netcdf-c/libdispatch/ds3util.c
2024-03-05 12:50:08 -07:00

932 lines
27 KiB
C

/*********************************************************************
* Copyright 2018, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*********************************************************************/
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <assert.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_SYS_STAT_H
#include <sys/stat.h>
#endif
#ifdef HAVE_FCNTL_H
#include <fcntl.h>
#endif
#ifdef _MSC_VER
#include <io.h>
#endif
#include "netcdf.h"
#include "nc4internal.h"
#include "ncuri.h"
#include "nclist.h"
#include "ncrc.h"
#include "nclog.h"
#include "ncs3sdk.h"
#undef AWSDEBUG
/* Alternate .aws directory location */
#define NC_TEST_AWS_DIR "NC_TEST_AWS_DIR"
#define AWSHOST ".amazonaws.com"
#define GOOGLEHOST "storage.googleapis.com"
enum URLFORMAT {UF_NONE=0, UF_VIRTUAL=1, UF_PATH=2, UF_S3=3, UF_OTHER=4};
/* Read these files in order and later overriding earlier */
static const char* awsconfigfiles[] = {".aws/config",".aws/credentials",NULL};
#define NCONFIGFILES (sizeof(awsconfigfiles)/sizeof(char*))
static int ncs3_initialized = 0;
static int ncs3_finalized = 0;
/**************************************************/
/* Forward */
static int endswith(const char* s, const char* suffix);
static void freeentry(struct AWSentry* e);
static int awsparse(const char* text, NClist* profiles);
/**************************************************/
/* Capture environmental Info */
EXTERNL int
NC_s3sdkinitialize(void)
{
if(!ncs3_initialized) {
ncs3_initialized = 1;
ncs3_finalized = 0;
}
{
/* Get various environment variables as defined by the AWS sdk */
NCglobalstate* gs = NC_getglobalstate();
if(getenv("AWS_REGION")!=NULL)
gs->aws.default_region = nulldup(getenv("AWS_REGION"));
else if(getenv("AWS_DEFAULT_REGION")!=NULL)
gs->aws.default_region = nulldup(getenv("AWS_DEFAULT_REGION"));
else if(gs->aws.default_region == NULL)
gs->aws.default_region = nulldup(AWS_GLOBAL_DEFAULT_REGION);
gs->aws.access_key_id = nulldup(getenv("AWS_ACCESS_KEY_ID"));
gs->aws.config_file = nulldup(getenv("AWS_CONFIG_FILE"));
gs->aws.profile = nulldup(getenv("AWS_PROFILE"));
gs->aws.secret_access_key = nulldup(getenv("AWS_SECRET_ACCESS_KEY"));
}
return NC_NOERR;
}
EXTERNL int
NC_s3sdkfinalize(void)
{
if(!ncs3_finalized) {
ncs3_initialized = 0;
ncs3_finalized = 1;
}
return NC_NOERR;
}
/**************************************************/
/* Generic S3 Utilities */
/*
Rebuild an S3 url into a canonical path-style url.
If region is not in the host, then use specified region
if provided, otherwise leave blank and let the S3 server deal with it.
@param url (in) the current url
@param s3 (in/out) NCS3INFO structure
@param pathurlp (out) the resulting pathified url string
*/
int
NC_s3urlrebuild(NCURI* url, NCS3INFO* s3, NCURI** newurlp)
{
size_t i;
int stat = NC_NOERR;
NClist* hostsegments = NULL;
NClist* pathsegments = NULL;
NCbytes* buf = ncbytesnew();
NCURI* newurl = NULL;
char* bucket = NULL;
char* host = NULL;
char* path = NULL;
char* region = NULL;
NCS3SVC svc = NCS3UNK;
if(url == NULL)
{stat = NC_EURL; goto done;}
/* Parse the hostname */
hostsegments = nclistnew();
/* split the hostname by "." */
if((stat = NC_split_delim(url->host,'.',hostsegments))) goto done;
/* Parse the path*/
pathsegments = nclistnew();
/* split the path by "/" */
if((stat = NC_split_delim(url->path,'/',pathsegments))) goto done;
/* Distinguish path-style from virtual-host style from s3: and from other.
