> +#include <linux/netdevice.h> +#include <linux/platform_device.h> +#include <linux/pm_runtime.h> +#include <linux/soc/qcom/smem_state.h> +#include <linux/spinlock.h> +#include <linux/wait.h> +#include <linux/workqueue.h> +#include <net/pkt_sched.h> + +#define BAM_DMUX_BUFFER_SIZE SZ_2K +#define BAM_DMUX_HDR_SIZE sizeof(struct bam_dmux_hdr) +#define BAM_DMUX_MAX_DATA_SIZE (BAM_DMUX_BUFFER_SIZE - BAM_DMUX_HDR_SIZE) +#define BAM_DMUX_NUM_SKB 32 + +#define BAM_DMUX_HDR_MAGIC 0x33fc + +#define BAM_DMUX_AUTOSUSPEND_DELAY 1000 +#define BAM_DMUX_REMOTE_TIMEOUT msecs_to_jiffies(2000) + +enum { + BAM_DMUX_CMD_DATA, + BAM_DMUX_CMD_OPEN, + BAM_DMUX_CMD_CLOSE, +}; + +enum { + BAM_DMUX_CH_DATA_0, + BAM_DMUX_CH_DATA_1, + BAM_DMUX_CH_DATA_2, + BAM_DMUX_CH_DATA_3, + BAM_DMUX_CH_DATA_4, + BAM_DMUX_CH_DATA_5, + BAM_DMUX_CH_DATA_6, + BAM_DMUX_CH_DATA_7, + BAM_DMUX_NUM_CH +}; + +struct bam_dmux_hdr { + u16 magic; + u8 signal; + u8 cmd; + u8 pad; + u8 ch; + u16 len; +}; + +struct bam_dmux_skb_dma { + struct bam_dmux *dmux; + struct sk_buff *skb; + dma_addr_t addr; +}; + +struct bam_dmux { + struct device *dev; + + int pc_irq; + bool pc_state, pc_ack_state; + struct qcom_smem_state *pc, *pc_ack; + u32 pc_mask, pc_ack_mask; + wait_queue_head_t pc_wait; + struct completion pc_ack_completion; + + struct dma_chan *rx, *tx; + struct bam_dmux_skb_dma rx_skbs[BAM_DMUX_NUM_SKB]; + struct bam_dmux_skb_dma tx_skbs[BAM_DMUX_NUM_SKB]; + spinlock_t tx_lock; /* Protect tx_skbs, tx_next_skb */ + unsigned int tx_next_skb; + atomic_long_t tx_deferred_skb; + struct work_struct tx_wakeup_work; + + DECLARE_BITMAP(remote_channels, BAM_DMUX_NUM_CH); + struct work_struct register_netdev_work; + struct net_device *netdevs[BAM_DMUX_NUM_CH]; +}; + +struct bam_dmux_netdev { + struct bam_dmux *dmux; + u8 ch; +}; + +static void bam_dmux_pc_vote(struct bam_dmux *dmux, bool enable) +{ + reinit_completion(&dmux->pc_ack_completion); + qcom_smem_state_update_bits(dmux->pc, dmux->pc_mask, + enable ? dmux->pc_mask : 0); +} + +static void bam_dmux_pc_ack(struct bam_dmux *dmux) +{ + qcom_smem_state_update_bits(dmux->pc_ack, dmux->pc_ack_mask, + dmux->pc_ack_state ? 0 : dmux->pc_ack_mask); + dmux->pc_ack_state = !dmux->pc_ack_state; +} + +static bool bam_dmux_skb_dma_map(struct bam_dmux_skb_dma *skb_dma, + enum dma_data_direction dir) +{ + struct device *dev = skb_dma->dmux->dev; + + skb_dma->addr = dma_map_single(dev, skb_dma->skb->data, skb_dma->skb->len, dir); + if (dma_mapping_error(dev, skb_dma->addr)) { + dev_err(dev, "Failed to DMA map buffer\n"); + skb_dma->addr = 0; + return false; + } + + return true; +} + +static void bam_dmux_skb_dma_unmap(struct bam_dmux_skb_dma *skb_dma, + enum dma_data_direction dir) +{ + dma_unmap_single(skb_dma->dmux->dev, skb_dma->addr, skb_dma->skb->len, dir); + skb_dma->addr = 0; +} + +static void bam_dmux_tx_wake_queues(struct bam_dmux *dmux) +{ + int i; + + dev_dbg(dmux->dev, "wake queues\n"); + + for (i = 0; i < BAM_DMUX_NUM_CH; ++i) { + struct net_device *netdev = dmux->netdevs[i]; + + if (netdev && netif_running(netdev)) + netif_wake_queue(netdev); + } +} + +static void bam_dmux_tx_stop_queues(struct bam_dmux *dmux) +{ + int i; + + dev_dbg(dmux->dev, "stop queues\n"); + + for (i = 0; i < BAM_DMUX_NUM_CH; ++i) { + struct net_device *netdev = dmux->netdevs[i]; + + if (netdev) + netif_stop_queue(netdev); + } +} + +static void bam_dmux_tx_done(struct bam_dmux_skb_dma *skb_dma) +{ + struct bam_dmux *dmux = skb_dma->dmux; + unsigned long flags; + + pm_runtime_mark_last_busy(dmux->dev); + pm_runtime_put_autosuspend(dmux->dev); + + if (skb_dma->addr) + bam_dmux_skb_dma_unmap(skb_dma, DMA_TO_DEVICE); + + spin_lock_irqsave(&dmux->tx_lock, flags); + skb_dma->skb = NULL; + if (skb_dma == &dmux->tx_skbs[dmux->tx_next_skb % BAM_DMUX_NUM_SKB]) + bam_dmux_tx_wake_queues(dmux); + spin_unlock_irqrestore(&dmux->tx_lock, flags); +} + +static void bam_dmux_tx_callback(void *data) +{ + struct bam_dmux_skb_dma *skb_dma = data; + struct sk_buff *skb = skb_dma->skb; + + bam_dmux_tx_done(skb_dma); + dev_consume_skb_any(skb); +} + +static bool bam_dmux_skb_dma_submit_tx(struct bam_dmux_skb_dma *skb_dma) +{ + struct bam_dmux *dmux = skb_dma->dmux; + struct dma_async_tx_descriptor *desc; + + desc = dmaengine_prep_slave_single(dmux->tx, skb_dma->addr, + skb_dma->skb->len, DMA_MEM_TO_DEV, + DMA_PREP_INTERRUPT); + if (!desc) { + dev_err(dmux->dev, "Failed to prepare TX DMA buffer\n"); + return false; + } + + desc->callback = bam_dmux_tx_callback; + desc->callback_param = skb_dma; + desc->cookie = dmaengine_submit(desc); + return true; +} + +static struct bam_dmux_skb_dma * +bam_dmux_tx_queue(struct bam_dmux *dmux, struct sk_buff *skb) +{ + struct bam_dmux_skb_dma *skb_dma; + unsigned long flags; + + spin_lock_irqsave(&dmux->tx_lock, flags); + + skb_dma = &dmux->tx_skbs[dmux->tx_next_skb % BAM_DMUX_NUM_SKB]; + if (skb_dma->skb) { + bam_dmux_tx_stop_queues(dmux); + spin_unlock_irqrestore(&dmux->tx_lock, flags); + return NULL; + } + skb_dma->skb = skb; + + dmux->tx_next_skb++; + if (dmux->tx_skbs[dmux->tx_next_skb % BAM_DMUX_NUM_SKB].skb) + bam_dmux_tx_stop_queues(dmux); + + spin_unlock_irqrestore(&dmux->tx_lock, flags); + return skb_dma; +} + +static int bam_dmux_send_cmd(struct bam_dmux_netdev *bndev, u8 cmd) +{ + struct bam_dmux *dmux = bndev->dmux; + struct bam_dmux_skb_dma *skb_dma; + struct bam_dmux_hdr *hdr; + struct sk_buff *skb; + int ret; + + skb = alloc_skb(sizeof(*hdr), GFP_KERNEL); + if (!skb) + return -ENOMEM; + + hdr = skb_put_zero(skb, sizeof(*hdr)); + hdr->magic = BAM_DMUX_HDR_MAGIC; + hdr->cmd = cmd; + hdr->ch = bndev->ch; + + skb_dma = bam_dmux_tx_queue(dmux, skb); + if (!skb_dma) { + ret = -EAGAIN; + goto free_skb; + } + + ret = pm_runtime_get_sync(dmux->dev); + if (ret < 0) + goto tx_fail; + + if (!bam_dmux_skb_dma_map(skb_dma, DMA_TO_DEVICE)) { + ret = -ENOMEM; + goto tx_fail; + } + + if (!bam_dmux_skb_dma_submit_tx(skb_dma)) { + ret = -EIO; + goto tx_fail; + } + + dma_async_issue_pending(dmux->tx); + return 0; + +tx_fail: + bam_dmux_tx_done(skb_dma); +free_skb: + dev_kfree_skb(skb); + return ret; +} + +static int bam_dmux_netdev_open(struct net_device *netdev) +{ + struct bam_dmux_netdev *bndev = netdev_priv(netdev); + int ret; + + ret = bam_dmux_send_cmd(bndev, BAM_DMUX_CMD_OPEN); + if (ret) + return ret; + + netif_start_queue(netdev); + return 0; +} + +static int bam_dmux_netdev_stop(struct net_device *netdev) +{ + struct bam_dmux_netdev *bndev = netdev_priv(netdev); + + netif_stop_queue(netdev); + bam_dmux_send_cmd(bndev, BAM_DMUX_CMD_CLOSE); + return 0; +} + +static unsigned int needed_room(unsigned int avail, unsigned int needed) +{ + if (avail >= needed) + return 0; + return needed - avail; +} + +static int bam_dmux_tx_prepare_skb(struct bam_dmux_netdev *bndev, + struct sk_buff *skb) +{ + unsigned int head = needed_room(skb_headroom(skb), BAM_DMUX_HDR_SIZE); + unsigned int pad = sizeof(u32) - skb->len % sizeof(u32); + unsigned int tail = needed_room(skb_tailroom(skb), pad); + struct bam_dmux_hdr *hdr; + int ret; + + if (head || tail || skb_cloned(skb)) { + ret = pskb_expand_head(skb, head, tail, GFP_ATOMIC); + if (ret) + return ret; + } + + hdr = skb_push(skb, sizeof(*hdr)); + hdr->magic = BAM_DMUX_HDR_MAGIC; + hdr->signal = 0; + hdr->cmd = BAM_DMUX_CMD_DATA; + hdr->pad = pad; + hdr->ch = bndev->ch; + hdr->len = skb->len - sizeof(*hdr); + if (pad) + skb_put_zero(skb, pad); + + return 0; +} + +static netdev_tx_t bam_dmux_netdev_start_xmit(struct sk_buff *skb, + struct net_device *netdev) +{ + struct bam_dmux_netdev *bndev = netdev_priv(netdev); + struct bam_dmux *dmux = bndev->dmux; + struct bam_dmux_skb_dma *skb_dma; + int active, ret; + + skb_dma = bam_dmux_tx_queue(dmux, skb); + if (!skb_dma) + return NETDEV_TX_BUSY; + + active = pm_runtime_get(dmux->dev); + if (active < 0 && active != -EINPROGRESS) + goto drop; + + ret = bam_dmux_tx_prepare_skb(bndev, skb); + if (ret) + goto drop; + + if (!bam_dmux_skb_dma_map(skb_dma, DMA_TO_DEVICE)) + goto drop; + + if (active <= 0) { + /* Cannot sleep here so mark skb for wakeup handler and return */ + if (!atomic_long_fetch_or(BIT(skb_dma - dmux->tx_skbs), + &dmux->tx_deferred_skb)) + queue_pm_work(&dmux->tx_wakeup_work); + return NETDEV_TX_OK; + } + + if (!bam_dmux_skb_dma_submit_tx(skb_dma)) + goto drop; + + dma_async_issue_pending(dmux->tx); + return NETDEV_TX_OK; + +drop: + bam_dmux_tx_done(skb_dma); + dev_kfree_skb_any(skb); + return NETDEV_TX_OK; +} + +static void bam_dmux_tx_wakeup_work(struct work_struct *work) +{ + struct bam_dmux *dmux = container_of(work, struct bam_dmux, tx_wakeup_work); + unsigned long pending; + int ret, i; + + ret = pm_runtime_resume_and_get(dmux->dev); + if (ret < 0) { + dev_err(dmux->dev, "Failed to resume: %d\n", ret); + return; + } + + pending = atomic_long_xchg(&dmux->tx_deferred_skb, 0); + if (!pending) + goto out; + + dev_dbg(dmux->dev, "pending skbs after wakeup: %#lx\n", pending); + for_each_set_bit(i, &pending, BAM_DMUX_NUM_SKB) { + bam_dmux_skb_dma_submit_tx(&dmux->tx_skbs[i]); + } + dma_async_issue_pending(dmux->tx); + +out: + pm_runtime_mark_last_busy(dmux->dev); + pm_runtime_put_autosuspend(dmux->dev); +} + +static const struct net_device_ops bam_dmux_ops = { + .ndo_open = bam_dmux_netdev_open, + .ndo_stop = bam_dmux_netdev_stop, + .ndo_start_xmit = bam_dmux_netdev_start_xmit, +}; + +static const struct device_type wwan_type = { + .name = "wwan", +}; + +static void bam_dmux_netdev_setup(struct net_device *dev) +{ + dev->netdev_ops = &bam_dmux_ops; + + dev->type = ARPHRD_RAWIP; + SET_NETDEV_DEVTYPE(dev, &wwan_type); + dev->flags = IFF_POINTOPOINT | IFF_NOARP; + + dev->mtu = ETH_DATA_LEN; + dev->max_mtu = BAM_DMUX_MAX_DATA_SIZE; + dev->needed_headroom = sizeof(struct bam_dmux_hdr); + dev->needed_tailroom = sizeof(u32); /* word-aligned */ + dev->tx_queue_len = DEFAULT_TX_QUEUE_LEN; + + /* This perm addr will be used as interface identifier by IPv6 */ + dev->addr_assign_type = NET_ADDR_RANDOM; + eth_random_addr(dev->perm_addr); +} + +static