Overhauled the file fetch queue logic in rhizome_fetch.c.
Now the 'rhizomeprotocol' stress test passes in approximately 5 minutes on my
2009-vintage Dell laptop.
Added a call to rhizome_enqueue_suggestions() in rhizome_fetch_close() so that
a new Rhizome GET request is sent as soon as a fetch slot becomes free, instead
of waiting for the (default 5 second) timer to trigger the next GET.
type on next use (so that people upgrading automatically get a new valid
SAS instead of continuing to try to use an invalid one -- this is only
a reasonable course of action since we have made no formal releases of
the code). #17
as recommended a while back by Dan Bernstein as offering the fastest
implementation of the crypto_sign() primitives for ARM.
Indeed this implementation IS faster. See comparison below for a
Rock 500 handset (800MHz(?) ARM6, no NEON):
Original ref/ implementation on an R500 stock rom (non-rooted)::
mean signature generation time = 96.80ms
mean signature verification time = 272.20ms
ref10/ implementations on an R500 stock rom (non-rooted):
mean signature generation time = 4.00ms
mean signature verification time = 13.00ms
Approximately 20x speed up, just like that :)
If supplied, the finally_TestCaseName() function, otherwise the finally()
function, is called after the test_TestCaseName() function terminates (with any
result). An assertion failure in the finally() function causes the test to
FAIL, but execution continues. So it is like teardown() but produces FAIL not
ERROR. Useful for clean-up that must be performed as part of the system under
test.
Introduce __WHENCE__ macro and a block comment in log.h explaining it.
In "primitive" kinds of functions, rename 'whence' arguments to '__whence' and
use WHYF(), WARNF(), DEBUGF() macros instead of calling logMessage() directly.
In the case that the MANIFESTS 'author' column is not NULL, do not perform a
full bundle secret verification in order to clear the '.readonly' flag, just
check whether the author's SID is present in the keyring with a proper-size
rhizome secret.
Do not store negatives in the MANIFESTS 'author' column, just positives, so
that newly-unlocked identities are still checked.
Comment in rhizome_database.c about the semantics of the MANIFESTS.author
column.
Add ".readonly" output field, add logic to detect bundle author and update
MANIFESTS table 'author' column accordingly.
Add two 'rhizomeops' test cases to deal with authorless logic.
Rename some 'rhizomeops' test cases for consistency and to help filtering.
Add test case for new feature of the "rhizome add" command: if the author SID
is not specified (empty arg) then it searches the keyring for the author.
Removed "authorSid" argument from several functions that also take a struct
rhizome_manifest * arg, since the author, if known, is now supplied in the
struct.
Improve return value handling and refactored some rhizome crypto code.
Replace ".selfsigned" column with ".author" and ".fromhere" columns in
output of "rhizome list" command. (Note that a "sender" column is
already present.)
Add 'author' field to struct rhizome_manifest.
Log all fully rendered SQL statements on DEBUG_RHIZOME.
Update 'rhizomeops' test cases and improve the assert_rhizome_list()
test function to be able to assert authorship of files.
The extract_stdout_keyvalue() function now accepts an optional delimiter
argument, to override its default of ':'. This makes it useful for extracting
the output of "servald config get" commands.
Fixes#21. The problem was caused when the double-fork logic used in "servald
start" was clobbered in 5103176. This meant that the servald daemon process on
Android no longer had a PPID=1, but the PID of the long-lived
"org.servalproject" parent process which called the JNI entry point. Killing
the servald process then caused it to become a zombie process, since the
org.servalproject does not habitually call wait(2). That caused the "servald
stop" logic to send five SIGHUPs to the zombie without any error, making it
appear that the process was not dying.
Reinstated the double-fork logic and added a new test case to ensure that the
daemon process does not become a zombie on being killed prematurely.