Virtual: https://<bucket-name>.s3.<region>.amazonaws.com/<path> (1)
or: https://<bucket-name>.s3.amazonaws.com/<path> -- region defaults (to us-east-1) (2)
Path: https://s3.<region>.amazonaws.com/<bucket-name>/<path> (3)
or: https://s3.amazonaws.com/<bucket-name>/<path> -- region defaults to us-east-1 (4)
S3: s3://<bucket-name>/<path> (5)
Google: https://storage.googleapis.com/<bucket-name>/<path> (6)
or: gs3://<bucket-name>/<path> (7)
Other: https://<host>/<bucket-name>/<path> (8)
*/
if(url->host == NULL || strlen(url->host) == 0)
{stat = NC_EURL; goto done;}
/* Reduce the host to standard form such as s3.amazonaws.com by pulling out the
region and bucket from the host */
if(strcmp(url->protocol,"s3")==0 && nclistlength(hostsegments)==1) { /* Format (5) */
bucket = nclistremove(hostsegments,0);
/* region unknown at this point */
/* Host will be set to canonical form later */
svc = NCS3;
} else if(strcmp(url->protocol,"gs3")==0 && nclistlength(hostsegments)==1) { /* Format (7) */
bucket = nclistremove(hostsegments,0);
/* region unknown at this point */
/* Host will be set to canonical form later */
svc = NCS3GS;
} else if(endswith(url->host,AWSHOST)) { /* Virtual or path */
svc = NCS3;
/* If we find a bucket as part of the host, then remove it */
switch (nclistlength(hostsegments)) {
default: stat = NC_EURL; goto done;
case 3: /* Format (4) */
/* region unknown at this point */
/* bucket unknown at this point */
break;
case 4: /* Format (2) or (3) */
if(strcasecmp(nclistget(hostsegments,0),"s3")!=0) { /* Presume format (2) */
/* region unknown at this point */
bucket = nclistremove(hostsegments,0); /* Make canonical */
} else if(strcasecmp(nclistget(hostsegments,0),"s3")==0) { /* Format (3) */
region = nclistremove(hostsegments,1); /* Make canonical */
/* bucket unknown at this point */
} else /* ! Format (2) and ! Format (3) => error */
{stat = NC_EURL; goto done;}
break;
case 5: /* Format (1) */
if(strcasecmp(nclistget(hostsegments,1),"s3")!=0)
{stat = NC_EURL; goto done;}
/* Make canonical */
region = nclistremove(hostsegments,2);
bucket = nclistremove(hostsegments,0);
break;
}
} else if(strcasecmp(url->host,GOOGLEHOST)==0) { /* Google (6) */
if((host = strdup(url->host))==NULL)
{stat = NC_ENOMEM; goto done;}
/* region is unknown */
/* bucket is unknown at this point */
svc = NCS3GS;
} else { /* Presume Format (8) */
if((host = strdup(url->host))==NULL)
{stat = NC_ENOMEM; goto done;}
/* region is unknown */
/* bucket is unknown */
}
/* region = (1) from url, (2) s3->region, (3) default */
if(region == NULL && s3 != NULL)
region = nulldup(s3->region);
if(region == NULL) {
const char* region0 = NULL;
/* Get default region */
if((stat = NC_getdefaults3region(url,&region0))) goto done;
region = nulldup(region0);
}
if(region == NULL) {stat = NC_ES3; goto done;}
/* bucket = (1) from url, (2) s3->bucket */
if(bucket == NULL && nclistlength(pathsegments) > 0) {
bucket = nclistremove(pathsegments,0); /* Get from the URL path; will reinsert below */
}
if(bucket == NULL && s3 != NULL)
bucket = nulldup(s3->bucket);
if(bucket == NULL) {stat = NC_ES3; goto done;}
if(svc == NCS3) {
/* Construct the revised host */
ncbytesclear(buf);
ncbytescat(buf,"s3");
assert(region != NULL);
ncbytescat(buf,".");
ncbytescat(buf,region);
ncbytescat(buf,AWSHOST);
nullfree(host);
host = ncbytesextract(buf);
} else if(svc == NCS3GS) {
nullfree(host);
