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automation: use latest AMIs...
Gregory Szorc -
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1 # aws.py - Automation code for Amazon Web Services
1 # aws.py - Automation code for Amazon Web Services
2 #
2 #
3 # Copyright 2019 Gregory Szorc <gregory.szorc@gmail.com>
3 # Copyright 2019 Gregory Szorc <gregory.szorc@gmail.com>
4 #
4 #
5 # This software may be used and distributed according to the terms of the
5 # This software may be used and distributed according to the terms of the
6 # GNU General Public License version 2 or any later version.
6 # GNU General Public License version 2 or any later version.
7
7
8 # no-check-code because Python 3 native.
8 # no-check-code because Python 3 native.
9
9
10 import contextlib
10 import contextlib
11 import copy
11 import copy
12 import hashlib
12 import hashlib
13 import json
13 import json
14 import os
14 import os
15 import pathlib
15 import pathlib
16 import subprocess
16 import subprocess
17 import time
17 import time
18
18
19 import boto3
19 import boto3
20 import botocore.exceptions
20 import botocore.exceptions
21
21
22 from .linux import (
22 from .linux import (
23 BOOTSTRAP_DEBIAN,
23 BOOTSTRAP_DEBIAN,
24 )
24 )
25 from .ssh import (
25 from .ssh import (
26 exec_command as ssh_exec_command,
26 exec_command as ssh_exec_command,
27 wait_for_ssh,
27 wait_for_ssh,
28 )
28 )
29 from .winrm import (
29 from .winrm import (
30 run_powershell,
30 run_powershell,
31 wait_for_winrm,
31 wait_for_winrm,
32 )
32 )
33
33
34
34
35 SOURCE_ROOT = pathlib.Path(os.path.abspath(__file__)).parent.parent.parent.parent
35 SOURCE_ROOT = pathlib.Path(os.path.abspath(__file__)).parent.parent.parent.parent
36
36
37 INSTALL_WINDOWS_DEPENDENCIES = (SOURCE_ROOT / 'contrib' /
37 INSTALL_WINDOWS_DEPENDENCIES = (SOURCE_ROOT / 'contrib' /
38 'install-windows-dependencies.ps1')
38 'install-windows-dependencies.ps1')
39
39
40
40
41 INSTANCE_TYPES_WITH_STORAGE = {
41 INSTANCE_TYPES_WITH_STORAGE = {
42 'c5d',
42 'c5d',
43 'd2',
43 'd2',
44 'h1',
44 'h1',
45 'i3',
45 'i3',
46 'm5ad',
46 'm5ad',
47 'm5d',
47 'm5d',
48 'r5d',
48 'r5d',
49 'r5ad',
49 'r5ad',
50 'x1',
50 'x1',
51 'z1d',
51 'z1d',
52 }
52 }
53
53
54
54
55 AMAZON_ACCOUNT_ID = '801119661308'
55 AMAZON_ACCOUNT_ID = '801119661308'
56 DEBIAN_ACCOUNT_ID = '379101102735'
56 DEBIAN_ACCOUNT_ID = '379101102735'
57 UBUNTU_ACCOUNT_ID = '099720109477'
57 UBUNTU_ACCOUNT_ID = '099720109477'
58
58
59
59
60 WINDOWS_BASE_IMAGE_NAME = 'Windows_Server-2019-English-Full-Base-2019.07.12'
60 WINDOWS_BASE_IMAGE_NAME = 'Windows_Server-2019-English-Full-Base-2019.07.12'
61
61
62
62
63 KEY_PAIRS = {
63 KEY_PAIRS = {
64 'automation',
64 'automation',
65 }
65 }
66
66
67
67
68 SECURITY_GROUPS = {
68 SECURITY_GROUPS = {
69 'linux-dev-1': {
69 'linux-dev-1': {
70 'description': 'Mercurial Linux instances that perform build/test automation',
70 'description': 'Mercurial Linux instances that perform build/test automation',
71 'ingress': [
71 'ingress': [
72 {
72 {
73 'FromPort': 22,
73 'FromPort': 22,
74 'ToPort': 22,
74 'ToPort': 22,
75 'IpProtocol': 'tcp',
75 'IpProtocol': 'tcp',
76 'IpRanges': [
76 'IpRanges': [
77 {
77 {
78 'CidrIp': '0.0.0.0/0',
78 'CidrIp': '0.0.0.0/0',
79 'Description': 'SSH from entire Internet',
79 'Description': 'SSH from entire Internet',
80 },
80 },
81 ],
81 ],
82 },
82 },
83 ],
83 ],
84 },
84 },
85 'windows-dev-1': {
85 'windows-dev-1': {
86 'description': 'Mercurial Windows instances that perform build automation',
86 'description': 'Mercurial Windows instances that perform build automation',
87 'ingress': [
87 'ingress': [
88 {
88 {
89 'FromPort': 22,
89 'FromPort': 22,
90 'ToPort': 22,
90 'ToPort': 22,
91 'IpProtocol': 'tcp',
91 'IpProtocol': 'tcp',
92 'IpRanges': [
92 'IpRanges': [
93 {
93 {
94 'CidrIp': '0.0.0.0/0',
94 'CidrIp': '0.0.0.0/0',
95 'Description': 'SSH from entire Internet',
95 'Description': 'SSH from entire Internet',
96 },
96 },
97 ],
97 ],
98 },
98 },
99 {
99 {
100 'FromPort': 3389,
100 'FromPort': 3389,
101 'ToPort': 3389,
101 'ToPort': 3389,
102 'IpProtocol': 'tcp',
102 'IpProtocol': 'tcp',
103 'IpRanges': [
103 'IpRanges': [
104 {
104 {
105 'CidrIp': '0.0.0.0/0',
105 'CidrIp': '0.0.0.0/0',
106 'Description': 'RDP from entire Internet',
106 'Description': 'RDP from entire Internet',
107 },
107 },
108 ],
108 ],
109
109
110 },
110 },
111 {
111 {
112 'FromPort': 5985,
112 'FromPort': 5985,
113 'ToPort': 5986,
113 'ToPort': 5986,
114 'IpProtocol': 'tcp',
114 'IpProtocol': 'tcp',
115 'IpRanges': [
115 'IpRanges': [
116 {
116 {
117 'CidrIp': '0.0.0.0/0',
117 'CidrIp': '0.0.0.0/0',
118 'Description': 'PowerShell Remoting (Windows Remote Management)',
118 'Description': 'PowerShell Remoting (Windows Remote Management)',
119 },
119 },
120 ],
120 ],
121 }
121 }
122 ],
122 ],
123 },
123 },
124 }
124 }
125
125
126
126
127 IAM_ROLES = {
127 IAM_ROLES = {
128 'ephemeral-ec2-role-1': {
128 'ephemeral-ec2-role-1': {
129 'description': 'Mercurial temporary EC2 instances',
129 'description': 'Mercurial temporary EC2 instances',
130 'policy_arns': [
130 'policy_arns': [
131 'arn:aws:iam::aws:policy/service-role/AmazonEC2RoleforSSM',
131 'arn:aws:iam::aws:policy/service-role/AmazonEC2RoleforSSM',
132 ],
132 ],
133 },
133 },
134 }
134 }
135
135
136
136
137 ASSUME_ROLE_POLICY_DOCUMENT = '''
137 ASSUME_ROLE_POLICY_DOCUMENT = '''
138 {
138 {
139 "Version": "2012-10-17",
139 "Version": "2012-10-17",
140 "Statement": [
140 "Statement": [
141 {
141 {
142 "Effect": "Allow",
142 "Effect": "Allow",
143 "Principal": {
143 "Principal": {
144 "Service": "ec2.amazonaws.com"
144 "Service": "ec2.amazonaws.com"
145 },
145 },
146 "Action": "sts:AssumeRole"
146 "Action": "sts:AssumeRole"
147 }
147 }
148 ]
148 ]
149 }
149 }
150 '''.strip()
150 '''.strip()
151
151
152
152
153 IAM_INSTANCE_PROFILES = {
153 IAM_INSTANCE_PROFILES = {
154 'ephemeral-ec2-1': {
154 'ephemeral-ec2-1': {
155 'roles': [
155 'roles': [
156 'ephemeral-ec2-role-1',
156 'ephemeral-ec2-role-1',
157 ],
157 ],
158 }
158 }
159 }
159 }
160
160
161
161
162 # User Data for Windows EC2 instance. Mainly used to set the password
162 # User Data for Windows EC2 instance. Mainly used to set the password
163 # and configure WinRM.
163 # and configure WinRM.
164 # Inspired by the User Data script used by Packer
164 # Inspired by the User Data script used by Packer
165 # (from https://www.packer.io/intro/getting-started/build-image.html).
165 # (from https://www.packer.io/intro/getting-started/build-image.html).
166 WINDOWS_USER_DATA = r'''
166 WINDOWS_USER_DATA = r'''
167 <powershell>
167 <powershell>
168
168
169 # TODO enable this once we figure out what is failing.
169 # TODO enable this once we figure out what is failing.