void bam_dmux_register_netdev_work(struct work_struct *work) +{ + struct bam_dmux *dmux = container_of(work, struct bam_dmux, register_netdev_work); + struct bam_dmux_netdev *bndev; + struct net_device *netdev; + int ch, ret; + + for_each_set_bit(ch, dmux->remote_channels, BAM_DMUX_NUM_CH) { + if (dmux->netdevs[ch]) + continue; + + netdev = alloc_netdev(sizeof(*bndev), "rmnet%d", NET_NAME_ENUM, + bam_dmux_netdev_setup); + if (!netdev) + return; + + SET_NETDEV_DEV(netdev, dmux->dev); + netdev->dev_port = ch; + + bndev = netdev_priv(netdev); + bndev->dmux = dmux; + bndev->ch = ch; + + ret = register_netdev(netdev); + if (ret) { + dev_err(dmux->dev, "Failed to register netdev for channel %u: %d\n", + ch, ret); + free_netdev(netdev); + return; + } + + dmux->netdevs[ch] = netdev; + } +} + +static void bam_dmux_rx_callback(void *data); + +static bool bam_dmux_skb_dma_submit_rx(struct bam_dmux_skb_dma *skb_dma) +{ + struct bam_dmux *dmux = skb_dma->dmux; + struct dma_async_tx_descriptor *desc; + + desc = dmaengine_prep_slave_single(dmux->rx, skb_dma->addr, + skb_dma->skb->len, DMA_DEV_TO_MEM, + DMA_PREP_INTERRUPT); + if (!desc) { + dev_err(dmux->dev, "Failed to prepare RX DMA buffer\n"); + return false; + } + + desc->callback = bam_dmux_rx_callback; + desc->callback_param = skb_dma; + desc->cookie = dmaengine_submit(desc); + return true; +} + +static bool bam_dmux_skb_dma_queue_rx(struct bam_dmux_skb_dma *skb_dma, gfp_t gfp) +{ + if (!skb_dma->skb) { + skb_dma->skb = __netdev_alloc_skb(NULL, BAM_DMUX_BUFFER_SIZE, gfp); + if (!skb_dma->skb) + return false; + skb_put(skb_dma->skb, BAM_DMUX_BUFFER_SIZE); + } + + return bam_dmux_skb_dma_map(skb_dma, DMA_FROM_DEVICE) && + bam_dmux_skb_dma_submit_rx(skb_dma); +} + +static void bam_dmux_cmd_data(struct bam_dmux_skb_dma *skb_dma) +{ + struct bam_dmux *dmux = skb_dma->dmux; + struct sk_buff *skb = skb_dma->skb; + struct bam_dmux_hdr *hdr = (struct bam_dmux_hdr *)skb->data; + struct net_device *netdev = dmux->netdevs[hdr->ch]; + + if (!netdev || !netif_running(netdev)) { + dev_warn(dmux->dev, "Data for inactive channel %u\n", hdr->ch); + return; + } + + if (hdr->len > BAM_DMUX_MAX_DATA_SIZE) { + dev_err(dmux->dev, "Data larger than buffer? (%u > %u)\n", + hdr->len, (u16)BAM_DMUX_MAX_DATA_SIZE); + return; + } + + skb_dma->skb = NULL; /* Hand over to network stack */ + + skb_pull(skb, sizeof(*hdr)); + skb_trim(skb, hdr->len); + skb->dev = netdev; + + /* Only Raw-IP/QMAP is supported by this driver */ + switch (skb->data[0] & 0xf0) { + case 0x40: + skb->protocol = htons(ETH_P_IP); + break; + case 0x60: + skb->protocol = htons(ETH_P_IPV6); + break; + default: + skb->protocol = htons(ETH_P_MAP); + break; + } + + netif_receive_skb(skb); +} + +static void bam_dmux_cmd_open(struct bam_dmux *dmux, struct bam_dmux_hdr *hdr) +{ + struct net_device *netdev = dmux->netdevs[hdr->ch]; + + dev_dbg(dmux->dev, "open channel: %u\n", hdr->ch); + + if (__test_and_set_bit(hdr->ch, dmux->remote_channels)) { + dev_warn(dmux->dev, "Channel already open: %u\n", hdr->ch); + return; + } + + if (netdev) { + netif_device_attach(netdev); + } else { + /* Cannot sleep here, schedule work to register the netdev */ + schedule_work(&dmux->register_netdev_work); + } +} + +static void bam_dmux_cmd_close(struct bam_dmux *dmux, struct bam_dmux_hdr *hdr) +{ + struct net_device *netdev = dmux->netdevs[hdr->ch]; + + dev_dbg(dmux->dev, "close channel: %u\n", hdr->ch); + + if (!