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[unreleased]

New features

  • ARM now emits two instructions instead of ADR to load the low and high parts of global addresses (PR#921).

  • Extraction to EasyCrypt can now be done after a given compilation pass using --after command-line argument (PR#972).

  • While instructions now have two pieces of information (including locations) attached to them: one corresponding to the whole instruction, the other one corresponding to the guard condition (PR #969; fixes #902).

Bug fixes

  • Fix EasyCrypt semantics of shift operators (PR#973).

  • Fix EC extraction in case on nested loops (PR #971).

Other changes

  • The deprecated legacy interface to the LATEX pretty-printer has been removed (PR #869).

  • Extraction to EasyCrypt for safety verification is now removed, it was deprecated in the previous release (PR #846).

  • Extraction to Easycrypt is now available as a separate jasmin2ec tool; the -ec, -oec, -oecarray and -CT command-line options are deprecated. The jasmin2ec tool uses a new set of theories in eclib for extracting array operations, and supports a new extraction for leakage based on local variables. (PR #914, PR #952, PR #967).

  • The “allocation” pass now uses the liveness information to reduce the sizes of the tables it uses internally; it should be faster on large functions (PR #965).

  • Compiling the OCaml source code no longer requires -rectypes (PR #980).

  • The printer to LATEX shows a comment informing about jasmin.sty support file (PR #976 and PR #986).

Jasmin 2024.07.2 — Nancy, 2024-11-21

New features

  • Add support for ARM instruction SBC (PR #936).

  • Add support for x86 instructions BTR and BTS with the bit base operand in register (PR #932; fixes #928).

  • Add support for x86 TZCNT instruction (PR #942).

  • Adding support for type aliases definition in the global scope (and namespace global scope)

    • Syntax for definition is type <name> = <type>;
    • Syntax for use is reg <typename> <varname> ... (PR #911).
  • Add x86 memory prefetching instructions PREFETCHT0, PREFETCHT1, PREFETCHT2, and PREFETCHNTA (PR #941).

Bug fixes

  • Multiplication instructions have data-independent timing on x86 (PR #927).

  • Do not use RAX to save the stack pointer on x86 (PR #937; fixes #895).

  • Disable x86 BT instruction with in-memory operands (PR #948; fixes #931).

  • Correcting shift in location produced by multiline string annotations (PR #959; fixes #943).

Other changes

  • Change the semantics of SMULL and UMULL arm instructions to make them consistent with arm documentation. They return low bits then high bits instead of high bits then low bits. This is a breaking change, to patch existing code you need to replace: (hi, lo) = #UMULL(e1, e2); with (lo, hi) = #UMULL(e1, e2); or (hi, lo) = e1 * e2; (PR #958; fixes #637).

  • Improve description of x86 AVX shift instructions; this changes the type of the vectorized shift operations: the second argument is now a 128-bit value (PR #955; fixes #950).

Jasmin 2024.07.1 — Nancy, 2024-10-03

New features

  • Support more integer notations (PR#897):

    • Octal: 0O777, 0o52
    • Binary: 0b11101, 0B11100
    • _ characters: 100_000_00___111
  • Extraction as EasyCrypt code targets version 2024.09 (PR #910).

  • Local variables may be initialized when declared, as for instance reg u32 x = 1, y, z = 2; stack u64 s = 1, u, t = z; (PR #908).

  • The SCT checker now allows protecting in MMX registers (PR #917).

  • Add support for the MMX instruction POR (PR #917).

Bug fixes

  • Easycrypt extraction for CT : fix decreasing for loops (PR #859; fixes #858).

  • Array copy operator #copy support slices as arguments and results (PR #880; fixes #842).

  • Fix SCT check of while loops (PR #888); fixes #887).

  • Fix compilation of functions with system calls but not making other use of the stack (PR #892); fixes #870).

  • Safety checker handles dynamically scoped global variables (PR #890; fixes #662).

  • Adding label to global variables in assembly generation to avoid name conflicts (PR #907; fixes #871).