170 #$ErrorActionPreference = "stop"
170 #$ErrorActionPreference = "stop"
171
171
172 # Set administrator password
172 # Set administrator password
173 net user Administrator "%s"
173 net user Administrator "%s"
174 wmic useraccount where "name='Administrator'" set PasswordExpires=FALSE
174 wmic useraccount where "name='Administrator'" set PasswordExpires=FALSE
175
175
176 # First, make sure WinRM can't be connected to
176 # First, make sure WinRM can't be connected to
177 netsh advfirewall firewall set rule name="Windows Remote Management (HTTP-In)" new enable=yes action=block
177 netsh advfirewall firewall set rule name="Windows Remote Management (HTTP-In)" new enable=yes action=block
178
178
179 # Delete any existing WinRM listeners
179 # Delete any existing WinRM listeners
180 winrm delete winrm/config/listener?Address=*+Transport=HTTP 2>$Null
180 winrm delete winrm/config/listener?Address=*+Transport=HTTP 2>$Null
181 winrm delete winrm/config/listener?Address=*+Transport=HTTPS 2>$Null
181 winrm delete winrm/config/listener?Address=*+Transport=HTTPS 2>$Null
182
182
183 # Create a new WinRM listener and configure
183 # Create a new WinRM listener and configure
184 winrm create winrm/config/listener?Address=*+Transport=HTTP
184 winrm create winrm/config/listener?Address=*+Transport=HTTP
185 winrm set winrm/config/winrs '@{MaxMemoryPerShellMB="0"}'
185 winrm set winrm/config/winrs '@{MaxMemoryPerShellMB="0"}'
186 winrm set winrm/config '@{MaxTimeoutms="7200000"}'
186 winrm set winrm/config '@{MaxTimeoutms="7200000"}'
187 winrm set winrm/config/service '@{AllowUnencrypted="true"}'
187 winrm set winrm/config/service '@{AllowUnencrypted="true"}'
188 winrm set winrm/config/service '@{MaxConcurrentOperationsPerUser="12000"}'
188 winrm set winrm/config/service '@{MaxConcurrentOperationsPerUser="12000"}'
189 winrm set winrm/config/service/auth '@{Basic="true"}'
189 winrm set winrm/config/service/auth '@{Basic="true"}'
190 winrm set winrm/config/client/auth '@{Basic="true"}'
190 winrm set winrm/config/client/auth '@{Basic="true"}'
191
191
192 # Configure UAC to allow privilege elevation in remote shells
192 # Configure UAC to allow privilege elevation in remote shells
193 $Key = 'HKLM:\SOFTWARE\Microsoft\Windows\CurrentVersion\Policies\System'
193 $Key = 'HKLM:\SOFTWARE\Microsoft\Windows\CurrentVersion\Policies\System'
194 $Setting = 'LocalAccountTokenFilterPolicy'
194 $Setting = 'LocalAccountTokenFilterPolicy'
195 Set-ItemProperty -Path $Key -Name $Setting -Value 1 -Force
195 Set-ItemProperty -Path $Key -Name $Setting -Value 1 -Force
196
196
197 # Configure and restart the WinRM Service; Enable the required firewall exception
197 # Configure and restart the WinRM Service; Enable the required firewall exception
198 Stop-Service -Name WinRM
198 Stop-Service -Name WinRM
199 Set-Service -Name WinRM -StartupType Automatic
199 Set-Service -Name WinRM -StartupType Automatic
200 netsh advfirewall firewall set rule name="Windows Remote Management (HTTP-In)" new action=allow localip=any remoteip=any
200 netsh advfirewall firewall set rule name="Windows Remote Management (HTTP-In)" new action=allow localip=any remoteip=any
201 Start-Service -Name WinRM
201 Start-Service -Name WinRM
202
202
203 # Disable firewall on private network interfaces so prompts don't appear.
203 # Disable firewall on private network interfaces so prompts don't appear.
204 Set-NetFirewallProfile -Name private -Enabled false
204 Set-NetFirewallProfile -Name private -Enabled false
205 </powershell>
205 </powershell>
206 '''.lstrip()
206 '''.lstrip()
207
207
208
208
209 WINDOWS_BOOTSTRAP_POWERSHELL = '''
209 WINDOWS_BOOTSTRAP_POWERSHELL = '''
210 Write-Output "installing PowerShell dependencies"
210 Write-Output "installing PowerShell dependencies"
211 Install-PackageProvider -Name NuGet -MinimumVersion 2.8.5.201 -Force
211 Install-PackageProvider -Name NuGet -MinimumVersion 2.8.5.201 -Force
212 Set-PSRepository -Name PSGallery -InstallationPolicy Trusted
212 Set-PSRepository -Name PSGallery -InstallationPolicy Trusted
213 Install-Module -Name OpenSSHUtils -RequiredVersion 0.0.2.0
213 Install-Module -Name OpenSSHUtils -RequiredVersion 0.0.2.0
214
214
215 Write-Output "installing OpenSSL server"
215 Write-Output "installing OpenSSL server"
216 Add-WindowsCapability -Online -Name OpenSSH.Server~~~~0.0.1.0
216 Add-WindowsCapability -Online -Name OpenSSH.Server~~~~0.0.1.0
217 # Various tools will attempt to use older versions of .NET. So we enable
217 # Various tools will attempt to use older versions of .NET. So we enable
218 # the feature that provides them so it doesn't have to be auto-enabled
218 # the feature that provides them so it doesn't have to be auto-enabled
219 # later.
219 # later.
220 Write-Output "enabling .NET Framework feature"
220 Write-Output "enabling .NET Framework feature"
221 Install-WindowsFeature -Name Net-Framework-Core
221 Install-WindowsFeature -Name Net-Framework-Core
222 '''
222 '''
223
223
224
224
225 class AWSConnection:
225 class AWSConnection:
226 """Manages the state of a connection with AWS."""
226 """Manages the state of a connection with AWS."""
227
227
228 def __init__(self, automation, region: str, ensure_ec2_state: bool=True):
228 def __init__(self, automation, region: str, ensure_ec2_state: bool=True):
229 self.automation = automation
229 self.automation = automation
230 self.local_state_path = automation.state_path
230 self.local_state_path = automation.state_path
231
231
232 self.prefix = 'hg-'
232 self.prefix = 'hg-'
233
233
234 self.session = boto3.session.Session(region_name=region)
234 self.session = boto3.session.Session(region_name=region)
235 self.ec2client = self.session.client('ec2')
235 self.ec2client = self.session.client('ec2')
236 self.ec2resource = self.session.resource('ec2')
236 self.ec2resource = self.session.resource('ec2')
237 self.iamclient = self.session.client('iam')
237 self.iamclient = self.session.client('iam')
238 self.iamresource = self.session.resource('iam')
238 self.iamresource = self.session.resource('iam')
239 self.security_groups = {}
239 self.security_groups = {}
240
240
241 if ensure_ec2_state:
241 if ensure_ec2_state:
242 ensure_key_pairs(automation.state_path, self.ec2resource)
242 ensure_key_pairs(automation.state_path, self.ec2resource)
243 self.security_groups = ensure_security_groups(self.ec2resource)
243 self.security_groups = ensure_security_groups(self.ec2resource)
244 ensure_iam_state(self.iamclient, self.iamresource)
244 ensure_iam_state(self.iamclient, self.iamresource)
245
245
246 def key_pair_path_private(self, name):
246 def key_pair_path_private(self, name):
247 """Path to a key pair private key file."""
247 """Path to a key pair private key file."""
248 return self.local_state_path / 'keys' / ('keypair-%s' % name)
248 return self.local_state_path / 'keys' / ('keypair-%s' % name)
249
249
250 def key_pair_path_public(self, name):
250 def key_pair_path_public(self, name):
251 return self.local_state_path / 'keys' / ('keypair-%s.pub' % name)
251 return self.local_state_path / 'keys' / ('keypair-%s.pub' % name)
252
252
253
253
254 def rsa_key_fingerprint(p: pathlib.Path):
254 def rsa_key_fingerprint(p: pathlib.Path):
255 """Compute the fingerprint of an RSA private key."""
255 """Compute the fingerprint of an RSA private key."""
256
256
257 # TODO use rsa package.
257 # TODO use rsa package.
258 res = subprocess.run(
258 res = subprocess.run(
259 ['openssl', 'pkcs8', '-in', str(p), '-nocrypt', '-topk8',
259 ['openssl', 'pkcs8', '-in', str(p), '-nocrypt', '-topk8',
260 '-outform', 'DER'],
260 '-outform', 'DER'],
261 capture_output=True,
261 capture_output=True,
262 check=True)
262 check=True)
263
263
264 sha1 = hashlib.sha1(res.stdout).hexdigest()
264 sha1 = hashlib.sha1(res.stdout).hexdigest()
265 return ':'.join(a + b for a, b in zip(sha1[::2], sha1[1::2]))
265 return ':'.join(a + b for a, b in zip(sha1[::2], sha1[1::2]))
266
266
267
267
268 def ensure_key_pairs(state_path: pathlib.Path, ec2resource, prefix='hg-'):
268 def ensure_key_pairs(state_path: pathlib.Path, ec2resource, prefix='hg-'):
269 remote_existing = {}
269 remote_existing = {}
270
270
271 for kpi in ec2resource.key_pairs.all():
271 for kpi in ec2resource.key_pairs.all():
272 if kpi.name.startswith(prefix):
272 if kpi.name.startswith(prefix):
273 remote_existing[kpi.name[len(prefix):]] = kpi.key_fingerprint
273 remote_existing[kpi.name[len(prefix):]] = kpi.key_fingerprint
274
274
275 # Validate that we have these keys locally.
275 # Validate that we have these keys locally.