__test_and_clear_bit(hdr->ch, dmux->remote_channels)) { + dev_err(dmux->dev, "Channel not open: %u\n", hdr->ch); + return; + } + + if (netdev) + netif_device_detach(netdev); +} + +static void bam_dmux_rx_callback(void *data) +{ + struct bam_dmux_skb_dma *skb_dma = data; + struct bam_dmux *dmux = skb_dma->dmux; + struct sk_buff *skb = skb_dma->skb; + struct bam_dmux_hdr *hdr = (struct bam_dmux_hdr *)skb->data; + + bam_dmux_skb_dma_unmap(skb_dma, DMA_FROM_DEVICE); + + if (hdr->magic != BAM_DMUX_HDR_MAGIC) { + dev_err(dmux->dev, "Invalid magic in header: %#x\n", hdr->magic); + goto out; + } + + if (hdr->ch >= BAM_DMUX_NUM_CH) { + dev_dbg(dmux->dev, "Unsupported channel: %u\n", hdr->ch); + goto out; + } + + switch (hdr->cmd) { + case BAM_DMUX_CMD_DATA: + bam_dmux_cmd_data(skb_dma); + break; + case BAM_DMUX_CMD_OPEN: + bam_dmux_cmd_open(dmux, hdr); + break; + case BAM_DMUX_CMD_CLOSE: + bam_dmux_cmd_close(dmux, hdr); + break; + default: + dev_err(dmux->dev, "Unsupported command %u on channel %u\n", + hdr->cmd, hdr->ch); + break; + } + +out: + if (bam_dmux_skb_dma_queue_rx(skb_dma, GFP_ATOMIC)) + dma_async_issue_pending(dmux->rx); +} + +static bool bam_dmux_power_on(struct bam_dmux *dmux) +{ + struct device *dev = dmux->dev; + struct dma_slave_config dma_rx_conf = { + .direction = DMA_DEV_TO_MEM, + .src_maxburst = BAM_DMUX_BUFFER_SIZE, + }; + int i; + + dmux->rx = dma_request_chan(dev, "rx"); + if (IS_ERR(dmux->rx)) { + dev_err(dev, "Failed to request RX DMA channel: %pe\n", dmux->rx); + dmux->rx = NULL; + return false; + } + dmaengine_slave_config(dmux->rx, &dma_rx_conf); + + for (i = 0; i < BAM_DMUX_NUM_SKB; i++) { + if (!bam_dmux_skb_dma_queue_rx(&dmux->rx_skbs[i], GFP_KERNEL)) + return false; + } + dma_async_issue_pending(dmux->rx); + + return true; +} + +static void bam_dmux_free_skbs(struct bam_dmux_skb_dma skbs[], + enum dma_data_direction dir) +{ + int i; + + for (i = 0; i < BAM_DMUX_NUM_SKB; i++) { + struct bam_dmux_skb_dma *skb_dma = &skbs[i]; + + if (skb_dma->addr) + bam_dmux_skb_dma_unmap(skb_dma, dir); + if (skb_dma->skb) { + dev_kfree_skb(skb_dma->skb); + skb_dma->skb = NULL; + } + } +} + +static void bam_dmux_power_off(struct bam_dmux *dmux) +{ + if (dmux->tx) { + dmaengine_terminate_sync(dmux->tx); + dma_release_channel(dmux->tx); + dmux->tx = NULL; + } + + if (dmux->rx) { + dmaengine_terminate_sync(dmux->rx); + dma_release_channel(dmux->rx); + dmux->rx = NULL; + } + + bam_dmux_free_skbs(dmux->rx_skbs, DMA_FROM_DEVICE); +} + +static irqreturn_t bam_dmux_pc_irq(int irq, void *data) +{ + struct bam_dmux *dmux = data; + bool new_state = !dmux->pc_state; + + dev_dbg(dmux->dev, "pc: %u\n", new_state); + + if (new_state) { + if (bam_dmux_power_on(dmux)) + bam_dmux_pc_ack(dmux); + else + bam_dmux_power_off(dmux); + } else { + bam_dmux_power_off(dmux); + bam_dmux_pc_ack(dmux); + } + + dmux->pc_state = new_state; + wake_up_all(&dmux->pc_wait); + + return IRQ_HANDLED; +} + +static irqreturn_t bam_dmux_pc_ack_irq(int irq, void *data) +{ + struct bam_dmux *dmux = data; + + dev_dbg(dmux->dev, "pc ack\n"); + complete_all(&dmux->pc_ack_completion); + + return IRQ_HANDLED; +} + +static int bam_dmux_runtime_suspend(struct device *dev) +{ + struct bam_dmux *dmux = dev_get_drvdata(dev); + + dev_dbg(dev, "runtime suspend\n"); + bam_dmux_pc_vote(dmux, false); + + return 0; +} + +static int __maybe_unused bam_dmux_runtime_resume(struct device *dev) +{ + struct bam_dmux *dmux = dev_get_drvdata(dev); + + dev_dbg(dev, "runtime resume\n"); + + /* Wait until previous power down was acked */ + if (!wait_for_completion_timeout(&dmux->pc_ack_completion, + BAM_DMUX_REMOTE_TIMEOUT)) + return -ETIMEDOUT; + + /* Vote for power state */ + bam_dmux_pc_vote(dmux, true); + + /* Wait for ack */ + if (!wait_for_completion_timeout(&dmux->pc_ack_completion, + BAM_DMUX_REMOTE_TIMEOUT)) { + bam_dmux_pc_vote(dmux, false); + return -ETIMEDOUT; + } + + /* Wait until we're up */ + if (!wait_event_timeout(dmux->pc_wait, dmux->pc_state, + BAM_DMUX_REMOTE_TIMEOUT)) { + bam_dmux_pc_vote(dmux, false); + return -ETIMEDOUT; + } + + /* Ensure that we actually initialized successfully */ + if (!dmux->rx) { + bam_dmux_pc_vote(dmux, false); + return -ENXIO; + } + + /* Request TX channel if necessary */ + if (dmux->tx) + return 0; + + dmux->tx = dma_request_chan(dev, "tx"); + if (IS_ERR(dmux->rx)) { + dev_err(dev, "Failed to request TX DMA channel: %pe\n", dmux->tx); + dmux->tx = NULL; + bam_dmux_runtime_suspend(dev); + return -ENXIO; + } + + return 0; +} + +static int bam_dmux_probe(struct platform_device *pdev) +{ + struct device *dev = &pdev->dev; + struct bam_dmux *dmux; + int ret, pc_ack_irq, i; + unsigned int bit; + + dmux = devm_kzalloc(dev, sizeof(*dmux), GFP_KERNEL); + if (!dmux) + return -ENOMEM; + + dmux->dev = dev; + platform_set_drvdata(pdev, dmux); + + dmux->pc_irq = platform_get_irq_byname(pdev, "pc"); + if (dmux->pc_irq < 0) + return dmux->pc_irq; + + pc_ack_irq = platform_get_irq_byname(pdev, "pc-ack"); + if (pc_ack_irq < 0) + return pc_ack_irq; + + dmux->pc = devm_qcom_smem_state_get(dev, "pc", &bit); + if (IS_ERR(dmux->pc)) + return dev_err_probe(dev, PTR_ERR(dmux->pc), + "Failed to get pc state\n"); + dmux->pc_mask = BIT(bit); + + dmux->pc_ack = devm_qcom_smem_state_get(dev, "pc-ack", &bit); + if (IS_ERR(dmux->pc_ack)) + return dev_err_probe(dev, PTR_ERR(dmux->pc_ack), + "Failed to get pc-ack state\n"); + dmux->pc_ack_mask = BIT(bit); + + init_waitqueue_head(&dmux->pc_wait); + init_completion(&dmux->pc_ack_completion); + complete_all(&dmux->pc_ack_completion); + + spin_lock_init(&dmux->tx_lock); + INIT_WORK(&dmux->tx_wakeup_work, bam_dmux_tx_wakeup_work); + INIT_WORK(&dmux->register_netdev_work, bam_dmux_register_netdev_work); + + for (i = 0; i < BAM_DMUX_NUM_SKB; i++) { + dmux->rx_skbs[i].dmux = dmux; + dmux->tx_skbs[i].dmux = dmux; + } + + /* Runtime PM manages our own power vote. + * Note that the RX path may be active even if we are runtime suspended, + * since it is controlled by the remote side. + */ + pm_runtime_set_autosuspend_delay(dev, BAM_DMUX_AUTOSUSPEND_DELAY); + pm_runtime_use_autosuspend(dev); + pm_runtime_enable(dev); + + ret = devm_request_threaded_irq(dev, pc_ack_irq, NULL, bam_dmux_pc_ack_irq, + IRQF_ONESHOT, NULL, dmux); + if (ret) + return ret; + + ret = devm_request_threaded_irq(dev, dmux->pc_irq, NULL, bam_dmux_pc_irq, + IRQF_ONESHOT, NULL, dmux); + if (ret) + return ret; + + ret = irq_get_irqchip_state(dmux->pc_irq, IRQCHIP_STATE_LINE_LEVEL, + &dmux->pc_state); + if (ret) + return ret; + + /* Check if remote finished