xref: /freebsd/share/man/man9/firmware.9 (revision aa1a8ff2d6dbc51ef058f46f3db5a8bb77967145)
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24.Dd January 25, 2024
25.Dt FIRMWARE 9
26.Os
27.Sh NAME
28.Nm firmware_register ,
29.Nm firmware_unregister ,
30.Nm firmware_get ,
31.Nm firmware_get_flags ,
32.Nm firmware_put
33.Nd firmware image loading and management
34.Sh SYNOPSIS
35.In sys/param.h
36.In sys/systm.h
37.In sys/linker.h
38.In sys/firmware.h
39.Bd -literal
40struct firmware {
41	const char	*name;		/* system-wide name */
42	const void	*data;		/* location of image */
43	size_t		datasize;	/* size of image in bytes */
44	unsigned int	version;	/* version of the image */
45};
46.Ed
47.Ft "const struct firmware *"
48.Fo firmware_register
49.Fa "const char *imagename"
50.Fa "const void *data"
51.Fa "size_t datasize"
52.Fa "unsigned int version"
53.Fa "const struct firmware *parent"
54.Fc
55.Ft int
56.Fn firmware_unregister "const char *imagename"
57.Ft "const struct firmware *"
58.Fn firmware_get "const char *imagename"
59.Ft "const struct firmware *"
60.Fn firmware_get_flags "const char *imagename" "uint32_t flags"
61.Ft void
62.Fn firmware_put "const struct firmware *fp" "int flags"
63.Sh DESCRIPTION
64The
65.Nm firmware
66abstraction provides a convenient interface for loading
67.Nm firmware images
68into the kernel, and for accessing such images from kernel components.
69.Pp
70A
71.Nm firmware image
72(or
73.Nm image
74for brevity)
75is an opaque block of data residing in kernel memory.
76It is associated to a unique
77.Nm imagename
78which constitutes a search key, and to an integer
79.Nm version
80number, which is also an opaque piece of information for the
81firmware subsystem.
82.Pp
83An image is registered with the
84.Nm firmware
85subsystem by calling the function
86.Fn firmware_register ,
87and unregistered by calling
88.Fn firmware_unregister .
89These functions are usually (but not exclusively) called by
90specially crafted kernel modules that contain the firmware image.
91The modules can be statically compiled in the kernel, or loaded by
92.Pa /boot/loader ,
93manually at runtime, or on demand by the firmware subsystem.
94.Pp
95Firmware binary files may also be loaded directly rather than embedded into
96kernel modules.
97.Pp
98.Nm Clients
99of the firmware subsystem can request access to a given image
100by calling the function
101.Fn firmware_get
102with the
103.Nm imagename
104they want as an argument, or by calling
105.Fn firmware_get_flags
106with the
107.Nm imagename
108and
109.Nm flags
110they want as an arguments.
111If a matching image is not already registered,
112the firmware subsystem will try to load it using the
113mechanisms specified below (typically, a kernel module
114with
115.Nm
116the same name
117as the image).
118.Sh API DESCRIPTION
119The kernel
120.Nm
121firmware API
122is made of the following functions:
123.Pp
124.Fn firmware_register
125registers with the kernel an image of size
126.Nm datasize
127located at address
128.Nm data ,
129under the name
130.Nm imagename .
131.Pp
132The function returns NULL on error (e.g. because an
133image with the same name already exists, or the image
134table is full), or a
135.Ft const struct firmware *
136pointer to the image requested.
137.Pp
138.Fn firmware_unregister
139tries to unregister the firmware image
140.Nm imagename
141from the system.
142The function is successful and returns 0
143if there are no pending references to the image, otherwise
144it does not unregister the image and returns EBUSY.
145.Pp
146.Fn firmware_get
147and
148.Fn firmware_get_flags
149return the requested firmware image.
150The
151.Fa flags
152argument may be set to
153.Dv FIRMWARE_GET_NOWARN
154to indicate that errors on firmware load or registration should
155only be logged in case of
156.Nm booverbose .
157If the image is not yet registered with the system,
158the functions try to load it.
159This involves the linker subsystem and disk access, so
160.Fn firmware_get
161or
162.Fn firmware_get_flags
163must not be called with any locks (except for
164.Va Giant ) .
165Note also that if the firmware image is loaded from a filesystem
166it must already be mounted.
167In particular this means that it may be necessary to defer requests
168from a driver attach method unless it is known the root filesystem is
169already mounted.
170.Pp
171On success,
172.Fn firmware_get
173and
174.Fn firmware_get_flags
175return a pointer to the image description and increase the reference count
176for this image.
177On failure, the functions return NULL.
178.Pp
179.Fn firmware_put
180drops a reference to a firmware image.
181The
182.Fa flags
183argument may be set to
184.Dv FIRMWARE_UNLOAD
185to indicate that
186firmware_put is free to reclaim resources associated with
187the firmware image if this is the last reference.
188By default a firmware image will be deferred to a
189.Xr taskqueue 9
190thread so the call may be done while holding a lock.
191In certain cases, such as on driver detach, this cannot be allowed.
192.Sh FIRMWARE LOADING VIA MODULES
193As mentioned before, any component of the system can register
194firmware images at any time by simply calling
195.Fn firmware_register .
196.Pp
197This is typically done when a module containing
198a firmware image is given control,
199whether compiled in, or preloaded by
200.Pa /boot/loader ,
201or manually loaded with
202.Xr kldload 8 .
203However, a system can implement additional mechanisms to bring
204these images in memory before calling
205.Fn firmware_register .
206.Pp
207When
208.Fn firmware_get
209or
210.Fn firmware_get_flags
211does not find the requested image, it tries to load it using
212one of the available loading mechanisms.
213At the moment, there is only one, namely
214.Nm Loadable kernel modules .