Other changes

  • The checker for S-CT accepts copies of outdated MSF (PR #885).

  • Preserve formatting of integer literals in the lexer and when pretty-printing to LATEX (PR #886).

  • Improve handling of instruction LEA in the safety checker (PR #900).

  • Various improvements to the LATEX pretty-printer (PR #916).

Jasmin 2024.07.0 — Sophia-Antipolis, 2024-07-09

New features

  • The stack allocation checker accepts more programs. This checker is run during the stack allocation pass to verify that the transformation done by the pass (mostly, turning arrays accesses into memory accesses) is correct. It ensures that there is no aliasing problem when two arrays are put in the same place in memory. Before, an assignment a1 = a2, where a1 and a2 are two arrays, was accepted only if there was no aliasing issue on a2, and a1 was marked as having no aliasing issue. Now, there is no such requirement on a2, and a1 is marked as having the same aliasing issues as a2. This gives in particular more freedom for spilling and unspilling reg ptr, see compiler/tests/success/subarrays/x86-64/spill_partial.jazz. (PR #841).

  • ARM now compiles x = imm; smartly: for small immediates, a single MOV; for immediates whose negation is small, a single MVN; and for large immediates a pair of MOV and MOVT. (PR #795).

  • Export functions can have ptr arrays as arguments and results. The compiler assumes that writable ptr are disjoint from the other ptr arguments and from the global data. This is the responsibility of the caller to ensure that this holds. For now, writable ptr must come first in the list of arguments and be returned first and in the same order in the list of results. (PR #707).

  • The (speculative) constant-time checker can optionally check that secrets are only used with guaranteed constant time instructions (DOIT for Intel, DIT for ARM) (PR #736, PR #811).

  • Add spill/unspill primitives allowing to spill/unspill reg and reg ptr to/from the stack without need to declare the corresponding stack variable. If the annotation #spill_to_mmx is used at the variable declaration the variable is spilled into a mmx variable (this works only for x86). See compiler/tests/success/common/spill.jazz. and compiler/tests/success/X86-64/spill_mmx.jazz. (PR #687, PR #692, and PR #836).

  • Add a swap primitive, x, y = #swap(x, y) to allow swapping the contents of two operands. The x and y can be reg or reg ptr. The swap is performed without the need of extra register or memory access. On arm-m4, this is compiled using 3 xor instructions. See compiler/tests/success/common/swap.jazz and compiler/tests/success/common/swap_word.jazz for usage. (PR #691, PR #816, PR #818).

  • Support Selective Speculative Load Hardening. We now support SLH operators as in Typing High-Speed Cryptography against Spectre v1. The compilation of these is proven to preserve functional semantics. We also provide a speculative CCT checker, via the jasmin-ct flag --sct. (PR #447, PR #723, PR #814).

  • Register arrays and sub-arrays can appear as arguments and return values of local functions; the “make-reference-arguments” pass is now run before expansion of register arrays (PR #452, PR #720).

  • Add the instruction MULX_hi, hi = #MULX_hi(x, y); is equivalent to hi, _ = #MULX(x, y); but no extra register is used for the low half of the result. (PR #531).

  • Definition of parameters can now use arbritrary expressions and depend on other parameters. See tests/success/common/test_globals.jazz. (PR #595).

  • The generated code for allocating and freeing stack frames in ARM has been slightly optimized: small constants are used as immediates, 16-bit or Thumb-expandable constants loaded with MOV, and bigger ones constructed with MOV and MOVT. (PR #597).

  • Support stack zeroization. The compiler can introduce code that zeroizes the stack at the end of export functions. The user can enable this feature using either annotations (stackzero and stackzerosize), or compiler flags (-stack-zero and -stack-zero-size). Three strategies are currently supported: unrolled (the code is a sequence of writes as long as needed), loop (the code is a loop) and loopSCT (same as loop but with a LFENCE at the end to defend against Spectre). (PR #631).

