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authorMauro Carvalho Chehab2020-06-15 08:50:10 +0200
committerJonathan Corbet2020-06-19 14:05:15 -0600
commitddc92399cc656d4fafc80a92743f8b4473ec9b3f (patch)
tree8db80fca70b46399a6d720e3b88f20fc55b1298c /Documentation/crypto
parent5846551bb147d2ae4a47f36de3c4ea46892ba180 (diff)
docs: crypto: convert async-tx-api.txt to ReST format
- Place the txt index inside a comment; - Use title and chapter markups; - Adjust markups for numbered list; - Mark literal blocks as such; - Use tables markup. - Adjust indentation when needed. Acked-By: Vinod Koul <vkoul@kernel.org> # dmaengine Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org> Link: https://lore.kernel.org/r/98977242130efe86d1200f7a167299d4c1c205c5.1592203650.git.mchehab+huawei@kernel.org Signed-off-by: Jonathan Corbet <corbet@lwn.net>
Diffstat (limited to 'Documentation/crypto')
-rw-r--r--Documentation/crypto/async-tx-api.rst (renamed from Documentation/crypto/async-tx-api.txt)255
-rw-r--r--Documentation/crypto/index.rst2
2 files changed, 152 insertions, 105 deletions
diff --git a/Documentation/crypto/async-tx-api.txt b/Documentation/crypto/async-tx-api.rst
index 7bf1be20d93a..bfc773991bdc 100644
--- a/Documentation/crypto/async-tx-api.txt
+++ b/Documentation/crypto/async-tx-api.rst
@@ -1,27 +1,32 @@
- Asynchronous Transfers/Transforms API
+.. SPDX-License-Identifier: GPL-2.0
-1 INTRODUCTION
+=====================================
+Asynchronous Transfers/Transforms API
+=====================================
-2 GENEALOGY
+.. Contents
-3 USAGE
-3.1 General format of the API
-3.2 Supported operations
-3.3 Descriptor management
-3.4 When does the operation execute?
-3.5 When does the operation complete?
-3.6 Constraints
-3.7 Example
+ 1. INTRODUCTION
-4 DMAENGINE DRIVER DEVELOPER NOTES
-4.1 Conformance points
-4.2 "My application needs exclusive control of hardware channels"
+ 2 GENEALOGY
-5 SOURCE
+ 3 USAGE
+ 3.1 General format of the API
+ 3.2 Supported operations
+ 3.3 Descriptor management
+ 3.4 When does the operation execute?
+ 3.5 When does the operation complete?
+ 3.6 Constraints
+ 3.7 Example
----
+ 4 DMAENGINE DRIVER DEVELOPER NOTES
+ 4.1 Conformance points
+ 4.2 "My application needs exclusive control of hardware channels"
-1 INTRODUCTION
+ 5 SOURCE
+
+1. Introduction
+===============
The async_tx API provides methods for describing a chain of asynchronous
bulk memory transfers/transforms with support for inter-transactional
@@ -31,7 +36,8 @@ that is written to the API can optimize for asynchronous operation and
the API will fit the chain of operations to the available offload
resources.
-2 GENEALOGY
+2.Genealogy
+===========
The API was initially designed to offload the memory copy and
xor-parity-calculations of the md-raid5 driver using the offload engines
@@ -39,40 +45,52 @@ present in the Intel(R) Xscale series of I/O processors. It also built
on the 'dmaengine' layer developed for offloading memory copies in the
network stack using Intel(R) I/OAT engines. The following design
features surfaced as a result:
-1/ implicit synchronous path: users of the API do not need to know if
+
+1. implicit synchronous path: users of the API do not need to know if
the platform they are running on has offload capabilities. The
operation will be offloaded when an engine is available and carried out
in software otherwise.
-2/ cross channel dependency chains: the API allows a chain of dependent
+2. cross channel dependency chains: the API allows a chain of dependent
operations to be submitted, like xor->copy->xor in the raid5 case. The
API automatically handles cases where the transition from one operation
to another implies a hardware channel switch.
