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authorDavid Brownell <david-b@pacbell.net>2008-04-08 20:41:58 -0400
committerLinus Torvalds <torvalds@linux-foundation.org>2008-04-08 21:25:53 -0400
commit6395bee7e92bf34e95dc67c1da5acc30e8b98244 (patch)
tree98a5f30911f1b28f1b9c921b9112f199fb044c43
parentf9e522caece074b9a985436d611127e8e96ad446 (diff)
spi: documentation tweaks
Update SPI documentation to clarify some areas of recent confusion: clock polarity takes effect when chipselect goes active; and zero length buffers are OK in certain cases. Signed-off-by: David Brownell <dbrownell@users.sourceforge.net> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
-rw-r--r--Documentation/spi/spi-summary15
1 files changed, 14 insertions, 1 deletions
diff --git a/Documentation/spi/spi-summary b/Documentation/spi/spi-summary
index 8861e47e5a2d..6d5f18143c50 100644
--- a/Documentation/spi/spi-summary
+++ b/Documentation/spi/spi-summary
@@ -116,6 +116,13 @@ low order bit. So when a chip's timing diagram shows the clock
116starting low (CPOL=0) and data stabilized for sampling during the 116starting low (CPOL=0) and data stabilized for sampling during the
117trailing clock edge (CPHA=1), that's SPI mode 1. 117trailing clock edge (CPHA=1), that's SPI mode 1.
118 118
119Note that the clock mode is relevant as soon as the chipselect goes
120active. So the master must set the clock to inactive before selecting
121a slave, and the slave can tell the chosen polarity by sampling the
122clock level when its select line goes active. That's why many devices
123support for example both modes 0 and 3: they don't care about polarity,
124and alway clock data in/out on rising clock edges.
125
119 126
120How do these driver programming interfaces work? 127How do these driver programming interfaces work?
121------------------------------------------------ 128------------------------------------------------
@@ -379,8 +386,14 @@ any more such messages.
379 + when bidirectional reads and writes start ... by how its 386 + when bidirectional reads and writes start ... by how its
380 sequence of spi_transfer requests is arranged; 387 sequence of spi_transfer requests is arranged;
381 388
389 + which I/O buffers are used ... each spi_transfer wraps a
390 buffer for each transfer direction, supporting full duplex
391 (two pointers, maybe the same one in both cases) and half
392 duplex (one pointer is NULL) transfers;
393
382 + optionally defining short delays after transfers ... using 394 + optionally defining short delays after transfers ... using
383 the spi_transfer.delay_usecs setting; 395 the spi_transfer.delay_usecs setting (this delay can be the
396 only protocol effect, if the buffer length is zero);
384 397
385 + whether the chipselect becomes inactive after a transfer and 398 + whether the chipselect becomes inactive after a transfer and
386 any delay ... by using the spi_transfer.cs_change flag; 399 any delay ... by using the spi_transfer.cs_change flag;