Initial contribution of the Adaptation Documentation.
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<concept id="GUID-817E0561-6165-5BB1-97F9-AD53CFCDAA56" xml:lang="en"><title>Impact
of Data Paging on Kernel-side Code Guide</title><shortdesc>Describes the kernel-side issues that must be considered when writing
device drivers.</shortdesc><prolog><metadata><keywords/></metadata></prolog><conbody>
<section id="GUID-C02ED166-914C-4397-9701-3DFA12BB035F"><title>Purpose</title> <p>This document explains the impact of data
paging on kernel side code. </p> <p><b>Intended
Audience:</b> </p> <p>This document is intended for device driver writers. </p> </section>
<section id="GUID-8B038641-159E-4029-AEA7-952B9F598616"><title>Access to user memory</title> <p>New restrictions on access
to user memory. </p> </section>
<section id="GUID-EDAC178D-6B98-4BC2-B9F5-0EB0846702F5"><title>Access to current thread's address space</title> <p>Certain
exported and internal APIs access the address space of the current thread
and are subject to restrictions on their use enforced by assertions in the
code. The restrictions are these: </p> <ul>
<li id="GUID-BDB0D784-562F-5AE6-A291-A738682C2A53"><p>The APIs may only be
called from thread context. </p> </li>
<li id="GUID-37A31C92-C9C7-539F-86B5-066A09D2F53B"><p>They may not be called
while any mutexes are held. There are two particularly important cases when
mutexes are often held: </p> <ul>
<li id="GUID-D8F89EF4-854C-5096-9E52-FA7989C423D3"><p>When publish and subscribe
is writing large binary properties to user space, and </p> <ul>
<li id="GUID-9E7C39C8-D1DF-53B4-9596-5E7E6CB1C906"><p>When the multiple memory
model writes code segments' export directories to user space. </p> </li>
</ul> </li>
</ul> </li>
<li id="GUID-E900614E-D99F-5401-B570-A792300D0E6A"><p>The APIs may not be
called when the system lock is held. There are two particularly important
cases when the system lock is often held: </p> <ul>
<li id="GUID-41D35D8E-1ABC-54A4-9985-F551ACAD4F28"><p>When publish and subscribe
is writing large binary properties to user space, and </p> </li>
<li id="GUID-06705F28-00F9-5BBE-A3EF-FC79E4849908"><p>When the multiple memory
model uses <xref href="GUID-38D1534C-AA01-33AF-9937-CDD818A85F97.dita#GUID-38D1534C-AA01-33AF-9937-CDD818A85F97/GUID-99ECF4EB-8BCD-3968-BDED-E37E41753BEF"><apiname>DThread::FastWrite</apiname></xref> to write to user space. </p> </li>
</ul> </li>
</ul> <p>The APIs concerned are these: </p> <ul>
<li id="GUID-1C237BE6-900B-5F88-B081-140030E42894"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-C154A151-0DF7-345D-9A10-E9B1CF3400D9"><apiname>Kern::KUDesInfo</apiname></xref> </p> </li>
<li id="GUID-EC004C04-A5D0-5A52-90BA-56A0DE140A8A"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-B79007D0-FF1F-30E7-986D-7CEBC5E45102"><apiname>Kern::KUDesGet</apiname></xref> </p> </li>
<li id="GUID-D5D3D6C4-BB4B-55B1-99B9-000F716C2964"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-CDEA7B22-9520-3DB1-AA04-1289C2287936"><apiname>Kern::KUDesPut</apiname></xref> </p> </li>
<li id="GUID-1C330912-EAAC-5020-94F8-89AD09387E42"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-94F2DF65-87A5-32C6-9695-9557E5832ACF"><apiname>Kern::KUDesSetLength</apiname></xref> </p> </li>
<li id="GUID-C59D5CDD-06B4-5931-BE86-E3F5727B456D"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-FAFAA120-AA28-32FD-9202-1534C3148026"><apiname>Kern::InfoCopy</apiname></xref> </p> </li>
<li id="GUID-A93205E5-2BBF-568A-84C1-FA95BA8A5EBC"><p> <xref href="GUID-F5136CAF-B66F-388D-A610-D0153CAF7E23.dita"><apiname>umemget()</apiname></xref>, <xref href="GUID-B56A34CD-E5B5-3E3E-A2EE-3BC9D248B210.dita"><apiname>kumemget()</apiname></xref>, <xref href="GUID-B55573FC-B21C-384A-8B1E-A6A4301310E9.dita"><apiname>umemget32()</apiname></xref>, <xref href="GUID-15B62FF1-5D59-3A84-9648-EB0DBFE17232.dita"><apiname>kumemget32()</apiname></xref> </p> </li>
