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RIOT-OS / Release-Specs

Specification for RIOT releases and corresponding test configurations
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Release 2022.01 - RC2 #241

Closed emmanuelsearch closed 2 years ago

emmanuelsearch commented 2 years ago

This issue lists the status of all tests for the Release Candidate 2 of the 2022.01 release.

Specs tested:

riot-ci commented 2 years ago

Test Report

Task Outcome
01. Task 02 - Unittests on native PASSED
01. Task 03 - Unittests on native separated [tests-analog_util] PASSED
01. Task 03 - Unittests on native separated [tests-base64] PASSED
01. Task 03 - Unittests on native separated [tests-bcd] PASSED
01. Task 03 - Unittests on native separated [tests-bitfield] PASSED
01. Task 03 - Unittests on native separated [tests-bloom] PASSED
01. Task 03 - Unittests on native separated [tests-bluetil] PASSED
01. Task 03 - Unittests on native separated [tests-checksum] PASSED
01. Task 03 - Unittests on native separated [tests-clif] PASSED
01. Task 03 - Unittests on native separated [tests-color] PASSED
01. Task 03 - Unittests on native separated [tests-core] PASSED
01. Task 03 - Unittests on native separated [tests-credman] PASSED
01. Task 03 - Unittests on native separated [tests-div] PASSED
01. Task 03 - Unittests on native separated [tests-ecc] PASSED
01. Task 03 - Unittests on native separated [tests-fib] PASSED
01. Task 03 - Unittests on native separated [tests-fib_sr] PASSED
01. Task 03 - Unittests on native separated [tests-fmt] PASSED
01. Task 03 - Unittests on native separated [tests-frac] PASSED
01. Task 03 - Unittests on native separated [tests-gcoap] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_ipv6] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_ipv6_hdr] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_ipv6_nib] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_mac_internal] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_netif_pktq] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_sixlowpan_frag_vrb] PASSED
01. Task 03 - Unittests on native separated [tests-gnrc_udp] PASSED
01. Task 03 - Unittests on native separated [tests-hashes] PASSED
01. Task 03 - Unittests on native separated [tests-ieee802154] PASSED
01. Task 03 - Unittests on native separated [tests-inet_csum] PASSED
01. Task 03 - Unittests on native separated [tests-ipv4_addr] PASSED
01. Task 03 - Unittests on native separated [tests-ipv6_addr] PASSED
01. Task 03 - Unittests on native separated [tests-ipv6_hdr] PASSED
01. Task 03 - Unittests on native separated [tests-kernel_defines] PASSED
01. Task 03 - Unittests on native separated [tests-luid] PASSED
01. Task 03 - Unittests on native separated [tests-matstat] PASSED
01. Task 03 - Unittests on native separated [tests-mtd] PASSED
01. Task 03 - Unittests on native separated [tests-nanocoap] PASSED
01. Task 03 - Unittests on native separated [tests-netopt] PASSED
01. Task 03 - Unittests on native separated [tests-netreg] PASSED
01. Task 03 - Unittests on native separated [tests-phydat] PASSED
01. Task 03 - Unittests on native separated [tests-pkt] PASSED
01. Task 03 - Unittests on native separated [tests-pktbuf] PASSED
01. Task 03 - Unittests on native separated [tests-pktqueue] PASSED
01. Task 03 - Unittests on native separated [tests-printf_float] PASSED
01. Task 03 - Unittests on native separated [tests-priority_pktqueue] PASSED
01. Task 03 - Unittests on native separated [tests-rtc] PASSED
01. Task 03 - Unittests on native separated [tests-rtt_rtc] PASSED
01. Task 03 - Unittests on native separated [tests-saul_reg] PASSED
01. Task 03 - Unittests on native separated [tests-scanf_float] PASSED
01. Task 03 - Unittests on native separated [tests-seq] PASSED
01. Task 03 - Unittests on native separated [tests-sht1x] PASSED
01. Task 03 - Unittests on native separated [tests-sixlowpan] PASSED
01. Task 03 - Unittests on native separated [tests-sixlowpan_ctx] PASSED
01. Task 03 - Unittests on native separated [tests-sixlowpan_sfr] PASSED
01. Task 03 - Unittests on native separated [tests-sock_util] PASSED
01. Task 03 - Unittests on native separated [tests-timex] PASSED
01. Task 03 - Unittests on native separated [tests-tsrb] PASSED
01. Task 03 - Unittests on native separated [tests-turo] PASSED
