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Comprehensive technical documentation covering: - Hardware: OCS/ECS/AGA custom chip registers, Copper & Blitter deep dives - Boot sequence: cold boot through startup-sequence - Binary format: HUNK executable spec, relocation, debug info - Linking & ABI: .fd files, LVO tables, register calling conventions - Exec kernel: tasks, interrupts, memory, signals, semaphores - AmigaDOS: file I/O, FFS/OFS layout, CLI/Shell scripting - Graphics: planar bitmaps, Copper programming, HAM/EHB modes - Intuition: screens, windows, IDCMP, BOOPSI - Devices: trackdisk, SCSI, serial, timer, audio, keyboard - Libraries: utility, expansion, IFFParse, locale, ARexx - Networking: bsdsocket API, SANA-II, TCP/IP stack comparison - Toolchain: GCC, vasm/vlink, SAS/C, NDK, debugging - Reverse engineering: IDA/Ghidra setup, compiler fingerprints, case studies - CPU & MMU: 68040/060 emulation libs, PMMU, cache management - Driver development: SANA-II, Picasso96/RTG, AHI audio All files include breadcrumb navigation. No local paths or proprietary content.
220 lines
6.3 KiB
Markdown
220 lines
6.3 KiB
Markdown
[← Home](../README.md) · [Driver Development](README.md)
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# Writing a SANA-II Network Device Driver
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## Overview
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A SANA-II driver is an Amiga device that implements the SANA-II specification. It provides the bridge between a TCP/IP stack (bsdsocket.library) and network hardware. This guide covers writing a complete SANA-II driver from scratch.
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---
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## Architecture
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```
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TCP/IP Stack (AmiTCP/Roadshow)
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↓ OpenDevice("mynet.device", 0, ios2req, 0)
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↓ CMD_READ / CMD_WRITE / S2_DEVICEQUERY / ...
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SANA-II Device Driver (mynet.device)
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↓ Hardware register access / DMA
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Network Hardware (Ethernet NIC / FPGA bridge)
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```
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---
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## Required Commands
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Every SANA-II driver **must** implement these commands:
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| Command | Code | Description |
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|---|---|---|
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| `CMD_READ` | 2 | Read a packet (async — queue and reply when packet arrives) |
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| `CMD_WRITE` | 3 | Send a packet |
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| `CMD_FLUSH` | 8 | Abort all pending I/O |
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| `S2_DEVICEQUERY` | 9 | Report hardware capabilities |
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| `S2_GETSTATIONADDRESS` | 10 | Return MAC address |
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| `S2_CONFIGINTERFACE` | 11 | Set MAC address and bring up |
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| `S2_ONLINE` | 14 | Bring interface online |
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| `S2_OFFLINE` | 15 | Take interface offline |
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| `S2_ADDMULTICASTADDRESS` | 16 | Join multicast group |
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| `S2_DELMULTICASTADDRESS` | 17 | Leave multicast group |
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| `S2_GETGLOBALSTATS` | 21 | Return packet statistics |
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| `S2_ONEVENT` | 22 | Notify on event (link up/down) |
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| `S2_READORPHAN` | 23 | Read unmatched packet types |
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---
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## struct IOSana2Req
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```c
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/* devices/sana2.h — NDK39/SANA-II Spec */
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struct IOSana2Req {
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struct IORequest ios2_Req;
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ULONG ios2_WireError; /* wire-level error code */
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ULONG ios2_PacketType; /* Ethernet type (e.g. 0x0800 = IPv4) */
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UBYTE ios2_SrcAddr[SANA2_MAX_ADDR_BYTES]; /* source MAC */
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UBYTE ios2_DstAddr[SANA2_MAX_ADDR_BYTES]; /* destination MAC */
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ULONG ios2_DataLength; /* data length */
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APTR ios2_Data; /* packet data (via buffer management) */
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APTR ios2_StatData; /* statistics data pointer */
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APTR ios2_BufferManagement; /* buffer mgmt hooks from stack */
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};
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```
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---
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## Buffer Management Hooks
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The TCP/IP stack provides buffer copy functions via tags at OpenDevice time. Your driver **must** use these — never copy data directly:
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```c
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/* In your DevOpen: */
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typedef BOOL (*CopyToBuff)(APTR to, APTR from, ULONG len);
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typedef BOOL (*CopyFromBuff)(APTR to, APTR from, ULONG len);
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struct BufferManagement {
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CopyToBuff bm_CopyToBuff;
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CopyFromBuff bm_CopyFromBuff;
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};
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/* Parse tags from ios2req->ios2_BufferManagement: */
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struct TagItem *tags = (struct TagItem *)ios2req->ios2_BufferManagement;
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struct BufferManagement *bm = AllocMem(sizeof(*bm), MEMF_PUBLIC);
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bm->bm_CopyToBuff = (CopyToBuff)GetTagData(S2_CopyToBuff, 0, tags);
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bm->bm_CopyFromBuff = (CopyFromBuff)GetTagData(S2_CopyFromBuff, 0, tags);
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ios2req->ios2_BufferManagement = bm;
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```
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---
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## Implementing CMD_READ (Receive Path)
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```c
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void CmdRead(struct IOSana2Req *ios2, struct MyDevBase *base)
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{
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struct MyUnit *unit = (struct MyUnit *)ios2->ios2_Req.io_Unit;