<li id="GUID-C4FCA083-9C65-5F24-B65C-0C8B62A9E89E"><p> <xref href="GUID-371860F0-36BF-340D-BEF6-1763EF9874AE.dita"><apiname>umemput()</apiname></xref>, <xref href="GUID-C7AB0391-99D5-31A2-91D4-A7F195546FC3.dita"><apiname>kumemput()</apiname></xref>, <xref href="GUID-B2DF3520-01CE-3D2C-8137-746ADBCBAE80.dita"><apiname>umemput32()</apiname></xref>, <xref href="GUID-D141C3C4-F2F6-37DF-BDF6-63DDE9052FA0.dita"><apiname>kumemput32()</apiname></xref> </p> </li>
<li id="GUID-93854B1F-3593-56FA-992B-D9965958FC17"><p> <xref href="GUID-16048974-7407-3778-9BD3-B8417E3F795A.dita"><apiname>umemset()</apiname></xref>, <xref href="GUID-B51F91FF-E5CD-3D5F-8BB3-B18E58761B62.dita"><apiname>kumemset()</apiname></xref> </p> </li>
<li id="GUID-2099129C-21A4-504F-BD33-9B1F3C84ECCE"><p> <xref href="GUID-A9CDD270-DDEB-3E58-9A31-2567985958DB.dita"><apiname>SafeRead()</apiname></xref>, <xref href="GUID-FE09CB97-F853-3939-ADB1-2FBE4EDF50CE.dita"><apiname>KUSafeRead()</apiname></xref> </p> </li>
<li id="GUID-24C2001F-2759-566C-B7C1-7CA677123C6F"><p> <xref href="GUID-97393047-A896-3F93-90CE-9C30BF19AF10.dita"><apiname>SafeWrite()</apiname></xref>, <xref href="GUID-145B354F-1F60-3A1B-8FA3-E873C6D133A5.dita"><apiname>KUSafeWrite()</apiname></xref> </p> </li>
<li id="GUID-85EE234D-34BA-542B-B43F-E178DECA1CFD"><p> <xref href="GUID-7463E352-F6CE-3749-902A-0F3D9C699ADF.dita"><apiname>KUSafeInc()</apiname></xref> </p> </li>
<li id="GUID-26D29EEE-7FC6-556B-BCC0-27F0011B926A"><p> <xref href="GUID-7C924E07-84AD-36AC-A6D0-09C47A170FFC.dita"><apiname>KUSafeDec()</apiname></xref> </p> </li>
</ul> </section>
<section id="GUID-6487F5DB-DB07-458C-A97D-9D26BBC35E0A"><title>Access to another thread's address space</title> <p>Certain
exported and internal APIs access the address space of another thread and
are subject to restrictions on their use enforced by assertions in the code.
The restrictions are these: </p> <ul>
<li id="GUID-38E41386-9179-500D-92BB-043042E3C957"><p>The APIs may not be
called when any mutexes are held. One particularly important case of this
is when undertakers are completed and handles written to user space. </p> </li>
</ul> <p>The APIs concerned are these: </p> <ul>
<li id="GUID-76DF8E52-6330-5549-A10F-810FFC1236BC"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-904A42A8-8077-3FC6-BEF2-29619F079842"><apiname>Kern::ThreadRawRead()</apiname></xref> </p> </li>
<li id="GUID-DFD8AEC8-172E-582E-9AC2-742F3C538B16"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-182C88F4-326C-376E-9FBE-889E3CB9B68A"><apiname>Kern::ThreadRawWrite()</apiname></xref> </p> </li>
<li id="GUID-A4826184-4CDD-5339-9971-AE1894B3678E"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-C505206F-F54F-3760-BA7D-2DB52AB4E0B3"><apiname>Kern::ThreadDesRead()</apiname></xref> </p> </li>
<li id="GUID-73B032E1-8733-5E59-8028-812179CE2A81"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-FA321582-6D75-37A1-8DAB-D50638F76593"><apiname>Kern::ThreadDesWrite()</apiname></xref> </p> </li>
<li id="GUID-FD22484A-2418-5A1D-A68A-27090623085D"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-1DE210A5-B7A2-3F52-9003-439CA3DD4715"><apiname>Kern::ThreadGetDesLength()</apiname></xref> </p> </li>
<li id="GUID-CA931109-D50C-580A-9A0B-770355FA24C0"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-A5E20DB7-9DB4-350C-B636-95E2148DCC6F"><apiname>Kern::ThreadGetDesMaxLength()</apiname></xref> </p> </li>
<li id="GUID-AE500BC7-A230-5EE5-BA7F-643A47DEEFB9"><p> <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-22DD7D90-B4B5-3450-82BF-C3CC3A43430A"><apiname>Kern::ThreadGetDesInfo()</apiname></xref> </p> </li>
<li id="GUID-D2287795-C6BA-5746-87B5-E2260A1389AB"><p> <xref href="GUID-38D1534C-AA01-33AF-9937-CDD818A85F97.dita#GUID-38D1534C-AA01-33AF-9937-CDD818A85F97/GUID-876D7459-E09E-33B7-A35D-48A96F9E78C8"><apiname>DThread::FastWrite()</apiname></xref> </p> </li>
</ul> </section>
<section id="GUID-CF741107-AEC0-4CAD-9F59-BD4EC8C7BA26"><title>Client request completion</title> <p>In non-paged code it
is usual for a thread to have an asynchronous request outstanding and to complete