01. Task 03 - Unittests on native separated [tests-uri_parser] PASSED
01. Task 03 - Unittests on native separated [tests-ut_process] PASSED
01. Task 03 - Unittests on native separated [tests-uuid] PASSED
01. Task 03 - Unittests on native separated [tests-vfs] PASSED
01. Task 03 - Unittests on native separated [tests-zptr] PASSED
01. Task 03 - Unittests on native separated [tests-ztimer64] PASSED
01. Task 03 - Unittests on native separated [tests-ztimer] PASSED
01. Task 04 - Unittests on iotlab-m3 PASSED
03. Task 01 - ICMPv6 multicast echo on native PASSED
03. Task 02 - ICMPv6 link-local echo on native PASSED
03. Task 03 - ICMPv6 link-local echo on native (1 hour) PASSED
03. Task 04 - ICMPv6 stress test on native (1 hour) PASSED
03. Task 05 - ICMPv6 stress test on native (neighbor cache stress) PASSED
03. Task 06 - ICMPv6 link-local echo on native (IPv6 fragmentation) PASSED
04. Task 01 - ICMPv6 link-local echo with iotlab-m3 PASSED
04. Task 02 - ICMPv6 multicast echo with iotlab-m3/samr21-xpro FAILED
04. Task 03 - ICMPv6 echo with large payload PASSED
04. Task 04 - ICMPv6 echo with iotlab-m3/samr21-xpro 15 minutes PASSED
🟡 04. Task 05 (Experimental) - ICMPv6 multicast echo with samr21-xpro/cc2538 [lille] SKIPPED
🟡 04. Task 06 (Experimental)- ICMPv6 link-local echo with samr21-xpro/cc2538 [lille] SKIPPED
🟡 04. Task 07 (Experimental) - ICMPv6 multicast echo with samr21-xpro/zero + xbee SKIPPED
🟡 04. Task 08 (Experimental) - ICMPv6 echo with samr21-xpro/zero + xbee SKIPPED
04. Task 09 - ICMPv6 stress test on iotlab-m3 PASSED
04. Task 10 (Experimental) - ICMPv6 echo with large payload (IPv6 fragmentation) PASSED
🟡 04. Task 11 (Experimental) - ICMPv6 stress test on nrf802154 SKIPPED
🟡 04. Task 12 (Experimental) - ICMPv6 multicast echo with iotlab-m3/nrf802154 SKIPPED
🟡 04. Task 13 (Experimental) - ICMPv6 link-local echo with iotlab-m3/nrf802154 SKIPPED
05. Task 01 - ICMPv6 echo unicast addresess on native (default route) PASSED
05. Task 02 - ICMPv6 echo unicast addresess on iotlab-m3 (default route) PASSED
05. Task 03 - ICMPv6 echo unicast addresess on native (specific route) PASSED
05. Task 04 - ICMPv6 echo unicast addresess on iotlab-m3 (static route) PASSED
06. Task 01 - UDP on iotlab-m3 PASSED
06. Task 02 - UDP on iotlab-m3 (UDP port compression) PASSED
06. Task 03 - UDP on native (non-existent neighbor) PASSED
06. Task 04 - UDP on iotlab-m3 (non-existent neighbor) PASSED
06. Task 05 - Empty UDP on native PASSED
06. Task 06 - Empty UDP on iotlab-m3 PASSED
07. Task 01 - ICMPv6 echo on iotlab-m3 with three hops (static route) PASSED
07. Task 02 - UDP on iotlab-m3 with three hops (static route) PASSED
07. Task 03 - ICMPv6 echo on iotlab-m3 with three hops (RPL route) PASSED
07. Task 04 - UDP on iotlab-m3 with three hops (RPL route) PASSED
🟡 07. Task 05 (Experimental) - UDP with large payload on iotlab-m3 with three hops (RPL route) SKIPPED
08. Task 01 - ICMPv6 echo between native and Linux PASSED
08. Task 08 - UDP between GNRC and lwIP on iotlab-m3 PASSED
09. Task 01 - CORD Endpoint PASSED
09. Task 02 - Confirmable retries [False-0] PASSED
09. Task 02 - Confirmable retries [True-1] PASSED
09. Task 03 - Block1 PASSED
09. Task 04 - Block2 PASSED
09. Task 05 - Observe registration and notification PASSED
10. Task 01 - Destination unreachable - no route to destination PASSED
10. Task 02 - Destination unreachable - Beyond scope of source address PASSED
10. Task 03 - Destination unreachable - address unreachable (target node address) PASSED
10. Task 04 - Destination unreachable - address unreachable (neighbor cache miss) PASSED
10. Task 05 - Destination unreachable - port unreachable PASSED
10. Task 06 - Destination unreachable - port unreachable (large payload) PASSED
10. Task 07 - Packet too big PASSED
10. Task 08 - Time exceeded - hop limit exceeded in transit PASSED
10. Task 09 - Parameter problem - erroneous header field encountered PASSED
10. Task 10 - IPv6-in-IPv6 encapsulation PASSED
11. Task 01 - LoRaWAN example PASSED
11. Task 02 - OTAA join procedure PASSED
11. Task 03 - ABP join procedure PASSED
11. Task 04 - LoRaWAN device parameters persistence PASSED
11. Task 05 - GNRC LoRaWAN (Over The Air Activation) [otaa] FAILED
🟡 11. Task 06 - GNRC LoRaWAN (ABP) [abp] SKIPPED
fjmolinas commented 2 years ago