initialization before us */ + if (dmux->pc_state) { + if (bam_dmux_power_on(dmux)) + bam_dmux_pc_ack(dmux); + else + bam_dmux_power_off(dmux); + } + + return 0; +} + +static int bam_dmux_remove(struct platform_device *pdev) +{ + struct bam_dmux *dmux = platform_get_drvdata(pdev); + struct device *dev = dmux->dev; + LIST_HEAD(list); + int i; + + /* Unregister network interfaces */ + cancel_work_sync(&dmux->register_netdev_work); + rtnl_lock(); + for (i = 0; i < BAM_DMUX_NUM_CH; ++i) + if (dmux->netdevs[i]) + unregister_netdevice_queue(dmux->netdevs[i], &list); + unregister_netdevice_many(&list); + rtnl_unlock(); + cancel_work_sync(&dmux->tx_wakeup_work); + + /* Drop our own power vote */ + pm_runtime_disable(dev); + pm_runtime_dont_use_autosuspend(dev); + bam_dmux_runtime_suspend(dev); + pm_runtime_set_suspended(dev); + + /* Try to wait for remote side to drop power vote */ + if (!wait_event_timeout(dmux->pc_wait, !dmux->rx, BAM_DMUX_REMOTE_TIMEOUT)) + dev_err(dev, "Timed out waiting for remote side to suspend\n"); + + /* Make sure everything is cleaned up before we return */ + disable_irq(dmux->pc_irq); + bam_dmux_power_off(dmux); + bam_dmux_free_skbs(dmux->tx_skbs, DMA_TO_DEVICE); + + return 0; +} + +static const struct dev_pm_ops bam_dmux_pm_ops = { + SET_RUNTIME_PM_OPS(bam_dmux_runtime_suspend, bam_dmux_runtime_resume, NULL) +}; + +static const struct of_device_id bam_dmux_of_match[] = { + { .compatible = "qcom,bam-dmux" }, + { /* sentinel */ } +}; +MODULE_DEVICE_TABLE(of, bam_dmux_of_match); + +static struct platform_driver bam_dmux_driver = { + .probe = bam_dmux_probe, + .remove = bam_dmux_remove, + .driver = { + .name = "bam-dmux", + .pm = &bam_dmux_pm_ops, + .of_match_table = bam_dmux_of_match, + }, +}; +module_platform_driver(bam_dmux_driver); + +MODULE_LICENSE("GPL v2"); +MODULE_DESCRIPTION("Qualcomm BAM-DMUX WWAN Network Driver"); +MODULE_AUTHOR("Stephan Gerhold <stephan@gerhold.net>");
The BAM Data Multiplexer provides access to the network data channels of modems integrated into many older Qualcomm SoCs, e.g. Qualcomm MSM8916 or MSM8974. It is built using a simple protocol layer on top of a DMA engine (Qualcomm BAM) and bidirectional interrupts to coordinate power control. The modem announces a fixed set of channels by sending an OPEN command. The driver exports each channel as separate network interface so that a connection can be established via QMI from userspace. The network interface can work either in Ethernet or Raw-IP mode (configurable via QMI). However, Ethernet mode seems to be broken with most firmwares (network packets are actually received as Raw-IP), therefore the driver only supports Raw-IP mode. The driver uses runtime PM to coordinate power control with the modem. TX/RX buffers are put in a kind of "ring queue" and submitted via the bam_dma driver of the DMAEngine subsystem. The basic architecture looks roughly like this: +------------+ +-------+ [IPv4/6] | BAM-DMUX | | | [Data...] | | | | ---------->|rmnet0 | [DMUX chan: x] | | [IPv4/6] | (chan: 0) | [IPv4/6] | | [Data...] | | [Data...] | | ---------->|rmnet1 |--------------->| Modem | | (chan: 1) | BAM | | [IPv4/6] | ... | (DMA Engine) | | [Data...] | | | | ---------->|rmnet7 | | | | (chan: 7) | | | +------------+ +-------+ However, on newer SoCs/firmware versions Qualcomm began gradually