  • Interleave references to source-code positions within the assembly listings when the -g command-line flag is given (off by default). (PR #684).

  • The Constant-Time security checker also accepts annotations for the Speculative-Constant-Time checker (transient and msf are interpreted as public; information relative to pointers or to mis-speculated executions is ignored) (PR #773).

  • The Constant-Time security checker optionally runs the first compilation passes before checking; the last pass to run is configured through the --compile command line argument (PR #788).

  • Global data in assembly listing now shows the names of all global variables (PR #793).

Bug fixes

  • Truncation of stack variables is handled correctly (PR #848; fixes #681).

  • The compiler rejects ARM intrinsics with the S suffix if the instruction does not set flags (PR #809; fixes #808).

  • Type-checking rejects invalid variants of primitive operators (PR #490; fixes #488).

  • Constant propagation handles global variables assigned to inline variables (PR #541; fixes #540).

  • More precise detection of speculative safe loads in the SCT checker (PR #556).

  • Fix expansion of #copy operators when target is marked as ptr (PR #550; fixes #499).

  • Improve the safety checking for (I)DIV x86 instructions (PR #574; fixes #561).

  • Remove dead functions after loop unrolling (PR 611; fixes #607).

  • Fix code generation for ARMv7 when stack frames are large (PR 677 PR 712; fixes #696).

  • Fix code generation for ARMv7 when export functions have large stack frames (PR #710; fixes #709).

  • Type-checking warns about calls to export functions that are not explicitly inlined; export functions called from Jasmin code are inlined at call sites (PR #731; fixes #729).

  • Attach more precise meta-data to variables introduced at compile-time (PR #753; fixes #718).

  • Correctly parse ARMv7 intrinsics whose name ends in -S (PR #791; fixes #546).

Other changes

  • Extraction to EasyCrypt for safety verification is deprecated; it has been broken for a while, and is now explicitly unmaintained (PR #849).

  • Pretty-printing of Jasmin programs is more precise (PR #491).

  • Fix semantics of the MULX instruction (PR #531; fixes #525).

  • The deprecated legacy interface to the CT checker has been removed (PR #769).

Jasmin 2023.06.4 — 2024-06-18

New features

  • The instructions of the VAES extension are available through a size suffix (e.g., VAESENC_256) (PR #831, fixes #630).

  • The following x86 BMI2 instructions are now available: RORX, SARX, SHRX, and SHLX (PR #824).

Other changes

  • The executable jazzct for checking constant time is renamed into jasmin-ct, similarly the executable jazz2tex is renamed into jasmin2tex (PR #838).

  • In x86 assembly, 8-bit immediate operands are printed unsigned, i.e., in the range [0; 255] (PR #821; fixes #803).

Jasmin 2023.06.3 — 2024-04-10

New features

  • The type system for constant time now ensures that division and modulo operators may only be used with public arguments. This ensures that problems like KyberSlash (https://kyberslash.cr.yp.to/) do not occur. (PR #722).

  • Add the x86_64 instruction XCHG, a, b = #XCHG(a, b); to allow swapping the contents of two operands. (PR #678).

  • The Constant-Time security checker is now available as a separate jazzct tool; the -checkCT, -checkCTon, and -infer command line options are deprecated (PR #766).

  • Register allocation can print liveness information (enable with -pliveness) (PR #749, PR #776).

  • Relaxed alignment constraints for memory and array accesses (PR #748, PR #772).

  • Namespaces can be used to structure source code and require the same file more than once (in different contexts) (PR #734, PR #780).

  • Extraction as EasyCrypt code targets version 2024.01 (PR #690).

Bug fixes

  • The compiler no longer throws an exception when a required file does not exist (PR #733; fixes #383).

  • When slicing, export functions that are called from kept functions are no longer spuriously kept (PR #751; fixes #750).

Other changes

  • Instruction selection for x86-64, when storing a large immediate value in memory, introduces a copy through an intermediate register rather that emitting invalid code (PR #730).

