| name | riscos-network-resolver |
| description | Use and explain the RISC OS Resolver module, including DNS lookups, SWIs, commands, configuration variables, cache control, service calls, and returned hostent data. Use when implementing, reviewing, documenting, or integrating with Resolver from applications or modules. |
| metadata | {"author":"gerph@gerph.org"} |
| license | MIT |
RISC OS Resolver
Use this skill when the task is about the RISC OS Resolver module.
This skill is intended to stand alone, so it includes the operational details needed to use Resolver even when the original source tree is not available.
What Resolver does
Resolver provides shared host name and address resolution for RISC OS.
It sits between applications and DNS servers, with local caching.
Typical lookup flow:
- The caller asks Resolver for a host lookup.
- Resolver checks its cache first.
- Resolver may satisfy the request from local sources such as
InetDBase:Hosts.
- If needed, Resolver sends DNS queries to configured nameservers.
- The caller either blocks until completion or polls until the request completes, depending on which SWI is used.
Resolver returns results as NetBSD-style struct hostent data.
Treat returned hostent structures as read-only.
Main interfaces
Resolver provides:
*ResolverConfig
Resolver_GetHostByName
Resolver_GetHost
Resolver_CacheControl
Resolver_DCI4Statistics
Do not use Resolver_GetCache in new code.
It is treated as internal-only.
SWI numbers
Resolver uses SWI chunk base &46000.
The SWIs are:
Resolver_GetHostByName = &46000
Resolver_GetHost = &46001
Resolver_GetCache = &46002
Resolver_CacheControl = &46003
Resolver_DCI4Statistics = &46004
The X forms are:
XResolver_GetHostByName = &66000
XResolver_GetHost = &66001
XResolver_GetCache = &66002
XResolver_CacheControl = &66003
XResolver_DCI4Statistics = &66004
Which lookup SWI to use
Use Resolver_GetHost for new multitasking-aware code.
Use Resolver_GetHostByName only when a blocking compatibility interface is acceptable, such as ports of older Unix-style software.
Returned data
Resolver returns a standard hostent structure.
Layout:
- Offset
0: pointer to host name
- Offset
4: pointer to zero-terminated list of alias pointers
- Offset
8: address family, usually AF_INET
- Offset
12: address length, usually 4
- Offset
16: pointer to zero-terminated list of address pointers
The address list normally contains IPv4 addresses.
Resolver_GetHostByName
Purpose:
- Blocking name lookup.
- Mostly for compatibility with
gethostbyname()-style callers.
On entry:
R1 = pointer to zero-terminated host name string
On exit:
- If V clear:
R0 = errno-style status
R1 = pointer to hostent if successful, else 0
- If V set:
R0 = pointer to RISC OS error block
Behaviour:
- Resolver internally keeps driving the asynchronous lookup machinery until a result or failure is available.
- This means the caller blocks until completion.
Use this when:
- Porting simple Unix software.
- You do not need foreground responsiveness during name resolution.
Resolver_GetHost
Purpose:
- Non-blocking or polling-style lookup.
- Preferred for applications that must remain responsive.
Interface:
- Documented usage is by name lookup with
R1 = pointer to host name string.
- In this implementation there is also reverse-lookup support:
if
R0 = 0, Resolver interprets R1 as a pointer to an IPv4 address and performs a reverse lookup.
On exit:
- If successful:
R0 = 0
R1 = pointer to hostent
- If still in progress:
R0 = 36 (EINPROGRESS)
R1 = 0
- If a cached or completed failure is returned without V set:
R0 = -1 for host not found
R0 = -2 for remote failure or resolver timeout
R1 = 0
- If configuration or parameter handling fails:
V is set and
R0 points to a RISC OS error block
Important points:
- Cached hits may return immediately.
- Requests found in local hosts sources may also return immediately.
- Remote DNS lookups usually return
EINPROGRESS first.
- Callers must poll until the status changes from
EINPROGRESS, or until V is set.
Typical polling pattern:
repeat
call Resolver_GetHost
if V set:
fail with RISC OS error
if R0 == 36:
keep UI alive and try again later
until R0 != 36
if R0 == 0 and R1 != 0:
success
else:
host not found or remote failure
BBC BASIC-style example:
REM EINPROGRESS = 36
REPEAT
SYS "Resolver_GetHost", "host.example" TO status, hostent; flags
error% = flags AND 1
REM Update UI or continue other work here
UNTIL error% OR status <> 36
Host name validation
Resolver validates the host name before starting a lookup.
Valid names are restricted to printable host-style characters, specifically alphanumeric characters plus:
Invalid names fail immediately with a RISC OS error.
Reverse lookups and numeric input
Resolver can perform reverse lookups.
In this implementation:
- Numeric dotted IPv4 strings such as
192.168.0.1 are internally converted to in-addr.arpa form.
Resolver_GetHost also supports a reverse-lookup path where R0 = 0 and R1 points to an IPv4 address value.
If documenting Resolver for callers, make it clear whether you are describing:
- forward lookup by host name, or
- reverse lookup by IPv4 address
Configuration variables
Resolver is configured through system variables.
These are normally set at startup but may be changed later.