-3/ dmaengine extensions to support multiple clients and operation types
+3. dmaengine extensions to support multiple clients and operation types
beyond 'memcpy'
-3 USAGE
+3. Usage
+========
+
+3.1 General format of the API
+-----------------------------
+
+::
+
+ struct dma_async_tx_descriptor *
+ async_<operation>(<op specific parameters>, struct async_submit ctl *submit)
-3.1 General format of the API:
-struct dma_async_tx_descriptor *
-async_<operation>(<op specific parameters>, struct async_submit ctl *submit)
+3.2 Supported operations
+------------------------
-3.2 Supported operations:
-memcpy - memory copy between a source and a destination buffer
-memset - fill a destination buffer with a byte value
-xor - xor a series of source buffers and write the result to a
+======== ====================================================================
+memcpy memory copy between a source and a destination buffer
+memset fill a destination buffer with a byte value
+xor xor a series of source buffers and write the result to a
destination buffer
-xor_val - xor a series of source buffers and set a flag if the
+xor_val xor a series of source buffers and set a flag if the
result is zero. The implementation attempts to prevent
writes to memory
-pq - generate the p+q (raid6 syndrome) from a series of source buffers
-pq_val - validate that a p and or q buffer are in sync with a given series of
+pq generate the p+q (raid6 syndrome) from a series of source buffers
+pq_val validate that a p and or q buffer are in sync with a given series of
sources
-datap - (raid6_datap_recov) recover a raid6 data block and the p block
+datap (raid6_datap_recov) recover a raid6 data block and the p block
from the given sources
-2data - (raid6_2data_recov) recover 2 raid6 data blocks from the given
+2data (raid6_2data_recov) recover 2 raid6 data blocks from the given
sources
+======== ====================================================================
+
+3.3 Descriptor management
+-------------------------
-3.3 Descriptor management:
The return value is non-NULL and points to a 'descriptor' when the operation
has been queued to execute asynchronously. Descriptors are recycled
resources, under control of the offload engine driver, to be reused as
@@ -82,12 +100,15 @@ before the dependency is submitted. This requires that all descriptors be
acknowledged by the application before the offload engine driver is allowed to
recycle (or free) the descriptor. A descriptor can be acked by one of the
following methods:
-1/ setting the ASYNC_TX_ACK flag if no child operations are to be submitted
-2/ submitting an unacknowledged descriptor as a dependency to another
+
+1. setting the ASYNC_TX_ACK flag if no child operations are to be submitted
+2. submitting an unacknowledged descriptor as a dependency to another
async_tx call will implicitly set the acknowledged state.
-3/ calling async_tx_ack() on the descriptor.
+3. calling async_tx_ack() on the descriptor.
3.4 When does the operation execute?
+------------------------------------
+
Operations do not immediately issue after return from the
async_<operation> call. Offload engine drivers batch operations to
improve performance by reducing the number of mmio cycles needed to
@@ -98,12 +119,15 @@ channels since the application has no knowledge of channel to operation
mapping.
3.5 When does the operation complete?
+-------------------------------------
+
There are two methods for an application to learn about the completion
of an operation.
-1/ Call dma_wait_for_async_tx(). This call causes the CPU to spin while
+
+1. Call dma_wait_for_async_tx(). This call causes the CPU to spin while
it polls for the completion of the operation. It handles dependency
chains and issuing pending operations.
-2/ Specify a completion callback. The callback routine runs in tasklet
+2. Specify a completion callback. The callback routine runs in tasklet
context if the offload engine driver supports interrupts, or it is
called in application context if the operation is carried out
synchronously in software. The callback can be set in the call to
@@ -111,83 +135,95 @@ of an operation.
unknown length it can use the async_trigger_callback() routine to set a
completion interrupt/callback at the end of the chain.
-3.6 Constraints:
-1/ Calls to async_<operation> are not permitted in IRQ context. Other
+3.6 Constraints
+---------------
+
+1. Calls to async_<operation> are not permitted in IRQ context. Other
contexts are permitted provided constraint #2 is not violated.
-2/ Completion callback routines cannot submit new operations. This
+2. Completion callback routines cannot submit new operations. This
results in recursion in the synchronous case and spin_locks being
acquired twice in the asynchronous case.
-3.7 Example:
+3.7 Example
+-----------
+
Perform a xor->copy->xor operation where each operation depends on the
-result from the previous operation:
-
-void callback(void *param)
-{
- struct completion *cmp = param;
-
- complete(cmp);
-}
-
-void run_xor_copy_xor(struct page **xor_srcs,
- int xor_src_cnt,
- struct page *xor_dest,
- size_t xor_len,
- struct page *copy_src,
- struct page *copy_dest,
- size_t copy_len)
-{
- struct dma_async_tx_descriptor *tx;
- addr_conv_t addr_conv[xor_src_cnt];
- struct async_submit_ctl submit;
- addr_conv_t addr_conv[NDISKS];
- struct completion cmp;
-
- init_async_submit(&submit, ASYNC_TX_XOR_DROP_DST, NULL, NULL, NULL,
- addr_conv);
- tx = async_xor(xor_dest, xor_srcs, 0, xor_src_cnt, xor_len, &submit)
-
- submit->depend_tx = tx;
- tx = async_memcpy(copy_dest, copy_src, 0, 0, copy_len, &submit);
-
- init_completion(&cmp);
- init_async_submit(&submit, ASYNC_TX_XOR_DROP_DST | ASYNC_TX_ACK, tx,
- callback, &cmp, addr_conv);
- tx = async_xor(xor_dest, xor_srcs, 0, xor_src_cnt, xor_len, &submit);
-
- async_tx_issue_pending_all();
-
- wait_for_completion(&cmp);
-}
+result from the previous operation::
+
+ void callback(void *param)
+ {
+ struct completion *cmp = param;
+
+ complete(cmp);
+ }
+
+ void run_xor_copy_xor(struct page **xor_srcs,
+ int xor_src_cnt,
+ struct page *xor_dest,
+ size_t xor_len,
+ struct page *copy_src,
+ struct page *copy_dest,
+ size_t copy_len)
+ {
+ struct dma_async_tx_descriptor *tx;
+ addr_conv_t addr_conv[xor_src_cnt];
+ struct async_submit_ctl submit;
+ addr_conv_t addr_conv[NDISKS];
+ struct completion cmp;
+
+ init_async_submit(&submit, ASYNC_TX_XOR_DROP_DST, NULL, NULL, NULL,
+ addr_conv);
+ tx = async_xor(xor_dest, xor_srcs, 0, xor_src_cnt, xor_len, &submit)
+
+ submit->depend_tx = tx;
+ tx = async_memcpy(copy_dest, copy_src, 0, 0, copy_len, &submit);
+
+ init_completion(&cmp);
+ init_async_submit(&submit, ASYNC_TX_XOR_DROP_DST | ASYNC_TX_ACK, tx,
+ callback, &cmp, addr_conv);
+ tx = async_xor(xor_dest, xor_srcs, 0, xor_src_cnt, xor_len, &submit);
+
+ async_tx_issue_pending_all();
+
+ wait_for_completion(&cmp);
+ }
See include/linux/async_tx.h for more information on the flags. See the
ops_run_* and ops_complete_* routines in drivers/md/raid5.c for more
implementation examples.
