ref: 611dced75f0a6c9fd4b35b88ee0dd9ac5806cb54
dir: /appl/lib/palm.b/
implement Palm; # # Copyright © 2001-2003 Vita Nuova Holdings Limited. All rights reserved. # # Based on ``Palm® File Format Specification'', Document Number 3008-004, 1 May 2001, by Palm Inc. # Doc compression based on description by Paul Lucas, 18 August 1998 # include "sys.m"; sys: Sys; include "daytime.m"; daytime: Daytime; include "palm.m"; # Exact value of "Jan 1, 1970 0:00:00 GMT" - "Jan 1, 1904 0:00:00 GMT" Epochdelta: con 2082844800; tzoff := 0; init(): string { sys = load Sys Sys->PATH; daytime = load Daytime Daytime->PATH; if(daytime == nil) return "can't load required module"; tzoff = daytime->local(0).tzoff; return nil; } Record.new(id: int, attr: int, cat: int, size: int): ref Record { return ref Record(id, attr, cat, array[size] of byte); } Resource.new(name: int, id: int, size: int): ref Resource { return ref Resource(name, id, array[size] of byte); } Doc.open(m: Palmdb, file: ref Palmdb->PDB): (ref Doc, string) { info := m->file.db.stat(); if(info.dtype != "TEXt" || info.creator != "REAd") return (nil, "not a Doc file: wrong type or creator"); r := m->file.read(0); if(r == nil) return (nil, sys->sprint("not a valid Doc file: %r")); a := r.data; if(len a < 16) return (nil, sys->sprint("not a valid Doc file: bad length: %d", len a)); maxrec := m->file.db.nentries()-1; d := ref Doc; d.m = m; d.file = file; d.version = get2(a); err := "unknown"; if(d.version != 1 && d.version != 2) err = "unknown Docfile version"; # a[2:] is spare d.length = get4(a[4:]); d.nrec = get2(a[8:]); if(maxrec >= 0 && d.nrec > maxrec){ d.nrec = maxrec; err = "invalid record count"; } d.recsize = get2(a[10:]); d.position = get4(a[12:]); return (d, sys->sprint("unexpected Doc file format: %s", err)); } Doc.iscompressed(d: self ref Doc): int { return (d.version&7) == 2; # high-order bits are sometimes used, ignore them } Doc.read(doc: self ref Doc, index: int): (string, string) { m := doc.m; DB, PDB: import m; r := doc.file.read(index+1); if(r == nil) return (nil, sys->sprint("%r")); (s, serr) := doc.unpacktext(r.data); if(s == nil) return (nil, serr); return (s, nil); } Doc.unpacktext(doc: self ref Doc, a: array of byte): (string, string) { nb := len a; s: string; if(!doc.iscompressed()){ for(i := 0; i < nb; i++) s[len s] = int a[i]; # assumes Latin-1 return (s, nil); } o := 0; for(i := 0; i < nb;){ c := int a[i++]; if(c >= 9 && c <= 16r7F || c == 0) s[o++] = c; else if(c >= 1 && c <= 8){ if(i+c > nb) return (nil, "missing data in record"); while(--c >= 0) s[o++] = int a[i++]; }else if(c >= 16rC0 && c <= 16rFF){ s[o] = ' '; s[o+1] = c & 16r7F; o += 2; }else{ # c >= 0x80 && c <= 16rBF v := int a[i++]; m := ((c & 16r3F)<<5)|(v>>3); n := (v&7) + 3; if(m == 0 || m > o) return (nil, sys->sprint("data is corrupt: m=%d n=%d o=%d", m, n, o)); for(; --n >= 0; o++) s[o] = s[o-m]; } } return (s, nil); } Doc.textlength(doc: self ref Doc, a: array of byte): int { nb := len a; if(!doc.iscompressed()) return nb; o := 0; for(i := 0; i < nb;){ c := int a[i++]; if(c >= 9 && c <= 16r7F || c == 0) o++; else if(c >= 1 && c <= 8){ if(i+c > nb) return -1; o += c; i += c; }else if(c >= 16rC0 && c <= 16rFF){ o += 2; }else{ # c >= 0x80 && c <= 16rBF v := int a[i++]; m := ((c & 16r3F)<<5)|(v>>3); n := (v&7) + 3; if(m == 0 || m > o) return -1; o += n; } } return o; } id2s(i: int): string { if(i == 0) return ""; return sys->sprint("%c%c%c%c", (i>>24)&16rFF, (i>>16)&16rFF, (i>>8)&16rFF, i&16rFF); } s2id(s: string): int { n := 0; for(i := 0; i < 4; i++){ c := 0; if(i < len s) c = s[i] & 16rFF; n = (n<<8) | c; } return n; } DBInfo.new(name: string, attr: int, dtype: string, version: int, creator: string): ref DBInfo { info := ref DBInfo; info.name = name; info.attr = attr; info.version = version; info.ctime = daytime->now(); info.mtime = daytime->now(); info.btime = 0; info.modno = 0; info.dtype = dtype; info.creator = creator; info.uidseed = 0; info.index = 0; return info; } Categories.new(labels: array of string): ref Categories { c := ref Categories; c.renamed = 0; c.lastuid = 0; c.labels = array[16] of string; c.uids = array[] of {0 to 15 => 0}; for(i := 0; i < len labels && i < 16; i++){ c.labels[i] = labels[i]; c.lastuid = 16r80 + i; c.uids[i] = c.lastuid; } return c; } Categories.unpack(a: array of byte): ref Categories { if(len a < 16r114) return nil; # doesn't match the structure c := ref Categories; c.renamed = get2(a); c.labels = array[16] of string; c.uids = array[16] of int; j := 2; for(i := 0; i < 16; i++){ c.labels[i] = latin1(a[j:j+16], 0); j += 16; c.uids[i] = int a[16r102+i]; } c.lastuid = int a[16r112]; # one byte of padding is shown on p. 26, but # two more are invariably used in practice # before application specific data. if(len a > 16r116) c.appdata = a[16r116:]; return c; } Categories.pack(c: self ref Categories): array of byte { a := array[16r116 + len c.appdata] of byte; put2(a, c.renamed); j := 2; for(i := 0; i < 16; i++){ puts(a[j:j+16], c.labels[i]); j += 16; a[16r102+i] = byte c.uids[i]; } a[16r112] = byte c.lastuid; a[16r113] = byte 0; # pad shown on p. 26 a[16r114] = byte 0; # extra two bytes of padding used in practice a[16r115] = byte 0; if(c.appdata != nil) a[16r116:] = c.appdata; return a; } Categories.mkidmap(c: self ref Categories): array of int { a := array[256] of {* => 0}; for(i := 0; i < len c.uids; i++) a[c.uids[i]] = i; return a; } # # because PalmOS treats all times as local times, and doesn't associate # them with time zones, we'll convert using local time on Plan 9 and Inferno # pilot2epoch(t: int): int { if(t == 0) return 0; # we'll assume it's not set return t - Epochdelta + tzoff; } epoch2pilot(t: int): int { if(t == 0) return t; return t - tzoff + Epochdelta; } # # map Palm name to string, assuming iso-8859-1, # but remap space and / # latin1(a: array of byte, remap: int): string { s := ""; for(i := 0; i < len a; i++){ c := int a[i]; if(c == 0) break; if(remap){ if(c == ' ') c = 16r00A0; # unpaddable space else if(c == '/') c = 16r2215; # division / } s[len s] = c; } return s; } # # map from Unicode to Palm name # filename(name: string): string { s := ""; for(i := 0; i < len name; i++){ c := name[i]; if(c == ' ') c = 16r00A0; # unpaddable space else if(c == '/') c = 16r2215; # division solidus s[len s] = c; } return