276 key_path = state_path / 'keys'
276 key_path = state_path / 'keys'
277 key_path.mkdir(exist_ok=True, mode=0o700)
277 key_path.mkdir(exist_ok=True, mode=0o700)
278
278
279 def remove_remote(name):
279 def remove_remote(name):
280 print('deleting key pair %s' % name)
280 print('deleting key pair %s' % name)
281 key = ec2resource.KeyPair(name)
281 key = ec2resource.KeyPair(name)
282 key.delete()
282 key.delete()
283
283
284 def remove_local(name):
284 def remove_local(name):
285 pub_full = key_path / ('keypair-%s.pub' % name)
285 pub_full = key_path / ('keypair-%s.pub' % name)
286 priv_full = key_path / ('keypair-%s' % name)
286 priv_full = key_path / ('keypair-%s' % name)
287
287
288 print('removing %s' % pub_full)
288 print('removing %s' % pub_full)
289 pub_full.unlink()
289 pub_full.unlink()
290 print('removing %s' % priv_full)
290 print('removing %s' % priv_full)
291 priv_full.unlink()
291 priv_full.unlink()
292
292
293 local_existing = {}
293 local_existing = {}
294
294
295 for f in sorted(os.listdir(key_path)):
295 for f in sorted(os.listdir(key_path)):
296 if not f.startswith('keypair-') or not f.endswith('.pub'):
296 if not f.startswith('keypair-') or not f.endswith('.pub'):
297 continue
297 continue
298
298
299 name = f[len('keypair-'):-len('.pub')]
299 name = f[len('keypair-'):-len('.pub')]
300
300
301 pub_full = key_path / f
301 pub_full = key_path / f
302 priv_full = key_path / ('keypair-%s' % name)
302 priv_full = key_path / ('keypair-%s' % name)
303
303
304 with open(pub_full, 'r', encoding='ascii') as fh:
304 with open(pub_full, 'r', encoding='ascii') as fh:
305 data = fh.read()
305 data = fh.read()
306
306
307 if not data.startswith('ssh-rsa '):
307 if not data.startswith('ssh-rsa '):
308 print('unexpected format for key pair file: %s; removing' %
308 print('unexpected format for key pair file: %s; removing' %
309 pub_full)
309 pub_full)
310 pub_full.unlink()
310 pub_full.unlink()
311 priv_full.unlink()
311 priv_full.unlink()
312 continue
312 continue
313
313
314 local_existing[name] = rsa_key_fingerprint(priv_full)
314 local_existing[name] = rsa_key_fingerprint(priv_full)
315
315
316 for name in sorted(set(remote_existing) | set(local_existing)):
316 for name in sorted(set(remote_existing) | set(local_existing)):
317 if name not in local_existing:
317 if name not in local_existing:
318 actual = '%s%s' % (prefix, name)
318 actual = '%s%s' % (prefix, name)
319 print('remote key %s does not exist locally' % name)
319 print('remote key %s does not exist locally' % name)
320 remove_remote(actual)
320 remove_remote(actual)
321 del remote_existing[name]
321 del remote_existing[name]
322
322
323 elif name not in remote_existing:
323 elif name not in remote_existing:
324 print('local key %s does not exist remotely' % name)
324 print('local key %s does not exist remotely' % name)
325 remove_local(name)
325 remove_local(name)
326 del local_existing[name]
326 del local_existing[name]
327
327
328 elif remote_existing[name] != local_existing[name]:
328 elif remote_existing[name] != local_existing[name]:
329 print('key fingerprint mismatch for %s; '
329 print('key fingerprint mismatch for %s; '
330 'removing from local and remote' % name)
330 'removing from local and remote' % name)
331 remove_local(name)
331 remove_local(name)
332 remove_remote('%s%s' % (prefix, name))
332 remove_remote('%s%s' % (prefix, name))
333 del local_existing[name]
333 del local_existing[name]
334 del remote_existing[name]
334 del remote_existing[name]
335
335
336 missing = KEY_PAIRS - set(remote_existing)
336 missing = KEY_PAIRS - set(remote_existing)
337
337
338 for name in sorted(missing):
338 for name in sorted(missing):
339 actual = '%s%s' % (prefix, name)
339 actual = '%s%s' % (prefix, name)
340 print('creating key pair %s' % actual)
340 print('creating key pair %s' % actual)
341
341
342 priv_full = key_path / ('keypair-%s' % name)
342 priv_full = key_path / ('keypair-%s' % name)
343 pub_full = key_path / ('keypair-%s.pub' % name)
343 pub_full = key_path / ('keypair-%s.pub' % name)
344
344
345 kp = ec2resource.create_key_pair(KeyName=actual)
345 kp = ec2resource.create_key_pair(KeyName=actual)
346
346
347 with priv_full.open('w', encoding='ascii') as fh:
347 with priv_full.open('w', encoding='ascii') as fh:
348 fh.write(kp.key_material)
348 fh.write(kp.key_material)
349 fh.write('\n')
349 fh.write('\n')
350
350
351 priv_full.chmod(0o0600)
351 priv_full.chmod(0o0600)
352
352
353 # SSH public key can be extracted via `ssh-keygen`.
353 # SSH public key can be extracted via `ssh-keygen`.
354 with pub_full.open('w', encoding='ascii') as fh:
354 with pub_full.open('w', encoding='ascii') as fh:
355 subprocess.run(
355 subprocess.run(
356 ['ssh-keygen', '-y', '-f', str(priv_full)],
356 ['ssh-keygen', '-y', '-f', str(priv_full)],
357 stdout=fh,
357 stdout=fh,
358 check=True)
358 check=True)
359
359
360 pub_full.chmod(0o0600)
360 pub_full.chmod(0o0600)
361
361
362
362
363 def delete_instance_profile(profile):
363 def delete_instance_profile(profile):
364 for role in profile.roles:
364 for role in profile.roles:
365 print('removing role %s from instance profile %s' % (role.name,
365 print('removing role %s from instance profile %s' % (role.name,
366 profile.name))
366 profile.name))
367 profile.remove_role(RoleName=role.name)
367 profile.remove_role(RoleName=role.name)
368
368
369 print('deleting instance profile %s' % profile.name)
369 print('deleting instance profile %s' % profile.name)
370 profile.delete()
370 profile.delete()
371
371
372
372
373 def ensure_iam_state(iamclient, iamresource, prefix='hg-'):
373 def ensure_iam_state(iamclient, iamresource, prefix='hg-'):
374 """Ensure IAM state is in sync with our canonical definition."""
374 """Ensure IAM state is in sync with our canonical definition."""
375
375
376 remote_profiles = {}
376 remote_profiles = {}
377
377
378 for profile in iamresource.instance_profiles.all():
378 for profile in iamresource.instance_profiles.all():
379 if profile.name.startswith(prefix):
379 if profile.name.startswith(prefix):
380 remote_profiles[profile.name[len(prefix):]] = profile
380 remote_profiles[profile.name[len(prefix):]] = profile
381
381
382 for name in sorted(set(remote_profiles) - set(IAM_INSTANCE_PROFILES)):
382 for name in sorted(set(remote_profiles) - set(IAM_INSTANCE_PROFILES)):
383 delete_instance_profile(remote_profiles[name])
383 delete_instance_profile(remote_profiles[name])
384 del remote_profiles[name]
384 del remote_profiles[name]
385
385
386 remote_roles = {}
386 remote_roles = {}
387
387
388 for role in iamresource.roles.all():
388 for role in iamresource.roles.all():
389 if role.name.startswith(prefix):
389 if role.name.startswith(prefix):
390 remote_roles[role.name[len(prefix):]] = role
390 remote_roles[role.name[len(prefix):]] = role
391
391
392 for name in sorted(set(remote_roles) - set(IAM_ROLES)):
392 for name in sorted(set(remote_roles) - set(IAM_ROLES)):
393 role = remote_roles[name]
393 role = remote_roles[name]
394
394
395 print('removing role %s' % role.name)
395 print('removing role %s' % role.name)
396 role.delete()
396 role.delete()
397 del remote_roles[name]
397 del remote_roles[name]
398
398
399 # We've purged remote state that doesn't belong. Create missing
399 # We've purged remote state that doesn't belong. Create missing
400 # instance profiles and roles.
400 # instance profiles and roles.
401 for name in sorted(set(IAM_INSTANCE_PROFILES) - set(remote_profiles)):
401 for name in sorted(set(IAM_INSTANCE_PROFILES) - set(remote_profiles)):
402 actual = '%s%s' % (prefix, name)
402 actual = '%s%s' % (prefix, name)
403 print('creating IAM instance profile %s' % actual)
403 print('creating IAM instance profile %s' % actual)
404
404
405 profile = iamresource.create_instance_profile(
405 profile = iamresource.create_instance_profile(
406 InstanceProfileName=actual)
406 InstanceProfileName=actual)
407 remote_profiles[name] = profile
407 remote_profiles[name] = profile
408
408
409 waiter = iamclient.get_waiter('instance_profile_exists')
409 waiter = iamclient.get_waiter('instance_profile_exists')
410 waiter.wait(InstanceProfileName=actual)
410 waiter.wait(InstanceProfileName=actual)
411 print('IAM instance profile %s is available' % actual)
411 print('IAM instance profile %s is available' % actual)
412
412
413 for name in sorted(set(IAM_ROLES) - set(remote_roles)):
413 for name in sorted(set(IAM_ROLES) - set(remote_roles)):
414 entry = IAM_ROLES[name]
414 entry = IAM_ROLES[name]
415
415
416 actual = '%s%s' % (prefix, name)
416 actual = '%s%s' % (prefix, name)
417 print('creating IAM role %s' % actual)
417 print('creating IAM role %s' % actual)
418
418
419 role = iamresource.create_role(
419 role = iamresource.create_role(
420 RoleName=actual,
420 RoleName=actual,
421 Description=entry['description'],
421 Description=entry['description'],
422 AssumeRolePolicyDocument=ASSUME_ROLE_POLICY_DOCUMENT,
422 AssumeRolePolicyDocument=ASSUME_ROLE_POLICY_DOCUMENT,
423 )
423 )
424
424
425 waiter = iamclient.get_waiter('role_exists')
425 waiter = iamclient.get_waiter('role_exists')
426 waiter.wait(RoleName=actual)
426 waiter.wait(RoleName=actual)
427 print('IAM role %s is available' % actual)
427 print('IAM role %s is available' % actual)
428
428
429 remote_roles[name] = role
429 remote_roles[name] = role
430
430
431 for arn in entry['policy_arns']:
431 for arn in entry['policy_arns']:
432 print('attaching policy %s to %s' % (arn, role.name))
432 print('attaching policy %s to %s' % (arn, role.name))
433 role.attach_policy(PolicyArn=arn)
433 role.attach_policy(PolicyArn=arn)
434
434
435 # Now reconcile state of profiles.
435 # Now reconcile state of profiles.
436 for name, meta in sorted(IAM_INSTANCE_PROFILES.items()):
436 for name, meta in sorted(IAM_INSTANCE_PROFILES.items()):
437 profile = remote_profiles[name]
437 profile = remote_profiles[name]
438 wanted = {'%s%s' % (prefix, role) for role in meta['roles']}
438 wanted = {'%s%s' % (prefix, role) for role in meta['roles']}
439 have = {role.name for role in profile.roles}
439 have = {role.name for role in profile.roles}
440
440
441 for role in sorted(have - wanted):
441 for role in sorted(have - wanted):
442 print('removing role %s from %s' % (role, profile.name))
442 print('removing role %s from %s' % (role, profile.name))
443 profile.remove_role(RoleName=role)
443 profile.remove_role(RoleName=role)
444
444
445 for role in sorted(wanted - have):
445 for role in sorted(wanted - have):
446 print('adding role %s to %s' % (role, profile.name))
446 print('adding role %s to %s' % (role, profile.name))
447 profile.add_role(RoleName=role)
447 profile.add_role(RoleName=role)
448
448
449
449
450 def find_image(ec2resource, owner_id, name):
450 def find_image(ec2resource, owner_id, name):
451 """Find an AMI by its owner ID and name."""
