X-Git-Url: http://www.chiark.greenend.org.uk/ucgi/~ianmdlvl/git?a=blobdiff_plain;f=rsa.c;h=cda8d8924dfac0f4bd68a54d8648d8ec6fa670f6;hb=4b9f8efbb918eb573f8b4b0289aa0349a4e68f4c;hp=2bb6f551c3d563466072f61d2a5f4b038170b4c4;hpb=db520a2b8707ea724eb8ce0f8b411f42dce9dba8;p=secnet.git diff --git a/rsa.c b/rsa.c index 2bb6f55..cda8d89 100644 --- a/rsa.c +++ b/rsa.c @@ -90,6 +90,10 @@ static void rsa_priv_sethash(void *sst, struct hash_if *hash) struct rsapriv *st=sst; rsa_sethash(&st->common, hash, &st->ops.hash); } +static void rsacommon_dispose(struct rsacommon *c) +{ + free(c->hashbuf); +} static void emsa_pkcs1(MP_INT *n, MP_INT *m, const uint8_t *data, int32_t datalen) @@ -258,6 +262,15 @@ static bool_t rsa_sig_check(void *sst, uint8_t *data, int32_t datalen, return ok; } +static void rsapub_dispose(void *sst) { + struct rsapub *st=sst; + + mpz_clear(&st->e); + mpz_clear(&st->n); + rsacommon_dispose(&st->common); + free(st); +} + static list_t *rsapub_apply(closure_t *self, struct cloc loc, dict_t *context, list_t *args) { @@ -276,7 +289,7 @@ static list_t *rsapub_apply(closure_t *self, struct cloc loc, dict_t *context, st->ops.unpick=rsa_sig_unpick; st->ops.check=rsa_sig_check; st->ops.hash=0; - st->ops.dispose=0; /* xxx */ + st->ops.dispose=rsapub_dispose; st->loc=loc; i=list_elem(args,0); @@ -315,6 +328,23 @@ static list_t *rsapub_apply(closure_t *self, struct cloc loc, dict_t *context, return new_closure(&st->cl); } +struct rsapriv_load_ctx { + void (*verror)(struct rsapriv_load_ctx *l, + FILE *maybe_f, bool_t unsup, + const char *message, va_list args); + union { + struct { + struct cloc loc; + } apply; + } u; +}; + +#define LDFATAL(...) ({ load_error(l,0,0,__VA_ARGS__); goto error_out; }) +#define LDUNSUP(...) ({ load_error(l,0,1,__VA_ARGS__); goto error_out; }) +#define LDFATAL_FILE(...) ({ load_error(l,f,0,__VA_ARGS__); goto error_out; }) +#define LDUNSUP_FILE(...) ({ load_error(l,f,1,__VA_ARGS__); goto error_out; }) +#define FREE(b) ({ free((b)); (b)=0; }) + static uint32_t keyfile_get_int(struct cloc loc, FILE *f) { uint32_t r; @@ -335,19 +365,32 @@ static uint16_t keyfile_get_short(struct cloc loc, FILE *f) return r; } -#define LDFATAL(...) cfgfatal(loc,__VA_ARGS__) -#define LDUNSUP(...) cfgfatal(loc,__VA_ARGS__) -#define LDFATAL_FILE(...) cfgfatal_maybefile(f,loc,__VA_ARGS__) -#define LDUNSUP_FILE(...) cfgfatal_maybefile(f,loc,__VA_ARGS__) -#define FREE(b) free(b) +static void load_error(struct rsapriv_load_ctx *l, FILE *maybe_f, + bool_t unsup, const char *fmt, ...) +{ + va_list al; + va_start(al,fmt); + l->verror(l,maybe_f,unsup,fmt,al); + va_end(al); +} -static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, - list_t *args) +static void rsapriv_dispose(void *sst) { - struct rsapriv *st; - FILE *f; - cstring_t filename; - item_t *i; + struct rsapriv *st=sst; + mpz_clear(&st->n); + mpz_clear(&st->p); mpz_clear(&st->dp); + mpz_clear(&st->q); mpz_clear(&st->dq); + mpz_clear(&st->w); + rsacommon_dispose(&st->common); + free(st); +} + +static struct rsapriv *rsa_loadpriv_core(struct rsapriv_load_ctx *l, + FILE *f, struct cloc loc, + bool_t do_validity_check, + const char *filename) +{ + struct rsapriv *st=0; long length; uint8_t *b=0, *c=0; int cipher_type; @@ -371,39 +414,25 @@ static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, st->common.hashbuf=NULL; st->ops.sign=rsa_sign; st->ops.hash=0; - st->ops.dispose=0; /* xxx */ + st->ops.dispose=rsapriv_dispose; st->loc=loc; + mpz_init(&st->n); + mpz_init(&st->q); + mpz_init(&st->p); + mpz_init(&st->dp); + mpz_init(&st->dq); + mpz_init(&st->w); - /* Argument is filename pointing to SSH1 private key file */ - i=list_elem(args,0); - if (i) { - if (i->type!