  • Expansion of #copy operators uses an intermediate register when needed (PR #735).

  • Add more warning options:

    • -wduplicatevar: warns when two variables share the same name;
    • -wunusedvar: warns when a declared variable is not used.

    (PR #605). Warning this is a breaking change.

Jasmin 2023.06.2 — 2023-12-22

New features

  • Instruction selection for arm-m4 turns x = (y << n) - z into x = #RSB(z, y << n) and x = n - y into x = #RSB(y, n) where n is a constant. (PR #585, PR #589).

  • Add instructions REV, REV16, and REVSH to arm-m4; (PR #620; fixes #618).

  • Add instructions CLZ, CMN, BFC, and BFI to arm-m4: (PR #641, PR #642, PR #643).

  • Add signed multiply halfwords instructions SMULBB, SMULBT, SMULTB, SMULTT, SMLABB, SMLABT, SMLATB, SMLATT, SMULWB, and SMULWT (PR #644).

  • Array indexing expressions are automatically and silently casted from word to int during pretyping (PR #673; fixes #672).

Bug fixes

  • Fix printing to EasyCrypt of ARMv7 instruction bic (PR #554).

  • Add alignment during global datas for arm-m4 (PR #590; fixes #587).

  • Type-checking rejects wrongly casted primitive operators (PR #489; fixes #69).

  • Fix combine flag notation for arm (PR 594; fixes #593).

  • Flag combination support "!=" as the negation of "==" (PR 600; fixes #599).

  • Fix extraction to easycrypt of for loops that modify the loop counter (PR 616).

  • Fix instruction selection for stack-allocation on ARM (PR 623; fixes #622).

Other changes

  • Unsigned division on x86 emits a xor instead of “mov 0“ (PR #582).

  • The safety checker uses less list concatenations (PR #669).

Jasmin 2023.06.1 — 2023-07-31

New features

  • More arm instructions are available: MLA, MLS (PR #480), UMAAL (PR #543), UMLAL, SMULL, SMLAL, SMMUL, SMMULR (PR #481, PR #492, PR #514, PR #545).

  • Notation for string literals; there is no implicit zero terminator; escaping follows the lexical conventions of OCaml (PR #517, PR #532).

Bug fixes

  • Fix semantics of the IMUL, IMULr, and IMULri instructions (PR #528; fixes #524).

  • Fix semantics of the SHLD_16, SHRD_16, VPSLLV, and VPSRLV instructions (PR #520).

  • Handle the size parameter in LZCNT semantic (PR #516; fixes #515).

Other changes

Jasmin 2023.06.0 — Villers-lès-Nancy, 2023-06-09

New features

  • Support ARMv7 (Cortex-M4) as target architecture (PR #242).

  • Compute the maximal call depth for each function; a function annotation #[calldepth=n] can be used to check that the maximal call depth is exactly n (PR #282).

  • Add bit rotation operators for expressions: <<r and >>r (PR #290). These get extracted to |<<| and |>>| in EasyCrypt.

  • Local functions with return address on the stack use usual CALL and RET x86 instructions instead of (direct & computed) JMP (PR #194).

  • The pretty-printer of Jasmin programs to LATEX is now available as a separate jazz2tex tool; the -latex command line flag is deprecated (PR #372).

  • The safety checker fully unrolls while loops annotated as #bounded and does not attempt at proving termination of while loops annotated with #no_termination_check (PR #362, PR #384).

  • The safety checker warns about possible alignment issues rather than failing, when the -nocheckalignment command-line flag is given (PR #401).

  • The jasminc tool may process only a slice of the input program, when one or more -slice f arguments are given on the command line; slicing occurs after expansion of parameters and its result can be observed with -pcstexp (PR #414).

Bug fixes

  • Various fixes to the LATEX printer (PR #406).

  • Fix the semantics of shift and rotation operators: the second argument (the shift amount) is no longer truncated (PR #413).

  • Improve liveness analysis for register allocation (PR #469; fixes #455).