451 """Find an AMI by its owner ID and name."""
452
452
453 images = ec2resource.images.filter(
453 images = ec2resource.images.filter(
454 Filters=[
454 Filters=[
455 {
455 {
456 'Name': 'owner-id',
456 'Name': 'owner-id',
457 'Values': [owner_id],
457 'Values': [owner_id],
458 },
458 },
459 {
459 {
460 'Name': 'state',
460 'Name': 'state',
461 'Values': ['available'],
461 'Values': ['available'],
462 },
462 },
463 {
463 {
464 'Name': 'image-type',
464 'Name': 'image-type',
465 'Values': ['machine'],
465 'Values': ['machine'],
466 },
466 },
467 {
467 {
468 'Name': 'name',
468 'Name': 'name',
469 'Values': [name],
469 'Values': [name],
470 },
470 },
471 ])
471 ])
472
472
473 for image in images:
473 for image in images:
474 return image
474 return image
475
475
476 raise Exception('unable to find image for %s' % name)
476 raise Exception('unable to find image for %s' % name)
477
477
478
478
479 def ensure_security_groups(ec2resource, prefix='hg-'):
479 def ensure_security_groups(ec2resource, prefix='hg-'):
480 """Ensure all necessary Mercurial security groups are present.
480 """Ensure all necessary Mercurial security groups are present.
481
481
482 All security groups are prefixed with ``hg-`` by default. Any security
482 All security groups are prefixed with ``hg-`` by default. Any security
483 groups having this prefix but aren't in our list are deleted.
483 groups having this prefix but aren't in our list are deleted.
484 """
484 """
485 existing = {}
485 existing = {}
486
486
487 for group in ec2resource.security_groups.all():
487 for group in ec2resource.security_groups.all():
488 if group.group_name.startswith(prefix):
488 if group.group_name.startswith(prefix):
489 existing[group.group_name[len(prefix):]] = group
489 existing[group.group_name[len(prefix):]] = group
490
490
491 purge = set(existing) - set(SECURITY_GROUPS)
491 purge = set(existing) - set(SECURITY_GROUPS)
492
492
493 for name in sorted(purge):
493 for name in sorted(purge):
494 group = existing[name]
494 group = existing[name]
495 print('removing legacy security group: %s' % group.group_name)
495 print('removing legacy security group: %s' % group.group_name)
496 group.delete()
496 group.delete()
497
497
498 security_groups = {}
498 security_groups = {}
499
499
500 for name, group in sorted(SECURITY_GROUPS.items()):
500 for name, group in sorted(SECURITY_GROUPS.items()):
501 if name in existing:
501 if name in existing:
502 security_groups[name] = existing[name]
502 security_groups[name] = existing[name]
503 continue
503 continue
504
504
505 actual = '%s%s' % (prefix, name)
505 actual = '%s%s' % (prefix, name)
506 print('adding security group %s' % actual)
506 print('adding security group %s' % actual)
507
507
508 group_res = ec2resource.create_security_group(
508 group_res = ec2resource.create_security_group(
509 Description=group['description'],
509 Description=group['description'],
510 GroupName=actual,
510 GroupName=actual,
511 )
511 )
512
512
513 group_res.authorize_ingress(
513 group_res.authorize_ingress(
514 IpPermissions=group['ingress'],
514 IpPermissions=group['ingress'],
515 )
515 )
516
516
517 security_groups[name] = group_res
517 security_groups[name] = group_res
518
518
519 return security_groups
519 return security_groups
520
520
521
521
522 def terminate_ec2_instances(ec2resource, prefix='hg-'):
522 def terminate_ec2_instances(ec2resource, prefix='hg-'):
523 """Terminate all EC2 instances managed by us."""
523 """Terminate all EC2 instances managed by us."""
524 waiting = []
524 waiting = []
525
525
526 for instance in ec2resource.instances.all():
526 for instance in ec2resource.instances.all():
527 if instance.state['Name'] == 'terminated':
527 if instance.state['Name'] == 'terminated':
528 continue
528 continue
529
529
530 for tag in instance.tags or []:
530 for tag in instance.tags or []:
531 if tag['Key'] == 'Name' and tag['Value'].startswith(prefix):
531 if tag['Key'] == 'Name' and tag['Value'].startswith(prefix):
532 print('terminating %s' % instance.id)
532 print('terminating %s' % instance.id)
533 instance.terminate()
533 instance.terminate()
534 waiting.append(instance)
534 waiting.append(instance)
535
535
536 for instance in waiting:
536 for instance in waiting:
537 instance.wait_until_terminated()
537 instance.wait_until_terminated()
538
538
539
539
540 def remove_resources(c, prefix='hg-'):
540 def remove_resources(c, prefix='hg-'):
541 """Purge all of our resources in this EC2 region."""
541 """Purge all of our resources in this EC2 region."""
542 ec2resource = c.ec2resource
542 ec2resource = c.ec2resource
543 iamresource = c.iamresource
543 iamresource = c.iamresource
544
544
545 terminate_ec2_instances(ec2resource, prefix=prefix)
545 terminate_ec2_instances(ec2resource, prefix=prefix)
546
546
547 for image in ec2resource.images.filter(Owners=['self']):
547 for image in ec2resource.images.filter(Owners=['self']):
548 if image.name.startswith(prefix):
548 if image.name.startswith(prefix):
549 remove_ami(ec2resource, image)
549 remove_ami(ec2resource, image)
550
550
551 for group in ec2resource.security_groups.all():
551 for group in ec2resource.security_groups.all():
552 if group.group_name.startswith(prefix):
552 if group.group_name.startswith(prefix):
553 print('removing security group %s' % group.group_name)
553 print('removing security group %s' % group.group_name)
554 group.delete()
554 group.delete()
555
555
556 for profile in iamresource.instance_profiles.all():
556 for profile in iamresource.instance_profiles.all():
557 if profile.name.startswith(prefix):
557 if profile.name.startswith(prefix):
558 delete_instance_profile(profile)
558 delete_instance_profile(profile)
559
559
560 for role in iamresource.roles.all():
560 for role in iamresource.roles.all():
561 if role.name.startswith(prefix):
561 if role.name.startswith(prefix):
562 for p in role.attached_policies.all():
562 for p in role.attached_policies.all():
563 print('detaching policy %s from %s' % (p.arn, role.name))
563 print('detaching policy %s from %s' % (p.arn, role.name))
564 role.detach_policy(PolicyArn=p.arn)
564 role.detach_policy(PolicyArn=p.arn)
565
565
566 print('removing role %s' % role.name)
566 print('removing role %s' % role.name)
567 role.delete()
567 role.delete()
568
568
569
569
570 def wait_for_ip_addresses(instances):
570 def wait_for_ip_addresses(instances):
571 """Wait for the public IP addresses of an iterable of instances."""
571 """Wait for the public IP addresses of an iterable of instances."""
572 for instance in instances:
572 for instance in instances:
573 while True:
573 while True:
574 if not instance.public_ip_address:
574 if not instance.public_ip_address:
575 time.sleep(2)
575 time.sleep(2)
576 instance.reload()
576 instance.reload()
577 continue
577 continue
578
578
579 print('public IP address for %s: %s' % (
579 print('public IP address for %s: %s' % (
580 instance.id, instance.public_ip_address))
580 instance.id, instance.public_ip_address))
581 break
581 break
582
582
583
583
584 def remove_ami(ec2resource, image):
584 def remove_ami(ec2resource, image):
585 """Remove an AMI and its underlying snapshots."""
585 """Remove an AMI and its underlying snapshots."""
586 snapshots = []
586 snapshots = []
587
587
588 for device in image.block_device_mappings:
588 for device in image.block_device_mappings:
589 if 'Ebs' in device:
589 if 'Ebs' in device:
590 snapshots.append(ec2resource.Snapshot(device['Ebs']['SnapshotId']))
590 snapshots.append(ec2resource.Snapshot(device['Ebs']['SnapshotId']))
591
591
592 print('deregistering %s' % image.id)
592 print('deregistering %s' % image.id)
593 image.deregister()
593 image.deregister()
594
594
595 for snapshot in snapshots:
595 for snapshot in snapshots:
596 print('deleting snapshot %s' % snapshot.id)
596 print('deleting snapshot %s' % snapshot.id)
597 snapshot.delete()
597 snapshot.delete()
598
598
599
599
600 def wait_for_ssm(ssmclient, instances):
600 def wait_for_ssm(ssmclient, instances):
601 """Wait for SSM to come online for an iterable of instance IDs."""
601 """Wait for SSM to come online for an iterable of instance IDs."""
602 while True:
602 while True:
603 res = ssmclient.describe_instance_information(
603 res = ssmclient.describe_instance_information(
604 Filters=[
604 Filters=[
605 {
605 {
606 'Key': 'InstanceIds',
606 'Key': 'InstanceIds',
607 'Values': [i.id for i in instances],
607 'Values': [i.id for i in instances],
608 },
608 },
609 ],
609 ],
610 )
610 )
611
611
612 available = len(res['InstanceInformationList'])
612 available = len(res['InstanceInformationList'])
613 wanted = len(instances)
613 wanted = len(instances)
614
614
615 print('%d/%d instances available in SSM' % (available, wanted))
615 print('%d/%d instances available in SSM' % (available, wanted))
616
616
617 if available == wanted:
617 if available == wanted:
618 return
618 return
619
619
620 time.sleep(2)
620 time.sleep(2)
621
621
622
622
623 def run_ssm_command(ssmclient, instances, document_name, parameters):
623 def run_ssm_command(ssmclient, instances, document_name, parameters):
624 """Run a PowerShell script on an EC2 instance."""
624 """Run a PowerShell script on an EC2 instance."""