-4 DRIVER DEVELOPMENT NOTES
+4. Driver Development Notes
+===========================
+
+4.1 Conformance points
+----------------------
-4.1 Conformance points:
There are a few conformance points required in dmaengine drivers to
accommodate assumptions made by applications using the async_tx API:
-1/ Completion callbacks are expected to happen in tasklet context
-2/ dma_async_tx_descriptor fields are never manipulated in IRQ context
-3/ Use async_tx_run_dependencies() in the descriptor clean up path to
+
+1. Completion callbacks are expected to happen in tasklet context
+2. dma_async_tx_descriptor fields are never manipulated in IRQ context
+3. Use async_tx_run_dependencies() in the descriptor clean up path to
handle submission of dependent operations
4.2 "My application needs exclusive control of hardware channels"
+-----------------------------------------------------------------
+
Primarily this requirement arises from cases where a DMA engine driver
is being used to support device-to-memory operations. A channel that is
performing these operations cannot, for many platform specific reasons,
be shared. For these cases the dma_request_channel() interface is
provided.
-The interface is:
-struct dma_chan *dma_request_channel(dma_cap_mask_t mask,
- dma_filter_fn filter_fn,
- void *filter_param);
+The interface is::
-Where dma_filter_fn is defined as:
-typedef bool (*dma_filter_fn)(struct dma_chan *chan, void *filter_param);
+ struct dma_chan *dma_request_channel(dma_cap_mask_t mask,
+ dma_filter_fn filter_fn,
+ void *filter_param);
+
+Where dma_filter_fn is defined as::
+
+ typedef bool (*dma_filter_fn)(struct dma_chan *chan, void *filter_param);
When the optional 'filter_fn' parameter is set to NULL
dma_request_channel simply returns the first channel that satisfies the
@@ -207,19 +243,28 @@ private. Alternatively, it is set when dma_request_channel() finds an
unused "public" channel.
A couple caveats to note when implementing a driver and consumer:
-1/ Once a channel has been privately allocated it will no longer be
+
+1. Once a channel has been privately allocated it will no longer be
considered by the general-purpose allocator even after a call to
dma_release_channel().
-2/ Since capabilities are specified at the device level a dma_device
+2. Since capabilities are specified at the device level a dma_device
with multiple channels will either have all channels public, or all
channels private.
-5 SOURCE
-
-include/linux/dmaengine.h: core header file for DMA drivers and api users
-drivers/dma/dmaengine.c: offload engine channel management routines
-drivers/dma/: location for offload engine drivers
-include/linux/async_tx.h: core header file for the async_tx api
-crypto/async_tx/async_tx.c: async_tx interface to dmaengine and common code
-crypto/async_tx/async_memcpy.c: copy offload
-crypto/async_tx/async_xor.c: xor and xor zero sum offload
+5. Source
+---------
+
+include/linux/dmaengine.h:
+ core header file for DMA drivers and api users
+drivers/dma/dmaengine.c:
+ offload engine channel management routines
+drivers/dma/:
+ location for offload engine drivers
+include/linux/async_tx.h:
+ core header file for the async_tx api
+crypto/async_tx/async_tx.c:
+ async_tx interface to dmaengine and common code
+crypto/async_tx/async_memcpy.c:
+ copy offload
+crypto/async_tx/async_xor.c:
+ xor and xor zero sum offload
diff --git a/Documentation/crypto/index.rst b/Documentation/crypto/index.rst
index b2eeab3c8631..22a6870bf356 100644
--- a/Documentation/crypto/index.rst
+++ b/Documentation/crypto/index.rst
@@ -19,6 +19,8 @@ for cryptographic use cases, as well as programming examples.
intro
api-intro
architecture
+
+ async-tx-api
asymmetric-keys
devel-algos
userspace-if