host = strdup(GOOGLEHOST);
}
ncbytesclear(buf);
/* Construct the revised path */
if(bucket != NULL) {
ncbytescat(buf,"/");
ncbytescat(buf,bucket);
}
for(i=0;i<nclistlength(pathsegments);i++) {
ncbytescat(buf,"/");
ncbytescat(buf,nclistget(pathsegments,i));
}
path = ncbytesextract(buf);
/* clone the url so we can modify it*/
if((newurl=ncuriclone(url))==NULL) {stat = NC_ENOMEM; goto done;}
/* Modify the URL to canonical form */
ncurisetprotocol(newurl,"https");
assert(host != NULL);
ncurisethost(newurl,host);
assert(path != NULL);
ncurisetpath(newurl,path);
/* Add "s3" to the mode list */
NC_addmodetag(newurl,"s3");
/* Rebuild the url->url */
ncurirebuild(newurl);
/* return various items */
#ifdef AWSDEBUG
fprintf(stderr,">>> NC_s3urlrebuild: final=%s bucket=|%s| region=|%s|\n",uri->uri,bucket,region);
#endif
if(newurlp) {*newurlp = newurl; newurl = NULL;}
if(s3 != NULL) {
s3->bucket = bucket; bucket = NULL;
s3->region = region; region = NULL;
s3->svc = svc;
}
done:
nullfree(region);
nullfree(bucket)
nullfree(host)
nullfree(path)
ncurifree(newurl);
ncbytesfree(buf);
nclistfreeall(hostsegments);
nclistfreeall(pathsegments);
return stat;
}
static int
endswith(const char* s, const char* suffix)
{
ssize_t ls, lsf, delta;
if(s == NULL || suffix == NULL) return 0;
ls = strlen(s);
lsf = strlen(suffix);
delta = (ls - lsf);
if(delta < 0) return 0;
if(memcmp(s+delta,suffix,lsf)!=0) return 0;
return 1;
}
/**************************************************/
/* S3 utilities */
EXTERNL int
NC_s3urlprocess(NCURI* url, NCS3INFO* s3, NCURI** newurlp)
{
int stat = NC_NOERR;
NCURI* url2 = NULL;
NClist* pathsegments = NULL;
const char* profile0 = NULL;
if(url == NULL || s3 == NULL)
{stat = NC_EURL; goto done;}
/* Get current profile */
if((stat = NC_getactives3profile(url,&profile0))) goto done;
if(profile0 == NULL) profile0 = "no";
s3->profile = strdup(profile0);
/* Rebuild the URL to path format and get a usable region and optional bucket*/
if((stat = NC_s3urlrebuild(url,s3,&url2))) goto done;
s3->host = strdup(url2->host);
/* construct the rootkey minus the leading bucket */
pathsegments = nclistnew();
if((stat = NC_split_delim(url2->path,'/',pathsegments))) goto done;
if(nclistlength(pathsegments) > 0) {
char* seg = nclistremove(pathsegments,0);
nullfree(seg);
}
if((stat = NC_join(pathsegments,&s3->rootkey))) goto done;
if(newurlp) {*newurlp = url2; url2 = NULL;}
done:
ncurifree(url2);
nclistfreeall(pathsegments);
return stat;
}
int
NC_s3clone(NCS3INFO* s3, NCS3INFO** news3p)
{
NCS3INFO* news3 = NULL;
if(s3 && news3p) {
if((news3 = (NCS3INFO*)calloc(1,sizeof(NCS3INFO)))==NULL)
return NC_ENOMEM;
if((news3->host = nulldup(s3->host))==NULL) return NC_ENOMEM;
if((news3->region = nulldup(s3->region))==NULL) return NC_ENOMEM;
if((news3->bucket = nulldup(s3->bucket))==NULL) return NC_ENOMEM;
if((news3->rootkey = nulldup(s3->rootkey))==NULL) return NC_ENOMEM;
if((news3->profile = nulldup(s3->profile))==NULL) return NC_ENOMEM;
}
if(news3p) {*news3p = news3; news3 = NULL;}
else {NC_s3clear(news3); nullfree(news3);}
return NC_NOERR;
}
int
NC_s3clear(NCS3INFO* s3)
{
if(s3) {
nullfree(s3->host); s3->host = NULL;
nullfree(s3->region); s3->region = NULL;
nullfree(s3->bucket); s3->bucket = NULL;
nullfree(s3->rootkey); s3->rootkey = NULL;
nullfree(s3->profile); s3->profile = NULL;
}
return NC_NOERR;
}
/*
Check if a url has indicators that signal an S3 or Google S3 url.