625
625
626 res = ssmclient.send_command(
626 res = ssmclient.send_command(
627 InstanceIds=[i.id for i in instances],
627 InstanceIds=[i.id for i in instances],
628 DocumentName=document_name,
628 DocumentName=document_name,
629 Parameters=parameters,
629 Parameters=parameters,
630 CloudWatchOutputConfig={
630 CloudWatchOutputConfig={
631 'CloudWatchOutputEnabled': True,
631 'CloudWatchOutputEnabled': True,
632 },
632 },
633 )
633 )
634
634
635 command_id = res['Command']['CommandId']
635 command_id = res['Command']['CommandId']
636
636
637 for instance in instances:
637 for instance in instances:
638 while True:
638 while True:
639 try:
639 try:
640 res = ssmclient.get_command_invocation(
640 res = ssmclient.get_command_invocation(
641 CommandId=command_id,
641 CommandId=command_id,
642 InstanceId=instance.id,
642 InstanceId=instance.id,
643 )
643 )
644 except botocore.exceptions.ClientError as e:
644 except botocore.exceptions.ClientError as e:
645 if e.response['Error']['Code'] == 'InvocationDoesNotExist':
645 if e.response['Error']['Code'] == 'InvocationDoesNotExist':
646 print('could not find SSM command invocation; waiting')
646 print('could not find SSM command invocation; waiting')
647 time.sleep(1)
647 time.sleep(1)
648 continue
648 continue
649 else:
649 else:
650 raise
650 raise
651
651
652 if res['Status'] == 'Success':
652 if res['Status'] == 'Success':
653 break
653 break
654 elif res['Status'] in ('Pending', 'InProgress', 'Delayed'):
654 elif res['Status'] in ('Pending', 'InProgress', 'Delayed'):
655 time.sleep(2)
655 time.sleep(2)
656 else:
656 else:
657 raise Exception('command failed on %s: %s' % (
657 raise Exception('command failed on %s: %s' % (
658 instance.id, res['Status']))
658 instance.id, res['Status']))
659
659
660
660
661 @contextlib.contextmanager
661 @contextlib.contextmanager
662 def temporary_ec2_instances(ec2resource, config):
662 def temporary_ec2_instances(ec2resource, config):
663 """Create temporary EC2 instances.
663 """Create temporary EC2 instances.
664
664
665 This is a proxy to ``ec2client.run_instances(**config)`` that takes care of
665 This is a proxy to ``ec2client.run_instances(**config)`` that takes care of
666 managing the lifecycle of the instances.
666 managing the lifecycle of the instances.
667
667
668 When the context manager exits, the instances are terminated.
668 When the context manager exits, the instances are terminated.
669
669
670 The context manager evaluates to the list of data structures
670 The context manager evaluates to the list of data structures
671 describing each created instance. The instances may not be available
671 describing each created instance. The instances may not be available
672 for work immediately: it is up to the caller to wait for the instance
672 for work immediately: it is up to the caller to wait for the instance
673 to start responding.
673 to start responding.
674 """
674 """
675
675
676 ids = None
676 ids = None
677
677
678 try:
678 try:
679 res = ec2resource.create_instances(**config)
679 res = ec2resource.create_instances(**config)
680
680
681 ids = [i.id for i in res]
681 ids = [i.id for i in res]
682 print('started instances: %s' % ' '.join(ids))
682 print('started instances: %s' % ' '.join(ids))
683
683
684 yield res
684 yield res
685 finally:
685 finally:
686 if ids:
686 if ids:
687 print('terminating instances: %s' % ' '.join(ids))
687 print('terminating instances: %s' % ' '.join(ids))
688 for instance in res:
688 for instance in res:
689 instance.terminate()
689 instance.terminate()
690 print('terminated %d instances' % len(ids))
690 print('terminated %d instances' % len(ids))
691
691
692
692
693 @contextlib.contextmanager
693 @contextlib.contextmanager
694 def create_temp_windows_ec2_instances(c: AWSConnection, config):
694 def create_temp_windows_ec2_instances(c: AWSConnection, config):
695 """Create temporary Windows EC2 instances.
695 """Create temporary Windows EC2 instances.
696
696
697 This is a higher-level wrapper around ``create_temp_ec2_instances()`` that
697 This is a higher-level wrapper around ``create_temp_ec2_instances()`` that
698 configures the Windows instance for Windows Remote Management. The emitted
698 configures the Windows instance for Windows Remote Management. The emitted
699 instances will have a ``winrm_client`` attribute containing a
699 instances will have a ``winrm_client`` attribute containing a
700 ``pypsrp.client.Client`` instance bound to the instance.
700 ``pypsrp.client.Client`` instance bound to the instance.
701 """
701 """
702 if 'IamInstanceProfile' in config:
702 if 'IamInstanceProfile' in config:
703 raise ValueError('IamInstanceProfile cannot be provided in config')
703 raise ValueError('IamInstanceProfile cannot be provided in config')
704 if 'UserData' in config:
704 if 'UserData' in config:
705 raise ValueError('UserData cannot be provided in config')
705 raise ValueError('UserData cannot be provided in config')
706
706
707 password = c.automation.default_password()
707 password = c.automation.default_password()
708
708
709 config = copy.deepcopy(config)
709 config = copy.deepcopy(config)
710 config['IamInstanceProfile'] = {
710 config['IamInstanceProfile'] = {
711 'Name': 'hg-ephemeral-ec2-1',
711 'Name': 'hg-ephemeral-ec2-1',
712 }
712 }
713 config.setdefault('TagSpecifications', []).append({
713 config.setdefault('TagSpecifications', []).append({
714 'ResourceType': 'instance',
714 'ResourceType': 'instance',
715 'Tags': [{'Key': 'Name', 'Value': 'hg-temp-windows'}],
715 'Tags': [{'Key': 'Name', 'Value': 'hg-temp-windows'}],
716 })
716 })
717 config['UserData'] = WINDOWS_USER_DATA % password
717 config['UserData'] = WINDOWS_USER_DATA % password
718
718
719 with temporary_ec2_instances(c.ec2resource, config) as instances:
719 with temporary_ec2_instances(c.ec2resource, config) as instances:
720 wait_for_ip_addresses(instances)
720 wait_for_ip_addresses(instances)
721
721
722 print('waiting for Windows Remote Management service...')
722 print('waiting for Windows Remote Management service...')
723
723
724 for instance in instances:
724 for instance in instances:
725 client = wait_for_winrm(instance.public_ip_address, 'Administrator', password)
725 client = wait_for_winrm(instance.public_ip_address, 'Administrator', password)
726 print('established WinRM connection to %s' % instance.id)
726 print('established WinRM connection to %s' % instance.id)
727 instance.winrm_client = client
727 instance.winrm_client = client
728
728
729 yield instances
729 yield instances
730
730
731
731
732 def resolve_fingerprint(fingerprint):
732 def resolve_fingerprint(fingerprint):
733 fingerprint = json.dumps(fingerprint, sort_keys=True)
733 fingerprint = json.dumps(fingerprint, sort_keys=True)
734 return hashlib.sha256(fingerprint.encode('utf-8')).hexdigest()
734 return hashlib.sha256(fingerprint.encode('utf-8')).hexdigest()
735
735
736
736
737 def find_and_reconcile_image(ec2resource, name, fingerprint):
737 def find_and_reconcile_image(ec2resource, name, fingerprint):
738 """Attempt to find an existing EC2 AMI with a name and fingerprint.
738 """Attempt to find an existing EC2 AMI with a name and fingerprint.
739
739
740 If an image with the specified fingerprint is found, it is returned.
740 If an image with the specified fingerprint is found, it is returned.
741 Otherwise None is returned.
741 Otherwise None is returned.
742
742
743 Existing images for the specified name that don't have the specified
743 Existing images for the specified name that don't have the specified
744 fingerprint or are missing required metadata or deleted.
744 fingerprint or are missing required metadata or deleted.
745 """
745 """
746 # Find existing AMIs with this name and delete the ones that are invalid.
746 # Find existing AMIs with this name and delete the ones that are invalid.
747 # Store a reference to a good image so it can be returned one the
747 # Store a reference to a good image so it can be returned one the
748 # image state is reconciled.
748 # image state is reconciled.
749 images = ec2resource.images.filter(
749 images = ec2resource.images.filter(
750 Filters=[{'Name': 'name', 'Values': [name]}])
750 Filters=[{'Name': 'name', 'Values': [name]}])
751
751
752 existing_image = None
752 existing_image = None
753
753
754 for image in images:
754 for image in images:
755 if image.tags is None:
755 if image.tags is None:
756 print('image %s for %s lacks required tags; removing' % (
756 print('image %s for %s lacks required tags; removing' % (
757 image.id, image.name))
757 image.id, image.name))
758 remove_ami(ec2resource, image)
758 remove_ami(ec2resource, image)
759 else:
759 else:
760 tags = {t['Key']: t['Value'] for t in image.tags}
760 tags = {t['Key']: t['Value'] for t in image.tags}
761
761
762 if tags.get('HGIMAGEFINGERPRINT') == fingerprint:
762 if tags.get('HGIMAGEFINGERPRINT') == fingerprint:
763 existing_image = image
763 existing_image = image
764 else:
764 else:
765 print('image %s for %s has wrong fingerprint; removing' % (
765 print('image %s for %s has wrong fingerprint; removing' % (
766 image.id, image.name))
766 image.id, image.name))
767 remove_ami(ec2resource, image)
767 remove_ami(ec2resource, image)
768
768
769 return existing_image
769 return existing_image
770
770
771
771
772 def create_ami_from_instance(ec2client, instance, name, description,
772 def create_ami_from_instance(ec2client, instance, name, description,
773 fingerprint):
773 fingerprint):
774 """Create an AMI from a running instance.
774 """Create an AMI from a running instance.