Documented variables:
Inet$Resolvers
Space-separated dotted IPv4 addresses of DNS servers.
Up to three are used.
Inet$Hostname
Local host name.
Inet$LocalDomain
Local domain name.
Inet$SearchDomains
Space-separated search domains for unqualified names.
Inet$ResolverRetries
Number of retry attempts for failed lookups.
Inet$ResolverDelay
Delay in seconds between retry attempts.
Inet$ResolverServer
Enables simple server behaviour when supported by the build.
Implementation details that matter in practice:
Inet$Resolvers may also contain the token auto.
This enables local nameserver auto-discovery instead of fixed DNS server addresses.
- Extra configuration variables may be supported:
Inet$ResolverFreewayHosts, Inet$ResolverNetBIOSHosts, and Inet$ResolverReorder.
- If
Inet$SearchDomains is not set, Resolver builds a search list from Inet$LocalDomain or from the domain part of Inet$Hostname.
- If no usable DNS servers are configured, local hosts-file lookups can still succeed, but remote DNS requests fail.
Re-reading configuration
Configuration changes are not automatically applied just because a variable changed.
To force Resolver to re-read configuration, use one of:
*ResolverConfig
Resolver_CacheControl with reason 3
Resolver also reacts to some service calls and variable-monitor events, especially around hosts database changes and network stack lifecycle.
*ResolverConfig
*ResolverConfig re-reads Resolver configuration from the Inet$... variables.
Use it after changing variables such as:
Inet$Resolvers
Inet$Hostname
Inet$LocalDomain
Inet$SearchDomains
Inet$ResolverRetries
Inet$ResolverDelay
Resolver_CacheControl
Use this SWI to control cache behaviour.
Entry:
Reason codes:
0 flush failed lookups
1 flush all items
2 flush hosts-file items
3 re-read configuration
8 disable caching of failed lookups
9 enable caching of failed lookups
Exit:
Notes:
- Failed-lookup caching is disabled by default.
- Enabling failed-lookup caching is only sensible if failures are expected to be genuine and stable, rather than transient packet loss or DNS timeout.
Cache behaviour
The cache stores:
- valid results
- failed results
- pending requests
Behaviour to account for:
- Cache hits return immediately.
- Pending entries cause
Resolver_GetHost to return EINPROGRESS.
- Failed cached entries return
-1 or -2 with R1 = 0.
- Failed cached entries may be removed immediately after being read if failed-lookup caching is disabled.
Important lifetimes from this implementation:
- Valid entries have a maximum lifetime of 24 hours.
- Failed entries last 90 seconds.
- Unused resolved entries can expire after 90 seconds.
- Expired entries are kept for a further 90 seconds after expiry so the returned
hostent remains stable for callers.
- DNS server timeout is 15 seconds.
- Default retry count is 2.
- Default retry delay is 5 seconds.
When explaining behaviour, prefer the 90-second guaranteed post-lookup lifetime rather than assuming every result remains valid for 24 hours.
Services
Resolver uses Service_InternetVars with service number &80C41.
Relevant reason codes:
0 database changed
1 hostname changed
2 local domain changed
3 resolvers changed
4 resolvers reordered
Practical meaning:
InetDBase$Path changes notify Resolver that the hosts database may need refreshing.
- Hostname and domain changes can be broadcast to other consumers.
- Resolver itself may emit these notifications when monitored variables change.
Resolver also reacts to wider Internet stack and driver lifecycle services, including:
- interface-up/address-change conditions
- dynamic boot or DHCP-style configuration events
- link-active notifications for auto-resolver discovery
Resolver_DCI4Statistics
Resolver exposes DCI4 statistics.
The statistics include:
- total SWI requests
- SWI cache hits
- SWI failures
- total cache entries
- active cache entries
- inactive cache entries
- pending cache entries
- expiring cache entries
- failed cache entries
- expired cache entries
Use this when monitoring Resolver behaviour or diagnosing cache efficiency.
Error handling guidance
Distinguish carefully between:
- V set:
a real RISC OS error block was returned
- V clear and
R0 = 36:
request still in progress
- V clear and
R0 = 0 with R1 != 0:
success
- V clear and
R0 < 0 with R1 = 0:
Resolver-level lookup failure
For user-facing software:
- treat
-1 as host not found
- treat
-2 as timeout or remote resolver failure
- present configuration errors separately from ordinary lookup failures
Recommended advice to callers
When helping someone use Resolver:
- Recommend
Resolver_GetHost for new applications.
- Tell them to poll on
EINPROGRESS instead of blocking the desktop.
- Tell them to treat returned
hostent data as read-only and short-lived.
- Tell them to run
*ResolverConfig or Resolver_CacheControl 3 after changing configuration variables.
- Tell them not to depend on internal cache structures or
Resolver_GetCache.
- Call out the difference between documented interface behaviour and implementation-specific extras such as
auto in Inet$Resolvers or reverse-lookup entry paths.
What to include in answers
When using this skill, answers should usually cover:
- which SWI or command to use
- required registers on entry and exit
- how to handle
EINPROGRESS
- the meaning of
-1, -2, and V-set errors
- which
Inet$... variables must be configured
- whether a configuration reload is required
- whether the caller is doing forward lookup or reverse lookup