Something is off with task05 off spec11, its always failing on:

iface = lorawan_netif(node)

I can't think of a reason for this to fail here since it's at the beginning of the application and it works locally... I'm rather thinking that the off by one issue is back...

fjmolinas commented 2 years ago

Test Report

Task Outcome
11. Task 05 - GNRC LoRaWAN (Over The Air Activation) [otaa] PASSED
fjmolinas commented 2 years ago

Something is off with task05 off spec11, its always failing on:

iface = lorawan_netif(node)

I can't think of a reason for this to fail here since it's at the beginning of the application and it works locally... I'm rather thinking that the off by one issue is back...

As you can see when running locally it does not fail...

fjmolinas commented 2 years ago

Something is off with task05 off spec11, its always failing on:

iface = lorawan_netif(node)

I can't think of a reason for this to fail here since it's at the beginning of the application and it works locally... I'm rather thinking that the off by one issue is back...

As you can see when running locally it does not fail...

Sadly I can't investigate at the moment, I subscribed to the action notifications, is the problem persist I will investigate later on

emmanuelsearch commented 2 years ago

tested pkg_relic again for good measure (backport)

~/RIOT$ BOARD=native make -C tests/pkg_relic flash test PASSED ``` ~/RIOT$ BOARD=native make -C tests/pkg_relic flash test make: Entering directory '/home/emmanuel/RIOT/tests/pkg_relic' Building application "tests_pkg_relic" for "native" with MCU "native". "make" -C /home/emmanuel/RIOT/pkg/relic /home/emmanuel/RIOT/dist/tools/cmake/generate-xcompile-toolchain.sh > /home/emmanuel/RIOT/build/pkg/relic/xcompile-toolchain.cmake cmake -B/home/emmanuel/RIOT/tests/pkg_relic/bin/native/pkg-build/relic -H/home/emmanuel/RIOT/build/pkg/relic \ -DCMAKE_TOOLCHAIN_FILE=/home/emmanuel/RIOT/build/pkg/relic/xcompile-toolchain.cmake \ -DCHECK=off -DTESTS=0 -DBENCH=0 -DSHLIB=off -Wno-dev -DARCH=NONE -DOPSYS=NONE -DQUIET=off -DWSIZE=32 -DFP_PRIME=255 -DWITH="BN;MD;DV;FP;EP;CP;BC;EC" -DSEED=RIOTRND -- Configuring RELIC 0.5.0... -- Available switches (default = CHECK, VERBS, DOCUM): DEBUG=[off|on] Build with debugging support. PROFL=[off|on] Build with profiling support. CHECK=[off|on] Build with error-checking support. VERBS=[off|on] Build with detailed error messages. OVERH=[off|on] Build with overhead estimation. DOCUM=[off|on] Build documentation. STRIP=[off|on] Build only selected algorithms. QUIET=[off|on] Build with printing disabled. COLOR=[off|on] Build with colored output. BIGED=[off|on] Build with big-endian support. SHLIB=[off|on] Build shared library. STLIB=[off|on] Build static library. STBIN=[off|on] Build static binaries. AMALG=[off|on] Build amalgamation for better performance. AUSAN=[off|on] Build with ASan and UBSan (gcc/clang only). -- Number of times each test or benchmark is ran (default = 50, 1000): TESTS=n If n > 0, build automated tests and run them n times. BENCH=n If n > 0, build automated benchmarks and run them n * n times. -- Number of available processor cores (default = 1): CORES=n If n > 1, enable multithreading support. -- Available modules (default = ALL) WITH=BN Multiple precision arithmetic. WITH=DV Temporary double-precision digit vectors. WITH=FP Prime field arithmetic. WITH=FPX Prime extension field arithmetic. WITH=FB Binary field arithmetic. WITH=EP Elliptic curves over prime fields. WITH=EPX Elliptic curves over quadratic extensions of prime fields. WITH=EB Elliptic curves over binary fields. WITH=ED Elliptic Edwards curves over prime fields. WTTH=EC Elliptic curve cryptography. WITH=PB Pairings over binary elliptic curves. WITH=PP Pairings over prime elliptic curves. WTTH=PC Pairing-based cryptography. WITH=BC Block ciphers (symmetric encryption). WITH=MD Message digests (hash functions). WITH=CP Cryptographic protocols. WITH=MPC Multi-party computation primitives. WITH=ALL All of the above. Note: the programmer is responsible for not using unselected modules. -- Available arithmetic backends (default = easy): ARITH=easy Easy-to-understand and portable, but slow backend. ARITH=fiat Backend based on code generated from Fiat-Crypto. ARITH=gmp Backend based on GNU Multiple Precision library. ARITH=gmp-sec Same as above, but using constant-time code. -- Available memory-allocation policies (default = AUTO): ALLOC=AUTO All memory is automatically allocated. ALLOC=DYNAMIC All memory is allocated dynamically on demand. -- Supported operating systems (default = LINUX): OPSYS= Undefined/No specific operating system. OPSYS=LINUX GNU/Linux operating system. OPSYS=FREEBSD FreeBSD operating system. OPSYS=NETBSD NetBSD operating system. OPSYS=MACOSX Mac OS X operating system. OPSYS=WINDOWS Windows operating system. OPSYS=DROID Android operating system. OPSYS=DUINO Arduino platform. -- Supported multithreading APIs (default = UNDEF): MULTI= No multithreading support. MULTI=OPENMP Open Multi-Processing. MULTI=PTHREAD POSIX threads. -- Supported timers (default = HREAL): TIMER= No timer. TIMER=HREAL GNU/Linux realtime high-resolution timer. TIMER=HPROC GNU/Linux per-process high-resolution timer. TIMER=HTHRD GNU/Linux per-thread high-resolution timer. TIMER=ANSI ANSI-compatible timer. TIMER=POSIX POSIX-compatible timer. TIMER=CYCLE Cycle-counting timer. (architecture-dependant) TIMER=PERF GNU/Linux performance