775
775
776 Returns the ``ec2resource.Image`` representing the created AMI.
776 Returns the ``ec2resource.Image`` representing the created AMI.
777 """
777 """
778 instance.stop()
778 instance.stop()
779
779
780 ec2client.get_waiter('instance_stopped').wait(
780 ec2client.get_waiter('instance_stopped').wait(
781 InstanceIds=[instance.id],
781 InstanceIds=[instance.id],
782 WaiterConfig={
782 WaiterConfig={
783 'Delay': 5,
783 'Delay': 5,
784 })
784 })
785 print('%s is stopped' % instance.id)
785 print('%s is stopped' % instance.id)
786
786
787 image = instance.create_image(
787 image = instance.create_image(
788 Name=name,
788 Name=name,
789 Description=description,
789 Description=description,
790 )
790 )
791
791
792 image.create_tags(Tags=[
792 image.create_tags(Tags=[
793 {
793 {
794 'Key': 'HGIMAGEFINGERPRINT',
794 'Key': 'HGIMAGEFINGERPRINT',
795 'Value': fingerprint,
795 'Value': fingerprint,
796 },
796 },
797 ])
797 ])
798
798
799 print('waiting for image %s' % image.id)
799 print('waiting for image %s' % image.id)
800
800
801 ec2client.get_waiter('image_available').wait(
801 ec2client.get_waiter('image_available').wait(
802 ImageIds=[image.id],
802 ImageIds=[image.id],
803 )
803 )
804
804
805 print('image %s available as %s' % (image.id, image.name))
805 print('image %s available as %s' % (image.id, image.name))
806
806
807 return image
807 return image
808
808
809
809
810 def ensure_linux_dev_ami(c: AWSConnection, distro='debian9', prefix='hg-'):
810 def ensure_linux_dev_ami(c: AWSConnection, distro='debian9', prefix='hg-'):
811 """Ensures a Linux development AMI is available and up-to-date.
811 """Ensures a Linux development AMI is available and up-to-date.
812
812
813 Returns an ``ec2.Image`` of either an existing AMI or a newly-built one.
813 Returns an ``ec2.Image`` of either an existing AMI or a newly-built one.
814 """
814 """
815 ec2client = c.ec2client
815 ec2client = c.ec2client
816 ec2resource = c.ec2resource
816 ec2resource = c.ec2resource
817
817
818 name = '%s%s-%s' % (prefix, 'linux-dev', distro)
818 name = '%s%s-%s' % (prefix, 'linux-dev', distro)
819
819
820 if distro == 'debian9':
820 if distro == 'debian9':
821 image = find_image(
821 image = find_image(
822 ec2resource,
822 ec2resource,
823 DEBIAN_ACCOUNT_ID,
823 DEBIAN_ACCOUNT_ID,
824 'debian-stretch-hvm-x86_64-gp2-2019-02-19-26620',
824 'debian-stretch-hvm-x86_64-gp2-2019-09-08-17994',
825 )
825 )
826 ssh_username = 'admin'
826 ssh_username = 'admin'
827 elif distro == 'ubuntu18.04':
827 elif distro == 'ubuntu18.04':
828 image = find_image(
828 image = find_image(
829 ec2resource,
829 ec2resource,
830 UBUNTU_ACCOUNT_ID,
830 UBUNTU_ACCOUNT_ID,
831 'ubuntu/images/hvm-ssd/ubuntu-bionic-18.04-amd64-server-20190403',
831 'ubuntu/images/hvm-ssd/ubuntu-bionic-18.04-amd64-server-20190918',
832 )
832 )
833 ssh_username = 'ubuntu'
833 ssh_username = 'ubuntu'
834 elif distro == 'ubuntu19.04':
834 elif distro == 'ubuntu19.04':
835 image = find_image(
835 image = find_image(
836 ec2resource,
836 ec2resource,
837 UBUNTU_ACCOUNT_ID,
837 UBUNTU_ACCOUNT_ID,
838 'ubuntu/images/hvm-ssd/ubuntu-disco-19.04-amd64-server-20190417',
838 'ubuntu/images/hvm-ssd/ubuntu-disco-19.04-amd64-server-20190918',
839 )
839 )
840 ssh_username = 'ubuntu'
840 ssh_username = 'ubuntu'
841 else:
841 else:
842 raise ValueError('unsupported Linux distro: %s' % distro)
842 raise ValueError('unsupported Linux distro: %s' % distro)
843
843
844 config = {
844 config = {
845 'BlockDeviceMappings': [
845 'BlockDeviceMappings': [
846 {
846 {
847 'DeviceName': image.block_device_mappings[0]['DeviceName'],
847 'DeviceName': image.block_device_mappings[0]['DeviceName'],
848 'Ebs': {
848 'Ebs': {
849 'DeleteOnTermination': True,
849 'DeleteOnTermination': True,
850 'VolumeSize': 10,
850 'VolumeSize': 10,
851 'VolumeType': 'gp2',
851 'VolumeType': 'gp2',
852 },
852 },
853 },
853 },
854 ],
854 ],
855 'EbsOptimized': True,
855 'EbsOptimized': True,
856 'ImageId': image.id,
856 'ImageId': image.id,
857 'InstanceInitiatedShutdownBehavior': 'stop',
857 'InstanceInitiatedShutdownBehavior': 'stop',
858 # 8 VCPUs for compiling Python.
858 # 8 VCPUs for compiling Python.
859 'InstanceType': 't3.2xlarge',
859 'InstanceType': 't3.2xlarge',
860 'KeyName': '%sautomation' % prefix,
860 'KeyName': '%sautomation' % prefix,
861 'MaxCount': 1,
861 'MaxCount': 1,
862 'MinCount': 1,
862 'MinCount': 1,
863 'SecurityGroupIds': [c.security_groups['linux-dev-1'].id],
863 'SecurityGroupIds': [c.security_groups['linux-dev-1'].id],
864 }
864 }
865
865
866 requirements2_path = (pathlib.Path(__file__).parent.parent /
866 requirements2_path = (pathlib.Path(__file__).parent.parent /
867 'linux-requirements-py2.txt')
867 'linux-requirements-py2.txt')
868 requirements3_path = (pathlib.Path(__file__).parent.parent /
868 requirements3_path = (pathlib.Path(__file__).parent.parent /
869 'linux-requirements-py3.txt')
869 'linux-requirements-py3.txt')
870 with requirements2_path.open('r', encoding='utf-8') as fh:
870 with requirements2_path.open('r', encoding='utf-8') as fh:
871 requirements2 = fh.read()
871 requirements2 = fh.read()
872 with requirements3_path.open('r', encoding='utf-8') as fh:
872 with requirements3_path.open('r', encoding='utf-8') as fh:
873 requirements3 = fh.read()
873 requirements3 = fh.read()
874
874
875 # Compute a deterministic fingerprint to determine whether image needs to
875 # Compute a deterministic fingerprint to determine whether image needs to
876 # be regenerated.
876 # be regenerated.
877 fingerprint = resolve_fingerprint({
877 fingerprint = resolve_fingerprint({
878 'instance_config': config,
878 'instance_config': config,
879 'bootstrap_script': BOOTSTRAP_DEBIAN,
879 'bootstrap_script': BOOTSTRAP_DEBIAN,
880 'requirements_py2': requirements2,
880 'requirements_py2': requirements2,
881 'requirements_py3': requirements3,
881 'requirements_py3': requirements3,
882 })
882 })
883
883
884 existing_image = find_and_reconcile_image(ec2resource, name, fingerprint)
884 existing_image = find_and_reconcile_image(ec2resource, name, fingerprint)
885
885
886 if existing_image:
886 if existing_image:
887 return existing_image
887 return existing_image
888
888
889 print('no suitable %s image found; creating one...' % name)
889 print('no suitable %s image found; creating one...' % name)
890
890
891 with temporary_ec2_instances(ec2resource, config) as instances:
891 with temporary_ec2_instances(ec2resource, config) as instances:
892 wait_for_ip_addresses(instances)
892 wait_for_ip_addresses(instances)
893
893
894 instance = instances[0]
894 instance = instances[0]
895
895
896 client = wait_for_ssh(
896 client = wait_for_ssh(
897 instance.public_ip_address, 22,
897 instance.public_ip_address, 22,
898 username=ssh_username,
898 username=ssh_username,
899 key_filename=str(c.key_pair_path_private('automation')))
899 key_filename=str(c.key_pair_path_private('automation')))
900
900
901 home = '/home/%s' % ssh_username
901 home = '/home/%s' % ssh_username
902
902
903 with client:
903 with client:
904 print('connecting to SSH server')
904 print('connecting to SSH server')
905 sftp = client.open_sftp()
905 sftp = client.open_sftp()
906
906
907 print('uploading bootstrap files')
907 print('uploading bootstrap files')
908 with sftp.open('%s/bootstrap' % home, 'wb') as fh:
908 with sftp.open('%s/bootstrap' % home, 'wb') as fh:
909 fh.write(BOOTSTRAP_DEBIAN)
909 fh.write(BOOTSTRAP_DEBIAN)
910 fh.chmod(0o0700)
910 fh.chmod(0o0700)
911
911
912 with sftp.open('%s/requirements-py2.txt' % home, 'wb') as fh:
912 with sftp.open('%s/requirements-py2.txt' % home, 'wb') as fh:
913 fh.write(requirements2)
913 fh.write(requirements2)
914 fh.chmod(0o0700)
914 fh.chmod(0o0700)
915
915
916 with sftp.open('%s/requirements-py3.txt' % home, 'wb') as fh:
916 with sftp.open('%s/requirements-py3.txt' % home, 'wb') as fh:
917 fh.write(requirements3)
917 fh.write(requirements3)
918 fh.chmod(0o0700)
918 fh.chmod(0o0700)
919
919
920 print('executing bootstrap')
920 print('executing bootstrap')
921 chan, stdin, stdout = ssh_exec_command(client,
921 chan, stdin, stdout = ssh_exec_command(client,
922 '%s/bootstrap' % home)
922 '%s/bootstrap' % home)
923 stdin.close()
923 stdin.close()
924
924
925 for line in stdout:
925 for line in stdout:
926 print(line, end='')
926 print(line, end='')
927
927
928 res = chan.recv_exit_status()
928 res = chan.recv_exit_status()
929 if res:
929 if res:
930 raise Exception('non-0 exit from bootstrap: %d' % res)
930 raise Exception('non-0 exit from bootstrap: %d' % res)
931
931
932 print('bootstrap completed; stopping %s to create %s' % (
932 print('bootstrap completed; stopping %s to create %s' % (
933 instance.id, name))
933 instance.id, name))
934
934
935 return create_ami_from_instance(ec2client, instance, name,
935 return create_ami_from_instance(ec2client, instance, name,
936 'Mercurial Linux development environment',
936 'Mercurial Linux development environment',
937 fingerprint)
937 fingerprint)
938
938
939
939
940 @contextlib.contextmanager
940 @contextlib.contextmanager
941 def temporary_linux_dev_instances(c: AWSConnection, image, instance_type,
941 def temporary_linux_dev_instances(c: AWSConnection, image, instance_type,
942 prefix='hg-', ensure_extra_volume=False):
942 prefix='hg-', ensure_extra_volume=False):
943 """Create temporary Linux development EC2 instances.