it by calling <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-D720BB4C-5E31-3213-BB16-859AA325FE98"><apiname>Kern::RequestComplete()</apiname></xref>. This technique is
not safe in data paged code as it involves writing a status value back into
the thread's address space, but this memory might be paged out and violate
the thread's performance guarantees or cause a mutex order violation. </p> <p>Instead,
you should use the <xref href="GUID-4CB67E92-6092-316B-BBDC-B428F4242A76.dita"><apiname>TClientRequest</apiname></xref> object to write the request
status within the context of the client thread in the following way. </p> <ol id="GUID-2379DB5B-9E06-56D4-A561-C55E77A5A570">
<li id="GUID-A74F8DB4-154B-5CC3-980E-6A248819BB08"><p>Create a <xref href="GUID-4CB67E92-6092-316B-BBDC-B428F4242A76.dita"><apiname>TClientRequest</apiname></xref> object
by calling <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-C526F279-6BCF-3373-A869-37DB22695809"><apiname>Kern::CreateClientRequest()</apiname></xref>. </p> </li>
<li id="GUID-1B09ED45-55C2-5A57-8921-FD8FFE10819F"><p>Call the <xref href="GUID-E0687C90-7742-3C5C-96EF-187415584E31.dita"><apiname>SetStatus()</apiname></xref> function
of the <xref href="GUID-4CB67E92-6092-316B-BBDC-B428F4242A76.dita"><apiname>TClientRequest</apiname></xref> object to set the client's request
status. </p> </li>
<li id="GUID-5A047136-5848-5F43-A88A-E0BF9625BFEE"><p>Call <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-DE0CF5BD-B166-3C5B-9E27-F95710322F21"><apiname>Kern::QueueRequestComplete()</apiname></xref> to
signal the client thread that the request has been queued for completion. </p> </li>
<li id="GUID-F481D0FF-6A8F-5462-97C9-DCA9EABB1E25"><p>When the client thread
next runs, the <xref href="GUID-E0B34F3E-D4C4-3232-B8B1-7DB35B454646.dita"><apiname>TRequestStatus</apiname></xref> value is written back to
it. </p> </li>
<li id="GUID-A37194A0-599A-584E-BD38-333B0E5DFD70"><p>The <xref href="GUID-E0B34F3E-D4C4-3232-B8B1-7DB35B454646.dita"><apiname>TRequestStatus</apiname></xref> can
now be reused, or destroyed by a call to <xref href="GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D.dita#GUID-C6946ECB-775F-3EC2-A56F-78F25B9FBE3D/GUID-A67030E5-B84C-3CFF-B0B9-68F2F0E488A6"><apiname>Kern::DestroyRequest()</apiname></xref>. </p> </li>
</ol> </section>
<section id="GUID-4E440670-4ED5-4BA8-81A2-3A260EDDDFD1"><title>IPC message delivery</title> <p>In non-paged code it is common
for a client thread to send a message to a server and write it into the address
space of the server. When data paging is enabled, this creates the same risk
of page faults as the completion of asynchronous requests and can be mitigated
by the same techniques as above. In addition, descriptor information (type,
length and maximum length) is read by temporarily switching to the client's
address space, creating additional risk of page faults. </p> <p>When data
paging is enabled, messages to servers must be pre-parsed and their type,
length and maximum length stored in the message structure. This involves change
to the kernel code but does not impact on user-side code. </p> </section>
<section id="GUID-2727EA5C-0820-4DA4-BEC8-E6E830919A63"><title>Kernel event queue</title> <p>The kernel maintains a queue
of user-input events which is read by the window server. The introduction
of data paging involved a change to the kernel code which responds to the
user-side API <xref href="GUID-8BB2609C-5F76-3B47-AA9E-1453F8F2AD55.dita#GUID-8BB2609C-5F76-3B47-AA9E-1453F8F2AD55/GUID-D3526836-5EB4-3EBC-87FF-B0DD2E74CAF3"><apiname>UserSver::RequestEvent()</apiname></xref>. No change to user-side
code is involved. </p> </section>
</conbody><related-links>
<link href="GUID-E21E7992-607A-5A49-B022-189ECA9E76D1.dita"><linktext>Code Paging
Overview</linktext></link>
<link href="GUID-BDB847A2-557A-5902-AA6D-C1AE10D8E493.dita"><linktext>Code Paging
Guide</linktext></link>
<link href="GUID-B35A70D2-1BC8-51DE-95BF-F315DB394582.dita"><linktext>Demand Paging
Overview</linktext></link>
</related-links></concept>