Other changes

  • Explicit if-then-else in flag combinations is no longer supported in x86 assembly generation; conditions that used to be supported can be expressed using equality and disequality tests (PR #270).

  • When the -timings command-line flag is given, timestamps are written to the standard error after each compilation pass and during safety analysis when entering a local function; the elapsed time since previous timestamp is also displayed (PR #403).

  • Local functions that are never called are removed from the program during the “remove unused function” pass (PR #427).

Jasmin 2022.09.3 — Villers-lès-Nancy, 2023-05-31

New features

  • x86 instructions PCLMULQDQ, VPCLMULQDQ are available (PR #396).

  • x86 intrinsics that accept a size suffix (e.g., _128) also accept, with a warning, a vector suffix (e.g., _4u32) (PR #303).

Bug fixes

  • The x86 instructions VMOVSHDUP and VMOVSLDUP accept a size suffix (_128 or _256) instead of a vector description suffix (4u32 or 8u32) (PR #303; fixes #301).

  • Fixes for x86 instruction BT (PR #420).

  • Register allocation checks that forced register are from the expected bank (PR #422; fixes #421).

  • Fix semantics of the VPERMD, VPMADDWD, and VPMADDUBSW instructions (PR #442).

  • Fix semantics of the VPMOVSX and VPMOVZX instructions (PR #446).

  • Fix semantics of the VPSHUFB and VPCMPGT instructions (PR #449).

  • Fix semantics of the SHR, RCL, and RCR instructions (PR #451).

Other changes

  • Instruction selection for x86_64 recognizes shifts (rotations, etc.) by an amount that is explicitly truncated (e.g., x >>= y & 63) (PR #412).

Jasmin 2022.09.2

This release fixes the AUTHORS file which was not up-to-date.

Jasmin 2022.09.1

New features

  • More x86 instructions are available: VPMUL (PR #276), VPAVG (PR #285), CLFLUSH, LFENCE, MFENCE, SFENCE (PR #334), PDEP (PR #328), VMOVDQA (PR #279).

  • Division and modulo operators can be used in compound assignments (e.g., x /= y) (PR #324).

Bug fixes

  • Safety checker handles the #copy and #randombytes operators (PR #312, PR #317; fixes #308).

  • Register allocation takes into account conflicts between flag registers (PR #311; fixes #309).

  • Register allocation fails when some reg bool variables remain unallocated (PR #313; fixes #310).

  • Fixes to the safety checker (PR #315, PR #343, PR #365; fixes #314).

  • Safety checker better handles integer shift operators (PR #322; fixes #319).

  • Improved error message in array expansion (PR #331; fixes #333).

  • The randombytes system-call is better handled by the constant-time checker (PR #326; fixes #325).

  • Stack-allocation ensures that array slices are in bounds (PR #363; fixes #54).

  • Safety checker folds constant expressions during linearization (PR #387; fixes #385, #386).

  • Fix compilation and semantics of the VPEXTR and VPINSR instructions (PR #394; fixes #395).

Other changes

  • The live-range-splitting transformation is run a second time after expansion of register arrays (PR #341).

Jasmin 2022.09.0

Bug fixes

  • Fix printing of while loops (PR #131).

  • Improved removal of assignments introduced by inlining (PR #177; fixes #175).

  • More precise pretyping for "reg const ptr" and function call. (PR #178; fixes #176).

  • Various fixes to the LATEX printer (PR #212; fixes #197).

  • Conditional function calls now produce a clearer error message (PR #215; fixes #199).

  • Fix lowering of not-equal conditions in assignments (PR #216; fixes #200).

  • Do not spuriously warn about missing “iinfo” (PR #225; fixes #224).

  • Fix inference of mutability of ptr parameters during stack-allocation (PR #227; fixes #190).

  • Fix possible crashes of stack-allocation (PR #228; fixes #58).

  • Fix a failing assertion in extraction to EasyCrypt for constant-time (PR #229; fixes #202).