943 """Create temporary Linux development EC2 instances.
944
944
945 Context manager resolves to a list of ``ec2.Instance`` that were created
945 Context manager resolves to a list of ``ec2.Instance`` that were created
946 and are running.
946 and are running.
947
947
948 ``ensure_extra_volume`` can be set to ``True`` to require that instances
948 ``ensure_extra_volume`` can be set to ``True`` to require that instances
949 have a 2nd storage volume available other than the primary AMI volume.
949 have a 2nd storage volume available other than the primary AMI volume.
950 For instance types with instance storage, this does nothing special.
950 For instance types with instance storage, this does nothing special.
951 But for instance types without instance storage, an additional EBS volume
951 But for instance types without instance storage, an additional EBS volume
952 will be added to the instance.
952 will be added to the instance.
953
953
954 Instances have an ``ssh_client`` attribute containing a paramiko SSHClient
954 Instances have an ``ssh_client`` attribute containing a paramiko SSHClient
955 instance bound to the instance.
955 instance bound to the instance.
956
956
957 Instances have an ``ssh_private_key_path`` attributing containing the
957 Instances have an ``ssh_private_key_path`` attributing containing the
958 str path to the SSH private key to connect to the instance.
958 str path to the SSH private key to connect to the instance.
959 """
959 """
960
960
961 block_device_mappings = [
961 block_device_mappings = [
962 {
962 {
963 'DeviceName': image.block_device_mappings[0]['DeviceName'],
963 'DeviceName': image.block_device_mappings[0]['DeviceName'],
964 'Ebs': {
964 'Ebs': {
965 'DeleteOnTermination': True,
965 'DeleteOnTermination': True,
966 'VolumeSize': 12,
966 'VolumeSize': 12,
967 'VolumeType': 'gp2',
967 'VolumeType': 'gp2',
968 },
968 },
969 }
969 }
970 ]
970 ]
971
971
972 # This is not an exhaustive list of instance types having instance storage.
972 # This is not an exhaustive list of instance types having instance storage.
973 # But
973 # But
974 if (ensure_extra_volume
974 if (ensure_extra_volume
975 and not instance_type.startswith(tuple(INSTANCE_TYPES_WITH_STORAGE))):
975 and not instance_type.startswith(tuple(INSTANCE_TYPES_WITH_STORAGE))):
976 main_device = block_device_mappings[0]['DeviceName']
976 main_device = block_device_mappings[0]['DeviceName']
977
977
978 if main_device == 'xvda':
978 if main_device == 'xvda':
979 second_device = 'xvdb'
979 second_device = 'xvdb'
980 elif main_device == '/dev/sda1':
980 elif main_device == '/dev/sda1':
981 second_device = '/dev/sdb'
981 second_device = '/dev/sdb'
982 else:
982 else:
983 raise ValueError('unhandled primary EBS device name: %s' %
983 raise ValueError('unhandled primary EBS device name: %s' %
984 main_device)
984 main_device)
985
985
986 block_device_mappings.append({
986 block_device_mappings.append({
987 'DeviceName': second_device,
987 'DeviceName': second_device,
988 'Ebs': {
988 'Ebs': {
989 'DeleteOnTermination': True,
989 'DeleteOnTermination': True,
990 'VolumeSize': 8,
990 'VolumeSize': 8,
991 'VolumeType': 'gp2',
991 'VolumeType': 'gp2',
992 }
992 }
993 })
993 })
994
994
995 config = {
995 config = {
996 'BlockDeviceMappings': block_device_mappings,
996 'BlockDeviceMappings': block_device_mappings,
997 'EbsOptimized': True,
997 'EbsOptimized': True,
998 'ImageId': image.id,
998 'ImageId': image.id,
999 'InstanceInitiatedShutdownBehavior': 'terminate',
999 'InstanceInitiatedShutdownBehavior': 'terminate',
1000 'InstanceType': instance_type,
1000 'InstanceType': instance_type,
1001 'KeyName': '%sautomation' % prefix,
1001 'KeyName': '%sautomation' % prefix,
1002 'MaxCount': 1,
1002 'MaxCount': 1,
1003 'MinCount': 1,
1003 'MinCount': 1,
1004 'SecurityGroupIds': [c.security_groups['linux-dev-1'].id],
1004 'SecurityGroupIds': [c.security_groups['linux-dev-1'].id],
1005 }
1005 }
1006
1006
1007 with temporary_ec2_instances(c.ec2resource, config) as instances:
1007 with temporary_ec2_instances(c.ec2resource, config) as instances:
1008 wait_for_ip_addresses(instances)
1008 wait_for_ip_addresses(instances)
1009
1009
1010 ssh_private_key_path = str(c.key_pair_path_private('automation'))
1010 ssh_private_key_path = str(c.key_pair_path_private('automation'))
1011
1011
1012 for instance in instances:
1012 for instance in instances:
1013 client = wait_for_ssh(
1013 client = wait_for_ssh(
1014 instance.public_ip_address, 22,
1014 instance.public_ip_address, 22,
1015 username='hg',
1015 username='hg',
1016 key_filename=ssh_private_key_path)
1016 key_filename=ssh_private_key_path)
1017
1017
1018 instance.ssh_client = client
1018 instance.ssh_client = client
1019 instance.ssh_private_key_path = ssh_private_key_path
1019 instance.ssh_private_key_path = ssh_private_key_path
1020
1020
1021 try:
1021 try:
1022 yield instances
1022 yield instances
1023 finally:
1023 finally:
1024 for instance in instances:
1024 for instance in instances:
1025 instance.ssh_client.close()
1025 instance.ssh_client.close()
1026
1026
1027
1027
1028 def ensure_windows_dev_ami(c: AWSConnection, prefix='hg-',
1028 def ensure_windows_dev_ami(c: AWSConnection, prefix='hg-',
1029 base_image_name=WINDOWS_BASE_IMAGE_NAME):
1029 base_image_name=WINDOWS_BASE_IMAGE_NAME):
1030 """Ensure Windows Development AMI is available and up-to-date.
1030 """Ensure Windows Development AMI is available and up-to-date.
1031
1031
1032 If necessary, a modern AMI will be built by starting a temporary EC2
1032 If necessary, a modern AMI will be built by starting a temporary EC2
1033 instance and bootstrapping it.
1033 instance and bootstrapping it.
1034
1034
1035 Obsolete AMIs will be deleted so there is only a single AMI having the
1035 Obsolete AMIs will be deleted so there is only a single AMI having the
1036 desired name.
1036 desired name.
1037
1037
1038 Returns an ``ec2.Image`` of either an existing AMI or a newly-built
1038 Returns an ``ec2.Image`` of either an existing AMI or a newly-built
1039 one.
1039 one.
1040 """
1040 """
1041 ec2client = c.ec2client
1041 ec2client = c.ec2client
1042 ec2resource = c.ec2resource
1042 ec2resource = c.ec2resource
1043 ssmclient = c.session.client('ssm')
1043 ssmclient = c.session.client('ssm')
1044
1044
1045 name = '%s%s' % (prefix, 'windows-dev')
1045 name = '%s%s' % (prefix, 'windows-dev')
1046
1046
1047 image = find_image(ec2resource, AMAZON_ACCOUNT_ID, base_image_name)
1047 image = find_image(ec2resource, AMAZON_ACCOUNT_ID, base_image_name)
1048
1048
1049 config = {
1049 config = {
1050 'BlockDeviceMappings': [
1050 'BlockDeviceMappings': [
1051 {
1051 {
1052 'DeviceName': '/dev/sda1',
1052 'DeviceName': '/dev/sda1',
1053 'Ebs': {
1053 'Ebs': {
1054 'DeleteOnTermination': True,
1054 'DeleteOnTermination': True,
1055 'VolumeSize': 32,
1055 'VolumeSize': 32,
1056 'VolumeType': 'gp2',
1056 'VolumeType': 'gp2',
1057 },
1057 },
1058 }
1058 }
1059 ],
1059 ],
1060 'ImageId': image.id,
1060 'ImageId': image.id,
1061 'InstanceInitiatedShutdownBehavior': 'stop',
1061 'InstanceInitiatedShutdownBehavior': 'stop',
1062 'InstanceType': 't3.medium',
1062 'InstanceType': 't3.medium',
1063 'KeyName': '%sautomation' % prefix,
1063 'KeyName': '%sautomation' % prefix,
1064 'MaxCount': 1,
1064 'MaxCount': 1,
1065 'MinCount': 1,
1065 'MinCount': 1,
1066 'SecurityGroupIds': [c.security_groups['windows-dev-1'].id],
1066 'SecurityGroupIds': [c.security_groups['windows-dev-1'].id],
1067 }
1067 }
1068
1068
1069 commands = [
1069 commands = [
1070 # Need to start the service so sshd_config is generated.
1070 # Need to start the service so sshd_config is generated.