s; } dbname(name: string): string { s := ""; for(i := 0; i < len name; i++){ c := name[i]; case c { 0 => c = ' '; # unlikely, but just in case 16r2215 => c = '/'; 16r00A0 => c = ' '; } s[len s] = c; } return s; } # # string conversion: can't use (string a) because # the bytes are Latin1, not Unicode # gets(a: array of byte): string { s := ""; for(i := 0; i < len a; i++) s[len s] = int a[i]; return s; } puts(a: array of byte, s: string) { for(i := 0; i < len a-1 && i < len s; i++) a[i] = byte s[i]; for(; i < len a; i++) a[i] = byte 0; } # # big-endian packing # get4(p: array of byte): int { return (((((int p[0] << 8) | int p[1]) << 8) | int p[2]) << 8) | int p[3]; } get3(p: array of byte): int { return (((int p[0] << 8) | int p[1]) << 8) | int p[2]; } get2(p: array of byte): int { return (int p[0]<<8) | int p[1]; } put4(p: array of byte, v: int) { p[0] = byte (v>>24); p[1] = byte (v>>16); p[2] = byte (v>>8); p[3] = byte (v & 16rFF); } put3(p: array of byte, v: int) { p[0] = byte (v>>16); p[1] = byte (v>>8); p[2] = byte (v & 16rFF); } put2(p: array of byte, v: int) { p[0] = byte (v>>8); p[1] = byte (v & 16rFF); } # # DL protocol argument wrapping, based on conventions # extracted from include/Core/System/DLCommon.h in SDK 5 # # tiny arguments # id: byte # size: byte # excluding this header # data: byte[] # # small arguments # id: byte # with 16r80 flag # pad: byte # size: byte[2] # data: byte[] # # long arguments # id: byte # with 16r40 flag # pad: byte # size: byte[4] # data: byte[] # wrapper format flag in request/response argument ID ShortWrap: con 16r80; # 2-byte count LongWrap: con 16r40; # 4-byte count Eshort: con "response shorter than expected"; # # set the system error string # e(s: string): string { if(s != nil) sys->werrstr(s); return s; } argsize(args: array of (int, array of byte)): int { totnb := 0; for(i := 0; i < len args; i++){ (nil, a) := args[i]; n := len a; if(n > 65535) totnb += 6; # long wrap else if(n > 255) totnb += 4; # short else totnb += 2; # tiny totnb += n; } return totnb; } packargs(out: array of byte, args: array of (int, array of byte)): array of byte { for(i := 0; i < len args; i++){ (id, a) := args[i]; n := len a; if(n > 65535){ out[0] = byte (LongWrap|ShortWrap|id); out[1] = byte 0; put4(out[2:], n); out = out[6:]; }else if(n > 255){ out[0] = byte (ShortWrap|id); out[1] = byte 0; put2(out[2:], n); out = out[4:]; }else{ out[0] = byte id; out[1] = byte n; out = out[2:]; } out[0:] = a; out = out[n:]; } return out; } unpackargs(argc: int, reply: array of byte): (array of (int, array of byte), string) { replies := array[argc] of (int, array of byte); o := 0; for(i := 0; i < len replies; i++){ o = (o+1)&~1; # each argument starts at even offset a := reply[o:]; if(len a < 2) return (nil, e(Eshort)); rid := int a[0]; l: int; if(rid & LongWrap){ if(len a < 6) return (nil, e(Eshort)); l = get4(a[2:]); a = a[6:]; o += 6; }else if(rid & ShortWrap){ if(len a < 4) return (nil, e(Eshort)); l = get2(a[2:]); a = a[4:]; o += 4; }else{ l = int a[1]; a = a[2:]; o += 2; } if(len a < l) return (nil, e(Eshort)); replies[i] = (rid &~ 16rC0, a[0:l]); o += l; } return (replies, nil); }