*/
int
NC_iss3(NCURI* uri, enum NCS3SVC* svcp)
{
int iss3 = 0;
NCS3SVC svc = NCS3UNK;
if(uri == NULL) goto done; /* not a uri */
/* is the protocol "s3" or "gs3" ? */
if(strcasecmp(uri->protocol,"s3")==0) {iss3 = 1; svc = NCS3; goto done;}
if(strcasecmp(uri->protocol,"gs3")==0) {iss3 = 1; svc = NCS3GS; goto done;}
/* Is "s3" or "gs3" in the mode list? */
if(NC_testmode(uri,"s3")) {iss3 = 1; svc = NCS3; goto done;}
if(NC_testmode(uri,"gs3")) {iss3 = 1; svc = NCS3GS; goto done;}
/* Last chance; see if host looks s3'y */
if(uri->host != NULL) {
if(endswith(uri->host,AWSHOST)) {iss3 = 1; svc = NCS3; goto done;}
if(strcasecmp(uri->host,GOOGLEHOST)==0) {iss3 = 1; svc = NCS3GS; goto done;}
}
if(svcp) *svcp = svc;
done:
return iss3;
}
const char*
NC_s3dumps3info(NCS3INFO* info)
{
static char text[8192];
snprintf(text,sizeof(text),"host=%s region=%s bucket=%s rootkey=%s profile=%s",
(info->host?info->host:"null"),
(info->region?info->region:"null"),
(info->bucket?info->bucket:"null"),
(info->rootkey?info->rootkey:"null"),
(info->profile?info->profile:"null"));
return text;
}
static void
freeprofile(struct AWSprofile* profile)
{
if(profile) {
int i;
#ifdef AWSDEBUG
fprintf(stderr,">>> freeprofile: %s\n",profile->name);
#endif
for(i=0;i<nclistlength(profile->entries);i++) {
struct AWSentry* e = (struct AWSentry*)nclistget(profile->entries,i);
freeentry(e);
}
nclistfree(profile->entries);
nullfree(profile->name);
nullfree(profile);
}
}
void
NC_s3freeprofilelist(NClist* profiles)
{
if(profiles) {
int i;
for(i=0;i<nclistlength(profiles);i++) {
struct AWSprofile* p = (struct AWSprofile*)nclistget(profiles,i);
freeprofile(p);
}
nclistfree(profiles);
}
}
/* Find, load, and parse the aws config &/or credentials file */
int
NC_aws_load_credentials(NCglobalstate* gstate)
{
int stat = NC_NOERR;
NClist* profiles = nclistnew();
NCbytes* buf = ncbytesnew();
char path[8192];
const char* aws_root = getenv(NC_TEST_AWS_DIR);
const char* awscfg_local[NCONFIGFILES + 1]; /* +1 for the env variable */
const char** awscfg = NULL;
/* add a "no" credentials */
{
struct AWSprofile* noprof = (struct AWSprofile*)calloc(1,sizeof(struct AWSprofile));
noprof->name = strdup("no");
noprof->entries = nclistnew();
nclistpush(profiles,noprof); noprof = NULL;
}
awscfg = awsconfigfiles;
if((awscfg_local[0] = NC_getglobalstate()->aws.config_file)!=NULL) {
memcpy(&awscfg_local[1],awsconfigfiles,sizeof(char*)*NCONFIGFILES);
awscfg = awscfg_local;
}
for(;*awscfg;awscfg++) {
/* Construct the path ${HOME}/<file> or Windows equivalent. */
const char* cfg = *awscfg;
snprintf(path,sizeof(path),"%s%s%s",
(aws_root?aws_root:gstate->home),
(*cfg == '/'?"":"/"),
cfg);
ncbytesclear(buf);
if((stat=NC_readfile(path,buf))) {
nclog(NCLOGWARN, "Could not open file: %s",path);
} else {
/* Parse the credentials file */
const char* text = ncbytescontents(buf);
if((stat = awsparse(text,profiles))) goto done;
}
}
/* If there is no default credentials, then try to synthesize one
from various environment variables */
{
size_t i;
