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authorzsloan2021-10-12 18:25:08 +0000
committerzsloan2021-10-12 18:25:08 +0000
commit0fa75b3d31a96a109d06306a1b41956ec06eae08 (patch)
tree328fa1587a7229f1acf184ec8fbbc7b2438f2d2e /scripts
parent6c9cfe7bd0bdedce2ea13cdc873e998a27295e20 (diff)
parenta212ad123f902b6a9c74bcac1d98bc274cebbdda (diff)
downloadgenenetwork2-0fa75b3d31a96a109d06306a1b41956ec06eae08.tar.gz
Merge branch 'testing' of github.com:genenetwork/genenetwork2 into feature/add_rqtl_pairscan
Diffstat (limited to 'scripts')
-rw-r--r--scripts/authentication/group.py153
-rw-r--r--scripts/authentication/resource.py104
-rw-r--r--scripts/convert_dol_genotypes.py74
3 files changed, 331 insertions, 0 deletions
diff --git a/scripts/authentication/group.py b/scripts/authentication/group.py
new file mode 100644
index 00000000..c8c2caad
--- /dev/null
+++ b/scripts/authentication/group.py
@@ -0,0 +1,153 @@
+"""A script for adding users to a specific group.
+
+Example:
+
+Assuming there are no groups and 'test@bonfacemunyoki.com' does not
+exist in Redis:
+
+.. code-block:: bash
+ python group.py -g "editors" -m "test@bonfacemunyoki.com"
+
+results in::
+
+ Successfully created the group: 'editors'
+ Data: '{"admins": [], "members": []}'
+
+If 'me@bonfacemunyoki.com' exists in 'users' in Redis and we run:
+
+.. code-block:: bash
+ python group.py -g "editors" -m "me@bonfacemunyoki.com"
+
+now results in::
+
+ No new group was created.
+ Updated Data: {'admins': [], 'members': ['me@bonfacemunyoki.com']}
+
+"""
+
+import argparse
+import datetime
+import redis
+import json
+import uuid
+
+from typing import Dict, Optional, Set
+
+
+def create_group_data(users: Dict, target_group: str,
+ members: Optional[str] = None,
+ admins: Optional[str] = None) -> Dict:
+ """Return a dictionary that contains the following keys: "key",
+ "field", and "value" that can be used in a redis hash as follows:
+ HSET key field value
+
+ The "field" return value is a unique-id that is used to
+ distinguish the groups.
+
+ Parameters:
+
+ - `users`: a list of users for example:
+
+ {'8ad942fe-490d-453e-bd37-56f252e41603':
+ '{"email_address": "me@test.com",
+ "full_name": "John Doe",
+ "organization": "Genenetwork",
+ "password": {"algorithm": "pbkdf2",
+ "hashfunc": "sha256",
+ "salt": "gJrd1HnPSSCmzB5veMPaVk2ozzDlS1Z7Ggcyl1+pciA=",
+ "iterations": 100000, "keylength": 32,
+ "created_timestamp": "2021-09-22T11:32:44.971912",
+ "password": "edcdaa60e84526c6"},
+ "user_id": "8ad942fe", "confirmed": 1,
+ "registration_info": {
+ "timestamp": "2021-09-22T11:32:45.028833",
+ "ip_address": "127.0.0.1",
+ "user_agent": "Mozilla/5.0"}}'}
+
+ - `target_group`: the group name that will be stored inside the
+ "groups" hash in Redis.