  • Fix extraction to EasyCrypt for constant-time of intrinsics with zero-extend (PR #251; fixes #250).

New features

  • Added instruction #randombytes to fill an array with “random” data (PR #171). The typical use is: p = #randombytes(p);.

  • Added access to mmx registers (PR #142).

    • declaration:
           reg u64 x; // normal register
      #mmx reg u64 m; // mmx register
      
    • move from/to normal register: x = m; m = x;
    • move from/to normal register using intrinsics: x = #MOVX(m); m = #MOVX(x);
    • supported sizes: MOVX_32 and MOVX_64
  • Added option -call-conv {windows|linux} to select calling convention (PR #163). Default depends on host architecture.

  • Added syntactic sugar for else if blocks (PR #244). I.e., you can now use constructions like:

    if x == 0 {
      // (...)
    } else if x == 1 {
      // (...)
    } else {
      // (...)
    }
    
  • EasyCrypt extraction of array support libraries is controlled through the -oecarray dir command line argument (PR #246).

Improvements

  • Intrinsics present at source-level can no longer be removed by dead-code elimination (PR #221; fixes #220).

  • Lowering of a memory-to-memory copy always introduce an intermediate copy through a register (PR #184).

  • fun_info are FInfo.t, instr_info are IInfo.t, and var_info are Location.t; this removes costly translations with positive and big conversion tables (PR #209, PR #226, PR #233).

  • For loops and “inline”-annotated instructions that remain after “unrolling” yield a proper error message (PR #243; fixes #29, fixes #150).

  • Using option -oec without option -ec extracts all functions.

  • Extraction to EasyCrypt is now tested in continuous integration (PR #260; fixes #136, fixes #104).

Jasmin 2022.04.0

This release is the result of more than two years of active development. It thus contains a lot of new functionalities compared to Jasmin 21.0, the main ones being listed below, but also a lot of breaking changes. Please upgrade with care.

Here are the main changes of the release.

  • A new kind of function, subroutines, in addition to inline functions and export functions. They are declared with fn only, while inline functions are declared with inline fn and export functions with export fn. This is a breaking change, since before fn was a synonym for inline fn. Unlike inline functions, they are proper functions. Unlike export functions, they are internal. As such, they do not need to respect any standard calling convention and are therefore a bit more flexible.

  • New storage modifiers reg ptr and stack ptr to declare arrays. reg ptr is used to store the address of an array in a register. The main use of reg ptr arrays is to pass stack arrays as arguments to subroutines, since they do not accept stack arrays as arguments directly. stack ptr is used to spill a reg ptr on the stack. In the semantics, the storage modifiers are not taken into account, meaning that stack, reg ptr and stack ptr arrays are treated the same, which allows to reason easily about the source program. The compiler ensures that compilation does not change the semantics of the program. In the case it would, the compilation simply fails.

  • Support of global arrays. These arrays are defined outside any function and are immutable. A global array must be initialized at the same time it is declared, specifying the array as comma-separated values between curly brackets. For instance, u64[2] g = { 13, 29 }; is a valid global array declaration.

  • Support of sub-arrays. A new syntax is introduced to manipulate slices of arrays. The concrete syntax is a[pos:len] to specify the slice of array a starting at index pos and of length len. For now, pos and len must be compile-time constants. This limitation is expected to be weakened in the future. This syntax cannot be used for reg arrays. The same remark as for reg ptr applies, if the compiler cannot prove that compilation does not change the semantics of the program, then it fails.

  • A flexible annotation system. In addition to function declarations that were already supported, it is now possible to attach annotations to instructions, variable declarations and return types. The concrete syntax is the following: #[annotation] or #[annotation=value].