struct AWSprofile* dfalt = NULL;
struct AWSentry* entry = NULL;
NCglobalstate* gs = NC_getglobalstate();
/* Verify that we can build a default */
if(gs->aws.access_key_id != NULL && gs->aws.secret_access_key != NULL) {
/* Kill off any previous default profile */
for(i=nclistlength(profiles)-1;i>=0;i--) {/* walk backward because we are removing entries */
struct AWSprofile* prof = (struct AWSprofile*)nclistget(profiles,i);
if(strcasecmp(prof->name,"default")==0) {
nclistremove(profiles,i);
freeprofile(prof);
}
}
/* Build new default profile */
if((dfalt = (struct AWSprofile*)calloc(1,sizeof(struct AWSprofile)))==NULL) {stat = NC_ENOMEM; goto done;}
dfalt->name = strdup("default");
dfalt->entries = nclistnew();
/* Save the new default profile */
nclistpush(profiles,dfalt); dfalt = NULL;
/* Create the entries for default */
if((entry = (struct AWSentry*)calloc(1,sizeof(struct AWSentry)))==NULL) {stat = NC_ENOMEM; goto done;}
entry->key = strdup("aws_access_key_id");
entry->value = strdup(gs->aws.access_key_id);
nclistpush(dfalt->entries,entry); entry = NULL;
if((entry = (struct AWSentry*)calloc(1,sizeof(struct AWSentry)))==NULL) {stat = NC_ENOMEM; goto done;}
entry->key = strdup("aws_secret_access_key");
entry->value = strdup(gs->aws.secret_access_key);
nclistpush(dfalt->entries,entry); entry = NULL;
}
}
if(gstate->rcinfo->s3profiles)
NC_s3freeprofilelist(gstate->rcinfo->s3profiles);
gstate->rcinfo->s3profiles = profiles; profiles = NULL;
#ifdef AWSDEBUG
{int i,j;
fprintf(stderr,">>> profiles:\n");
for(i=0;i<nclistlength(gstate->rcinfo->s3profiles);i++) {
struct AWSprofile* p = (struct AWSprofile*)nclistget(gstate->rcinfo->s3profiles,i);
fprintf(stderr," [%s]",p->name);
for(j=0;j<nclistlength(p->entries);j++) {
struct AWSentry* e = (struct AWSentry*)nclistget(p->entries,j);
if(strcmp(e->key,"aws_access_key_id")
fprintf(stderr," %s=%d",e->key,(int)strlen(e->value));
else if(strcmp(e->key,"aws_secret_access_key")
fprintf(stderr," %s=%d",e->key,(int)strlen(e->value));
else fprintf(stderr," %s=%s",e->key,e->value);
}
fprintf(stderr,"\n");
}
}
#endif
done:
ncbytesfree(buf);
NC_s3freeprofilelist(profiles);
return stat;
}
/* Lookup a profile by name;
@param profilename to lookup
@param profilep return the matching profile; null if profile not found
@return NC_NOERR if no error
@return other error
*/
int
NC_authgets3profile(const char* profilename, struct AWSprofile** profilep)
{
int stat = NC_NOERR;
int i = -1;
NCglobalstate* gstate = NC_getglobalstate();
for(i=0;i<nclistlength(gstate->rcinfo->s3profiles);i++) {
struct AWSprofile* profile = (struct AWSprofile*)nclistget(gstate->rcinfo->s3profiles,i);
if(strcmp(profilename,profile->name)==0)
{if(profilep) {*profilep = profile; goto done;}}
}
if(profilep) *profilep = NULL; /* not found */
done:
return stat;
}
/**
@param profile name of profile
@param key key to search for in profile
@param value place to store the value if key is found; NULL if not found
@return NC_NOERR if key is found, Some other error otherwise.