+
+ - `members`: a comma-separated list of values that contain members
+ of the `target_group` e.g. "me@test1.com, me@test2.com,
+ me@test3.com"
+
+ - `admins`: a comma-separated list of values that contain
+ administrators of the `target_group` e.g. "me@test1.com,
+ me@test2.com, me@test3.com"
+
+ """
+ # Emails
+ _members: Set = set("".join(members.split()).split(",")
+ if members else [])
+ _admins: Set = set("".join(admins.split()).split(",")
+ if admins else [])
+
+ # Unique IDs
+ member_ids: Set = set()
+ admin_ids: Set = set()
+
+ for user_id, user_details in users.items():
+ _details = json.loads(user_details)
+ if _details.get("email_address") in _members:
+ member_ids.add(user_id)
+ if _details.get("email_address") in _admins:
+ admin_ids.add(user_id)
+
+ timestamp: str = datetime.datetime.utcnow().strftime('%b %d %Y %I:%M%p')
+ return {"key": "groups",
+ "field": str(uuid.uuid4()),
+ "value": json.dumps({
+ "name": target_group,
+ "admins": list(admin_ids),
+ "members": list(member_ids),
+ "changed_timestamp": timestamp,
+ })}
+
+
+if __name__ == "__main__":
+ # Initialising the parser CLI arguments
+ parser = argparse.ArgumentParser()
+ parser.add_argument("-g", "--group-name",
+ help="This is the name of the GROUP mask")
+ parser.add_argument("-m", "--members",
+ help="Members of the GROUP mask")
+ parser.add_argument("-a", "--admins",
+ help="Admins of the GROUP mask")
+ args = parser.parse_args()
+
+ if not args.group_name:
+ exit("\nExiting. Please specify a group name to use!\n")
+
+ members = args.members if args.members else None
+ admins = args.admins if args.admins else None
+
+ REDIS_CONN = redis.Redis(decode_responses=True)
+ USERS = REDIS_CONN.hgetall("users")
+
+ if not any([members, admins]):
+ exit("\nExiting. Please provide a value for "
+ "MEMBERS(-m) or ADMINS(-a)!\n")
+
+ data = create_group_data(
+ users=USERS,
+ target_group=args.group_name,
+ members=members,
+ admins=admins)
+
+ if not REDIS_CONN.hget("groups", data.get("field")):
+ updated_data = json.loads(data["value"])
+ timestamp = datetime.datetime.utcnow().strftime('%b %d %Y %I:%M%p')
+ updated_data["created_timestamp"] = timestamp
+ data["value"] = json.dumps(updated_data)
+
+ created_p = REDIS_CONN.hset(data.get("key", ""),
+ data.get("field", ""),
+ data.get("value", ""))
+
+ groups = json.loads(REDIS_CONN.hget("groups",
+ data.get("field"))) # type: ignore
+ if created_p:
+ exit(f"\nSuccessfully created the group: '{args.group_name}'\n"
+ f"`HGETALL groups {args.group_name}`: {groups}\n")
+ exit("\nNo new group was created.\n"
+ f"`HGETALL groups {args.group_name}`: {groups}\n")
diff --git a/scripts/authentication/resource.py b/scripts/authentication/resource.py
new file mode 100644
index 00000000..4996f34c
--- /dev/null
+++ b/scripts/authentication/resource.py
@@ -0,0 +1,104 @@
+"""A script that:
+
+- Optionally restores data from a json file.
+
+- By default, without any args provided, adds the group: 'editors' to
+every resource. 'editors' should have the right to edit both metadata
+and data.
+
+- Optionally creates a back-up every time you edit a resource.
+
+
+To restore a back-up:
+
+.. code-block:: python
+ python resource.py --restore <PATH/TO/RESOURCE/BACK-UP/FILE>
+
+To add editors to every resource without creating a back-up:
+
+.. code-block:: python
+ python resource.py
+
+To add editors to every resource while creating a back-up before any
+destructive edits:
+
+.. code-block:: python
+ python resource.py --enable-backup
+
+"""
+import argparse
+import json
+import redis
+import os
+
+from datetime import datetime
+
+
+def recover_hash(name: str, file_path: str, set_function) -> bool:
+ """Recover back-ups using the `set_function`
+
+ Parameters:
+
+ - `name`: Redis hash where `file_path` will be restored
+
+ - `file_path`: File path where redis hash is sourced from
+
+ - `set_function`: Function used to do the Redis backup for
+ example: HSET
+
+ """
+ try:
+ with open(file_path, "r") as f:
+ resources = json.load(f)
+ for resource_id, resource in resources.items():
+ set_function(name=name,
+ key=resource_id,
+ value=resource)
+ return True
+ except Exception as e:
+ print(e)
+ return False