=t_string) { - cfgfatal(i->loc,"rsa-private","first argument must be a string\n"); - } - filename=i->data.string; - } else { - filename=NULL; /* Make compiler happy */ - cfgfatal(loc,"rsa-private","you must provide a filename\n"); - } - - f=fopen(filename,"rb"); if (!f) { - if (just_check_config) { - Message(M_WARNING,"rsa-private (%s:%d): cannot open keyfile " - "\"%s\"; assuming it's valid while we check the " - "rest of the configuration\n",loc.file,loc.line,filename); - goto assume_valid; - } else { - fatal_perror("rsa-private (%s:%d): cannot open file \"%s\"", - loc.file,loc.line,filename); - } + assert(just_check_config); + goto assume_valid; } /* Check that the ID string is correct */ length=strlen(AUTHFILE_ID_STRING)+1; b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f)!=1 || memcmp(b,AUTHFILE_ID_STRING,length)!=0) { - LDUNSUP_FILE("rsa-private","failed to read magic ID" + LDUNSUP_FILE("failed to read magic ID" " string from SSH1 private keyfile \"%s\"\n", filename); } @@ -412,42 +441,41 @@ static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, cipher_type=fgetc(f); keyfile_get_int(loc,f); /* "Reserved data" */ if (cipher_type != 0) { - LDUNSUP("rsa-private","we don't support encrypted keyfiles\n"); + LDUNSUP("we don't support encrypted keyfiles\n"); } /* Read the public key */ keyfile_get_int(loc,f); /* Not sure what this is */ length=(keyfile_get_short(loc,f)+7)/8; if (length>RSA_MAX_MODBYTES) { - LDFATAL("rsa-private","implausible length %ld for modulus\n", + LDFATAL("implausible length %ld for modulus\n", length); } b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f) != 1) { - LDFATAL_FILE("rsa-private","error reading modulus\n"); + LDFATAL_FILE("error reading modulus\n"); } - mpz_init(&st->n); read_mpbin(&st->n,b,length); FREE(b); length=(keyfile_get_short(loc,f)+7)/8; if (length>RSA_MAX_MODBYTES) { - LDFATAL("rsa-private","implausible length %ld for e\n",length); + LDFATAL("implausible length %ld for e\n",length); } b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f)!=1) { - LDFATAL_FILE("rsa-private","error reading e\n"); + LDFATAL_FILE("error reading e\n"); } read_mpbin(&e,b,length); FREE(b); length=keyfile_get_int(loc,f); if (length>1024) { - LDFATAL("rsa-private","implausibly long (%ld) key comment\n", + LDFATAL("implausibly long (%ld) key comment\n", length); } c=safe_malloc(length+1,"rsapriv_apply"); if (fread(c,length,1,f)!=1) { - LDFATAL_FILE("rsa-private","error reading key comment\n"); + LDFATAL_FILE("error reading key comment\n"); } c[length]=0; @@ -455,66 +483,60 @@ static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, keyfile is not encrypted, so they should be */ if (keyfile_get_short(loc,f) != keyfile_get_short(loc,f)) { - LDFATAL("rsa-private","corrupt keyfile\n"); + LDFATAL("corrupt keyfile\n"); } /* Read d */ length=(keyfile_get_short(loc,f)+7)/8; if (length>RSA_MAX_MODBYTES) { - LDFATAL("rsa-private","implausibly long (%ld) decryption key\n", + LDFATAL("implausibly long (%ld) decryption key\n", length); } b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f)!=1) { - LDFATAL_FILE("rsa-private", - "error reading decryption key\n"); + LDFATAL_FILE("error reading decryption key\n"); } read_mpbin(&d,b,length); FREE(b); /* Read iqmp (inverse of q mod p) */ length=(keyfile_get_short(loc,f)+7)/8; if (length>RSA_MAX_MODBYTES) { - LDFATAL("rsa-private","implausibly long (%ld)" + LDFATAL("implausibly long (%ld)" " iqmp auxiliary value\n", length); } b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f)!=1) { - LDFATAL_FILE("rsa-private", - "error reading decryption key\n"); + LDFATAL_FILE("error reading decryption key\n"); } read_mpbin(&iqmp,b,length); FREE(b); /* Read q (the smaller of the two primes) */ length=(keyfile_get_short(loc,f)+7)/8; if (length>RSA_MAX_MODBYTES) { - LDFATAL("rsa-private","implausibly long (%ld) q value\n", + LDFATAL("implausibly long (%ld) q value\n", length); } b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f)!