monitoring framework. -- Prefix to identify this build of the library (default = ""): LABEL=relic -- Available architectures (default = X64): ARCH= No specific architecture (disable some features). ARCH=AVR Atmel AVR ATMega128 8-bit architecture. ARCH=MSP TI MSP430 16-bit architecture. ARCH=ARM ARM 32-bit architecture. ARCH=X86 Intel x86-compatible 32-bit architecture. ARCH=X64 AMD x86_64-compatible 64-bit architecture. -- Available word sizes (default = 64): WSIZE=8 Build a 8-bit library. WSIZE=16 Build a 16-bit library. WSIZE=32 Build a 32-bit library. WSIZE=64 Build a 64-bit library. -- Byte boundary to align digit vectors (default = 1): ALIGN=1 Do not align digit vectors. ALIGN=2 Align digit vectors into 16-bit boundaries. ALIGN=8 Align digit vectors into 64-bit boundaries. ALIGN=16 Align digit vectors into 128-bit boundaries. -- Multiple precision arithmetic configuration (BN module): ** Options for the multiple precision module (default = 1024,DOUBLE,0): BN_PRECI=n The base precision in bits. Let w be n in words. BN_MAGNI=DOUBLE A multiple precision integer can store 2w words. BN_MAGNI=CARRY A multiple precision integer can store w+1 words. BN_MAGNI=SINGLE A multiple precision integer can store w words. BN_KARAT=n The number of Karatsuba steps. ** Available multiple precision arithmetic methods (default = COMBA;COMBA;MONTY;SLIDE;BASIC;BASIC): Integer multiplication: BN_METHD=BASIC Schoolbook multiplication. BN_METHD=COMBA Comba multiplication. Integer squaring: BN_METHD=BASIC Schoolbook squaring. BN_METHD=COMBA Comba squaring. BN_METHD=MULTP Reuse multiplication for squaring. Modular reduction: BN_METHD=BASIC Division-based modular reduction. BN_METHD=BARRT Barrett modular reduction. BN_METHD=MONTY Montgomery modular reduction. BN_METHD=RADIX Diminished radix modular reduction. Modular exponentiation: BN_METHD=BASIC Binary modular exponentiation. BN_METHD=MONTY Montgomery powering ladder. BN_METHD=SLIDE Sliding window modular exponentiation. Greatest Common Divisor: BN_METHD=BASIC Euclid's standard GCD algorithm. BN_METHD=LEHME Lehmer's fast GCD algorithm. BN_METHD=STEIN Stein's binary GCD algorithm. Prime generation: BN_METHD=BASIC Basic prime generation. BN_METHD=SAFEP Safe prime generation. BN_METHD=STRON Strong prime generation. -- Prime field arithmetic configuration (FP module): ** Arithmetic precision of the prime field module (default = 256,0,off,off): FP_PRIME=n The prime modulus size in bits. FP_KARAT=n The number of Karatsuba levels. FP_PMERS=[off|on] Prefer Pseudo-Mersenne primes over random primes. FP_QNRES=[off|on] Use -1 as quadratic non-residue (make sure that p = 3 mod 8). FP_WIDTH=w Width w in [2,6] of window processing for exponentiation methods. ** Available prime field arithmetic methods (default = BASIC;COMBA;COMBA;MONTY;MONTY;SLIDE): Field addition FP_METHD=BASIC Schoolbook addition. FP_METHD=INTEG Integrated modular addition. Field multiplication FP_METHD=BASIC Schoolbook multiplication. FP_METHD=INTEG Integrated modular multiplication. FP_METHD=COMBA Comba multiplication. Field squaring FP_METHD=BASIC Schoolbook squaring. FP_METHD=INTEG Integrated modular squaring. FP_METHD=COMBA Comba squaring. FP_METHD=MULTP Reuse multiplication for squaring. Modular reduction FP_METHD=BASIC Division-based reduction. FP_METHD=QUICK Fast reduction modulo special form prime (2^t - c, c > 0). FP_METHD=MONTY Montgomery modular reduction. Field inversion FP_METHD=BASIC Inversion by Fermat's Little Theorem. FP_METHD=BINAR Binary Inversion algorithm. FP_METHD=MONTY Montgomery inversion. FP_METHD=EXGCD Inversion by the Extended Euclidean algorithm. FP_METHD=DIVST Constant-time inversion by division steps. FP_METHD=LOWER Pass inversion to the lower level. Field exponentiation FP_METHD=BASIC Binary exponentiation. FP_METHD=SLIDE Sliding window exponentiation. FP_METHD=MONTY Constant-time Montgomery powering ladder. -- Prime extension field arithmetic configuration (FPX module): ** Available bilinear pairing methods (default = BASIC;BASIC;BASIC): Quadratic extension arithmetic: FPX_METHD=BASIC Basic quadratic extension field arithmetic. FPX_METHD=INTEG Quadratic extension field arithmetic with embedded modular reduction. Cubic extension arithmetic: FPX_METHD=BASIC Basic cubic extension field arithmetic. FPX_METHD=INTEG Cubic extension field arithmetic with embedded modular reduction. Extension field arithmetic: FPX_METHD=BASIC Basic extension field arithmetic. FPX_METHD=LAZYR Lazy-reduced extension field arithmetic. -- Binary field arithmetic configuration (FB module): ** Options for the binary elliptic curve module (default = 283,0,on,on,on): FB_POLYN=n The irreducible polynomial size in bits. FB_KARAT=n The number of Karatsuba levels. FB_TRINO=[off|on] Prefer trinomials. FB_SQRTF=[off|on] Prefer square-root friendly polynomials. FB_PRECO=[off|on] Precompute multiplication table for sqrt(z). FB_WIDTH=w Width w in [2,6] of window processing for exponentiation methods. ** Available binary field arithmetic methods (default = LODAH;QUICK;QUICK;BASIC;QUICK;QUICK;EXGCD;SLIDE;QUICK): Field multiplication: FB_METHD=BASIC Right-to-left shift-and-add multiplication. FB_METHD=INTEG Integrated modular multiplication. FB_METHD=LODAH L�pez-Dahab comb multiplication with window of width 4. Field squaring: FB_METHD=BASIC Bit manipulation squaring. FB_METHD=INTEG Integrated modular squaring. FB_METHD=QUICK Table-based squaring. Modular reduction: FB_METHD=BASIC Shift-and-add modular reduction. FB_METHD=QUICK Fast reduction modulo a trinomial or pentanomial. Field square root: FB_METHD=BASIC Square root by repeated squaring. FB_METHD=QUICK Fast square root extraction. Trace computation: FB_METHD=BASIC Trace computation by repeated squaring. FB_METHD=QUICK Fast trace computation. Quadratic equation solver: FB_METHD=BASIC Solve a quadratic equation by half-trace computation. FB_METHD=QUICK Fast solving with precomputed half-traces. Field inversion: FB_METHD=BASIC Inversion by Fermat's Little Theorem. FB_METHD=BINAR Binary Inversion algorithm. FB_METHD=ALMOS Inversion by the Amost inverse algorithm. FB_METHD=EXGCD Inversion by the Extended Euclidean algorithm. FB_METHD=ITOHT Inversion by Itoh-Tsuji. FB_METHD=CTAIA Constant-time almost inversion algorithm. FB_METHD=BRUCH Hardware-friendly inversion by Brunner et al. FB_METHD=LOWER Pass inversion to the lower level. Field exponentiation: FB_METHD=BASIC Binary exponentiation. FB_METHD=SLIDE Sliding window exponentiation. FB_METHD=MONTY Constant-time Montgomery powering ladder. Iterated squaring/square-root: FB_METHD=BASIC Iterated squaring/square-root by consecutive squaring/square-root. FB_METHD=QUICK Iterated squaring/square-root by table-based method. -- Prime elliptic curve arithmetic configuration (EP module): ** Options for the prime elliptic curve module (default = all on): EP_PLAIN=[off|on] Support for ordinary curves without endomorphisms. EP_SUPER=[off|on] Support for supersingular curves. EP_ENDOM=[off|on] Support for ordinary curves with endomorphisms. EP_MIXED=[off|on] Use mixed coordinates. EP_CTMAP=[off|on] Use contant-time SSWU and isogeny map for hashing. EP_PRECO=[off|on] Build precomputation table for generator. EP_DEPTH=w Width w in [2,8] of precomputation table for fixed point methods. EP_WIDTH=w Width w in [2,6] of window processing for unknown point methods. ** Available prime elliptic curve methods (default = PROJC;LWNAF;COMBS;INTER): Point representation: EP_METHD=BASIC Affine coordinates. EP_METHD=PROJC Homogeneous projective coordinates (complete formula). EP_METHD=JACOB Jacobian projective coordinates. Variable-base scalar multiplication: EP_METHD=BASIC Binary method. EP_METHD=LWNAF Left-to-right window NAF method (GLV for Koblitz curves). Fixed-base scalar multiplication: EP_METHD=BASIC Binary method for fixed point multiplication. EP_METHD=COMBS Single-table Comb method for fixed point multiplication. EP_METHD=COMBD Double-table Comb method for fixed point multiplication. EP_METHD=LWNAF Left-to-right window NAF method (GLV for curves with endomorphisms). EP_METHD=LWREG Left-to-right regular recoding method (GLV for curves with endomorphisms). Variable-base simultaneous scalar multiplication: EP_METHD=BASIC Multiplication-and-addition simultaneous multiplication. EP_METHD=TRICK Shamir's trick for simultaneous multiplication. EP_METHD=INTER Interleaving of window NAFs (GLV for Koblitz curves). EP_METHD=JOINT Joint sparse form. -- Binary elliptic curve arithmetic configuration (EB module): ** Options for the binary elliptic curve module (default = on, w = 4): EB_PLAIN=[off|on] Support for ordinary curves without endomorphisms. EB_KBLTZ=[off|on] Support for Koblitz anomalous binary curves. EB_MIXED=[off|on] Use mixed coordinates. EB_PRECO=[off|on] Build precomputation table for generator. EB_DEPTH=w Width w in [2,8] of precomputation table for fixed point methods. EB_WIDTH=w Width w in [2,6] of window processing for unknown point methods. ** Available binary elliptic curve methods (default = PROJC;LWNAF;COMBS;INTER): Point representation: EB_METHD=BASIC Affine coordinates. EB_METHD=PROJC Projective coordinates (L�pez-Dahab for ordinary curves). Variable-base scalar multiplication: EB_METHD=BASIC Binary double-and-add method. EB_METHD=LODAH Lopez-Dahab constant-time point multiplication. EB_METHD=LWNAF Left-to-right window (T)NAF method. EB_METHD=RWNAF Right-to-left window (T)NAF method. EB_METHD=HALVE Halving method. Fixed-base scalar multiplication: EB_METHD=BASIC Binary method for fixed point multiplication. EB_METHD=COMBS Single-table Comb method for fixed point multiplication. EB_METHD=COMBD Double-table Comb method for fixed point multiplication. EB_METHD=LWNAF Left-to-right window (T)NAF method. Variable-base simultaneous scalar multiplication: EB_METHD=BASIC Multiplication-and-addition simultaneous multiplication. EB_METHD=TRICK Shamir's trick for simultaneous multiplication. EB_METHD=INTER Interleaving of window (T)NAFs. EB_METHD=JOINT Joint sparse form. -- Elliptic Edwards curve over prime fields arithmetic configuration (ED module): ** Options for the prime elliptic Edwards curve module (default = all on): ED_PRECO=[off|on] Build precomputation table for generator. ED_DEPTH=w Width w in [2,6] of precomputation table for fixed point methods. ED_WIDTH=w Width w in [2,6] of window processing for unknown point methods. ** Available prime elliptic Edwards curve methods (default = PROJC;LWNAF;COMBS;INTER): ED_METHD=BASIC Affine coordinates. EP_METHD=PROJC Simple projective twisted Edwards coordinates. EP_METHD=EXTND Extended projective twisted Edwards coordinates. *** variable-base multiplication method *** ED_METHD=BASIC Binary method. ED_METHD=SLIDE Sliding window method. ED_METHD=MONTY Montgomery ladder method. ED_METHD=LWNAF Left-to-right window NAF method. EP_METHD=LWREG Left-to-right regular recoding method (GLV for curves with endomorphisms). *** fixed-base multiplication method *** ED_METHD=BASIC Binary method for fixed point multiplication. ED_METHD=COMBS Single-table Comb method for fixed point multiplication. ED_METHD=COMBD Double-table Comb method for fixed point multiplication. ED_METHD=LWNAF Left-to-right window NAF method. *** variable-base simultaneous multiplication method *** ED_METHD=BASIC Multiplication-and-addition simultaneous multiplication. ED_METHD=TRICK Shamir's trick for simultaneous multiplication. ED_METHD=INTER Interleaving of window NAFs (GLV for Koblitz curves). ED_METHD=JOINT Joint sparse form. Note: these methods must be given in order. Ex: ED_METHD="EXTND;LWNAF;COMBD;TRICK" -- Elliptic curve cryptography configuration (EC module): ** Options for the binary elliptic curve module (default = on): EC_ENDOM=[off|on] Prefer (prime or binary) curves with endomorphisms. ** Available elliptic curve methods (default = PRIME): EC_METHD=PRIME Use prime curves. EC_METHD=CHAR2 Use binary curves. EC_METHD=EDDIE Use prime Edwards curves. -- Bilinear pairings arithmetic configuration (PP module): ** Available bilinear pairing methods (default = BASIC;OATEP): Extension field arithmetic: PP_METHD=BASIC Basic extension field arithmetic. PP_METHD=LAZYR Lazy reduced extension field arithmetic. Pairing computation: PP_METHD=TATEP Tate pairing. PP_METHD=WEILP Weil pairing. PP_METHD=OATEP Optimal ate pairing. -- Message digest configuration (MD module): ** Available hash functions (default = SH256): MD_METHD=SH224 SHA-224 hash function. MD_METHD=SH256 SHA-256 hash function. MD_METHD=SH384 SHA-384 hash function. MD_METHD=SH512 SHA-512 hash function. MD_METHD=B2S160 BLAKE2s-160 hash function. MD_METHD=B2S256 BLAKE2s-256 hash function. -- Cryptographic protocols configuration (CP module): ** Options for the cryptographic protocols module (default = on, PKCS2): CP_CRT=[off|on] Support for faster CRT-based exponentiation in factoring-based cryptosystems. CP_RSAPD=BASIC RSA with basic padding. CP_RSAPD=PKCS1 RSA with PKCS#1 v1.5 padding. CP_RSAPD=PKCS2 RSA with PKCS#1 v2.1 padding. -- Available pseudo-random number generators (default = HASHD): RAND=HASHD Use the HASH-DRBG generator. (recommended) RAND=RDRND Use Intel RdRand instruction directly. RAND=UDEV Use the operating system underlying generator. RAND=CALL Override the generator with a callback. -- Available random number generator seeders (default = UDEV): SEED= Use a zero seed. (horribly insecure!) SEED=LIBC Use rand()/random() functions. (insecure!) SEED=RDRND Use Intel RdRand instruction directly. SEED=UDEV Use non-blocking /dev/urandom. (recommended) SEED=WCGR Use Windows' CryptGenRandom. (recommended) SEED=RIOTRND Use RIOT's random module for seeding. (recommended on RIOT) -- Configured operating system: NONE -- Compiler flags: -Wall -DTHREAD_STACKSIZE_MAIN=\(6*THREAD_STACKSIZE_DEFAULT\) -DDEVELHELP -Werror -Wall -Wextra -pedantic -g3 -Og -U_FORTIFY_SOURCE -std=gnu11 -m32 -fstack-protector-all -ffunction-sections -fdata-sections -DDEBUG_ASSERT_VERBOSE -DRIOT_APPLICATION=\"tests_pkg_relic\" -DBOARD_NATIVE=\"native\" -DRIOT_BOARD=BOARD_NATIVE -DCPU_NATIVE=\"native\" -DRIOT_CPU=CPU_NATIVE -DMCU_NATIVE=\"native\" -DRIOT_MCU=MCU_NATIVE -fwrapv -Wstrict-overflow -fno-common -ffunction-sections -fdata-sections -Wall -Wextra -Wmissing-include-dirs -fno-delete-null-pointer-checks -Wstrict-prototypes -Wold-style-definition -gz -Wformat=2 -Wformat-overflow -Wformat-truncation -Wcast-align -include '/home/emmanuel/RIOT/tests/pkg_relic/bin/native/riotbuild/riotbuild.h' -Wno-unused-function -Wno-old-style-definition -Wno-unused-parameter -Wno-pedantic -Wno-array-parameter -Wno-unused-but-set-variable -Wno-stringop-overflow -- Linker flags: -L/home/emmanuel/RIOT/build/pkg/relic/src/low/easy/ -- Configured /home/emmanuel/RIOT/build/pkg/relic/include/relic_conf.h.in -- Configured /home/emmanuel/RIOT/build/pkg/relic/doc/relic.doxygen.in -- Configuring done -- Generating done -- Build files have been written to: /home/emmanuel/RIOT/tests/pkg_relic/bin/native/pkg-build/relic make -C /home/emmanuel/RIOT/tests/pkg_relic/bin/native/pkg-build/relic [ 0%] Built target arith_objs [100%] Built target relic_s "make" -C /home/emmanuel/RIOT/boards/native "make" -C /home/emmanuel/RIOT/boards/native/drivers "make" -C /home/emmanuel/RIOT/core "make" -C /home/emmanuel/RIOT/cpu/native "make" -C /home/emmanuel/RIOT/cpu/native/periph "make" -C /home/emmanuel/RIOT/cpu/native/stdio_native "make" -C /home/emmanuel/RIOT/drivers "make" -C /home/emmanuel/RIOT/drivers/periph_common "make" -C /home/emmanuel/RIOT/sys "make" -C /home/emmanuel/RIOT/sys/auto_init "make" -C /home/emmanuel/RIOT/sys/embunit "make" -C /home/emmanuel/RIOT/sys/luid "make" -C /home/emmanuel/RIOT/sys/random "make" -C /home/emmanuel/RIOT/sys/test_utils/interactive_sync text data bss dec hex filename 121421 692 92796 214909 3477d /home/emmanuel/RIOT/tests/pkg_relic/bin/native/tests_pkg_relic.elf r /home/emmanuel/RIOT/tests/pkg_relic/bin/native/tests_pkg_relic.elf /dev/ttyACM0 RIOT native interrupts/signals initialized. LED_RED_OFF LED_GREEN_ON RIOT native board initialized. RIOT native hardware initialization complete. Help: Press s to start test, r to print it is ready READY s START main(): This is RIOT! (Version: 2022.04-devel-177-g54620) . OK (1 tests) make: Leaving directory '/home/emmanuel/RIOT/tests/pkg_relic' ```
emmanuelsearch commented 2 years ago