  • Writing to the lower bits of a register. Instead of computing a small value and writing it afterwards to a larger register, one can compute the value, write it to the lower bits of the large register and zero the higher bits in one go. This works only with certain assembly operators. The operator must be prefixed with a cast to the right size. Here is an example illustrating the feature.

    reg u64 x y; reg u256 z;
    z = (256u)#VPAND(x, y); // writes the bitwise AND of x and y to the lower bits
                            // of z, and zeroes the other bits of z
    
  • An include system. Including a Jasmin file in another one is now a native feature of Jasmin. The concrete syntax is require "file.jazz". If the path is relative, it is interpreted relatively to the location of the Jasmin file. To deal with more complex cases, an option -I ident:path was added to the compiler. It adds path (interpreted relatively to the current directory if it is relative) with logic name ident to the search path of the compiler. The same operation can be performed using the environment variable JASMINPATH. The syntax is JASMINPATH="ident1=path1:ident2=path2". Then one can use from ident require "file.jazz" to refer to file path/file.jazz. The error messages of the compiler contain the list of transitively included files if needed, so locating the problematic line should be easier than with manual includes.

  • A new operator, #copy to copy register arrays. It is used like an assembly operator, a = #copy(b); or a = #copy_128(b); if the word size needs to be specified. It is added automatically to assignments of the form a1 = a2; where a1 and a2 are arrays and at least one of them is a register array.

  • Easier flag manipulation. Boolean flags can now be referred to by their names. For instance, ?{cf=b} = #CMP(x,y); assigns the carry flag to variable b. The cf= part is not needed if the variable already has the name of a flag (this is case-insensitive), e.g. ?{CF} = #CMP(x, y); assigns the carry flag to variable CF. One can even use names for boolean expressions that are computed based on a combination of flags. For instance, ?{"==" = b, "<s" = c} = #CMP(x, y); assigns the result of the equality test to variable b and the result of the signed comparison to variable c. Jasmin knows how to translate that into the right combination of flags.

  • A type system for cryptographic constant time. Function arguments and return types, as well as local declarations, can be annotated (using the aforementionned annotation system) with a security level. This can either be #public, #secret, #poly=l or #poly={l1,...,ln}, where l1, ..., ln are security level variables that allow to express the security level of one variable depending on the security levels of other variables. Then option -checkCTon f calls a type-checker on function f that checks that f can be given a security type compatible with the annotations given by the user. Option -checkCT checks the whole program. If the annotations are partial, the type-checker tries to infer the missing parts, except for the signature of export functions since that part is expected to be specified by the user. The analysis is flow-sensitive, meaning that one variable can have two different security levels at two different points in the program. This is the default when a variable is not annotated. When a variable is annotated, it is expected to have the given level at all points where it appears. If the user wants to change the default behaviour, it can use #flex or #strict to choose whether the security level of a variable can vary or not over its lifetime. Jasmin already supported some way of reasoning about constant-time in the form of an alternative extraction to EasyCrypt making leakages explicit. This extraction is more flexible, but in general the type system should be easier to use.

  • No export of global variables anymore. Global variables are no longer visible outside of the Jasmin compilation unit, so they cannot be referred to by other compilation units at link time.

  • New tunneling pass. At the end of the compilation, the compiler tries to replace a jump pointing to another jump by a single jump pointing to the target of the second jump.

  • New heuristic for register allocation. The old one can be called with option -lazy-regalloc. If the compilation fails with the default one, it may succeed with -lazy-regalloc. The old heuristic appears to give in some cases more intuitive results.

  • Support of Intel syntax. Jasmin used to print assembly programs only in AT&T syntax. This remains the default, but there is a new option -intel to print it in Intel syntax.

  • Declarations anywhere in the function body. Before, the declarations had to be at the start of the function body. This was relaxed, they can now appear anywhere in the body.

  • Printing in Jasmin syntax. The compiler used to print programs in a syntax that was different from the Jasmin syntax, in general for no good reason. It now tries to use Jasmin syntax. In particular, the output of option -ptyping should always be syntactically valid. Please report an issue if it is not the case!

  • Nicer errors. The error system was rewritten. This should give more uniform and a bit nicer error messages.

Jasmin 21.0

This is the initial release of Jasmin.