moving to QMAP (rmnet driver) as backend-independent protocol for multiplexing and data aggegration. Some firmware versions allow using QMAP on top of BAM-DMUX (effectively resulting in a second multiplexing layer plus data aggregation). The architecture with QMAP would look roughly like this: +-------------+ +------------+ +-------+ [IPv4/6] | RMNET | | BAM-DMUX | | | [Data...] | | | | [DMUX chan: 0] | | ---------->|rmnet_data1 | ----->|rmnet0 | [QMAP mux-id: x] | | | (mux-id: 1) | | | (chan: 0) | [IPv4/6] | | | | | | | [Data...] | | [IPv4/6] | ... |------ | |----------------->| Modem | [Data...] | | | | BAM | | ---------->|rmnet_data42 | [QMAP: x] |[rmnet1] | (DMA Engine) | | | (mux-id: 42)| [IPv4/6] |... unused! | | | | | [Data...] |[rmnet7] | | | | | | | | | +-------------+ +------------+ +-------+ In this case, rmnet1-7 would remain unused. The firmware used on the most recent SoCs with BAM-DMUX even seems to announce only a single BAM-DMUX channel (rmnet0), which makes QMAP the only option for multiplexing there. So far the driver is mainly tested on various smartphones/tablets based on Qualcomm MSM8916/MSM8974 without QMAP. It looks like QMAP depends on a MTU negotiation feature in BAM-DMUX which is not yet supported by the driver. Signed-off-by: Stephan Gerhold <stephan@gerhold.net> --- Note that this is my first network driver, so I apologize in advance if I made some obvious mistakes. :) I'm not sure how to integrate the driver with the WWAN subsystem yet. At the moment the driver creates network interfaces for all channels announced by the modem, it does not make use of the WWAN link management yet. Unfortunately, this is a bit complicated: Both QMAP and the built-in multiplexing layer might be needed at some point. There are firmware versions that do not support QMAP and the other way around (the built-in multiplexing was disabled on very recent firmware versions). Only userspace can check if QMAP is supported in the firmware (via QMI). I could ignore QMAP completely for now but I think someone will show up who will need this eventually. And if there is going to be common code for QMAP/rmnet link management it would be nice if BAM-DMUX could also make use of it. But the question is, how could this look like? How do we know if we should create a link for QMAP or a BAM-DMUX channel? Does it even make sense to manage the 1-8 channels via the WWAN link management? Another problem is that the WWAN subsystem currently creates all network interfaces below the common WWAN device. This means that userspace like ModemManager has no way to check which driver provides them. This is necessary though to decide how to set it up via QMI (ModemManager uses it). For reference, example of the channels announced by firmwares on various SoCs: - Qualcomm MSM8974: channel 0-7, QMAP not supported - Qualcomm MSM8916: channel 0-7, QMAP usually supported, but not always (depends on firmware version) - Qualcomm MSM8937: channel 0 only, QMAP required for multiplexing(?) (Note: This one is theoretic based on logs, this was not tested so far...) --- MAINTAINERS | 8 + drivers/net/wwan/Kconfig | 13 + drivers/net/wwan/Makefile | 1 + drivers/net/wwan/qcom_bam_dmux.c | 907 +++++++++++++++++++++++++++++++ 4 files changed, 929 insertions(+) create mode 100644 drivers/net/wwan/qcom_bam_dmux.c