and pkg_edhoc too, same reason.

~/RIOT$ BOARD=native make -C tests/pkg_edhoc_c flash test PASSED ``` ~/RIOT$ BOARD=native make -C tests/pkg_edhoc_c/ flash test make: Entering directory '/home/emmanuel/RIOT/tests/pkg_edhoc_c' Building application "tests_pkg_edhoc_c" for "native" with MCU "native". make[1]: Nothing to be done for 'prepare'. "make" -C /home/emmanuel/RIOT/pkg/c25519 "make" -C /home/emmanuel/RIOT/build/pkg/c25519/src -f /home/emmanuel/RIOT/Makefile.base MODULE=c25519 "make" -C /home/emmanuel/RIOT/pkg/edhoc-c "make" -C /home/emmanuel/RIOT/build/pkg/EDHOC-C/src/cbor -f /home/emmanuel/RIOT/Makefile.base MODULE=edhoc-c_cbor_nanocbor SRC=nanocbor.c "make" -C /home/emmanuel/RIOT/build/pkg/EDHOC-C/src/crypto -f /home/emmanuel/RIOT/Makefile.base MODULE=edhoc-c_crypto_tinycrypt SRC=tinycrypt.c "make" -C /home/emmanuel/RIOT/build/pkg/EDHOC-C/src -f /home/emmanuel/RIOT/Makefile.base MODULE=edhoc-c "make" -C /home/emmanuel/RIOT/pkg/nanocbor "make" -C /home/emmanuel/RIOT/build/pkg/nanocbor/src -f /home/emmanuel/RIOT/Makefile.base MODULE=nanocbor "make" -C /home/emmanuel/RIOT/pkg/tinycrypt "make" -C /home/emmanuel/RIOT/build/pkg/tinycrypt/lib/source/ -f /home/emmanuel/RIOT/pkg/tinycrypt/Makefile.tinycrypt -f /home/emmanuel/RIOT/Makefile.base MODULE=tinycrypt "make" -C /home/emmanuel/RIOT/boards/native "make" -C /home/emmanuel/RIOT/boards/native/drivers "make" -C /home/emmanuel/RIOT/core "make" -C /home/emmanuel/RIOT/cpu/native "make" -C /home/emmanuel/RIOT/cpu/native/cli_eui_provider "make" -C /home/emmanuel/RIOT/cpu/native/netdev_tap "make" -C /home/emmanuel/RIOT/cpu/native/periph "make" -C /home/emmanuel/RIOT/cpu/native/stdio_native "make" -C /home/emmanuel/RIOT/drivers "make" -C /home/emmanuel/RIOT/drivers/netdev "make" -C /home/emmanuel/RIOT/drivers/periph_common "make" -C /home/emmanuel/RIOT/sys "make" -C /home/emmanuel/RIOT/sys/auto_init "make" -C /home/emmanuel/RIOT/sys/div "make" -C /home/emmanuel/RIOT/sys/evtimer "make" -C /home/emmanuel/RIOT/sys/fmt "make" -C /home/emmanuel/RIOT/sys/iolist "make" -C /home/emmanuel/RIOT/sys/luid "make" -C /home/emmanuel/RIOT/sys/net/application_layer/nanocoap "make" -C /home/emmanuel/RIOT/sys/net/crosslayer/inet_csum "make" -C /home/emmanuel/RIOT/sys/net/gnrc "make" -C /home/emmanuel/RIOT/sys/net/gnrc/netapi "make" -C /home/emmanuel/RIOT/sys/net/gnrc/netif "make" -C /home/emmanuel/RIOT/sys/net/gnrc/netif/ethernet "make" -C /home/emmanuel/RIOT/sys/net/gnrc/netif/hdr "make" -C /home/emmanuel/RIOT/sys/net/gnrc/netif/init_devs "make" -C /home/emmanuel/RIOT/sys/net/gnrc/netreg "make" -C /home/emmanuel/RIOT/sys/net/gnrc/network_layer/icmpv6 "make" -C /home/emmanuel/RIOT/sys/net/gnrc/network_layer/icmpv6/echo "make" -C /home/emmanuel/RIOT/sys/net/gnrc/network_layer/ipv6 "make" -C /home/emmanuel/RIOT/sys/net/gnrc/network_layer/ipv6/hdr "make" -C /home/emmanuel/RIOT/sys/net/gnrc/network_layer/ipv6/nib "make" -C /home/emmanuel/RIOT/sys/net/gnrc/network_layer/ndp "make" -C /home/emmanuel/RIOT/sys/net/gnrc/pkt "make" -C /home/emmanuel/RIOT/sys/net/gnrc/pktbuf "make" -C /home/emmanuel/RIOT/sys/net/gnrc/pktbuf_static "make" -C /home/emmanuel/RIOT/sys/net/gnrc/sock "make" -C /home/emmanuel/RIOT/sys/net/gnrc/sock/udp "make" -C /home/emmanuel/RIOT/sys/net/gnrc/transport_layer/udp "make" -C /home/emmanuel/RIOT/sys/net/link_layer/eui_provider "make" -C /home/emmanuel/RIOT/sys/net/link_layer/l2util "make" -C /home/emmanuel/RIOT/sys/net/netif "make" -C /home/emmanuel/RIOT/sys/net/netutils "make" -C /home/emmanuel/RIOT/sys/net/network_layer/icmpv6 "make" -C /home/emmanuel/RIOT/sys/net/network_layer/ipv6/addr "make" -C /home/emmanuel/RIOT/sys/net/network_layer/ipv6/hdr "make" -C /home/emmanuel/RIOT/sys/net/transport_layer/udp "make" -C /home/emmanuel/RIOT/sys/ps "make" -C /home/emmanuel/RIOT/sys/random "make" -C /home/emmanuel/RIOT/sys/shell "make" -C /home/emmanuel/RIOT/sys/shell/commands "make" -C /home/emmanuel/RIOT/sys/test_utils/interactive_sync "make" -C /home/emmanuel/RIOT/sys/xtimer text data bss dec hex filename 238857 18729 169732 427318 68536 /home/emmanuel/RIOT/tests/pkg_edhoc_c/bin/native/tests_pkg_edhoc_c.elf /home/emmanuel/RIOT/tests/pkg_edhoc_c/bin/native/tests_pkg_edhoc_c.elf tap0 RIOT native interrupts/signals initialized. LED_RED_OFF LED_GREEN_ON RIOT native board initialized. RIOT native hardware initialization complete. NETOPT_RX_END_IRQ not implemented by driver main(): This is RIOT! (Version: 2022.04-devel-177-g54620) [initiator]: load ephemeral key: ONLY FOR TESTING [initiator]: preset cid: ONLY FOR TESTING [responder]: load ephemeral key: ONLY FOR TESTING [responder]: preset cid: ONLY FOR TESTING Starting the shell > > > ifconfig ifconfig Iface 5 HWaddr: 1E:FA:DF:53:55:9B L2-PDU:1500 MTU:1500 HL:64 RTR RTR_ADV Source address length: 6 Link type: wired inet6 addr: fe80::1cfa:dfff:fe53:559b scope: link VAL inet6 group: ff02::2 inet6 group: ff02::1 inet6 group: ff02::1:ff53:559b > init handshake fe80::1cfa:dfff:fe53:559b%5 5683 init handshake fe80::1cfa:dfff:fe53:559b%5 5683 [initiator]: sending msg1 (37 bytes): 0x0d 0x00 0x58 0x20 0x8d 0x3e 0xf5 0x6d 0x1b 0x75 0x0a 0x43 0x51 0xd6 0x8a 0xc2 0x50 0xa0 0xe8 0x83 0x79 0x0e 0xfc 0x80 0xa5 0x38 0xa4 0x44 0xee 0x9e 0x2b 0x57 0xe2 0x44 0x1a 0x7c 0x21 [responder]: received an EDHOC message (len 37): 0x0d 0x00 0x58 0x20 0x8d 0x3e 0xf5 0x6d 0x1b 0x75 0x0a 0x43 0x51 0xd6 0x8a 0xc2 0x50 0xa0 0xe8 0x83 0x79 0x0e 0xfc 0x80 0xa5 0x38 0xa4 0x44 0xee 0x9e 0x2b 0x57 0xe2 0x44 0x1a 0x7c 0x21 [responder]: sending msg2 (46 bytes): 0x58 0x20 0x52 0xfb 0xa0 0xbd 0xc8 0xd9 0x53 0xdd 0x86 0xce 0x1a 0xb2 0xfd 0x7c 0x05 0xa4 0x65 0x8c 0x7c 0x30 0xaf 0xdb 0xfc 0x33 0x01 0x04 0x70 0x69 0x45 0x1b 0xaf 0x35 0x37 0x4a 0xa3 0xf1 0xbd 0x5d 0x02 0x8d 0x19 0xcf 0x3c 0x99 [initiator]: received a message (46 bytes): 0x58 0x20 0x52 0xfb 0xa0 0xbd 0xc8 0xd9 0x53 0xdd 0x86 0xce 0x1a 0xb2 0xfd 0x7c 0x05 0xa4 0x65 0x8c 0x7c 0x30 0xaf 0xdb 0xfc 0x33 0x01 0x04 0x70 0x69 0x45 0x1b 0xaf 0x35 0x37 0x4a 0xa3 0xf1 0xbd 0x5d 0x02 0x8d 0x19 0xcf 0x3c 0x99 [initiator]: sending msg3 (20 bytes): 0x37 0x52 0xd5 0x53 0x5f 0x31 0x47 0xe8 0x5f 0x1c 0xfa 0xcd 0x9e 0x78 0xab 0xf9 0xe0 0xa8 0x1b 0xbf [responder]: received an EDHOC message (len 20): 0x37 0x52 0xd5 0x53 0x5f 0x31 0x47 0xe8 0x5f 0x1c 0xfa 0xcd 0x9e 0x78 0xab 0xf9 0xe0 0xa8 0x1b 0xbf [responder]: finalize exchange [responder]: handshake successfully completed [initiator]: handshake successfully completed [initiator]: Transcript hash 4 (32 bytes): 0x7c 0xcf 0xde 0xdc 0x2c 0x10 0xca 0x03 0x56 0xe9 0x57 0xb9 0xf6 0xa5 0x92 0xe0 0xfa 0x74 0xdb 0x2a 0xb5 0x4f 0x59 0x24 0x40 0x96 0xf9 0xa2 0xac 0x56 0xd2 0x07 > init oscore init oscore OSCORE secret: 0x5b 0xb2 0xae 0xe2 0x5b 0x16 0x0e 0x7c 0x6d 0x26 0x12 0xb0 0xa6 0x01 0x09 0x16 OSCORE salt: 0x8e 0x44 0x92 0x10 0xe0 0x3b 0xc2 0x9d > resp oscore resp oscore OSCORE secret: 0x5b 0xb2 0xae 0xe2 0x5b 0x16 0x0e 0x7c 0x6d 0x26 0x12 0xb0 0xa6 0x01 0x09 0x16 OSCORE salt: 0x8e 0x44 0x92 0x10 0xe0 0x3b 0xc2 0x9d > make: Leaving directory '/home/emmanuel/RIOT/tests/pkg_edhoc_c' ```
emmanuelsearch commented 2 years ago

Looks like we're good to go.

fjmolinas commented 2 years ago

Should have be closed a while ago, release is already in