*/
int
NC_s3profilelookup(const char* profile, const char* key, const char** valuep)
{
int i,stat = NC_NOERR;
struct AWSprofile* awsprof = NULL;
const char* value = NULL;
if(profile == NULL) return NC_ES3;
if((stat=NC_authgets3profile(profile,&awsprof))==NC_NOERR && awsprof != NULL) {
for(i=0;i<nclistlength(awsprof->entries);i++) {
struct AWSentry* entry = (struct AWSentry*)nclistget(awsprof->entries,i);
if(strcasecmp(entry->key,key)==0) {
value = entry->value;
break;
}
}
}
if(valuep) *valuep = value;
return stat;
}
/**************************************************/
/*
Get the current active profile. The priority order is as follows:
1. aws.profile key in mode flags
2. aws.profile in .rc entries
3. AWS_PROFILE env variable
4. "default"
5. "no" -- meaning do not use any profile => no secret key
@param uri uri with mode flags, may be NULL
@param profilep return profile name here or NULL if none found
@return NC_NOERR if no error.
@return NC_EINVAL if something else went wrong.
*/
int
NC_getactives3profile(NCURI* uri, const char** profilep)
{
int stat = NC_NOERR;
const char* profile = NULL;
struct AWSprofile* ap = NULL;
profile = ncurifragmentlookup(uri,"aws.profile");
if(profile == NULL)
profile = NC_rclookupx(uri,"AWS.PROFILE");
if(profile == NULL)
profile = NC_getglobalstate()->aws.profile;
if(profile == NULL) {
if((stat=NC_authgets3profile("default",&ap))) goto done;
if(ap) profile = "default";
}
if(profile == NULL) {
if((stat=NC_authgets3profile("no",&ap))) goto done;
if(ap) profile = "no";
}
#ifdef AWSDEBUG
fprintf(stderr,">>> activeprofile = %s\n",(profile?profile:"null"));
#endif
if(profilep) *profilep = profile;
done:
return stat;
}
/*
Get the current default region. The search order is as follows:
1. aws.region key in mode flags
2. aws.region in .rc entries
3. aws_region key in current profile (only if profiles are being used)
4. NCglobalstate.aws.default_region
@param uri uri with mode flags, may be NULL
@param regionp return region name here or NULL if none found
@return NC_NOERR if no error.
@return NC_EINVAL if something else went wrong.
*/
int
NC_getdefaults3region(NCURI* uri, const char** regionp)
{
int stat = NC_NOERR;
const char* region = NULL;
const char* profile = NULL;
region = ncurifragmentlookup(uri,"aws.region");
if(region == NULL)
region = NC_rclookupx(uri,"AWS.REGION");
if(region == NULL) {/* See if we can find a profile */
if(NC_getactives3profile(uri,&profile)==NC_NOERR) {
if(profile)
(void)NC_s3profilelookup(profile,"aws_region",&region);
}
}
if(region == NULL)
region = NC_getglobalstate()->aws.default_region; /* Force use of the Amazon default */
#ifdef AWSDEBUG
fprintf(stderr,">>> activeregion = |%s|\n",region));
#endif
if(regionp) *regionp = region;
return stat;
}
/**
The .aws/config and .aws/credentials files
are in INI format (https://en.wikipedia.org/wiki/INI_file).