1071 'Start-Service sshd',
1071 'Start-Service sshd',
1072 'Write-Output "modifying sshd_config"',
1072 'Write-Output "modifying sshd_config"',
1073 r'$content = Get-Content C:\ProgramData\ssh\sshd_config',
1073 r'$content = Get-Content C:\ProgramData\ssh\sshd_config',
1074 '$content = $content -replace "Match Group administrators","" -replace "AuthorizedKeysFile __PROGRAMDATA__/ssh/administrators_authorized_keys",""',
1074 '$content = $content -replace "Match Group administrators","" -replace "AuthorizedKeysFile __PROGRAMDATA__/ssh/administrators_authorized_keys",""',
1075 r'$content | Set-Content C:\ProgramData\ssh\sshd_config',
1075 r'$content | Set-Content C:\ProgramData\ssh\sshd_config',
1076 'Import-Module OpenSSHUtils',
1076 'Import-Module OpenSSHUtils',
1077 r'Repair-SshdConfigPermission C:\ProgramData\ssh\sshd_config -Confirm:$false',
1077 r'Repair-SshdConfigPermission C:\ProgramData\ssh\sshd_config -Confirm:$false',
1078 'Restart-Service sshd',
1078 'Restart-Service sshd',
1079 'Write-Output "installing OpenSSL client"',
1079 'Write-Output "installing OpenSSL client"',
1080 'Add-WindowsCapability -Online -Name OpenSSH.Client~~~~0.0.1.0',
1080 'Add-WindowsCapability -Online -Name OpenSSH.Client~~~~0.0.1.0',
1081 'Set-Service -Name sshd -StartupType "Automatic"',
1081 'Set-Service -Name sshd -StartupType "Automatic"',
1082 'Write-Output "OpenSSH server running"',
1082 'Write-Output "OpenSSH server running"',
1083 ]
1083 ]
1084
1084
1085 with INSTALL_WINDOWS_DEPENDENCIES.open('r', encoding='utf-8') as fh:
1085 with INSTALL_WINDOWS_DEPENDENCIES.open('r', encoding='utf-8') as fh:
1086 commands.extend(l.rstrip() for l in fh)
1086 commands.extend(l.rstrip() for l in fh)
1087
1087
1088 # Disable Windows Defender when bootstrapping because it just slows
1088 # Disable Windows Defender when bootstrapping because it just slows
1089 # things down.
1089 # things down.
1090 commands.insert(0, 'Set-MpPreference -DisableRealtimeMonitoring $true')
1090 commands.insert(0, 'Set-MpPreference -DisableRealtimeMonitoring $true')
1091 commands.append('Set-MpPreference -DisableRealtimeMonitoring $false')
1091 commands.append('Set-MpPreference -DisableRealtimeMonitoring $false')
1092
1092
1093 # Compute a deterministic fingerprint to determine whether image needs
1093 # Compute a deterministic fingerprint to determine whether image needs
1094 # to be regenerated.
1094 # to be regenerated.
1095 fingerprint = resolve_fingerprint({
1095 fingerprint = resolve_fingerprint({
1096 'instance_config': config,
1096 'instance_config': config,
1097 'user_data': WINDOWS_USER_DATA,
1097 'user_data': WINDOWS_USER_DATA,
1098 'initial_bootstrap': WINDOWS_BOOTSTRAP_POWERSHELL,
1098 'initial_bootstrap': WINDOWS_BOOTSTRAP_POWERSHELL,
1099 'bootstrap_commands': commands,
1099 'bootstrap_commands': commands,
1100 'base_image_name': base_image_name,
1100 'base_image_name': base_image_name,
1101 })
1101 })
1102
1102
1103 existing_image = find_and_reconcile_image(ec2resource, name, fingerprint)
1103 existing_image = find_and_reconcile_image(ec2resource, name, fingerprint)
1104
1104
1105 if existing_image:
1105 if existing_image:
1106 return existing_image
1106 return existing_image
1107
1107
1108 print('no suitable Windows development image found; creating one...')
1108 print('no suitable Windows development image found; creating one...')
1109
1109
1110 with create_temp_windows_ec2_instances(c, config) as instances:
1110 with create_temp_windows_ec2_instances(c, config) as instances:
1111 assert len(instances) == 1
1111 assert len(instances) == 1
1112 instance = instances[0]
1112 instance = instances[0]
1113
1113
1114 wait_for_ssm(ssmclient, [instance])
1114 wait_for_ssm(ssmclient, [instance])
1115
1115
1116 # On first boot, install various Windows updates.
1116 # On first boot, install various Windows updates.
1117 # We would ideally use PowerShell Remoting for this. However, there are
1117 # We would ideally use PowerShell Remoting for this. However, there are
1118 # trust issues that make it difficult to invoke Windows Update
1118 # trust issues that make it difficult to invoke Windows Update
1119 # remotely. So we use SSM, which has a mechanism for running Windows
1119 # remotely. So we use SSM, which has a mechanism for running Windows
1120 # Update.
1120 # Update.
1121 print('installing Windows features...')
1121 print('installing Windows features...')
1122 run_ssm_command(
1122 run_ssm_command(
1123 ssmclient,
1123 ssmclient,
1124 [instance],
1124 [instance],
1125 'AWS-RunPowerShellScript',
1125 'AWS-RunPowerShellScript',
1126 {
1126 {
1127 'commands': WINDOWS_BOOTSTRAP_POWERSHELL.split('\n'),
1127 'commands': WINDOWS_BOOTSTRAP_POWERSHELL.split('\n'),
1128 },
1128 },
1129 )
1129 )
1130
1130
1131 # Reboot so all updates are fully applied.
1131 # Reboot so all updates are fully applied.
1132 #
1132 #
1133 # We don't use instance.reboot() here because it is asynchronous and
1133 # We don't use instance.reboot() here because it is asynchronous and
1134 # we don't know when exactly the instance has rebooted. It could take
1134 # we don't know when exactly the instance has rebooted. It could take
1135 # a while to stop and we may start trying to interact with the instance
1135 # a while to stop and we may start trying to interact with the instance
1136 # before it has rebooted.
1136 # before it has rebooted.
1137 print('rebooting instance %s' % instance.id)
1137 print('rebooting instance %s' % instance.id)
1138 instance.stop()
1138 instance.stop()
1139 ec2client.get_waiter('instance_stopped').wait(
1139 ec2client.get_waiter('instance_stopped').wait(
1140 InstanceIds=[instance.id],
1140 InstanceIds=[instance.id],
1141 WaiterConfig={
1141 WaiterConfig={
1142 'Delay': 5,
1142 'Delay': 5,
1143 })
1143 })
1144
1144
1145 instance.start()
1145 instance.start()
1146 wait_for_ip_addresses([instance])
1146 wait_for_ip_addresses([instance])
1147
1147
1148 # There is a race condition here between the User Data PS script running
1148 # There is a race condition here between the User Data PS script running
1149 # and us connecting to WinRM. This can manifest as
1149 # and us connecting to WinRM. This can manifest as
1150 # "AuthorizationManager check failed" failures during run_powershell().
1150 # "AuthorizationManager check failed" failures during run_powershell().
1151 # TODO figure out a workaround.
1151 # TODO figure out a workaround.
1152
1152
1153 print('waiting for Windows Remote Management to come back...')
1153 print('waiting for Windows Remote Management to come back...')
1154 client = wait_for_winrm(instance.public_ip_address, 'Administrator',
1154 client = wait_for_winrm(instance.public_ip_address, 'Administrator',
1155 c.automation.default_password())
1155 c.automation.default_password())
1156 print('established WinRM connection to %s' % instance.id)
1156 print('established WinRM connection to %s' % instance.id)
1157 instance.winrm_client = client
1157 instance.winrm_client = client
1158
1158
1159 print('bootstrapping instance...')
1159 print('bootstrapping instance...')
1160 run_powershell(instance.winrm_client, '\n'.join(commands))
1160 run_powershell(instance.winrm_client, '\n'.join(commands))
1161
1161
1162 print('bootstrap completed; stopping %s to create image' % instance.id)
1162 print('bootstrap completed; stopping %s to create image' % instance.id)
1163 return create_ami_from_instance(ec2client, instance, name,
1163 return create_ami_from_instance(ec2client, instance, name,
1164 'Mercurial Windows development environment',
1164 'Mercurial Windows development environment',
1165 fingerprint)
1165 fingerprint)
1166
1166
1167
1167
1168 @contextlib.contextmanager
1168 @contextlib.contextmanager
1169 def temporary_windows_dev_instances(c: AWSConnection, image, instance_type,
1169 def temporary_windows_dev_instances(c: AWSConnection, image, instance_type,
1170 prefix='hg-', disable_antivirus=False):
1170 prefix='hg-', disable_antivirus=False):
1171 """Create a temporary Windows development EC2 instance.
1171 """Create a temporary Windows development EC2 instance.
1172
1172
1173 Context manager resolves to the list of ``EC2.Instance`` that were created.
1173 Context manager resolves to the list of ``EC2.Instance`` that were created.
1174 """
1174 """
1175 config = {
1175 config = {
1176 'BlockDeviceMappings': [
1176 'BlockDeviceMappings': [
1177 {
1177 {
1178 'DeviceName': '/dev/sda1',
1178 'DeviceName': '/dev/sda1',
1179 'Ebs': {
1179 'Ebs': {
1180 'DeleteOnTermination': True,
1180 'DeleteOnTermination': True,
1181 'VolumeSize': 32,
1181 'VolumeSize': 32,
1182 'VolumeType': 'gp2',
1182 'VolumeType': 'gp2',
1183 },
1183 },
1184 }
1184 }
1185 ],
1185 ],
1186 'ImageId': image.id,
1186 'ImageId': image.id,
1187 'InstanceInitiatedShutdownBehavior': 'stop',
1187 'InstanceInitiatedShutdownBehavior': 'stop',
1188 'InstanceType': instance_type,
1188 'InstanceType': instance_type,
1189 'KeyName': '%sautomation' % prefix,
1189 'KeyName': '%sautomation' % prefix,
1190 'MaxCount': 1,
1190 'MaxCount': 1,
1191 'MinCount': 1,
1191 'MinCount': 1,
1192 'SecurityGroupIds': [c.security_groups['windows-dev-1'].id],
1192 'SecurityGroupIds': [c.security_groups['windows-dev-1'].id],
1193 }
1193 }
1194
1194
1195 with create_temp_windows_ec2_instances(c, config) as instances:
1195 with create_temp_windows_ec2_instances(c, config) as instances:
1196 if disable_antivirus:
1196 if disable_antivirus:
1197 for instance in instances:
1197 for instance in instances:
1198 run_powershell(
1198 run_powershell(
1199 instance.winrm_client,
1199 instance.winrm_client,
1200 'Set-MpPreference -DisableRealtimeMonitoring $true')
1200 'Set-MpPreference -DisableRealtimeMonitoring $true')
1201
1201
1202 yield instances
1202 yield instances
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