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/* CMD_READ is ALWAYS async — queue the request */
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ios2->ios2_Req.io_Flags &= ~IOF_QUICK;
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Disable();
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/* Queue by packet type for fast dispatch on interrupt: */
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struct ReadQueue *rq = FindReadQueue(unit, ios2->ios2_PacketType);
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if (!rq) {
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rq = CreateReadQueue(unit, ios2->ios2_PacketType);
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}
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AddTail(&rq->rq_List, &ios2->ios2_Req.io_Message.mn_Node);
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Enable();
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/* Do NOT ReplyMsg — will be replied when a packet arrives */
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}
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```
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---
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## Implementing CMD_WRITE (Transmit Path)
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```c
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void CmdWrite(struct IOSana2Req *ios2, struct MyDevBase *base)
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{
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struct MyUnit *unit = (struct MyUnit *)ios2->ios2_Req.io_Unit;
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struct BufferManagement *bm = ios2->ios2_BufferManagement;
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UBYTE txbuf[1536]; /* max Ethernet frame */
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ULONG len = ios2->ios2_DataLength;
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/* Build Ethernet header: */
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CopyMem(ios2->ios2_DstAddr, &txbuf[0], 6); /* dest MAC */
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CopyMem(unit->mu_StationAddr, &txbuf[6], 6); /* src MAC */
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txbuf[12] = (ios2->ios2_PacketType >> 8) & 0xFF;
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txbuf[13] = ios2->ios2_PacketType & 0xFF;
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/* Copy payload from stack's buffer: */
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bm->bm_CopyFromBuff(&txbuf[14], ios2->ios2_Data, len);
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/* Send to hardware: */
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HW_Transmit(unit, txbuf, len + 14);
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ios2->ios2_Req.io_Error = 0;
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TermIO(ios2);
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}
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```
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---
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## Interrupt Handler (Packet Arrival)
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```c
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/* Called when hardware signals packet received: */
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LONG __saveds RxInterrupt(struct MyDevBase *base __asm("a1"))
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{
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struct MyUnit *unit = base->md_Units[0];
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UBYTE rxbuf[1536];
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ULONG len;
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while (HW_HasPacket(unit)) {
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len = HW_ReceivePacket(unit, rxbuf, sizeof(rxbuf));
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UWORD ptype = (rxbuf[12] << 8) | rxbuf[13];
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/* Find a pending CMD_READ for this packet type: */
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struct ReadQueue *rq = FindReadQueue(unit, ptype);
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if (rq && !IsListEmpty(&rq->rq_List)) {
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struct IOSana2Req *ios2 =
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(struct IOSana2Req *)RemHead(&rq->rq_List);
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struct BufferManagement *bm = ios2->ios2_BufferManagement;
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bm->bm_CopyToBuff(ios2->ios2_Data, &rxbuf[14], len - 14);
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CopyMem(&rxbuf[6], ios2->ios2_SrcAddr, 6);
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ios2->ios2_DataLength = len - 14;
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ios2->ios2_Req.io_Error = 0;
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ReplyMsg(&ios2->ios2_Req.io_Message);
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} else {
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unit->mu_Stats.DroppedPackets++;
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}
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}
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return 0;
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}
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```
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---
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## S2_DEVICEQUERY Response
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```c
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void CmdDeviceQuery(struct IOSana2Req *ios2, struct MyDevBase *base)
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{
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struct Sana2DeviceQuery *query = ios2->ios2_StatData;
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query->DevQueryFormat = 0;
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query->DeviceLevel = 0;
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query->AddrFieldSize = 48; /* 48-bit MAC */
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query->MTU = 1500; /* Ethernet MTU */
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query->BPS = 100000000; /* 100 Mbps */
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query->HardwareType = S2WireType_Ethernet;
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ios2->ios2_Req.io_Error = 0;
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TermIO(ios2);
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}
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```
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---
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## Building
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```makefile
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CFLAGS = -noixemul -m68000 -Os -fomit-frame-pointer
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mynet.device: mynet.o
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$(CC) $(CFLAGS) -nostartfiles -o $@ $^
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```
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Install to `DEVS:Networks/mynet.device`.
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---
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## References
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- SANA-II Network Device Driver Specification v2 (Commodore)
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- NDK39: `devices/sana2.h`
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- Example drivers: a2065.device source, plipbox driver
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