This format is not well defined, so the grammar used
here is restrictive. Here, the term "profile" is the same
as the INI term "section".
The grammar used is as follows:
Grammar:
inifile: profilelist ;
profilelist: profile | profilelist profile ;
profile: '[' profilename ']' EOL entries ;
entries: empty | entries entry ;
entry: WORD = WORD EOL ;
profilename: WORD ;
Lexical:
WORD sequence of printable characters - [ \[\]=]+
EOL '\n' | ';'
Note:
1. The semicolon at beginning of a line signals a comment.
2. # comments are not allowed
3. Duplicate profiles or keys are ignored.
4. Escape characters are not supported.
*/
#define AWS_EOF (-1)
#define AWS_ERR (0)
#define AWS_WORD (0x10001)
#define AWS_EOL (0x10002)
#ifdef LEXDEBUG
static const char*
tokenname(int token)
{
static char num[32];
switch(token) {
case AWS_EOF: return "EOF";
case AWS_ERR: return "ERR";
case AWS_WORD: return "WORD";
default: snprintf(num,sizeof(num),"%d",token); return num;
}
return "UNKNOWN";
}
#endif
typedef struct AWSparser {
char* text;
char* pos;
size_t yylen; /* |yytext| */
NCbytes* yytext;
int token; /* last token found */
int pushback; /* allow 1-token pushback */
} AWSparser;
static int
awslex(AWSparser* parser)
{
int c;
int token = 0;
char* start;
size_t count;
parser->token = AWS_ERR;
ncbytesclear(parser->yytext);
ncbytesnull(parser->yytext);
if(parser->pushback != AWS_ERR) {
token = parser->pushback;
parser->pushback = AWS_ERR;
goto done;
}
while(token == 0) { /* avoid need to goto when retrying */
c = *parser->pos;
if(c == '\0') {
token = AWS_EOF;
} else if(c == '\n') {
parser->pos++;
token = AWS_EOL;
} else if(c <= ' ' || c == '\177') {
parser->pos++;
continue; /* ignore whitespace */
} else if(c == ';') {
char* p = parser->pos - 1;
if(*p == '\n') {
/* Skip comment */
do {p++;} while(*p != '\n' && *p != '\0');
parser->pos = p;
token = (*p == '\n'?AWS_EOL:AWS_EOF);
} else {
token = ';';
ncbytesappend(parser->yytext,';');
parser->pos++;
}
} else if(c == '[' || c == ']' || c == '=') {
ncbytesappend(parser->yytext,c);
ncbytesnull(parser->yytext);
token = c;
parser->pos++;
} else { /*Assume a word*/
start = parser->pos;
for(;;) {
c = *parser->pos++;
if(c <= ' ' || c == '\177' || c == '[' || c == ']' || c == '=') break; /* end of word */
}
/* Pushback last char */
parser->pos--;
count = ((parser->pos) - start);
ncbytesappendn(parser->yytext,start,count);
ncbytesnull(parser->yytext);
token = AWS_WORD;
}
#ifdef LEXDEBUG
fprintf(stderr,"%s(%d): |%s|\n",tokenname(token),token,ncbytescontents(parser->yytext));
#endif
} /*for(;;)*/
done:
parser->token = token;
return token;
}
/*
@param text of the aws credentials file
@param profiles list of form struct AWSprofile (see ncauth.h)
*/
#define LBR '['
#define RBR ']'
static int
awsparse(const char* text, NClist* profiles)
{
int i,stat = NC_NOERR;
size_t len;
AWSparser* parser = NULL;
struct AWSprofile* profile = NULL;
int token;
char* key = NULL;
char* value = NULL;
if(text == NULL) text = "";
parser = calloc(1,sizeof(AWSparser));
if(parser == NULL)