=1) { - LDFATAL_FILE("rsa-private", - "error reading q value\n"); + LDFATAL_FILE("error reading q value\n"); } - mpz_init(&st->q); read_mpbin(&st->q,b,length); FREE(b); /* Read p (the larger of the two primes) */ length=(keyfile_get_short(loc,f)+7)/8; if (length>RSA_MAX_MODBYTES) { - LDFATAL("rsa-private","implausibly long (%ld) p value\n", + LDFATAL("implausibly long (%ld) p value\n", length); } b=safe_malloc(length,"rsapriv_apply"); if (fread(b,length,1,f)!=1) { - LDFATAL_FILE("rsa-private", - "error reading p value\n"); + LDFATAL_FILE("error reading p value\n"); } - mpz_init(&st->p); read_mpbin(&st->p,b,length); FREE(b); - if (fclose(f)!=0) { - fatal_perror("rsa-private (%s:%d): fclose",loc.file,loc.line); + if (ferror(f)) { + fatal_perror("rsa-private (%s:%d): ferror",loc.file,loc.line); } /* @@ -522,11 +544,7 @@ static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, * values for fast CRT signing. */ valid=False; - i=list_elem(args,1); - if (i && i->type==t_bool && i->data.bool==False) { - Message(M_INFO,"rsa-private (%s:%d): skipping RSA key validity " - "check\n",loc.file,loc.line); - } else { + if (do_validity_check) { /* Verify that p*q is equal to n. */ mpz_mul(&tmp, &st->p, &st->q); if (mpz_cmp(&tmp, &st->n) != 0) @@ -566,9 +584,6 @@ static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, * dq == d mod (q-1) similarly mod q * w == iqmp * q so that w == 0 mod q, and w == 1 mod p */ - mpz_init(&st->dp); - mpz_init(&st->dq); - mpz_init(&st->w); mpz_sub_ui(&tmp, &st->p, 1); mpz_mod(&st->dp, &d, &tmp); mpz_sub_ui(&tmp, &st->q, 1); @@ -577,19 +592,83 @@ static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, done_checks: if (!valid) { - LDFATAL("rsa-private","file \"%s\" does not contain a " + LDFATAL("file \"%s\" does not contain a " "valid RSA key!\n",filename); } + +assume_valid: +out: mpz_clear(&tmp); mpz_clear(&tmp2); mpz_clear(&tmp3); + FREE(b); FREE(c); mpz_clear(&e); mpz_clear(&d); mpz_clear(&iqmp); -assume_valid: + return st; + +error_out: + if (st) rsapriv_dispose(st); + st=0; + goto out; +} + +static void verror_cfgfatal(struct rsapriv_load_ctx *l, + FILE *maybe_f, bool_t unsup, + const char *message, va_list args) +{ + vcfgfatal_maybefile(maybe_f,l->u.apply.loc,"rsa-private",message,args); +} + +static list_t *rsapriv_apply(closure_t *self, struct cloc loc, dict_t *context, + list_t *args) +{ + struct rsapriv *st; + item_t *i; + cstring_t filename; + FILE *f; + struct rsapriv_load_ctx l[1]; + + l->verror=verror_cfgfatal; + l->u.apply.loc=loc; + + /* Argument is filename pointing to SSH1 private key file */ + i=list_elem(args,0); + if (i) { + if (i->type!=t_string) { + cfgfatal(i->loc,"rsa-private","first argument must be a string\n"); + } + filename=i->data.string; + } else { + filename=NULL; /* Make compiler happy */ + cfgfatal(i->loc,"rsa-private","you must provide a filename\n"); + } + + f=fopen(filename,"rb"); + if (!f) { + if (just_check_config) { + Message(M_WARNING,"rsa-private (%s:%d): cannot open keyfile " + "\"%s\"; assuming it's valid while we check the " + "rest of the configuration\n",loc.file,loc.line,filename); + } else { + fatal_perror("rsa-private (%s:%d): cannot open file \"%s\"", + loc.file,loc.line,filename); + } + } + + bool_t do_validity_check=True; + i=list_elem(args,1); + if (i && i->type==t_bool && i->data.bool==False) { + Message(M_INFO,"rsa-private (%s:%d): skipping RSA key validity " + "check\n",loc.file,loc.line); + do_validity_check=False; + } + + st=rsa_loadpriv_core(l,f,loc,do_validity_check,filename); + fclose(f); return new_closure(&st->cl); }