215.Pp
216A firmware image named
217.Nm foo
218is looked up by trying to load the module named
219.Nm foo.ko ,
220using the facilities described in
221.Xr kld 4 .
222In particular, images are looked up in the directories specified
223by the sysctl variable
224.Nm kern.module_path
225which on most systems defaults to
226.Pa /boot/kernel;/boot/modules .
227.Pp
228Note that in case a module contains multiple images,
229the caller should first request a
230.Fn firmware_get
231or
232.Fn firmware_get_flags
233for the first image contained in the module, followed by requests
234for the other images.
235.Sh BUILDING FIRMWARE LOADABLE MODULES
236A firmware module is built by embedding the
237.Nm firmware image
238into a suitable loadable kernel module that calls
239.Fn firmware_register
240on loading, and
241.Fn firmware_unregister
242on unloading.
243.Pp
244Various system scripts and makefiles let you build a module
245by simply writing a Makefile with the following entries:
246.Bd -literal
247
248        KMOD=   imagename
249        FIRMWS= image_file:imagename[:version]
250        .include <bsd.kmod.mk>
251
252.Ed
253where KMOD is the basename of the module; FIRMWS is a list of
254colon-separated tuples indicating the image_file's to be embedded
255in the module, the imagename and version of each firmware image.
256.Pp
257If you need to embed firmware images into a system, you should write
258appropriate entries in the <files.arch> or <files> file, e.g. this example is
259from
260.Nm sys/conf/files
261.Bd -literal
262iwn1000fw.c			optional iwn1000fw | iwnfw		\\
263	compile-with	"${AWK} -f $S/tools/fw_stub.awk iwn1000.fw:iwn1000fw -miwn1000fw -c${.TARGET}" \\
264	no-ctfconvert no-implicit-rule before-depend local		\\
265	clean		"iwn1000fw.c"
266#
267# NB: ld encodes the path in the binary symbols generated for the
268#     firmware image so link the file to the object directory to
269#     get known values for reference in the _fw.c file.
270#
271iwn1000fw.fwo			optional iwn1000fw | iwnfw		\\
272	dependency	"iwn1000.fw"					\\
273	compile-with	"${NORMAL_FWO}"					\\
274	no-implicit-rule						\\
275	clean		"iwn1000fw.fwo"
276.Ed
277.Pp
278Firmware was previously committed to the source tree as uuencoded files,
279but this is no longer required; the binary firmware file should be committed
280to the tree as provided by the vendor.
281.Pp
282Note that generating the firmware modules in this way requires
283the availability of the following tools:
284.Xr awk 1 ,
285.Xr make 1 ,
286the compiler and the linker.
287.Sh LOADING BINARY FIRMWARE FILES
288.Ss Binary Firmware Format
289Binary firmware files can also be loaded, either from
290.Pa /boot/loader ,
291or when
292.Nm firmware_get
293cannot find the registered firmware from a kernel module.
294Binary firmware files are raw binary files that the creator of the firmware
295made.
296They offer an easier way to load firmware, but one that lacks the full
297flexibility and generality of kernel modules with the following restrictions:
298.Bl -bullet -compact
299.It
300Binary firmware files only hold one set of firmware.
301.It
302They do not offer kernel module dependencies to ensure they are loaded
303automatically by the boot loader.
304.It
305They cannot be compiled into the kernel.
306.It
307The
308.Nm imagename
309is identical to the full path name used to load the module.
310.It
311The version number is assumed to be zero.
312.El
313.Ss Loading from Pa /boot/loader
314Binary firmware files may be loaded either from the command line with
315.Dq load -t firmware /boot/firmware/filename
316or using the
317.Xr loader.conf 5
318mechanism to load modules with a type of
319.Dq firmware
320For example
321.Bd -literal
322wififw_load="YES"
323wififw_name="/boot/firmware/wifi2034_fw.bin"
324wififw_type="firmware"
325.Ed
326.Ss On demand loading from Nm firmware_get
327If no kernel module with an embedded firmware image named
328.Nm imagename
329is loaded, then
330.Nm imagename
331will be appended to the module path (by default
332.Pa /boot/firmware/ )
333and if that file exists, it will be loaded and registered using
334.Nm firmware_register
335using the full path to the filename as
336.Nm imagename .
337.Ss Searching for imagename
338.Nm firmware_get
339uses the following algorithm to find firmware images:
340.Bl -bullet -compact
341.It
342If an existing firmware image is registered for
343.Fa imagename,
344.that image is returned.
345.It
346If
347.Fa imagename
348matches the trailing subpath of a registered image with a full path, that image is returned.
349.It
350he kernel linker searches for a kernel module named
351.Fa imagename .
352If a kernel module is found, it is loaded, and
353the list of registered firmware images is searched again.
354If a match is found, the matching image is returned.
355.It
356The kernel searches for a file named
357.Fa imagename
358in the firmware image path
359(by default
360.Pa /boot/firmware/ ) .
361If that file exists and can be read,
362it contents are registered as a firmware image with the full path as the
363.Nm imagename
364and that firmware is returned.
365Currently, there is an 8MB limit on the size of the firmware image.
366This can be changed by by the sysctl variable
367.Nm debug.max_firmware_size .
368.El
369.Sh SEE ALSO
370.Xr kld 4 ,
371.Xr module 9
372.Pp
373.Pa /boot/firmware
374.Pp
375.Pa /usr/share/examples/kld/firmware
376.Sh HISTORY
377The
378.Nm firmware
379system was introduced in
380.Fx 6.1 .
381Binary firmware loading was introduced in
382.Fx 15.0 .
383.Sh AUTHORS
384This manual page was written by
385.An Max Laier Aq Mt mlaier@FreeBSD.org .
386