+
+
+if __name__ == "__main__":
+ # Initialising the parser CLI arguments
+ parser = argparse.ArgumentParser()
+ parser.add_argument("--group-id",
+ help="Add the group id to all resources")
+ parser.add_argument("--restore",
+ help="Restore from a given backup")
+ parser.add_argument("--enable-backup", action="store_true",
+ help="Create a back up before edits")
+ args = parser.parse_args()
+
+ if not args.group_id:
+ exit("Please specify the group-id!\n")
+ if args.restore:
+ if recover_hash(name="resources",
+ file_path=args.back_up,
+ set_function=redis.Redis(decode_responses=True).hset):
+ exit(f"\n Done restoring {args.back_up}!\n")
+ else:
+ exit(f"\n There was an error restoring {args.back_up}!\n")
+
+ REDIS_CONN = redis.Redis(decode_responses=True)
+ RESOURCES = REDIS_CONN.hgetall("resources")
+ BACKUP_DIR = os.path.join(os.getenv("HOME"), "redis")
+ if args.enable_backup:
+ FILENAME = ("resources-"
+ f"{datetime.now().strftime('%Y-%m-%d-%I:%M:%S-%p')}"
+ ".json")
+ if not os.path.exists(BACKUP_DIR):
+ os.mkdir(BACKUP_DIR)
+ with open(os.path.join(BACKUP_DIR, FILENAME), "w") as f:
+ json.dump(RESOURCES, f, indent=4)
+ print(f"\nDone backing upto {FILENAME}")
+
+ for resource_id, resource in RESOURCES.items():
+ _resource = json.loads(resource) # str -> dict conversion
+ _resource["group_masks"] = {args.group_id: {"metadata": "edit",
+ "data": "edit"}}
+ REDIS_CONN.hset("resources",
+ resource_id,
+ json.dumps(_resource))
+ exit("Done updating `resources`\n")
diff --git a/scripts/convert_dol_genotypes.py b/scripts/convert_dol_genotypes.py
new file mode 100644
index 00000000..81b3bd6d
--- /dev/null
+++ b/scripts/convert_dol_genotypes.py
@@ -0,0 +1,74 @@
+# This is just to convert the Rqtl2 format genotype files for DOL into a .geno file
+# Everything is hard-coded since I doubt this will be re-used and I just wanted to generate the file quickly
+
+import os
+
+geno_dir = "/home/zas1024/gn2-zach/DO_genotypes/"
+markers_file = "/home/zas1024/gn2-zach/DO_genotypes/SNP_Map.txt"
+gn_geno_path = "/home/zas1024/gn2-zach/DO_genotypes/DOL.geno"
+
+# Iterate through the SNP_Map.txt file to get marker positions
+marker_data = {}
+with open(markers_file, "r") as markers_fh:
+ for i, line in enumerate(markers_fh):
+ if i == 0:
+ continue
+ else:
+ line_items = line.split("\t")
+ this_marker = {}
+ this_marker['chr'] = line_items[2] if line_items[2] != "0" else "M"
+ this_marker['pos'] = f'{float(line_items[3])/1000000:.6f}'
+ marker_data[line_items[1]] = this_marker
+
+# Iterate through R/qtl2 format genotype files and pull out the samplelist and genotypes for each marker
+sample_names = []
+for filename in os.listdir(geno_dir):
+ if "gm4qtl2_geno" in filename:
+ with open(geno_dir + "/" + filename, "r") as rqtl_geno_fh:
+ for i, line in enumerate(rqtl_geno_fh):
+ line_items = line.split(",")
+ if i < 3:
+ continue
+ elif not len(sample_names) and i == 3:
+ sample_names = [item.replace("TLB", "TB") for item in line_items[1:]]
+ elif i > 3:
+ marker_data[line_items[0]]['genotypes'] = ["X" if item.strip() == "-" else item.strip() for item in line_items[1:]]
+
+# Generate list of marker obs to iterate through when writing to .geno file
+marker_list = []
+for key, value in marker_data.items():
+ if 'genotypes' in value:
+ this_marker = {
+ 'chr': value['chr'],
+ 'locus': key,
+ 'pos': value['pos'],
+ 'genotypes': value['genotypes']
+ }
+ marker_list.append(this_marker)
+
+def sort_func(e):
+ """For ensuring that X/Y chromosomes/mitochondria are sorted to the end correctly"""
+ try:
+ return float((e['chr']))*1000 + float(e['pos'])
+ except:
+ if e['chr'] == "X":
+ return 20000 + float(e['pos'])
+ elif e['chr'] == "Y":
+ return 21000 + float(e['pos'])
+ elif e['chr'] == "M":
+ return 22000 + float(e['pos'])
+
+# Sort markers by chromosome
+marker_list.sort(key=sort_func)
+
+# Write lines to .geno file
+with open(gn_geno_path, "w") as gn_geno_fh:
+ gn_geno_fh.write("\t".join((["Chr", "Locus", "cM", "Mb"] + sample_names)))
+ for marker in marker_list:
+ row_contents = [
+ marker['chr'],
+ marker['locus'],
+ marker['pos'],
+ marker['pos']
+ ] + marker['genotypes']
+ gn_geno_fh.write("\t".join(row_contents) + "\n")