{stat = (NC_ENOMEM); goto done;}
len = strlen(text);
parser->text = (char*)malloc(len+1+1+1); /* double nul term plus leading EOL */
if(parser->text == NULL)
{stat = (NCTHROW(NC_EINVAL)); goto done;}
parser->pos = parser->text;
parser->pos[0] = '\n'; /* So we can test for comment unconditionally */
parser->pos++;
strcpy(parser->text+1,text);
parser->pos += len;
/* Double nul terminate */
parser->pos[0] = '\0';
parser->pos[1] = '\0';
parser->pos = &parser->text[0]; /* reset */
parser->yytext = ncbytesnew();
parser->pushback = AWS_ERR;
/* Do not need recursion, use simple loops */
for(;;) {
token = awslex(parser); /* make token always be defined */
if(token == AWS_EOF) break; /* finished */
if(token == AWS_EOL) {continue;} /* blank line */
if(token != LBR) {stat = NCTHROW(NC_EINVAL); goto done;}
/* parse [profile name] */
token = awslex(parser);
if(token != AWS_WORD) {stat = NCTHROW(NC_EINVAL); goto done;}
assert(profile == NULL);
if((profile = (struct AWSprofile*)calloc(1,sizeof(struct AWSprofile)))==NULL)
{stat = NC_ENOMEM; goto done;}
profile->name = ncbytesextract(parser->yytext);
profile->entries = nclistnew();
token = awslex(parser);
if(token != RBR) {stat = NCTHROW(NC_EINVAL); goto done;}
#ifdef PARSEDEBUG
fprintf(stderr,">>> parse: profile=%s\n",profile->name);
#endif
/* The fields can be in any order */
for(;;) {
struct AWSentry* entry = NULL;
token = awslex(parser);
if(token == AWS_EOL) {
continue; /* ignore empty lines */
} else if(token == AWS_EOF) {
break;
} else if(token == LBR) {/* start of next profile */
parser->pushback = token;
break;
} else if(token == AWS_WORD) {
key = ncbytesextract(parser->yytext);
token = awslex(parser);
if(token != '=') {stat = NCTHROW(NC_EINVAL); goto done;}
token = awslex(parser);
if(token != AWS_EOL && token != AWS_WORD) {stat = NCTHROW(NC_EINVAL); goto done;}
value = ncbytesextract(parser->yytext);
if((entry = (struct AWSentry*)calloc(1,sizeof(struct AWSentry)))==NULL)
{stat = NC_ENOMEM; goto done;}
entry->key = key; key = NULL;
entry->value = value; value = NULL;
#ifdef PARSEDEBUG
fprintf(stderr,">>> parse: entry=(%s,%s)\n",entry->key,entry->value);
#endif
nclistpush(profile->entries,entry); entry = NULL;
if(token == AWS_WORD) token = awslex(parser); /* finish the line */
} else
{stat = NCTHROW(NC_EINVAL); goto done;}
}
/* If this profile already exists, then replace old one */
for(i=0;i<nclistlength(profiles);i++) {
struct AWSprofile* p = (struct AWSprofile*)nclistget(profiles,i);
if(strcasecmp(p->name,profile->name)==0) {
nclistset(profiles,i,profile);
profile = NULL;
/* reclaim old one */
freeprofile(p);
break;
}
}
if(profile) nclistpush(profiles,profile);
profile = NULL;
}
done:
if(profile) freeprofile(profile);
nullfree(key);
nullfree(value);
if(parser != NULL) {
nullfree(parser->text);
ncbytesfree(parser->yytext);
free(parser);
}
return (stat);
}
static void
freeentry(struct AWSentry* e)
{
if(e) {
#ifdef AWSDEBUG
fprintf(stderr,">>> freeentry: key=%p value=%p\n",e->key,e->value);
#endif
nullfree(e->key);
nullfree(e->value);
nullfree(e);
}
}